diff --git a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7.h b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7.h index d3baf45d2f..0f2d0cf3c0 100644 --- a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7.h +++ b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7.h @@ -1,7945 +1,8014 @@ - -/****************************************************************************************************//** - * @file CMEM7.h - * - * @brief CMSIS Cortex-M3 Peripheral Access Layer Header File for - * CMEM7 from . - * - * @version V1.0 - * @date 5. June 2014 - * - * @note Generated with SVDConv V2.75 - * from CMSIS SVD File 'SVDConv_CME_M7.svd' Version 1.0, - *******************************************************************************************************/ - - - -/** @addtogroup (null) - * @{ - */ - -/** @addtogroup CMEM7 - * @{ - */ - -#ifndef CMEM7_H -#define CMEM7_H - -#ifdef __cplusplus -extern "C" { -#endif - - -/* ------------------------- Interrupt Number Definition ------------------------ */ - -typedef enum { -/* ------------------- Cortex-M3 Processor Exceptions Numbers ------------------- */ - Reset_IRQn = -15, /*!< 1 Reset Vector, invoked on Power up and warm reset */ - NonMaskableInt_IRQn = -14, /*!< 2 Non maskable Interrupt, cannot be stopped or preempted */ - HardFault_IRQn = -13, /*!< 3 Hard Fault, all classes of Fault */ - MemoryManagement_IRQn = -12, /*!< 4 Memory Management, MPU mismatch, including Access Violation - and No Match */ - BusFault_IRQn = -11, /*!< 5 Bus Fault, Pre-Fetch-, Memory Access Fault, other address/memory - related Fault */ - UsageFault_IRQn = -10, /*!< 6 Usage Fault, i.e. Undef Instruction, Illegal State Transition */ - SVCall_IRQn = -5, /*!< 11 System Service Call via SVC instruction */ - DebugMonitor_IRQn = -4, /*!< 12 Debug Monitor */ - PendSV_IRQn = -2, /*!< 14 Pendable request for system service */ - SysTick_IRQn = -1, /*!< 15 System Tick Timer */ -/* ---------------------- CMEM7 Specific Interrupt Numbers ---------------------- */ - ETH_INT_IRQn = 0, /*!< 0 ETH_INT */ - USB_INT_IRQn = 1, /*!< 1 USB_INT */ - DMA_INT_IRQn = 2, /*!< 2 DMA_INT */ - CAN0_INT_IRQn = 3, /*!< 3 CAN0_INT */ - CAN1_INT_IRQn = 4, /*!< 4 CAN1_INT */ - FP0_INT_IRQn = 5, /*!< 5 FP0_INT */ - FP1_INT_IRQn = 6, /*!< 6 FP1_INT */ - FP2_INT_IRQn = 7, /*!< 7 FP2_INT */ - FP3_INT_IRQn = 8, /*!< 8 FP3_INT */ - FP4_INT_IRQn = 9, /*!< 9 FP4_INT */ - FP5_INT_IRQn = 10, /*!< 10 FP5_INT */ - FP6_INT_IRQn = 11, /*!< 11 FP6_INT */ - FP7_INT_IRQn = 12, /*!< 12 FP7_INT */ - FP8_INT_IRQn = 13, /*!< 13 FP8_INT */ - FP9_INT_IRQn = 14, /*!< 14 FP9_INT */ - FP10_INT_IRQn = 15, /*!< 15 FP10_INT */ - FP11_INT_IRQn = 16, /*!< 16 FP11_INT */ - FP12_INT_IRQn = 17, /*!< 17 FP12_INT */ - FP13_INT_IRQn = 18, /*!< 18 FP13_INT */ - FP14_INT_IRQn = 19, /*!< 19 FP14_INT */ - FP15_INT_IRQn = 20, /*!< 20 FP15_INT */ - UART0_INT_IRQn = 21, /*!< 21 UART0_INT */ - UART1_INT_IRQn = 22, /*!< 22 UART1_INT */ - ADC_INT_IRQn = 23, /*!< 23 ADC_INT */ - GPIO_INT_IRQn = 24, /*!< 24 GPIO_INT */ - SPI1_INT_IRQn = 25, /*!< 25 SPI1_INT */ - I2C1_INT_IRQn = 26, /*!< 26 I2C1_INT */ - SPI0_INT_IRQn = 27, /*!< 27 SPI0_INT */ - I2C0_INT_IRQn = 28, /*!< 28 I2C0_INT */ - RTC_1S_INT_IRQn = 29, /*!< 29 RTC_1S_INT */ - RTC_1MS_INT_IRQn = 30, /*!< 30 RTC_1MS_INT */ - WDG_INT_IRQn = 31, /*!< 31 WDG_INT */ - TIMER_INT_IRQn = 32, /*!< 32 TIMER_INT */ - DDRC_SW_PROC_IRQn = 33, /*!< 33 DDRC_SW_PROC */ - ETH_PMT_INT_IRQn = 34, /*!< 34 ETH_PMT_INT */ - PAD_INT_IRQn = 35, /*!< 35 PAD_INT */ - DDRC_LANE_SYNC_IRQn = 36, /*!< 36 DDRC_LANE_SYNC */ - UART2_INT_IRQn = 37 /*!< 37 UART2_INT */ -} IRQn_Type; - - -/** @addtogroup Configuration_of_CMSIS - * @{ - */ - - -/* ================================================================================ */ -/* ================ Processor and Core Peripheral Section ================ */ -/* ================================================================================ */ - -/* ----------------Configuration of the Cortex-M3 Processor and Core Peripherals---------------- */ -#define __CM3_REV 0x0000 /*!< Cortex-M3 Core Revision */ -#define __MPU_PRESENT 0 /*!< MPU present or not */ -#define __NVIC_PRIO_BITS 0 /*!< Number of Bits used for Priority Levels */ -#define __Vendor_SysTickConfig 0 /*!< Set to 1 if different SysTick Config is used */ -/** @} */ /* End of group Configuration_of_CMSIS */ - -#include /*!< Cortex-M3 processor and core peripherals */ -#include "system_cmem7.h" /*!< CMEM7 System */ - - -/* ================================================================================ */ -/* ================ Device Specific Peripheral Section ================ */ -/* ================================================================================ */ - - -/** @addtogroup Device_Peripheral_Registers - * @{ - */ - - -/* ------------------- Start of section using anonymous unions ------------------ */ -#if defined(__CC_ARM) - #pragma push - #pragma anon_unions -#elif defined(__ICCARM__) - #pragma language=extended -#elif defined(__GNUC__) - /* anonymous unions are enabled by default */ -#elif defined(__TMS470__) -/* anonymous unions are enabled by default */ -#elif defined(__TASKING__) - #pragma warning 586 -#else - #warning Not supported compiler type -#endif - - - -/* ================================================================================ */ -/* ================ UART0 ================ */ -/* ================================================================================ */ - - -/** - * @brief asynchronous serial controller 0 (UART0) - */ - -typedef struct { /*!< UART0 Structure */ - __IO uint16_t BAUDRATE; /*!< baudrate Register */ - __I uint16_t RESERVED0; - __IO uint16_t TX_BUF; /*!< transmit buffer Register */ - __I uint16_t RESERVED1; - __I uint16_t RX_BUF; /*!< receive buffer Register */ - __I uint16_t RESERVED2; - - union { - __IO uint32_t CTRL; /*!< control Register */ - - struct { - __IO uint32_t MODE : 3; /*!< asc mode control */ - __IO uint32_t STOP : 2; /*!< number of stop bits selection */ - __IO uint32_t PARITY : 1; /*!< parity selection */ - __IO uint32_t LOOPBACK : 1; /*!< loopback mode enable bit */ - uint32_t : 1; - __IO uint32_t RX_EN : 1; /*!< receive enable bit */ - uint32_t : 1; - __IO uint32_t FIFO_EN : 1; /*!< FIFO enable bit */ - __IO uint32_t CTS : 1; /*!< Clear to send, enable signal to send */ - __IO uint32_t BAUD_MODE : 1; /*!< baudrate generation mode */ - __IO uint32_t RX_THRESHOLD: 5; /*!< receive threshold */ - __IO uint32_t RX_HALF_FULL: 5; /*!< receive fifi half full level */ - } CTRL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_MASK; /*!< interrupt mask register */ - - struct { - __IO uint32_t RNE : 1; /*!< Receive FIFO not empty interrupt */ - __IO uint32_t TE : 1; /*!< Transmitter FIFO empty interrupt */ - __IO uint32_t THE : 1; /*!< Transmitter FIFO at least half empty flag */ - __IO uint32_t TONE : 1; /*!< timeout when the receiver FIFO is not empty interrupt */ - __IO uint32_t TOE : 1; /*!< timeout when the receiver FIFO is empty interrupt */ - __IO uint32_t RHF : 1; /*!< receiver FIFO is half full interrupt */ - __IO uint32_t TF : 1; /*!< transmitter FIFO full interrupt */ - __IO uint32_t PE : 1; /*!< parity error interrupt */ - __IO uint32_t FE : 1; /*!< frame error interrupt */ - __IO uint32_t OE : 1; /*!< overrun error interrupt */ - __IO uint32_t RX_THRE_REACH: 1; /*!< Receive threshold reach interrupt */ - } INT_MASK_b; /*!< BitSize */ - }; - - union { - __IO uint32_t STATUS; /*!< status register */ - - struct { - __IO uint32_t RNE : 1; /*!< receiver FIFO not empty */ - __IO uint32_t TE : 1; /*!< Transmitter FIFO empty */ - __IO uint32_t THE : 1; /*!< Transmitter FIFO at least half empty flag */ - __IO uint32_t TONE : 1; /*!< timeout when the receiver FIFO is not empty */ - __IO uint32_t TOE : 1; /*!< time out when the receiver FIFO is empty */ - __IO uint32_t RHF : 1; /*!< receiver FIFO is half full */ - __IO uint32_t TF : 1; /*!< transmitter FIFO is full */ - } STATUS_b; /*!< BitSize */ - }; - __IO uint8_t TIMEOUT; /*!< timeout Register */ - __I uint8_t RESERVED3[3]; - - union { - __IO uint32_t TX_RESET; /*!< transmit reset Register */ - - struct { - __IO uint32_t EN : 1; /*!< enable */ - } TX_RESET_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RX_RESET; /*!< receive reset Register */ - - struct { - __IO uint32_t EN : 1; /*!< enable */ - } RX_RESET_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RUN; /*!< uart enable register */ - - struct { - __IO uint32_t EN : 1; /*!< enable */ - } RUN_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_RAW; /*!< raw interrupt before mask register */ - - struct { - __IO uint32_t RNE : 1; /*!< Receive FIFO not empty interrupt */ - __IO uint32_t TE : 1; /*!< Transmitter FIFO empty interrupt */ - __IO uint32_t THE : 1; /*!< Transmitter FIFO at least half empty flag */ - __IO uint32_t TONE : 1; /*!< timeout when the receiver FIFO is not empty interrupt */ - __IO uint32_t TOE : 1; /*!< timeout when the receiver FIFO is empty interrupt */ - __IO uint32_t RHF : 1; /*!< receiver FIFO is half full interrupt */ - __IO uint32_t TF : 1; /*!< transmitter FIFO full interrupt */ - __IO uint32_t PE : 1; /*!< parity error interrupt */ - __IO uint32_t FE : 1; /*!< frame error interrupt */ - __IO uint32_t OE : 1; /*!< overrun error interrupt */ - __IO uint32_t RX_THRE_REACH: 1; /*!< Receive threshold reach interrupt */ - } INT_RAW_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_SEEN; /*!< interrupt after mask register */ - - struct { - __IO uint32_t RNE : 1; /*!< Receive FIFO not empty interrupt */ - __IO uint32_t TE : 1; /*!< Transmitter FIFO empty interrupt */ - __IO uint32_t THE : 1; /*!< Transmitter FIFO at least half empty flag */ - __IO uint32_t TONE : 1; /*!< timeout when the receiver FIFO is not empty interrupt */ - __IO uint32_t TOE : 1; /*!< timeout when the receiver FIFO is empty interrupt */ - __IO uint32_t RHF : 1; /*!< receiver FIFO is half full interrupt */ - __IO uint32_t TF : 1; /*!< transmitter FIFO full interrupt */ - __IO uint32_t PE : 1; /*!< parity error interrupt */ - __IO uint32_t FE : 1; /*!< frame error interrupt */ - __IO uint32_t OE : 1; /*!< overrun error interrupt */ - __IO uint32_t RX_THRE_REACH: 1; /*!< Receive threshold reach interrupt */ - } INT_SEEN_b; /*!< BitSize */ - }; -} UART0_Type; - - -/* ================================================================================ */ -/* ================ WDG ================ */ -/* ================================================================================ */ - - -/** - * @brief watchdog (WDG) - */ - -typedef struct { /*!< WDG Structure */ - - union { - __IO uint32_t CTRL; /*!< control Register */ - - struct { - __IO uint32_t EN : 1; /*!< flag indicates if watchdog is enabled or not */ - __IO uint32_t INT_LEN : 1; /*!< watchdog report interrupt when COUNTER is 1/4 or 1/2 of LENGTH */ - } CTRL_b; /*!< BitSize */ - }; - __IO uint32_t LEN; /*!< Ticks decrease down to 25% or 50% to trigger an interrupt */ - - union { - __IO uint32_t INT_CTRL; /*!< interrupt control */ - - struct { - __IO uint32_t MASK : 1; /*!< mask register */ - __IO uint32_t TRIGGER_MODE: 1; /*!< trigger mode */ - } INT_CTRL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_STA; /*!< interrupt status register */ - - struct { - __IO uint32_t STA : 1; /*!< interrupt status */ - } INT_STA_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_RAW; /*!< interrupt raw register */ - - struct { - __IO uint32_t STA : 1; /*!< interrupt status */ - } INT_RAW_b; /*!< BitSize */ - }; - __I uint32_t CNT; /*!< counter register */ -} WDG_Type; - - -/* ================================================================================ */ -/* ================ TIMER0 ================ */ -/* ================================================================================ */ - - -/** - * @brief timer 0 (TIMER0) - */ - -typedef struct { /*!< TIMER0 Structure */ - - union { - __IO uint32_t CTRL; /*!< control Register */ - - struct { - __IO uint32_t EN : 1; /*!< flag indicates if timer is enabled or not */ - } CTRL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t TYPE; /*!< type Register */ - - struct { - __IO uint32_t SIGNLE_SHOT: 1; /*!< indicate timer generate only one interrupt if not reload */ - } TYPE_b; /*!< BitSize */ - }; - __IO uint32_t LEN; /*!< length */ - - union { - __IO uint32_t INT_EN; /*!< interrupt enable */ - - struct { - __IO uint32_t EN_REVERSE : 1; /*!< flag indicates if timer is disable or not */ - } INT_EN_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_STA; /*!< interrupt status */ - - struct { - __IO uint32_t STA : 1; /*!< interrupt status */ - } INT_STA_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_RAW; /*!< interrupt raw register */ - - struct { - __IO uint32_t STA : 1; /*!< interrupt status */ - } INT_RAW_b; /*!< BitSize */ - }; - __I uint32_t CNT; /*!< counter register */ -} TIMER0_Type; - - -/* ================================================================================ */ -/* ================ SPI0 ================ */ -/* ================================================================================ */ - - -/** - * @brief SPI 0 (SPI0) - */ - -typedef struct { /*!< SPI0 Structure */ - - union { - __I uint32_t STATUS; /*!< status Register */ - - struct { - __I uint32_t RFIFO_EMPTY: 1; /*!< receive fifo is empty */ - __I uint32_t RFIFO_FULL : 1; /*!< receive fifo is full */ - __I uint32_t RFIFO_ALMOST_EMPTY: 1; /*!< receive fifo is almost empty */ - __I uint32_t RFIFO_ALMOST_FULL: 1; /*!< receive fifo almost full */ - __I uint32_t TFIFO_EMPTY: 1; /*!< transmit fifo is empty */ - __I uint32_t TFIFO_FULL : 1; /*!< transmit fifo is full */ - __I uint32_t TFIFO_ALMOST_EMPTY: 1; /*!< transmit fifo is almost empty */ - __I uint32_t TFIFO_ALMOST_FULL: 1; /*!< transmit fifo almost full */ - __I uint32_t BUSY : 1; /*!< indecates if SPI is idle or busy */ - } STATUS_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CTRL; /*!< control Register */ - - struct { - __IO uint32_t EN : 1; /*!< indicates if SPI is enabled or not */ - __IO uint32_t RX_EN : 1; /*!< indicates if SPI receiver is enabled or not */ - __IO uint32_t CLK_HIGH : 1; /*!< indicats if idle clock polarity is high level */ - __IO uint32_t NEG_EDGE : 1; /*!< 1, indicates SPI takes sample at the rise edge and transmit - data at the trailing edge. 0, conversely. */ - __IO uint32_t TX_BIT_SEQUENCE: 1; /*!< transmit bit sequence. 0 : MSB is sent first */ - __IO uint32_t RX_BIT_SEQUENCE: 1; /*!< receive bit sequence. 0: MSB is received first */ - } CTRL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_MASK; /*!< interrupt mask Register */ - - struct { - __IO uint32_t RFIFO_UNDERFLOW: 1; /*!< receive fifo underflow interrupt */ - __IO uint32_t RFIFO_OVERFLOW: 1; /*!< receive fifo overflow interrupt */ - __IO uint32_t RFIFO_ALMOST_FULL: 1; /*!< receive fifo almost full interrupt */ - __IO uint32_t TFIFO_UNDERFLOW: 1; /*!< transmit fifo underflow interrupt */ - __IO uint32_t TFIFO_OVERFLOW: 1; /*!< transmit fifo overflow interrupt */ - __IO uint32_t TFIFO_ALMOST_EMPTY: 1; /*!< transmit fifo almost empty interrupt */ - __IO uint32_t DONE : 1; /*!< transmit done interrupt */ - } INT_MASK_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_STATUS; /*!< interrupt Register */ - - struct { - __IO uint32_t RFIFO_UNDERFLOW: 1; /*!< receive fifo underflow interrupt */ - __IO uint32_t RFIFO_OVERFLOW: 1; /*!< receive fifo overflow interrupt */ - __IO uint32_t RFIFO_ALMOST_FULL: 1; /*!< receive fifo almost full interrupt */ - __IO uint32_t TFIFO_UNDERFLOW: 1; /*!< transmit fifo underflow interrupt */ - __IO uint32_t TFIFO_OVERFLOW: 1; /*!< transmit fifo overflow interrupt */ - __IO uint32_t TFIFO_ALMOST_EMPTY: 1; /*!< transmit fifo almost empty interrupt */ - __IO uint32_t DONE : 1; /*!< transmit done interrupt */ - } INT_STATUS_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_RAW; /*!< interrupt raw Register */ - - struct { - __IO uint32_t RFIFO_UNDERFLOW: 1; /*!< receive fifo underflow interrupt */ - __IO uint32_t RFIFO_OVERFLOW: 1; /*!< receive fifo overflow interrupt */ - __IO uint32_t RFIFO_ALMOST_FULL: 1; /*!< receive fifo almost full interrupt */ - __IO uint32_t TFIFO_UNDERFLOW: 1; /*!< transmit fifo underflow interrupt */ - __IO uint32_t TFIFO_OVERFLOW: 1; /*!< transmit fifo overflow interrupt */ - __IO uint32_t TFIFO_ALMOST_EMPTY: 1; /*!< transmit fifo almost empty interrupt */ - __IO uint32_t DONE : 1; /*!< transmit done interrupt */ - } INT_RAW_b; /*!< BitSize */ - }; - - union { - __IO uint32_t BCNT; /*!< bit length while transmitting and receiving */ - - struct { - __IO uint32_t CNT : 5; /*!< bit length while transmitting and receiving, BCNT + 1 */ - } BCNT_b; /*!< BitSize */ - }; - __IO uint8_t GAP; /*!< half cycle number between continuous data frame */ - __I uint8_t RESERVED0[3]; - __IO uint16_t DIV; /*!< frequency division register, fsck = fclk_io / (DIV + 1) / 2 */ - __I uint16_t RESERVED1; - __IO uint32_t TRANS_CNT; /*!< transmit data length, data number = TRANS_CNT + 1 */ - - union { - __O uint32_t TRANS_START; /*!< transmit startup register, write 1 to trigger transmision once */ - - struct { - __O uint32_t TX_TRIGGER : 1; /*!< write 1 to trigger transmision once */ - } TRANS_START_b; /*!< BitSize */ - }; - __IO uint32_t RW_DATA; /*!< raw data register */ -} SPI0_Type; - - -/* ================================================================================ */ -/* ================ I2C0 ================ */ -/* ================================================================================ */ - - -/** - * @brief I2C 0 (I2C0) - */ - -typedef struct { /*!< I2C0 Structure */ - - union { - __IO uint32_t CTRL; /*!< control Register */ - - struct { - __IO uint32_t MODE : 1; /*!< master or slave mode */ - __IO uint32_t MASTER_ADDR_WIDTH: 1; /*!< 7- or 10-bits address as a master */ - __IO uint32_t SLAVE_ADDR_WIDTH: 1; /*!< 7- or 10-bits address width as a slave */ - } CTRL_b; /*!< BitSize */ - }; - - union { - __IO uint16_t TAR; /*!< target address Register */ - - struct { - __IO uint16_t ADDR10 : 10; /*!< 7- or 10-bits address */ - __IO uint16_t START_BYTE : 1; /*!< Enable start Byte for each transfer */ - } TAR_b; /*!< BitSize */ - }; - __I uint16_t RESERVED0; - - union { - __IO uint16_t SAR; /*!< slave address Register */ - - struct { - __IO uint16_t ADDR10 : 10; /*!< 7- or 10-bits address */ - } SAR_b; /*!< BitSize */ - }; - __I uint16_t RESERVED1; - - union { - __IO uint32_t DATA_CMD; /*!< I2C transfer data/command entry */ - - struct { - __IO uint32_t DATA : 8; /*!< 8-bits data */ - __O uint32_t RD_CMD : 1; /*!< read command for master mode only, write 0 if slave mode */ - __O uint32_t WR_CMD : 1; /*!< write command for master mode only */ - __O uint32_t WR_RD_CMD : 1; /*!< write and read command for master mode only */ - } DATA_CMD_b; /*!< BitSize */ - }; - - union { - __IO uint32_t WRITE_READ_CNT; /*!< I2C write and read data byte counter Register */ - - struct { - __IO uint32_t RD_BYTE_CNT: 9; /*!< Decide the number of bytes read back as a master-receiver */ - uint32_t : 7; - __IO uint32_t WR_BYTE_CNT: 9; /*!< Decide the number of byte to send as a master-transmitter */ - } WRITE_READ_CNT_b; /*!< BitSize */ - }; - - union { - __IO uint32_t SCL_CNT; /*!< I2C clk pulse counter */ - - struct { - __IO uint32_t HIGH_LEVEL_TICK: 16; /*!< the SCL clock high-period count */ - __IO uint32_t LOW_LEVEL_TICK: 16; /*!< the SCL clock low-period count */ - } SCL_CNT_b; /*!< BitSize */ - }; - __I uint32_t RESERVED2; - - union { - __I uint32_t INT_STATUS; /*!< I2C interrupt sources */ - - struct { - __I uint32_t RX_UNDER : 1; /*!< receiver underflow */ - __I uint32_t RX_OVER : 1; /*!< receiver overflow */ - __I uint32_t RX_FULL : 1; /*!< receiver is full */ - __I uint32_t TX_OVER : 1; /*!< transmit overflow */ - __I uint32_t TX_EMPTY : 1; /*!< transmit is empty */ - __I uint32_t RD_REQ : 1; /*!< read request */ - __I uint32_t TX_ABRT : 1; /*!< transmit abortion */ - __I uint32_t RX_DONE : 1; /*!< receive done */ - __I uint32_t TX_DONE : 1; /*!< transmit done */ - __I uint32_t WR_REQ : 1; /*!< write request */ - } INT_STATUS_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_MASK; /*!< I2C interrupt mask register */ - - struct { - __I uint32_t RX_UNDER : 1; /*!< receiver underflow */ - __I uint32_t RX_OVER : 1; /*!< receiver overflow */ - __I uint32_t RX_FULL : 1; /*!< receiver is full */ - __I uint32_t TX_OVER : 1; /*!< transmit overflow */ - __I uint32_t TX_EMPTY : 1; /*!< transmit is empty */ - __I uint32_t RD_REQ : 1; /*!< read request */ - __I uint32_t TX_ABRT : 1; /*!< transmit abortion */ - __I uint32_t RX_DONE : 1; /*!< receive done */ - __I uint32_t TX_DONE : 1; /*!< transmit done */ - __I uint32_t WR_REQ : 1; /*!< write request */ - } INT_MASK_b; /*!< BitSize */ - }; - __I uint32_t RESERVED3; - - union { - __IO uint32_t RX_TL; /*!< I2C receive FIFO threshold */ - - struct { - __IO uint32_t THRESHOLD : 5; /*!< FIFO threashold */ - } RX_TL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t TX_TL; /*!< I2C transmit FIFO threshold */ - - struct { - __IO uint32_t THRESHOLD : 5; /*!< FIFO threashold */ - } TX_TL_b; /*!< BitSize */ - }; - - union { - __I uint32_t CLR_ALL_INT; /*!< I2C clear all interrupt register */ - - struct { - __I uint32_t CLEAR : 1; /*!< Read this register to clear all individual interrupts */ - } CLR_ALL_INT_b; /*!< BitSize */ - }; - - union { - __I uint32_t CLR_RX_UNDER; /*!< I2C clear RX_UNDER interrupt */ - - struct { - __I uint32_t CLEAR : 1; /*!< Read this register to clear the RX_UNDER interrupt (bit 19) - of the I2C_STATUS register */ - } CLR_RX_UNDER_b; /*!< BitSize */ - }; - - union { - __I uint32_t CLR_RX_OVER; /*!< I2C clear RX_OVER interrupt */ - - struct { - __I uint32_t CLEAR : 1; /*!< Read this register to clear the RX_OVER interrupt (bit 20) of - the I2C_STATUS register */ - } CLR_RX_OVER_b; /*!< BitSize */ - }; - - union { - __I uint32_t CLR_TX_OVER; /*!< I2C clear TX_OVER interrupt */ - - struct { - __I uint32_t CLEAR : 1; /*!< Read this register to clear the TX_OVER interrupt (bit 22) of - the I2C_STATUS register */ - } CLR_TX_OVER_b; /*!< BitSize */ - }; - - union { - __I uint32_t CLR_RD_REQ; /*!< I2C clear RD_REQ interrupt */ - - struct { - __I uint32_t CLEAR : 1; /*!< Read this register to clear the RD_REQ interrupt (bit 24) of - the I2C_STATUS register */ - } CLR_RD_REQ_b; /*!< BitSize */ - }; - - union { - __I uint32_t CLR_TX_ABRT; /*!< I2C clear TX_ABRT interrupt */ - - struct { - __I uint32_t CLEAR : 1; /*!< Read this register to clear the TX_ABRT interrupts (bit 25 , - bit 18, bit 17, bit 16 and bit 15) of the I2C_STATUS register. */ - } CLR_TX_ABRT_b; /*!< BitSize */ - }; - - union { - __I uint32_t CLR_RX_DONE; /*!< I2C clear RX_DONE interrupt */ - - struct { - __I uint32_t CLEAR : 1; /*!< Read this register to clear the RX_DONE interrupt (bit 26) of - the I2C_STATUS register */ - } CLR_RX_DONE_b; /*!< BitSize */ - }; - - union { - __IO uint32_t ENABLE; /*!< I2C enable register */ - - struct { - __IO uint32_t EN : 1; /*!< enable device */ - uint32_t : 30; - __IO uint32_t RESET : 1; /*!< TX and RX FIFO are held in an erased state( flushed) and all - interrupts deserted */ - } ENABLE_b; /*!< BitSize */ - }; - - union { - __I uint32_t STATUS; /*!< I2C status register */ - - struct { - __I uint32_t BUSY : 1; /*!< I2C busy Status */ - __I uint32_t TX_FIFO_NOT_FULL: 1; /*!< transmit FIFO is not full */ - __I uint32_t TX_FIFO_EMPTY: 1; /*!< transmit FIFO is empty */ - __I uint32_t RX_FIFO_NOT_EMPTY: 1; /*!< receive FIFO is not empty */ - __I uint32_t RX_FIFO_FULL: 1; /*!< receive FIFO is full */ - __I uint32_t EN : 1; /*!< I2C is enabled */ - __I uint32_t TX_BYTE_W_ACK: 9; /*!< Number of bytes sent to slave with acknowledge during the last - write transaction as a master-transmitter only */ - __I uint32_t ABRT_ADDR_NOACK: 1; /*!< the address sent was not acknowledged by any slave as a master */ - __I uint32_t ABRT_TX_DATA_NOACK: 1; /*!< the data sent was not acknowledged by any slave as a master */ - __I uint32_t ABRT_SLAVE_FLUSH_TX_FIFO: 1; /*!< Slave has received a read command and some data exists in the - TX FIFO so the slave issues a TX_ABRT interrupt to flush old - data in TX FIFO */ - __I uint32_t ABRT_SLAVE_RD_IN_TX: 1; /*!< When the processor side responds to a slave mode request for - data to be transmitted to a remote master and user writes a - 1 in CMD (bit 8) of I2C_DATA_CMD register */ - __I uint32_t RX_UNDER : 1; /*!< receiver is underflow */ - __I uint32_t RX_OVER : 1; /*!< receiver is overflow */ - __I uint32_t RX_FULL : 1; /*!< receiver is full */ - __I uint32_t TX_OVER : 1; /*!< transmit is overflow */ - __I uint32_t TX_EMPTY : 1; /*!< transmit is empty */ - __I uint32_t RD_REQ : 1; /*!< read request is received */ - __I uint32_t TX_ABRT : 1; /*!< transmit is abort */ - __I uint32_t RX_DONE : 1; /*!< receive is done */ - __I uint32_t TX_DONE : 1; /*!< transmit is done */ - __I uint32_t WR_REQ : 1; /*!< write request is received */ - __I uint32_t MST_RD_FLAG: 1; /*!< Master is executing read command */ - __I uint32_t MST_WR_FLAG: 1; /*!< Master is executing read command */ - __I uint32_t MST_WR_RD_FLAG: 1; /*!< Master is executing write-read command */ - } STATUS_b; /*!< BitSize */ - }; - - union { - __I uint32_t TX_FIFO_LEVEL; /*!< I2C transmit FIFO level */ - - struct { - __I uint32_t LEVEL : 5; /*!< FIFO level */ - } TX_FIFO_LEVEL_b; /*!< BitSize */ - }; - - union { - __I uint32_t RX_FIFO_LEVEL; /*!< I2C receive FIFO level */ - - struct { - __I uint32_t LEVEL : 5; /*!< FIFO level */ - } RX_FIFO_LEVEL_b; /*!< BitSize */ - }; - __I uint32_t RESERVED4; - - union { - __O uint32_t SLAVE_NACK; /*!< I2C slave send a data NACK */ - - struct { - __O uint32_t NACK : 1; /*!< data NACK */ - } SLAVE_NACK_b; /*!< BitSize */ - }; - __I uint32_t RESERVED5; - - union { - __IO uint32_t SDA_SETUP; /*!< I2C SDA setup timer */ - - struct { - __IO uint32_t TSETUP : 10; /*!< This counter defines the max value of the following constrains:THD:STA - TSU:STO,TSETUP: T / INPUT_CLK_PERIOD */ - __IO uint32_t TSU_DAT : 8; /*!< This counter defines the constrain of TSU:DAT: 250ns (or 100ns) - / INPUT_CLK_PERIOD */ - } SDA_SETUP_b; /*!< BitSize */ - }; - - union { - __IO uint32_t TSU_STA_SETUP; /*!< I2C Tsu_sta and Tbuf_free timer */ - - struct { - __IO uint32_t TBUF : 10; /*!< This counter defines the constrain of bus free interval: Tbuf, - Tbuf : Tbus_free / INPUT_CLK_PERIOD */ - __IO uint32_t TSU_STA : 10; /*!< This counter defines the constrain of Tsu:sta, Tsu:sta : Tsu:sta - / INPUT_CLK_PERIOD */ - __IO uint32_t SDA_FILTER_CNT: 4; /*!< SDA filter count */ - __IO uint32_t SDA_FILTER_EN: 1; /*!< SDA filter enable bit */ - __IO uint32_t SCL_FILTER_CNT: 4; /*!< SCL filter count */ - __IO uint32_t SCL_FILTER_EN: 1; /*!< SCL filter enable bit */ - } TSU_STA_SETUP_b; /*!< BitSize */ - }; - - union { - __I uint32_t CLR_TX_DONE; /*!< I2C clear TX_DONE interrupt */ - - struct { - __I uint32_t CLEAR : 1; /*!< Read this register to clear the TX_DONE interrupt (bit 27) of - the I2C_STATUS register */ - } CLR_TX_DONE_b; /*!< BitSize */ - }; -} I2C0_Type; - - -/* ================================================================================ */ -/* ================ RTC ================ */ -/* ================================================================================ */ - - -/** - * @brief RTC (RTC) - */ - -typedef struct { /*!< RTC Structure */ - - union { - __IO uint32_t INT_STATUS; /*!< interrupt Register */ - - struct { - __IO uint32_t SECOND : 1; /*!< 1s interrupt, write 1 clear 0 */ - __IO uint32_t MICROSECOND: 1; /*!< 1ms interrupt, write 1 clear 0 */ - } INT_STATUS_b; /*!< BitSize */ - }; - __IO uint32_t SECOND; /*!< current seconds of system time */ - - union { - __IO uint16_t MICROSECOND; /*!< current micro seconds of system time */ - - struct { - __IO uint16_t MS : 10; /*!< micro seconds */ - } MICROSECOND_b; /*!< BitSize */ - }; -} RTC_Type; - - -/* ================================================================================ */ -/* ================ GPIO ================ */ -/* ================================================================================ */ - - -/** - * @brief GPIO (GPIO) - */ - -typedef struct { /*!< GPIO Structure */ - __I uint32_t GPIO_IN; /*!< GPIO input data */ - __IO uint32_t GPIO_OUT_UNMASK; /*!< GPIO output mask Register */ - __IO uint32_t GPIO_OUT_DATA; /*!< GPIO output data register */ - __IO uint32_t GPIO_OE; /*!< GPIO output driver enable */ - __IO uint32_t GPIO_INT_MASK; /*!< GPIO input interrupt mask */ - __IO uint32_t GPIO_INT_STATUS; /*!< GPIO input interrupt status */ - __IO uint32_t GPIO_INT_RAW; /*!< GPIO input interrupt raw */ - __IO uint32_t GPIO_POSITIVE_EDGE_INT_TRIGGER; /*!< triggers an interrupt while a positive edge, else negitive edge */ - - union { - __IO uint32_t PWM_OUT_SEL; /*!< Select gpio output from PWM */ - - struct { - __IO uint32_t GPIO_31 : 1; /*!< GPIO[31] is selected to output PWM */ - __IO uint32_t GPIO_H_9 : 1; /*!< GPIO_H[9] is selected to output PWM */ - __IO uint32_t GPIO_H_19 : 1; /*!< GPIO_H[19] is selected to output PWM */ - __IO uint32_t GPIO_H_20 : 1; /*!< GPIO_H[20] is selected to output PWM */ - } PWM_OUT_SEL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t PWM_OUT0_LEN; /*!< Pwm channel 0 paramters */ - - struct { - __IO uint32_t LOW_LEVEL_TICK: 16; /*!< low level width = ticks + 1 */ - __IO uint32_t HIGH_LEVEL_TICK: 16; /*!< high level width = ticks + 1 */ - } PWM_OUT0_LEN_b; /*!< BitSize */ - }; - - union { - __IO uint32_t PWM_OUT1_LEN; /*!< Pwm channel 1 paramters */ - - struct { - __IO uint32_t LOW_LEVEL_TICK: 16; /*!< low level width = ticks + 1 */ - __IO uint32_t HIGH_LEVEL_TICK: 16; /*!< high level width = ticks + 1 */ - } PWM_OUT1_LEN_b; /*!< BitSize */ - }; - - union { - __IO uint32_t PWM_OUT2_LEN; /*!< Pwm channel 2 paramters */ - - struct { - __IO uint32_t LOW_LEVEL_TICK: 16; /*!< low level width = ticks + 1 */ - __IO uint32_t HIGH_LEVEL_TICK: 16; /*!< high level width = ticks + 1 */ - } PWM_OUT2_LEN_b; /*!< BitSize */ - }; - - union { - __IO uint32_t PWM_OUT3_LEN; /*!< Pwm channel 3 paramters */ - - struct { - __IO uint32_t LOW_LEVEL_TICK: 16; /*!< low level width = ticks + 1 */ - __IO uint32_t HIGH_LEVEL_TICK: 16; /*!< high level width = ticks + 1 */ - } PWM_OUT3_LEN_b; /*!< BitSize */ - }; - - union { - __IO uint32_t PWM_OUT_EN; /*!< Pwm enable */ - - struct { - __IO uint32_t GPIO_31 : 1; /*!< GPIO[31] is selected to output PWM */ - __IO uint32_t GPIO_H_9 : 1; /*!< GPIO_H[9] is selected to output PWM */ - __IO uint32_t GPIO_H_19 : 1; /*!< GPIO_H[19] is selected to output PWM */ - __IO uint32_t GPIO_H_20 : 1; /*!< GPIO_H[20] is selected to output PWM */ - } PWM_OUT_EN_b; /*!< BitSize */ - }; - __I uint32_t GPIO_H_IN; /*!< GPIO_H input data */ - __IO uint32_t GPIO_H_OUT_UNMASK; /*!< GPIO_H output unmask Register */ - __IO uint32_t GPIO_H_OUT_DATA; /*!< GPIO_H output data register */ - __IO uint32_t GPIO_H_OE; /*!< GPIO_H output driver enable */ - __IO uint32_t GPIO_H_INT_MASK; /*!< GPIO_H interrupt mask */ - __IO uint32_t GPIO_H_INT_STATUS; /*!< GPIO_H interrupt status */ - __IO uint32_t GPIO_H_INT_RAW; /*!< GPIO_H interrupt raw */ - __IO uint32_t GPIO_H_POSITIVE_EDGE_INT_TRIGGER; /*!< triggers an interrupt while a positive edge, else negitive edge */ - __I uint32_t GPIO_N_IN; /*!< GPIO_N input data */ - __IO uint32_t GPIO_N_OUT_UNMASK; /*!< GPIO_N output unmask Register */ - __IO uint32_t GPIO_N_OUT_DATA; /*!< GPIO_N output data register */ - __IO uint32_t GPIO_N_OE; /*!< GPIO_N output driver enable */ - __IO uint32_t GPIO_N_INT_MASK; /*!< GPIO_N interrupt mask */ - __IO uint32_t GPIO_N_INT_STATUS; /*!< GPIO_N interrupt status */ - __IO uint32_t GPIO_N_INT_RAW; /*!< GPIO_N interrupt raw */ - __IO uint32_t GPIO_N_POSITIVE_EDGE_INT_TRIGGER; /*!< triggers an interrupt while a positive edge, else negitive edge */ -} GPIO_Type; - - -/* ================================================================================ */ -/* ================ NOR_FLASH ================ */ -/* ================================================================================ */ - - -/** - * @brief NOR_FLASH (NOR_FLASH) - */ - -typedef struct { /*!< NOR_FLASH Structure */ - - union { - __IO uint32_t CTRL0; /*!< control Register 0 */ - - struct { - __IO uint32_t DIV : 8; /*!< frequency division register, fsck = fclk_io / (DIV + 1) / 2 */ - __IO uint32_t CS_REVALID_INTERVAL: 8; /*!< interval from CS invalid to valid, number of half cycle of SCK */ - __IO uint32_t RW_BYTE_CNT: 16; /*!< RW byte count (eliminate CMD, ADDRESS, DUMMY in normal state, - contains all in transparent state. 0 is unlimited */ - } CTRL0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CTRL1; /*!< control Register 1 */ - - struct { - __IO uint32_t CMD : 8; /*!< operated command */ - __IO uint32_t ADDRESS : 24; /*!< RW address */ - } CTRL1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t TRIGGER; /*!< trigger register */ - - struct { - __O uint32_t OP_START : 1; /*!< operation start. */ - __IO uint32_t OP_CLEAN : 1; /*!< operation clean, stop current opration and clean FIFO */ - __IO uint32_t TRSP_RD_EN : 1; /*!< if a read operation after transparent operation */ - __IO uint32_t TRSP_EN : 1; /*!< enable transparent operation */ - } TRIGGER_b; /*!< BitSize */ - }; - - union { - __I uint32_t STATUS; /*!< status register */ - - struct { - __I uint32_t BUSY : 1; /*!< reading or writting */ - __I uint32_t RD_FIFO_ALMOST_FULL: 1; /*!< read FIFO is almost full */ - __I uint32_t RD_FIFO_EMPTY: 1; /*!< read FIFO is empty */ - __I uint32_t RD_FIFO_FULL: 1; /*!< read FIFO is full */ - __I uint32_t WR_FIFO_ALMOST_EMPTY: 1; /*!< write FIFO is almost empty */ - __I uint32_t WR_FIFO_FULL: 1; /*!< write FIFO is full */ - __I uint32_t WR_FIFO_EMPTY: 1; /*!< write FIFO is empty */ - } STATUS_b; /*!< BitSize */ - }; - __IO uint32_t DATA; /*!< data register. lower bits are significant in read and higher - bits are significant in writting */ - - union { - __IO uint32_t BYPASS; /*!< bypass Register, is used for JTAG connecting FLASH directly */ - - struct { - __IO uint32_t EN : 1; /*!< enable bypass */ - } BYPASS_b; /*!< BitSize */ - }; -} NOR_FLASH_Type; - - -/* ================================================================================ */ -/* ================ ADC ================ */ -/* ================================================================================ */ - - -/** - * @brief ADC (ADC) - */ - -typedef struct { /*!< ADC Structure */ - - union { - __IO uint32_t POWERDOWN_RESET; /*!< power down and reset Register */ - - struct { - __IO uint32_t RESET_ADC2 : 1; /*!< ADC2, reset, active high */ - __IO uint32_t RESET_ADC1 : 1; /*!< ADC1, reset, active high */ - __IO uint32_t POWERDOWN_ADC2: 1; /*!< ADC2, power down, active high */ - __IO uint32_t POWERDOWN_ADC1: 1; /*!< ADC1, power down, active high */ - } POWERDOWN_RESET_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG0; /*!< config Register */ - - struct { - __IO uint32_t VSEN : 3; /*!< ADC-1 VSEN Selection */ - __IO uint32_t PHASE_CTRL : 2; /*!< ADC-1 and ADC-2 CLK Phase Control */ - } CFG0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG_ADC1; /*!< config ADC1 register */ - - struct { - __IO uint32_t SYSTEM_MODE: 3; /*!< system mode selection */ - __IO uint32_t CHANNEL_SEL: 4; /*!< channel selection */ - __IO uint32_t MULTI_CHANNEL_CONTINUE_SCAN: 1;/*!< If continue to scan multiply channel, else single scan */ - __IO uint32_t MULTI_CHANNEL_BIT: 8; /*!< each bit represents each channel */ - } CFG_ADC1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG_ADC2; /*!< config ADC1 register */ - - struct { - __IO uint32_t SYSTEM_MODE: 3; /*!< system mode selection */ - __IO uint32_t CHANNEL_SEL: 4; /*!< channel selection */ - __IO uint32_t MULTI_CHANNEL_CONTINUE_SCAN: 1;/*!< If continue to scan multiply channel, else single scan */ - __IO uint32_t MULTI_CHANNEL_BIT: 8; /*!< each bit represents each channel */ - } CFG_ADC2_b; /*!< BitSize */ - }; - - union { - __IO uint32_t ADC1_FIFO_CLEAR; /*!< clear adc1 fifo data */ - - struct { - __IO uint32_t CLEAR : 1; /*!< clear fifo data, active high */ - } ADC1_FIFO_CLEAR_b; /*!< BitSize */ - }; - - union { - __IO uint32_t ADC2_FIFO_CLEAR; /*!< clear adc2 fifo data */ - - struct { - __IO uint32_t CLEAR : 1; /*!< clear fifo data, active high */ - } ADC2_FIFO_CLEAR_b; /*!< BitSize */ - }; - - union { - __IO uint32_t ALL_ADC_FIFO_CLEAR; /*!< clear adc1 and adc2 fifo data */ - - struct { - __IO uint32_t CLEAR : 1; /*!< clear fifo data, active high */ - } ALL_ADC_FIFO_CLEAR_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_MASK; /*!< interrupt mask register */ - - struct { - __IO uint32_t ADC1_ALMOST_FULL: 1; /*!< ADC 1 almost full */ - __IO uint32_t ADC1_OVERFLOW: 1; /*!< ADC 1 is overflow */ - __IO uint32_t ADC1_EMPTY_ERR: 1; /*!< ADC 1 read empty error */ - __IO uint32_t ADC2_ALMOST_FULL: 1; /*!< ADC 2 almost full */ - __IO uint32_t ADC2_OVERFLOW: 1; /*!< ADC 2 is overflow */ - __IO uint32_t ADC2_EMPTY_ERR: 1; /*!< ADC 2 read empty error */ - } INT_MASK_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_RAW; /*!< interrupt raw register */ - - struct { - __IO uint32_t ADC1_ALMOST_FULL: 1; /*!< ADC 1 almost full */ - __IO uint32_t ADC1_OVERFLOW: 1; /*!< ADC 1 is overflow */ - __IO uint32_t ADC1_EMPTY_ERR: 1; /*!< ADC 1 read empty error */ - __IO uint32_t ADC2_ALMOST_FULL: 1; /*!< ADC 2 almost full */ - __IO uint32_t ADC2_OVERFLOW: 1; /*!< ADC 2 is overflow */ - __IO uint32_t ADC2_EMPTY_ERR: 1; /*!< ADC 2 read empty error */ - } INT_RAW_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_STATUS; /*!< interrupt status register */ - - struct { - __IO uint32_t ADC1_ALMOST_FULL: 1; /*!< ADC 1 almost full */ - __IO uint32_t ADC1_OVERFLOW: 1; /*!< ADC 1 is overflow */ - __IO uint32_t ADC1_EMPTY_ERR: 1; /*!< ADC 1 read empty error */ - __IO uint32_t ADC2_ALMOST_FULL: 1; /*!< ADC 2 almost full */ - __IO uint32_t ADC2_OVERFLOW: 1; /*!< ADC 2 is overflow */ - __IO uint32_t ADC2_EMPTY_ERR: 1; /*!< ADC 2 read empty error */ - } INT_STATUS_b; /*!< BitSize */ - }; - __I uint32_t ADC1_OUT; /*!< ADC-1 Output data (Signed-Magnitude Format) */ - __I uint32_t ADC2_OUT; /*!< ADC-2 Output data (Signed-Magnitude Format) */ - __I uint32_t ADC1_OUT_OFFSET_CALIBRATION; /*!< ADC-1 Output in offset calibration when Input=0, Ideally DAO[11:0]=000h */ - __I uint32_t ADC2_OUT_OFFSET_CALIBRATION; /*!< ADC-2 Output in offset calibration when Input=0, Ideally DAO[11:0]=000h */ - __I uint32_t ADC1_OUT_NEGTIVE_GAIN_CALIBRATION; /*!< ADC-1 Output in gain calibration when Input=-FS, Ideally DAO[11:0]=801h */ - __I uint32_t ADC2_OUT_NEGTIVE_GAIN_CALIBRATION; /*!< ADC-2 Output in gain calibration when Input=-FS, Ideally DAO[11:0]=801h */ - __I uint32_t ADC1_OUT_POSITIVE_GAIN_CALIBRATION;/*!< ADC-1 Output in gain calibration when Input=FS, Ideally DAO[11:0]=7FFh */ - __I uint32_t ADC2_OUT_POSITIVE_GAIN_CALIBRATION;/*!< ADC-2 Output in gain calibration when Input=FS, Ideally DAO[11:0]=7FFh */ - - union { - __I uint32_t EOC; /*!< Conversion End Indicator */ - - struct { - __I uint32_t ADC2_EOC_GAIN: 1; /*!< ADC2 EOC_GAIN signal, conversion is done */ - __I uint32_t ADC2_EOC_OFF: 1; /*!< ADC2 EOC_OFF signal, conversion is done */ - __I uint32_t ADC2_EOC : 1; /*!< ADC2 EOC signal, conversion is done */ - __I uint32_t ADC1_EOC_GAIN: 1; /*!< ADC1 EOC_GAIN signal, conversion is done */ - __I uint32_t ADC1_EOC_OFF: 1; /*!< ADC1 EOC_OFF signal, conversion is done */ - __I uint32_t ADC1_EOC : 1; /*!< ADC1 EOC signal, conversion is done */ - } EOC_b; /*!< BitSize */ - }; - - union { - __I uint32_t BUSY; /*!< ADC is busy */ - - struct { - __I uint32_t ADC1_BUSY : 1; /*!< ADC1 is busy */ - __I uint32_t ADC2_BUSY : 1; /*!< ADC2 is busy */ - } BUSY_b; /*!< BitSize */ - }; - - union { - __O uint32_t ADC1_START; /*!< ADC1 startup enable */ - - struct { - __O uint32_t EN : 1; /*!< start */ - } ADC1_START_b; /*!< BitSize */ - }; - - union { - __O uint32_t ADC1_STOP; /*!< ADC1 stop enable */ - - struct { - __O uint32_t EN : 1; /*!< start */ - } ADC1_STOP_b; /*!< BitSize */ - }; - - union { - __O uint16_t ADC1_FIFO_READ; /*!< ADC1 FIFO read data */ - - struct { - __O uint16_t DATA : 12; /*!< data */ - __O uint16_t CHANNEL : 4; /*!< channel number */ - } ADC1_FIFO_READ_b; /*!< BitSize */ - }; - __I uint16_t RESERVED0; - - union { - __O uint32_t ADC2_START; /*!< ADC2 startup enable, only for single-conversion */ - - struct { - __O uint32_t EN : 1; /*!< start */ - } ADC2_START_b; /*!< BitSize */ - }; - - union { - __O uint32_t ADC2_STOP; /*!< ADC1 stop enable, only for single-conversion */ - - struct { - __O uint32_t EN : 1; /*!< start */ - } ADC2_STOP_b; /*!< BitSize */ - }; - - union { - __O uint16_t ADC2_FIFO_READ; /*!< ADC2 FIFO read data */ - - struct { - __O uint16_t DATA : 12; /*!< data */ - __O uint16_t CHANNEL : 4; /*!< channel number */ - } ADC2_FIFO_READ_b; /*!< BitSize */ - }; - __I uint16_t RESERVED1; - - union { - __O uint32_t ALL_ADC_START; /*!< all ADCs start */ - - struct { - __O uint32_t EN : 1; /*!< start */ - } ALL_ADC_START_b; /*!< BitSize */ - }; - - union { - __O uint32_t ALL_ADC_STOP; /*!< all ADCs stop */ - - struct { - __O uint32_t EN : 1; /*!< start */ - } ALL_ADC_STOP_b; /*!< BitSize */ - }; - - union { - __I uint32_t ALL_ADC_FIFO_READ; /*!< all ADCs FIFO read data */ - - struct { - __I uint32_t ADC1_DATA : 12; /*!< ADC1 data */ - __I uint32_t ADC1_CHANNEL: 4; /*!< ADC1 channel number */ - __I uint32_t ADC2_DATA : 12; /*!< ADC2 data */ - __I uint32_t ADC2_CHANNEL: 4; /*!< ADC2 channel number */ - } ALL_ADC_FIFO_READ_b; /*!< BitSize */ - }; - - union { - __I uint32_t STATUS; /*!< status register */ - - struct { - __I uint32_t ADC1_READ_EMPTY: 1; /*!< ADC1 read empty */ - __I uint32_t ADC2_READ_EMPTY: 1; /*!< ADC2 read empty */ - __I uint32_t ADC1_READ_ALMOST_EMPTY: 1; /*!< ADC1 read almost empty */ - __I uint32_t ADC2_READ_ALMOST_EMPTY: 1; /*!< ADC2 read almost empty */ - __I uint32_t ADC1_WRITE_FULL: 1; /*!< ADC1 write full */ - __I uint32_t ADC2_WRITE_FULL: 1; /*!< ADC2 write full */ - __I uint32_t ADC1_WRITE_ALMOST_FULL: 1; /*!< ADC1 write almost full */ - __I uint32_t ADC2_WRITE_ALMOST_FULL: 1; /*!< ADC2 write almost full */ - } STATUS_b; /*!< BitSize */ - }; -} ADC_Type; - - -/* ================================================================================ */ -/* ================ EFUSE ================ */ -/* ================================================================================ */ - - -/** - * @brief EFUSE (EFUSE) - */ - -typedef struct { /*!< EFUSE Structure */ - - union { - __IO uint32_t USER_CTRL_LOW; /*!< low user region control */ - - struct { - __IO uint32_t WR_EN : 1; /*!< write enable. 1 : write data into EFUSE. clear 0 after read */ - __IO uint32_t RD_EN : 1; /*!< read enable. 1 : write data into EFUSE. clear 0 after read */ - __I uint32_t BUSY : 1; /*!< reading or writting */ - __IO uint32_t COMPARE_FAIL: 1; /*!< data read isn't consist with EFUSE */ - __I uint32_t RD_CRC_ERR : 1; /*!< CRC error in reading */ - __I uint32_t WR_CRC_ERR : 1; /*!< CRC error in writting */ - __I uint32_t LOCK : 1; /*!< user region in EFUSE is locked, EFUSE can't be burn */ - __IO uint32_t TMRF : 2; /*!< Reference resistor select, 1200ohm is recommended */ - } USER_CTRL_LOW_b; /*!< BitSize */ - }; - - union { - __IO uint32_t TIMING_0; /*!< timing 0 */ - - struct { - __IO uint32_t TPRS : 7; /*!< TPRS */ - __IO uint32_t TESR : 2; /*!< TESR */ - __IO uint32_t TRC : 4; /*!< TRC */ - __IO uint32_t TRPW : 3; /*!< TRPW */ - __IO uint32_t TRAH : 2; /*!< TRAH */ - __IO uint32_t TRAC : 3; /*!< TRAC */ - uint32_t : 6; - __IO uint32_t TPWPH : 5; /*!< TPWPH[6:2] */ - } TIMING_0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t TIMING_1; /*!< timing 1 */ - - struct { - __IO uint32_t TPWPS : 7; /*!< TPWPS */ - __IO uint32_t TEPS : 4; /*!< TEPS */ - __IO uint32_t TPP : 11; /*!< TPP */ - __IO uint32_t TPIT : 8; /*!< TPIT */ - __IO uint32_t TPWPH : 2; /*!< TPWPS[1:0] */ - } TIMING_1_b; /*!< BitSize */ - }; - __IO uint32_t USER_DATA0_LOW; /*!< user data [31:0] */ - __IO uint32_t USER_DATA1_LOW; /*!< user data [63:32] */ - __IO uint32_t USER_DATA2_LOW; /*!< user data [95:64] */ - __IO uint32_t USER_DATA3_LOW; /*!< user data [127:96] */ - - union { - __IO uint32_t USER_DATA4_LOW; /*!< crc and lock bit */ - - struct { - __IO uint32_t LOCK : 1; /*!< write protection if true */ - uint32_t : 23; - __IO uint32_t CRC : 8; /*!< CRC */ - } USER_DATA4_LOW_b; /*!< BitSize */ - }; - __I uint32_t RESERVED0[3]; - - union { - __IO uint32_t USER_CTRL_HI; /*!< high user region control */ - - struct { - __IO uint32_t WR_EN : 1; /*!< write enable. 1 : write data into EFUSE. clear 0 after read */ - __IO uint32_t RD_EN : 1; /*!< read enable. 1 : write data into EFUSE. clear 0 after read */ - __I uint32_t BUSY : 1; /*!< reading or writting */ - __IO uint32_t COMPARE_FAIL: 1; /*!< data read isn't consist with EFUSE */ - __I uint32_t RD_CRC_ERR : 1; /*!< CRC error in reading */ - __I uint32_t WR_CRC_ERR : 1; /*!< CRC error in writting */ - __I uint32_t LOCK : 1; /*!< user region in EFUSE is locked, EFUSE can't be burn */ - __IO uint32_t TMRF : 2; /*!< Reference resistor select, 1200ohm is recommended */ - } USER_CTRL_HI_b; /*!< BitSize */ - }; - __IO uint32_t USER_DATA0_HI; /*!< user data [159:128] */ - __IO uint32_t USER_DATA1_HI; /*!< user data [191:160] */ - __IO uint32_t USER_DATA2_HI; /*!< user data [223:192] */ - __IO uint32_t USER_DATA3_HI; /*!< user data [255:224] */ - - union { - __IO uint32_t USER_DATA4_HI; /*!< crc and lock bit */ - - struct { - __IO uint32_t LOCK : 1; /*!< write protection if true */ - uint32_t : 23; - __IO uint32_t CRC : 8; /*!< CRC */ - } USER_DATA4_HI_b; /*!< BitSize */ - }; -} EFUSE_Type; - - -/* ================================================================================ */ -/* ================ CAN0 ================ */ -/* ================================================================================ */ - - -/** - * @brief CAN 0 (CAN0) - */ - -typedef struct { /*!< CAN0 Structure */ - - union { - __IO uint8_t MODE; /*!< mode Register */ - - struct { - __IO uint8_t RM : 1; /*!< reset mode if 1 or operation mode */ - __IO uint8_t LOM : 1; /*!< Listen only mode */ - __IO uint8_t STM : 1; /*!< self test mode */ - __IO uint8_t AFM : 1; /*!< acceptance filter mode. Single filter if 1, dual filter if 0 */ - __IO uint8_t SM : 1; /*!< sleep mode */ - } MODE_b; /*!< BitSize */ - }; - __I uint8_t RESERVED0[3]; - - union { - __O uint8_t CMD; /*!< command Register */ - - struct { - __O uint8_t TR : 1; /*!< Set to 1 when a message is to be transmitted */ - __O uint8_t AT : 1; /*!< Set to 1 to cancel the next transmission request */ - __O uint8_t RRB : 1; /*!< Set to 1 to release the Receive Buffer */ - __O uint8_t CDO : 1; /*!< Set to 1 to clear the data overrun condition signaled by the - Data Overrun Status bit (SR.1). */ - __O uint8_t SSR : 1; /*!< Set to 1 when a message is to be transmitted and received simultaneously */ - } CMD_b; /*!< BitSize */ - }; - __I uint8_t RESERVED1[3]; - - union { - __I uint8_t STATUS; /*!< status Register */ - - struct { - __I uint8_t RBNE : 1; /*!< Receive Buffer not empty */ - __I uint8_t DO : 1; /*!< Data Overrun Status */ - __I uint8_t TB_UNLOCK : 1; /*!< Transmit Buffer is unlocked and not in transmitting */ - __I uint8_t TC : 1; /*!< Transmission complete */ - __I uint8_t RXING : 1; /*!< receiving the data */ - __I uint8_t TXING : 1; /*!< transmitting the data */ - __I uint8_t ERR : 1; /*!< At least one of the error counters is more than Error Warning - Limit Register */ - __I uint8_t BUS_OFF : 1; /*!< in 'Bus Off' state */ - } STATUS_b; /*!< BitSize */ - }; - __I uint8_t RESERVED2[3]; - - union { - __I uint8_t INT; /*!< interrupt Register */ - - struct { - __I uint8_t RBNF : 1; /*!< Receive Buffer not empty */ - __I uint8_t TB_UNLOCK : 1; /*!< Transmit Buffer is unlocked and not in transmitting */ - __I uint8_t ERR : 1; /*!< Set on every change (set or clear) of either the Bus Status - or Error Status bits (SR.7,SR.6) */ - __I uint8_t DO : 1; /*!< Data Overrun Status */ - __I uint8_t WAKEUP : 1; /*!< wake-up */ - __I uint8_t EP : 1; /*!< Set when the MCAN2 re-enters error active state after being - in error passive state or when at least one error counter exceeds - the protocol-defined level of 127 */ - __I uint8_t AL : 1; /*!< Set when the MCAN2 loses arbitration and becomes a receiver */ - __I uint8_t BUS_ERR : 1; /*!< Set when the MCAN2 detects an error on the CAN-bus */ - } INT_b; /*!< BitSize */ - }; - __I uint8_t RESERVED3[3]; - - union { - __IO uint8_t INT_EN; /*!< interrupt enabled Register */ - - struct { - __I uint8_t RBNF : 1; /*!< Receive Buffer not empty */ - __I uint8_t TB_UNLOCK : 1; /*!< Transmit Buffer is unlocked and not in transmitting */ - __I uint8_t ERR : 1; /*!< Set on every change (set or clear) of either the Bus Status - or Error Status bits (SR.7,SR.6) */ - __I uint8_t DO : 1; /*!< Data Overrun Status */ - __I uint8_t WAKEUP : 1; /*!< wake-up */ - __I uint8_t EP : 1; /*!< Set when the MCAN2 re-enters error active state after being - in error passive state or when at least one error counter exceeds - the protocol-defined level of 127 */ - __I uint8_t AL : 1; /*!< Set when the MCAN2 loses arbitration and becomes a receiver */ - __I uint8_t BUS_ERR : 1; /*!< Set when the MCAN2 detects an error on the CAN-bus */ - } INT_EN_b; /*!< BitSize */ - }; - __I uint8_t RESERVED4[7]; - - union { - __IO uint8_t BTR0; /*!< Bus Timing 0 */ - - struct { - __IO uint8_t BRP : 6; /*!< TQ =2 x Txtal1 x (32 x BRP.5 + 16 x BRP.4 + 8 x BRP.3 + 4 x - BRP.2 + 2 x BRP.1 + BRP.0 + 1) */ - __IO uint8_t SJW : 2; /*!< the maximum number of time quanta of sync segment */ - } BTR0_b; /*!< BitSize */ - }; - __I uint8_t RESERVED5[3]; - - union { - __IO uint8_t BTR1; /*!< Bus Timing 1 */ - - struct { - __IO uint8_t TSEG1 : 4; /*!< the maximum number of time quanta of propagation and 1st phase - segment */ - __IO uint8_t TSEG2 : 3; /*!< the maximum number of time quanta of 2nd phase segment */ - __IO uint8_t SAM : 1; /*!< sample times. Sample 3 times if 1, once if 0 */ - } BTR1_b; /*!< BitSize */ - }; - __I uint8_t RESERVED6[3]; - - union { - __IO uint8_t OCR; /*!< Output Control Register */ - - struct { - __IO uint8_t MODE : 2; /*!< output control mode */ - } OCR_b; /*!< BitSize */ - }; - __I uint8_t RESERVED7[11]; - - union { - __I uint8_t ALC; /*!< Arbitration Lost Capture */ - - struct { - __I uint8_t BIT : 5; /*!< the current position of the Bit Processor when bus arbitration - lost, 1st bit (ID.28) if 0 */ - } ALC_b; /*!< BitSize */ - }; - __I uint8_t RESERVED8[3]; - - union { - __I uint8_t ECC; /*!< Error Code Capture */ - - struct { - __I uint8_t SEGMENT : 5; /*!< segment code */ - __I uint8_t DIRECTION : 1; /*!< If 1, the error occurred during reception. If 0, the error occurred - during transmission */ - __I uint8_t ERR : 2; /*!< error code */ - } ECC_b; /*!< BitSize */ - }; - __I uint8_t RESERVED9[3]; - __IO uint8_t EWLR; /*!< Error Warning Limit */ - __I uint8_t RESERVED10[3]; - __IO uint8_t RXERR; /*!< Receive Error Counter */ - __I uint8_t RESERVED11[3]; - __IO uint8_t TXERR; /*!< Transmit Error Counter */ - __I uint8_t RESERVED12[3]; - - union { - __IO uint8_t FI_OR_ACR0; /*!< Transmit Frame Information if writting or Receive Frame Information - if reading, ACR[0] if reset mode */ - - struct { - __IO uint8_t DLC : 4; /*!< byte number in the data */ - uint8_t : 2; - __IO uint8_t RTR : 1; /*!< 1 indicates a remote frame; 0 indicates a data frame */ - __IO uint8_t FF : 1; /*!< 1 selects Extended Frame Format (EFF); 0 selects Standard Frame - Format (SFF) */ - } FI_OR_ACR0_b; /*!< BitSize */ - }; - __I uint8_t RESERVED13[3]; - __IO uint8_t DI0_OR_ACR1; /*!< Transmit data Information if writting or Receive data Information - if reading, ACR[1] if reset mode */ - __I uint8_t RESERVED14[3]; - __IO uint8_t DI1_OR_ACR2; /*!< Transmit data Information if writting or Receive data Information - if reading, ACR[2] if reset mode */ - __I uint8_t RESERVED15[3]; - __IO uint8_t DI2_OR_ACR3; /*!< Transmit data Information if writting or Receive data Information - if reading, ACR[3] if reset mode */ - __I uint8_t RESERVED16[3]; - __IO uint8_t DI3_OR_AMR0; /*!< Transmit data Information if writting or Receive data Information - if reading, AMR[0] if reset mode */ - __I uint8_t RESERVED17[3]; - __IO uint8_t DI4_OR_AMR1; /*!< Transmit data Information if writting or Receive data Information - if reading, AMR[1] if reset mode */ - __I uint8_t RESERVED18[3]; - __IO uint8_t DI5_OR_AMR2; /*!< Transmit data Information if writting or Receive data Information - if reading, AMR[2] if reset mode */ - __I uint8_t RESERVED19[3]; - __IO uint8_t DI6_OR_AMR3; /*!< Transmit data Information if writting or Receive data Information - if reading, AMR[3] if reset mode */ - __I uint8_t RESERVED20[3]; - __IO uint8_t DI7; /*!< Transmit data Information if writting or Receive data Information - if reading */ - __I uint8_t RESERVED21[3]; - __IO uint8_t DI8; /*!< Transmit data Information if writting or Receive data Information - if reading */ - __I uint8_t RESERVED22[3]; - __IO uint8_t DI9; /*!< Transmit data Information if writting or Receive data Information - if reading */ - __I uint8_t RESERVED23[3]; - __IO uint8_t DI10; /*!< Transmit data Information if writting or Receive data Information - if reading */ - __I uint8_t RESERVED24[3]; - __IO uint8_t DI11; /*!< Transmit data Information if writting or Receive data Information - if reading */ - __I uint8_t RESERVED25[3]; - __IO uint8_t RMC; /*!< Receive Message Counter */ - __I uint8_t RESERVED26[7]; - - union { - __IO uint8_t CDR; /*!< Clock Divider Register */ - - struct { - __IO uint8_t DIVIDER : 3; /*!< divider of XTAL1 */ - __IO uint8_t OFF : 1; /*!< disable XTAL1 */ - } CDR_b; /*!< BitSize */ - }; -} CAN0_Type; - - -/* ================================================================================ */ -/* ================ DMA ================ */ -/* ================================================================================ */ - - -/** - * @brief DMA (DMA) - */ - -typedef struct { /*!< DMA Structure */ - __IO uint32_t SAR0; /*!< Current Source Address of DMA transfer */ - __I uint32_t RESERVED0; - __IO uint32_t DAR0; /*!< Current Destination Address of DMA transfer */ - __I uint32_t RESERVED1; - - union { - __IO uint32_t LLP0; /*!< Linked List Pointer Register for Channel */ - - struct { - __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that - stores the next linked list item resides. */ - __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is - enabled */ - } LLP0_b; /*!< BitSize */ - }; - __I uint32_t RESERVED2; - - union { - __IO uint32_t CTL_LOW0; /*!< Lower 32-bits Control Register for Channel */ - - struct { - __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ - __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ - __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ - __IO uint32_t DINC : 2; /*!< Destination Address Increment */ - __IO uint32_t SINC : 2; /*!< Source Address Increment */ - __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ - __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ - __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ - __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ - uint32_t : 1; - __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ - __IO uint32_t DMS : 2; /*!< Destination Master Select */ - __IO uint32_t SMS : 2; /*!< Source Master Select */ - __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ - __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ - } CTL_LOW0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CTL_HI0; /*!< Higher 32-bits Control Register for Channel */ - - struct { - __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform - for every block transfer */ - __IO uint32_t DONE : 1; /*!< a block transfer is complete */ - } CTL_HI0_b; /*!< BitSize */ - }; - __IO uint32_t SSTAT0; /*!< Source Status Register for Channel */ - __I uint32_t RESERVED3; - __IO uint32_t DSTAT0; /*!< Destination Status Register for Channel */ - __I uint32_t RESERVED4; - __IO uint32_t SSTATAR0; /*!< Source Status Address Register for Channel */ - __I uint32_t RESERVED5; - __IO uint32_t DSTATAR0; /*!< Destination Status Address Register for Channel */ - __I uint32_t RESERVED6; - - union { - __IO uint32_t CFG_LOW0; /*!< Lower 32-bit Configuration Register for Channel */ - - struct { - uint32_t : 5; - __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ - __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit - is cleared. */ - __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ - __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ - __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ - __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ - __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ - __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ - __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ - __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ - __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ - __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ - __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ - __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ - } CFG_LOW0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG_HI0; /*!< Higher 32-bit Configuration Register for Channel */ - - struct { - __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination - Peripheral is the flow controller. */ - __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before - a burst transaction request is serviced. */ - __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the - HPROT[3:1] master interface signals */ - __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - } CFG_HI0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t SGR0; /*!< Source Gather Register for Channel */ - - struct { - __IO uint32_t SGI : 20; /*!< Source gather interval */ - __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ - } SGR0_b; /*!< BitSize */ - }; - __I uint32_t RESERVED7; - - union { - __IO uint32_t DSR0; /*!< Destination Scatter Register for Channel */ - - struct { - __IO uint32_t DSI : 20; /*!< Destination scatter interval */ - __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of - CTLx.DST_TR_WIDTH */ - } DSR0_b; /*!< BitSize */ - }; - __I uint32_t RESERVED8; - __IO uint32_t SAR1; /*!< Current Source Address of DMA transfer */ - __I uint32_t RESERVED9; - __IO uint32_t DAR1; /*!< Current Destination Address of DMA transfer */ - __I uint32_t RESERVED10; - - union { - __IO uint32_t LLP1; /*!< Linked List Pointer Register for Channel */ - - struct { - __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that - stores the next linked list item resides. */ - __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is - enabled */ - } LLP1_b; /*!< BitSize */ - }; - __I uint32_t RESERVED11; - - union { - __IO uint32_t CTL_LOW1; /*!< Lower 32-bits Control Register for Channel */ - - struct { - __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ - __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ - __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ - __IO uint32_t DINC : 2; /*!< Destination Address Increment */ - __IO uint32_t SINC : 2; /*!< Source Address Increment */ - __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ - __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ - __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ - __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ - uint32_t : 1; - __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ - __IO uint32_t DMS : 2; /*!< Destination Master Select */ - __IO uint32_t SMS : 2; /*!< Source Master Select */ - __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ - __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ - } CTL_LOW1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CTL_HI1; /*!< Higher 32-bits Control Register for Channel */ - - struct { - __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform - for every block transfer */ - __IO uint32_t DONE : 1; /*!< a block transfer is complete */ - } CTL_HI1_b; /*!< BitSize */ - }; - __IO uint32_t SSTAT1; /*!< Source Status Register for Channel */ - __I uint32_t RESERVED12; - __IO uint32_t DSTAT1; /*!< Destination Status Register for Channel */ - __I uint32_t RESERVED13; - __IO uint32_t SSTATAR1; /*!< Source Status Address Register for Channel */ - __I uint32_t RESERVED14; - __IO uint32_t DSTATAR1; /*!< Destination Status Address Register for Channel */ - __I uint32_t RESERVED15; - - union { - __IO uint32_t CFG_LOW1; /*!< Lower 32-bit Configuration Register for Channel */ - - struct { - uint32_t : 5; - __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ - __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit - is cleared. */ - __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ - __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ - __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ - __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ - __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ - __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ - __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ - __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ - __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ - __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ - __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ - __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ - } CFG_LOW1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG_HI1; /*!< Higher 32-bit Configuration Register for Channel */ - - struct { - __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination - Peripheral is the flow controller. */ - __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before - a burst transaction request is serviced. */ - __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the - HPROT[3:1] master interface signals */ - __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - } CFG_HI1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t SGR1; /*!< Source Gather Register for Channel */ - - struct { - __IO uint32_t SGI : 20; /*!< Source gather interval */ - __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ - } SGR1_b; /*!< BitSize */ - }; - __I uint32_t RESERVED16; - - union { - __IO uint32_t DSR1; /*!< Destination Scatter Register for Channel */ - - struct { - __IO uint32_t DSI : 20; /*!< Destination scatter interval */ - __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of - CTLx.DST_TR_WIDTH */ - } DSR1_b; /*!< BitSize */ - }; - __I uint32_t RESERVED17; - __IO uint32_t SAR2; /*!< Current Source Address of DMA transfer */ - __I uint32_t RESERVED18; - __IO uint32_t DAR2; /*!< Current Destination Address of DMA transfer */ - __I uint32_t RESERVED19; - - union { - __IO uint32_t LLP2; /*!< Linked List Pointer Register for Channel */ - - struct { - __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that - stores the next linked list item resides. */ - __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is - enabled */ - } LLP2_b; /*!< BitSize */ - }; - __I uint32_t RESERVED20; - - union { - __IO uint32_t CTL_LOW2; /*!< Lower 32-bits Control Register for Channel */ - - struct { - __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ - __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ - __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ - __IO uint32_t DINC : 2; /*!< Destination Address Increment */ - __IO uint32_t SINC : 2; /*!< Source Address Increment */ - __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ - __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ - __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ - __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ - uint32_t : 1; - __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ - __IO uint32_t DMS : 2; /*!< Destination Master Select */ - __IO uint32_t SMS : 2; /*!< Source Master Select */ - __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ - __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ - } CTL_LOW2_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CTL_HI2; /*!< Higher 32-bits Control Register for Channel */ - - struct { - __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform - for every block transfer */ - __IO uint32_t DONE : 1; /*!< a block transfer is complete */ - } CTL_HI2_b; /*!< BitSize */ - }; - __IO uint32_t SSTAT2; /*!< Source Status Register for Channel */ - __I uint32_t RESERVED21; - __IO uint32_t DSTAT2; /*!< Destination Status Register for Channel */ - __I uint32_t RESERVED22; - __IO uint32_t SSTATAR2; /*!< Source Status Address Register for Channel */ - __I uint32_t RESERVED23; - __IO uint32_t DSTATAR2; /*!< Destination Status Address Register for Channel */ - __I uint32_t RESERVED24; - - union { - __IO uint32_t CFG_LOW2; /*!< Lower 32-bit Configuration Register for Channel */ - - struct { - uint32_t : 5; - __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ - __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit - is cleared. */ - __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ - __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ - __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ - __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ - __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ - __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ - __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ - __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ - __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ - __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ - __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ - __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ - } CFG_LOW2_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG_HI2; /*!< Higher 32-bit Configuration Register for Channel */ - - struct { - __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination - Peripheral is the flow controller. */ - __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before - a burst transaction request is serviced. */ - __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the - HPROT[3:1] master interface signals */ - __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - } CFG_HI2_b; /*!< BitSize */ - }; - - union { - __IO uint32_t SGR2; /*!< Source Gather Register for Channel */ - - struct { - __IO uint32_t SGI : 20; /*!< Source gather interval */ - __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ - } SGR2_b; /*!< BitSize */ - }; - __I uint32_t RESERVED25; - - union { - __IO uint32_t DSR2; /*!< Destination Scatter Register for Channel */ - - struct { - __IO uint32_t DSI : 20; /*!< Destination scatter interval */ - __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of - CTLx.DST_TR_WIDTH */ - } DSR2_b; /*!< BitSize */ - }; - __I uint32_t RESERVED26; - __IO uint32_t SAR3; /*!< Current Source Address of DMA transfer */ - __I uint32_t RESERVED27; - __IO uint32_t DAR3; /*!< Current Destination Address of DMA transfer */ - __I uint32_t RESERVED28; - - union { - __IO uint32_t LLP3; /*!< Linked List Pointer Register for Channel */ - - struct { - __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that - stores the next linked list item resides. */ - __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is - enabled */ - } LLP3_b; /*!< BitSize */ - }; - __I uint32_t RESERVED29; - - union { - __IO uint32_t CTL_LOW3; /*!< Lower 32-bits Control Register for Channel */ - - struct { - __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ - __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ - __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ - __IO uint32_t DINC : 2; /*!< Destination Address Increment */ - __IO uint32_t SINC : 2; /*!< Source Address Increment */ - __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ - __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ - __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ - __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ - uint32_t : 1; - __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ - __IO uint32_t DMS : 2; /*!< Destination Master Select */ - __IO uint32_t SMS : 2; /*!< Source Master Select */ - __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ - __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ - } CTL_LOW3_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CTL_HI3; /*!< Higher 32-bits Control Register for Channel */ - - struct { - __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform - for every block transfer */ - __IO uint32_t DONE : 1; /*!< a block transfer is complete */ - } CTL_HI3_b; /*!< BitSize */ - }; - __IO uint32_t SSTAT3; /*!< Source Status Register for Channel */ - __I uint32_t RESERVED30; - __IO uint32_t DSTAT3; /*!< Destination Status Register for Channel */ - __I uint32_t RESERVED31; - __IO uint32_t SSTATAR3; /*!< Source Status Address Register for Channel */ - __I uint32_t RESERVED32; - __IO uint32_t DSTATAR3; /*!< Destination Status Address Register for Channel */ - __I uint32_t RESERVED33; - - union { - __IO uint32_t CFG_LOW3; /*!< Lower 32-bit Configuration Register for Channel */ - - struct { - uint32_t : 5; - __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ - __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit - is cleared. */ - __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ - __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ - __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ - __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ - __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ - __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ - __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ - __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ - __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ - __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ - __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ - __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ - } CFG_LOW3_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG_HI3; /*!< Higher 32-bit Configuration Register for Channel */ - - struct { - __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination - Peripheral is the flow controller. */ - __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before - a burst transaction request is serviced. */ - __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the - HPROT[3:1] master interface signals */ - __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - } CFG_HI3_b; /*!< BitSize */ - }; - - union { - __IO uint32_t SGR3; /*!< Source Gather Register for Channel */ - - struct { - __IO uint32_t SGI : 20; /*!< Source gather interval */ - __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ - } SGR3_b; /*!< BitSize */ - }; - __I uint32_t RESERVED34; - - union { - __IO uint32_t DSR3; /*!< Destination Scatter Register for Channel */ - - struct { - __IO uint32_t DSI : 20; /*!< Destination scatter interval */ - __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of - CTLx.DST_TR_WIDTH */ - } DSR3_b; /*!< BitSize */ - }; - __I uint32_t RESERVED35; - __IO uint32_t SAR4; /*!< Current Source Address of DMA transfer */ - __I uint32_t RESERVED36; - __IO uint32_t DAR4; /*!< Current Destination Address of DMA transfer */ - __I uint32_t RESERVED37; - - union { - __IO uint32_t LLP4; /*!< Linked List Pointer Register for Channel */ - - struct { - __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that - stores the next linked list item resides. */ - __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is - enabled */ - } LLP4_b; /*!< BitSize */ - }; - __I uint32_t RESERVED38; - - union { - __IO uint32_t CTL_LOW4; /*!< Lower 32-bits Control Register for Channel */ - - struct { - __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ - __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ - __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ - __IO uint32_t DINC : 2; /*!< Destination Address Increment */ - __IO uint32_t SINC : 2; /*!< Source Address Increment */ - __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ - __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ - __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ - __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ - uint32_t : 1; - __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ - __IO uint32_t DMS : 2; /*!< Destination Master Select */ - __IO uint32_t SMS : 2; /*!< Source Master Select */ - __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ - __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ - } CTL_LOW4_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CTL_HI4; /*!< Higher 32-bits Control Register for Channel */ - - struct { - __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform - for every block transfer */ - __IO uint32_t DONE : 1; /*!< a block transfer is complete */ - } CTL_HI4_b; /*!< BitSize */ - }; - __IO uint32_t SSTAT4; /*!< Source Status Register for Channel */ - __I uint32_t RESERVED39; - __IO uint32_t DSTAT4; /*!< Destination Status Register for Channel */ - __I uint32_t RESERVED40; - __IO uint32_t SSTATAR4; /*!< Source Status Address Register for Channel */ - __I uint32_t RESERVED41; - __IO uint32_t DSTATAR4; /*!< Destination Status Address Register for Channel */ - __I uint32_t RESERVED42; - - union { - __IO uint32_t CFG_LOW4; /*!< Lower 32-bit Configuration Register for Channel */ - - struct { - uint32_t : 5; - __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ - __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit - is cleared. */ - __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ - __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ - __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ - __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ - __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ - __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ - __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ - __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ - __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ - __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ - __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ - __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ - } CFG_LOW4_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG_HI4; /*!< Higher 32-bit Configuration Register for Channel */ - - struct { - __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination - Peripheral is the flow controller. */ - __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before - a burst transaction request is serviced. */ - __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the - HPROT[3:1] master interface signals */ - __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - } CFG_HI4_b; /*!< BitSize */ - }; - - union { - __IO uint32_t SGR4; /*!< Source Gather Register for Channel */ - - struct { - __IO uint32_t SGI : 20; /*!< Source gather interval */ - __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ - } SGR4_b; /*!< BitSize */ - }; - __I uint32_t RESERVED43; - - union { - __IO uint32_t DSR4; /*!< Destination Scatter Register for Channel */ - - struct { - __IO uint32_t DSI : 20; /*!< Destination scatter interval */ - __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of - CTLx.DST_TR_WIDTH */ - } DSR4_b; /*!< BitSize */ - }; - __I uint32_t RESERVED44; - __IO uint32_t SAR5; /*!< Current Source Address of DMA transfer */ - __I uint32_t RESERVED45; - __IO uint32_t DAR5; /*!< Current Destination Address of DMA transfer */ - __I uint32_t RESERVED46; - - union { - __IO uint32_t LLP5; /*!< Linked List Pointer Register for Channel */ - - struct { - __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that - stores the next linked list item resides. */ - __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is - enabled */ - } LLP5_b; /*!< BitSize */ - }; - __I uint32_t RESERVED47; - - union { - __IO uint32_t CTL_LOW5; /*!< Lower 32-bits Control Register for Channel */ - - struct { - __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ - __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ - __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ - __IO uint32_t DINC : 2; /*!< Destination Address Increment */ - __IO uint32_t SINC : 2; /*!< Source Address Increment */ - __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ - __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ - __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ - __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ - uint32_t : 1; - __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ - __IO uint32_t DMS : 2; /*!< Destination Master Select */ - __IO uint32_t SMS : 2; /*!< Source Master Select */ - __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ - __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ - } CTL_LOW5_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CTL_HI5; /*!< Higher 32-bits Control Register for Channel */ - - struct { - __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform - for every block transfer */ - __IO uint32_t DONE : 1; /*!< a block transfer is complete */ - } CTL_HI5_b; /*!< BitSize */ - }; - __IO uint32_t SSTAT5; /*!< Source Status Register for Channel */ - __I uint32_t RESERVED48; - __IO uint32_t DSTAT5; /*!< Destination Status Register for Channel */ - __I uint32_t RESERVED49; - __IO uint32_t SSTATAR5; /*!< Source Status Address Register for Channel */ - __I uint32_t RESERVED50; - __IO uint32_t DSTATAR5; /*!< Destination Status Address Register for Channel */ - __I uint32_t RESERVED51; - - union { - __IO uint32_t CFG_LOW5; /*!< Lower 32-bit Configuration Register for Channel */ - - struct { - uint32_t : 5; - __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ - __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit - is cleared. */ - __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ - __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ - __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ - __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ - __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ - __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ - __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ - __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ - __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ - __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ - __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ - __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ - } CFG_LOW5_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG_HI5; /*!< Higher 32-bit Configuration Register for Channel */ - - struct { - __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination - Peripheral is the flow controller. */ - __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before - a burst transaction request is serviced. */ - __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the - HPROT[3:1] master interface signals */ - __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - } CFG_HI5_b; /*!< BitSize */ - }; - - union { - __IO uint32_t SGR5; /*!< Source Gather Register for Channel */ - - struct { - __IO uint32_t SGI : 20; /*!< Source gather interval */ - __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ - } SGR5_b; /*!< BitSize */ - }; - __I uint32_t RESERVED52; - - union { - __IO uint32_t DSR5; /*!< Destination Scatter Register for Channel */ - - struct { - __IO uint32_t DSI : 20; /*!< Destination scatter interval */ - __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of - CTLx.DST_TR_WIDTH */ - } DSR5_b; /*!< BitSize */ - }; - __I uint32_t RESERVED53; - __IO uint32_t SAR6; /*!< Current Source Address of DMA transfer */ - __I uint32_t RESERVED54; - __IO uint32_t DAR6; /*!< Current Destination Address of DMA transfer */ - __I uint32_t RESERVED55; - - union { - __IO uint32_t LLP6; /*!< Linked List Pointer Register for Channel */ - - struct { - __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that - stores the next linked list item resides. */ - __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is - enabled */ - } LLP6_b; /*!< BitSize */ - }; - __I uint32_t RESERVED56; - - union { - __IO uint32_t CTL_LOW6; /*!< Lower 32-bits Control Register for Channel */ - - struct { - __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ - __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ - __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ - __IO uint32_t DINC : 2; /*!< Destination Address Increment */ - __IO uint32_t SINC : 2; /*!< Source Address Increment */ - __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ - __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ - __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ - __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ - uint32_t : 1; - __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ - __IO uint32_t DMS : 2; /*!< Destination Master Select */ - __IO uint32_t SMS : 2; /*!< Source Master Select */ - __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ - __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ - } CTL_LOW6_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CTL_HI6; /*!< Higher 32-bits Control Register for Channel */ - - struct { - __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform - for every block transfer */ - __IO uint32_t DONE : 1; /*!< a block transfer is complete */ - } CTL_HI6_b; /*!< BitSize */ - }; - __IO uint32_t SSTAT6; /*!< Source Status Register for Channel */ - __I uint32_t RESERVED57; - __IO uint32_t DSTAT6; /*!< Destination Status Register for Channel */ - __I uint32_t RESERVED58; - __IO uint32_t SSTATAR6; /*!< Source Status Address Register for Channel */ - __I uint32_t RESERVED59; - __IO uint32_t DSTATAR6; /*!< Destination Status Address Register for Channel */ - __I uint32_t RESERVED60; - - union { - __IO uint32_t CFG_LOW6; /*!< Lower 32-bit Configuration Register for Channel */ - - struct { - uint32_t : 5; - __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ - __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit - is cleared. */ - __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ - __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ - __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ - __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ - __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ - __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ - __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ - __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ - __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ - __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ - __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ - __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ - } CFG_LOW6_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG_HI6; /*!< Higher 32-bit Configuration Register for Channel */ - - struct { - __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination - Peripheral is the flow controller. */ - __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before - a burst transaction request is serviced. */ - __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the - HPROT[3:1] master interface signals */ - __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - } CFG_HI6_b; /*!< BitSize */ - }; - - union { - __IO uint32_t SGR6; /*!< Source Gather Register for Channel */ - - struct { - __IO uint32_t SGI : 20; /*!< Source gather interval */ - __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ - } SGR6_b; /*!< BitSize */ - }; - __I uint32_t RESERVED61; - - union { - __IO uint32_t DSR6; /*!< Destination Scatter Register for Channel */ - - struct { - __IO uint32_t DSI : 20; /*!< Destination scatter interval */ - __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of - CTLx.DST_TR_WIDTH */ - } DSR6_b; /*!< BitSize */ - }; - __I uint32_t RESERVED62; - __IO uint32_t SAR7; /*!< Current Source Address of DMA transfer */ - __I uint32_t RESERVED63; - __IO uint32_t DAR7; /*!< Current Destination Address of DMA transfer */ - __I uint32_t RESERVED64; - - union { - __IO uint32_t LLP7; /*!< Linked List Pointer Register for Channel */ - - struct { - __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that - stores the next linked list item resides. */ - __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is - enabled */ - } LLP7_b; /*!< BitSize */ - }; - __I uint32_t RESERVED65; - - union { - __IO uint32_t CTL_LOW7; /*!< Lower 32-bits Control Register for Channel */ - - struct { - __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ - __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ - __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ - __IO uint32_t DINC : 2; /*!< Destination Address Increment */ - __IO uint32_t SINC : 2; /*!< Source Address Increment */ - __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ - __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ - __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ - __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ - uint32_t : 1; - __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ - __IO uint32_t DMS : 2; /*!< Destination Master Select */ - __IO uint32_t SMS : 2; /*!< Source Master Select */ - __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ - __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ - } CTL_LOW7_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CTL_HI7; /*!< Higher 32-bits Control Register for Channel */ - - struct { - __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform - for every block transfer */ - __IO uint32_t DONE : 1; /*!< a block transfer is complete */ - } CTL_HI7_b; /*!< BitSize */ - }; - __IO uint32_t SSTAT7; /*!< Source Status Register for Channel */ - __I uint32_t RESERVED66; - __IO uint32_t DSTAT7; /*!< Destination Status Register for Channel */ - __I uint32_t RESERVED67; - __IO uint32_t SSTATAR7; /*!< Source Status Address Register for Channel */ - __I uint32_t RESERVED68; - __IO uint32_t DSTATAR7; /*!< Destination Status Address Register for Channel */ - __I uint32_t RESERVED69; - - union { - __IO uint32_t CFG_LOW7; /*!< Lower 32-bit Configuration Register for Channel */ - - struct { - uint32_t : 5; - __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ - __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit - is cleared. */ - __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ - __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ - __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ - __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ - __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ - __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ - __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ - __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ - __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ - __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ - __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ - __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ - } CFG_LOW7_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CFG_HI7; /*!< Higher 32-bit Configuration Register for Channel */ - - struct { - __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination - Peripheral is the flow controller. */ - __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before - a burst transaction request is serviced. */ - __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the - HPROT[3:1] master interface signals */ - __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ - } CFG_HI7_b; /*!< BitSize */ - }; - - union { - __IO uint32_t SGR7; /*!< Source Gather Register for Channel */ - - struct { - __IO uint32_t SGI : 20; /*!< Source gather interval */ - __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ - } SGR7_b; /*!< BitSize */ - }; - __I uint32_t RESERVED70; - - union { - __IO uint32_t DSR7; /*!< Destination Scatter Register for Channel */ - - struct { - __IO uint32_t DSI : 20; /*!< Destination scatter interval */ - __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of - CTLx.DST_TR_WIDTH */ - } DSR7_b; /*!< BitSize */ - }; - __I uint32_t RESERVED71[11]; - __I uint8_t INT_TFR; /*!< DMA Transfer Complete */ - __I uint8_t RESERVED72[7]; - __I uint8_t INT_BLOCK; /*!< Block Transfer Complete */ - __I uint8_t RESERVED73[7]; - __I uint8_t INT_SRC_TRAN; /*!< Source Transaction Complete */ - __I uint8_t RESERVED74[7]; - __I uint8_t INT_DST_TRAN; /*!< Destination Transaction Complete */ - __I uint8_t RESERVED75[7]; - __I uint8_t INT_ERR; /*!< Error */ - __I uint8_t RESERVED76[7]; - - union { - __IO uint16_t INT_EN_TFR; /*!< DMA Transfer Complete */ - - struct { - __IO uint16_t EN : 8; /*!< interrupt enable */ - __IO uint16_t WE : 8; /*!< interrupt enable write enable */ - } INT_EN_TFR_b; /*!< BitSize */ - }; - __I uint16_t RESERVED77[3]; - - union { - __IO uint16_t INT_EN_BLOCK; /*!< Block Transfer Complete */ - - struct { - __IO uint16_t EN : 8; /*!< interrupt enable */ - __IO uint16_t WE : 8; /*!< interrupt enable write enable */ - } INT_EN_BLOCK_b; /*!< BitSize */ - }; - __I uint16_t RESERVED78[3]; - - union { - __IO uint16_t INT_EN_SRC_TRAN; /*!< Source Transaction Complete */ - - struct { - __IO uint16_t EN : 8; /*!< interrupt enable */ - __IO uint16_t WE : 8; /*!< interrupt enable write enable */ - } INT_EN_SRC_TRAN_b; /*!< BitSize */ - }; - __I uint16_t RESERVED79[3]; - - union { - __IO uint16_t INT_EN_DST_TRAN; /*!< Destination Transaction Complete */ - - struct { - __IO uint16_t EN : 8; /*!< interrupt enable */ - __IO uint16_t WE : 8; /*!< interrupt enable write enable */ - } INT_EN_DST_TRAN_b; /*!< BitSize */ - }; - __I uint16_t RESERVED80[3]; - - union { - __IO uint16_t INT_EN_ERR; /*!< Error */ - - struct { - __IO uint16_t EN : 8; /*!< interrupt enable */ - __IO uint16_t WE : 8; /*!< interrupt enable write enable */ - } INT_EN_ERR_b; /*!< BitSize */ - }; - __I uint16_t RESERVED81[3]; - __O uint8_t INT_CLEAR_TFR; /*!< DMA Transfer Complete */ - __I uint8_t RESERVED82[7]; - __O uint8_t INT_CLEAR_BLOCK; /*!< Block Transfer Complete */ - __I uint8_t RESERVED83[7]; - __O uint8_t INT_CLEAR_SRC_TRAN; /*!< Source Transaction Complete */ - __I uint8_t RESERVED84[7]; - __O uint8_t INT_CLEAR_DST_TRAN; /*!< Destination Transaction Complete */ - __I uint8_t RESERVED85[7]; - __O uint8_t INT_CLEAR_ERR; /*!< Error */ - __I uint8_t RESERVED86[63]; - - union { - __IO uint32_t DMA_EN; /*!< DW_ahb_dmac Configuration Register */ - - struct { - __IO uint32_t EN : 1; /*!< enable */ - } DMA_EN_b; /*!< BitSize */ - }; - __I uint32_t RESERVED87; - - union { - __IO uint32_t CH_EN; /*!< DW_ahb_dmac Channel Enable Register */ - - struct { - __IO uint32_t EN : 8; /*!< enable */ - __IO uint32_t WE : 8; /*!< enable write enable */ - } CH_EN_b; /*!< BitSize */ - }; - __I uint32_t RESERVED88[10]; - - union { - __I uint32_t DMA_COMP_PARAMS_6_HI; /*!< Component Parameters for channel 7 */ - - struct { - __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination - transfer width. */ - __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source - transfer width. */ - __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ - __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ - __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ - __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ - __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ - __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ - __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is - on */ - __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ - uint32_t : 2; - __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ - __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ - __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ - __I uint32_t SMS : 3; /*!< source AHB dma interface */ - __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ - } DMA_COMP_PARAMS_6_HI_b; /*!< BitSize */ - }; - - union { - __I uint32_t DMA_COMP_PARAMS_5_LOW; /*!< Component Parameters for channel 6 */ - - struct { - __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination - transfer width. */ - __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source - transfer width. */ - __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ - __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ - __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ - __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ - __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ - __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ - __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is - on */ - __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ - uint32_t : 2; - __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ - __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ - __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ - __I uint32_t SMS : 3; /*!< source AHB dma interface */ - __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ - } DMA_COMP_PARAMS_5_LOW_b; /*!< BitSize */ - }; - - union { - __I uint32_t DMA_COMP_PARAMS_5_HI; /*!< Component Parameters for channel 5 */ - - struct { - __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination - transfer width. */ - __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source - transfer width. */ - __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ - __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ - __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ - __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ - __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ - __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ - __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is - on */ - __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ - uint32_t : 2; - __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ - __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ - __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ - __I uint32_t SMS : 3; /*!< source AHB dma interface */ - __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ - } DMA_COMP_PARAMS_5_HI_b; /*!< BitSize */ - }; - - union { - __I uint32_t DMA_COMP_PARAMS_4_LOW; /*!< Component Parameters for channel 4 */ - - struct { - __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination - transfer width. */ - __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source - transfer width. */ - __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ - __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ - __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ - __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ - __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ - __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ - __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is - on */ - __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ - uint32_t : 2; - __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ - __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ - __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ - __I uint32_t SMS : 3; /*!< source AHB dma interface */ - __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ - } DMA_COMP_PARAMS_4_LOW_b; /*!< BitSize */ - }; - - union { - __I uint32_t DMA_COMP_PARAMS_4_HI; /*!< Component Parameters for channel 3 */ - - struct { - __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination - transfer width. */ - __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source - transfer width. */ - __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ - __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ - __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ - __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ - __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ - __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ - __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is - on */ - __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ - uint32_t : 2; - __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ - __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ - __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ - __I uint32_t SMS : 3; /*!< source AHB dma interface */ - __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ - } DMA_COMP_PARAMS_4_HI_b; /*!< BitSize */ - }; - - union { - __I uint32_t DMA_COMP_PARAMS_3_LOW; /*!< Component Parameters for channel 2 */ - - struct { - __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination - transfer width. */ - __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source - transfer width. */ - __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ - __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ - __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ - __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ - __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ - __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ - __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is - on */ - __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ - uint32_t : 2; - __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ - __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ - __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ - __I uint32_t SMS : 3; /*!< source AHB dma interface */ - __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ - } DMA_COMP_PARAMS_3_LOW_b; /*!< BitSize */ - }; - - union { - __I uint32_t DMA_COMP_PARAMS_3_HI; /*!< Component Parameters for channel 1 */ - - struct { - __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination - transfer width. */ - __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source - transfer width. */ - __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ - __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ - __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ - __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ - __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ - __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ - __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is - on */ - __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ - uint32_t : 2; - __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ - __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ - __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ - __I uint32_t SMS : 3; /*!< source AHB dma interface */ - __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ - } DMA_COMP_PARAMS_3_HI_b; /*!< BitSize */ - }; - - union { - __I uint32_t DMA_COMP_PARAMS_2_LOW; /*!< Component Parameters for channel 0 */ - - struct { - __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination - transfer width. */ - __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source - transfer width. */ - __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ - __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ - __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ - __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ - __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ - __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ - __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is - on */ - __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ - uint32_t : 2; - __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ - __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ - __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ - __I uint32_t SMS : 3; /*!< source AHB dma interface */ - __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ - } DMA_COMP_PARAMS_2_LOW_b; /*!< BitSize */ - }; - __I uint32_t RESERVED89; - - union { - __I uint32_t DMA_COMP_PARAMS_1_LOW; /*!< Maximum block size for channel */ - - struct { - __I uint32_t CH0_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 0. */ - __I uint32_t CH1_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 1 */ - __I uint32_t CH2_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 2 */ - __I uint32_t CH3_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 3 */ - __I uint32_t CH4_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 4 */ - __I uint32_t CH5_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 5 */ - __I uint32_t CH6_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 6 */ - __I uint32_t CH7_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 7 */ - } DMA_COMP_PARAMS_1_LOW_b; /*!< BitSize */ - }; -} DMA_Type; - - -/* ================================================================================ */ -/* ================ ETH ================ */ -/* ================================================================================ */ - - -/** - * @brief ETH (ETH) - */ - -typedef struct { /*!< ETH Structure */ - - union { - __IO uint32_t CONFIG; /*!< MAC Configuration Register */ - - struct { - __IO uint32_t PRELEN : 2; /*!< Preamble Length for Transmit frames */ - __IO uint32_t RX_EN : 1; /*!< Receiver Enable */ - __IO uint32_t TX_EN : 1; /*!< Transmitter Enable */ - __IO uint32_t DC_EN : 1; /*!< Deferral Check Enable */ - uint32_t : 2; - __IO uint32_t ACS : 1; /*!< Automatic Pad or CRC Stripping */ - __IO uint32_t LUD : 1; /*!< Link Up or Down */ - uint32_t : 1; - __IO uint32_t IPC : 1; /*!< Checksum Offload */ - __IO uint32_t DM : 1; /*!< Duplex Mode */ - __IO uint32_t LM : 1; /*!< Loopback Mode */ - uint32_t : 1; - __IO uint32_t FES : 1; /*!< Speed in XMII interface */ - __IO uint32_t PS : 1; /*!< the Ethernet line speed */ - uint32_t : 4; - __IO uint32_t JE : 1; /*!< Jumbo enable */ - uint32_t : 1; - __IO uint32_t JD : 1; /*!< if 0, the MAC cuts off the transmitter if more than 2,048 bytes - of data (10,240 if JE is set high) */ - __IO uint32_t WD : 1; /*!< Watchdog Disable */ - __IO uint32_t TC : 1; /*!< If 1, this bit enables the transmission of duplex mode, link - speed, and link up or down information to the PHY */ - __IO uint32_t CST : 1; /*!< CRC Stripping for Type Frames */ - uint32_t : 1; - __IO uint32_t TWOKPE : 1; /*!< If 0, 1518 bytes is considered as a giant frame, 1 is 2000 bytes. */ - __IO uint32_t SARC : 3; /*!< Source Address Insertion or Replacement Control */ - } CONFIG_b; /*!< BitSize */ - }; - - union { - __IO uint32_t FF; /*!< MAC Frame Filter */ - - struct { - __IO uint32_t PR : 1; /*!< Receive all frames in spite of source and destination address */ - __IO uint32_t HUC : 1; /*!< if 1, don't compare DA field in destination address filtering - of unicast frames with DA register */ - __IO uint32_t HMC : 1; /*!< if 1, don't compare DA field in destination address filtering - of multicast frames with DA register */ - __IO uint32_t DAIF : 1; /*!< if set, the Address Check block operates in inverse filtering - mode for the DA address comparison */ - __IO uint32_t PM : 1; /*!< Pass All Multicast */ - __IO uint32_t DBF : 1; /*!< Disable Broadcast Frames */ - __IO uint32_t PCF : 2; /*!< Pass Control Frames */ - __IO uint32_t SAIF : 1; /*!< If set, the frames whose SA matches the SA registers are marked - as failing the SA Address filter */ - __IO uint32_t SAF : 1; /*!< Source Address Filter Enable */ - __IO uint32_t HPF : 1; /*!< Hash or Perfect Filter */ - uint32_t : 5; - __IO uint32_t VTFE : 1; /*!< VLAN Tag Filter Enable */ - uint32_t : 3; - __IO uint32_t IPFE : 1; /*!< Layer 3 and Layer 4 Filter Enable */ - __IO uint32_t DNTU : 1; /*!< Drop non-TCP/UDP over IP Frames */ - uint32_t : 9; - __IO uint32_t RA : 1; /*!< Receive all */ - } FF_b; /*!< BitSize */ - }; - __IO uint32_t HTH; /*!< Hash Table High Register */ - __IO uint32_t HTL; /*!< Hash Table Low Register */ - - union { - __IO uint32_t GMII_ADDR; /*!< GMII Address Register */ - - struct { - __IO uint32_t BUSY : 1; /*!< GMII Busy */ - __IO uint32_t GW : 1; /*!< GMII write or read */ - __IO uint32_t CR : 4; /*!< CSR Clock Range */ - __IO uint32_t GR : 5; /*!< These bits select the desired GMII register in the selected - PHY device */ - __IO uint32_t PA : 5; /*!< This field indicates which of the 32 possible PHY devices are - being accessed */ - } GMII_ADDR_b; /*!< BitSize */ - }; - __IO uint32_t GMII_DATA; /*!< GMII Data Register */ - - union { - __IO uint32_t FC; /*!< Flow Control Register */ - - struct { - __IO uint32_t FCB : 1; /*!< This bit initiates a Pause frame in the full-duplex mode */ - __IO uint32_t TFE : 1; /*!< MAC enables the flow control operation to transmit Pause frames */ - __IO uint32_t RFE : 1; /*!< MAC enables the flow control operation to receive Pause frames */ - __IO uint32_t UP : 1; /*!< MAC can detect Pause frames with unicast address of the station */ - } FC_b; /*!< BitSize */ - }; - - union { - __IO uint32_t VLAN_TAG; /*!< VLAN Tag Register */ - - struct { - __IO uint32_t VL : 16; /*!< VLAN Tag Identifier for Receive Frames */ - __IO uint32_t ETV : 1; /*!< Enable 12-Bit VLAN Tag Comparison */ - __IO uint32_t VTIM : 1; /*!< If set, The frames that do not have matching VLAN Tag are marked - as matched */ - __IO uint32_t ESVL : 1; /*!< If set, consider the S-VLAN (Type = 0x88A8) frames as valid - VLAN tagged frames */ - __IO uint32_t VTHM : 1; /*!< When set, the most significant four bits of the VLAN tag's CRC - are used to index the content */ - } VLAN_TAG_b; /*!< BitSize */ - }; - __I uint32_t RESERVED0[8]; - __IO uint16_t ADDR0_HIGH; /*!< MAC Address0 High Register */ - __I uint16_t RESERVED1; - __IO uint32_t ADDR0_LOW; /*!< MAC Address0 LOW Register */ - - union { - __IO uint32_t ADDR1_HIGH; /*!< MAC Address0 High Register */ - - struct { - __IO uint32_t ADDR : 16; /*!< MAC Address1 [47:32] */ - uint32_t : 14; - __IO uint32_t SA : 1; /*!< MAC address1 is source or destination address compared with - received frame */ - __IO uint32_t AE : 1; /*!< the address filter module uses the MAC address1 for filtering */ - } ADDR1_HIGH_b; /*!< BitSize */ - }; - __IO uint32_t ADDR1_LOW; /*!< MAC Address1 LOW Register */ - __I uint32_t RESERVED2[47]; - __IO uint32_t MMC_RX_MASK; /*!< MMC Receive interrupt mask */ - __IO uint32_t MMC_TX_MASK; /*!< MMC Transmit Interrupt Mask */ - __I uint32_t RESERVED3[955]; - - union { - __IO uint32_t BUS_MODE; /*!< Flow Control Register */ - - struct { - __IO uint32_t SWR : 1; /*!< Software Reset */ - __IO uint32_t DA : 1; /*!< This bit specifies the arbitration scheme between the transmit - and receive paths of Channel */ - __IO uint32_t DSL : 5; /*!< the byte number of bus width to skip between two unchained descriptors */ - __IO uint32_t ATDS : 1; /*!< When set, the size of the alternate descriptor increases to - 32 bytes */ - __IO uint32_t PBL : 6; /*!< These bits indicate the maximum number of beats to be transferred - in one DMA transaction */ - __IO uint32_t PR : 2; /*!< The Priority Ratio is (PR + 1) : 1 */ - __IO uint32_t FB : 1; /*!< performs fixed burst transfers or not */ - __IO uint32_t RPBL : 6; /*!< This field indicates the maximum number of beats to be transferred - in one Rx DMA transaction */ - __IO uint32_t USP : 1; /*!< If set, RPBL is same as RPBL definition */ - __IO uint32_t PBLx8 : 1; /*!< If set, all PBLs multiplies 8 */ - __IO uint32_t AAL : 1; /*!< If set, all bursts aligned to the start address LS bits */ - __IO uint32_t MB : 1; /*!< When this bit is set high and the FB bit is low, the AHB master - interface starts all bursts of length more than 16 with INCR */ - __IO uint32_t TXPR : 1; /*!< When set, the transmit DMA has higher priority than the receive - DMA */ - __IO uint32_t PRWG : 2; /*!< The Priority weight is (PRWG + 1) : 1 */ - uint32_t : 1; - __IO uint32_t RIB : 1; /*!< If set, rebuilds the pending beats of any burst transfer initiated - with INCRx */ - } BUS_MODE_b; /*!< BitSize */ - }; - __IO uint32_t TPD; /*!< Transmit Poll Demand */ - __IO uint32_t RPD; /*!< Receive Poll Demand */ - __IO uint32_t RDESLA; /*!< Receive Descriptor List Address */ - __IO uint32_t TDESLA; /*!< Transmit Descriptor List Address */ - - union { - __IO uint32_t STATUS; /*!< Status Register */ - - struct { - __IO uint32_t TI : 1; /*!< This bit indicates that the frame transmission is complete */ - __IO uint32_t TPS : 1; /*!< Transmit Process Stopped */ - __IO uint32_t TU : 1; /*!< the host owns the Next Descriptor in the Transmit List and the - DMA cannot acquire it. */ - __IO uint32_t TJT : 1; /*!< Transmit Jabber Timeout */ - __IO uint32_t OVF : 1; /*!< Receive Overflow */ - __IO uint32_t UNF : 1; /*!< Transmit Underflow */ - __IO uint32_t RI : 1; /*!< the frame reception is complete */ - __IO uint32_t RU : 1; /*!< Receive Buffer Unavailable */ - __IO uint32_t RPS : 1; /*!< Receive Process Stopped */ - __IO uint32_t RWT : 1; /*!< Receive Watchdog Timeout */ - __IO uint32_t ETI : 1; /*!< the frame to be transmitted is fully transferred to the MTL - Transmit FIFO */ - uint32_t : 2; - __IO uint32_t FBI : 1; /*!< a bus error occurred, as described in EB. */ - __IO uint32_t ERI : 1; /*!< the DMA filled the first data buffer of the packet */ - __IO uint32_t AIS : 1; /*!< Abnormal Interrupt Summary, must be cleared by writting */ - __IO uint32_t NIS : 1; /*!< Normal Interrupt Summary, must be cleared by writting */ - __I uint32_t RS : 3; /*!< Receive DMA FSM state */ - __I uint32_t TS : 3; /*!< Transmit DMA FSM state */ - __I uint32_t EB : 3; /*!< Error bit */ - __I uint32_t GLI : 1; /*!< GMAC Line Interface Interrupt */ - __I uint32_t GMI : 1; /*!< GMAC MMC Interrupt */ - __I uint32_t GPI : 1; /*!< GMAC PMT Interrupt */ - __I uint32_t TTI : 1; /*!< Timestamp Trigger Interrupt */ - } STATUS_b; /*!< BitSize */ - }; - - union { - __IO uint32_t OPERATION; /*!< Operation Mode Register */ - - struct { - uint32_t : 1; - __IO uint32_t SR : 1; /*!< Start or Stop Receive */ - __IO uint32_t OSF : 1; /*!< Operate on Second Frame */ - __IO uint32_t RT : 2; /*!< Receive Threshold Control */ - __IO uint32_t DGF : 1; /*!< Drop Giant Frames */ - __IO uint32_t FUF : 1; /*!< Forward Undersized Good Frames */ - __IO uint32_t FEF : 1; /*!< Forward Error Frames */ - uint32_t : 5; - __IO uint32_t ST : 1; /*!< Start or Stop Transmission Command */ - __IO uint32_t TT : 3; /*!< Transmit Threshold Control */ - uint32_t : 3; - __IO uint32_t FTF : 1; /*!< Flush Transmit FIFO */ - __IO uint32_t TSF : 1; /*!< If set, transmission starts when a full frame resides in Transmit - FIFO */ - uint32_t : 2; - __IO uint32_t DFF : 1; /*!< Disable Flushing of Received Frames */ - __IO uint32_t RSF : 1; /*!< If set, the MTL reads a frame from the Rx FIFO while the complete - frame has been written to it, */ - } OPERATION_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INT_EN; /*!< Interrupt Enable Register */ - - struct { - __IO uint32_t TIE : 1; /*!< Transmit Interrupt Enable */ - __IO uint32_t TSE : 1; /*!< Transmit Stopped Enable */ - __IO uint32_t TUE : 1; /*!< Transmit Buffer Unavailable Enable */ - __IO uint32_t TJE : 1; /*!< Transmit Jabber Timeout Enable */ - __IO uint32_t OVE : 1; /*!< Overflow Interrupt Enable */ - __IO uint32_t UNE : 1; /*!< Underflow Interrupt Enable */ - __IO uint32_t RIE : 1; /*!< Receive Interrupt Enable */ - __IO uint32_t RUE : 1; /*!< Receive Buffer Unavailable Enable */ - __IO uint32_t RSE : 1; /*!< Receive Stopped Enable */ - __IO uint32_t RWE : 1; /*!< Receive Watchdog Timeout Enable */ - __IO uint32_t ETE : 1; /*!< Early Transmit Interrupt Enable */ - uint32_t : 2; - __IO uint32_t FBE : 1; /*!< Fatal Bus Error Enable */ - __IO uint32_t ERE : 1; /*!< Early Receive Interrupt Enable */ - __IO uint32_t AIE : 1; /*!< Abnormal Interrupt Summary Enable */ - __IO uint32_t NIE : 1; /*!< Normal Interrupt Summary Enable */ - } INT_EN_b; /*!< BitSize */ - }; - __I uint32_t RESERVED4[3]; - - union { - __IO uint32_t AHB_STATUS; /*!< AHB Status Register */ - - struct { - __IO uint32_t BUSY : 1; /*!< If set, it indicates that the AHB master interface FSMs are - in the non-idle state */ - } AHB_STATUS_b; /*!< BitSize */ - }; - __I uint32_t RESERVED5[6]; - __I uint32_t CURTDESAPTR; /*!< Current Host Transmit Descriptor Register */ - __I uint32_t CURRDESAPTR; /*!< Current Host Receive Descriptor Register */ - __I uint32_t CURTBUFAPTR; /*!< Current Host Transmit Buffer Address Register */ - __I uint32_t CURRBUFAPTR; /*!< Current Host Receive Buffer Address Register */ -} ETH_Type; - - -/* ================================================================================ */ -/* ================ USB ================ */ -/* ================================================================================ */ - - -/** - * @brief USB (USB) - */ - -typedef struct { /*!< USB Structure */ - - union { - __IO uint32_t GOTGCTL; /*!< Control and Status register */ - - struct { - __I uint32_t SES_REQ_SCS: 1; /*!< set when a session request initiation is successful as a device */ - __IO uint32_t SES_SEQ : 1; /*!< set to initiate a session request on the USB as a device */ - __IO uint32_t VB_VALID_OV_EN: 1; /*!< enable/disable the software to override the Bvalid signal using - the GOTGCTL.VbvalidOvVal as a host */ - __IO uint32_t VB_VALID_OV_VAL: 1; /*!< set Override value for vbusvalid signal when GOTGCTL.VbvalidOvEn - is set as a host */ - __IO uint32_t A_VALID_OV_EN: 1; /*!< enable/disable the software to override the Avalid signal using - the GOTGCTL.AvalidOvVal as a host */ - __IO uint32_t A_VALID_OV_VAL: 1; /*!< set Override value for Avalid signal when GOTGCTL.AvalidOvEn - is set as a host */ - __IO uint32_t B_VALID_OV_EN: 1; /*!< enable/disable the software to override the Bvalid signal using - the GOTGCTL.BvalidOvVal as a device. */ - __IO uint32_t B_VALID_OV_VAL: 1; /*!< set Override value for Bvalid signal when GOTGCTL.BvalidOvEn - is set as a device. */ - __I uint32_t HST_NEG_SCS: 1; /*!< sets when host negotiation is successful as a device. */ - __IO uint32_t HNP_REQ : 1; /*!< sets this bit to initiate an HNP request to the connected USB - host as a device */ - __IO uint32_t HST_SET_HNP_EN: 1; /*!< Host Set HNP Enable as a host */ - __IO uint32_t DEV_HNP_EN : 1; /*!< Device HNP Enabled as a device */ - uint32_t : 4; - __I uint32_t CON_ID_STS : 1; /*!< Connector ID Status */ - __I uint32_t DBNC_TIME : 1; /*!< the debounce time of a detected connection as a host */ - __I uint32_t A_SES_VLD : 1; /*!< A-Session Valid as a host */ - __I uint32_t B_SES_VLD : 1; /*!< B-Session Valid as a host */ - __IO uint32_t OTG_VER : 1; /*!< If 0, OTG Version 1.3. If 1, OTG Version 2.0. */ - } GOTGCTL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t GOTGINT; /*!< OTG interrupt Register */ - - struct { - uint32_t : 2; - __IO uint32_t SES_END_DET: 1; /*!< Set when the utmiotg_bvalid signal is deasserted */ - uint32_t : 5; - __IO uint32_t SES_REQ_SUC_STS_CHNG: 1; /*!< Session Request Success Status Change */ - __IO uint32_t HST_NEG_SUC_STS_CHNG: 1; /*!< Host Negotiation Success Status Change */ - uint32_t : 7; - __IO uint32_t HST_NEG_DET: 1; /*!< if set, detects a host negotiation request on the USB */ - __IO uint32_t A_DEV_TOUT_CHG: 1; /*!< A-device has timed out while waiting for the B-device to connect */ - __IO uint32_t DBNCE_DONE : 1; /*!< debounce is completed after the device connect as a host */ - } GOTGINT_b; /*!< BitSize */ - }; - - union { - __IO uint32_t GAHBCFG; /*!< AHB Configuration Register */ - - struct { - __IO uint32_t GLBL_INTR_EN: 1; /*!< Global Interrupt Enable */ - __IO uint32_t BST_LEN : 4; /*!< Burst Length/Type */ - __IO uint32_t DMA_EN : 1; /*!< DMA enable */ - uint32_t : 15; - __IO uint32_t REMOTE_MEM_SUPP: 1; /*!< enable the functionality to wait for the system DMA Done Signal - for the DMA Write Transfers */ - __IO uint32_t NOTIFY_ALL_DMA_WRITE: 1; /*!< enable the System DMA Done functionality for all the DMA write - Transactions corresponding to the Channel/Endpoint */ - __IO uint32_t AHB_SINGLE : 1; /*!< supports Single transfers for the remaining data in a transfer */ - } GAHBCFG_b; /*!< BitSize */ - }; - - union { - __IO uint32_t GUSBCFG; /*!< USB Configuration Register */ - - struct { - uint32_t : 3; - __IO uint32_t PHY_IF : 1; /*!< PHY Interface */ - __IO uint32_t ULPI_UTMI_SEL: 1; /*!< 1, ULPI. 0, UTMI+ */ - __IO uint32_t FS_IF : 1; /*!< 1, 3-pin bidirectional. 0, 6-pin unidirectional */ - __IO uint32_t PHY_SEL : 1; /*!< 0, USB 2.0 High-Speed PHY. 1, USB 1.1 full-speed serial transceiver */ - __IO uint32_t DDR_SEL : 1; /*!< 0, Single Data Rate ULPI Interface, with 8-bit-wide data bus. - 1, Double Data Rate ULPI Interface, with 4-bit-wide data bus */ - __IO uint32_t SRP_CAP : 1; /*!< SRP-Capable */ - __IO uint32_t HNP_CAP : 1; /*!< HNP-Capable */ - __IO uint32_t USB_TRD_TIM: 4; /*!< Specifies the response time for a MAC request to the Packet - FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM) as - a device. */ - uint32_t : 1; - __IO uint32_t PHY_LPWR_CLK_SEL: 1; /*!< 0, 480-MHz Internal PLL clock. 1, 48-MHz External Clock */ - uint32_t : 12; - __IO uint32_t TX_END_DELAY: 1; /*!< Tx End Delay as a device */ - __IO uint32_t FORCE_HOST_MODE: 1; /*!< Force Host Mode */ - __IO uint32_t FORCE_DEVICE_MODE: 1; /*!< Force Device Mode */ - } GUSBCFG_b; /*!< BitSize */ - }; - - union { - __IO uint32_t GRSTCTL; /*!< Reset Register */ - - struct { - __IO uint32_t CORE_SOFT_RST: 1; /*!< Core Soft Reset */ - uint32_t : 1; - __IO uint32_t FRM_CNT_RST: 1; /*!< Host Frame Counter Reset */ - uint32_t : 1; - __IO uint32_t RX_FIFO_FLUSH: 1; /*!< RxFIFO Flush */ - __IO uint32_t TX_FIFO_FLUSH: 1; /*!< TxFIFO Flush */ - __IO uint32_t TX_FIFO_FLUSH_NUM: 4; /*!< This field indicates which of the 32 possible PHY devices are - being accessed */ - __IO uint32_t TX_FIFO_ALL: 1; /*!< TxFIFO flush all FIFOs */ - uint32_t : 19; - __I uint32_t DMA_REQ : 1; /*!< Indicates that the DMA request is in progress */ - __I uint32_t AHB_IDLE : 1; /*!< Indicates that the AHB Master State Machine is in the IDLE condition */ - } GRSTCTL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t GINTSTS; /*!< Interrupt Register */ - - struct { - __I uint32_t CUR_MOD : 1; /*!< Current Mode of Operation */ - __IO uint32_t MODE_MIS : 1; /*!< Mode Mismatch Interrupt */ - __I uint32_t OTG_INT : 1; /*!< OTG Interrupt */ - __IO uint32_t SOF : 1; /*!< Start of (micro)Frame */ - __I uint32_t RFNE : 1; /*!< RxFIFO Non-Empty */ - __I uint32_t NPTFE : 1; /*!< Non-periodic TxFIFO Empty */ - __I uint32_t GIN_NAK_EFF: 1; /*!< Global IN Non-periodic NAK Effective as a device */ - __I uint32_t GOUT_NAK_EFF: 1; /*!< Global OUT NAK Effective as a device */ - uint32_t : 2; - __IO uint32_t EARLY_SUS : 1; /*!< an Idle state has been detected on the USB For 3 ms as a device */ - __IO uint32_t USB_SUS : 1; /*!< A suspend was detected on the USB as a device */ - __IO uint32_t USB_RST : 1; /*!< A reset is detected on the USB as a device */ - __IO uint32_t ENUM_DONE : 1; /*!< speed enumeration is complete as a device */ - __IO uint32_t ISO_OUT_DROP: 1; /*!< Drop an isochronous OUT packet while no space in RXFIFO as a - device */ - __IO uint32_t EOPF : 1; /*!< End of Periodic Frame Interrupt as a device */ - uint32_t : 1; - __I uint32_t EP_MIS : 1; /*!< Endpoint Mismatch Interrupt as a device */ - __I uint32_t IEP_INT : 1; /*!< IN Endpoints Interrupt as a device */ - __I uint32_t OEP_INT : 1; /*!< OUT Endpoints Interrupt as a device */ - __IO uint32_t INCOMP_ISO_IN: 1; /*!< Incomplete Isochronous IN Transfer as a device */ - __IO uint32_t IPT_IIOT : 1; /*!< OUT Incomplete Periodic Transfer as a host or Incomplete Isochronous - OUT Transfer as a device */ - __IO uint32_t DFS : 1; /*!< Data Fetch Suspended as a device */ - __IO uint32_t RST_DET : 1; /*!< reset detect as a device */ - __I uint32_t HP : 1; /*!< a change in port status of one of the DWC_otg core ports as - a host */ - __I uint32_t HC : 1; /*!< an interrupt is pending on one of the channels of the core as - a host */ - __I uint32_t PTFE : 1; /*!< Periodic TxFIFO Empty as a host */ - __IO uint32_t LPM : 1; /*!< LPM Transaction Received Interrupt */ - __IO uint32_t CIDSC : 1; /*!< A change in connector ID status */ - __IO uint32_t DD : 1; /*!< A change in connector ID status */ - __IO uint32_t SR : 1; /*!< Session Request/New Session Detected Interrupt */ - __IO uint32_t WAKEUP : 1; /*!< Resume/Remote Wakeup Detected Interrupt */ - } GINTSTS_b; /*!< BitSize */ - }; - - union { - __IO uint32_t GINTEN; /*!< Interrupt enable Register */ - - struct { - uint32_t : 1; - __IO uint32_t MODE_MIS : 1; /*!< Mode Mismatch */ - __IO uint32_t OTG_INT : 1; /*!< OTG */ - __IO uint32_t SOF : 1; /*!< Start of (micro)Frame */ - __IO uint32_t RFNE : 1; /*!< RxFIFO Non-Empty */ - __IO uint32_t NPTFE : 1; /*!< Non-periodic TxFIFO Empty */ - __IO uint32_t GIN_NAK_EFF: 1; /*!< Global IN Non-periodic NAK Effective as a device */ - __IO uint32_t GOUT_NAK_EFF: 1; /*!< Global OUT NAK Effective as a device */ - uint32_t : 2; - __IO uint32_t EARLY_SUS : 1; /*!< an Idle state has been detected on the USB For 3 ms as a device */ - __IO uint32_t USB_SUS : 1; /*!< A suspend was detected on the USB as a device */ - __IO uint32_t USB_RST : 1; /*!< A reset is detected on the USB as a device */ - __IO uint32_t ENUM_DONE : 1; /*!< speed enumeration is complete as a device */ - __IO uint32_t ISO_OUT_DROP: 1; /*!< Drop an isochronous OUT packet while no space in RXFIFO as a - device */ - __IO uint32_t EOPF : 1; /*!< End of Periodic Frame Interrupt as a device */ - uint32_t : 1; - __IO uint32_t EP_MIS : 1; /*!< Endpoint Mismatch Interrupt as a device */ - __IO uint32_t IEP_INT : 1; /*!< IN Endpoints Interrupt as a device */ - __IO uint32_t OEP_INT : 1; /*!< OUT Endpoints Interrupt as a device */ - __IO uint32_t INCOMP_ISO_IN: 1; /*!< Incomplete Isochronous IN Transfer as a device */ - __IO uint32_t IPT_IIOT : 1; /*!< OUT Incomplete Periodic Transfer as a host or Incomplete Isochronous - OUT Transfer as a device */ - __IO uint32_t DFS : 1; /*!< Data Fetch Suspended as a device */ - __IO uint32_t RST_DET : 1; /*!< reset detect as a device */ - __IO uint32_t HP : 1; /*!< a change in port status of one of the DWC_otg core ports as - a host */ - __IO uint32_t HC : 1; /*!< an interrupt is pending on one of the channels of the core as - a host */ - __IO uint32_t PTFE : 1; /*!< Periodic TxFIFO Empty as a host */ - __IO uint32_t LPM : 1; /*!< LPM Transaction Received Interrupt */ - __IO uint32_t CIDSC : 1; /*!< A change in connector ID status */ - __IO uint32_t DD : 1; /*!< A change in connector ID status */ - __IO uint32_t SR : 1; /*!< Session Request/New Session Detected Interrupt */ - __IO uint32_t WAKEUP : 1; /*!< Resume/Remote Wakeup Detected Interrupt */ - } GINTEN_b; /*!< BitSize */ - }; - - union { - __I uint32_t GRXSTSR; /*!< Returns the contents of the top of the Receive FIFO */ - - struct { - __I uint32_t CH_EP_NUM : 4; /*!< channel number as a host or EP number as a device */ - __I uint32_t BCNT : 11; /*!< byte count of the received packet */ - __I uint32_t DPID : 2; /*!< Data PID of the received packet */ - __I uint32_t PS : 4; /*!< the status of the received packet */ - __I uint32_t FN : 4; /*!< the least significant 4 bits of the (micro)frame number in which - the packet is received on the USB */ - } GRXSTSR_b; /*!< BitSize */ - }; - - union { - __I uint32_t GRXSTSP; /*!< Pop the contents of the top of the Receive FIFO */ - - struct { - __I uint32_t CH_EP_NUM : 4; /*!< channel number as a host or EP number as a device */ - __I uint32_t BCNT : 11; /*!< byte count of the received packet */ - __I uint32_t DPID : 2; /*!< Data PID of the received packet */ - __I uint32_t PS : 4; /*!< the status of the received packet */ - __I uint32_t FN : 4; /*!< the least significant 4 bits of the (micro)frame number in which - the packet is received on the USB */ - } GRXSTSP_b; /*!< BitSize */ - }; - __IO uint16_t GRXFSIZ; /*!< This value is in terms of 32-bit words, 16 is minimize and 32768 - is max */ - __I uint16_t RESERVED0; - - union { - __IO uint32_t GNPTXFSIZ; /*!< Non-Periodic Transmit FIFO Size Register */ - - struct { - __IO uint32_t NTRSA_INEF0TRSA: 16; /*!< start address for Non-periodic Transmit FIFO RAM as a host or - IN Endpoint FIFO0 Transmit RAM as a device */ - __IO uint32_t NTD_INEF0TD: 16; /*!< This value is in terms of 32-bit words, 16 is minimize and 32768 - is max. Non-periodic TxFIFO Depth as a host or IN Endpoint TxFIFO - 0 Depth as a device */ - } GNPTXFSIZ_b; /*!< BitSize */ - }; - - union { - __I uint32_t GNPTXSTS; /*!< Non-Periodic Transmit FIFO/Queue Status Register */ - - struct { - __I uint32_t NTSA : 16; /*!< the amount of free space available in the Non-periodic TxFIFO, - max is 32768. */ - __I uint32_t NTRQSA : 8; /*!< the amount of free space available in the Non-periodic Transmit - Request Queue, max is 8. */ - __I uint32_t TNTRQ_LAST : 1; /*!< last Entry in the Non-periodic Tx Request Queue that is currently - being processed by the MAC */ - __I uint32_t TNTRQ_TYPE : 2; /*!< type in the Non-periodic Tx Request Queue that is currently - being processed by the MAC */ - __I uint32_t TNTRQ_CH : 4; /*!< Channel of top of the Non-periodic Transmit Request Queue */ - } GNPTXSTS_b; /*!< BitSize */ - }; - __I uint32_t RESERVED1[5]; - - union { - __I uint32_t GHWCFG1; /*!< User HW Config1 Register */ - - struct { - __I uint32_t EP0_DIR : 2; /*!< Endpoint 0 direction, always Bidirection */ - __I uint32_t EP1_DIR : 2; /*!< Endpoint 1 direction */ - __I uint32_t EP2_DIR : 2; /*!< Endpoint 2 direction */ - __I uint32_t EP3_DIR : 2; /*!< Endpoint 3 direction */ - __I uint32_t EP4_DIR : 2; /*!< Endpoint 4 direction */ - __I uint32_t EP5_DIR : 2; /*!< Endpoint 5 direction */ - __I uint32_t EP6_DIR : 2; /*!< Endpoint 6 direction */ - __I uint32_t EP7_DIR : 2; /*!< Endpoint 7 direction */ - __I uint32_t EP8_DIR : 2; /*!< Endpoint 8 direction */ - __I uint32_t EP9_DIR : 2; /*!< Endpoint 9 direction */ - __I uint32_t EP10_DIR : 2; /*!< Endpoint 10 direction */ - __I uint32_t EP11_DIR : 2; /*!< Endpoint 11 direction */ - __I uint32_t EP12_DIR : 2; /*!< Endpoint 12 direction */ - __I uint32_t EP13_DIR : 2; /*!< Endpoint 13 direction */ - __I uint32_t EP14_DIR : 2; /*!< Endpoint 14 direction */ - __I uint32_t EP15_DIR : 2; /*!< Endpoint 15 direction */ - } GHWCFG1_b; /*!< BitSize */ - }; - __I uint32_t RESERVED2[3]; - - union { - __IO uint32_t GLPMCFG; /*!< Core LPM Configuration Register */ - - struct { - __IO uint32_t EP0_DIR : 1; /*!< LPM capability is enabled */ - } GLPMCFG_b; /*!< BitSize */ - }; - - union { - __IO uint32_t GPWRDN; /*!< Global Power Down Register */ - - struct { - uint32_t : 1; - __IO uint32_t PMU_ACTIVE : 1; /*!< PMU Active is enabled */ - uint32_t : 1; - __IO uint32_t PDC : 1; /*!< Power Down Clamp is enabled */ - __IO uint32_t PDR : 1; /*!< If clear, Reset DWC_otg */ - __IO uint32_t PDS : 1; /*!< If 0, DWC_otg is in ON state, or OFF state */ - __IO uint32_t DIS_VBUS : 1; /*!< Disable VBUS */ - uint32_t : 8; - __IO uint32_t SRP_DETECT_INT: 1; /*!< SRP has been detected by the PMU as a host */ - __IO uint32_t SRP_DETECT_INT_EN: 1; /*!< Enable For SRPDetect Interrupt as a host */ - __IO uint32_t STATE_CHN_INT: 1; /*!< a status change in either the IDDIG or BSessVld signal */ - __IO uint32_t STATE_CHN_INT_EN: 1; /*!< Enable For Status Change Interrupt */ - __I uint32_t LINE_STATE : 2; /*!< the current linestate on USB as seen by the PMU module */ - __I uint32_t IDDIG : 1; /*!< the status of the IDDIG signal. If 0, host mode. if 1, device - mode */ - __I uint32_t B_SESS_VLD : 1; /*!< B session valid status signal from the PHY */ - __IO uint32_t ADP_INT : 1; /*!< set whenever there is a ADP event */ - } GPWRDN_b; /*!< BitSize */ - }; - - union { - __IO uint32_t GDFIFOCFG; /*!< Global DFIFO Software Config Register */ - - struct { - __IO uint32_t GDFIFOCFG : 16; /*!< This field is for dynamic programming of the DFIFO Size. */ - __IO uint32_t EPIBA : 16; /*!< This field provides the start address of the EP info controller */ - } GDFIFOCFG_b; /*!< BitSize */ - }; - __I uint32_t RESERVED3[40]; - - union { - __IO uint32_t HPTXFSIZ; /*!< Host Periodic Transmit FIFO Size Register */ - - struct { - __IO uint32_t HPTSA : 16; /*!< start address of the Periodic TxFIFO */ - __IO uint32_t EPIBA : 16; /*!< the size of the Periodic TxFIFO */ - } HPTXFSIZ_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF1; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF2; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF2_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF3; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF3_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF4; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF4_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF5; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF5_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF6; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF6_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF7; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF7_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF8; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF8_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF9; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF9_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF10; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF10_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF11; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF11_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF12; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF12_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF13; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF13_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF14; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF14_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DIEPTXF15; /*!< Device In Endpoint Transmit FIFO Size Register */ - - struct { - __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ - } DIEPTXF15_b; /*!< BitSize */ - }; - __I uint32_t RESERVED4[176]; - - union { - __IO uint32_t HCFG; /*!< Host Configuration Register */ - - struct { - __IO uint32_t FS_LS_PCS : 2; /*!< FS/LS PHY Clock Select as a host */ - __IO uint32_t FS_LS_SUPPORT: 1; /*!< If set, FS/LS-only, even If the connected device can support - HS */ - uint32_t : 4; - __IO uint32_t EN_32K_SUS : 1; /*!< Enable 32 KHz Suspend mode */ - __IO uint32_t RVP : 8; /*!< ResValid number of clock cycles to detect a valid resume */ - uint32_t : 7; - __IO uint32_t EN_SG_DMA : 1; /*!< Enable Scatter/gather DMA in Host mode */ - __IO uint32_t FLE : 2; /*!< the number of entries in the Frame list. 8 times of FLE */ - __IO uint32_t EPS : 1; /*!< Enables periodic scheduling */ - uint32_t : 4; - __IO uint32_t MCRTE : 1; /*!< enable/disable the Host core to wait 200 PHY clock cycles at - the end of Resume to change the opmode signal to the PHY to - 00 after Suspend or LPM. */ - } HCFG_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HFIR; /*!< Host Frame Interval Register */ - - struct { - __IO uint32_t FI : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ - __IO uint32_t RC : 1; /*!< The HFIR can be dynamically reloaded during runtime if set */ - } HFIR_b; /*!< BitSize */ - }; - - union { - __I uint32_t HFNUM; /*!< Host Frame Number/Frame Time Remaining Register */ - - struct { - __I uint32_t FN : 16; /*!< This field increments when a new SOF is transmitted on the USB */ - __I uint32_t FTR : 16; /*!< amount of time remaining in the current microframe (HS) or Frame - (FS/LS), in terms of PHY clocks */ - } HFNUM_b; /*!< BitSize */ - }; - __I uint32_t RESERVED5; - - union { - __I uint32_t HPTXSTS; /*!< Host Periodic Transmit FIFO/Queue Status Register */ - - struct { - __I uint32_t PTDFSA : 16; /*!< Indicates the number of free locations available to be written - to in the Periodic TxFIFO, max is 32768 */ - __I uint32_t PTRQSA : 8; /*!< Indicates the number of free locations available to be written - in the Periodic Transmit Request Queue, max is 16 */ - __I uint32_t TPTRQ_LAST : 1; /*!< last Entry in the periodic Tx Request Queue that is currently - being processed by the MAC */ - __I uint32_t TPTRQ_TYPE : 2; /*!< type in the periodic Tx Request Queue that is currently being - processed by the MAC */ - __I uint32_t TPTRQ_CH : 4; /*!< Channel of top of the periodic Transmit Request Queue */ - __I uint32_t TPTRQ_ODD_FRAME: 1; /*!< If set, send in odd (micro)Frame */ - } HPTXSTS_b; /*!< BitSize */ - }; - - union { - __I uint32_t HAINT; /*!< Host All Channels Interrupt Register */ - - struct { - __I uint32_t INT : 16; /*!< Channel Interrupts, from 0 to 15. */ - } HAINT_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HAINT_EN; /*!< Host All Channels Interrupt Enable Register */ - - struct { - __IO uint32_t EN : 16; /*!< Channel Interrupts Enable, from 0 to 15. */ - } HAINT_EN_b; /*!< BitSize */ - }; - __IO uint32_t HFLBA; /*!< The starting address of the Frame list */ - __I uint32_t RESERVED6[8]; - - union { - __IO uint32_t __HPRT; /*!< Host Port Control and Status Register */ - - struct { - __I uint32_t PCS : 1; /*!< If a device is attached to the port */ - __IO uint32_t PCD : 1; /*!< A device connection is detected */ - __IO uint32_t PE : 1; /*!< Port Enable */ - __IO uint32_t PEDC : 1; /*!< Set if when the status of the Port Enable (bit 2) of this register - changes */ - __I uint32_t POA : 1; /*!< Indicates the overcurrent condition of the port */ - __IO uint32_t POC : 1; /*!< Set if when the status of the Port Overcurrent Active bit (bit - 4) in this register changes */ - __IO uint32_t PR : 1; /*!< Application and Core all can perform resume by setting, then - clear it whatever resume is success or not */ - __IO uint32_t PS : 1; /*!< Sets this bit to put this port in Suspend mode */ - __IO uint32_t PRESET : 1; /*!< sets this bit, a reset sequence is started on this port */ - uint32_t : 1; - __IO uint32_t PLSDP : 1; /*!< Logic level of D+ */ - __IO uint32_t PLSDN : 1; /*!< Logic level of D- */ - __IO uint32_t PP : 1; /*!< this field to control power to this port. 1, power on */ - __IO uint32_t PTC : 4; /*!< The application writes a nonzero value to this field to put - the port into a Test mode */ - __I uint32_t SPEED : 2; /*!< Indicates the speed of the device attached to this port */ - } __HPRT_b; /*!< BitSize */ - }; - __I uint32_t RESERVED7[47]; - - union { - __IO uint32_t HCC0; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC0_b; /*!< BitSize */ - }; - __I uint32_t RESERVED8; - - union { - __IO uint32_t HCINT0; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN0; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ0; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA0; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA0_b; /*!< BitSize */ - }; - __I uint32_t RESERVED9; - __IO uint32_t HCDMAB0; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC1; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC1_b; /*!< BitSize */ - }; - __I uint32_t RESERVED10; - - union { - __IO uint32_t HCINT1; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN1; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ1; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA1; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA1_b; /*!< BitSize */ - }; - __I uint32_t RESERVED11; - __IO uint32_t HCDMAB1; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC2; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC2_b; /*!< BitSize */ - }; - __I uint32_t RESERVED12; - - union { - __IO uint32_t HCINT2; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT2_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN2; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN2_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ2; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ2_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA2; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA2_b; /*!< BitSize */ - }; - __I uint32_t RESERVED13; - __IO uint32_t HCDMAB2; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC3; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC3_b; /*!< BitSize */ - }; - __I uint32_t RESERVED14; - - union { - __IO uint32_t HCINT3; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT3_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN3; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN3_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ3; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ3_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA3; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA3_b; /*!< BitSize */ - }; - __I uint32_t RESERVED15; - __IO uint32_t HCDMAB3; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC4; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC4_b; /*!< BitSize */ - }; - __I uint32_t RESERVED16; - - union { - __IO uint32_t HCINT4; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT4_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN4; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN4_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ4; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ4_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA4; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA4_b; /*!< BitSize */ - }; - __I uint32_t RESERVED17; - __IO uint32_t HCDMAB4; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC5; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC5_b; /*!< BitSize */ - }; - __I uint32_t RESERVED18; - - union { - __IO uint32_t HCINT5; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT5_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN5; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN5_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ5; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ5_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA5; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA5_b; /*!< BitSize */ - }; - __I uint32_t RESERVED19; - __IO uint32_t HCDMAB5; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC6; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC6_b; /*!< BitSize */ - }; - __I uint32_t RESERVED20; - - union { - __IO uint32_t HCINT6; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT6_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN6; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN6_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ6; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ6_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA6; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA6_b; /*!< BitSize */ - }; - __I uint32_t RESERVED21; - __IO uint32_t HCDMAB6; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC7; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC7_b; /*!< BitSize */ - }; - __I uint32_t RESERVED22; - - union { - __IO uint32_t HCINT7; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT7_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN7; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN7_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ7; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ7_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA7; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA7_b; /*!< BitSize */ - }; - __I uint32_t RESERVED23; - __IO uint32_t HCDMAB7; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC8; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC8_b; /*!< BitSize */ - }; - __I uint32_t RESERVED24; - - union { - __IO uint32_t HCINT8; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT8_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN8; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN8_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ8; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ8_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA8; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA8_b; /*!< BitSize */ - }; - __I uint32_t RESERVED25; - __IO uint32_t HCDMAB8; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC9; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC9_b; /*!< BitSize */ - }; - __I uint32_t RESERVED26; - - union { - __IO uint32_t HCINT9; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT9_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN9; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN9_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ9; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ9_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA9; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA9_b; /*!< BitSize */ - }; - __I uint32_t RESERVED27; - __IO uint32_t HCDMAB9; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC10; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC10_b; /*!< BitSize */ - }; - __I uint32_t RESERVED28; - - union { - __IO uint32_t HCINT10; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT10_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN10; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN10_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ10; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ10_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA10; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA10_b; /*!< BitSize */ - }; - __I uint32_t RESERVED29; - __IO uint32_t HCDMAB10; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC11; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC11_b; /*!< BitSize */ - }; - __I uint32_t RESERVED30; - - union { - __IO uint32_t HCINT11; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT11_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN11; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN11_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ11; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ11_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA11; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA11_b; /*!< BitSize */ - }; - __I uint32_t RESERVED31; - __IO uint32_t HCDMAB11; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC12; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC12_b; /*!< BitSize */ - }; - __I uint32_t RESERVED32; - - union { - __IO uint32_t HCINT12; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT12_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN12; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN12_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ12; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ12_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA12; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA12_b; /*!< BitSize */ - }; - __I uint32_t RESERVED33; - __IO uint32_t HCDMAB12; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC13; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC13_b; /*!< BitSize */ - }; - __I uint32_t RESERVED34; - - union { - __IO uint32_t HCINT13; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT13_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN13; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN13_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ13; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ13_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA13; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA13_b; /*!< BitSize */ - }; - __I uint32_t RESERVED35; - __IO uint32_t HCDMAB13; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC14; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC14_b; /*!< BitSize */ - }; - __I uint32_t RESERVED36; - - union { - __IO uint32_t HCINT14; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT14_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN14; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN14_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ14; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ14_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA14; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA14_b; /*!< BitSize */ - }; - __I uint32_t RESERVED37; - __IO uint32_t HCDMAB14; /*!< Host Channel-n DMA Buffer Address Register */ - - union { - __IO uint32_t HCC15; /*!< Host Channel Characteristics Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ - uint32_t : 1; - __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ - __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source - or sink. */ - __IO uint32_t OF : 1; /*!< The frame is odd or even. */ - __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ - __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not - yet. */ - } HCC15_b; /*!< BitSize */ - }; - __I uint32_t RESERVED38; - - union { - __IO uint32_t HCINT15; /*!< Host Channel Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT15_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCINT_EN15; /*!< Host Channel Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data - source or sink. */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - uint32_t : 8; - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ - __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ - } HCINT_EN15_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCTSIZ15; /*!< Host Channel Transfer Size Register */ - - struct { - __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that - microframe.Bit N indicates scheduling for Nth microframe scheduling - for 8th microframe in that frame. */ - __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ - uint32_t : 13; - __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ - __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ - } HCTSIZ15_b; /*!< BitSize */ - }; - - union { - __IO uint32_t HCDMA15; /*!< Host Channel-n DMA Address Register */ - - struct { - uint32_t : 3; - __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ - __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ - } HCDMA15_b; /*!< BitSize */ - }; - __I uint32_t RESERVED39; - __IO uint32_t HCDMAB15; /*!< Host Channel-n DMA Buffer Address Register */ - __I uint32_t RESERVED40[64]; - - union { - __IO uint32_t DCFG; /*!< Device Configuration Register */ - - struct { - __IO uint32_t DSPEED : 2; /*!< the maximum speed the application can support */ - __IO uint32_t NZLSOH : 1; /*!< select the handshake the core sends on receiving a non zero-length - data packet during the OUT transaction of a control transfer's - Status stage */ - __IO uint32_t EN_32K_SUS : 1; /*!< Enable 32 KHz Suspend mode */ - __IO uint32_t DEVICE_ADDR: 7; /*!< The application must program this field after every SetAddress - control command */ - __IO uint32_t PFI : 2; /*!< Indicates the time within a (micro)frame at which the application - must be notified using the End Of Periodic Frame Interrupt */ - __IO uint32_t EDON : 1; /*!< If set the core sets NAK after Bulk OUT transfer complete */ - uint32_t : 9; - __IO uint32_t EN_SG_DMA : 1; /*!< enable the Scatter/Gather DMA operation */ - __IO uint32_t PSI : 2; /*!< Periodic Scheduling Interval */ - __IO uint32_t RVP : 6; /*!< It controls the resume period when the core resumes from suspend */ - } DCFG_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DCTL; /*!< Device Control Register */ - - struct { - __IO uint32_t RWS : 1; /*!< If set, the core initiates remote signaling to wake the USB - hosts */ - __IO uint32_t SD : 1; /*!< If set, generates a device disconnect event to the USB host */ - __I uint32_t GNPINS : 1; /*!< A NAK handshake is sent out on all non-periodic IN endpoints, - irrespective of the data availability in the transmit FIFO. */ - __I uint32_t GONS : 1; /*!< No data is written to the RxFIFO, irrespective of space availability.. */ - __IO uint32_t TC : 3; /*!< Test Control */ - __O uint32_t SGNPIN : 1; /*!< A write to this field sets the Global Non-periodic IN NAK */ - __O uint32_t CGNPIN : 1; /*!< A write to this field clears the Global Non-periodic IN NAK */ - __O uint32_t SGON : 1; /*!< A write to this field sets the Global OUT NAK */ - __O uint32_t CGON : 1; /*!< A write to this field sets the Global OUT NAK. */ - __IO uint32_t POPD : 1; /*!< Power-On Programming Done */ - __IO uint32_t GMC : 2; /*!< GMC must be programmed only once after initialization. the number - of packets to be serviced for that end point before moving to - the next end point */ - uint32_t : 1; - __IO uint32_t IFNIE : 1; /*!< Ignore frame number for isochronous endpoints */ - __IO uint32_t NBE : 1; /*!< Set NAK automatically on babble */ - __IO uint32_t ECBNA : 1; /*!< After receiving BNA interrupt, the core disables the endpoint */ - } DCTL_b; /*!< BitSize */ - }; - - union { - __I uint32_t DSTS; /*!< Device Status Register */ - - struct { - __I uint32_t SUSPEND : 1; /*!< this bit is set as long as a Suspend condition is detected on - the USB */ - __I uint32_t SPEED : 2; /*!< Indicates the speed at which the DWC_otg core has come up after - speed detection through a chirp sequence */ - __I uint32_t EE : 1; /*!< reason of suspend state */ - uint32_t : 4; - __I uint32_t SOFFN : 14; /*!< Frame or Microframe Number of the Received SOF */ - __I uint32_t DLSDP : 1; /*!< Logic level of D+ */ - __I uint32_t DLSDN : 1; /*!< Logic level of D- */ - } DSTS_b; /*!< BitSize */ - }; - __I uint32_t RESERVED41; - - union { - __IO uint32_t DIEPEN; /*!< Device IN Endpoint Common Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer Completed Interrupt */ - __IO uint32_t ED : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< AHB Error Interrupt */ - __IO uint32_t TIMEOUT : 1; /*!< Timeout Condition(Non-isochronous endpoints) */ - __IO uint32_t ITRWTFE : 1; /*!< IN Token Received When TxFIFO Empty */ - __IO uint32_t ITRWEPM : 1; /*!< IN Token received with EP Mismatch */ - __IO uint32_t IENE : 1; /*!< IN Endpoint NAK Effective */ - uint32_t : 1; - __IO uint32_t FU : 1; /*!< Fifo Underrun */ - __IO uint32_t BNA : 1; /*!< BNA Interrupt */ - uint32_t : 3; - __IO uint32_t NAK : 1; /*!< NAK interrupt */ - } DIEPEN_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DOEPEN; /*!< Device OUT Endpoint Common Interrupt Enable Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer Completed Interrupt */ - __IO uint32_t ED : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< AHB Error Interrupt */ - __IO uint32_t SPD : 1; /*!< SETUP Phase Done, Applies to control endpoints only */ - __IO uint32_t OTRWED : 1; /*!< OUT Token Received when Endpoint Disabled, Applies to control - OUT endpoints only */ - __IO uint32_t SPR : 1; /*!< Status Phase Received */ - __IO uint32_t BTBSPR : 1; /*!< Back-to-Back SETUP Packets Received, Applies to control OUT - endpoints only */ - uint32_t : 1; - __IO uint32_t OPE : 1; /*!< OUT Packet Error */ - __IO uint32_t BNA : 1; /*!< BNA Interrupt */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error interrupt */ - __IO uint32_t NAK : 1; /*!< NAK interrupt */ - __IO uint32_t NYET : 1; /*!< NYET interrupt */ - } DOEPEN_b; /*!< BitSize */ - }; - - union { - __I uint32_t DAINT; /*!< Device All Channels Interrupt Register */ - - struct { - __I uint32_t INT : 16; /*!< IN Endpoint Interrupt Bits, from 0 to 15. */ - __I uint32_t OUT_INT : 16; /*!< OUT Endpoint Interrupt Bits, from 0 to 15. */ - } DAINT_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DAINT_EN; /*!< Device All Channels Interrupt Enable Register */ - - struct { - __IO uint32_t IN_EN : 16; /*!< IN EP Interrupt Enable, from 0 to 15. */ - __IO uint32_t OUT_EN : 16; /*!< OUT EP Interrupt Enable, from 0 to 15. */ - } DAINT_EN_b; /*!< BitSize */ - }; - __I uint32_t RESERVED42[4]; - - union { - __IO uint32_t DTHRCTL; /*!< Device Threshold Control Register */ - - struct { - __IO uint32_t NISOINETE : 1; /*!< Non-ISO IN Endpoints Threshold Enable */ - __IO uint32_t ISOINETE : 1; /*!< ISO IN Endpoints Threshold Enable */ - __IO uint32_t TTL : 9; /*!< This field specifies Transmit thresholding size in DWORDS */ - __IO uint32_t ATR : 2; /*!< These bits define the ratio between the AHB threshold and the - MAC threshold for the transmit path only. */ - uint32_t : 3; - __IO uint32_t RTE : 1; /*!< If set, the core enables thresholding in the receive direction */ - __IO uint32_t RTL : 9; /*!< This field specifies Receive thresholding size in DWORDS */ - uint32_t : 1; - __IO uint32_t APE : 1; /*!< This bit controls internal DMA arbiter parking for IN endpoints */ - } DTHRCTL_b; /*!< BitSize */ - }; - __IO uint16_t DIEPEMPEN; /*!< Device IN Endpoint FIFO Empty Interrupt Enable Register */ - __I uint16_t RESERVED43[101]; - - union { - __IO uint32_t DIEPCTL0; /*!< Device Control IN Endpoint 0 Control Register */ - - struct { - __IO uint32_t MPS : 2; /*!< Indicates the maximum packet size of the associated endpoint, - applies to IN and OUT endpoints */ - uint32_t : 13; - __I uint32_t USBAE : 1; /*!< Always 1, indicating that control endpoint 0 is always active - in all configurations and interfaces */ - uint32_t : 1; - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint */ - __I uint32_t EP_TYPE : 2; /*!< Hardcoded to 00 for control */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< The application sets this bit, and the core clears it when a - SETUP token is received for this endpoint */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - uint32_t : 2; - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL0_b; /*!< BitSize */ - }; - __I uint32_t RESERVED44; - - union { - __IO uint32_t DIEPINT0; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT0_b; /*!< BitSize */ - }; - __I uint32_t RESERVED45; - - union { - __IO uint32_t DIEPTSIZ0; /*!< Device IN Endpoint 0 Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 7; /*!< Indicates the transfer size in bytes for endpoint 0 */ - uint32_t : 12; - __IO uint32_t PACKET_CNT : 2; /*!< the total number of USB packets */ - } DIEPTSIZ0_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA0; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA0; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED46; - __I uint32_t DIEPDMAB0; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL1; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL1_b; /*!< BitSize */ - }; - __I uint32_t RESERVED47; - - union { - __IO uint32_t DIEPINT1; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT1_b; /*!< BitSize */ - }; - __I uint32_t RESERVED48; - - union { - __IO uint32_t DIEPTSIZ1; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ1_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA1; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA1; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED49; - __I uint32_t DIEPDMAB1; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL2; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL2_b; /*!< BitSize */ - }; - __I uint32_t RESERVED50; - - union { - __IO uint32_t DIEPINT2; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT2_b; /*!< BitSize */ - }; - __I uint32_t RESERVED51; - - union { - __IO uint32_t DIEPTSIZ2; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ2_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA2; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA2; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED52; - __I uint32_t DIEPDMAB2; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL3; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL3_b; /*!< BitSize */ - }; - __I uint32_t RESERVED53; - - union { - __IO uint32_t DIEPINT3; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT3_b; /*!< BitSize */ - }; - __I uint32_t RESERVED54; - - union { - __IO uint32_t DIEPTSIZ3; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ3_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA3; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA3; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED55; - __I uint32_t DIEPDMAB3; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL4; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL4_b; /*!< BitSize */ - }; - __I uint32_t RESERVED56; - - union { - __IO uint32_t DIEPINT4; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT4_b; /*!< BitSize */ - }; - __I uint32_t RESERVED57; - - union { - __IO uint32_t DIEPTSIZ4; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ4_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA4; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA4; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED58; - __I uint32_t DIEPDMAB4; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL5; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL5_b; /*!< BitSize */ - }; - __I uint32_t RESERVED59; - - union { - __IO uint32_t DIEPINT5; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT5_b; /*!< BitSize */ - }; - __I uint32_t RESERVED60; - - union { - __IO uint32_t DIEPTSIZ5; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ5_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA5; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA5; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED61; - __I uint32_t DIEPDMAB5; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL6; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL6_b; /*!< BitSize */ - }; - __I uint32_t RESERVED62; - - union { - __IO uint32_t DIEPINT6; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT6_b; /*!< BitSize */ - }; - __I uint32_t RESERVED63; - - union { - __IO uint32_t DIEPTSIZ6; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ6_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA6; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA6; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED64; - __I uint32_t DIEPDMAB6; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL7; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL7_b; /*!< BitSize */ - }; - __I uint32_t RESERVED65; - - union { - __IO uint32_t DIEPINT7; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT7_b; /*!< BitSize */ - }; - __I uint32_t RESERVED66; - - union { - __IO uint32_t DIEPTSIZ7; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ7_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA7; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA7; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED67; - __I uint32_t DIEPDMAB7; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL8; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL8_b; /*!< BitSize */ - }; - __I uint32_t RESERVED68; - - union { - __IO uint32_t DIEPINT8; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT8_b; /*!< BitSize */ - }; - __I uint32_t RESERVED69; - - union { - __IO uint32_t DIEPTSIZ8; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ8_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA8; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA8; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED70; - __I uint32_t DIEPDMAB8; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL9; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL9_b; /*!< BitSize */ - }; - __I uint32_t RESERVED71; - - union { - __IO uint32_t DIEPINT9; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT9_b; /*!< BitSize */ - }; - __I uint32_t RESERVED72; - - union { - __IO uint32_t DIEPTSIZ9; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ9_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA9; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA9; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED73; - __I uint32_t DIEPDMAB9; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL10; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL10_b; /*!< BitSize */ - }; - __I uint32_t RESERVED74; - - union { - __IO uint32_t DIEPINT10; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT10_b; /*!< BitSize */ - }; - __I uint32_t RESERVED75; - - union { - __IO uint32_t DIEPTSIZ10; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ10_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA10; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA10; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED76; - __I uint32_t DIEPDMAB10; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL11; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL11_b; /*!< BitSize */ - }; - __I uint32_t RESERVED77; - - union { - __IO uint32_t DIEPINT11; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT11_b; /*!< BitSize */ - }; - __I uint32_t RESERVED78; - - union { - __IO uint32_t DIEPTSIZ11; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ11_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA11; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA11; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED79; - __I uint32_t DIEPDMAB11; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL12; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL12_b; /*!< BitSize */ - }; - __I uint32_t RESERVED80; - - union { - __IO uint32_t DIEPINT12; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT12_b; /*!< BitSize */ - }; - __I uint32_t RESERVED81; - - union { - __IO uint32_t DIEPTSIZ12; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ12_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA12; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA12; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED82; - __I uint32_t DIEPDMAB12; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL13; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL13_b; /*!< BitSize */ - }; - __I uint32_t RESERVED83; - - union { - __IO uint32_t DIEPINT13; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT13_b; /*!< BitSize */ - }; - __I uint32_t RESERVED84; - - union { - __IO uint32_t DIEPTSIZ13; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ13_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA13; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA13; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED85; - __I uint32_t DIEPDMAB13; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL14; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL14_b; /*!< BitSize */ - }; - __I uint32_t RESERVED86; - - union { - __IO uint32_t DIEPINT14; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT14_b; /*!< BitSize */ - }; - __I uint32_t RESERVED87; - - union { - __IO uint32_t DIEPTSIZ14; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ14_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA14; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA14; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED88; - __I uint32_t DIEPDMAB14; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DIEPCTL15; /*!< Device IN Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - uint32_t : 1; - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. - To control endpoints, response an ACK */ - __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an - endpoint even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - transmit is setup */ - } DIEPCTL15_b; /*!< BitSize */ - }; - __I uint32_t RESERVED89; - - union { - __IO uint32_t DIEPINT15; /*!< Device IN Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this - endpoint */ - __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ - __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ - __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DIEPINT15_b; /*!< BitSize */ - }; - __I uint32_t RESERVED90; - - union { - __IO uint32_t DIEPTSIZ15; /*!< Device IN Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. - The number of packets must be fetched per non-periodic IN endpoints */ - } DIEPTSIZ15_b; /*!< BitSize */ - }; - __IO uint32_t DIEPDMA15; /*!< Device IN Endpoint-n DMA Address Register */ - __IO uint16_t DTXFSA15; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ - __I uint16_t RESERVED91; - __I uint32_t DIEPDMAB15; /*!< Device IN Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL0; /*!< Device Control OUT Endpoint 0 Control Register */ - - struct { - __IO uint32_t MPS : 2; /*!< Indicates the maximum packet size of the associated endpoint, - applies to IN and OUT endpoints */ - uint32_t : 13; - __I uint32_t USBAE : 1; /*!< Always 1, indicating that control endpoint 0 is always active - in all configurations and interfaces */ - uint32_t : 1; - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint */ - __I uint32_t EP_TYPE : 2; /*!< Hardcoded to 00 for control */ - __IO uint32_t SNOOP : 1; /*!< does not check if the OUT packets are correct before transferring */ - __IO uint32_t STALL : 1; /*!< The application sets this bit, and the core clears it when a - SETUP token is received for this endpoint */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - uint32_t : 2; - __I uint32_t EPD : 1; /*!< The application cannot disable control OUT endpoint 0 */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL0_b; /*!< BitSize */ - }; - __I uint32_t RESERVED92; - - union { - __IO uint32_t DOEPINT0; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT0_b; /*!< BitSize */ - }; - __I uint32_t RESERVED93; - - union { - __IO uint32_t DOEPTSIZ0; /*!< Device OUT Endpoint 0 Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 7; /*!< Indicates the transfer size in bytes for endpoint 0 */ - uint32_t : 12; - __IO uint32_t PACKET_CNT : 1; /*!< This field is decremented to zero after a packet is written - into the RxFIFO */ - uint32_t : 9; - __IO uint32_t SETUP_CNT : 2; /*!< the number of back-to-back SETUP data packets the endpoint can - receive */ - } DOEPTSIZ0_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA0; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED94; - __I uint32_t DOEPDMAB0; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL1; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL1_b; /*!< BitSize */ - }; - __I uint32_t RESERVED95; - - union { - __IO uint32_t DOEPINT1; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT1_b; /*!< BitSize */ - }; - __I uint32_t RESERVED96; - - union { - __IO uint32_t DOEPTSIZ1; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ1_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA1; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED97; - __I uint32_t DOEPDMAB1; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL2; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL2_b; /*!< BitSize */ - }; - __I uint32_t RESERVED98; - - union { - __IO uint32_t DOEPINT2; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT2_b; /*!< BitSize */ - }; - __I uint32_t RESERVED99; - - union { - __IO uint32_t DOEPTSIZ2; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ2_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA2; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED100; - __I uint32_t DOEPDMAB2; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL3; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL3_b; /*!< BitSize */ - }; - __I uint32_t RESERVED101; - - union { - __IO uint32_t DOEPINT3; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT3_b; /*!< BitSize */ - }; - __I uint32_t RESERVED102; - - union { - __IO uint32_t DOEPTSIZ3; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ3_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA3; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED103; - __I uint32_t DOEPDMAB3; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL4; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL4_b; /*!< BitSize */ - }; - __I uint32_t RESERVED104; - - union { - __IO uint32_t DOEPINT4; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT4_b; /*!< BitSize */ - }; - __I uint32_t RESERVED105; - - union { - __IO uint32_t DOEPTSIZ4; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ4_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA4; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED106; - __I uint32_t DOEPDMAB4; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL5; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL5_b; /*!< BitSize */ - }; - __I uint32_t RESERVED107; - - union { - __IO uint32_t DOEPINT5; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT5_b; /*!< BitSize */ - }; - __I uint32_t RESERVED108; - - union { - __IO uint32_t DOEPTSIZ5; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ5_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA5; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED109; - __I uint32_t DOEPDMAB5; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL6; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL6_b; /*!< BitSize */ - }; - __I uint32_t RESERVED110; - - union { - __IO uint32_t DOEPINT6; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT6_b; /*!< BitSize */ - }; - __I uint32_t RESERVED111; - - union { - __IO uint32_t DOEPTSIZ6; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ6_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA6; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED112; - __I uint32_t DOEPDMAB6; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL7; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL7_b; /*!< BitSize */ - }; - __I uint32_t RESERVED113; - - union { - __IO uint32_t DOEPINT7; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT7_b; /*!< BitSize */ - }; - __I uint32_t RESERVED114; - - union { - __IO uint32_t DOEPTSIZ7; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ7_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA7; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED115; - __I uint32_t DOEPDMAB7; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL8; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL8_b; /*!< BitSize */ - }; - __I uint32_t RESERVED116; - - union { - __IO uint32_t DOEPINT8; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT8_b; /*!< BitSize */ - }; - __I uint32_t RESERVED117; - - union { - __IO uint32_t DOEPTSIZ8; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ8_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA8; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED118; - __I uint32_t DOEPDMAB8; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL9; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL9_b; /*!< BitSize */ - }; - __I uint32_t RESERVED119; - - union { - __IO uint32_t DOEPINT9; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT9_b; /*!< BitSize */ - }; - __I uint32_t RESERVED120; - - union { - __IO uint32_t DOEPTSIZ9; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ9_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA9; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED121; - __I uint32_t DOEPDMAB9; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL10; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL10_b; /*!< BitSize */ - }; - __I uint32_t RESERVED122; - - union { - __IO uint32_t DOEPINT10; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT10_b; /*!< BitSize */ - }; - __I uint32_t RESERVED123; - - union { - __IO uint32_t DOEPTSIZ10; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ10_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA10; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED124; - __I uint32_t DOEPDMAB10; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL11; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL11_b; /*!< BitSize */ - }; - __I uint32_t RESERVED125; - - union { - __IO uint32_t DOEPINT11; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT11_b; /*!< BitSize */ - }; - __I uint32_t RESERVED126; - - union { - __IO uint32_t DOEPTSIZ11; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ11_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA11; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED127; - __I uint32_t DOEPDMAB11; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL12; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL12_b; /*!< BitSize */ - }; - __I uint32_t RESERVED128; - - union { - __IO uint32_t DOEPINT12; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT12_b; /*!< BitSize */ - }; - __I uint32_t RESERVED129; - - union { - __IO uint32_t DOEPTSIZ12; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ12_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA12; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED130; - __I uint32_t DOEPDMAB12; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL13; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL13_b; /*!< BitSize */ - }; - __I uint32_t RESERVED131; - - union { - __IO uint32_t DOEPINT13; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT13_b; /*!< BitSize */ - }; - __I uint32_t RESERVED132; - - union { - __IO uint32_t DOEPTSIZ13; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ13_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA13; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED133; - __I uint32_t DOEPDMAB13; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL14; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL14_b; /*!< BitSize */ - }; - __I uint32_t RESERVED134; - - union { - __IO uint32_t DOEPINT14; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT14_b; /*!< BitSize */ - }; - __I uint32_t RESERVED135; - - union { - __IO uint32_t DOEPTSIZ14; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ14_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA14; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED136; - __I uint32_t DOEPDMAB14; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ - - union { - __IO uint32_t DOEPCTL15; /*!< Device OUT Endpoint N Control Register */ - - struct { - __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ - uint32_t : 4; - __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ - __I uint32_t DPID : 1; /*!< Endpoint Data PID */ - __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if - set */ - __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ - __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ - __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. - To control endpoints, response an ACK */ - uint32_t : 4; - __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ - __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ - __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ - __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ - __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint - even before the transfer for that endpoint is complete */ - __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to - receive data is setup */ - } DOEPCTL15_b; /*!< BitSize */ - }; - __I uint32_t RESERVED137; - - union { - __IO uint32_t DOEPINT15; /*!< Device OUT Endpoint-n Interrupt Register */ - - struct { - __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ - __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ - __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ - __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control - endpoint is complete */ - __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ - __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data - phase to the status phase of a Control Write transfer */ - __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back - SETUP packets for this particular endpoint */ - __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ - __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ - __IO uint32_t BNA : 1; /*!< Buffer Not Available */ - uint32_t : 2; - __IO uint32_t BE : 1; /*!< Babble Error */ - __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ - __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ - } DOEPINT15_b; /*!< BitSize */ - }; - __I uint32_t RESERVED138; - - union { - __IO uint32_t DOEPTSIZ15; /*!< Device OUT Endpoint-n Transfer Size Register */ - - struct { - __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ - __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ - __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. - To isochronous OUT endpoints, data PID received in the last - packet */ - } DOEPTSIZ15_b; /*!< BitSize */ - }; - __IO uint32_t DOEPDMA15; /*!< Device OUT Endpoint-n DMA Address Register */ - __I uint32_t RESERVED139; - __I uint32_t DOEPDMAB15; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ -} USB_Type; - - -/* ================================================================================ */ -/* ================ GLOBAL_CTRL ================ */ -/* ================================================================================ */ - - -/** - * @brief GLOBAL_CTRL (GLOBAL_CTRL) - */ - -typedef struct { /*!< GLOBAL_CTRL Structure */ - - union { - __I uint32_t AES_STATUS; /*!< AES status */ - - struct { - __I uint32_t RD_ALMOST_EMPTY: 1; /*!< FIFO read almost empty */ - __I uint32_t RD_EMPTY : 1; /*!< FIFO read empty */ - __I uint32_t WR_FULL_ALMOST: 1; /*!< FIFO write almost full */ - __I uint32_t WR_FULL : 1; /*!< FIFO write full */ - __I uint32_t IDLE : 1; /*!< decryption finish */ - } AES_STATUS_b; /*!< BitSize */ - }; - __I uint32_t RESERVED0[253]; - - union { - __IO uint32_t CLK_SEL_0; /*!< clock select 0 */ - - struct { - __IO uint32_t CAN1_CLK : 2; /*!< CAN1 clock frequency dividor based on system clock, which should - be 1/32, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t CAN0_CLK : 2; /*!< CAN0 clock frequency dividor based on system clock, which should - be 1/32, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t I2C1_CLK : 2; /*!< I2C1 clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t I2C0_CLK : 2; /*!< I2C0 clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t SPI1_CLK : 2; /*!< SPI1 clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t SPI0_CLK : 2; /*!< SPI0 clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t UART1_CLK : 2; /*!< UART1 clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t UART0_CLK : 2; /*!< UART0 clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t RTC_CLK : 2; /*!< RTC clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t GPIO_CLK : 2; /*!< GPIO clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t TIMER_CLK : 2; /*!< TIMER clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t WDG_CLK : 2; /*!< watchdog clock frequency dividor based on system clock, which - should be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - uint32_t : 2; - __IO uint32_t FLASH_CLK : 2; /*!< FLASH clock frequency dividor based on system clock, which should - be 1/1, 1/2, 1/4, 1/8 from 0 to 3 */ - __IO uint32_t DMA_AHB_CLK: 2; /*!< DMA AHB bus clock frequency dividor based on system clock, which - should be 1/1, 1/2, 1/4, 1/8 from 0 to 3 */ - __IO uint32_t USB_AHB_CLK: 2; /*!< USB AHB bus clock frequency dividor based on system clock, which - should be 1/1, 1/2, 1/4, 1/8 from 0 to 3 */ - } CLK_SEL_0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CLK_SEL_1; /*!< clock select 1 */ - - struct { - __IO uint32_t ETH_AHB_CLK: 2; /*!< ETH_AHB clock frequency dividor based on system clock, which - should be 1/1, 1/2, 1/4, 1/8 from 0 to 3 */ - __IO uint32_t DDR_CLK : 2; /*!< DDR clock frequency dividor based on system clock, which should - be 1/1, 1/2, 1/4, 1/8 from 0 to 3 */ - uint32_t : 4; - __IO uint32_t ADC_CLK : 2; /*!< ADC clock frequency dividor based on system clock, which should - be 1/8, 1/16, 1/32, external from 0 to 3 */ - __IO uint32_t EFUSE_CLK : 2; /*!< EFUSE clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t SYS_CLK : 4; /*!< system clock clock frequency dividor based on system clock, - which should be oscillator(0), DLL(1), crystal(2), external(3), - JTAG(4), PS(8) */ - __IO uint32_t UART2_CLK : 2; /*!< UART2 clock frequency dividor based on system clock, which should - be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ - __IO uint32_t UTMI_CLK : 1; /*!< UTMI clock came from on-chip usb phy(0) or off-chip usb phy(1) */ - } CLK_SEL_1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t USB_PHY_CTRL; /*!< USB Phy Control Register */ - - struct { - __IO uint32_t BITSTUFF : 1; /*!< 0: No bit stuff */ - __IO uint32_t XTLSEL : 1; /*!< 0: 12MHz */ - __IO uint32_t PLL : 1; /*!< PLL mode */ - __IO uint32_t VOLDET : 1; /*!< Voltage Detector Enable, 0: Disable */ - __IO uint32_t IDUP : 1; /*!< 0: ID is uplled up through 33k Ohm resister */ - __IO uint32_t CKISEL : 1; /*!< Clock selection, 0: Crystal, 1: Internal Clock */ - __IO uint32_t FMOD : 1; /*!< 1: Normal */ - __IO uint32_t SQUELCH : 3; /*!< Squelch Reference Voltage, 000: 27.5mV, 001: 137.5mV, 111: 220mV */ - __IO uint32_t HDISCDT : 3; /*!< Host Disconnect Detection Reference Voltage, 000: 500mV, 100: - 588mV, 111: 654mV */ - __IO uint32_t PRTSEL : 1; /*!< 0: Internal OTG PHY, 1: UTMI to External PHY */ - __IO uint32_t RSTPRT : 1; /*!< 0: The reverse of usb_rst_n will reset, 1: Reset OTG PHY */ - } USB_PHY_CTRL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RTC_INT_EN; /*!< RTC interrupt enable Register */ - - struct { - __IO uint32_t SECOND : 1; /*!< 1s interrupt enable */ - __IO uint32_t MICROSECOND: 1; /*!< 1ms interrupt enable */ - } RTC_INT_EN_b; /*!< BitSize */ - }; - __I uint32_t RESERVED1; - - union { - __IO uint32_t NMI_SEL; /*!< nmi interrupt selection */ - - struct { - __IO uint32_t NMI : 7; /*!< NMI interrupt ID */ - } NMI_SEL_b; /*!< BitSize */ - }; - __I uint32_t RESERVED2; - __IO uint32_t AES_TARGET_ADDR; /*!< AES target address, default is frame decoder address(0x41800000) */ - - union { - __IO uint32_t AES_BURST_TYPE; /*!< AES burst type */ - - struct { - __IO uint32_t TYPE : 2; /*!< burst type, fixed(0), incr(1) */ - } AES_BURST_TYPE_b; /*!< BitSize */ - }; - __I uint32_t RESERVED3[3]; - - union { - __IO uint32_t ICACHE; /*!< ICACHE Enable */ - - struct { - __IO uint32_t EN : 1; /*!< ICACHE Enable */ - } ICACHE_b; /*!< BitSize */ - }; - __IO uint32_t IBUSOFF; /*!< Code Bus Offset */ - __IO uint32_t DBUSOFF; /*!< Data Bus Offset */ - __IO uint32_t EXTADDR; /*!< Bus Ext Addr */ -} GLOBAL_CTRL_Type; - - -/* ================================================================================ */ -/* ================ AES ================ */ -/* ================================================================================ */ - - -/** - * @brief AES (AES) - */ - -typedef struct { /*!< AES Structure */ - __IO uint32_t FIFO; /*!< data FIFO to be decoded */ - - union { - __O uint32_t FIFO_CLEAR; /*!< clear data FIFO */ - - struct { - __O uint32_t CLEAR : 1; /*!< clear after write 1 and write 0 */ - } FIFO_CLEAR_b; /*!< BitSize */ - }; -} AES_Type; - - -/* ================================================================================ */ -/* ================ DDRC ================ */ -/* ================================================================================ */ - - -/** - * @brief DDR_CFG (DDRC) - */ - -typedef struct { /*!< DDRC Structure */ - __IO uint32_t CMD; /*!< DDR commands to program */ - - union { - __IO uint32_t CTRL; /*!< DDR Control */ - - struct { - __IO uint32_t TO : 1; /*!< Take over DDRC siggen */ - __IO uint32_t CLR : 1; /*!< Clear commands in FIFO */ - __O uint32_t STR : 1; /*!< Start to execute the commands in FIFO */ - } CTRL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t MODE; /*!< DDR mode */ - - struct { - __IO uint32_t MODE : 6; /*!< DDRC Mode */ - uint32_t : 2; - __IO uint32_t LANE : 1; /*!< LANE synchronization logic bypass */ - uint32_t : 7; - __IO uint32_t B16 : 2; /*!< Active 16 bit DQ position when the unmber of DQ IO is 16 */ - uint32_t : 6; - __IO uint32_t CLKPOL : 2; /*!< DQS clkpol set by user on the PHY */ - } MODE_b; /*!< BitSize */ - }; - - union { - __IO uint32_t QUE; /*!< DDRC queue depth */ - - struct { - __IO uint32_t DEPTH : 1; /*!< DDRC queue depth */ - } QUE_b; /*!< BitSize */ - }; - - union { - __IO uint32_t REF; /*!< Refresh control */ - - struct { - __IO uint32_t THRD : 5; /*!< Number of refresh requests which can be postponed */ - uint32_t : 3; - __IO uint32_t TRIG : 4; /*!< Number of refresh requests every dl_refi */ - uint32_t : 4; - __IO uint32_t TIME : 16; /*!< Refresh interval time */ - } REF_b; /*!< BitSize */ - }; - - union { - __O uint32_t REF_TRIG; /*!< Refresh trigger */ - - struct { - __O uint32_t GO : 1; /*!< Write 1 to trigger one refresh request by cbus */ - } REF_TRIG_b; /*!< BitSize */ - }; - - union { - __O uint32_t ZQ_TRIG; /*!< ZQCTL trigger */ - - struct { - __O uint32_t CS : 1; /*!< Write 1 to trigger one ZQCS request by cbus */ - __O uint32_t CL : 1; /*!< Write 1 to trigger one ZQCL request by cbus */ - } ZQ_TRIG_b; /*!< BitSize */ - }; - - union { - __IO uint32_t ZQCSR; /*!< ZQCSR */ - - struct { - __IO uint32_t EN : 1; /*!< Enable ZQCS request */ - __IO uint32_t PRI : 1; /*!< 0: DMA access prior to ZQCS, 1: ZQCS prior to DMA access */ - } ZQCSR_b; /*!< BitSize */ - }; - __IO uint32_t ZQCSI; /*!< ZQCS interval time */ - - union { - __IO uint32_t RCD; /*!< t(RCD) */ - - struct { - __IO uint32_t DI : 5; /*!< t(RCD), delay from ACT command to RW command of same bank */ - } RCD_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RAS; /*!< t(RAS) */ - - struct { - __IO uint32_t DI : 6; /*!< t(RAS), delay from ACT command to PRE command of same bank */ - } RAS_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RP; /*!< t(RP) */ - - struct { - __IO uint32_t DI : 5; /*!< t(RP), delay from PRE command to ACT/REF/ZQ command */ - uint32_t : 3; - __IO uint32_t RPA : 1; /*!< 0: t(RP) delay for PREA command; 1: t(RP)+1 delay for PREA command */ - } RP_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RC; /*!< t(RC) */ - - struct { - __IO uint32_t DI : 7; /*!< t(RC), delay from ACT command to ACT command of same bank */ - } RC_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RRD; /*!< t(RRD) */ - - struct { - __IO uint32_t DI : 4; /*!< t(RRD), delay from ACT command to ACT command */ - } RRD_b; /*!< BitSize */ - }; - - union { - __IO uint32_t CCD; /*!< t(CCD) */ - - struct { - __IO uint32_t DI : 3; /*!< t(CCD), delay from RW command to RW command */ - } CCD_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RTW; /*!< t(RTW) */ - - struct { - __IO uint32_t DI : 5; /*!< t(RTW), delay from RD command to WR command */ - } RTW_b; /*!< BitSize */ - }; - - union { - __IO uint32_t WTR; /*!< t(WTR) */ - - struct { - __IO uint32_t DI : 5; /*!< t(WTR), delay from WR command to RD command */ - } WTR_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RTP; /*!< t(RTP) */ - - struct { - __IO uint32_t DI : 3; /*!< t(RTP), delay from RD command to PRE command of same bank */ - } RTP_b; /*!< BitSize */ - }; - - union { - __IO uint32_t WTP; /*!< t(WTP) */ - - struct { - __IO uint32_t DI : 6; /*!< t(WTP), delay from WR command to PRE command of same bank */ - } WTP_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RFC; /*!< t(RFC) */ - - struct { - __IO uint32_t DI : 8; /*!< t(WTP), delay from WR command to PRE command of same bank */ - } RFC_b; /*!< BitSize */ - }; - - union { - __IO uint32_t ZQCL; /*!< t(ZQoper) */ - - struct { - __IO uint32_t DI : 9; /*!< t(ZQoper), delay from ZQCL command to REF/ZQ/ACT command */ - } ZQCL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t ZQCS; /*!< t(ZQCS) */ - - struct { - __IO uint32_t DI : 7; /*!< t(ZQCS), delay from ZQCS command to REF/ZQ/ACT command */ - } ZQCS_b; /*!< BitSize */ - }; - - union { - __IO uint32_t FAW; /*!< t(FAW) */ - - struct { - __IO uint32_t DI : 6; /*!< t(FAW), 4 act command window time */ - } FAW_b; /*!< BitSize */ - }; - - union { - __IO uint32_t BURST; /*!< BURST */ - - struct { - __IO uint32_t LEN : 1; /*!< 0: length 8, 1: length 4 */ - } BURST_b; /*!< BitSize */ - }; - - union { - __IO uint32_t PHUNG; /*!< PHUNG */ - - struct { - __IO uint32_t MODE : 1; /*!< 0: normal mode, 1: prevent read hang mode */ - __IO uint32_t LPM : 1; /*!< 1: stop the IO clk */ - } PHUNG_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RL; /*!< READ Latency */ - - struct { - __IO uint32_t VAL : 5; /*!< READ Latency */ - } RL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t WL; /*!< WRITE Latency */ - - struct { - __IO uint32_t VAL : 5; /*!< WRITE Latency */ - } WL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t TRAIN; /*!< TRAIN */ - - struct { - __IO uint32_t EN : 4; /*!< Enable lane N training mode */ - } TRAIN_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DQSEN0; /*!< Delay cycles of dqsen of byte lane 0 */ - - struct { - __IO uint32_t DL : 3; /*!< Delay cycles of dqsen of byte lane 0 */ - } DQSEN0_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DQSEN1; /*!< Delay cycles of dqsen of byte lane 1 */ - - struct { - __IO uint32_t DL : 3; /*!< Delay cycles of dqsen of byte lane 1 */ - } DQSEN1_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DQSEN2; /*!< Delay cycles of dqsen of byte lane 2 */ - - struct { - __IO uint32_t DL : 3; /*!< Delay cycles of dqsen of byte lane 2 */ - } DQSEN2_b; /*!< BitSize */ - }; - - union { - __IO uint32_t DQSEN3; /*!< Delay cycles of dqsen of byte lane 0 */ - - struct { - __IO uint32_t DL : 3; /*!< Delay cycles of dqsen of byte lane 3 */ - } DQSEN3_b; /*!< BitSize */ - }; - - union { - __IO uint32_t ODTH; /*!< Delay from WR command to odt high transition */ - - struct { - __IO uint32_t DL : 5; /*!< Delay from WR command to odt high transition */ - } ODTH_b; /*!< BitSize */ - }; - - union { - __IO uint32_t ODTL; /*!< Delay from WR command to odt low transition */ - - struct { - __IO uint32_t DL : 5; /*!< Delay from WR command to odt low transition */ - } ODTL_b; /*!< BitSize */ - }; - - union { - __O uint32_t ODT; /*!< Used in write leveling mode */ - - struct { - __O uint32_t TRIG : 1; /*!< 0: trigger odt low, 1: trigger odt high */ - } ODT_b; /*!< BitSize */ - }; - - union { - __O uint32_t DQS; /*!< Used in write leveling mode */ - - struct { - __O uint32_t TRIG : 1; /*!< Writing 1 to this register triggers a dqs pulse */ - } DQS_b; /*!< BitSize */ - }; - - union { - __I uint32_t STA; /*!< Commands FIFO */ - - struct { - __I uint32_t MODE : 1; /*!< DDRC in sw_proc mode */ - __I uint32_t EMPTY : 1; /*!< Sw_proc command fifo empty */ - __I uint32_t FULL : 1; /*!< Sw_proc command fifo full */ - } STA_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INTCTL; /*!< Interrupt Control */ - - struct { - __IO uint32_t DONE : 1; /*!< 0: the sw_proc_done int will not be masked, 1: the sw_proc_done - int will be masked */ - __IO uint32_t ERR : 1; /*!< mask of the lane_sync_error interrupt */ - uint32_t : 14; - __IO uint32_t MODE : 1; /*!< Interrupt mode: 0: int level active, write 1 to clear; 1: int - edge active */ - } INTCTL_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INTRAW; /*!< Interrupt RAW */ - - struct { - __IO uint32_t DONE : 1; /*!< Int register of sw_proc_done before mask */ - __IO uint32_t ERR : 1; /*!< int reg of the lane sync error before masked */ - } INTRAW_b; /*!< BitSize */ - }; - - union { - __IO uint32_t INTSTA; /*!< Interrupt STA */ - - struct { - __IO uint32_t DONE : 1; /*!< Int register of sw_proc_done after mask */ - __IO uint32_t ERR : 1; /*!< int register of lane sync error after masked */ - } INTSTA_b; /*!< BitSize */ - }; - - union { - __IO uint32_t PHY; /*!< PHY */ - - struct { - __IO uint32_t RST : 1; /*!< FPGA version, reset read dq fifo. Low active */ - } PHY_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RDQ; /*!< FPGA version, read dq delay of byte lane N */ - - struct { - __IO uint32_t L3 : 6; /*!< FPGA version, read dq delay of byte lane3 */ - uint32_t : 2; - __IO uint32_t L2 : 6; /*!< FPGA version, read dq delay of byte lane2 */ - uint32_t : 2; - __IO uint32_t L1 : 6; /*!< FPGA version, read dq delay of byte lane3 */ - uint32_t : 2; - __IO uint32_t L0 : 7; /*!< FPGA version, read dq delay of byte lane0 */ - } RDQ_b; /*!< BitSize */ - }; - - union { - __I uint32_t CALIB; /*!< calibration */ - - struct { - __I uint32_t TPU : 8; /*!< calibration result values, if fail then 0x40 */ - __I uint32_t TPD : 8; /*!< calibration result values, if fail then 0x40 */ - __I uint32_t PDR : 5; /*!< calibration result values, if fail then 0x40 */ - __I uint32_t NDR : 5; /*!< calibration result values, if fail then 0x40 */ - uint32_t : 5; - __IO uint32_t EN : 1; /*!< trigger the calibration processing which is sensitive to the - positive edge */ - } CALIB_b; /*!< BitSize */ - }; - - union { - __IO uint32_t ITMDLY; /*!< "itmdly" is the fine delay trim to the read path "dq", "itmsdly" - is to the read path of "dqs". From 000 to 111 increasingly, - each step is about 40ps */ - - struct { - __IO uint32_t I0 : 4; /*!< itmdly0 */ - __IO uint32_t IS0 : 4; /*!< itmsdly0 */ - __IO uint32_t I1 : 4; /*!< itmdly1 */ - __IO uint32_t IS1 : 4; /*!< itmsdly1 */ - __IO uint32_t I2 : 4; /*!< itmdly2 */ - __IO uint32_t IS2 : 4; /*!< itmsdly2 */ - __IO uint32_t I3 : 4; /*!< itmdly3 */ - __IO uint32_t IS3 : 4; /*!< itmsdly3 */ - } ITMDLY_b; /*!< BitSize */ - }; - - union { - __IO uint32_t TUNE; /*!< CALIB_TUNE */ - - struct { - __IO uint32_t TPU : 4; /*!< tpu_tune, finial val = tune[3] ? val - tune : val + tune */ - __IO uint32_t TPD : 4; /*!< tpd_tune, tune[3:0] for TPD/TPU, [2:0] is the tune val */ - __IO uint32_t PDR : 4; /*!< pdr_tune, inial val = tune[2] ? val - tune : val + tune */ - __IO uint32_t NDR : 4; /*!< ndr_tune, tune[2:0] for NDR/PDR, [1:0] is the tune val */ - } TUNE_b; /*!< BitSize */ - }; - - union { - __IO uint32_t RD_SEL; /*!< RD_WINDOWS_SEL */ - - struct { - __IO uint32_t PHY_SEL : 3; /*!< To fix the phy read valid issue, this is to adjust the read - data valid window to match the phy read valid by cycle level */ - } RD_SEL_b; /*!< BitSize */ - }; -} DDRC_Type; - - -/* ================================================================================ */ -/* ================ PDLOCK ================ */ -/* ================================================================================ */ - - -/** - * @brief PLL DLL LOCK (PDLOCK) - */ - -typedef struct { /*!< PDLOCK Structure */ - - union { - __I uint32_t GCLK; /*!< GCLK */ - - struct { - __I uint32_t C1R2P : 1; /*!< gclk_c1r2_pll_lock */ - __I uint32_t C1R1P : 1; /*!< gclk_c1r1_pll_lock */ - __I uint32_t C2R1P : 1; /*!< gclk_c2r1_pll_lock */ - __I uint32_t C2R2P : 1; /*!< gclk_c2r2_pll_lock */ - __I uint32_t C1R2D : 1; /*!< gclk_c1r2_dll_lock */ - __I uint32_t C1R1D : 1; /*!< gclk_c1r1_dll_lock */ - __I uint32_t C2R1D : 1; /*!< gclk_c2r1_dll_lock */ - __I uint32_t C2R2D : 1; /*!< gclk_c2r2_dll_lock */ - } GCLK_b; /*!< BitSize */ - }; -} PDLOCK_Type; - - -/* ================================================================================ */ -/* ================ PDPROT ================ */ -/* ================================================================================ */ - - -/** - * @brief PLL DLL PROTECT (PDPROT) - */ - -typedef struct { /*!< PDPROT Structure */ - - union { - __O uint32_t LOCK; /*!< LOCK */ - - struct { - __O uint32_t EN : 1; /*!< Enable the PLL DLL Lock to Protect it */ - } LOCK_b; /*!< BitSize */ - }; -} PDPROT_Type; - - -/* ================================================================================ */ -/* ================ CFG_CTRL ================ */ -/* ================================================================================ */ - - -/** - * @brief CFG_CTRL (CFG_CTRL) - */ - -typedef struct { /*!< CFG_CTRL Structure */ - __I uint32_t RESERVED0[3]; - - union { - __IO uint32_t DONE; /*!< DONE CFG */ - - struct { - __IO uint32_t CMD : 1; /*!< Write 1 indicate all chain data write over */ - __IO uint32_t STA : 1; /*!< 1= all chain config process over, chip is in user mode */ - } DONE_b; /*!< BitSize */ - }; - __I uint32_t RESERVED1[34]; - - union { - __IO uint32_t PDLLSTR; /*!< PLL DLL RESET */ - - struct { - __IO uint32_t C1R1P : 1; /*!< C1r1_rstpll_n, low active */ - __IO uint32_t C1R2P : 1; /*!< C1r2_rstpll_n, low active */ - __IO uint32_t C2R1P : 1; /*!< C2r1_rstpll_n, low active */ - __IO uint32_t C2R2P : 1; /*!< C2r2_rstpll_n, low active */ - __IO uint32_t C1R1D : 1; /*!< C1r1_rstdll_n, low active */ - __IO uint32_t C1R2D : 1; /*!< C1r2_rstdll_n, low active */ - __IO uint32_t C2R1D : 1; /*!< C2r1_rstdll_n, low active */ - __IO uint32_t C2R2D : 1; /*!< C2r2_rstdll_n, low active */ - } PDLLSTR_b; /*!< BitSize */ - }; -} CFG_CTRL_Type; - - -/* ================================================================================ */ -/* ================ SOFT_RESET ================ */ -/* ================================================================================ */ - - -/** - * @brief SUB SOFT RESET (SOFT_RESET) - */ - -typedef struct { /*!< SOFT_RESET Structure */ - - union { - __IO uint32_t SOFTRST; /*!< SOFTRST */ - - struct { - __IO uint32_t CAN1_n : 1; /*!< soft_rst_can1_n */ - __IO uint32_t CAN0_n : 1; /*!< soft_rst_can0_n */ - __IO uint32_t I2C1_n : 1; /*!< soft_rst_i2c1_n */ - __IO uint32_t I2C0_n : 1; /*!< soft_rst_i2c0_n */ - __IO uint32_t SPI1_n : 1; /*!< soft_rst_spi1_n */ - __IO uint32_t SPI0_n : 1; /*!< soft_rst_spi0_n */ - __IO uint32_t UART1_n : 1; /*!< soft_rst_uart1_n */ - __IO uint32_t UART0_n : 1; /*!< soft_rst_uart0_n */ - __IO uint32_t RTC_n : 1; /*!< soft_rst_rtc_n */ - __IO uint32_t GPIO_n : 1; /*!< soft_rst_gpio_n */ - __IO uint32_t TIMER_n : 1; /*!< soft_rst_timer_n */ - __IO uint32_t WDT_n : 1; /*!< soft_rst_wdt_n */ - __IO uint32_t LVDS_n : 1; /*!< soft_rst_lvds_n */ - __IO uint32_t FLS_n : 1; /*!< soft_rst_fls_n */ - __IO uint32_t DMAC_AHB_n : 1; /*!< soft_rst_dmac_ahb_n */ - __IO uint32_t USB_AHB_n : 1; /*!< soft_rst_usb_ahb_n */ - __IO uint32_t ETH_AHB_n : 1; /*!< soft_rst_eth_ahb_n */ - __IO uint32_t DDRC_n : 1; /*!< soft_rst_ddrc_n */ - __IO uint32_t ARM_HCLK_n : 1; /*!< soft_rst_arm_HCLK_n */ - __IO uint32_t _48_n : 1; /*!< soft_rst_48_n */ - __IO uint32_t UTM_n : 1; /*!< soft_rst_utmi_n */ - __IO uint32_t CACHE_n : 1; /*!< soft_rst_cache_n */ - __IO uint32_t USB_n : 1; /*!< soft_rst_cache_n */ - __IO uint32_t ETH_RX_n : 1; /*!< soft_rst_eth_rx_i_n */ - __IO uint32_t ETH_TX_n : 1; /*!< soft_rst_eth_tx_i_n */ - __IO uint32_t ADC_n : 1; /*!< soft_rst_adc_n */ - __IO uint32_t EFUSE_n : 1; /*!< soft_rst_efuse_n */ - __IO uint32_t Reserved1_n: 1; /*!< Reserved11 */ - __IO uint32_t AES_n : 1; /*!< soft_rst_aes_n */ - __IO uint32_t UART2_n : 1; /*!< soft_rst_uart2_n */ - __IO uint32_t AS_n : 1; /*!< soft_rst_as_n */ - __IO uint32_t FDCD_n : 1; /*!< soft_rst_fdcd_n */ - } SOFTRST_b; /*!< BitSize */ - }; -} SOFT_RESET_Type; - - -/* -------------------- End of section using anonymous unions ------------------- */ -#if defined(__CC_ARM) - #pragma pop -#elif defined(__ICCARM__) - /* leave anonymous unions enabled */ -#elif defined(__GNUC__) - /* anonymous unions are enabled by default */ -#elif defined(__TMS470__) - /* anonymous unions are enabled by default */ -#elif defined(__TASKING__) - #pragma warning restore -#else - #warning Not supported compiler type -#endif - - - - -/* ================================================================================ */ -/* ================ Peripheral memory map ================ */ -/* ================================================================================ */ - -#define UART0_BASE 0x41005000UL -#define UART1_BASE 0x4100C000UL -#define UART2_BASE 0x4100E000UL -#define WDG_BASE 0x41001000UL -#define TIMER0_BASE 0x41000000UL -#define TIMER1_BASE 0x41000020UL -#define TIMER2_BASE 0x41000040UL -#define TIMER3_BASE 0x41000060UL -#define SPI0_BASE 0x41004000UL -#define SPI1_BASE 0x4100B000UL -#define I2C0_BASE 0x41003000UL -#define I2C1_BASE 0x4100A000UL -#define RTC_BASE 0x41007004UL -#define GPIO_BASE 0x41002000UL -#define NOR_FLASH_BASE 0x40800000UL -#define ADC_BASE 0x41006000UL -#define EFUSE_BASE 0x41008000UL -#define CAN0_BASE 0x41009000UL -#define CAN1_BASE 0x4100D000UL -#define DMA_BASE 0x41500000UL -#define ETH_BASE 0x41200000UL -#define USB_BASE 0x41300000UL -#define GLOBAL_CTRL_BASE 0x41007010UL -#define AES_BASE 0x41600000UL -#define DDRC_BASE 0x41400000UL -#define PDLOCK_BASE 0x41007000UL -#define PDPROT_BASE 0x41007C00UL -#define CFG_CTRL_BASE 0x41700000UL -#define SOFT_RESET_BASE 0x41007400UL - - -/* ================================================================================ */ -/* ================ Peripheral declaration ================ */ -/* ================================================================================ */ - -#define UART0 ((UART0_Type *) UART0_BASE) -#define UART1 ((UART0_Type *) UART1_BASE) -#define UART2 ((UART0_Type *) UART2_BASE) -#define WDG ((WDG_Type *) WDG_BASE) -#define TIMER0 ((TIMER0_Type *) TIMER0_BASE) -#define TIMER1 ((TIMER0_Type *) TIMER1_BASE) -#define TIMER2 ((TIMER0_Type *) TIMER2_BASE) -#define TIMER3 ((TIMER0_Type *) TIMER3_BASE) -#define SPI0 ((SPI0_Type *) SPI0_BASE) -#define SPI1 ((SPI0_Type *) SPI1_BASE) -#define I2C0 ((I2C0_Type *) I2C0_BASE) -#define I2C1 ((I2C0_Type *) I2C1_BASE) -#define RTC ((RTC_Type *) RTC_BASE) -#define GPIO ((GPIO_Type *) GPIO_BASE) -#define NOR_FLASH ((NOR_FLASH_Type *) NOR_FLASH_BASE) -#define ADC ((ADC_Type *) ADC_BASE) -#define EFUSE ((EFUSE_Type *) EFUSE_BASE) -#define CAN0 ((CAN0_Type *) CAN0_BASE) -#define CAN1 ((CAN0_Type *) CAN1_BASE) -#define DMA ((DMA_Type *) DMA_BASE) -#define ETH ((ETH_Type *) ETH_BASE) -#define USB ((USB_Type *) USB_BASE) -#define GLOBAL_CTRL ((GLOBAL_CTRL_Type *) GLOBAL_CTRL_BASE) -#define AES ((AES_Type *) AES_BASE) -#define DDRC ((DDRC_Type *) DDRC_BASE) -#define PDLOCK ((PDLOCK_Type *) PDLOCK_BASE) -#define PDPROT ((PDPROT_Type *) PDPROT_BASE) -#define CFG_CTRL ((CFG_CTRL_Type *) CFG_CTRL_BASE) -#define SOFT_RESET ((SOFT_RESET_Type *) SOFT_RESET_BASE) - - -/** @} */ /* End of group Device_Peripheral_Registers */ -/** @} */ /* End of group CMEM7 */ -/** @} */ /* End of group (null) */ - -#ifdef __cplusplus -} -#endif - - -#endif /* CMEM7_H */ - + +/****************************************************************************************************//** + * @file cmem7.h + * + * @brief CMSIS Cortex-M3 Peripheral Access Layer Header File for + * cmem7 from . + * + * @version V1.0 + * @date 5. January 2015 + * + * @note Generated with SVDConv V2.75 + * from CMSIS SVD File 'SVDConv_CME_M7.svd' Version 1.0, + *******************************************************************************************************/ + + + +/** @addtogroup (null) + * @{ + */ + +/** @addtogroup cmem7 + * @{ + */ + +#ifndef CMEM7_H +#define CMEM7_H + +#ifdef __cplusplus +extern "C" { +#endif + + +/* ------------------------- Interrupt Number Definition ------------------------ */ + +typedef enum { +/* ------------------- Cortex-M3 Processor Exceptions Numbers ------------------- */ + Reset_IRQn = -15, /*!< 1 Reset Vector, invoked on Power up and warm reset */ + NonMaskableInt_IRQn = -14, /*!< 2 Non maskable Interrupt, cannot be stopped or preempted */ + HardFault_IRQn = -13, /*!< 3 Hard Fault, all classes of Fault */ + MemoryManagement_IRQn = -12, /*!< 4 Memory Management, MPU mismatch, including Access Violation + and No Match */ + BusFault_IRQn = -11, /*!< 5 Bus Fault, Pre-Fetch-, Memory Access Fault, other address/memory + related Fault */ + UsageFault_IRQn = -10, /*!< 6 Usage Fault, i.e. Undef Instruction, Illegal State Transition */ + SVCall_IRQn = -5, /*!< 11 System Service Call via SVC instruction */ + DebugMonitor_IRQn = -4, /*!< 12 Debug Monitor */ + PendSV_IRQn = -2, /*!< 14 Pendable request for system service */ + SysTick_IRQn = -1, /*!< 15 System Tick Timer */ +/* ---------------------- cmem7 Specific Interrupt Numbers ---------------------- */ + ETH_INT_IRQn = 0, /*!< 0 ETH_INT */ + USB_INT_IRQn = 1, /*!< 1 USB_INT */ + DMA_INT_IRQn = 2, /*!< 2 DMA_INT */ + CAN0_INT_IRQn = 3, /*!< 3 CAN0_INT */ + CAN1_INT_IRQn = 4, /*!< 4 CAN1_INT */ + FP0_INT_IRQn = 5, /*!< 5 FP0_INT */ + FP1_INT_IRQn = 6, /*!< 6 FP1_INT */ + FP2_INT_IRQn = 7, /*!< 7 FP2_INT */ + FP3_INT_IRQn = 8, /*!< 8 FP3_INT */ + FP4_INT_IRQn = 9, /*!< 9 FP4_INT */ + FP5_INT_IRQn = 10, /*!< 10 FP5_INT */ + FP6_INT_IRQn = 11, /*!< 11 FP6_INT */ + FP7_INT_IRQn = 12, /*!< 12 FP7_INT */ + FP8_INT_IRQn = 13, /*!< 13 FP8_INT */ + FP9_INT_IRQn = 14, /*!< 14 FP9_INT */ + FP10_INT_IRQn = 15, /*!< 15 FP10_INT */ + FP11_INT_IRQn = 16, /*!< 16 FP11_INT */ + FP12_INT_IRQn = 17, /*!< 17 FP12_INT */ + FP13_INT_IRQn = 18, /*!< 18 FP13_INT */ + FP14_INT_IRQn = 19, /*!< 19 FP14_INT */ + FP15_INT_IRQn = 20, /*!< 20 FP15_INT */ + UART0_INT_IRQn = 21, /*!< 21 UART0_INT */ + UART1_INT_IRQn = 22, /*!< 22 UART1_INT */ + ADC_INT_IRQn = 23, /*!< 23 ADC_INT */ + GPIO_INT_IRQn = 24, /*!< 24 GPIO_INT */ + SPI1_INT_IRQn = 25, /*!< 25 SPI1_INT */ + I2C1_INT_IRQn = 26, /*!< 26 I2C1_INT */ + SPI0_INT_IRQn = 27, /*!< 27 SPI0_INT */ + I2C0_INT_IRQn = 28, /*!< 28 I2C0_INT */ + RTC_1S_INT_IRQn = 29, /*!< 29 RTC_1S_INT */ + RTC_1MS_INT_IRQn = 30, /*!< 30 RTC_1MS_INT */ + WDG_INT_IRQn = 31, /*!< 31 WDG_INT */ + TIMER_INT_IRQn = 32, /*!< 32 TIMER_INT */ + DDRC_SW_PROC_IRQn = 33, /*!< 33 DDRC_SW_PROC */ + ETH_PMT_INT_IRQn = 34, /*!< 34 ETH_PMT_INT */ + PAD_INT_IRQn = 35, /*!< 35 PAD_INT */ + DDRC_LANE_SYNC_IRQn = 36, /*!< 36 DDRC_LANE_SYNC */ + UART2_INT_IRQn = 37 /*!< 37 UART2_INT */ +} IRQn_Type; + + +/** @addtogroup Configuration_of_CMSIS + * @{ + */ + + +/* ================================================================================ */ +/* ================ Processor and Core Peripheral Section ================ */ +/* ================================================================================ */ + +/* ----------------Configuration of the Cortex-M3 Processor and Core Peripherals---------------- */ +#define __CM3_REV 0x0000 /*!< Cortex-M3 Core Revision */ +#define __MPU_PRESENT 0 /*!< MPU present or not */ +#define __NVIC_PRIO_BITS 0 /*!< Number of Bits used for Priority Levels */ +#define __Vendor_SysTickConfig 0 /*!< Set to 1 if different SysTick Config is used */ +/** @} */ /* End of group Configuration_of_CMSIS */ + +#include /*!< Cortex-M3 processor and core peripherals */ +#include "system_cmem7.h" /*!< cmem7 System */ + + +/* ================================================================================ */ +/* ================ Device Specific Peripheral Section ================ */ +/* ================================================================================ */ + + +/** @addtogroup Device_Peripheral_Registers + * @{ + */ + + +/* ------------------- Start of section using anonymous unions ------------------ */ +#if defined(__CC_ARM) + #pragma push + #pragma anon_unions +#elif defined(__ICCARM__) + #pragma language=extended +#elif defined(__GNUC__) + /* anonymous unions are enabled by default */ +#elif defined(__TMS470__) +/* anonymous unions are enabled by default */ +#elif defined(__TASKING__) + #pragma warning 586 +#else + #warning Not supported compiler type +#endif + + + +/* ================================================================================ */ +/* ================ UART0 ================ */ +/* ================================================================================ */ + + +/** + * @brief asynchronous serial controller 0 (UART0) + */ + +typedef struct { /*!< UART0 Structure */ + __IO uint16_t BAUDRATE; /*!< baudrate Register */ + __I uint16_t RESERVED0; + __IO uint16_t TX_BUF; /*!< transmit buffer Register */ + __I uint16_t RESERVED1; + __I uint16_t RX_BUF; /*!< receive buffer Register */ + __I uint16_t RESERVED2; + + union { + __IO uint32_t CTRL; /*!< control Register */ + + struct { + __IO uint32_t MODE : 3; /*!< asc mode control */ + __IO uint32_t STOP : 2; /*!< number of stop bits selection */ + __IO uint32_t PARITY : 1; /*!< parity selection */ + __IO uint32_t LOOPBACK : 1; /*!< loopback mode enable bit */ + uint32_t : 1; + __IO uint32_t RX_EN : 1; /*!< receive enable bit */ + uint32_t : 1; + __IO uint32_t FIFO_EN : 1; /*!< FIFO enable bit */ + __IO uint32_t CTS : 1; /*!< Clear to send, enable signal to send */ + __IO uint32_t BAUD_MODE : 1; /*!< baudrate generation mode */ + __IO uint32_t RX_THRESHOLD: 5; /*!< receive threshold */ + __IO uint32_t RX_HALF_FULL: 5; /*!< receive fifi half full level */ + } CTRL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_MASK; /*!< interrupt mask register */ + + struct { + __IO uint32_t RNE : 1; /*!< Receive FIFO not empty interrupt */ + __IO uint32_t TE : 1; /*!< Transmitter FIFO empty interrupt */ + __IO uint32_t THE : 1; /*!< Transmitter FIFO at least half empty flag */ + __IO uint32_t TONE : 1; /*!< timeout when the receiver FIFO is not empty interrupt */ + __IO uint32_t TOE : 1; /*!< timeout when the receiver FIFO is empty interrupt */ + __IO uint32_t RHF : 1; /*!< receiver FIFO is half full interrupt */ + __IO uint32_t TF : 1; /*!< transmitter FIFO full interrupt */ + __IO uint32_t PE : 1; /*!< parity error interrupt */ + __IO uint32_t FE : 1; /*!< frame error interrupt */ + __IO uint32_t OE : 1; /*!< overrun error interrupt */ + __IO uint32_t RX_THRE_REACH: 1; /*!< Receive threshold reach interrupt */ + } INT_MASK_b; /*!< BitSize */ + }; + + union { + __IO uint32_t STATUS; /*!< status register */ + + struct { + __IO uint32_t RNE : 1; /*!< receiver FIFO not empty */ + __IO uint32_t TE : 1; /*!< Transmitter FIFO empty */ + __IO uint32_t THE : 1; /*!< Transmitter FIFO at least half empty flag */ + __IO uint32_t TONE : 1; /*!< timeout when the receiver FIFO is not empty */ + __IO uint32_t TOE : 1; /*!< time out when the receiver FIFO is empty */ + __IO uint32_t RHF : 1; /*!< receiver FIFO is half full */ + __IO uint32_t TF : 1; /*!< transmitter FIFO is full */ + } STATUS_b; /*!< BitSize */ + }; + __IO uint8_t TIMEOUT; /*!< timeout Register */ + __I uint8_t RESERVED3[3]; + + union { + __IO uint32_t TX_RESET; /*!< transmit reset Register */ + + struct { + __IO uint32_t EN : 1; /*!< enable */ + } TX_RESET_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RX_RESET; /*!< receive reset Register */ + + struct { + __IO uint32_t EN : 1; /*!< enable */ + } RX_RESET_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RUN; /*!< uart enable register */ + + struct { + __IO uint32_t EN : 1; /*!< enable */ + } RUN_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_RAW; /*!< raw interrupt before mask register */ + + struct { + __IO uint32_t RNE : 1; /*!< Receive FIFO not empty interrupt */ + __IO uint32_t TE : 1; /*!< Transmitter FIFO empty interrupt */ + __IO uint32_t THE : 1; /*!< Transmitter FIFO at least half empty flag */ + __IO uint32_t TONE : 1; /*!< timeout when the receiver FIFO is not empty interrupt */ + __IO uint32_t TOE : 1; /*!< timeout when the receiver FIFO is empty interrupt */ + __IO uint32_t RHF : 1; /*!< receiver FIFO is half full interrupt */ + __IO uint32_t TF : 1; /*!< transmitter FIFO full interrupt */ + __IO uint32_t PE : 1; /*!< parity error interrupt */ + __IO uint32_t FE : 1; /*!< frame error interrupt */ + __IO uint32_t OE : 1; /*!< overrun error interrupt */ + __IO uint32_t RX_THRE_REACH: 1; /*!< Receive threshold reach interrupt */ + } INT_RAW_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_SEEN; /*!< interrupt after mask register */ + + struct { + __IO uint32_t RNE : 1; /*!< Receive FIFO not empty interrupt */ + __IO uint32_t TE : 1; /*!< Transmitter FIFO empty interrupt */ + __IO uint32_t THE : 1; /*!< Transmitter FIFO at least half empty flag */ + __IO uint32_t TONE : 1; /*!< timeout when the receiver FIFO is not empty interrupt */ + __IO uint32_t TOE : 1; /*!< timeout when the receiver FIFO is empty interrupt */ + __IO uint32_t RHF : 1; /*!< receiver FIFO is half full interrupt */ + __IO uint32_t TF : 1; /*!< transmitter FIFO full interrupt */ + __IO uint32_t PE : 1; /*!< parity error interrupt */ + __IO uint32_t FE : 1; /*!< frame error interrupt */ + __IO uint32_t OE : 1; /*!< overrun error interrupt */ + __IO uint32_t RX_THRE_REACH: 1; /*!< Receive threshold reach interrupt */ + } INT_SEEN_b; /*!< BitSize */ + }; +} UART0_Type; + + +/* ================================================================================ */ +/* ================ WDG ================ */ +/* ================================================================================ */ + + +/** + * @brief watchdog (WDG) + */ + +typedef struct { /*!< WDG Structure */ + + union { + __IO uint32_t CTRL; /*!< control Register */ + + struct { + __IO uint32_t EN : 1; /*!< flag indicates if watchdog is enabled or not */ + __IO uint32_t INT_LEN : 1; /*!< watchdog report interrupt when COUNTER is 1/4 or 1/2 of LENGTH */ + } CTRL_b; /*!< BitSize */ + }; + __IO uint32_t LEN; /*!< Ticks decrease down to 25% or 50% to trigger an interrupt */ + + union { + __IO uint32_t INT_CTRL; /*!< interrupt control */ + + struct { + __IO uint32_t MASK : 1; /*!< mask register */ + __IO uint32_t TRIGGER_MODE: 1; /*!< trigger mode */ + } INT_CTRL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_STA; /*!< interrupt status register */ + + struct { + __IO uint32_t STA : 1; /*!< interrupt status */ + } INT_STA_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_RAW; /*!< interrupt raw register */ + + struct { + __IO uint32_t STA : 1; /*!< interrupt status */ + } INT_RAW_b; /*!< BitSize */ + }; + __I uint32_t CNT; /*!< counter register */ +} WDG_Type; + + +/* ================================================================================ */ +/* ================ TIMER0 ================ */ +/* ================================================================================ */ + + +/** + * @brief timer 0 (TIMER0) + */ + +typedef struct { /*!< TIMER0 Structure */ + + union { + __IO uint32_t CTRL; /*!< control Register */ + + struct { + __IO uint32_t EN : 1; /*!< flag indicates if timer is enabled or not */ + } CTRL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t TYPE; /*!< type Register */ + + struct { + __IO uint32_t SIGNLE_SHOT: 1; /*!< indicate timer generate only one interrupt if not reload */ + } TYPE_b; /*!< BitSize */ + }; + __IO uint32_t LEN; /*!< length */ + + union { + __IO uint32_t INT_EN; /*!< interrupt enable */ + + struct { + __IO uint32_t EN_REVERSE : 1; /*!< flag indicates if timer is disable or not */ + } INT_EN_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_STA; /*!< interrupt status */ + + struct { + __IO uint32_t STA : 1; /*!< interrupt status */ + } INT_STA_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_RAW; /*!< interrupt raw register */ + + struct { + __IO uint32_t STA : 1; /*!< interrupt status */ + } INT_RAW_b; /*!< BitSize */ + }; + __I uint32_t CNT; /*!< counter register */ +} TIMER0_Type; + + +/* ================================================================================ */ +/* ================ SPI0 ================ */ +/* ================================================================================ */ + + +/** + * @brief SPI 0 (SPI0) + */ + +typedef struct { /*!< SPI0 Structure */ + + union { + __I uint32_t STATUS; /*!< status Register */ + + struct { + __I uint32_t RFIFO_EMPTY: 1; /*!< receive fifo is empty */ + __I uint32_t RFIFO_FULL : 1; /*!< receive fifo is full */ + __I uint32_t RFIFO_ALMOST_EMPTY: 1; /*!< receive fifo is almost empty */ + __I uint32_t RFIFO_ALMOST_FULL: 1; /*!< receive fifo almost full */ + __I uint32_t TFIFO_EMPTY: 1; /*!< transmit fifo is empty */ + __I uint32_t TFIFO_FULL : 1; /*!< transmit fifo is full */ + __I uint32_t TFIFO_ALMOST_EMPTY: 1; /*!< transmit fifo is almost empty */ + __I uint32_t TFIFO_ALMOST_FULL: 1; /*!< transmit fifo almost full */ + __I uint32_t BUSY : 1; /*!< indecates if SPI is idle or busy */ + } STATUS_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CTRL; /*!< control Register */ + + struct { + __IO uint32_t EN : 1; /*!< indicates if SPI is enabled or not */ + __IO uint32_t RX_EN : 1; /*!< indicates if SPI receiver is enabled or not */ + __IO uint32_t CLK_HIGH : 1; /*!< indicats if idle clock polarity is high level */ + __IO uint32_t NEG_EDGE : 1; /*!< 1, indicates SPI takes sample at the rise edge and transmit + data at the trailing edge. 0, conversely. */ + __IO uint32_t TX_BIT_SEQUENCE: 1; /*!< transmit bit sequence. 0 : MSB is sent first */ + __IO uint32_t RX_BIT_SEQUENCE: 1; /*!< receive bit sequence. 0: MSB is received first */ + } CTRL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_MASK; /*!< interrupt mask Register */ + + struct { + __IO uint32_t RFIFO_UNDERFLOW: 1; /*!< receive fifo underflow interrupt */ + __IO uint32_t RFIFO_OVERFLOW: 1; /*!< receive fifo overflow interrupt */ + __IO uint32_t RFIFO_ALMOST_FULL: 1; /*!< receive fifo almost full interrupt */ + __IO uint32_t TFIFO_UNDERFLOW: 1; /*!< transmit fifo underflow interrupt */ + __IO uint32_t TFIFO_OVERFLOW: 1; /*!< transmit fifo overflow interrupt */ + __IO uint32_t TFIFO_ALMOST_EMPTY: 1; /*!< transmit fifo almost empty interrupt */ + __IO uint32_t DONE : 1; /*!< transmit done interrupt */ + } INT_MASK_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_STATUS; /*!< interrupt Register */ + + struct { + __IO uint32_t RFIFO_UNDERFLOW: 1; /*!< receive fifo underflow interrupt */ + __IO uint32_t RFIFO_OVERFLOW: 1; /*!< receive fifo overflow interrupt */ + __IO uint32_t RFIFO_ALMOST_FULL: 1; /*!< receive fifo almost full interrupt */ + __IO uint32_t TFIFO_UNDERFLOW: 1; /*!< transmit fifo underflow interrupt */ + __IO uint32_t TFIFO_OVERFLOW: 1; /*!< transmit fifo overflow interrupt */ + __IO uint32_t TFIFO_ALMOST_EMPTY: 1; /*!< transmit fifo almost empty interrupt */ + __IO uint32_t DONE : 1; /*!< transmit done interrupt */ + } INT_STATUS_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_RAW; /*!< interrupt raw Register */ + + struct { + __IO uint32_t RFIFO_UNDERFLOW: 1; /*!< receive fifo underflow interrupt */ + __IO uint32_t RFIFO_OVERFLOW: 1; /*!< receive fifo overflow interrupt */ + __IO uint32_t RFIFO_ALMOST_FULL: 1; /*!< receive fifo almost full interrupt */ + __IO uint32_t TFIFO_UNDERFLOW: 1; /*!< transmit fifo underflow interrupt */ + __IO uint32_t TFIFO_OVERFLOW: 1; /*!< transmit fifo overflow interrupt */ + __IO uint32_t TFIFO_ALMOST_EMPTY: 1; /*!< transmit fifo almost empty interrupt */ + __IO uint32_t DONE : 1; /*!< transmit done interrupt */ + } INT_RAW_b; /*!< BitSize */ + }; + + union { + __IO uint32_t BCNT; /*!< bit length while transmitting and receiving */ + + struct { + __IO uint32_t CNT : 5; /*!< bit length while transmitting and receiving, BCNT + 1 */ + } BCNT_b; /*!< BitSize */ + }; + __IO uint8_t GAP; /*!< half cycle number between continuous data frame */ + __I uint8_t RESERVED0[3]; + __IO uint16_t DIV; /*!< frequency division register, fsck = fclk_io / (DIV + 1) / 2 */ + __I uint16_t RESERVED1; + __IO uint32_t TRANS_CNT; /*!< transmit data length, data number = TRANS_CNT + 1 */ + + union { + __O uint32_t TRANS_START; /*!< transmit startup register, write 1 to trigger transmision once */ + + struct { + __O uint32_t TX_TRIGGER : 1; /*!< write 1 to trigger transmision once */ + } TRANS_START_b; /*!< BitSize */ + }; + __IO uint32_t RW_DATA; /*!< raw data register */ +} SPI0_Type; + + +/* ================================================================================ */ +/* ================ I2C0 ================ */ +/* ================================================================================ */ + + +/** + * @brief I2C 0 (I2C0) + */ + +typedef struct { /*!< I2C0 Structure */ + + union { + __IO uint32_t CTRL; /*!< control Register */ + + struct { + __IO uint32_t MODE : 1; /*!< master or slave mode */ + __IO uint32_t MASTER_ADDR_WIDTH: 1; /*!< 7- or 10-bits address as a master */ + __IO uint32_t SLAVE_ADDR_WIDTH: 1; /*!< 7- or 10-bits address width as a slave */ + } CTRL_b; /*!< BitSize */ + }; + + union { + __IO uint16_t TAR; /*!< target address Register */ + + struct { + __IO uint16_t ADDR10 : 10; /*!< 7- or 10-bits address */ + __IO uint16_t START_BYTE : 1; /*!< Enable start Byte for each transfer */ + } TAR_b; /*!< BitSize */ + }; + __I uint16_t RESERVED0; + + union { + __IO uint16_t SAR; /*!< slave address Register */ + + struct { + __IO uint16_t ADDR10 : 10; /*!< 7- or 10-bits address */ + } SAR_b; /*!< BitSize */ + }; + __I uint16_t RESERVED1; + + union { + __IO uint32_t DATA_CMD; /*!< I2C transfer data/command entry */ + + struct { + __IO uint32_t DATA : 8; /*!< 8-bits data */ + __O uint32_t RD_CMD : 1; /*!< read command for master mode only, write 0 if slave mode */ + __O uint32_t WR_CMD : 1; /*!< write command for master mode only */ + __O uint32_t WR_RD_CMD : 1; /*!< write and read command for master mode only */ + } DATA_CMD_b; /*!< BitSize */ + }; + + union { + __IO uint32_t WRITE_READ_CNT; /*!< I2C write and read data byte counter Register */ + + struct { + __IO uint32_t RD_BYTE_CNT: 9; /*!< Decide the number of bytes read back as a master-receiver */ + uint32_t : 7; + __IO uint32_t WR_BYTE_CNT: 9; /*!< Decide the number of byte to send as a master-transmitter */ + } WRITE_READ_CNT_b; /*!< BitSize */ + }; + + union { + __IO uint32_t SCL_CNT; /*!< I2C clk pulse counter */ + + struct { + __IO uint32_t HIGH_LEVEL_TICK: 16; /*!< the SCL clock high-period count */ + __IO uint32_t LOW_LEVEL_TICK: 16; /*!< the SCL clock low-period count */ + } SCL_CNT_b; /*!< BitSize */ + }; + __I uint32_t RESERVED2; + + union { + __I uint32_t INT_STATUS; /*!< I2C interrupt sources */ + + struct { + __I uint32_t RX_UNDER : 1; /*!< receiver underflow */ + __I uint32_t RX_OVER : 1; /*!< receiver overflow */ + __I uint32_t RX_FULL : 1; /*!< receiver is full */ + __I uint32_t TX_OVER : 1; /*!< transmit overflow */ + __I uint32_t TX_EMPTY : 1; /*!< transmit is empty */ + __I uint32_t RD_REQ : 1; /*!< read request */ + __I uint32_t TX_ABRT : 1; /*!< transmit abortion */ + __I uint32_t RX_DONE : 1; /*!< receive done */ + __I uint32_t TX_DONE : 1; /*!< transmit done */ + __I uint32_t WR_REQ : 1; /*!< write request */ + } INT_STATUS_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_MASK; /*!< I2C interrupt mask register */ + + struct { + __I uint32_t RX_UNDER : 1; /*!< receiver underflow */ + __I uint32_t RX_OVER : 1; /*!< receiver overflow */ + __I uint32_t RX_FULL : 1; /*!< receiver is full */ + __I uint32_t TX_OVER : 1; /*!< transmit overflow */ + __I uint32_t TX_EMPTY : 1; /*!< transmit is empty */ + __I uint32_t RD_REQ : 1; /*!< read request */ + __I uint32_t TX_ABRT : 1; /*!< transmit abortion */ + __I uint32_t RX_DONE : 1; /*!< receive done */ + __I uint32_t TX_DONE : 1; /*!< transmit done */ + __I uint32_t WR_REQ : 1; /*!< write request */ + } INT_MASK_b; /*!< BitSize */ + }; + __I uint32_t RESERVED3; + + union { + __IO uint32_t RX_TL; /*!< I2C receive FIFO threshold */ + + struct { + __IO uint32_t THRESHOLD : 5; /*!< FIFO threashold */ + } RX_TL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t TX_TL; /*!< I2C transmit FIFO threshold */ + + struct { + __IO uint32_t THRESHOLD : 5; /*!< FIFO threashold */ + } TX_TL_b; /*!< BitSize */ + }; + + union { + __I uint32_t CLR_ALL_INT; /*!< I2C clear all interrupt register */ + + struct { + __I uint32_t CLEAR : 1; /*!< Read this register to clear all individual interrupts */ + } CLR_ALL_INT_b; /*!< BitSize */ + }; + + union { + __I uint32_t CLR_RX_UNDER; /*!< I2C clear RX_UNDER interrupt */ + + struct { + __I uint32_t CLEAR : 1; /*!< Read this register to clear the RX_UNDER interrupt (bit 19) + of the I2C_STATUS register */ + } CLR_RX_UNDER_b; /*!< BitSize */ + }; + + union { + __I uint32_t CLR_RX_OVER; /*!< I2C clear RX_OVER interrupt */ + + struct { + __I uint32_t CLEAR : 1; /*!< Read this register to clear the RX_OVER interrupt (bit 20) of + the I2C_STATUS register */ + } CLR_RX_OVER_b; /*!< BitSize */ + }; + + union { + __I uint32_t CLR_TX_OVER; /*!< I2C clear TX_OVER interrupt */ + + struct { + __I uint32_t CLEAR : 1; /*!< Read this register to clear the TX_OVER interrupt (bit 22) of + the I2C_STATUS register */ + } CLR_TX_OVER_b; /*!< BitSize */ + }; + + union { + __I uint32_t CLR_RD_REQ; /*!< I2C clear RD_REQ interrupt */ + + struct { + __I uint32_t CLEAR : 1; /*!< Read this register to clear the RD_REQ interrupt (bit 24) of + the I2C_STATUS register */ + } CLR_RD_REQ_b; /*!< BitSize */ + }; + + union { + __I uint32_t CLR_TX_ABRT; /*!< I2C clear TX_ABRT interrupt */ + + struct { + __I uint32_t CLEAR : 1; /*!< Read this register to clear the TX_ABRT interrupts (bit 25 , + bit 18, bit 17, bit 16 and bit 15) of the I2C_STATUS register. */ + } CLR_TX_ABRT_b; /*!< BitSize */ + }; + + union { + __I uint32_t CLR_RX_DONE; /*!< I2C clear RX_DONE interrupt */ + + struct { + __I uint32_t CLEAR : 1; /*!< Read this register to clear the RX_DONE interrupt (bit 26) of + the I2C_STATUS register */ + } CLR_RX_DONE_b; /*!< BitSize */ + }; + + union { + __IO uint32_t ENABLE; /*!< I2C enable register */ + + struct { + __IO uint32_t EN : 1; /*!< enable device */ + uint32_t : 30; + __IO uint32_t RESET : 1; /*!< TX and RX FIFO are held in an erased state( flushed) and all + interrupts deserted */ + } ENABLE_b; /*!< BitSize */ + }; + + union { + __I uint32_t STATUS; /*!< I2C status register */ + + struct { + __I uint32_t BUSY : 1; /*!< I2C busy Status */ + __I uint32_t TX_FIFO_NOT_FULL: 1; /*!< transmit FIFO is not full */ + __I uint32_t TX_FIFO_EMPTY: 1; /*!< transmit FIFO is empty */ + __I uint32_t RX_FIFO_NOT_EMPTY: 1; /*!< receive FIFO is not empty */ + __I uint32_t RX_FIFO_FULL: 1; /*!< receive FIFO is full */ + __I uint32_t EN : 1; /*!< I2C is enabled */ + __I uint32_t TX_BYTE_W_ACK: 9; /*!< Number of bytes sent to slave with acknowledge during the last + write transaction as a master-transmitter only */ + __I uint32_t ABRT_ADDR_NOACK: 1; /*!< the address sent was not acknowledged by any slave as a master */ + __I uint32_t ABRT_TX_DATA_NOACK: 1; /*!< the data sent was not acknowledged by any slave as a master */ + __I uint32_t ABRT_SLAVE_FLUSH_TX_FIFO: 1; /*!< Slave has received a read command and some data exists in the + TX FIFO so the slave issues a TX_ABRT interrupt to flush old + data in TX FIFO */ + __I uint32_t ABRT_SLAVE_RD_IN_TX: 1; /*!< When the processor side responds to a slave mode request for + data to be transmitted to a remote master and user writes a + 1 in CMD (bit 8) of I2C_DATA_CMD register */ + __I uint32_t RX_UNDER : 1; /*!< receiver is underflow */ + __I uint32_t RX_OVER : 1; /*!< receiver is overflow */ + __I uint32_t RX_FULL : 1; /*!< receiver is full */ + __I uint32_t TX_OVER : 1; /*!< transmit is overflow */ + __I uint32_t TX_EMPTY : 1; /*!< transmit is empty */ + __I uint32_t RD_REQ : 1; /*!< read request is received */ + __I uint32_t TX_ABRT : 1; /*!< transmit is abort */ + __I uint32_t RX_DONE : 1; /*!< receive is done */ + __I uint32_t TX_DONE : 1; /*!< transmit is done */ + __I uint32_t WR_REQ : 1; /*!< write request is received */ + __I uint32_t MST_RD_FLAG: 1; /*!< Master is executing read command */ + __I uint32_t MST_WR_FLAG: 1; /*!< Master is executing read command */ + __I uint32_t MST_WR_RD_FLAG: 1; /*!< Master is executing write-read command */ + } STATUS_b; /*!< BitSize */ + }; + + union { + __I uint32_t TX_FIFO_LEVEL; /*!< I2C transmit FIFO level */ + + struct { + __I uint32_t LEVEL : 5; /*!< FIFO level */ + } TX_FIFO_LEVEL_b; /*!< BitSize */ + }; + + union { + __I uint32_t RX_FIFO_LEVEL; /*!< I2C receive FIFO level */ + + struct { + __I uint32_t LEVEL : 5; /*!< FIFO level */ + } RX_FIFO_LEVEL_b; /*!< BitSize */ + }; + __I uint32_t RESERVED4; + + union { + __O uint32_t SLAVE_NACK; /*!< I2C slave send a data NACK */ + + struct { + __O uint32_t NACK : 1; /*!< data NACK */ + } SLAVE_NACK_b; /*!< BitSize */ + }; + __I uint32_t RESERVED5; + + union { + __IO uint32_t SDA_SETUP; /*!< I2C SDA setup timer */ + + struct { + __IO uint32_t TSETUP : 10; /*!< This counter defines the max value of the following constrains:THD:STA + TSU:STO,TSETUP: T / INPUT_CLK_PERIOD */ + __IO uint32_t TSU_DAT : 8; /*!< This counter defines the constrain of TSU:DAT: 250ns (or 100ns) + / INPUT_CLK_PERIOD */ + } SDA_SETUP_b; /*!< BitSize */ + }; + + union { + __IO uint32_t TSU_STA_SETUP; /*!< I2C Tsu_sta and Tbuf_free timer */ + + struct { + __IO uint32_t TBUF : 10; /*!< This counter defines the constrain of bus free interval: Tbuf, + Tbuf : Tbus_free / INPUT_CLK_PERIOD */ + __IO uint32_t TSU_STA : 10; /*!< This counter defines the constrain of Tsu:sta, Tsu:sta : Tsu:sta + / INPUT_CLK_PERIOD */ + __IO uint32_t SDA_FILTER_CNT: 4; /*!< SDA filter count */ + __IO uint32_t SDA_FILTER_EN: 1; /*!< SDA filter enable bit */ + __IO uint32_t SCL_FILTER_CNT: 4; /*!< SCL filter count */ + __IO uint32_t SCL_FILTER_EN: 1; /*!< SCL filter enable bit */ + } TSU_STA_SETUP_b; /*!< BitSize */ + }; + + union { + __I uint32_t CLR_TX_DONE; /*!< I2C clear TX_DONE interrupt */ + + struct { + __I uint32_t CLEAR : 1; /*!< Read this register to clear the TX_DONE interrupt (bit 27) of + the I2C_STATUS register */ + } CLR_TX_DONE_b; /*!< BitSize */ + }; +} I2C0_Type; + + +/* ================================================================================ */ +/* ================ RTC ================ */ +/* ================================================================================ */ + + +/** + * @brief RTC (RTC) + */ + +typedef struct { /*!< RTC Structure */ + + union { + __IO uint32_t INT_STATUS; /*!< interrupt Register */ + + struct { + __IO uint32_t SECOND : 1; /*!< 1s interrupt, write 1 clear 0 */ + __IO uint32_t MILLSECOND : 1; /*!< 1ms interrupt, write 1 clear 0 */ + } INT_STATUS_b; /*!< BitSize */ + }; + __IO uint32_t SECOND; /*!< current seconds of system time */ + + union { + __IO uint16_t MILLSECOND; /*!< current millseconds of system time */ + + struct { + __IO uint16_t MS : 10; /*!< micro seconds */ + } MILLSECOND_b; /*!< BitSize */ + }; +} RTC_Type; + + +/* ================================================================================ */ +/* ================ GPIO ================ */ +/* ================================================================================ */ + + +/** + * @brief GPIO (GPIO) + */ + +typedef struct { /*!< GPIO Structure */ + __I uint32_t GPIO_IN; /*!< GPIO input data */ + __IO uint32_t GPIO_OUT_UNMASK; /*!< GPIO output mask Register */ + __IO uint32_t GPIO_OUT_DATA; /*!< GPIO output data register */ + __IO uint32_t GPIO_OE; /*!< GPIO output driver enable */ + __IO uint32_t GPIO_INT_MASK; /*!< GPIO input interrupt mask */ + __IO uint32_t GPIO_INT_STATUS; /*!< GPIO input interrupt status */ + __IO uint32_t GPIO_INT_RAW; /*!< GPIO input interrupt raw */ + __IO uint32_t GPIO_POSITIVE_EDGE_INT_TRIGGER; /*!< triggers an interrupt while a positive edge, else negitive edge */ + + union { + __IO uint32_t PWM_OUT_SEL; /*!< Select gpio output from PWM */ + + struct { + __IO uint32_t GPIO_31 : 1; /*!< GPIO[31] is selected to output PWM */ + __IO uint32_t GPIO_H_9 : 1; /*!< GPIO_H[9] is selected to output PWM */ + __IO uint32_t GPIO_H_19 : 1; /*!< GPIO_H[19] is selected to output PWM */ + __IO uint32_t GPIO_H_20 : 1; /*!< GPIO_H[20] is selected to output PWM */ + } PWM_OUT_SEL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t PWM_OUT0_LEN; /*!< Pwm channel 0 paramters */ + + struct { + __IO uint32_t LOW_LEVEL_TICK: 16; /*!< low level width = ticks + 1 */ + __IO uint32_t HIGH_LEVEL_TICK: 16; /*!< high level width = ticks + 1 */ + } PWM_OUT0_LEN_b; /*!< BitSize */ + }; + + union { + __IO uint32_t PWM_OUT1_LEN; /*!< Pwm channel 1 paramters */ + + struct { + __IO uint32_t LOW_LEVEL_TICK: 16; /*!< low level width = ticks + 1 */ + __IO uint32_t HIGH_LEVEL_TICK: 16; /*!< high level width = ticks + 1 */ + } PWM_OUT1_LEN_b; /*!< BitSize */ + }; + + union { + __IO uint32_t PWM_OUT2_LEN; /*!< Pwm channel 2 paramters */ + + struct { + __IO uint32_t LOW_LEVEL_TICK: 16; /*!< low level width = ticks + 1 */ + __IO uint32_t HIGH_LEVEL_TICK: 16; /*!< high level width = ticks + 1 */ + } PWM_OUT2_LEN_b; /*!< BitSize */ + }; + + union { + __IO uint32_t PWM_OUT3_LEN; /*!< Pwm channel 3 paramters */ + + struct { + __IO uint32_t LOW_LEVEL_TICK: 16; /*!< low level width = ticks + 1 */ + __IO uint32_t HIGH_LEVEL_TICK: 16; /*!< high level width = ticks + 1 */ + } PWM_OUT3_LEN_b; /*!< BitSize */ + }; + + union { + __IO uint32_t PWM_OUT_EN; /*!< Pwm enable */ + + struct { + __IO uint32_t GPIO_31 : 1; /*!< GPIO[31] is selected to output PWM */ + __IO uint32_t GPIO_H_9 : 1; /*!< GPIO_H[9] is selected to output PWM */ + __IO uint32_t GPIO_H_19 : 1; /*!< GPIO_H[19] is selected to output PWM */ + __IO uint32_t GPIO_H_20 : 1; /*!< GPIO_H[20] is selected to output PWM */ + } PWM_OUT_EN_b; /*!< BitSize */ + }; + __I uint32_t GPIO_H_IN; /*!< GPIO_H input data */ + __IO uint32_t GPIO_H_OUT_UNMASK; /*!< GPIO_H output unmask Register */ + __IO uint32_t GPIO_H_OUT_DATA; /*!< GPIO_H output data register */ + __IO uint32_t GPIO_H_OE; /*!< GPIO_H output driver enable */ + __IO uint32_t GPIO_H_INT_MASK; /*!< GPIO_H interrupt mask */ + __IO uint32_t GPIO_H_INT_STATUS; /*!< GPIO_H interrupt status */ + __IO uint32_t GPIO_H_INT_RAW; /*!< GPIO_H interrupt raw */ + __IO uint32_t GPIO_H_POSITIVE_EDGE_INT_TRIGGER; /*!< triggers an interrupt while a positive edge, else negitive edge */ + __I uint32_t GPIO_N_IN; /*!< GPIO_N input data */ + __IO uint32_t GPIO_N_OUT_UNMASK; /*!< GPIO_N output unmask Register */ + __IO uint32_t GPIO_N_OUT_DATA; /*!< GPIO_N output data register */ + __IO uint32_t GPIO_N_OE; /*!< GPIO_N output driver enable */ + __IO uint32_t GPIO_N_INT_MASK; /*!< GPIO_N interrupt mask */ + __IO uint32_t GPIO_N_INT_STATUS; /*!< GPIO_N interrupt status */ + __IO uint32_t GPIO_N_INT_RAW; /*!< GPIO_N interrupt raw */ + __IO uint32_t GPIO_N_POSITIVE_EDGE_INT_TRIGGER; /*!< triggers an interrupt while a positive edge, else negitive edge */ +} GPIO_Type; + + +/* ================================================================================ */ +/* ================ NOR_FLASH ================ */ +/* ================================================================================ */ + + +/** + * @brief NOR_FLASH (NOR_FLASH) + */ + +typedef struct { /*!< NOR_FLASH Structure */ + + union { + __IO uint32_t CTRL0; /*!< control Register 0 */ + + struct { + __IO uint32_t DIV : 8; /*!< frequency division register, fsck = fclk_io / (DIV + 1) / 2 */ + __IO uint32_t CS_REVALID_INTERVAL: 8; /*!< interval from CS invalid to valid, number of half cycle of SCK */ + __IO uint32_t RW_BYTE_CNT: 16; /*!< RW byte count (eliminate CMD, ADDRESS, DUMMY in normal state, + contains all in transparent state. 0 is unlimited */ + } CTRL0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CTRL1; /*!< control Register 1 */ + + struct { + __IO uint32_t CMD : 8; /*!< operated command */ + __IO uint32_t ADDRESS : 24; /*!< RW address */ + } CTRL1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t TRIGGER; /*!< trigger register */ + + struct { + __O uint32_t OP_START : 1; /*!< operation start. */ + __IO uint32_t OP_CLEAN : 1; /*!< operation clean, stop current opration and clean FIFO */ + __IO uint32_t TRSP_RD_EN : 1; /*!< if a read operation after transparent operation */ + __IO uint32_t TRSP_EN : 1; /*!< enable transparent operation */ + } TRIGGER_b; /*!< BitSize */ + }; + + union { + __I uint32_t STATUS; /*!< status register */ + + struct { + __I uint32_t BUSY : 1; /*!< reading or writting */ + __I uint32_t RD_FIFO_ALMOST_FULL: 1; /*!< read FIFO is almost full */ + __I uint32_t RD_FIFO_EMPTY: 1; /*!< read FIFO is empty */ + __I uint32_t RD_FIFO_FULL: 1; /*!< read FIFO is full */ + __I uint32_t WR_FIFO_ALMOST_EMPTY: 1; /*!< write FIFO is almost empty */ + __I uint32_t WR_FIFO_FULL: 1; /*!< write FIFO is full */ + __I uint32_t WR_FIFO_EMPTY: 1; /*!< write FIFO is empty */ + } STATUS_b; /*!< BitSize */ + }; + __IO uint32_t DATA; /*!< data register. lower bits are significant in read and higher + bits are significant in writting */ + + union { + __IO uint32_t BYPASS; /*!< bypass Register, is used for JTAG connecting FLASH directly */ + + struct { + __IO uint32_t EN : 1; /*!< enable bypass */ + } BYPASS_b; /*!< BitSize */ + }; +} NOR_FLASH_Type; + + +/* ================================================================================ */ +/* ================ ADC ================ */ +/* ================================================================================ */ + + +/** + * @brief ADC (ADC) + */ + +typedef struct { /*!< ADC Structure */ + + union { + __IO uint32_t POWERDOWN_RESET; /*!< power down and reset Register */ + + struct { + __IO uint32_t RESET_ADC2 : 1; /*!< ADC2, reset, active high */ + __IO uint32_t RESET_ADC1 : 1; /*!< ADC1, reset, active high */ + __IO uint32_t POWERDOWN_ADC2: 1; /*!< ADC2, power down, active high */ + __IO uint32_t POWERDOWN_ADC1: 1; /*!< ADC1, power down, active high */ + } POWERDOWN_RESET_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG0; /*!< config Register */ + + struct { + __IO uint32_t VSEN : 3; /*!< ADC-1 VSEN Selection */ + __IO uint32_t PHASE_CTRL : 2; /*!< ADC-1 and ADC-2 CLK Phase Control */ + } CFG0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG_ADC1; /*!< config ADC1 register */ + + struct { + __IO uint32_t SYSTEM_MODE: 3; /*!< system mode selection */ + __IO uint32_t CHANNEL_SEL: 4; /*!< channel selection */ + __IO uint32_t MULTI_CHANNEL_CONTINUE_SCAN: 1;/*!< If continue to scan multiply channel, else single scan */ + __IO uint32_t MULTI_CHANNEL_BIT: 8; /*!< each bit represents each channel */ + } CFG_ADC1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG_ADC2; /*!< config ADC1 register */ + + struct { + __IO uint32_t SYSTEM_MODE: 3; /*!< system mode selection */ + __IO uint32_t CHANNEL_SEL: 4; /*!< channel selection */ + __IO uint32_t MULTI_CHANNEL_CONTINUE_SCAN: 1;/*!< If continue to scan multiply channel, else single scan */ + __IO uint32_t MULTI_CHANNEL_BIT: 8; /*!< each bit represents each channel */ + } CFG_ADC2_b; /*!< BitSize */ + }; + + union { + __IO uint32_t ADC1_FIFO_CLEAR; /*!< clear adc1 fifo data */ + + struct { + __IO uint32_t CLEAR : 1; /*!< clear fifo data, active high */ + } ADC1_FIFO_CLEAR_b; /*!< BitSize */ + }; + + union { + __IO uint32_t ADC2_FIFO_CLEAR; /*!< clear adc2 fifo data */ + + struct { + __IO uint32_t CLEAR : 1; /*!< clear fifo data, active high */ + } ADC2_FIFO_CLEAR_b; /*!< BitSize */ + }; + + union { + __IO uint32_t ALL_ADC_FIFO_CLEAR; /*!< clear adc1 and adc2 fifo data */ + + struct { + __IO uint32_t CLEAR : 1; /*!< clear fifo data, active high */ + } ALL_ADC_FIFO_CLEAR_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_MASK; /*!< interrupt mask register */ + + struct { + __IO uint32_t ADC1_ALMOST_FULL: 1; /*!< ADC 1 almost full */ + __IO uint32_t ADC1_OVERFLOW: 1; /*!< ADC 1 is overflow */ + __IO uint32_t ADC1_EMPTY_ERR: 1; /*!< ADC 1 read empty error */ + __IO uint32_t ADC2_ALMOST_FULL: 1; /*!< ADC 2 almost full */ + __IO uint32_t ADC2_OVERFLOW: 1; /*!< ADC 2 is overflow */ + __IO uint32_t ADC2_EMPTY_ERR: 1; /*!< ADC 2 read empty error */ + } INT_MASK_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_RAW; /*!< interrupt raw register */ + + struct { + __IO uint32_t ADC1_ALMOST_FULL: 1; /*!< ADC 1 almost full */ + __IO uint32_t ADC1_OVERFLOW: 1; /*!< ADC 1 is overflow */ + __IO uint32_t ADC1_EMPTY_ERR: 1; /*!< ADC 1 read empty error */ + __IO uint32_t ADC2_ALMOST_FULL: 1; /*!< ADC 2 almost full */ + __IO uint32_t ADC2_OVERFLOW: 1; /*!< ADC 2 is overflow */ + __IO uint32_t ADC2_EMPTY_ERR: 1; /*!< ADC 2 read empty error */ + } INT_RAW_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_STATUS; /*!< interrupt status register */ + + struct { + __IO uint32_t ADC1_ALMOST_FULL: 1; /*!< ADC 1 almost full */ + __IO uint32_t ADC1_OVERFLOW: 1; /*!< ADC 1 is overflow */ + __IO uint32_t ADC1_EMPTY_ERR: 1; /*!< ADC 1 read empty error */ + __IO uint32_t ADC2_ALMOST_FULL: 1; /*!< ADC 2 almost full */ + __IO uint32_t ADC2_OVERFLOW: 1; /*!< ADC 2 is overflow */ + __IO uint32_t ADC2_EMPTY_ERR: 1; /*!< ADC 2 read empty error */ + } INT_STATUS_b; /*!< BitSize */ + }; + __I uint32_t ADC1_OUT; /*!< ADC-1 Output data (Signed-Magnitude Format) */ + __I uint32_t ADC2_OUT; /*!< ADC-2 Output data (Signed-Magnitude Format) */ + __I uint32_t ADC1_OUT_OFFSET_CALIBRATION; /*!< ADC-1 Output in offset calibration when Input=0, Ideally DAO[11:0]=000h */ + __I uint32_t ADC2_OUT_OFFSET_CALIBRATION; /*!< ADC-2 Output in offset calibration when Input=0, Ideally DAO[11:0]=000h */ + __I uint32_t ADC1_OUT_NEGTIVE_GAIN_CALIBRATION; /*!< ADC-1 Output in gain calibration when Input=-FS, Ideally DAO[11:0]=801h */ + __I uint32_t ADC2_OUT_NEGTIVE_GAIN_CALIBRATION; /*!< ADC-2 Output in gain calibration when Input=-FS, Ideally DAO[11:0]=801h */ + __I uint32_t ADC1_OUT_POSITIVE_GAIN_CALIBRATION;/*!< ADC-1 Output in gain calibration when Input=FS, Ideally DAO[11:0]=7FFh */ + __I uint32_t ADC2_OUT_POSITIVE_GAIN_CALIBRATION;/*!< ADC-2 Output in gain calibration when Input=FS, Ideally DAO[11:0]=7FFh */ + + union { + __I uint32_t EOC; /*!< Conversion End Indicator */ + + struct { + __I uint32_t ADC2_EOC_GAIN: 1; /*!< ADC2 EOC_GAIN signal, conversion is done */ + __I uint32_t ADC2_EOC_OFF: 1; /*!< ADC2 EOC_OFF signal, conversion is done */ + __I uint32_t ADC2_EOC : 1; /*!< ADC2 EOC signal, conversion is done */ + __I uint32_t ADC1_EOC_GAIN: 1; /*!< ADC1 EOC_GAIN signal, conversion is done */ + __I uint32_t ADC1_EOC_OFF: 1; /*!< ADC1 EOC_OFF signal, conversion is done */ + __I uint32_t ADC1_EOC : 1; /*!< ADC1 EOC signal, conversion is done */ + } EOC_b; /*!< BitSize */ + }; + + union { + __I uint32_t BUSY; /*!< ADC is busy */ + + struct { + __I uint32_t ADC1_BUSY : 1; /*!< ADC1 is busy */ + __I uint32_t ADC2_BUSY : 1; /*!< ADC2 is busy */ + } BUSY_b; /*!< BitSize */ + }; + + union { + __O uint32_t ADC1_START; /*!< ADC1 startup enable */ + + struct { + __O uint32_t EN : 1; /*!< start */ + } ADC1_START_b; /*!< BitSize */ + }; + + union { + __O uint32_t ADC1_STOP; /*!< ADC1 stop enable */ + + struct { + __O uint32_t EN : 1; /*!< start */ + } ADC1_STOP_b; /*!< BitSize */ + }; + + union { + __O uint16_t ADC1_FIFO_READ; /*!< ADC1 FIFO read data */ + + struct { + __O uint16_t DATA : 12; /*!< data */ + __O uint16_t CHANNEL : 4; /*!< channel number */ + } ADC1_FIFO_READ_b; /*!< BitSize */ + }; + __I uint16_t RESERVED0; + + union { + __O uint32_t ADC2_START; /*!< ADC2 startup enable, only for single-conversion */ + + struct { + __O uint32_t EN : 1; /*!< start */ + } ADC2_START_b; /*!< BitSize */ + }; + + union { + __O uint32_t ADC2_STOP; /*!< ADC1 stop enable, only for single-conversion */ + + struct { + __O uint32_t EN : 1; /*!< start */ + } ADC2_STOP_b; /*!< BitSize */ + }; + + union { + __O uint16_t ADC2_FIFO_READ; /*!< ADC2 FIFO read data */ + + struct { + __O uint16_t DATA : 12; /*!< data */ + __O uint16_t CHANNEL : 4; /*!< channel number */ + } ADC2_FIFO_READ_b; /*!< BitSize */ + }; + __I uint16_t RESERVED1; + + union { + __O uint32_t ALL_ADC_START; /*!< all ADCs start */ + + struct { + __O uint32_t EN : 1; /*!< start */ + } ALL_ADC_START_b; /*!< BitSize */ + }; + + union { + __O uint32_t ALL_ADC_STOP; /*!< all ADCs stop */ + + struct { + __O uint32_t EN : 1; /*!< start */ + } ALL_ADC_STOP_b; /*!< BitSize */ + }; + + union { + __I uint32_t ALL_ADC_FIFO_READ; /*!< all ADCs FIFO read data */ + + struct { + __I uint32_t ADC1_DATA : 12; /*!< ADC1 data */ + __I uint32_t ADC1_CHANNEL: 4; /*!< ADC1 channel number */ + __I uint32_t ADC2_DATA : 12; /*!< ADC2 data */ + __I uint32_t ADC2_CHANNEL: 4; /*!< ADC2 channel number */ + } ALL_ADC_FIFO_READ_b; /*!< BitSize */ + }; + + union { + __I uint32_t STATUS; /*!< status register */ + + struct { + __I uint32_t ADC1_READ_EMPTY: 1; /*!< ADC1 read empty */ + __I uint32_t ADC2_READ_EMPTY: 1; /*!< ADC2 read empty */ + __I uint32_t ADC1_READ_ALMOST_EMPTY: 1; /*!< ADC1 read almost empty */ + __I uint32_t ADC2_READ_ALMOST_EMPTY: 1; /*!< ADC2 read almost empty */ + __I uint32_t ADC1_WRITE_FULL: 1; /*!< ADC1 write full */ + __I uint32_t ADC2_WRITE_FULL: 1; /*!< ADC2 write full */ + __I uint32_t ADC1_WRITE_ALMOST_FULL: 1; /*!< ADC1 write almost full */ + __I uint32_t ADC2_WRITE_ALMOST_FULL: 1; /*!< ADC2 write almost full */ + } STATUS_b; /*!< BitSize */ + }; +} ADC_Type; + + +/* ================================================================================ */ +/* ================ EFUSE ================ */ +/* ================================================================================ */ + + +/** + * @brief EFUSE (EFUSE) + */ + +typedef struct { /*!< EFUSE Structure */ + + union { + __IO uint32_t USER_CTRL_LOW; /*!< low user region control */ + + struct { + __IO uint32_t WR_EN : 1; /*!< write enable. 1 : write data into EFUSE. clear 0 after read */ + __IO uint32_t RD_EN : 1; /*!< read enable. 1 : write data into EFUSE. clear 0 after read */ + __I uint32_t BUSY : 1; /*!< reading or writting */ + __IO uint32_t COMPARE_FAIL: 1; /*!< data read isn't consist with EFUSE */ + __I uint32_t RD_CRC_ERR : 1; /*!< CRC error in reading */ + __I uint32_t WR_CRC_ERR : 1; /*!< CRC error in writting */ + __I uint32_t LOCK : 1; /*!< user region in EFUSE is locked, EFUSE can't be burn */ + __IO uint32_t TMRF : 2; /*!< Reference resistor select, 1200ohm is recommended */ + } USER_CTRL_LOW_b; /*!< BitSize */ + }; + + union { + __IO uint32_t TIMING_0; /*!< timing 0 */ + + struct { + __IO uint32_t TPRS : 7; /*!< TPRS */ + __IO uint32_t TESR : 2; /*!< TESR */ + __IO uint32_t TRC : 4; /*!< TRC */ + __IO uint32_t TRPW : 3; /*!< TRPW */ + __IO uint32_t TRAH : 2; /*!< TRAH */ + __IO uint32_t TRAC : 3; /*!< TRAC */ + uint32_t : 6; + __IO uint32_t TPWPH : 5; /*!< TPWPH[6:2] */ + } TIMING_0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t TIMING_1; /*!< timing 1 */ + + struct { + __IO uint32_t TPWPS : 7; /*!< TPWPS */ + __IO uint32_t TEPS : 4; /*!< TEPS */ + __IO uint32_t TPP : 11; /*!< TPP */ + __IO uint32_t TPIT : 8; /*!< TPIT */ + __IO uint32_t TPWPH : 2; /*!< TPWPS[1:0] */ + } TIMING_1_b; /*!< BitSize */ + }; + __IO uint32_t USER_DATA0_LOW; /*!< user data [31:0] */ + __IO uint32_t USER_DATA1_LOW; /*!< user data [63:32] */ + __IO uint32_t USER_DATA2_LOW; /*!< user data [95:64] */ + __IO uint32_t USER_DATA3_LOW; /*!< user data [127:96] */ + + union { + __IO uint32_t USER_DATA4_LOW; /*!< crc and lock bit */ + + struct { + __IO uint32_t LOCK : 1; /*!< write protection if true */ + uint32_t : 23; + __IO uint32_t CRC : 8; /*!< CRC */ + } USER_DATA4_LOW_b; /*!< BitSize */ + }; + __I uint32_t RESERVED0[3]; + + union { + __IO uint32_t USER_CTRL_HI; /*!< high user region control */ + + struct { + __IO uint32_t WR_EN : 1; /*!< write enable. 1 : write data into EFUSE. clear 0 after read */ + __IO uint32_t RD_EN : 1; /*!< read enable. 1 : write data into EFUSE. clear 0 after read */ + __I uint32_t BUSY : 1; /*!< reading or writting */ + __IO uint32_t COMPARE_FAIL: 1; /*!< data read isn't consist with EFUSE */ + __I uint32_t RD_CRC_ERR : 1; /*!< CRC error in reading */ + __I uint32_t WR_CRC_ERR : 1; /*!< CRC error in writting */ + __I uint32_t LOCK : 1; /*!< user region in EFUSE is locked, EFUSE can't be burn */ + __IO uint32_t TMRF : 2; /*!< Reference resistor select, 1200ohm is recommended */ + } USER_CTRL_HI_b; /*!< BitSize */ + }; + __IO uint32_t USER_DATA0_HI; /*!< user data [159:128] */ + __IO uint32_t USER_DATA1_HI; /*!< user data [191:160] */ + __IO uint32_t USER_DATA2_HI; /*!< user data [223:192] */ + __IO uint32_t USER_DATA3_HI; /*!< user data [255:224] */ + + union { + __IO uint32_t USER_DATA4_HI; /*!< crc and lock bit */ + + struct { + __IO uint32_t LOCK : 1; /*!< write protection if true */ + uint32_t : 23; + __IO uint32_t CRC : 8; /*!< CRC */ + } USER_DATA4_HI_b; /*!< BitSize */ + }; +} EFUSE_Type; + + +/* ================================================================================ */ +/* ================ CAN0 ================ */ +/* ================================================================================ */ + + +/** + * @brief CAN 0 (CAN0) + */ + +typedef struct { /*!< CAN0 Structure */ + + union { + __IO uint8_t MODE; /*!< mode Register */ + + struct { + __IO uint8_t RM : 1; /*!< reset mode if 1 or operation mode */ + __IO uint8_t LOM : 1; /*!< Listen only mode */ + __IO uint8_t STM : 1; /*!< self test mode */ + __IO uint8_t AFM : 1; /*!< acceptance filter mode. Single filter if 1, dual filter if 0 */ + __IO uint8_t SM : 1; /*!< sleep mode */ + } MODE_b; /*!< BitSize */ + }; + __I uint8_t RESERVED0[3]; + + union { + __O uint8_t CMD; /*!< command Register */ + + struct { + __O uint8_t TR : 1; /*!< Set to 1 when a message is to be transmitted */ + __O uint8_t AT : 1; /*!< Set to 1 to cancel the next transmission request */ + __O uint8_t RRB : 1; /*!< Set to 1 to release the Receive Buffer */ + __O uint8_t CDO : 1; /*!< Set to 1 to clear the data overrun condition signaled by the + Data Overrun Status bit (SR.1). */ + __O uint8_t SSR : 1; /*!< Set to 1 when a message is to be transmitted and received simultaneously */ + } CMD_b; /*!< BitSize */ + }; + __I uint8_t RESERVED1[3]; + + union { + __I uint8_t STATUS; /*!< status Register */ + + struct { + __I uint8_t RBNE : 1; /*!< Receive Buffer not empty */ + __I uint8_t DO : 1; /*!< Data Overrun Status */ + __I uint8_t TB_UNLOCK : 1; /*!< Transmit Buffer is unlocked and not in transmitting */ + __I uint8_t TC : 1; /*!< Transmission complete */ + __I uint8_t RXING : 1; /*!< receiving the data */ + __I uint8_t TXING : 1; /*!< transmitting the data */ + __I uint8_t ERR : 1; /*!< At least one of the error counters is more than Error Warning + Limit Register */ + __I uint8_t BUS_OFF : 1; /*!< in 'Bus Off' state */ + } STATUS_b; /*!< BitSize */ + }; + __I uint8_t RESERVED2[3]; + + union { + __I uint8_t INT; /*!< interrupt Register */ + + struct { + __I uint8_t RBNF : 1; /*!< Receive Buffer not empty */ + __I uint8_t TB_UNLOCK : 1; /*!< Transmit Buffer is unlocked and not in transmitting */ + __I uint8_t ERR : 1; /*!< Set on every change (set or clear) of either the Bus Status + or Error Status bits (SR.7,SR.6) */ + __I uint8_t DO : 1; /*!< Data Overrun Status */ + __I uint8_t WAKEUP : 1; /*!< wake-up */ + __I uint8_t EP : 1; /*!< Set when the MCAN2 re-enters error active state after being + in error passive state or when at least one error counter exceeds + the protocol-defined level of 127 */ + __I uint8_t AL : 1; /*!< Set when the MCAN2 loses arbitration and becomes a receiver */ + __I uint8_t BUS_ERR : 1; /*!< Set when the MCAN2 detects an error on the CAN-bus */ + } INT_b; /*!< BitSize */ + }; + __I uint8_t RESERVED3[3]; + + union { + __IO uint8_t INT_EN; /*!< interrupt enabled Register */ + + struct { + __I uint8_t RBNF : 1; /*!< Receive Buffer not empty */ + __I uint8_t TB_UNLOCK : 1; /*!< Transmit Buffer is unlocked and not in transmitting */ + __I uint8_t ERR : 1; /*!< Set on every change (set or clear) of either the Bus Status + or Error Status bits (SR.7,SR.6) */ + __I uint8_t DO : 1; /*!< Data Overrun Status */ + __I uint8_t WAKEUP : 1; /*!< wake-up */ + __I uint8_t EP : 1; /*!< Set when the MCAN2 re-enters error active state after being + in error passive state or when at least one error counter exceeds + the protocol-defined level of 127 */ + __I uint8_t AL : 1; /*!< Set when the MCAN2 loses arbitration and becomes a receiver */ + __I uint8_t BUS_ERR : 1; /*!< Set when the MCAN2 detects an error on the CAN-bus */ + } INT_EN_b; /*!< BitSize */ + }; + __I uint8_t RESERVED4[7]; + + union { + __IO uint8_t BTR0; /*!< Bus Timing 0 */ + + struct { + __IO uint8_t BRP : 6; /*!< TQ =2 x Txtal1 x (32 x BRP.5 + 16 x BRP.4 + 8 x BRP.3 + 4 x + BRP.2 + 2 x BRP.1 + BRP.0 + 1) */ + __IO uint8_t SJW : 2; /*!< the maximum number of time quanta of sync segment */ + } BTR0_b; /*!< BitSize */ + }; + __I uint8_t RESERVED5[3]; + + union { + __IO uint8_t BTR1; /*!< Bus Timing 1 */ + + struct { + __IO uint8_t TSEG1 : 4; /*!< the maximum number of time quanta of propagation and 1st phase + segment */ + __IO uint8_t TSEG2 : 3; /*!< the maximum number of time quanta of 2nd phase segment */ + __IO uint8_t SAM : 1; /*!< sample times. Sample 3 times if 1, once if 0 */ + } BTR1_b; /*!< BitSize */ + }; + __I uint8_t RESERVED6[3]; + + union { + __IO uint8_t OCR; /*!< Output Control Register */ + + struct { + __IO uint8_t MODE : 2; /*!< output control mode */ + } OCR_b; /*!< BitSize */ + }; + __I uint8_t RESERVED7[11]; + + union { + __I uint8_t ALC; /*!< Arbitration Lost Capture */ + + struct { + __I uint8_t BIT : 5; /*!< the current position of the Bit Processor when bus arbitration + lost, 1st bit (ID.28) if 0 */ + } ALC_b; /*!< BitSize */ + }; + __I uint8_t RESERVED8[3]; + + union { + __I uint8_t ECC; /*!< Error Code Capture */ + + struct { + __I uint8_t SEGMENT : 5; /*!< segment code */ + __I uint8_t DIRECTION : 1; /*!< If 1, the error occurred during reception. If 0, the error occurred + during transmission */ + __I uint8_t ERR : 2; /*!< error code */ + } ECC_b; /*!< BitSize */ + }; + __I uint8_t RESERVED9[3]; + __IO uint8_t EWLR; /*!< Error Warning Limit */ + __I uint8_t RESERVED10[3]; + __IO uint8_t RXERR; /*!< Receive Error Counter */ + __I uint8_t RESERVED11[3]; + __IO uint8_t TXERR; /*!< Transmit Error Counter */ + __I uint8_t RESERVED12[3]; + + union { + __IO uint8_t FI_OR_ACR0; /*!< Transmit Frame Information if writting or Receive Frame Information + if reading, ACR[0] if reset mode */ + + struct { + __IO uint8_t DLC : 4; /*!< byte number in the data */ + uint8_t : 2; + __IO uint8_t RTR : 1; /*!< 1 indicates a remote frame; 0 indicates a data frame */ + __IO uint8_t FF : 1; /*!< 1 selects Extended Frame Format (EFF); 0 selects Standard Frame + Format (SFF) */ + } FI_OR_ACR0_b; /*!< BitSize */ + }; + __I uint8_t RESERVED13[3]; + __IO uint8_t DI0_OR_ACR1; /*!< Transmit data Information if writting or Receive data Information + if reading, ACR[1] if reset mode */ + __I uint8_t RESERVED14[3]; + __IO uint8_t DI1_OR_ACR2; /*!< Transmit data Information if writting or Receive data Information + if reading, ACR[2] if reset mode */ + __I uint8_t RESERVED15[3]; + __IO uint8_t DI2_OR_ACR3; /*!< Transmit data Information if writting or Receive data Information + if reading, ACR[3] if reset mode */ + __I uint8_t RESERVED16[3]; + __IO uint8_t DI3_OR_AMR0; /*!< Transmit data Information if writting or Receive data Information + if reading, AMR[0] if reset mode */ + __I uint8_t RESERVED17[3]; + __IO uint8_t DI4_OR_AMR1; /*!< Transmit data Information if writting or Receive data Information + if reading, AMR[1] if reset mode */ + __I uint8_t RESERVED18[3]; + __IO uint8_t DI5_OR_AMR2; /*!< Transmit data Information if writting or Receive data Information + if reading, AMR[2] if reset mode */ + __I uint8_t RESERVED19[3]; + __IO uint8_t DI6_OR_AMR3; /*!< Transmit data Information if writting or Receive data Information + if reading, AMR[3] if reset mode */ + __I uint8_t RESERVED20[3]; + __IO uint8_t DI7; /*!< Transmit data Information if writting or Receive data Information + if reading */ + __I uint8_t RESERVED21[3]; + __IO uint8_t DI8; /*!< Transmit data Information if writting or Receive data Information + if reading */ + __I uint8_t RESERVED22[3]; + __IO uint8_t DI9; /*!< Transmit data Information if writting or Receive data Information + if reading */ + __I uint8_t RESERVED23[3]; + __IO uint8_t DI10; /*!< Transmit data Information if writting or Receive data Information + if reading */ + __I uint8_t RESERVED24[3]; + __IO uint8_t DI11; /*!< Transmit data Information if writting or Receive data Information + if reading */ + __I uint8_t RESERVED25[3]; + __IO uint8_t RMC; /*!< Receive Message Counter */ + __I uint8_t RESERVED26[7]; + + union { + __IO uint8_t CDR; /*!< Clock Divider Register */ + + struct { + __IO uint8_t DIVIDER : 3; /*!< divider of XTAL1 */ + __IO uint8_t OFF : 1; /*!< disable XTAL1 */ + } CDR_b; /*!< BitSize */ + }; +} CAN0_Type; + + +/* ================================================================================ */ +/* ================ DMA ================ */ +/* ================================================================================ */ + + +/** + * @brief DMA (DMA) + */ + +typedef struct { /*!< DMA Structure */ + __IO uint32_t SAR0; /*!< Current Source Address of DMA transfer */ + __I uint32_t RESERVED0; + __IO uint32_t DAR0; /*!< Current Destination Address of DMA transfer */ + __I uint32_t RESERVED1; + + union { + __IO uint32_t LLP0; /*!< Linked List Pointer Register for Channel */ + + struct { + __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that + stores the next linked list item resides. */ + __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is + enabled */ + } LLP0_b; /*!< BitSize */ + }; + __I uint32_t RESERVED2; + + union { + __IO uint32_t CTL_LOW0; /*!< Lower 32-bits Control Register for Channel */ + + struct { + __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ + __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ + __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ + __IO uint32_t DINC : 2; /*!< Destination Address Increment */ + __IO uint32_t SINC : 2; /*!< Source Address Increment */ + __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ + __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ + __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ + __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ + uint32_t : 1; + __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ + __IO uint32_t DMS : 2; /*!< Destination Master Select */ + __IO uint32_t SMS : 2; /*!< Source Master Select */ + __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ + __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ + } CTL_LOW0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CTL_HI0; /*!< Higher 32-bits Control Register for Channel */ + + struct { + __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform + for every block transfer */ + __IO uint32_t DONE : 1; /*!< a block transfer is complete */ + } CTL_HI0_b; /*!< BitSize */ + }; + __IO uint32_t SSTAT0; /*!< Source Status Register for Channel */ + __I uint32_t RESERVED3; + __IO uint32_t DSTAT0; /*!< Destination Status Register for Channel */ + __I uint32_t RESERVED4; + __IO uint32_t SSTATAR0; /*!< Source Status Address Register for Channel */ + __I uint32_t RESERVED5; + __IO uint32_t DSTATAR0; /*!< Destination Status Address Register for Channel */ + __I uint32_t RESERVED6; + + union { + __IO uint32_t CFG_LOW0; /*!< Lower 32-bit Configuration Register for Channel */ + + struct { + uint32_t : 5; + __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ + __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit + is cleared. */ + __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ + __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ + __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ + __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ + __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ + __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ + __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ + __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ + __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ + __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ + __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ + __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ + } CFG_LOW0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG_HI0; /*!< Higher 32-bit Configuration Register for Channel */ + + struct { + __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination + Peripheral is the flow controller. */ + __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before + a burst transaction request is serviced. */ + __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the + HPROT[3:1] master interface signals */ + __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + } CFG_HI0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t SGR0; /*!< Source Gather Register for Channel */ + + struct { + __IO uint32_t SGI : 20; /*!< Source gather interval */ + __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ + } SGR0_b; /*!< BitSize */ + }; + __I uint32_t RESERVED7; + + union { + __IO uint32_t DSR0; /*!< Destination Scatter Register for Channel */ + + struct { + __IO uint32_t DSI : 20; /*!< Destination scatter interval */ + __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of + CTLx.DST_TR_WIDTH */ + } DSR0_b; /*!< BitSize */ + }; + __I uint32_t RESERVED8; + __IO uint32_t SAR1; /*!< Current Source Address of DMA transfer */ + __I uint32_t RESERVED9; + __IO uint32_t DAR1; /*!< Current Destination Address of DMA transfer */ + __I uint32_t RESERVED10; + + union { + __IO uint32_t LLP1; /*!< Linked List Pointer Register for Channel */ + + struct { + __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that + stores the next linked list item resides. */ + __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is + enabled */ + } LLP1_b; /*!< BitSize */ + }; + __I uint32_t RESERVED11; + + union { + __IO uint32_t CTL_LOW1; /*!< Lower 32-bits Control Register for Channel */ + + struct { + __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ + __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ + __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ + __IO uint32_t DINC : 2; /*!< Destination Address Increment */ + __IO uint32_t SINC : 2; /*!< Source Address Increment */ + __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ + __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ + __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ + __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ + uint32_t : 1; + __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ + __IO uint32_t DMS : 2; /*!< Destination Master Select */ + __IO uint32_t SMS : 2; /*!< Source Master Select */ + __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ + __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ + } CTL_LOW1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CTL_HI1; /*!< Higher 32-bits Control Register for Channel */ + + struct { + __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform + for every block transfer */ + __IO uint32_t DONE : 1; /*!< a block transfer is complete */ + } CTL_HI1_b; /*!< BitSize */ + }; + __IO uint32_t SSTAT1; /*!< Source Status Register for Channel */ + __I uint32_t RESERVED12; + __IO uint32_t DSTAT1; /*!< Destination Status Register for Channel */ + __I uint32_t RESERVED13; + __IO uint32_t SSTATAR1; /*!< Source Status Address Register for Channel */ + __I uint32_t RESERVED14; + __IO uint32_t DSTATAR1; /*!< Destination Status Address Register for Channel */ + __I uint32_t RESERVED15; + + union { + __IO uint32_t CFG_LOW1; /*!< Lower 32-bit Configuration Register for Channel */ + + struct { + uint32_t : 5; + __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ + __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit + is cleared. */ + __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ + __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ + __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ + __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ + __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ + __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ + __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ + __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ + __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ + __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ + __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ + __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ + } CFG_LOW1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG_HI1; /*!< Higher 32-bit Configuration Register for Channel */ + + struct { + __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination + Peripheral is the flow controller. */ + __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before + a burst transaction request is serviced. */ + __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the + HPROT[3:1] master interface signals */ + __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + } CFG_HI1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t SGR1; /*!< Source Gather Register for Channel */ + + struct { + __IO uint32_t SGI : 20; /*!< Source gather interval */ + __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ + } SGR1_b; /*!< BitSize */ + }; + __I uint32_t RESERVED16; + + union { + __IO uint32_t DSR1; /*!< Destination Scatter Register for Channel */ + + struct { + __IO uint32_t DSI : 20; /*!< Destination scatter interval */ + __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of + CTLx.DST_TR_WIDTH */ + } DSR1_b; /*!< BitSize */ + }; + __I uint32_t RESERVED17; + __IO uint32_t SAR2; /*!< Current Source Address of DMA transfer */ + __I uint32_t RESERVED18; + __IO uint32_t DAR2; /*!< Current Destination Address of DMA transfer */ + __I uint32_t RESERVED19; + + union { + __IO uint32_t LLP2; /*!< Linked List Pointer Register for Channel */ + + struct { + __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that + stores the next linked list item resides. */ + __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is + enabled */ + } LLP2_b; /*!< BitSize */ + }; + __I uint32_t RESERVED20; + + union { + __IO uint32_t CTL_LOW2; /*!< Lower 32-bits Control Register for Channel */ + + struct { + __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ + __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ + __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ + __IO uint32_t DINC : 2; /*!< Destination Address Increment */ + __IO uint32_t SINC : 2; /*!< Source Address Increment */ + __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ + __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ + __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ + __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ + uint32_t : 1; + __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ + __IO uint32_t DMS : 2; /*!< Destination Master Select */ + __IO uint32_t SMS : 2; /*!< Source Master Select */ + __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ + __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ + } CTL_LOW2_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CTL_HI2; /*!< Higher 32-bits Control Register for Channel */ + + struct { + __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform + for every block transfer */ + __IO uint32_t DONE : 1; /*!< a block transfer is complete */ + } CTL_HI2_b; /*!< BitSize */ + }; + __IO uint32_t SSTAT2; /*!< Source Status Register for Channel */ + __I uint32_t RESERVED21; + __IO uint32_t DSTAT2; /*!< Destination Status Register for Channel */ + __I uint32_t RESERVED22; + __IO uint32_t SSTATAR2; /*!< Source Status Address Register for Channel */ + __I uint32_t RESERVED23; + __IO uint32_t DSTATAR2; /*!< Destination Status Address Register for Channel */ + __I uint32_t RESERVED24; + + union { + __IO uint32_t CFG_LOW2; /*!< Lower 32-bit Configuration Register for Channel */ + + struct { + uint32_t : 5; + __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ + __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit + is cleared. */ + __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ + __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ + __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ + __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ + __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ + __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ + __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ + __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ + __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ + __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ + __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ + __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ + } CFG_LOW2_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG_HI2; /*!< Higher 32-bit Configuration Register for Channel */ + + struct { + __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination + Peripheral is the flow controller. */ + __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before + a burst transaction request is serviced. */ + __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the + HPROT[3:1] master interface signals */ + __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + } CFG_HI2_b; /*!< BitSize */ + }; + + union { + __IO uint32_t SGR2; /*!< Source Gather Register for Channel */ + + struct { + __IO uint32_t SGI : 20; /*!< Source gather interval */ + __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ + } SGR2_b; /*!< BitSize */ + }; + __I uint32_t RESERVED25; + + union { + __IO uint32_t DSR2; /*!< Destination Scatter Register for Channel */ + + struct { + __IO uint32_t DSI : 20; /*!< Destination scatter interval */ + __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of + CTLx.DST_TR_WIDTH */ + } DSR2_b; /*!< BitSize */ + }; + __I uint32_t RESERVED26; + __IO uint32_t SAR3; /*!< Current Source Address of DMA transfer */ + __I uint32_t RESERVED27; + __IO uint32_t DAR3; /*!< Current Destination Address of DMA transfer */ + __I uint32_t RESERVED28; + + union { + __IO uint32_t LLP3; /*!< Linked List Pointer Register for Channel */ + + struct { + __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that + stores the next linked list item resides. */ + __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is + enabled */ + } LLP3_b; /*!< BitSize */ + }; + __I uint32_t RESERVED29; + + union { + __IO uint32_t CTL_LOW3; /*!< Lower 32-bits Control Register for Channel */ + + struct { + __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ + __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ + __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ + __IO uint32_t DINC : 2; /*!< Destination Address Increment */ + __IO uint32_t SINC : 2; /*!< Source Address Increment */ + __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ + __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ + __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ + __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ + uint32_t : 1; + __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ + __IO uint32_t DMS : 2; /*!< Destination Master Select */ + __IO uint32_t SMS : 2; /*!< Source Master Select */ + __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ + __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ + } CTL_LOW3_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CTL_HI3; /*!< Higher 32-bits Control Register for Channel */ + + struct { + __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform + for every block transfer */ + __IO uint32_t DONE : 1; /*!< a block transfer is complete */ + } CTL_HI3_b; /*!< BitSize */ + }; + __IO uint32_t SSTAT3; /*!< Source Status Register for Channel */ + __I uint32_t RESERVED30; + __IO uint32_t DSTAT3; /*!< Destination Status Register for Channel */ + __I uint32_t RESERVED31; + __IO uint32_t SSTATAR3; /*!< Source Status Address Register for Channel */ + __I uint32_t RESERVED32; + __IO uint32_t DSTATAR3; /*!< Destination Status Address Register for Channel */ + __I uint32_t RESERVED33; + + union { + __IO uint32_t CFG_LOW3; /*!< Lower 32-bit Configuration Register for Channel */ + + struct { + uint32_t : 5; + __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ + __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit + is cleared. */ + __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ + __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ + __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ + __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ + __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ + __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ + __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ + __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ + __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ + __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ + __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ + __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ + } CFG_LOW3_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG_HI3; /*!< Higher 32-bit Configuration Register for Channel */ + + struct { + __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination + Peripheral is the flow controller. */ + __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before + a burst transaction request is serviced. */ + __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the + HPROT[3:1] master interface signals */ + __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + } CFG_HI3_b; /*!< BitSize */ + }; + + union { + __IO uint32_t SGR3; /*!< Source Gather Register for Channel */ + + struct { + __IO uint32_t SGI : 20; /*!< Source gather interval */ + __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ + } SGR3_b; /*!< BitSize */ + }; + __I uint32_t RESERVED34; + + union { + __IO uint32_t DSR3; /*!< Destination Scatter Register for Channel */ + + struct { + __IO uint32_t DSI : 20; /*!< Destination scatter interval */ + __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of + CTLx.DST_TR_WIDTH */ + } DSR3_b; /*!< BitSize */ + }; + __I uint32_t RESERVED35; + __IO uint32_t SAR4; /*!< Current Source Address of DMA transfer */ + __I uint32_t RESERVED36; + __IO uint32_t DAR4; /*!< Current Destination Address of DMA transfer */ + __I uint32_t RESERVED37; + + union { + __IO uint32_t LLP4; /*!< Linked List Pointer Register for Channel */ + + struct { + __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that + stores the next linked list item resides. */ + __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is + enabled */ + } LLP4_b; /*!< BitSize */ + }; + __I uint32_t RESERVED38; + + union { + __IO uint32_t CTL_LOW4; /*!< Lower 32-bits Control Register for Channel */ + + struct { + __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ + __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ + __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ + __IO uint32_t DINC : 2; /*!< Destination Address Increment */ + __IO uint32_t SINC : 2; /*!< Source Address Increment */ + __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ + __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ + __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ + __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ + uint32_t : 1; + __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ + __IO uint32_t DMS : 2; /*!< Destination Master Select */ + __IO uint32_t SMS : 2; /*!< Source Master Select */ + __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ + __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ + } CTL_LOW4_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CTL_HI4; /*!< Higher 32-bits Control Register for Channel */ + + struct { + __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform + for every block transfer */ + __IO uint32_t DONE : 1; /*!< a block transfer is complete */ + } CTL_HI4_b; /*!< BitSize */ + }; + __IO uint32_t SSTAT4; /*!< Source Status Register for Channel */ + __I uint32_t RESERVED39; + __IO uint32_t DSTAT4; /*!< Destination Status Register for Channel */ + __I uint32_t RESERVED40; + __IO uint32_t SSTATAR4; /*!< Source Status Address Register for Channel */ + __I uint32_t RESERVED41; + __IO uint32_t DSTATAR4; /*!< Destination Status Address Register for Channel */ + __I uint32_t RESERVED42; + + union { + __IO uint32_t CFG_LOW4; /*!< Lower 32-bit Configuration Register for Channel */ + + struct { + uint32_t : 5; + __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ + __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit + is cleared. */ + __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ + __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ + __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ + __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ + __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ + __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ + __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ + __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ + __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ + __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ + __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ + __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ + } CFG_LOW4_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG_HI4; /*!< Higher 32-bit Configuration Register for Channel */ + + struct { + __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination + Peripheral is the flow controller. */ + __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before + a burst transaction request is serviced. */ + __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the + HPROT[3:1] master interface signals */ + __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + } CFG_HI4_b; /*!< BitSize */ + }; + + union { + __IO uint32_t SGR4; /*!< Source Gather Register for Channel */ + + struct { + __IO uint32_t SGI : 20; /*!< Source gather interval */ + __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ + } SGR4_b; /*!< BitSize */ + }; + __I uint32_t RESERVED43; + + union { + __IO uint32_t DSR4; /*!< Destination Scatter Register for Channel */ + + struct { + __IO uint32_t DSI : 20; /*!< Destination scatter interval */ + __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of + CTLx.DST_TR_WIDTH */ + } DSR4_b; /*!< BitSize */ + }; + __I uint32_t RESERVED44; + __IO uint32_t SAR5; /*!< Current Source Address of DMA transfer */ + __I uint32_t RESERVED45; + __IO uint32_t DAR5; /*!< Current Destination Address of DMA transfer */ + __I uint32_t RESERVED46; + + union { + __IO uint32_t LLP5; /*!< Linked List Pointer Register for Channel */ + + struct { + __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that + stores the next linked list item resides. */ + __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is + enabled */ + } LLP5_b; /*!< BitSize */ + }; + __I uint32_t RESERVED47; + + union { + __IO uint32_t CTL_LOW5; /*!< Lower 32-bits Control Register for Channel */ + + struct { + __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ + __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ + __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ + __IO uint32_t DINC : 2; /*!< Destination Address Increment */ + __IO uint32_t SINC : 2; /*!< Source Address Increment */ + __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ + __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ + __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ + __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ + uint32_t : 1; + __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ + __IO uint32_t DMS : 2; /*!< Destination Master Select */ + __IO uint32_t SMS : 2; /*!< Source Master Select */ + __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ + __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ + } CTL_LOW5_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CTL_HI5; /*!< Higher 32-bits Control Register for Channel */ + + struct { + __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform + for every block transfer */ + __IO uint32_t DONE : 1; /*!< a block transfer is complete */ + } CTL_HI5_b; /*!< BitSize */ + }; + __IO uint32_t SSTAT5; /*!< Source Status Register for Channel */ + __I uint32_t RESERVED48; + __IO uint32_t DSTAT5; /*!< Destination Status Register for Channel */ + __I uint32_t RESERVED49; + __IO uint32_t SSTATAR5; /*!< Source Status Address Register for Channel */ + __I uint32_t RESERVED50; + __IO uint32_t DSTATAR5; /*!< Destination Status Address Register for Channel */ + __I uint32_t RESERVED51; + + union { + __IO uint32_t CFG_LOW5; /*!< Lower 32-bit Configuration Register for Channel */ + + struct { + uint32_t : 5; + __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ + __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit + is cleared. */ + __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ + __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ + __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ + __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ + __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ + __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ + __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ + __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ + __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ + __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ + __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ + __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ + } CFG_LOW5_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG_HI5; /*!< Higher 32-bit Configuration Register for Channel */ + + struct { + __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination + Peripheral is the flow controller. */ + __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before + a burst transaction request is serviced. */ + __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the + HPROT[3:1] master interface signals */ + __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + } CFG_HI5_b; /*!< BitSize */ + }; + + union { + __IO uint32_t SGR5; /*!< Source Gather Register for Channel */ + + struct { + __IO uint32_t SGI : 20; /*!< Source gather interval */ + __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ + } SGR5_b; /*!< BitSize */ + }; + __I uint32_t RESERVED52; + + union { + __IO uint32_t DSR5; /*!< Destination Scatter Register for Channel */ + + struct { + __IO uint32_t DSI : 20; /*!< Destination scatter interval */ + __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of + CTLx.DST_TR_WIDTH */ + } DSR5_b; /*!< BitSize */ + }; + __I uint32_t RESERVED53; + __IO uint32_t SAR6; /*!< Current Source Address of DMA transfer */ + __I uint32_t RESERVED54; + __IO uint32_t DAR6; /*!< Current Destination Address of DMA transfer */ + __I uint32_t RESERVED55; + + union { + __IO uint32_t LLP6; /*!< Linked List Pointer Register for Channel */ + + struct { + __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that + stores the next linked list item resides. */ + __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is + enabled */ + } LLP6_b; /*!< BitSize */ + }; + __I uint32_t RESERVED56; + + union { + __IO uint32_t CTL_LOW6; /*!< Lower 32-bits Control Register for Channel */ + + struct { + __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ + __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ + __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ + __IO uint32_t DINC : 2; /*!< Destination Address Increment */ + __IO uint32_t SINC : 2; /*!< Source Address Increment */ + __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ + __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ + __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ + __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ + uint32_t : 1; + __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ + __IO uint32_t DMS : 2; /*!< Destination Master Select */ + __IO uint32_t SMS : 2; /*!< Source Master Select */ + __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ + __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ + } CTL_LOW6_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CTL_HI6; /*!< Higher 32-bits Control Register for Channel */ + + struct { + __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform + for every block transfer */ + __IO uint32_t DONE : 1; /*!< a block transfer is complete */ + } CTL_HI6_b; /*!< BitSize */ + }; + __IO uint32_t SSTAT6; /*!< Source Status Register for Channel */ + __I uint32_t RESERVED57; + __IO uint32_t DSTAT6; /*!< Destination Status Register for Channel */ + __I uint32_t RESERVED58; + __IO uint32_t SSTATAR6; /*!< Source Status Address Register for Channel */ + __I uint32_t RESERVED59; + __IO uint32_t DSTATAR6; /*!< Destination Status Address Register for Channel */ + __I uint32_t RESERVED60; + + union { + __IO uint32_t CFG_LOW6; /*!< Lower 32-bit Configuration Register for Channel */ + + struct { + uint32_t : 5; + __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ + __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit + is cleared. */ + __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ + __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ + __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ + __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ + __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ + __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ + __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ + __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ + __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ + __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ + __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ + __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ + } CFG_LOW6_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG_HI6; /*!< Higher 32-bit Configuration Register for Channel */ + + struct { + __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination + Peripheral is the flow controller. */ + __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before + a burst transaction request is serviced. */ + __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the + HPROT[3:1] master interface signals */ + __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + } CFG_HI6_b; /*!< BitSize */ + }; + + union { + __IO uint32_t SGR6; /*!< Source Gather Register for Channel */ + + struct { + __IO uint32_t SGI : 20; /*!< Source gather interval */ + __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ + } SGR6_b; /*!< BitSize */ + }; + __I uint32_t RESERVED61; + + union { + __IO uint32_t DSR6; /*!< Destination Scatter Register for Channel */ + + struct { + __IO uint32_t DSI : 20; /*!< Destination scatter interval */ + __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of + CTLx.DST_TR_WIDTH */ + } DSR6_b; /*!< BitSize */ + }; + __I uint32_t RESERVED62; + __IO uint32_t SAR7; /*!< Current Source Address of DMA transfer */ + __I uint32_t RESERVED63; + __IO uint32_t DAR7; /*!< Current Destination Address of DMA transfer */ + __I uint32_t RESERVED64; + + union { + __IO uint32_t LLP7; /*!< Linked List Pointer Register for Channel */ + + struct { + __IO uint32_t LMS : 2; /*!< Identifies the AHB layer/interface where the memory device that + stores the next linked list item resides. */ + __IO uint32_t LOC : 30; /*!< Starting Address In Memory of next LLI if block chaining is + enabled */ + } LLP7_b; /*!< BitSize */ + }; + __I uint32_t RESERVED65; + + union { + __IO uint32_t CTL_LOW7; /*!< Lower 32-bits Control Register for Channel */ + + struct { + __IO uint32_t INT_EN : 1; /*!< Interrupt Enable Bit */ + __IO uint32_t DST_TR_WIDTH: 3; /*!< Destination Transfer Width */ + __IO uint32_t SRC_TR_WIDTH: 3; /*!< Source Transfer Width */ + __IO uint32_t DINC : 2; /*!< Destination Address Increment */ + __IO uint32_t SINC : 2; /*!< Source Address Increment */ + __IO uint32_t DEST_MSIZE : 3; /*!< Destination Burst Transaction Length */ + __IO uint32_t SRC_MSIZE : 3; /*!< Source Burst Transaction Length */ + __IO uint32_t SRC_GATHER_EN: 1; /*!< Source gather enable bit */ + __IO uint32_t DST_SCATTER_EN: 1; /*!< Destination scatter enable bit */ + uint32_t : 1; + __IO uint32_t TT_FC : 3; /*!< Transfer Type and Flow Control */ + __IO uint32_t DMS : 2; /*!< Destination Master Select */ + __IO uint32_t SMS : 2; /*!< Source Master Select */ + __IO uint32_t LLP_DST_EN : 1; /*!< Block chaining is enabled on the destination side */ + __IO uint32_t LLP_SRC_EN : 1; /*!< Block chaining is enabled on the source side */ + } CTL_LOW7_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CTL_HI7; /*!< Higher 32-bits Control Register for Channel */ + + struct { + __IO uint32_t BLOCK_TS : 12; /*!< indicates the total number of single transactions to perform + for every block transfer */ + __IO uint32_t DONE : 1; /*!< a block transfer is complete */ + } CTL_HI7_b; /*!< BitSize */ + }; + __IO uint32_t SSTAT7; /*!< Source Status Register for Channel */ + __I uint32_t RESERVED66; + __IO uint32_t DSTAT7; /*!< Destination Status Register for Channel */ + __I uint32_t RESERVED67; + __IO uint32_t SSTATAR7; /*!< Source Status Address Register for Channel */ + __I uint32_t RESERVED68; + __IO uint32_t DSTATAR7; /*!< Destination Status Address Register for Channel */ + __I uint32_t RESERVED69; + + union { + __IO uint32_t CFG_LOW7; /*!< Lower 32-bit Configuration Register for Channel */ + + struct { + uint32_t : 5; + __IO uint32_t CH_PRIOR : 3; /*!< Channel priority. A priority of 7 is the highest priority */ + __IO uint32_t CH_SUSP : 1; /*!< Suspends all DMA data transfers from the source until this bit + is cleared. */ + __I uint32_t FIFO_EMPTY : 1; /*!< Indicates if there is data left in the channel FIFO */ + __IO uint32_t HS_SEL_DST : 1; /*!< If Destination Software handshaking interface */ + __IO uint32_t HS_SEL_SRC : 1; /*!< If Source Software handshaking interface */ + __IO uint32_t LOCK_CH_L : 2; /*!< Indicates the duration over which CFGx.LOCK_CH bit applies. */ + __IO uint32_t LOCK_B_L : 2; /*!< Indicates the duration over which CFGx.LOCK_B bit applies. */ + __IO uint32_t LOCK_CH : 1; /*!< Channel Lock Bit */ + __IO uint32_t LOCK_B : 1; /*!< Bus Lock Bit */ + __IO uint32_t DST_HS_POL : 1; /*!< Destination Handshaking Interface Polarity. 0: active high */ + __IO uint32_t SRC_HS_POL : 1; /*!< Source Handshaking Interface Polarity. 0: active high */ + __IO uint32_t MAX_ABRST : 10; /*!< Maximum AMBA Burst Length */ + __IO uint32_t RELOAD_SRC : 1; /*!< Automatic Source Reload */ + __IO uint32_t RELOAD_DST : 1; /*!< Automatic Destination Reload */ + } CFG_LOW7_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CFG_HI7; /*!< Higher 32-bit Configuration Register for Channel */ + + struct { + __IO uint32_t FCMODE : 1; /*!< if source transaction requests aren't serviced when the Destination + Peripheral is the flow controller. */ + __IO uint32_t FIFO_MODE : 1; /*!< Determines space or data needs to be available in the FIFO before + a burst transaction request is serviced. */ + __IO uint32_t PROTCTL : 3; /*!< There is a one-to-one mapping of these register bits to the + HPROT[3:1] master interface signals */ + __IO uint32_t DS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + __IO uint32_t SS_UPD_EN : 1; /*!< STATx is only updated from STATARx */ + } CFG_HI7_b; /*!< BitSize */ + }; + + union { + __IO uint32_t SGR7; /*!< Source Gather Register for Channel */ + + struct { + __IO uint32_t SGI : 20; /*!< Source gather interval */ + __IO uint32_t SGC : 12; /*!< Specifies the number of contiguous source transfers of CTLx.SRC_TR_WIDTH */ + } SGR7_b; /*!< BitSize */ + }; + __I uint32_t RESERVED70; + + union { + __IO uint32_t DSR7; /*!< Destination Scatter Register for Channel */ + + struct { + __IO uint32_t DSI : 20; /*!< Destination scatter interval */ + __IO uint32_t DSC : 12; /*!< Specifies the number of contiguous destination transfers of + CTLx.DST_TR_WIDTH */ + } DSR7_b; /*!< BitSize */ + }; + __I uint32_t RESERVED71[11]; + __I uint8_t INT_TFR; /*!< DMA Transfer Complete */ + __I uint8_t RESERVED72[7]; + __I uint8_t INT_BLOCK; /*!< Block Transfer Complete */ + __I uint8_t RESERVED73[7]; + __I uint8_t INT_SRC_TRAN; /*!< Source Transaction Complete */ + __I uint8_t RESERVED74[7]; + __I uint8_t INT_DST_TRAN; /*!< Destination Transaction Complete */ + __I uint8_t RESERVED75[7]; + __I uint8_t INT_ERR; /*!< Error */ + __I uint8_t RESERVED76[7]; + + union { + __IO uint16_t INT_EN_TFR; /*!< DMA Transfer Complete */ + + struct { + __IO uint16_t EN : 8; /*!< interrupt enable */ + __IO uint16_t WE : 8; /*!< interrupt enable write enable */ + } INT_EN_TFR_b; /*!< BitSize */ + }; + __I uint16_t RESERVED77[3]; + + union { + __IO uint16_t INT_EN_BLOCK; /*!< Block Transfer Complete */ + + struct { + __IO uint16_t EN : 8; /*!< interrupt enable */ + __IO uint16_t WE : 8; /*!< interrupt enable write enable */ + } INT_EN_BLOCK_b; /*!< BitSize */ + }; + __I uint16_t RESERVED78[3]; + + union { + __IO uint16_t INT_EN_SRC_TRAN; /*!< Source Transaction Complete */ + + struct { + __IO uint16_t EN : 8; /*!< interrupt enable */ + __IO uint16_t WE : 8; /*!< interrupt enable write enable */ + } INT_EN_SRC_TRAN_b; /*!< BitSize */ + }; + __I uint16_t RESERVED79[3]; + + union { + __IO uint16_t INT_EN_DST_TRAN; /*!< Destination Transaction Complete */ + + struct { + __IO uint16_t EN : 8; /*!< interrupt enable */ + __IO uint16_t WE : 8; /*!< interrupt enable write enable */ + } INT_EN_DST_TRAN_b; /*!< BitSize */ + }; + __I uint16_t RESERVED80[3]; + + union { + __IO uint16_t INT_EN_ERR; /*!< Error */ + + struct { + __IO uint16_t EN : 8; /*!< interrupt enable */ + __IO uint16_t WE : 8; /*!< interrupt enable write enable */ + } INT_EN_ERR_b; /*!< BitSize */ + }; + __I uint16_t RESERVED81[3]; + __O uint8_t INT_CLEAR_TFR; /*!< DMA Transfer Complete */ + __I uint8_t RESERVED82[7]; + __O uint8_t INT_CLEAR_BLOCK; /*!< Block Transfer Complete */ + __I uint8_t RESERVED83[7]; + __O uint8_t INT_CLEAR_SRC_TRAN; /*!< Source Transaction Complete */ + __I uint8_t RESERVED84[7]; + __O uint8_t INT_CLEAR_DST_TRAN; /*!< Destination Transaction Complete */ + __I uint8_t RESERVED85[7]; + __O uint8_t INT_CLEAR_ERR; /*!< Error */ + __I uint8_t RESERVED86[63]; + + union { + __IO uint32_t DMA_EN; /*!< DW_ahb_dmac Configuration Register */ + + struct { + __IO uint32_t EN : 1; /*!< enable */ + } DMA_EN_b; /*!< BitSize */ + }; + __I uint32_t RESERVED87; + + union { + __IO uint32_t CH_EN; /*!< DW_ahb_dmac Channel Enable Register */ + + struct { + __IO uint32_t EN : 8; /*!< enable */ + __IO uint32_t WE : 8; /*!< enable write enable */ + } CH_EN_b; /*!< BitSize */ + }; + __I uint32_t RESERVED88[10]; + + union { + __I uint32_t DMA_COMP_PARAMS_6_HI; /*!< Component Parameters for channel 7 */ + + struct { + __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination + transfer width. */ + __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source + transfer width. */ + __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ + __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ + __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ + __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ + __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ + __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ + __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is + on */ + __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ + uint32_t : 2; + __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ + __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ + __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ + __I uint32_t SMS : 3; /*!< source AHB dma interface */ + __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ + } DMA_COMP_PARAMS_6_HI_b; /*!< BitSize */ + }; + + union { + __I uint32_t DMA_COMP_PARAMS_5_LOW; /*!< Component Parameters for channel 6 */ + + struct { + __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination + transfer width. */ + __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source + transfer width. */ + __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ + __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ + __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ + __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ + __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ + __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ + __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is + on */ + __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ + uint32_t : 2; + __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ + __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ + __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ + __I uint32_t SMS : 3; /*!< source AHB dma interface */ + __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ + } DMA_COMP_PARAMS_5_LOW_b; /*!< BitSize */ + }; + + union { + __I uint32_t DMA_COMP_PARAMS_5_HI; /*!< Component Parameters for channel 5 */ + + struct { + __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination + transfer width. */ + __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source + transfer width. */ + __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ + __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ + __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ + __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ + __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ + __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ + __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is + on */ + __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ + uint32_t : 2; + __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ + __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ + __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ + __I uint32_t SMS : 3; /*!< source AHB dma interface */ + __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ + } DMA_COMP_PARAMS_5_HI_b; /*!< BitSize */ + }; + + union { + __I uint32_t DMA_COMP_PARAMS_4_LOW; /*!< Component Parameters for channel 4 */ + + struct { + __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination + transfer width. */ + __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source + transfer width. */ + __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ + __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ + __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ + __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ + __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ + __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ + __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is + on */ + __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ + uint32_t : 2; + __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ + __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ + __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ + __I uint32_t SMS : 3; /*!< source AHB dma interface */ + __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ + } DMA_COMP_PARAMS_4_LOW_b; /*!< BitSize */ + }; + + union { + __I uint32_t DMA_COMP_PARAMS_4_HI; /*!< Component Parameters for channel 3 */ + + struct { + __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination + transfer width. */ + __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source + transfer width. */ + __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ + __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ + __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ + __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ + __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ + __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ + __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is + on */ + __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ + uint32_t : 2; + __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ + __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ + __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ + __I uint32_t SMS : 3; /*!< source AHB dma interface */ + __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ + } DMA_COMP_PARAMS_4_HI_b; /*!< BitSize */ + }; + + union { + __I uint32_t DMA_COMP_PARAMS_3_LOW; /*!< Component Parameters for channel 2 */ + + struct { + __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination + transfer width. */ + __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source + transfer width. */ + __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ + __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ + __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ + __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ + __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ + __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ + __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is + on */ + __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ + uint32_t : 2; + __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ + __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ + __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ + __I uint32_t SMS : 3; /*!< source AHB dma interface */ + __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ + } DMA_COMP_PARAMS_3_LOW_b; /*!< BitSize */ + }; + + union { + __I uint32_t DMA_COMP_PARAMS_3_HI; /*!< Component Parameters for channel 1 */ + + struct { + __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination + transfer width. */ + __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source + transfer width. */ + __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ + __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ + __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ + __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ + __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ + __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ + __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is + on */ + __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ + uint32_t : 2; + __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ + __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ + __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ + __I uint32_t SMS : 3; /*!< source AHB dma interface */ + __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ + } DMA_COMP_PARAMS_3_HI_b; /*!< BitSize */ + }; + + union { + __I uint32_t DMA_COMP_PARAMS_2_LOW; /*!< Component Parameters for channel 0 */ + + struct { + __I uint32_t DTW : 3; /*!< If this is not hardcoded, then software can program the destination + transfer width. */ + __I uint32_t STW : 3; /*!< If this is not hardcoded, then software can program the source + transfer width. */ + __I uint32_t STAT_DST : 1; /*!< If destination status load feature is on */ + __I uint32_t STAT_SRC : 1; /*!< If source status load feature is on */ + __I uint32_t DST_SCA_EN : 1; /*!< If destination scatter feature is on */ + __I uint32_t SRC_GAT_EN : 1; /*!< If source gather feature is on */ + __I uint32_t LOCK_EN : 1; /*!< If channel lock feature is on */ + __I uint32_t MULTI_BLK_EN: 1; /*!< If multi blocks transfer feature is on */ + __I uint32_t CTL_WB_EN : 1; /*!< If write back initial values to relative registers feature is + on */ + __I uint32_t HC_LLP : 1; /*!< If disable LLP feature is on */ + uint32_t : 2; + __I uint32_t MAX_MULT_SIZE: 3; /*!< Maximum value of burst transaction size (SRC_MSIZE and DEST_MSIZE). */ + __I uint32_t DMS : 3; /*!< Destination AHB dma interface */ + __I uint32_t LMS : 3; /*!< Linked list AHB dma interface */ + __I uint32_t SMS : 3; /*!< source AHB dma interface */ + __I uint32_t FIFO_DEPTH : 3; /*!< FIFO depth in bytes */ + } DMA_COMP_PARAMS_2_LOW_b; /*!< BitSize */ + }; + __I uint32_t RESERVED89; + + union { + __I uint32_t DMA_COMP_PARAMS_1_LOW; /*!< Maximum block size for channel */ + + struct { + __I uint32_t CH0_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 0. */ + __I uint32_t CH1_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 1 */ + __I uint32_t CH2_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 2 */ + __I uint32_t CH3_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 3 */ + __I uint32_t CH4_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 4 */ + __I uint32_t CH5_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 5 */ + __I uint32_t CH6_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 6 */ + __I uint32_t CH7_MAX_BLK_SIZE: 4; /*!< Maximum block size for channel 7 */ + } DMA_COMP_PARAMS_1_LOW_b; /*!< BitSize */ + }; +} DMA_Type; + + +/* ================================================================================ */ +/* ================ ETH ================ */ +/* ================================================================================ */ + + +/** + * @brief ETH (ETH) + */ + +typedef struct { /*!< ETH Structure */ + + union { + __IO uint32_t CONFIG; /*!< MAC Configuration Register */ + + struct { + __IO uint32_t PRELEN : 2; /*!< Preamble Length for Transmit frames */ + __IO uint32_t RX_EN : 1; /*!< Receiver Enable */ + __IO uint32_t TX_EN : 1; /*!< Transmitter Enable */ + __IO uint32_t DC_EN : 1; /*!< Deferral Check Enable */ + uint32_t : 2; + __IO uint32_t ACS : 1; /*!< Automatic Pad or CRC Stripping */ + __IO uint32_t LUD : 1; /*!< Link Up or Down */ + uint32_t : 1; + __IO uint32_t IPC : 1; /*!< Checksum Offload */ + __IO uint32_t DM : 1; /*!< Duplex Mode */ + __IO uint32_t LM : 1; /*!< Loopback Mode */ + uint32_t : 1; + __IO uint32_t FES : 1; /*!< Speed in XMII interface */ + __IO uint32_t PS : 1; /*!< the Ethernet line speed */ + uint32_t : 4; + __IO uint32_t JE : 1; /*!< Jumbo enable */ + uint32_t : 1; + __IO uint32_t JD : 1; /*!< if 0, the MAC cuts off the transmitter if more than 2,048 bytes + of data (10,240 if JE is set high) */ + __IO uint32_t WD : 1; /*!< Watchdog Disable */ + __IO uint32_t TC : 1; /*!< If 1, this bit enables the transmission of duplex mode, link + speed, and link up or down information to the PHY */ + __IO uint32_t CST : 1; /*!< CRC Stripping for Type Frames */ + uint32_t : 1; + __IO uint32_t TWOKPE : 1; /*!< If 0, 1518 bytes is considered as a giant frame, 1 is 2000 bytes. */ + __IO uint32_t SARC : 3; /*!< Source Address Insertion or Replacement Control */ + } CONFIG_b; /*!< BitSize */ + }; + + union { + __IO uint32_t FF; /*!< MAC Frame Filter */ + + struct { + __IO uint32_t PR : 1; /*!< Receive all frames in spite of source and destination address */ + __IO uint32_t HUC : 1; /*!< if 1, don't compare DA field in destination address filtering + of unicast frames with DA register */ + __IO uint32_t HMC : 1; /*!< if 1, don't compare DA field in destination address filtering + of multicast frames with DA register */ + __IO uint32_t DAIF : 1; /*!< if set, the Address Check block operates in inverse filtering + mode for the DA address comparison */ + __IO uint32_t PM : 1; /*!< Pass All Multicast */ + __IO uint32_t DBF : 1; /*!< Disable Broadcast Frames */ + __IO uint32_t PCF : 2; /*!< Pass Control Frames */ + __IO uint32_t SAIF : 1; /*!< If set, the frames whose SA matches the SA registers are marked + as failing the SA Address filter */ + __IO uint32_t SAF : 1; /*!< Source Address Filter Enable */ + __IO uint32_t HPF : 1; /*!< Hash or Perfect Filter */ + uint32_t : 5; + __IO uint32_t VTFE : 1; /*!< VLAN Tag Filter Enable */ + uint32_t : 3; + __IO uint32_t IPFE : 1; /*!< Layer 3 and Layer 4 Filter Enable */ + __IO uint32_t DNTU : 1; /*!< Drop non-TCP/UDP over IP Frames */ + uint32_t : 9; + __IO uint32_t RA : 1; /*!< Receive all */ + } FF_b; /*!< BitSize */ + }; + __IO uint32_t HTH; /*!< Hash Table High Register */ + __IO uint32_t HTL; /*!< Hash Table Low Register */ + + union { + __IO uint32_t GMII_ADDR; /*!< GMII Address Register */ + + struct { + __IO uint32_t BUSY : 1; /*!< GMII Busy */ + __IO uint32_t GW : 1; /*!< GMII write or read */ + __IO uint32_t CR : 4; /*!< CSR Clock Range */ + __IO uint32_t GR : 5; /*!< These bits select the desired GMII register in the selected + PHY device */ + __IO uint32_t PA : 5; /*!< This field indicates which of the 32 possible PHY devices are + being accessed */ + } GMII_ADDR_b; /*!< BitSize */ + }; + __IO uint32_t GMII_DATA; /*!< GMII Data Register */ + + union { + __IO uint32_t FC; /*!< Flow Control Register */ + + struct { + __IO uint32_t FCB : 1; /*!< This bit initiates a Pause frame in the full-duplex mode */ + __IO uint32_t TFE : 1; /*!< MAC enables the flow control operation to transmit Pause frames */ + __IO uint32_t RFE : 1; /*!< MAC enables the flow control operation to receive Pause frames */ + __IO uint32_t UP : 1; /*!< MAC can detect Pause frames with unicast address of the station */ + } FC_b; /*!< BitSize */ + }; + + union { + __IO uint32_t VLAN_TAG; /*!< VLAN Tag Register */ + + struct { + __IO uint32_t VL : 16; /*!< VLAN Tag Identifier for Receive Frames */ + __IO uint32_t ETV : 1; /*!< Enable 12-Bit VLAN Tag Comparison */ + __IO uint32_t VTIM : 1; /*!< If set, The frames that do not have matching VLAN Tag are marked + as matched */ + __IO uint32_t ESVL : 1; /*!< If set, consider the S-VLAN (Type = 0x88A8) frames as valid + VLAN tagged frames */ + __IO uint32_t VTHM : 1; /*!< When set, the most significant four bits of the VLAN tag's CRC + are used to index the content */ + } VLAN_TAG_b; /*!< BitSize */ + }; + __I uint32_t RESERVED0[2]; + __IO uint32_t RWUFFR; /*!< Remote Wake-Up Frame Filter Register */ + + union { + __IO uint32_t PMTCSR; /*!< PMT Control and Status Register */ + + struct { + __IO uint32_t PWRDWN : 1; /*!< Power Down */ + __IO uint32_t MGKPKTEN : 1; /*!< Magic Packet Enable */ + __IO uint32_t RWKPKTEN : 1; /*!< Remote Wake-Up Frame Enable */ + uint32_t : 2; + __IO uint32_t MGKPRCVD : 1; /*!< the power management event is generated because of the reception + of a magic packet */ + __IO uint32_t RWKPRCVD : 1; /*!< When set, this bit indicates the power management event is generated + because of the reception of a remote wake-up frame */ + uint32_t : 2; + __IO uint32_t GLBLUCAST : 1; /*!< When set, enables any unicast packet filtered by the MAC (DAF)address + recognition to be a remote wake-up frame. */ + uint32_t : 14; + __IO uint32_t RWKPTR : 3; /*!< Remote Wake-up FIFO Pointer */ + uint32_t : 4; + __IO uint32_t RWKFILTRST : 1; /*!< Remote Wake-Up Frame Filter Register Pointer Reset. */ + } PMTCSR_b; /*!< BitSize */ + }; + __I uint32_t RESERVED1[2]; + __IO uint32_t MACISR; /*!< Interrupt Status Register */ + __IO uint32_t MACIMR; /*!< Interrupt Mask Register */ + __IO uint16_t ADDR0_HIGH; /*!< MAC Address0 High Register */ + __I uint16_t RESERVED2; + __IO uint32_t ADDR0_LOW; /*!< MAC Address0 LOW Register */ + + union { + __IO uint32_t ADDR1_HIGH; /*!< MAC Address0 High Register */ + + struct { + __IO uint32_t ADDR : 16; /*!< MAC Address1 [47:32] */ + uint32_t : 14; + __IO uint32_t SA : 1; /*!< MAC address1 is source or destination address compared with + received frame */ + __IO uint32_t AE : 1; /*!< the address filter module uses the MAC address1 for filtering */ + } ADDR1_HIGH_b; /*!< BitSize */ + }; + __IO uint32_t ADDR1_LOW; /*!< MAC Address1 LOW Register */ + __I uint32_t RESERVED3[44]; + + union { + __IO uint32_t MMCCR; /*!< MMC Control Register */ + + struct { + __IO uint32_t CNTRST : 1; /*!< Counters Reset */ + __IO uint32_t CNTSTOPRO : 1; /*!< Counter Stop Rollover */ + __IO uint32_t RSTONRD : 1; /*!< Reset on Read */ + __IO uint32_t CNTFREEZ : 1; /*!< MMC Counter Freeze */ + __IO uint32_t CNTPRST : 1; /*!< Counters Preset */ + __IO uint32_t CNTPRSTLVL : 1; /*!< Counters Preset */ + uint32_t : 2; + __IO uint32_t UCDBC : 1; /*!< Update MMC Counters for Dropped Broadcast Frames */ + } MMCCR_b; /*!< BitSize */ + }; + __IO uint32_t MMCRIR; /*!< MMC Receive Interrupt Register */ + __IO uint32_t MMCTIR; /*!< MMC Transmit Interrupt Register */ + __IO uint32_t MMCRIMR; /*!< MMC Receive interrupt mask */ + __IO uint32_t MMCTIMR; /*!< MMC Transmit Interrupt Mask */ + __I uint32_t RESERVED4[59]; + __IO uint32_t MMCIRCOIM; /*!< MMC IPC Receive Checksum Offload Interrupt Mask */ + __I uint32_t RESERVED5[319]; + + union { + __IO uint32_t PTPTSCR; /*!< Timestamp Control Register */ + + struct { + __IO uint32_t TSENA : 1; /*!< Timestamp Enable */ + __IO uint32_t TSCFUPDT : 1; /*!< Timestamp Fine or Coarse Update */ + __IO uint32_t TSINIT : 1; /*!< Timestamp Initialize */ + __IO uint32_t TSUPDT : 1; /*!< Timestamp Update */ + __IO uint32_t TSTRIG : 1; /*!< Timestamp Interrupt Trigger Enable */ + __IO uint32_t TSADDREG : 1; /*!< Addend Reg Update */ + } PTPTSCR_b; /*!< BitSize */ + }; + __IO uint32_t PTPSSIR; /*!< Sub-Second Increment Register */ + __IO uint32_t PTPTSHR; /*!< System Time Seconds Register */ + __IO uint32_t PTPTSLR; /*!< System Time Nanoseconds Register */ + __IO uint32_t PTPTSHUR; /*!< System Time Seconds Update Register */ + __IO uint32_t PTPTSLUR; /*!< System Time Nanoseconds Update Register */ + __IO uint32_t PTPTSAR; /*!< Timestamp Addend Register */ + __IO uint32_t PTPTTHR; /*!< Target Time Seconds Register */ + __IO uint32_t PTPTTLR; /*!< Target Time Nanoseconds Register */ + __I uint32_t RESERVED6[567]; + + union { + __IO uint32_t BUS_MODE; /*!< Flow Control Register */ + + struct { + __IO uint32_t SWR : 1; /*!< Software Reset */ + __IO uint32_t DA : 1; /*!< This bit specifies the arbitration scheme between the transmit + and receive paths of Channel */ + __IO uint32_t DSL : 5; /*!< the byte number of bus width to skip between two unchained descriptors */ + __IO uint32_t ATDS : 1; /*!< When set, the size of the alternate descriptor increases to + 32 bytes */ + __IO uint32_t PBL : 6; /*!< These bits indicate the maximum number of beats to be transferred + in one DMA transaction */ + __IO uint32_t PR : 2; /*!< The Priority Ratio is (PR + 1) : 1 */ + __IO uint32_t FB : 1; /*!< performs fixed burst transfers or not */ + __IO uint32_t RPBL : 6; /*!< This field indicates the maximum number of beats to be transferred + in one Rx DMA transaction */ + __IO uint32_t USP : 1; /*!< If set, RPBL is same as RPBL definition */ + __IO uint32_t PBLx8 : 1; /*!< If set, all PBLs multiplies 8 */ + __IO uint32_t AAL : 1; /*!< If set, all bursts aligned to the start address LS bits */ + __IO uint32_t MB : 1; /*!< When this bit is set high and the FB bit is low, the AHB master + interface starts all bursts of length more than 16 with INCR */ + __IO uint32_t TXPR : 1; /*!< When set, the transmit DMA has higher priority than the receive + DMA */ + __IO uint32_t PRWG : 2; /*!< The Priority weight is (PRWG + 1) : 1 */ + uint32_t : 1; + __IO uint32_t RIB : 1; /*!< If set, rebuilds the pending beats of any burst transfer initiated + with INCRx */ + } BUS_MODE_b; /*!< BitSize */ + }; + __IO uint32_t TPD; /*!< Transmit Poll Demand */ + __IO uint32_t RPD; /*!< Receive Poll Demand */ + __IO uint32_t RDESLA; /*!< Receive Descriptor List Address */ + __IO uint32_t TDESLA; /*!< Transmit Descriptor List Address */ + + union { + __IO uint32_t STATUS; /*!< Status Register */ + + struct { + __IO uint32_t TI : 1; /*!< This bit indicates that the frame transmission is complete */ + __IO uint32_t TPS : 1; /*!< Transmit Process Stopped */ + __IO uint32_t TU : 1; /*!< the host owns the Next Descriptor in the Transmit List and the + DMA cannot acquire it. */ + __IO uint32_t TJT : 1; /*!< Transmit Jabber Timeout */ + __IO uint32_t OVF : 1; /*!< Receive Overflow */ + __IO uint32_t UNF : 1; /*!< Transmit Underflow */ + __IO uint32_t RI : 1; /*!< the frame reception is complete */ + __IO uint32_t RU : 1; /*!< Receive Buffer Unavailable */ + __IO uint32_t RPS : 1; /*!< Receive Process Stopped */ + __IO uint32_t RWT : 1; /*!< Receive Watchdog Timeout */ + __IO uint32_t ETI : 1; /*!< the frame to be transmitted is fully transferred to the MTL + Transmit FIFO */ + uint32_t : 2; + __IO uint32_t FBI : 1; /*!< a bus error occurred, as described in EB. */ + __IO uint32_t ERI : 1; /*!< the DMA filled the first data buffer of the packet */ + __IO uint32_t AIS : 1; /*!< Abnormal Interrupt Summary, must be cleared by writting */ + __IO uint32_t NIS : 1; /*!< Normal Interrupt Summary, must be cleared by writting */ + __I uint32_t RS : 3; /*!< Receive DMA FSM state */ + __I uint32_t TS : 3; /*!< Transmit DMA FSM state */ + __I uint32_t EB : 3; /*!< Error bit */ + __I uint32_t GLI : 1; /*!< GMAC Line Interface Interrupt */ + __I uint32_t GMI : 1; /*!< GMAC MMC Interrupt */ + __I uint32_t GPI : 1; /*!< GMAC PMT Interrupt */ + __I uint32_t TTI : 1; /*!< Timestamp Trigger Interrupt */ + } STATUS_b; /*!< BitSize */ + }; + + union { + __IO uint32_t OPERATION; /*!< Operation Mode Register */ + + struct { + uint32_t : 1; + __IO uint32_t SR : 1; /*!< Start or Stop Receive */ + __IO uint32_t OSF : 1; /*!< Operate on Second Frame */ + __IO uint32_t RT : 2; /*!< Receive Threshold Control */ + __IO uint32_t DGF : 1; /*!< Drop Giant Frames */ + __IO uint32_t FUF : 1; /*!< Forward Undersized Good Frames */ + __IO uint32_t FEF : 1; /*!< Forward Error Frames */ + uint32_t : 5; + __IO uint32_t ST : 1; /*!< Start or Stop Transmission Command */ + __IO uint32_t TT : 3; /*!< Transmit Threshold Control */ + uint32_t : 3; + __IO uint32_t FTF : 1; /*!< Flush Transmit FIFO */ + __IO uint32_t TSF : 1; /*!< If set, transmission starts when a full frame resides in Transmit + FIFO */ + uint32_t : 2; + __IO uint32_t DFF : 1; /*!< Disable Flushing of Received Frames */ + __IO uint32_t RSF : 1; /*!< If set, the MTL reads a frame from the Rx FIFO while the complete + frame has been written to it, */ + } OPERATION_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INT_EN; /*!< Interrupt Enable Register */ + + struct { + __IO uint32_t TIE : 1; /*!< Transmit Interrupt Enable */ + __IO uint32_t TSE : 1; /*!< Transmit Stopped Enable */ + __IO uint32_t TUE : 1; /*!< Transmit Buffer Unavailable Enable */ + __IO uint32_t TJE : 1; /*!< Transmit Jabber Timeout Enable */ + __IO uint32_t OVE : 1; /*!< Overflow Interrupt Enable */ + __IO uint32_t UNE : 1; /*!< Underflow Interrupt Enable */ + __IO uint32_t RIE : 1; /*!< Receive Interrupt Enable */ + __IO uint32_t RUE : 1; /*!< Receive Buffer Unavailable Enable */ + __IO uint32_t RSE : 1; /*!< Receive Stopped Enable */ + __IO uint32_t RWE : 1; /*!< Receive Watchdog Timeout Enable */ + __IO uint32_t ETE : 1; /*!< Early Transmit Interrupt Enable */ + uint32_t : 2; + __IO uint32_t FBE : 1; /*!< Fatal Bus Error Enable */ + __IO uint32_t ERE : 1; /*!< Early Receive Interrupt Enable */ + __IO uint32_t AIE : 1; /*!< Abnormal Interrupt Summary Enable */ + __IO uint32_t NIE : 1; /*!< Normal Interrupt Summary Enable */ + } INT_EN_b; /*!< BitSize */ + }; + __I uint32_t RESERVED7[3]; + + union { + __IO uint32_t AHB_STATUS; /*!< AHB Status Register */ + + struct { + __IO uint32_t BUSY : 1; /*!< If set, it indicates that the AHB master interface FSMs are + in the non-idle state */ + } AHB_STATUS_b; /*!< BitSize */ + }; + __I uint32_t RESERVED8[6]; + __I uint32_t CURTDESAPTR; /*!< Current Host Transmit Descriptor Register */ + __I uint32_t CURRDESAPTR; /*!< Current Host Receive Descriptor Register */ + __I uint32_t CURTBUFAPTR; /*!< Current Host Transmit Buffer Address Register */ + __I uint32_t CURRBUFAPTR; /*!< Current Host Receive Buffer Address Register */ +} ETH_Type; + + +/* ================================================================================ */ +/* ================ USB ================ */ +/* ================================================================================ */ + + +/** + * @brief USB (USB) + */ + +typedef struct { /*!< USB Structure */ + + union { + __IO uint32_t GOTGCTL; /*!< Control and Status register */ + + struct { + __I uint32_t SES_REQ_SCS: 1; /*!< set when a session request initiation is successful as a device */ + __IO uint32_t SES_SEQ : 1; /*!< set to initiate a session request on the USB as a device */ + __IO uint32_t VB_VALID_OV_EN: 1; /*!< enable/disable the software to override the Bvalid signal using + the GOTGCTL.VbvalidOvVal as a host */ + __IO uint32_t VB_VALID_OV_VAL: 1; /*!< set Override value for vbusvalid signal when GOTGCTL.VbvalidOvEn + is set as a host */ + __IO uint32_t A_VALID_OV_EN: 1; /*!< enable/disable the software to override the Avalid signal using + the GOTGCTL.AvalidOvVal as a host */ + __IO uint32_t A_VALID_OV_VAL: 1; /*!< set Override value for Avalid signal when GOTGCTL.AvalidOvEn + is set as a host */ + __IO uint32_t B_VALID_OV_EN: 1; /*!< enable/disable the software to override the Bvalid signal using + the GOTGCTL.BvalidOvVal as a device. */ + __IO uint32_t B_VALID_OV_VAL: 1; /*!< set Override value for Bvalid signal when GOTGCTL.BvalidOvEn + is set as a device. */ + __I uint32_t HST_NEG_SCS: 1; /*!< sets when host negotiation is successful as a device. */ + __IO uint32_t HNP_REQ : 1; /*!< sets this bit to initiate an HNP request to the connected USB + host as a device */ + __IO uint32_t HST_SET_HNP_EN: 1; /*!< Host Set HNP Enable as a host */ + __IO uint32_t DEV_HNP_EN : 1; /*!< Device HNP Enabled as a device */ + uint32_t : 4; + __I uint32_t CON_ID_STS : 1; /*!< Connector ID Status */ + __I uint32_t DBNC_TIME : 1; /*!< the debounce time of a detected connection as a host */ + __I uint32_t A_SES_VLD : 1; /*!< A-Session Valid as a host */ + __I uint32_t B_SES_VLD : 1; /*!< B-Session Valid as a host */ + __IO uint32_t OTG_VER : 1; /*!< If 0, OTG Version 1.3. If 1, OTG Version 2.0. */ + } GOTGCTL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t GOTGINT; /*!< OTG interrupt Register */ + + struct { + uint32_t : 2; + __IO uint32_t SES_END_DET: 1; /*!< Set when the utmiotg_bvalid signal is deasserted */ + uint32_t : 5; + __IO uint32_t SES_REQ_SUC_STS_CHNG: 1; /*!< Session Request Success Status Change */ + __IO uint32_t HST_NEG_SUC_STS_CHNG: 1; /*!< Host Negotiation Success Status Change */ + uint32_t : 7; + __IO uint32_t HST_NEG_DET: 1; /*!< if set, detects a host negotiation request on the USB */ + __IO uint32_t A_DEV_TOUT_CHG: 1; /*!< A-device has timed out while waiting for the B-device to connect */ + __IO uint32_t DBNCE_DONE : 1; /*!< debounce is completed after the device connect as a host */ + } GOTGINT_b; /*!< BitSize */ + }; + + union { + __IO uint32_t GAHBCFG; /*!< AHB Configuration Register */ + + struct { + __IO uint32_t GLBL_INTR_EN: 1; /*!< Global Interrupt Enable */ + __IO uint32_t BST_LEN : 4; /*!< Burst Length/Type */ + __IO uint32_t DMA_EN : 1; /*!< DMA enable */ + uint32_t : 15; + __IO uint32_t REMOTE_MEM_SUPP: 1; /*!< enable the functionality to wait for the system DMA Done Signal + for the DMA Write Transfers */ + __IO uint32_t NOTIFY_ALL_DMA_WRITE: 1; /*!< enable the System DMA Done functionality for all the DMA write + Transactions corresponding to the Channel/Endpoint */ + __IO uint32_t AHB_SINGLE : 1; /*!< supports Single transfers for the remaining data in a transfer */ + } GAHBCFG_b; /*!< BitSize */ + }; + + union { + __IO uint32_t GUSBCFG; /*!< USB Configuration Register */ + + struct { + uint32_t : 3; + __IO uint32_t PHY_IF : 1; /*!< PHY Interface */ + __IO uint32_t ULPI_UTMI_SEL: 1; /*!< 1, ULPI. 0, UTMI+ */ + __IO uint32_t FS_IF : 1; /*!< 1, 3-pin bidirectional. 0, 6-pin unidirectional */ + __IO uint32_t PHY_SEL : 1; /*!< 0, USB 2.0 High-Speed PHY. 1, USB 1.1 full-speed serial transceiver */ + __IO uint32_t DDR_SEL : 1; /*!< 0, Single Data Rate ULPI Interface, with 8-bit-wide data bus. + 1, Double Data Rate ULPI Interface, with 4-bit-wide data bus */ + __IO uint32_t SRP_CAP : 1; /*!< SRP-Capable */ + __IO uint32_t HNP_CAP : 1; /*!< HNP-Capable */ + __IO uint32_t USB_TRD_TIM: 4; /*!< Specifies the response time for a MAC request to the Packet + FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM) as + a device. */ + uint32_t : 1; + __IO uint32_t PHY_LPWR_CLK_SEL: 1; /*!< 0, 480-MHz Internal PLL clock. 1, 48-MHz External Clock */ + uint32_t : 12; + __IO uint32_t TX_END_DELAY: 1; /*!< Tx End Delay as a device */ + __IO uint32_t FORCE_HOST_MODE: 1; /*!< Force Host Mode */ + __IO uint32_t FORCE_DEVICE_MODE: 1; /*!< Force Device Mode */ + } GUSBCFG_b; /*!< BitSize */ + }; + + union { + __IO uint32_t GRSTCTL; /*!< Reset Register */ + + struct { + __IO uint32_t CORE_SOFT_RST: 1; /*!< Core Soft Reset */ + uint32_t : 1; + __IO uint32_t FRM_CNT_RST: 1; /*!< Host Frame Counter Reset */ + uint32_t : 1; + __IO uint32_t RX_FIFO_FLUSH: 1; /*!< RxFIFO Flush */ + __IO uint32_t TX_FIFO_FLUSH: 1; /*!< TxFIFO Flush */ + __IO uint32_t TX_FIFO_FLUSH_NUM: 4; /*!< This field indicates which of the 32 possible PHY devices are + being accessed */ + __IO uint32_t TX_FIFO_ALL: 1; /*!< TxFIFO flush all FIFOs */ + uint32_t : 19; + __I uint32_t DMA_REQ : 1; /*!< Indicates that the DMA request is in progress */ + __I uint32_t AHB_IDLE : 1; /*!< Indicates that the AHB Master State Machine is in the IDLE condition */ + } GRSTCTL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t GINTSTS; /*!< Interrupt Register */ + + struct { + __I uint32_t CUR_MOD : 1; /*!< Current Mode of Operation */ + __IO uint32_t MODE_MIS : 1; /*!< Mode Mismatch Interrupt */ + __I uint32_t OTG_INT : 1; /*!< OTG Interrupt */ + __IO uint32_t SOF : 1; /*!< Start of (micro)Frame */ + __I uint32_t RFNE : 1; /*!< RxFIFO Non-Empty */ + __I uint32_t NPTFE : 1; /*!< Non-periodic TxFIFO Empty */ + __I uint32_t GIN_NAK_EFF: 1; /*!< Global IN Non-periodic NAK Effective as a device */ + __I uint32_t GOUT_NAK_EFF: 1; /*!< Global OUT NAK Effective as a device */ + uint32_t : 2; + __IO uint32_t EARLY_SUS : 1; /*!< an Idle state has been detected on the USB For 3 ms as a device */ + __IO uint32_t USB_SUS : 1; /*!< A suspend was detected on the USB as a device */ + __IO uint32_t USB_RST : 1; /*!< A reset is detected on the USB as a device */ + __IO uint32_t ENUM_DONE : 1; /*!< speed enumeration is complete as a device */ + __IO uint32_t ISO_OUT_DROP: 1; /*!< Drop an isochronous OUT packet while no space in RXFIFO as a + device */ + __IO uint32_t EOPF : 1; /*!< End of Periodic Frame Interrupt as a device */ + uint32_t : 1; + __I uint32_t EP_MIS : 1; /*!< Endpoint Mismatch Interrupt as a device */ + __I uint32_t IEP_INT : 1; /*!< IN Endpoints Interrupt as a device */ + __I uint32_t OEP_INT : 1; /*!< OUT Endpoints Interrupt as a device */ + __IO uint32_t INCOMP_ISO_IN: 1; /*!< Incomplete Isochronous IN Transfer as a device */ + __IO uint32_t IPT_IIOT : 1; /*!< OUT Incomplete Periodic Transfer as a host or Incomplete Isochronous + OUT Transfer as a device */ + __IO uint32_t DFS : 1; /*!< Data Fetch Suspended as a device */ + __IO uint32_t RST_DET : 1; /*!< reset detect as a device */ + __I uint32_t HP : 1; /*!< a change in port status of one of the DWC_otg core ports as + a host */ + __I uint32_t HC : 1; /*!< an interrupt is pending on one of the channels of the core as + a host */ + __I uint32_t PTFE : 1; /*!< Periodic TxFIFO Empty as a host */ + __IO uint32_t LPM : 1; /*!< LPM Transaction Received Interrupt */ + __IO uint32_t CIDSC : 1; /*!< A change in connector ID status */ + __IO uint32_t DD : 1; /*!< A change in connector ID status */ + __IO uint32_t SR : 1; /*!< Session Request/New Session Detected Interrupt */ + __IO uint32_t WAKEUP : 1; /*!< Resume/Remote Wakeup Detected Interrupt */ + } GINTSTS_b; /*!< BitSize */ + }; + + union { + __IO uint32_t GINTEN; /*!< Interrupt enable Register */ + + struct { + uint32_t : 1; + __IO uint32_t MODE_MIS : 1; /*!< Mode Mismatch */ + __IO uint32_t OTG_INT : 1; /*!< OTG */ + __IO uint32_t SOF : 1; /*!< Start of (micro)Frame */ + __IO uint32_t RFNE : 1; /*!< RxFIFO Non-Empty */ + __IO uint32_t NPTFE : 1; /*!< Non-periodic TxFIFO Empty */ + __IO uint32_t GIN_NAK_EFF: 1; /*!< Global IN Non-periodic NAK Effective as a device */ + __IO uint32_t GOUT_NAK_EFF: 1; /*!< Global OUT NAK Effective as a device */ + uint32_t : 2; + __IO uint32_t EARLY_SUS : 1; /*!< an Idle state has been detected on the USB For 3 ms as a device */ + __IO uint32_t USB_SUS : 1; /*!< A suspend was detected on the USB as a device */ + __IO uint32_t USB_RST : 1; /*!< A reset is detected on the USB as a device */ + __IO uint32_t ENUM_DONE : 1; /*!< speed enumeration is complete as a device */ + __IO uint32_t ISO_OUT_DROP: 1; /*!< Drop an isochronous OUT packet while no space in RXFIFO as a + device */ + __IO uint32_t EOPF : 1; /*!< End of Periodic Frame Interrupt as a device */ + uint32_t : 1; + __IO uint32_t EP_MIS : 1; /*!< Endpoint Mismatch Interrupt as a device */ + __IO uint32_t IEP_INT : 1; /*!< IN Endpoints Interrupt as a device */ + __IO uint32_t OEP_INT : 1; /*!< OUT Endpoints Interrupt as a device */ + __IO uint32_t INCOMP_ISO_IN: 1; /*!< Incomplete Isochronous IN Transfer as a device */ + __IO uint32_t IPT_IIOT : 1; /*!< OUT Incomplete Periodic Transfer as a host or Incomplete Isochronous + OUT Transfer as a device */ + __IO uint32_t DFS : 1; /*!< Data Fetch Suspended as a device */ + __IO uint32_t RST_DET : 1; /*!< reset detect as a device */ + __IO uint32_t HP : 1; /*!< a change in port status of one of the DWC_otg core ports as + a host */ + __IO uint32_t HC : 1; /*!< an interrupt is pending on one of the channels of the core as + a host */ + __IO uint32_t PTFE : 1; /*!< Periodic TxFIFO Empty as a host */ + __IO uint32_t LPM : 1; /*!< LPM Transaction Received Interrupt */ + __IO uint32_t CIDSC : 1; /*!< A change in connector ID status */ + __IO uint32_t DD : 1; /*!< A change in connector ID status */ + __IO uint32_t SR : 1; /*!< Session Request/New Session Detected Interrupt */ + __IO uint32_t WAKEUP : 1; /*!< Resume/Remote Wakeup Detected Interrupt */ + } GINTEN_b; /*!< BitSize */ + }; + + union { + __I uint32_t GRXSTSR; /*!< Returns the contents of the top of the Receive FIFO */ + + struct { + __I uint32_t CH_EP_NUM : 4; /*!< channel number as a host or EP number as a device */ + __I uint32_t BCNT : 11; /*!< byte count of the received packet */ + __I uint32_t DPID : 2; /*!< Data PID of the received packet */ + __I uint32_t PS : 4; /*!< the status of the received packet */ + __I uint32_t FN : 4; /*!< the least significant 4 bits of the (micro)frame number in which + the packet is received on the USB */ + } GRXSTSR_b; /*!< BitSize */ + }; + + union { + __I uint32_t GRXSTSP; /*!< Pop the contents of the top of the Receive FIFO */ + + struct { + __I uint32_t CH_EP_NUM : 4; /*!< channel number as a host or EP number as a device */ + __I uint32_t BCNT : 11; /*!< byte count of the received packet */ + __I uint32_t DPID : 2; /*!< Data PID of the received packet */ + __I uint32_t PS : 4; /*!< the status of the received packet */ + __I uint32_t FN : 4; /*!< the least significant 4 bits of the (micro)frame number in which + the packet is received on the USB */ + } GRXSTSP_b; /*!< BitSize */ + }; + __IO uint16_t GRXFSIZ; /*!< This value is in terms of 32-bit words, 16 is minimize and 32768 + is max */ + __I uint16_t RESERVED0; + + union { + __IO uint32_t GNPTXFSIZ; /*!< Non-Periodic Transmit FIFO Size Register */ + + struct { + __IO uint32_t NTRSA_INEF0TRSA: 16; /*!< start address for Non-periodic Transmit FIFO RAM as a host or + IN Endpoint FIFO0 Transmit RAM as a device */ + __IO uint32_t NTD_INEF0TD: 16; /*!< This value is in terms of 32-bit words, 16 is minimize and 32768 + is max. Non-periodic TxFIFO Depth as a host or IN Endpoint TxFIFO + 0 Depth as a device */ + } GNPTXFSIZ_b; /*!< BitSize */ + }; + + union { + __I uint32_t GNPTXSTS; /*!< Non-Periodic Transmit FIFO/Queue Status Register */ + + struct { + __I uint32_t NTSA : 16; /*!< the amount of free space available in the Non-periodic TxFIFO, + max is 32768. */ + __I uint32_t NTRQSA : 8; /*!< the amount of free space available in the Non-periodic Transmit + Request Queue, max is 8. */ + __I uint32_t TNTRQ_LAST : 1; /*!< last Entry in the Non-periodic Tx Request Queue that is currently + being processed by the MAC */ + __I uint32_t TNTRQ_TYPE : 2; /*!< type in the Non-periodic Tx Request Queue that is currently + being processed by the MAC */ + __I uint32_t TNTRQ_CH : 4; /*!< Channel of top of the Non-periodic Transmit Request Queue */ + } GNPTXSTS_b; /*!< BitSize */ + }; + __I uint32_t RESERVED1[5]; + + union { + __I uint32_t GHWCFG1; /*!< User HW Config1 Register */ + + struct { + __I uint32_t EP0_DIR : 2; /*!< Endpoint 0 direction, always Bidirection */ + __I uint32_t EP1_DIR : 2; /*!< Endpoint 1 direction */ + __I uint32_t EP2_DIR : 2; /*!< Endpoint 2 direction */ + __I uint32_t EP3_DIR : 2; /*!< Endpoint 3 direction */ + __I uint32_t EP4_DIR : 2; /*!< Endpoint 4 direction */ + __I uint32_t EP5_DIR : 2; /*!< Endpoint 5 direction */ + __I uint32_t EP6_DIR : 2; /*!< Endpoint 6 direction */ + __I uint32_t EP7_DIR : 2; /*!< Endpoint 7 direction */ + __I uint32_t EP8_DIR : 2; /*!< Endpoint 8 direction */ + __I uint32_t EP9_DIR : 2; /*!< Endpoint 9 direction */ + __I uint32_t EP10_DIR : 2; /*!< Endpoint 10 direction */ + __I uint32_t EP11_DIR : 2; /*!< Endpoint 11 direction */ + __I uint32_t EP12_DIR : 2; /*!< Endpoint 12 direction */ + __I uint32_t EP13_DIR : 2; /*!< Endpoint 13 direction */ + __I uint32_t EP14_DIR : 2; /*!< Endpoint 14 direction */ + __I uint32_t EP15_DIR : 2; /*!< Endpoint 15 direction */ + } GHWCFG1_b; /*!< BitSize */ + }; + __I uint32_t RESERVED2[3]; + + union { + __IO uint32_t GLPMCFG; /*!< Core LPM Configuration Register */ + + struct { + __IO uint32_t EP0_DIR : 1; /*!< LPM capability is enabled */ + } GLPMCFG_b; /*!< BitSize */ + }; + + union { + __IO uint32_t GPWRDN; /*!< Global Power Down Register */ + + struct { + uint32_t : 1; + __IO uint32_t PMU_ACTIVE : 1; /*!< PMU Active is enabled */ + uint32_t : 1; + __IO uint32_t PDC : 1; /*!< Power Down Clamp is enabled */ + __IO uint32_t PDR : 1; /*!< If clear, Reset DWC_otg */ + __IO uint32_t PDS : 1; /*!< If 0, DWC_otg is in ON state, or OFF state */ + __IO uint32_t DIS_VBUS : 1; /*!< Disable VBUS */ + uint32_t : 8; + __IO uint32_t SRP_DETECT_INT: 1; /*!< SRP has been detected by the PMU as a host */ + __IO uint32_t SRP_DETECT_INT_EN: 1; /*!< Enable For SRPDetect Interrupt as a host */ + __IO uint32_t STATE_CHN_INT: 1; /*!< a status change in either the IDDIG or BSessVld signal */ + __IO uint32_t STATE_CHN_INT_EN: 1; /*!< Enable For Status Change Interrupt */ + __I uint32_t LINE_STATE : 2; /*!< the current linestate on USB as seen by the PMU module */ + __I uint32_t IDDIG : 1; /*!< the status of the IDDIG signal. If 0, host mode. if 1, device + mode */ + __I uint32_t B_SESS_VLD : 1; /*!< B session valid status signal from the PHY */ + __IO uint32_t ADP_INT : 1; /*!< set whenever there is a ADP event */ + } GPWRDN_b; /*!< BitSize */ + }; + + union { + __IO uint32_t GDFIFOCFG; /*!< Global DFIFO Software Config Register */ + + struct { + __IO uint32_t GDFIFOCFG : 16; /*!< This field is for dynamic programming of the DFIFO Size. */ + __IO uint32_t EPIBA : 16; /*!< This field provides the start address of the EP info controller */ + } GDFIFOCFG_b; /*!< BitSize */ + }; + __I uint32_t RESERVED3[40]; + + union { + __IO uint32_t HPTXFSIZ; /*!< Host Periodic Transmit FIFO Size Register */ + + struct { + __IO uint32_t HPTSA : 16; /*!< start address of the Periodic TxFIFO */ + __IO uint32_t EPIBA : 16; /*!< the size of the Periodic TxFIFO */ + } HPTXFSIZ_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF1; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF2; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF2_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF3; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF3_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF4; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF4_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF5; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF5_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF6; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF6_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF7; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF7_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF8; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF8_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF9; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF9_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF10; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF10_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF11; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF11_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF12; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF12_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF13; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF13_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF14; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF14_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DIEPTXF15; /*!< Device In Endpoint Transmit FIFO Size Register */ + + struct { + __IO uint32_t INEFTRSA : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t INETFD : 16; /*!< IN Endpoint TxFIFO Depth */ + } DIEPTXF15_b; /*!< BitSize */ + }; + __I uint32_t RESERVED4[176]; + + union { + __IO uint32_t HCFG; /*!< Host Configuration Register */ + + struct { + __IO uint32_t FS_LS_PCS : 2; /*!< FS/LS PHY Clock Select as a host */ + __IO uint32_t FS_LS_SUPPORT: 1; /*!< If set, FS/LS-only, even If the connected device can support + HS */ + uint32_t : 4; + __IO uint32_t EN_32K_SUS : 1; /*!< Enable 32 KHz Suspend mode */ + __IO uint32_t RVP : 8; /*!< ResValid number of clock cycles to detect a valid resume */ + uint32_t : 7; + __IO uint32_t EN_SG_DMA : 1; /*!< Enable Scatter/gather DMA in Host mode */ + __IO uint32_t FLE : 2; /*!< the number of entries in the Frame list. 8 times of FLE */ + __IO uint32_t EPS : 1; /*!< Enables periodic scheduling */ + uint32_t : 4; + __IO uint32_t MCRTE : 1; /*!< enable/disable the Host core to wait 200 PHY clock cycles at + the end of Resume to change the opmode signal to the PHY to + 00 after Suspend or LPM. */ + } HCFG_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HFIR; /*!< Host Frame Interval Register */ + + struct { + __IO uint32_t FI : 16; /*!< IN Endpoint FIFOn Transmit RAM Start Address */ + __IO uint32_t RC : 1; /*!< The HFIR can be dynamically reloaded during runtime if set */ + } HFIR_b; /*!< BitSize */ + }; + + union { + __I uint32_t HFNUM; /*!< Host Frame Number/Frame Time Remaining Register */ + + struct { + __I uint32_t FN : 16; /*!< This field increments when a new SOF is transmitted on the USB */ + __I uint32_t FTR : 16; /*!< amount of time remaining in the current microframe (HS) or Frame + (FS/LS), in terms of PHY clocks */ + } HFNUM_b; /*!< BitSize */ + }; + __I uint32_t RESERVED5; + + union { + __I uint32_t HPTXSTS; /*!< Host Periodic Transmit FIFO/Queue Status Register */ + + struct { + __I uint32_t PTDFSA : 16; /*!< Indicates the number of free locations available to be written + to in the Periodic TxFIFO, max is 32768 */ + __I uint32_t PTRQSA : 8; /*!< Indicates the number of free locations available to be written + in the Periodic Transmit Request Queue, max is 16 */ + __I uint32_t TPTRQ_LAST : 1; /*!< last Entry in the periodic Tx Request Queue that is currently + being processed by the MAC */ + __I uint32_t TPTRQ_TYPE : 2; /*!< type in the periodic Tx Request Queue that is currently being + processed by the MAC */ + __I uint32_t TPTRQ_CH : 4; /*!< Channel of top of the periodic Transmit Request Queue */ + __I uint32_t TPTRQ_ODD_FRAME: 1; /*!< If set, send in odd (micro)Frame */ + } HPTXSTS_b; /*!< BitSize */ + }; + + union { + __I uint32_t HAINT; /*!< Host All Channels Interrupt Register */ + + struct { + __I uint32_t INT : 16; /*!< Channel Interrupts, from 0 to 15. */ + } HAINT_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HAINT_EN; /*!< Host All Channels Interrupt Enable Register */ + + struct { + __IO uint32_t EN : 16; /*!< Channel Interrupts Enable, from 0 to 15. */ + } HAINT_EN_b; /*!< BitSize */ + }; + __IO uint32_t HFLBA; /*!< The starting address of the Frame list */ + __I uint32_t RESERVED6[8]; + + union { + __IO uint32_t __HPRT; /*!< Host Port Control and Status Register */ + + struct { + __I uint32_t PCS : 1; /*!< If a device is attached to the port */ + __IO uint32_t PCD : 1; /*!< A device connection is detected */ + __IO uint32_t PE : 1; /*!< Port Enable */ + __IO uint32_t PEDC : 1; /*!< Set if when the status of the Port Enable (bit 2) of this register + changes */ + __I uint32_t POA : 1; /*!< Indicates the overcurrent condition of the port */ + __IO uint32_t POC : 1; /*!< Set if when the status of the Port Overcurrent Active bit (bit + 4) in this register changes */ + __IO uint32_t PR : 1; /*!< Application and Core all can perform resume by setting, then + clear it whatever resume is success or not */ + __IO uint32_t PS : 1; /*!< Sets this bit to put this port in Suspend mode */ + __IO uint32_t PRESET : 1; /*!< sets this bit, a reset sequence is started on this port */ + uint32_t : 1; + __IO uint32_t PLSDP : 1; /*!< Logic level of D+ */ + __IO uint32_t PLSDN : 1; /*!< Logic level of D- */ + __IO uint32_t PP : 1; /*!< this field to control power to this port. 1, power on */ + __IO uint32_t PTC : 4; /*!< The application writes a nonzero value to this field to put + the port into a Test mode */ + __I uint32_t SPEED : 2; /*!< Indicates the speed of the device attached to this port */ + } __HPRT_b; /*!< BitSize */ + }; + __I uint32_t RESERVED7[47]; + + union { + __IO uint32_t HCC0; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC0_b; /*!< BitSize */ + }; + __I uint32_t RESERVED8; + + union { + __IO uint32_t HCINT0; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN0; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ0; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA0; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA0_b; /*!< BitSize */ + }; + __I uint32_t RESERVED9; + __IO uint32_t HCDMAB0; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC1; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC1_b; /*!< BitSize */ + }; + __I uint32_t RESERVED10; + + union { + __IO uint32_t HCINT1; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN1; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ1; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA1; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA1_b; /*!< BitSize */ + }; + __I uint32_t RESERVED11; + __IO uint32_t HCDMAB1; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC2; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC2_b; /*!< BitSize */ + }; + __I uint32_t RESERVED12; + + union { + __IO uint32_t HCINT2; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT2_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN2; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN2_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ2; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ2_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA2; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA2_b; /*!< BitSize */ + }; + __I uint32_t RESERVED13; + __IO uint32_t HCDMAB2; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC3; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC3_b; /*!< BitSize */ + }; + __I uint32_t RESERVED14; + + union { + __IO uint32_t HCINT3; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT3_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN3; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN3_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ3; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ3_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA3; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA3_b; /*!< BitSize */ + }; + __I uint32_t RESERVED15; + __IO uint32_t HCDMAB3; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC4; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC4_b; /*!< BitSize */ + }; + __I uint32_t RESERVED16; + + union { + __IO uint32_t HCINT4; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT4_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN4; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN4_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ4; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ4_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA4; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA4_b; /*!< BitSize */ + }; + __I uint32_t RESERVED17; + __IO uint32_t HCDMAB4; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC5; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC5_b; /*!< BitSize */ + }; + __I uint32_t RESERVED18; + + union { + __IO uint32_t HCINT5; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT5_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN5; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN5_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ5; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ5_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA5; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA5_b; /*!< BitSize */ + }; + __I uint32_t RESERVED19; + __IO uint32_t HCDMAB5; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC6; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC6_b; /*!< BitSize */ + }; + __I uint32_t RESERVED20; + + union { + __IO uint32_t HCINT6; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT6_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN6; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN6_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ6; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ6_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA6; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA6_b; /*!< BitSize */ + }; + __I uint32_t RESERVED21; + __IO uint32_t HCDMAB6; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC7; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC7_b; /*!< BitSize */ + }; + __I uint32_t RESERVED22; + + union { + __IO uint32_t HCINT7; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT7_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN7; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN7_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ7; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ7_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA7; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA7_b; /*!< BitSize */ + }; + __I uint32_t RESERVED23; + __IO uint32_t HCDMAB7; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC8; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC8_b; /*!< BitSize */ + }; + __I uint32_t RESERVED24; + + union { + __IO uint32_t HCINT8; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT8_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN8; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN8_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ8; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ8_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA8; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA8_b; /*!< BitSize */ + }; + __I uint32_t RESERVED25; + __IO uint32_t HCDMAB8; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC9; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC9_b; /*!< BitSize */ + }; + __I uint32_t RESERVED26; + + union { + __IO uint32_t HCINT9; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT9_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN9; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN9_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ9; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ9_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA9; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA9_b; /*!< BitSize */ + }; + __I uint32_t RESERVED27; + __IO uint32_t HCDMAB9; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC10; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC10_b; /*!< BitSize */ + }; + __I uint32_t RESERVED28; + + union { + __IO uint32_t HCINT10; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT10_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN10; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN10_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ10; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ10_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA10; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA10_b; /*!< BitSize */ + }; + __I uint32_t RESERVED29; + __IO uint32_t HCDMAB10; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC11; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC11_b; /*!< BitSize */ + }; + __I uint32_t RESERVED30; + + union { + __IO uint32_t HCINT11; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT11_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN11; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN11_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ11; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ11_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA11; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA11_b; /*!< BitSize */ + }; + __I uint32_t RESERVED31; + __IO uint32_t HCDMAB11; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC12; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC12_b; /*!< BitSize */ + }; + __I uint32_t RESERVED32; + + union { + __IO uint32_t HCINT12; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT12_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN12; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN12_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ12; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ12_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA12; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA12_b; /*!< BitSize */ + }; + __I uint32_t RESERVED33; + __IO uint32_t HCDMAB12; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC13; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC13_b; /*!< BitSize */ + }; + __I uint32_t RESERVED34; + + union { + __IO uint32_t HCINT13; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT13_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN13; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN13_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ13; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ13_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA13; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA13_b; /*!< BitSize */ + }; + __I uint32_t RESERVED35; + __IO uint32_t HCDMAB13; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC14; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC14_b; /*!< BitSize */ + }; + __I uint32_t RESERVED36; + + union { + __IO uint32_t HCINT14; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT14_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN14; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN14_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ14; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ14_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA14; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA14_b; /*!< BitSize */ + }; + __I uint32_t RESERVED37; + __IO uint32_t HCDMAB14; /*!< Host Channel-n DMA Buffer Address Register */ + + union { + __IO uint32_t HCC15; /*!< Host Channel Characteristics Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + __IO uint32_t EP_NUM : 4; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t EP_DIR : 1; /*!< Indicates whether the transaction is IN or OUT. 0, OUT. 1, IN */ + uint32_t : 1; + __IO uint32_t LSD : 1; /*!< indicate that this channel is communicating to a low-speed device. */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 2; /*!< Multi Count (MC) / Error Count (EC). */ + __IO uint32_t DA : 7; /*!< This field selects the specific device serving as the data source + or sink. */ + __IO uint32_t OF : 1; /*!< The frame is odd or even. */ + __IO uint32_t CD : 1; /*!< sets this bit to stop transmitting/receiving data on a channel. */ + __IO uint32_t CE : 1; /*!< If the descriptor structure and data buffer are ready or not + yet. */ + } HCC15_b; /*!< BitSize */ + }; + __I uint32_t RESERVED38; + + union { + __IO uint32_t HCINT15; /*!< Host Channel Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT15_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCINT_EN15; /*!< Host Channel Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t CH_HALT : 1; /*!< Indicates the endpoint number on the device serving as the data + source or sink. */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + uint32_t : 8; + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + __IO uint32_t ETE : 1; /*!< 3 consecutive transaction errors occurred on the USB bus */ + __IO uint32_t DR : 1; /*!< the corresponding channel's descriptor list rolls over */ + } HCINT_EN15_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCTSIZ15; /*!< Host Channel Transfer Size Register */ + + struct { + __IO uint32_t SCHED_INFO : 8; /*!< Every bit in this 8 bit register indicates scheduling for that + microframe.Bit N indicates scheduling for Nth microframe scheduling + for 8th microframe in that frame. */ + __IO uint32_t NTD : 8; /*!< Number of Transfer Descriptors. */ + uint32_t : 13; + __IO uint32_t PID : 2; /*!< the type of PID to use for the initial transaction */ + __IO uint32_t PING : 1; /*!< Setting this field to 1 directs the host to do PING protocol */ + } HCTSIZ15_b; /*!< BitSize */ + }; + + union { + __IO uint32_t HCDMA15; /*!< Host Channel-n DMA Address Register */ + + struct { + uint32_t : 3; + __IO uint32_t CTD : 6; /*!< Number of Transfer Descriptors for Non-Isochronous */ + __IO uint32_t ADDR : 23; /*!< he start address of 512 bytes page for Non-Isochronous */ + } HCDMA15_b; /*!< BitSize */ + }; + __I uint32_t RESERVED39; + __IO uint32_t HCDMAB15; /*!< Host Channel-n DMA Buffer Address Register */ + __I uint32_t RESERVED40[64]; + + union { + __IO uint32_t DCFG; /*!< Device Configuration Register */ + + struct { + __IO uint32_t DSPEED : 2; /*!< the maximum speed the application can support */ + __IO uint32_t NZLSOH : 1; /*!< select the handshake the core sends on receiving a non zero-length + data packet during the OUT transaction of a control transfer's + Status stage */ + __IO uint32_t EN_32K_SUS : 1; /*!< Enable 32 KHz Suspend mode */ + __IO uint32_t DEVICE_ADDR: 7; /*!< The application must program this field after every SetAddress + control command */ + __IO uint32_t PFI : 2; /*!< Indicates the time within a (micro)frame at which the application + must be notified using the End Of Periodic Frame Interrupt */ + __IO uint32_t EDON : 1; /*!< If set the core sets NAK after Bulk OUT transfer complete */ + uint32_t : 9; + __IO uint32_t EN_SG_DMA : 1; /*!< enable the Scatter/Gather DMA operation */ + __IO uint32_t PSI : 2; /*!< Periodic Scheduling Interval */ + __IO uint32_t RVP : 6; /*!< It controls the resume period when the core resumes from suspend */ + } DCFG_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DCTL; /*!< Device Control Register */ + + struct { + __IO uint32_t RWS : 1; /*!< If set, the core initiates remote signaling to wake the USB + hosts */ + __IO uint32_t SD : 1; /*!< If set, generates a device disconnect event to the USB host */ + __I uint32_t GNPINS : 1; /*!< A NAK handshake is sent out on all non-periodic IN endpoints, + irrespective of the data availability in the transmit FIFO. */ + __I uint32_t GONS : 1; /*!< No data is written to the RxFIFO, irrespective of space availability.. */ + __IO uint32_t TC : 3; /*!< Test Control */ + __O uint32_t SGNPIN : 1; /*!< A write to this field sets the Global Non-periodic IN NAK */ + __O uint32_t CGNPIN : 1; /*!< A write to this field clears the Global Non-periodic IN NAK */ + __O uint32_t SGON : 1; /*!< A write to this field sets the Global OUT NAK */ + __O uint32_t CGON : 1; /*!< A write to this field sets the Global OUT NAK. */ + __IO uint32_t POPD : 1; /*!< Power-On Programming Done */ + __IO uint32_t GMC : 2; /*!< GMC must be programmed only once after initialization. the number + of packets to be serviced for that end point before moving to + the next end point */ + uint32_t : 1; + __IO uint32_t IFNIE : 1; /*!< Ignore frame number for isochronous endpoints */ + __IO uint32_t NBE : 1; /*!< Set NAK automatically on babble */ + __IO uint32_t ECBNA : 1; /*!< After receiving BNA interrupt, the core disables the endpoint */ + } DCTL_b; /*!< BitSize */ + }; + + union { + __I uint32_t DSTS; /*!< Device Status Register */ + + struct { + __I uint32_t SUSPEND : 1; /*!< this bit is set as long as a Suspend condition is detected on + the USB */ + __I uint32_t SPEED : 2; /*!< Indicates the speed at which the DWC_otg core has come up after + speed detection through a chirp sequence */ + __I uint32_t EE : 1; /*!< reason of suspend state */ + uint32_t : 4; + __I uint32_t SOFFN : 14; /*!< Frame or Microframe Number of the Received SOF */ + __I uint32_t DLSDP : 1; /*!< Logic level of D+ */ + __I uint32_t DLSDN : 1; /*!< Logic level of D- */ + } DSTS_b; /*!< BitSize */ + }; + __I uint32_t RESERVED41; + + union { + __IO uint32_t DIEPEN; /*!< Device IN Endpoint Common Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer Completed Interrupt */ + __IO uint32_t ED : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< AHB Error Interrupt */ + __IO uint32_t TIMEOUT : 1; /*!< Timeout Condition(Non-isochronous endpoints) */ + __IO uint32_t ITRWTFE : 1; /*!< IN Token Received When TxFIFO Empty */ + __IO uint32_t ITRWEPM : 1; /*!< IN Token received with EP Mismatch */ + __IO uint32_t IENE : 1; /*!< IN Endpoint NAK Effective */ + uint32_t : 1; + __IO uint32_t FU : 1; /*!< Fifo Underrun */ + __IO uint32_t BNA : 1; /*!< BNA Interrupt */ + uint32_t : 3; + __IO uint32_t NAK : 1; /*!< NAK interrupt */ + } DIEPEN_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DOEPEN; /*!< Device OUT Endpoint Common Interrupt Enable Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer Completed Interrupt */ + __IO uint32_t ED : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< AHB Error Interrupt */ + __IO uint32_t SPD : 1; /*!< SETUP Phase Done, Applies to control endpoints only */ + __IO uint32_t OTRWED : 1; /*!< OUT Token Received when Endpoint Disabled, Applies to control + OUT endpoints only */ + __IO uint32_t SPR : 1; /*!< Status Phase Received */ + __IO uint32_t BTBSPR : 1; /*!< Back-to-Back SETUP Packets Received, Applies to control OUT + endpoints only */ + uint32_t : 1; + __IO uint32_t OPE : 1; /*!< OUT Packet Error */ + __IO uint32_t BNA : 1; /*!< BNA Interrupt */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error interrupt */ + __IO uint32_t NAK : 1; /*!< NAK interrupt */ + __IO uint32_t NYET : 1; /*!< NYET interrupt */ + } DOEPEN_b; /*!< BitSize */ + }; + + union { + __I uint32_t DAINT; /*!< Device All Channels Interrupt Register */ + + struct { + __I uint32_t INT : 16; /*!< IN Endpoint Interrupt Bits, from 0 to 15. */ + __I uint32_t OUT_INT : 16; /*!< OUT Endpoint Interrupt Bits, from 0 to 15. */ + } DAINT_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DAINT_EN; /*!< Device All Channels Interrupt Enable Register */ + + struct { + __IO uint32_t IN_EN : 16; /*!< IN EP Interrupt Enable, from 0 to 15. */ + __IO uint32_t OUT_EN : 16; /*!< OUT EP Interrupt Enable, from 0 to 15. */ + } DAINT_EN_b; /*!< BitSize */ + }; + __I uint32_t RESERVED42[4]; + + union { + __IO uint32_t DTHRCTL; /*!< Device Threshold Control Register */ + + struct { + __IO uint32_t NISOINETE : 1; /*!< Non-ISO IN Endpoints Threshold Enable */ + __IO uint32_t ISOINETE : 1; /*!< ISO IN Endpoints Threshold Enable */ + __IO uint32_t TTL : 9; /*!< This field specifies Transmit thresholding size in DWORDS */ + __IO uint32_t ATR : 2; /*!< These bits define the ratio between the AHB threshold and the + MAC threshold for the transmit path only. */ + uint32_t : 3; + __IO uint32_t RTE : 1; /*!< If set, the core enables thresholding in the receive direction */ + __IO uint32_t RTL : 9; /*!< This field specifies Receive thresholding size in DWORDS */ + uint32_t : 1; + __IO uint32_t APE : 1; /*!< This bit controls internal DMA arbiter parking for IN endpoints */ + } DTHRCTL_b; /*!< BitSize */ + }; + __IO uint16_t DIEPEMPEN; /*!< Device IN Endpoint FIFO Empty Interrupt Enable Register */ + __I uint16_t RESERVED43[101]; + + union { + __IO uint32_t DIEPCTL0; /*!< Device Control IN Endpoint 0 Control Register */ + + struct { + __IO uint32_t MPS : 2; /*!< Indicates the maximum packet size of the associated endpoint, + applies to IN and OUT endpoints */ + uint32_t : 13; + __I uint32_t USBAE : 1; /*!< Always 1, indicating that control endpoint 0 is always active + in all configurations and interfaces */ + uint32_t : 1; + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint */ + __I uint32_t EP_TYPE : 2; /*!< Hardcoded to 00 for control */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< The application sets this bit, and the core clears it when a + SETUP token is received for this endpoint */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + uint32_t : 2; + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL0_b; /*!< BitSize */ + }; + __I uint32_t RESERVED44; + + union { + __IO uint32_t DIEPINT0; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT0_b; /*!< BitSize */ + }; + __I uint32_t RESERVED45; + + union { + __IO uint32_t DIEPTSIZ0; /*!< Device IN Endpoint 0 Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 7; /*!< Indicates the transfer size in bytes for endpoint 0 */ + uint32_t : 12; + __IO uint32_t PACKET_CNT : 2; /*!< the total number of USB packets */ + } DIEPTSIZ0_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA0; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA0; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED46; + __I uint32_t DIEPDMAB0; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL1; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL1_b; /*!< BitSize */ + }; + __I uint32_t RESERVED47; + + union { + __IO uint32_t DIEPINT1; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT1_b; /*!< BitSize */ + }; + __I uint32_t RESERVED48; + + union { + __IO uint32_t DIEPTSIZ1; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ1_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA1; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA1; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED49; + __I uint32_t DIEPDMAB1; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL2; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL2_b; /*!< BitSize */ + }; + __I uint32_t RESERVED50; + + union { + __IO uint32_t DIEPINT2; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT2_b; /*!< BitSize */ + }; + __I uint32_t RESERVED51; + + union { + __IO uint32_t DIEPTSIZ2; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ2_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA2; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA2; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED52; + __I uint32_t DIEPDMAB2; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL3; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL3_b; /*!< BitSize */ + }; + __I uint32_t RESERVED53; + + union { + __IO uint32_t DIEPINT3; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT3_b; /*!< BitSize */ + }; + __I uint32_t RESERVED54; + + union { + __IO uint32_t DIEPTSIZ3; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ3_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA3; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA3; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED55; + __I uint32_t DIEPDMAB3; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL4; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL4_b; /*!< BitSize */ + }; + __I uint32_t RESERVED56; + + union { + __IO uint32_t DIEPINT4; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT4_b; /*!< BitSize */ + }; + __I uint32_t RESERVED57; + + union { + __IO uint32_t DIEPTSIZ4; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ4_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA4; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA4; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED58; + __I uint32_t DIEPDMAB4; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL5; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL5_b; /*!< BitSize */ + }; + __I uint32_t RESERVED59; + + union { + __IO uint32_t DIEPINT5; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT5_b; /*!< BitSize */ + }; + __I uint32_t RESERVED60; + + union { + __IO uint32_t DIEPTSIZ5; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ5_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA5; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA5; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED61; + __I uint32_t DIEPDMAB5; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL6; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL6_b; /*!< BitSize */ + }; + __I uint32_t RESERVED62; + + union { + __IO uint32_t DIEPINT6; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT6_b; /*!< BitSize */ + }; + __I uint32_t RESERVED63; + + union { + __IO uint32_t DIEPTSIZ6; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ6_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA6; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA6; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED64; + __I uint32_t DIEPDMAB6; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL7; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL7_b; /*!< BitSize */ + }; + __I uint32_t RESERVED65; + + union { + __IO uint32_t DIEPINT7; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT7_b; /*!< BitSize */ + }; + __I uint32_t RESERVED66; + + union { + __IO uint32_t DIEPTSIZ7; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ7_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA7; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA7; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED67; + __I uint32_t DIEPDMAB7; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL8; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL8_b; /*!< BitSize */ + }; + __I uint32_t RESERVED68; + + union { + __IO uint32_t DIEPINT8; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT8_b; /*!< BitSize */ + }; + __I uint32_t RESERVED69; + + union { + __IO uint32_t DIEPTSIZ8; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ8_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA8; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA8; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED70; + __I uint32_t DIEPDMAB8; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL9; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL9_b; /*!< BitSize */ + }; + __I uint32_t RESERVED71; + + union { + __IO uint32_t DIEPINT9; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT9_b; /*!< BitSize */ + }; + __I uint32_t RESERVED72; + + union { + __IO uint32_t DIEPTSIZ9; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ9_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA9; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA9; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED73; + __I uint32_t DIEPDMAB9; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL10; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL10_b; /*!< BitSize */ + }; + __I uint32_t RESERVED74; + + union { + __IO uint32_t DIEPINT10; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT10_b; /*!< BitSize */ + }; + __I uint32_t RESERVED75; + + union { + __IO uint32_t DIEPTSIZ10; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ10_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA10; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA10; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED76; + __I uint32_t DIEPDMAB10; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL11; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL11_b; /*!< BitSize */ + }; + __I uint32_t RESERVED77; + + union { + __IO uint32_t DIEPINT11; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT11_b; /*!< BitSize */ + }; + __I uint32_t RESERVED78; + + union { + __IO uint32_t DIEPTSIZ11; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ11_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA11; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA11; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED79; + __I uint32_t DIEPDMAB11; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL12; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL12_b; /*!< BitSize */ + }; + __I uint32_t RESERVED80; + + union { + __IO uint32_t DIEPINT12; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT12_b; /*!< BitSize */ + }; + __I uint32_t RESERVED81; + + union { + __IO uint32_t DIEPTSIZ12; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ12_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA12; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA12; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED82; + __I uint32_t DIEPDMAB12; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL13; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL13_b; /*!< BitSize */ + }; + __I uint32_t RESERVED83; + + union { + __IO uint32_t DIEPINT13; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT13_b; /*!< BitSize */ + }; + __I uint32_t RESERVED84; + + union { + __IO uint32_t DIEPTSIZ13; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ13_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA13; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA13; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED85; + __I uint32_t DIEPDMAB13; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL14; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL14_b; /*!< BitSize */ + }; + __I uint32_t RESERVED86; + + union { + __IO uint32_t DIEPINT14; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT14_b; /*!< BitSize */ + }; + __I uint32_t RESERVED87; + + union { + __IO uint32_t DIEPTSIZ14; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ14_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA14; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA14; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED88; + __I uint32_t DIEPDMAB14; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DIEPCTL15; /*!< Device IN Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + uint32_t : 1; + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous IN endpoints, stall all tokens. + To control endpoints, response an ACK */ + __IO uint32_t TX_FIFO_NUM: 4; /*!< TxFIFO Number */ + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop transmitting data on an + endpoint even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + transmit is setup */ + } DIEPCTL15_b; /*!< BitSize */ + }; + __I uint32_t RESERVED89; + + union { + __IO uint32_t DIEPINT15; /*!< Device IN Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t TIMEOUT : 1; /*!< a timeout condition on the USB for the last IN token on this + endpoint */ + __IO uint32_t INTRWTFE : 1; /*!< IN Token Received When TxFIFO is Empty */ + __IO uint32_t INTRWEPM : 1; /*!< IN Token Received with EP Mismatch */ + __IO uint32_t INEPNE : 1; /*!< IN Endpoint NAK Effective */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t TFU : 1; /*!< Transmit FIFO Underrun */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DIEPINT15_b; /*!< BitSize */ + }; + __I uint32_t RESERVED90; + + union { + __IO uint32_t DIEPTSIZ15; /*!< Device IN Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t MC : 2; /*!< the number of packets per microframe to periodic IN endpoints. + The number of packets must be fetched per non-periodic IN endpoints */ + } DIEPTSIZ15_b; /*!< BitSize */ + }; + __IO uint32_t DIEPDMA15; /*!< Device IN Endpoint-n DMA Address Register */ + __IO uint16_t DTXFSA15; /*!< Device IN Endpoint-n Transmit FIFO Space Avail Register */ + __I uint16_t RESERVED91; + __I uint32_t DIEPDMAB15; /*!< Device IN Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL0; /*!< Device Control OUT Endpoint 0 Control Register */ + + struct { + __IO uint32_t MPS : 2; /*!< Indicates the maximum packet size of the associated endpoint, + applies to IN and OUT endpoints */ + uint32_t : 13; + __I uint32_t USBAE : 1; /*!< Always 1, indicating that control endpoint 0 is always active + in all configurations and interfaces */ + uint32_t : 1; + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint */ + __I uint32_t EP_TYPE : 2; /*!< Hardcoded to 00 for control */ + __IO uint32_t SNOOP : 1; /*!< does not check if the OUT packets are correct before transferring */ + __IO uint32_t STALL : 1; /*!< The application sets this bit, and the core clears it when a + SETUP token is received for this endpoint */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + uint32_t : 2; + __I uint32_t EPD : 1; /*!< The application cannot disable control OUT endpoint 0 */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL0_b; /*!< BitSize */ + }; + __I uint32_t RESERVED92; + + union { + __IO uint32_t DOEPINT0; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT0_b; /*!< BitSize */ + }; + __I uint32_t RESERVED93; + + union { + __IO uint32_t DOEPTSIZ0; /*!< Device OUT Endpoint 0 Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 7; /*!< Indicates the transfer size in bytes for endpoint 0 */ + uint32_t : 12; + __IO uint32_t PACKET_CNT : 1; /*!< This field is decremented to zero after a packet is written + into the RxFIFO */ + uint32_t : 9; + __IO uint32_t SETUP_CNT : 2; /*!< the number of back-to-back SETUP data packets the endpoint can + receive */ + } DOEPTSIZ0_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA0; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED94; + __I uint32_t DOEPDMAB0; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL1; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL1_b; /*!< BitSize */ + }; + __I uint32_t RESERVED95; + + union { + __IO uint32_t DOEPINT1; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT1_b; /*!< BitSize */ + }; + __I uint32_t RESERVED96; + + union { + __IO uint32_t DOEPTSIZ1; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ1_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA1; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED97; + __I uint32_t DOEPDMAB1; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL2; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL2_b; /*!< BitSize */ + }; + __I uint32_t RESERVED98; + + union { + __IO uint32_t DOEPINT2; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT2_b; /*!< BitSize */ + }; + __I uint32_t RESERVED99; + + union { + __IO uint32_t DOEPTSIZ2; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ2_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA2; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED100; + __I uint32_t DOEPDMAB2; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL3; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL3_b; /*!< BitSize */ + }; + __I uint32_t RESERVED101; + + union { + __IO uint32_t DOEPINT3; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT3_b; /*!< BitSize */ + }; + __I uint32_t RESERVED102; + + union { + __IO uint32_t DOEPTSIZ3; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ3_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA3; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED103; + __I uint32_t DOEPDMAB3; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL4; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL4_b; /*!< BitSize */ + }; + __I uint32_t RESERVED104; + + union { + __IO uint32_t DOEPINT4; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT4_b; /*!< BitSize */ + }; + __I uint32_t RESERVED105; + + union { + __IO uint32_t DOEPTSIZ4; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ4_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA4; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED106; + __I uint32_t DOEPDMAB4; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL5; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL5_b; /*!< BitSize */ + }; + __I uint32_t RESERVED107; + + union { + __IO uint32_t DOEPINT5; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT5_b; /*!< BitSize */ + }; + __I uint32_t RESERVED108; + + union { + __IO uint32_t DOEPTSIZ5; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ5_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA5; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED109; + __I uint32_t DOEPDMAB5; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL6; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL6_b; /*!< BitSize */ + }; + __I uint32_t RESERVED110; + + union { + __IO uint32_t DOEPINT6; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT6_b; /*!< BitSize */ + }; + __I uint32_t RESERVED111; + + union { + __IO uint32_t DOEPTSIZ6; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ6_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA6; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED112; + __I uint32_t DOEPDMAB6; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL7; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL7_b; /*!< BitSize */ + }; + __I uint32_t RESERVED113; + + union { + __IO uint32_t DOEPINT7; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT7_b; /*!< BitSize */ + }; + __I uint32_t RESERVED114; + + union { + __IO uint32_t DOEPTSIZ7; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ7_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA7; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED115; + __I uint32_t DOEPDMAB7; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL8; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL8_b; /*!< BitSize */ + }; + __I uint32_t RESERVED116; + + union { + __IO uint32_t DOEPINT8; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT8_b; /*!< BitSize */ + }; + __I uint32_t RESERVED117; + + union { + __IO uint32_t DOEPTSIZ8; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ8_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA8; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED118; + __I uint32_t DOEPDMAB8; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL9; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL9_b; /*!< BitSize */ + }; + __I uint32_t RESERVED119; + + union { + __IO uint32_t DOEPINT9; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT9_b; /*!< BitSize */ + }; + __I uint32_t RESERVED120; + + union { + __IO uint32_t DOEPTSIZ9; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ9_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA9; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED121; + __I uint32_t DOEPDMAB9; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL10; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL10_b; /*!< BitSize */ + }; + __I uint32_t RESERVED122; + + union { + __IO uint32_t DOEPINT10; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT10_b; /*!< BitSize */ + }; + __I uint32_t RESERVED123; + + union { + __IO uint32_t DOEPTSIZ10; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ10_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA10; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED124; + __I uint32_t DOEPDMAB10; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL11; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL11_b; /*!< BitSize */ + }; + __I uint32_t RESERVED125; + + union { + __IO uint32_t DOEPINT11; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT11_b; /*!< BitSize */ + }; + __I uint32_t RESERVED126; + + union { + __IO uint32_t DOEPTSIZ11; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ11_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA11; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED127; + __I uint32_t DOEPDMAB11; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL12; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL12_b; /*!< BitSize */ + }; + __I uint32_t RESERVED128; + + union { + __IO uint32_t DOEPINT12; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT12_b; /*!< BitSize */ + }; + __I uint32_t RESERVED129; + + union { + __IO uint32_t DOEPTSIZ12; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ12_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA12; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED130; + __I uint32_t DOEPDMAB12; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL13; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL13_b; /*!< BitSize */ + }; + __I uint32_t RESERVED131; + + union { + __IO uint32_t DOEPINT13; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT13_b; /*!< BitSize */ + }; + __I uint32_t RESERVED132; + + union { + __IO uint32_t DOEPTSIZ13; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ13_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA13; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED133; + __I uint32_t DOEPDMAB13; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL14; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL14_b; /*!< BitSize */ + }; + __I uint32_t RESERVED134; + + union { + __IO uint32_t DOEPINT14; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT14_b; /*!< BitSize */ + }; + __I uint32_t RESERVED135; + + union { + __IO uint32_t DOEPTSIZ14; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ14_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA14; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED136; + __I uint32_t DOEPDMAB14; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ + + union { + __IO uint32_t DOEPCTL15; /*!< Device OUT Endpoint N Control Register */ + + struct { + __IO uint32_t MPS : 11; /*!< Indicates the maximum packet size of the associated endpoint */ + uint32_t : 4; + __IO uint32_t UAE : 1; /*!< Indicates whether this endpoint is active */ + __I uint32_t DPID : 1; /*!< Endpoint Data PID */ + __I uint32_t NAK : 1; /*!< The core is transmitting NAK handshakes on this endpoint if + set */ + __IO uint32_t EP_TYPE : 2; /*!< Indicates the transfer type selected. */ + __IO uint32_t EC : 1; /*!< Doesn't check the correctness of OUT packets before transferring */ + __IO uint32_t STALL : 1; /*!< To non-control, non-isochronous OUT endpoints, stall all tokens. + To control endpoints, response an ACK */ + uint32_t : 4; + __O uint32_t CNAK : 1; /*!< A write to this bit clears the NAK bit for the endpoint */ + __O uint32_t SNAK : 1; /*!< A write to this bit sets the NAK bit for the endpoint */ + __O uint32_t SET_D0_PID : 1; /*!< Set DATA0 PID */ + __O uint32_t SET_D1_PID : 1; /*!< Set DATA1 PID */ + __IO uint32_t EPD : 1; /*!< The application sets this bit to stop receiving data on an endpoint + even before the transfer for that endpoint is complete */ + __IO uint32_t EPE : 1; /*!< the descriptor structure and data buffer with data ready to + receive data is setup */ + } DOEPCTL15_b; /*!< BitSize */ + }; + __I uint32_t RESERVED137; + + union { + __IO uint32_t DOEPINT15; /*!< Device OUT Endpoint-n Interrupt Register */ + + struct { + __IO uint32_t TC : 1; /*!< Transfer completed normally without any errors */ + __IO uint32_t EPD : 1; /*!< Endpoint Disabled Interrupt */ + __IO uint32_t AHB_ERR : 1; /*!< there is an AHB error during AHB read/write */ + __IO uint32_t SETUP : 1; /*!< Only for Control OUT endpoints, the SETUP phase for the control + endpoint is complete */ + __IO uint32_t OUTTRWEPD : 1; /*!< OUT Token Received When Endpoint Disabled */ + __IO uint32_t SPRFCW : 1; /*!< Only for Control OUT endpoints, the host has switched from data + phase to the status phase of a Control Write transfer */ + __IO uint32_t B2BSETUPPR : 1; /*!< to Control OUT endpoints only, received more than three back-to-back + SETUP packets for this particular endpoint */ + __I uint32_t TFE : 1; /*!< either half or completely empty depending on GAHBCFG.NPTxFEmpLvl */ + __IO uint32_t OUTPE : 1; /*!< an overflow or a CRC error for an OUT packet */ + __IO uint32_t BNA : 1; /*!< Buffer Not Available */ + uint32_t : 2; + __IO uint32_t BE : 1; /*!< Babble Error */ + __IO uint32_t NAK : 1; /*!< a NAK is transmitted */ + __IO uint32_t NYET : 1; /*!< a NYET response is transmitted */ + } DOEPINT15_b; /*!< BitSize */ + }; + __I uint32_t RESERVED138; + + union { + __IO uint32_t DOEPTSIZ15; /*!< Device OUT Endpoint-n Transfer Size Register */ + + struct { + __IO uint32_t SIZE : 19; /*!< Indicates the transfer size in bytes for endpoint 0 */ + __IO uint32_t PACKET_CNT : 10; /*!< the total number of USB packets */ + __IO uint32_t SETUPCNT_PID: 2; /*!< To control OUT Endpoints only, back-to-back SETUP data packets. + To isochronous OUT endpoints, data PID received in the last + packet */ + } DOEPTSIZ15_b; /*!< BitSize */ + }; + __IO uint32_t DOEPDMA15; /*!< Device OUT Endpoint-n DMA Address Register */ + __I uint32_t RESERVED139; + __I uint32_t DOEPDMAB15; /*!< Device OUT Endpoint-n DMA Buffer Address Register */ +} USB_Type; + + +/* ================================================================================ */ +/* ================ GLOBAL_CTRL ================ */ +/* ================================================================================ */ + + +/** + * @brief GLOBAL_CTRL (GLOBAL_CTRL) + */ + +typedef struct { /*!< GLOBAL_CTRL Structure */ + + union { + __I uint32_t AES_STATUS; /*!< AES status */ + + struct { + __I uint32_t RD_ALMOST_EMPTY: 1; /*!< FIFO read almost empty */ + __I uint32_t RD_EMPTY : 1; /*!< FIFO read empty */ + __I uint32_t WR_FULL_ALMOST: 1; /*!< FIFO write almost full */ + __I uint32_t WR_FULL : 1; /*!< FIFO write full */ + __I uint32_t IDLE : 1; /*!< decryption finish */ + } AES_STATUS_b; /*!< BitSize */ + }; + __I uint32_t RESERVED0[253]; + + union { + __IO uint32_t CLK_SEL_0; /*!< clock select 0 */ + + struct { + __IO uint32_t CAN1_CLK : 2; /*!< CAN1 clock frequency dividor based on system clock, which should + be 1/32, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t CAN0_CLK : 2; /*!< CAN0 clock frequency dividor based on system clock, which should + be 1/32, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t I2C1_CLK : 2; /*!< I2C1 clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t I2C0_CLK : 2; /*!< I2C0 clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t SPI1_CLK : 2; /*!< SPI1 clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t SPI0_CLK : 2; /*!< SPI0 clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t UART1_CLK : 2; /*!< UART1 clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t UART0_CLK : 2; /*!< UART0 clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t RTC_CLK : 2; /*!< RTC clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t GPIO_CLK : 2; /*!< GPIO clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t TIMER_CLK : 2; /*!< TIMER clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t WDG_CLK : 2; /*!< watchdog clock frequency dividor based on system clock, which + should be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + uint32_t : 2; + __IO uint32_t FLASH_CLK : 2; /*!< FLASH clock frequency dividor based on system clock, which should + be 1/1, 1/2, 1/4, 1/8 from 0 to 3 */ + __IO uint32_t DMA_AHB_CLK: 2; /*!< DMA AHB bus clock frequency dividor based on system clock, which + should be 1/1, 1/2, 1/4, 1/8 from 0 to 3 */ + __IO uint32_t USB_AHB_CLK: 2; /*!< USB AHB bus clock frequency dividor based on system clock, which + should be 1/1, 1/2, 1/4, 1/8 from 0 to 3 */ + } CLK_SEL_0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CLK_SEL_1; /*!< clock select 1 */ + + struct { + __IO uint32_t ETH_AHB_CLK: 2; /*!< ETH_AHB clock frequency dividor based on system clock, which + should be 1/1, 1/2, 1/4, 1/8 from 0 to 3 */ + __IO uint32_t DDR_CLK : 2; /*!< DDR clock frequency dividor based on system clock, which should + be 1/1, 1/2, 1/4, 1/8 from 0 to 3 */ + uint32_t : 4; + __IO uint32_t ADC_CLK : 2; /*!< ADC clock frequency dividor based on system clock, which should + be 1/8, 1/16, 1/32, external from 0 to 3 */ + __IO uint32_t EFUSE_CLK : 2; /*!< EFUSE clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t SYS_CLK : 4; /*!< system clock clock frequency dividor based on system clock, + which should be oscillator(0), DLL(1), crystal(2), external(3), + JTAG(4), PS(8) */ + __IO uint32_t UART2_CLK : 2; /*!< UART2 clock frequency dividor based on system clock, which should + be 1/2, 1/4, 1/8, 1/16 from 0 to 3 */ + __IO uint32_t UTMI_CLK : 1; /*!< UTMI clock came from on-chip usb phy(0) or off-chip usb phy(1) */ + } CLK_SEL_1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t USB_PHY_CTRL; /*!< USB Phy Control Register */ + + struct { + __IO uint32_t BITSTUFF : 1; /*!< 0: No bit stuff */ + __IO uint32_t XTLSEL : 1; /*!< 0: 12MHz */ + __IO uint32_t PLL : 1; /*!< PLL mode */ + __IO uint32_t VOLDET : 1; /*!< Voltage Detector Enable, 0: Disable */ + __IO uint32_t IDUP : 1; /*!< 0: ID is uplled up through 33k Ohm resister */ + __IO uint32_t CKISEL : 1; /*!< Clock selection, 0: Crystal, 1: Internal Clock */ + __IO uint32_t FMOD : 1; /*!< 1: Normal */ + __IO uint32_t SQUELCH : 3; /*!< Squelch Reference Voltage, 000: 27.5mV, 001: 137.5mV, 111: 220mV */ + __IO uint32_t HDISCDT : 3; /*!< Host Disconnect Detection Reference Voltage, 000: 500mV, 100: + 588mV, 111: 654mV */ + __IO uint32_t PRTSEL : 1; /*!< 0: Internal OTG PHY, 1: UTMI to External PHY */ + __IO uint32_t RSTPRT : 1; /*!< 0: The reverse of usb_rst_n will reset, 1: Reset OTG PHY */ + } USB_PHY_CTRL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RTC_INT_EN; /*!< RTC interrupt enable Register */ + + struct { + __IO uint32_t SECOND : 1; /*!< 1s interrupt enable */ + __IO uint32_t MILLSECOND : 1; /*!< 1ms interrupt enable */ + } RTC_INT_EN_b; /*!< BitSize */ + }; + __I uint32_t RESERVED1; + + union { + __IO uint32_t NMI_SEL; /*!< nmi interrupt selection */ + + struct { + __IO uint32_t NMI : 7; /*!< NMI interrupt ID */ + } NMI_SEL_b; /*!< BitSize */ + }; + __I uint32_t RESERVED2; + __IO uint32_t AES_TARGET_ADDR; /*!< AES target address, default is frame decoder address(0x41800000) */ + + union { + __IO uint32_t AES_BURST_TYPE; /*!< AES burst type */ + + struct { + __IO uint32_t TYPE : 2; /*!< burst type, fixed(0), incr(1) */ + } AES_BURST_TYPE_b; /*!< BitSize */ + }; + __I uint32_t RESERVED3[3]; + + union { + __IO uint32_t ICACHE; /*!< ICACHE Enable */ + + struct { + __IO uint32_t EN : 1; /*!< ICACHE Enable */ + } ICACHE_b; /*!< BitSize */ + }; + __IO uint32_t IBUSOFF; /*!< Code Bus Offset */ + __IO uint32_t DBUSOFF; /*!< Data Bus Offset */ + __IO uint32_t EXTADDR; /*!< Bus Ext Addr */ +} GLOBAL_CTRL_Type; + + +/* ================================================================================ */ +/* ================ AES ================ */ +/* ================================================================================ */ + + +/** + * @brief AES (AES) + */ + +typedef struct { /*!< AES Structure */ + __IO uint32_t FIFO; /*!< data FIFO to be decoded */ + + union { + __O uint32_t FIFO_CLEAR; /*!< clear data FIFO */ + + struct { + __O uint32_t CLEAR : 1; /*!< clear after write 1 and write 0 */ + } FIFO_CLEAR_b; /*!< BitSize */ + }; +} AES_Type; + + +/* ================================================================================ */ +/* ================ DDRC ================ */ +/* ================================================================================ */ + + +/** + * @brief DDR_CFG (DDRC) + */ + +typedef struct { /*!< DDRC Structure */ + __IO uint32_t CMD; /*!< DDR commands to program */ + + union { + __IO uint32_t CTRL; /*!< DDR Control */ + + struct { + __IO uint32_t TO : 1; /*!< Take over DDRC siggen */ + __IO uint32_t CLR : 1; /*!< Clear commands in FIFO */ + __O uint32_t STR : 1; /*!< Start to execute the commands in FIFO */ + } CTRL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t MODE; /*!< DDR mode */ + + struct { + __IO uint32_t MODE : 6; /*!< DDRC Mode */ + uint32_t : 2; + __IO uint32_t LANE : 1; /*!< LANE synchronization logic bypass */ + uint32_t : 3; + __IO uint32_t ADEC : 1; /*!< address decoder mapping */ + uint32_t : 3; + __IO uint32_t B16 : 2; /*!< Active 16 bit DQ position when the unmber of DQ IO is 16 */ + uint32_t : 6; + __IO uint32_t CLKPOL : 2; /*!< DQS clkpol set by user on the PHY */ + } MODE_b; /*!< BitSize */ + }; + + union { + __IO uint32_t QUE; /*!< DDRC queue depth */ + + struct { + __IO uint32_t DEPTH : 1; /*!< DDRC queue depth */ + } QUE_b; /*!< BitSize */ + }; + + union { + __IO uint32_t REF; /*!< Refresh control */ + + struct { + __IO uint32_t THRD : 5; /*!< Number of refresh requests which can be postponed */ + uint32_t : 3; + __IO uint32_t TRIG : 4; /*!< Number of refresh requests every dl_refi */ + uint32_t : 4; + __IO uint32_t TIME : 16; /*!< Refresh interval time */ + } REF_b; /*!< BitSize */ + }; + + union { + __O uint32_t REF_TRIG; /*!< Refresh trigger */ + + struct { + __O uint32_t GO : 1; /*!< Write 1 to trigger one refresh request by cbus */ + } REF_TRIG_b; /*!< BitSize */ + }; + + union { + __O uint32_t ZQ_TRIG; /*!< ZQCTL trigger */ + + struct { + __O uint32_t CS : 1; /*!< Write 1 to trigger one ZQCS request by cbus */ + __O uint32_t CL : 1; /*!< Write 1 to trigger one ZQCL request by cbus */ + } ZQ_TRIG_b; /*!< BitSize */ + }; + + union { + __IO uint32_t ZQCSR; /*!< ZQCSR */ + + struct { + __IO uint32_t EN : 1; /*!< Enable ZQCS request */ + __IO uint32_t PRI : 1; /*!< 0: DMA access prior to ZQCS, 1: ZQCS prior to DMA access */ + } ZQCSR_b; /*!< BitSize */ + }; + __IO uint32_t ZQCSI; /*!< ZQCS interval time */ + + union { + __IO uint32_t RCD; /*!< t(RCD) */ + + struct { + __IO uint32_t DI : 5; /*!< t(RCD), delay from ACT command to RW command of same bank */ + } RCD_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RAS; /*!< t(RAS) */ + + struct { + __IO uint32_t DI : 6; /*!< t(RAS), delay from ACT command to PRE command of same bank */ + } RAS_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RP; /*!< t(RP) */ + + struct { + __IO uint32_t DI : 5; /*!< t(RP), delay from PRE command to ACT/REF/ZQ command */ + uint32_t : 3; + __IO uint32_t RPA : 1; /*!< 0: t(RP) delay for PREA command; 1: t(RP)+1 delay for PREA command */ + } RP_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RC; /*!< t(RC) */ + + struct { + __IO uint32_t DI : 7; /*!< t(RC), delay from ACT command to ACT command of same bank */ + } RC_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RRD; /*!< t(RRD) */ + + struct { + __IO uint32_t DI : 4; /*!< t(RRD), delay from ACT command to ACT command */ + } RRD_b; /*!< BitSize */ + }; + + union { + __IO uint32_t CCD; /*!< t(CCD) */ + + struct { + __IO uint32_t DI : 3; /*!< t(CCD), delay from RW command to RW command */ + } CCD_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RTW; /*!< t(RTW) */ + + struct { + __IO uint32_t DI : 5; /*!< t(RTW), delay from RD command to WR command */ + } RTW_b; /*!< BitSize */ + }; + + union { + __IO uint32_t WTR; /*!< t(WTR) */ + + struct { + __IO uint32_t DI : 5; /*!< t(WTR), delay from WR command to RD command */ + } WTR_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RTP; /*!< t(RTP) */ + + struct { + __IO uint32_t DI : 3; /*!< t(RTP), delay from RD command to PRE command of same bank */ + } RTP_b; /*!< BitSize */ + }; + + union { + __IO uint32_t WTP; /*!< t(WTP) */ + + struct { + __IO uint32_t DI : 6; /*!< t(WTP), delay from WR command to PRE command of same bank */ + } WTP_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RFC; /*!< t(RFC) */ + + struct { + __IO uint32_t DI : 8; /*!< t(WTP), delay from WR command to PRE command of same bank */ + } RFC_b; /*!< BitSize */ + }; + + union { + __IO uint32_t ZQCL; /*!< t(ZQoper) */ + + struct { + __IO uint32_t DI : 9; /*!< t(ZQoper), delay from ZQCL command to REF/ZQ/ACT command */ + } ZQCL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t ZQCS; /*!< t(ZQCS) */ + + struct { + __IO uint32_t DI : 7; /*!< t(ZQCS), delay from ZQCS command to REF/ZQ/ACT command */ + } ZQCS_b; /*!< BitSize */ + }; + + union { + __IO uint32_t FAW; /*!< t(FAW) */ + + struct { + __IO uint32_t DI : 6; /*!< t(FAW), 4 act command window time */ + } FAW_b; /*!< BitSize */ + }; + + union { + __IO uint32_t BURST; /*!< BURST */ + + struct { + __IO uint32_t LEN : 1; /*!< 0: length 8, 1: length 4 */ + } BURST_b; /*!< BitSize */ + }; + + union { + __IO uint32_t PHUNG; /*!< PHUNG */ + + struct { + __IO uint32_t MODE : 1; /*!< 0: normal mode, 1: prevent read hang mode */ + __IO uint32_t LPM : 1; /*!< 1: stop the IO clk */ + } PHUNG_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RL; /*!< READ Latency */ + + struct { + __IO uint32_t VAL : 5; /*!< READ Latency */ + } RL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t WL; /*!< WRITE Latency */ + + struct { + __IO uint32_t VAL : 5; /*!< WRITE Latency */ + } WL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t TRAIN; /*!< TRAIN */ + + struct { + __IO uint32_t EN : 4; /*!< Enable lane N training mode */ + } TRAIN_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DQSEN0; /*!< Delay cycles of dqsen of byte lane 0 */ + + struct { + __IO uint32_t DL : 3; /*!< Delay cycles of dqsen of byte lane 0 */ + } DQSEN0_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DQSEN1; /*!< Delay cycles of dqsen of byte lane 1 */ + + struct { + __IO uint32_t DL : 3; /*!< Delay cycles of dqsen of byte lane 1 */ + } DQSEN1_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DQSEN2; /*!< Delay cycles of dqsen of byte lane 2 */ + + struct { + __IO uint32_t DL : 3; /*!< Delay cycles of dqsen of byte lane 2 */ + } DQSEN2_b; /*!< BitSize */ + }; + + union { + __IO uint32_t DQSEN3; /*!< Delay cycles of dqsen of byte lane 0 */ + + struct { + __IO uint32_t DL : 3; /*!< Delay cycles of dqsen of byte lane 3 */ + } DQSEN3_b; /*!< BitSize */ + }; + + union { + __IO uint32_t ODTH; /*!< Delay from WR command to odt high transition */ + + struct { + __IO uint32_t DL : 5; /*!< Delay from WR command to odt high transition */ + } ODTH_b; /*!< BitSize */ + }; + + union { + __IO uint32_t ODTL; /*!< Delay from WR command to odt low transition */ + + struct { + __IO uint32_t DL : 5; /*!< Delay from WR command to odt low transition */ + } ODTL_b; /*!< BitSize */ + }; + + union { + __O uint32_t ODT; /*!< Used in write leveling mode */ + + struct { + __O uint32_t TRIG : 1; /*!< 0: trigger odt low, 1: trigger odt high */ + } ODT_b; /*!< BitSize */ + }; + + union { + __O uint32_t DQS; /*!< Used in write leveling mode */ + + struct { + __O uint32_t TRIG : 1; /*!< Writing 1 to this register triggers a dqs pulse */ + } DQS_b; /*!< BitSize */ + }; + + union { + __I uint32_t STA; /*!< Commands FIFO */ + + struct { + __I uint32_t MODE : 1; /*!< DDRC in sw_proc mode */ + __I uint32_t EMPTY : 1; /*!< Sw_proc command fifo empty */ + __I uint32_t FULL : 1; /*!< Sw_proc command fifo full */ + } STA_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INTCTL; /*!< Interrupt Control */ + + struct { + __IO uint32_t DONE : 1; /*!< 0: the sw_proc_done int will not be masked, 1: the sw_proc_done + int will be masked */ + __IO uint32_t ERR : 1; /*!< mask of the lane_sync_error interrupt */ + uint32_t : 14; + __IO uint32_t MODE : 1; /*!< Interrupt mode: 0: int level active, write 1 to clear; 1: int + edge active */ + } INTCTL_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INTRAW; /*!< Interrupt RAW */ + + struct { + __IO uint32_t DONE : 1; /*!< Int register of sw_proc_done before mask */ + __IO uint32_t ERR : 1; /*!< int reg of the lane sync error before masked */ + } INTRAW_b; /*!< BitSize */ + }; + + union { + __IO uint32_t INTSTA; /*!< Interrupt STA */ + + struct { + __IO uint32_t DONE : 1; /*!< Int register of sw_proc_done after mask */ + __IO uint32_t ERR : 1; /*!< int register of lane sync error after masked */ + } INTSTA_b; /*!< BitSize */ + }; + + union { + __IO uint32_t PHY; /*!< PHY */ + + struct { + __IO uint32_t RST : 1; /*!< FPGA version, reset read dq fifo. Low active */ + } PHY_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RDQ; /*!< FPGA version, read dq delay of byte lane N */ + + struct { + __IO uint32_t L3 : 6; /*!< FPGA version, read dq delay of byte lane3 */ + uint32_t : 2; + __IO uint32_t L2 : 6; /*!< FPGA version, read dq delay of byte lane2 */ + uint32_t : 2; + __IO uint32_t L1 : 6; /*!< FPGA version, read dq delay of byte lane3 */ + uint32_t : 2; + __IO uint32_t L0 : 7; /*!< FPGA version, read dq delay of byte lane0 */ + } RDQ_b; /*!< BitSize */ + }; + + union { + __I uint32_t CALIB; /*!< calibration */ + + struct { + __I uint32_t TPU : 8; /*!< calibration result values, if fail then 0x40 */ + __I uint32_t TPD : 8; /*!< calibration result values, if fail then 0x40 */ + __I uint32_t PDR : 5; /*!< calibration result values, if fail then 0x40 */ + __I uint32_t NDR : 5; /*!< calibration result values, if fail then 0x40 */ + uint32_t : 5; + __IO uint32_t EN : 1; /*!< trigger the calibration processing which is sensitive to the + positive edge */ + } CALIB_b; /*!< BitSize */ + }; + + union { + __IO uint32_t ITMDLY; /*!< "itmdly" is the fine delay trim to the read path "dq", "itmsdly" + is to the read path of "dqs". From 000 to 111 increasingly, + each step is about 40ps */ + + struct { + __IO uint32_t I0 : 4; /*!< itmdly0 */ + __IO uint32_t IS0 : 4; /*!< itmsdly0 */ + __IO uint32_t I1 : 4; /*!< itmdly1 */ + __IO uint32_t IS1 : 4; /*!< itmsdly1 */ + __IO uint32_t I2 : 4; /*!< itmdly2 */ + __IO uint32_t IS2 : 4; /*!< itmsdly2 */ + __IO uint32_t I3 : 4; /*!< itmdly3 */ + __IO uint32_t IS3 : 4; /*!< itmsdly3 */ + } ITMDLY_b; /*!< BitSize */ + }; + + union { + __IO uint32_t TUNE; /*!< CALIB_TUNE */ + + struct { + __IO uint32_t TPU : 4; /*!< tpu_tune, finial val = tune[3] ? val - tune : val + tune */ + __IO uint32_t TPD : 4; /*!< tpd_tune, tune[3:0] for TPD/TPU, [2:0] is the tune val */ + __IO uint32_t PDR : 4; /*!< pdr_tune, inial val = tune[2] ? val - tune : val + tune */ + __IO uint32_t NDR : 4; /*!< ndr_tune, tune[2:0] for NDR/PDR, [1:0] is the tune val */ + } TUNE_b; /*!< BitSize */ + }; + + union { + __IO uint32_t RD_SEL; /*!< RD_WINDOWS_SEL */ + + struct { + __IO uint32_t PHY_SEL : 3; /*!< To fix the phy read valid issue, this is to adjust the read + data valid window to match the phy read valid by cycle level */ + } RD_SEL_b; /*!< BitSize */ + }; +} DDRC_Type; + + +/* ================================================================================ */ +/* ================ PDLOCK ================ */ +/* ================================================================================ */ + + +/** + * @brief PLL DLL LOCK (PDLOCK) + */ + +typedef struct { /*!< PDLOCK Structure */ + + union { + __I uint32_t GCLK; /*!< GCLK */ + + struct { + __I uint32_t C1R2P : 1; /*!< gclk_c1r2_pll_lock */ + __I uint32_t C1R1P : 1; /*!< gclk_c1r1_pll_lock */ + __I uint32_t C2R1P : 1; /*!< gclk_c2r1_pll_lock */ + __I uint32_t C2R2P : 1; /*!< gclk_c2r2_pll_lock */ + __I uint32_t C1R2D : 1; /*!< gclk_c1r2_dll_lock */ + __I uint32_t C1R1D : 1; /*!< gclk_c1r1_dll_lock */ + __I uint32_t C2R1D : 1; /*!< gclk_c2r1_dll_lock */ + __I uint32_t C2R2D : 1; /*!< gclk_c2r2_dll_lock */ + } GCLK_b; /*!< BitSize */ + }; +} PDLOCK_Type; + + +/* ================================================================================ */ +/* ================ PDPROT ================ */ +/* ================================================================================ */ + + +/** + * @brief PLL DLL PROTECT (PDPROT) + */ + +typedef struct { /*!< PDPROT Structure */ + + union { + __O uint32_t LOCK; /*!< LOCK */ + + struct { + __O uint32_t EN : 1; /*!< Enable the PLL DLL Lock to Protect it */ + } LOCK_b; /*!< BitSize */ + }; +} PDPROT_Type; + + +/* ================================================================================ */ +/* ================ CFG_CTRL ================ */ +/* ================================================================================ */ + + +/** + * @brief CFG_CTRL (CFG_CTRL) + */ + +typedef struct { /*!< CFG_CTRL Structure */ + __I uint32_t RESERVED0[3]; + + union { + __IO uint32_t DONE; /*!< DONE CFG */ + + struct { + __IO uint32_t CMD : 1; /*!< Write 1 indicate all chain data write over */ + __IO uint32_t STA : 1; /*!< 1= all chain config process over, chip is in user mode */ + } DONE_b; /*!< BitSize */ + }; + __I uint32_t RESERVED1[34]; + + union { + __IO uint32_t PDLLSTR; /*!< PLL DLL RESET */ + + struct { + __IO uint32_t C1R1P : 1; /*!< C1r1_rstpll_n, low active */ + __IO uint32_t C1R2P : 1; /*!< C1r2_rstpll_n, low active */ + __IO uint32_t C2R1P : 1; /*!< C2r1_rstpll_n, low active */ + __IO uint32_t C2R2P : 1; /*!< C2r2_rstpll_n, low active */ + __IO uint32_t C1R1D : 1; /*!< C1r1_rstdll_n, low active */ + __IO uint32_t C1R2D : 1; /*!< C1r2_rstdll_n, low active */ + __IO uint32_t C2R1D : 1; /*!< C2r1_rstdll_n, low active */ + __IO uint32_t C2R2D : 1; /*!< C2r2_rstdll_n, low active */ + } PDLLSTR_b; /*!< BitSize */ + }; +} CFG_CTRL_Type; + + +/* ================================================================================ */ +/* ================ SOFT_RESET ================ */ +/* ================================================================================ */ + + +/** + * @brief SUB SOFT RESET (SOFT_RESET) + */ + +typedef struct { /*!< SOFT_RESET Structure */ + + union { + __IO uint32_t SOFTRST; /*!< SOFTRST */ + + struct { + __IO uint32_t CAN1_n : 1; /*!< soft_rst_can1_n */ + __IO uint32_t CAN0_n : 1; /*!< soft_rst_can0_n */ + __IO uint32_t I2C1_n : 1; /*!< soft_rst_i2c1_n */ + __IO uint32_t I2C0_n : 1; /*!< soft_rst_i2c0_n */ + __IO uint32_t SPI1_n : 1; /*!< soft_rst_spi1_n */ + __IO uint32_t SPI0_n : 1; /*!< soft_rst_spi0_n */ + __IO uint32_t UART1_n : 1; /*!< soft_rst_uart1_n */ + __IO uint32_t UART0_n : 1; /*!< soft_rst_uart0_n */ + __IO uint32_t RTC_n : 1; /*!< soft_rst_rtc_n */ + __IO uint32_t GPIO_n : 1; /*!< soft_rst_gpio_n */ + __IO uint32_t TIMER_n : 1; /*!< soft_rst_timer_n */ + __IO uint32_t WDT_n : 1; /*!< soft_rst_wdt_n */ + __IO uint32_t LVDS_n : 1; /*!< soft_rst_lvds_n */ + __IO uint32_t FLS_n : 1; /*!< soft_rst_fls_n */ + __IO uint32_t DMAC_AHB_n : 1; /*!< soft_rst_dmac_ahb_n */ + __IO uint32_t USB_AHB_n : 1; /*!< soft_rst_usb_ahb_n */ + __IO uint32_t ETH_AHB_n : 1; /*!< soft_rst_eth_ahb_n */ + __IO uint32_t DDRC_n : 1; /*!< soft_rst_ddrc_n */ + __IO uint32_t ARM_HCLK_n : 1; /*!< soft_rst_arm_HCLK_n */ + __IO uint32_t _48_n : 1; /*!< soft_rst_48_n */ + __IO uint32_t UTM_n : 1; /*!< soft_rst_utmi_n */ + __IO uint32_t CACHE_n : 1; /*!< soft_rst_cache_n */ + __IO uint32_t USB_n : 1; /*!< soft_rst_cache_n */ + __IO uint32_t ETH_RX_n : 1; /*!< soft_rst_eth_rx_i_n */ + __IO uint32_t ETH_TX_n : 1; /*!< soft_rst_eth_tx_i_n */ + __IO uint32_t ADC_n : 1; /*!< soft_rst_adc_n */ + __IO uint32_t EFUSE_n : 1; /*!< soft_rst_efuse_n */ + __IO uint32_t Reserved1_n: 1; /*!< Reserved11 */ + __IO uint32_t AES_n : 1; /*!< soft_rst_aes_n */ + __IO uint32_t UART2_n : 1; /*!< soft_rst_uart2_n */ + __IO uint32_t AS_n : 1; /*!< soft_rst_as_n */ + __IO uint32_t FDCD_n : 1; /*!< soft_rst_fdcd_n */ + } SOFTRST_b; /*!< BitSize */ + }; +} SOFT_RESET_Type; + + +/* -------------------- End of section using anonymous unions ------------------- */ +#if defined(__CC_ARM) + #pragma pop +#elif defined(__ICCARM__) + /* leave anonymous unions enabled */ +#elif defined(__GNUC__) + /* anonymous unions are enabled by default */ +#elif defined(__TMS470__) + /* anonymous unions are enabled by default */ +#elif defined(__TASKING__) + #pragma warning restore +#else + #warning Not supported compiler type +#endif + + + + +/* ================================================================================ */ +/* ================ Peripheral memory map ================ */ +/* ================================================================================ */ + +#define UART0_BASE 0x41005000UL +#define UART1_BASE 0x4100C000UL +#define UART2_BASE 0x4100E000UL +#define WDG_BASE 0x41001000UL +#define TIMER0_BASE 0x41000000UL +#define TIMER1_BASE 0x41000020UL +#define TIMER2_BASE 0x41000040UL +#define TIMER3_BASE 0x41000060UL +#define SPI0_BASE 0x41004000UL +#define SPI1_BASE 0x4100B000UL +#define I2C0_BASE 0x41003000UL +#define I2C1_BASE 0x4100A000UL +#define RTC_BASE 0x41007004UL +#define GPIO_BASE 0x41002000UL +#define NOR_FLASH_BASE 0x40800000UL +#define ADC_BASE 0x41006000UL +#define EFUSE_BASE 0x41008000UL +#define CAN0_BASE 0x41009000UL +#define CAN1_BASE 0x4100D000UL +#define DMA_BASE 0x41500000UL +#define ETH_BASE 0x41200000UL +#define USB_BASE 0x41300000UL +#define GLOBAL_CTRL_BASE 0x41007010UL +#define AES_BASE 0x41600000UL +#define DDRC_BASE 0x41400000UL +#define PDLOCK_BASE 0x41007000UL +#define PDPROT_BASE 0x41007C00UL +#define CFG_CTRL_BASE 0x41700000UL +#define SOFT_RESET_BASE 0x41007400UL + + +/* ================================================================================ */ +/* ================ Peripheral declaration ================ */ +/* ================================================================================ */ + +#define UART0 ((UART0_Type *) UART0_BASE) +#define UART1 ((UART0_Type *) UART1_BASE) +#define UART2 ((UART0_Type *) UART2_BASE) +#define WDG ((WDG_Type *) WDG_BASE) +#define TIMER0 ((TIMER0_Type *) TIMER0_BASE) +#define TIMER1 ((TIMER0_Type *) TIMER1_BASE) +#define TIMER2 ((TIMER0_Type *) TIMER2_BASE) +#define TIMER3 ((TIMER0_Type *) TIMER3_BASE) +#define SPI0 ((SPI0_Type *) SPI0_BASE) +#define SPI1 ((SPI0_Type *) SPI1_BASE) +#define I2C0 ((I2C0_Type *) I2C0_BASE) +#define I2C1 ((I2C0_Type *) I2C1_BASE) +#define RTC ((RTC_Type *) RTC_BASE) +#define GPIO ((GPIO_Type *) GPIO_BASE) +#define NOR_FLASH ((NOR_FLASH_Type *) NOR_FLASH_BASE) +#define ADC ((ADC_Type *) ADC_BASE) +#define EFUSE ((EFUSE_Type *) EFUSE_BASE) +#define CAN0 ((CAN0_Type *) CAN0_BASE) +#define CAN1 ((CAN0_Type *) CAN1_BASE) +#define DMA ((DMA_Type *) DMA_BASE) +#define ETH ((ETH_Type *) ETH_BASE) +#define USB ((USB_Type *) USB_BASE) +#define GLOBAL_CTRL ((GLOBAL_CTRL_Type *) GLOBAL_CTRL_BASE) +#define AES ((AES_Type *) AES_BASE) +#define DDRC ((DDRC_Type *) DDRC_BASE) +#define PDLOCK ((PDLOCK_Type *) PDLOCK_BASE) +#define PDPROT ((PDPROT_Type *) PDPROT_BASE) +#define CFG_CTRL ((CFG_CTRL_Type *) CFG_CTRL_BASE) +#define SOFT_RESET ((SOFT_RESET_Type *) SOFT_RESET_BASE) + + +/** @} */ /* End of group Device_Peripheral_Registers */ +/** @} */ /* End of group cmem7 */ +/** @} */ /* End of group (null) */ + +#ifdef __cplusplus +} +#endif + + +#endif /* cmem7_H */ + diff --git a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_conf.h b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_conf.h index db3b45c0a2..28088028b2 100644 --- a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_conf.h +++ b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_conf.h @@ -43,7 +43,12 @@ #define _TIM #define _UART #define _USB -#define _WDG +#define _WDG + +//#define _MARVELL +//#define _IP1826D +#define _M7NORFLASH +#define _ME_6095_F #define USE_FULL_ASSERT 1 @@ -71,7 +76,9 @@ typedef enum _BOOL {FALSE = 0, TRUE = 1} BOOL; /** * System clock frequency, unit is Hz. */ -#define SYSTEM_CLOCK_FREQ 200000000 +#define SYSTEM_CLOCK_FREQ 300000000 +//250000000 +//300000000 /** * @brief usecond delay diff --git a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_eth.h b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_eth.h index 4d8a46527a..a5663ea869 100644 --- a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_eth.h +++ b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_eth.h @@ -1,382 +1,417 @@ -/** - ***************************************************************************** - * @file cmem7_eth.h - * - * @brief CMEM7 ethernet header file - * - * - * @version V1.0 - * @date 3. September 2013 - * - * @note - * - ***************************************************************************** - * @attention - * - * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS - * WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE - * TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT, - * INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING - * FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE - * CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. - * - *

© COPYRIGHT 2013 Capital-micro

- ***************************************************************************** - */ - -#ifndef __CMEM7_ETH_H -#define __CMEM7_ETH_H - -#ifdef __cplusplus - extern "C" { -#endif - -#include "cmem7.h" -#include "cmem7_conf.h" - -/** @defgroup ETH_SPEED - * @{ - */ -#define ETH_SPEED_10M 0x0 -#define ETH_SPEED_100M 0x1 -#define ETH_SPEED_1000M 0x2 - -#define IS_ETH_SPEED(SPEED) (((SPEED) == ETH_SPEED_10M) || \ - ((SPEED) == ETH_SPEED_100M) || \ - ((SPEED) == ETH_SPEED_1000M)) -/** - * @} - */ - -/** @defgroup ETH_DUPLEX - * @{ - */ -#define ETH_DUPLEX_HALF 0x0 -#define ETH_DUPLEX_FULL 0x1 - -#define IS_ETH_DUPLEX(DUPLEX) (((DUPLEX) == ETH_DUPLEX_HALF) || \ - ((DUPLEX) == ETH_DUPLEX_FULL)) -/** - * @} - */ - -/** @defgroup ETH_INT - * @{ - */ -#define ETH_INT_TX_COMPLETE_FRAME 0x0001 -#define ETH_INT_TX_STOP 0x0002 -#define ETH_INT_TX_BUF_UNAVAI 0x0004 -#define ETH_INT_RX_OVERFLOW 0x0010 -#define ETH_INT_TX_UNDERFLOW 0x0020 -#define ETH_INT_RX_COMPLETE_FRAME 0x0040 -#define ETH_INT_RX_BUF_UNAVAI 0x0080 -#define ETH_INT_RX_STOP 0x0100 -#define ETH_INT_BUS_FATAL_ERROR 0x2000 -#define ETH_INT_ALL (ETH_INT_TX_COMPLETE_FRAME | \ - ETH_INT_TX_STOP | \ - ETH_INT_TX_BUF_UNAVAI | \ - ETH_INT_RX_OVERFLOW | \ - ETH_INT_TX_UNDERFLOW | \ - ETH_INT_RX_COMPLETE_FRAME | \ - ETH_INT_RX_BUF_UNAVAI | \ - ETH_INT_RX_STOP | \ - ETH_INT_BUS_FATAL_ERROR) - -#define IS_ETH_INT(INT) (((INT) != 0) && (((INT) & ~ETH_INT_ALL) == 0)) -/** - * @} - */ - -/** - * @brief EFUSE receive filter structure - */ -typedef struct -{ - BOOL ETH_BroadcastFilterEnable; /*!< Broadcast is dropped or passed */ - BOOL ETH_OwnFilterEnable; /*!< source address filter is on or off */ - BOOL ETH_SelfDrop; /*!< Only own address is dropped or passed */ - BOOL ETH_SourceFilterEnable; /*!< source address filter is on or off */ - BOOL ETH_SourceDrop; /*!< Only specific source address is dropped or passed */ - uint8_t ETH_SourceMacAddr[6]; /*!< Source MAC address */ -} ETH_FrameFilter; - -/** - * @brief Ethernet initialization structure - */ -typedef struct -{ - BOOL ETH_LinkUp; /*!< If ETH is linked up and it can be retrieved from PHY */ - uint8_t ETH_Speed; /*!< speed of ETH, refer as @ref ETH_SPEED */ - uint8_t ETH_Duplex; /*!< duplex mode of ETH, refer as @ref ETH_DUPLEX */ - BOOL ETH_RxEn; /*!< Rx enable */ - BOOL ETH_TxEn; /*!< Tx enable */ - BOOL ETH_ChecksumOffload; /*!< Checksum offload enable */ - BOOL ETH_JumboFrame; /*!< Jumbo Frame Enable */ - uint8_t ETH_MacAddr[6]; /*!< MAC address */ - ETH_FrameFilter *ETH_Filter; /*!< Received frame address filter, receive all if null */ -} ETH_InitTypeDef; - -/** - * @brief Ethernet Tx descriptor structure - */ -typedef struct { - union { - uint32_t TX0; - - struct { - uint32_t : 1; - uint32_t UNDERFLOW_ERR : 1; /*!< [OUT] Underflow error */ - uint32_t : 1; - uint32_t COLLISION_CNT : 4; /*!< [OUT] Collision count */ - uint32_t : 1; - uint32_t EX_COLLISION : 1; /*!< [OUT] Excessive collision error */ - uint32_t LATE_COLLISION : 1; /*!< [OUT] Late collision error */ - uint32_t NO_CARRIER : 1; /*!< [OUT] No carrier error */ - uint32_t LOSS_CARRIER : 1; /*!< [OUT] loss of carrier error */ - uint32_t PAYLOAD_ERR : 1; /*!< [OUT] IP payload error */ - uint32_t : 2; - uint32_t ERR_SUM : 1; /*!< [OUT] Error summary */ - uint32_t HEADER_ERR : 1; /*!< [OUT] IP header error */ - uint32_t : 8; - uint32_t TTSE : 1; /*!< enables IEEE1588 hardware timestamping in first segment */ - uint32_t : 2; - uint32_t FS : 1; /*!< first segment flag */ - uint32_t LS : 1; /*!< last segment flag */ - uint32_t : 2; - } TX0_b; - } TX_0; - - union { - uint32_t TX1; - - struct { - uint32_t SIZE : 13; /*!< buffer size */ - uint32_t : 19; - } TX1_b; - } TX_1; - - uint32_t bufAddr; /*!< address of buffer */ - uint32_t nextDescAddr; /*!< address of next descriptor */ - uint64_t reserved; - uint64_t timeStamp; /*!< time stamp while last segment */ -} ETH_TX_DESC; - -/** - * @brief Ethernet Rx descriptor structure - */ -typedef struct { - union { - uint32_t RX0; - - struct { - uint32_t : 1; - uint32_t CRC_ERR : 1; /*!< [OUT] CRC error while last segment */ - uint32_t : 5; - uint32_t TTSE : 1; /*!< timestamp available while last segment */ - uint32_t LS : 1; /*!< last segment flag */ - uint32_t FS : 1; /*!< first segment flag */ - uint32_t : 1; - uint32_t OVERFLOW_ERR : 1; /*!< [OUT] FIFO overflow while last segment */ - uint32_t LENGTH_ERR : 1; /*!< [OUT] length error while last segment */ - uint32_t : 2; - uint32_t ERR_SUM : 1; /*!< [OUT] Error summary while last segment */ - uint32_t FL : 14; /*!< frame length while last segment */ - uint32_t : 2; - } RX0_b; - } RX_0; - - union { - uint32_t RX1; - - struct { - uint32_t SIZE : 13; /*!< buffer size */ - uint32_t : 19; - } RX1_b; - } RX_1; - - uint32_t bufAddr; /*!< buffer address */ - uint32_t nextDescAddr; /*!< address of next descriptor */ - uint64_t reserved; - uint64_t timeStamp; /*!< time stamp while the last segment */ -} ETH_RX_DESC; - -/** - * @brief Read data from phy chip - * @param[in] phyAddr Address of phy chip - * @param[in] phyReg Address of phy's register to be read - * @retval uint32_t value of phy's register - */ -uint32_t ETH_PhyRead(uint32_t phyAddr, uint32_t phyReg); - -/** - * @brief Write data to phy chip - * @param[in] phyAddr Address of phy chip - * @param[in] phyReg Address of phy's register to be written - * @param[in] data Data to be written - * @retval None - */ -void ETH_PhyWrite(uint32_t phyAddr, uint32_t phyReg, uint32_t data); - -/** - * @brief Ethernet initialization - * @note This function should be called at first before any other interfaces. - * @param[in] init A pointer to structure ETH_InitTypeDef - * @retval BOOL The bit indicates if ethernet is initialized successfully - */ -BOOL ETH_Init(ETH_InitTypeDef *init); - -/** - * @brief Enable or disable ethernet interrupt. - * @param[in] Int interrupt mask bits, which can be the combination of @ref ETH_INT - * @param[in] Enable The bit indicates if specific interrupts are enable or not - * @retval None - */ -void ETH_EnableInt(uint32_t Int, BOOL enable); - -/** - * @brief Check specific interrupts are set or not - * @param[in] Int interrupt mask bits, which can be the combination of @ref ETH_INT - * @retval BOOL The bit indicates if specific interrupts are set or not - */ -BOOL ETH_GetIntStatus(uint32_t Int); - -/** - * @brief Clear specific interrupts - * @param[in] Int interrupt mask bits, which can be the combination of @ref ETH_INT - * @retval None - */ -void ETH_ClearInt(uint32_t Int); - -/** - * @brief Get ethernte MAC address - * @param[in] mac A user-allocated buffer to fetch MAC to be read, 6 bytes. - * @retval None - */ -void ETH_GetMacAddr(uint8_t *mac); - -/** - * @brief Set ethernet transmission descriptor ring - * @note Make sure that memory occupied by descriptors should be in physical - * memory and keep valid before ethernet transmission is finished. - * @param[in] ring A pointer to header of ETH_TX_DESC ring, whose last node - * has a 'nextDescAddr' pointed to first node. - * @retval BOOL The bit indicates if valid ring is set - */ -BOOL ETH_SetTxDescRing(ETH_TX_DESC *ring); - -/** - * @brief Start ethernet transmission - * @param None - * @retval None - */ -void ETH_StartTx(void); - -/** - * @brief Stop ethernet transmission - * @param None - * @retval None - */ -void ETH_StopTx(void); - -/** - * @brief Resume ethernet transmission\n - * While ethernet doesn't have enough buffer to transmit data, it will - * pause and inform users by interrupt 'ETH_INT_TX_BUF_UNAVAI'. Users - * must call this function to start ethernet again after new buffer - * prepared. - * @param None - * @retval None - */ -void ETH_ResumeTx(void); - -/** - * @brief Get free transmission descriptor\n - * @param None - * @retval ETH_TX_DESC* A pointer of free transmission descriptor, - * NULL if no free descriptor - */ -ETH_TX_DESC *ETH_AcquireFreeTxDesc(void); - -/** - * @brief Check if a transmission descriptor is free or not - * @param desc A pointer of a transmission descriptor - * @retval BOOL True if the transmission descriptor is free, or flase. - */ -BOOL ETH_IsFreeTxDesc(ETH_TX_DESC *desc); - -/** - * @brief Release a transmission descriptor to ethernet\n - * After users prepared data in the buffer of a free descriptor, - * They must call this function to change ownership of the - * descriptor to hardware. - * @param desc A pointer of a transmission descriptor - * @retval None - */ -void ETH_ReleaseTxDesc(ETH_TX_DESC *desc); - -/** - * @brief Set ethernet receive descriptor ring - * @note Make sure that memory occupied by descriptors should be in physical - * memory and keep valid before ethernet receive is finished. - * @param[in] ring A pointer to header of ETH_TX_DESC ring, whose last node - * has a 'nextDescAddr' pointed to first node. - * @retval BOOL The bit indicates if valid ring is set - */ -BOOL ETH_SetRxDescRing(ETH_RX_DESC *ring); - -/** - * @brief Start ethernet receive - * @param None - * @retval None - */ -void ETH_StartRx(void); - -/** - * @brief Stop ethernet receive - * @param None - * @retval None - */ -void ETH_StopRx(void); - -/** - * @brief Resume ethernet receive\n - * While ethernet doesn't have enough buffer to receive data, it will - * pause and inform users by interrupt 'ETH_INT_RX_BUF_UNAVAI'. Users - * must call this function to start ethernet again after new buffer - * prepared. - * @param None - * @retval None - */ -void ETH_ResumeRx(void); - -/** - * @brief Get the free descriptor which contains received data\n - * @param None - * @retval ETH_RX_DESC* A pointer of free receive descriptor, - * NULL if no free descriptor - */ -ETH_RX_DESC *ETH_AcquireFreeRxDesc(void); - -/** - * @brief Check if a receive descriptor is free or not - * @param desc A pointer of a receive descriptor - * @retval BOOL True if the receive descriptor is free, or flase. - */ -BOOL ETH_IsFreeRxDesc(ETH_RX_DESC *desc); - -/** - * @brief Release a receive descriptor to ethernet\n - * After users handled data in the buffer of a free descriptor, - * They must call this function to change ownership of the - * descriptor to hardware. - * @param desc A pointer of a transmission descriptor - * @retval None - */ -void ETH_ReleaseRxDesc(ETH_RX_DESC *desc); - -#ifdef __cplusplus -} -#endif - -#endif /* __CMEM7_ETH_H */ - +/** + ***************************************************************************** + * @file cmem7_eth.h + * + * @brief CMEM7 ethernet header file + * + * + * @version V1.0 + * @date 3. September 2013 + * + * @note + * + ***************************************************************************** + * @attention + * + * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS + * WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE + * TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT, + * INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING + * FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE + * CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. + * + *

© COPYRIGHT 2013 Capital-micro

+ ***************************************************************************** + */ + +#ifndef __CMEM7_ETH_H +#define __CMEM7_ETH_H + +#ifdef __cplusplus + extern "C" { +#endif + +#include "cmem7.h" +#include "cmem7_conf.h" + +/** @defgroup ETH_SPEED + * @{ + */ +#define ETH_SPEED_10M 0x0 +#define ETH_SPEED_100M 0x1 +#define ETH_SPEED_1000M 0x2 + +#define IS_ETH_SPEED(SPEED) (((SPEED) == ETH_SPEED_10M) || \ + ((SPEED) == ETH_SPEED_100M) || \ + ((SPEED) == ETH_SPEED_1000M)) +/** + * @} + */ + +/** @defgroup ETH_DUPLEX + * @{ + */ +#define ETH_DUPLEX_HALF 0x0 +#define ETH_DUPLEX_FULL 0x1 + +#define IS_ETH_DUPLEX(DUPLEX) (((DUPLEX) == ETH_DUPLEX_HALF) || \ + ((DUPLEX) == ETH_DUPLEX_FULL)) +/** + * @} + */ + +/** @defgroup ETH_INT + * @{ + */ +#define ETH_INT_TX_COMPLETE_FRAME 0x0001 +#define ETH_INT_TX_STOP 0x0002 +#define ETH_INT_TX_BUF_UNAVAI 0x0004 +#define ETH_INT_RX_OVERFLOW 0x0010 +#define ETH_INT_TX_UNDERFLOW 0x0020 +#define ETH_INT_RX_COMPLETE_FRAME 0x0040 +#define ETH_INT_RX_BUF_UNAVAI 0x0080 +#define ETH_INT_RX_STOP 0x0100 +#define ETH_INT_BUS_FATAL_ERROR 0x2000 +#define ETH_INT_ALL (ETH_INT_TX_COMPLETE_FRAME | \ + ETH_INT_TX_STOP | \ + ETH_INT_TX_BUF_UNAVAI | \ + ETH_INT_RX_OVERFLOW | \ + ETH_INT_TX_UNDERFLOW | \ + ETH_INT_RX_COMPLETE_FRAME | \ + ETH_INT_RX_BUF_UNAVAI | \ + ETH_INT_RX_STOP | \ + ETH_INT_BUS_FATAL_ERROR) + +#define IS_ETH_INT(INT) (((INT) != 0) && (((INT) & ~ETH_INT_ALL) == 0)) +/** + * @} + */ +/** + * @brief EFUSE receive filter structure + */ +typedef struct +{ + BOOL ETH_BroadcastFilterEnable; /*!< Broadcast is dropped or passed */ + BOOL ETH_OwnFilterEnable; /*!< source address filter is on or off */ + BOOL ETH_SelfDrop; /*!< Only own address is dropped or passed */ + BOOL ETH_SourceFilterEnable; /*!< source address filter is on or off */ + BOOL ETH_SourceDrop; /*!< Only specific source address is dropped or passed */ + uint8_t ETH_SourceMacAddr[6]; /*!< Source MAC address */ +} ETH_FrameFilter; + +/** + * @brief Ethernet initialization structure + */ +typedef struct +{ + BOOL ETH_LinkUp; /*!< If ETH is linked up and it can be retrieved from PHY */ + uint8_t ETH_Speed; /*!< speed of ETH, refer as @ref ETH_SPEED */ + uint8_t ETH_Duplex; /*!< duplex mode of ETH, refer as @ref ETH_DUPLEX */ + BOOL ETH_RxEn; /*!< Rx enable */ + BOOL ETH_TxEn; /*!< Tx enable */ + BOOL ETH_ChecksumOffload; /*!< Checksum offload enable */ + BOOL ETH_JumboFrame; /*!< Jumbo Frame Enable */ + uint8_t ETH_MacAddr[6]; /*!< MAC address */ + ETH_FrameFilter *ETH_Filter; /*!< Received frame address filter, receive all if null */ +} ETH_InitTypeDef; + +/** + * @brief Ethernet Tx descriptor structure + */ +typedef struct { + union { + uint32_t TX0; + + struct { + uint32_t : 1; + uint32_t UNDERFLOW_ERR : 1; /*!< [OUT] Underflow error */ + uint32_t : 1; + uint32_t COLLISION_CNT : 4; /*!< [OUT] Collision count */ + uint32_t : 1; + uint32_t EX_COLLISION : 1; /*!< [OUT] Excessive collision error */ + uint32_t LATE_COLLISION : 1; /*!< [OUT] Late collision error */ + uint32_t NO_CARRIER : 1; /*!< [OUT] No carrier error */ + uint32_t LOSS_CARRIER : 1; /*!< [OUT] loss of carrier error */ + uint32_t PAYLOAD_ERR : 1; /*!< [OUT] IP payload error */ + uint32_t : 2; + uint32_t ERR_SUM : 1; /*!< [OUT] Error summary */ + uint32_t HEADER_ERR : 1; /*!< [OUT] IP header error */ + uint32_t : 8; + uint32_t TTSE : 1; /*!< enables IEEE1588 hardware timestamping in first segment */ + uint32_t : 2; + uint32_t FS : 1; /*!< first segment flag */ + uint32_t LS : 1; /*!< last segment flag */ + uint32_t : 2; + } TX0_b; + } TX_0; + + union { + uint32_t TX1; + + struct { + uint32_t SIZE : 13; /*!< buffer size */ + uint32_t : 19; + } TX1_b; + } TX_1; + + uint32_t bufAddr; /*!< address of buffer */ + uint32_t nextDescAddr; /*!< address of next descriptor */ + uint64_t reserved; + uint64_t timeStamp; /*!< time stamp while last segment */ +} ETH_TX_DESC; + +/** + * @brief Ethernet Rx descriptor structure + */ +typedef struct { + union { + uint32_t RX0; + + struct { + uint32_t : 1; + uint32_t CRC_ERR : 1; /*!< [OUT] CRC error while last segment */ + uint32_t : 5; + uint32_t TTSE : 1; /*!< timestamp available while last segment */ + uint32_t LS : 1; /*!< [OUT] last segment flag */ + uint32_t FS : 1; /*!< [OUT] first segment flag */ + uint32_t : 1; + uint32_t OVERFLOW_ERR : 1; /*!< [OUT] FIFO overflow while last segment */ + uint32_t LENGTH_ERR : 1; /*!< [OUT] length error while last segment */ + uint32_t : 2; + uint32_t ERR_SUM : 1; /*!< [OUT] Error summary while last segment */ + uint32_t FL : 14; /*!< [OUT] frame length while last segment */ + uint32_t : 2; + } RX0_b; + } RX_0; + + union { + uint32_t RX1; + + struct { + uint32_t SIZE : 13; /*!< buffer size */ + uint32_t : 19; + } RX1_b; + } RX_1; + + uint32_t bufAddr; /*!< buffer address */ + uint32_t nextDescAddr; /*!< address of next descriptor */ + uint64_t reserved; + uint64_t timeStamp; /*!< time stamp while the last segment */ +} ETH_RX_DESC; + +/** + * @brief Read data from phy chip + * @param[in] phyAddr Address of phy chip + * @param[in] phyReg Address of phy's register to be read + * @retval uint32_t value of phy's register + */ +uint32_t ETH_PhyRead(uint32_t phyAddr, uint32_t phyReg); + +/** + * @brief Write data to phy chip + * @param[in] phyAddr Address of phy chip + * @param[in] phyReg Address of phy's register to be written + * @param[in] data Data to be written + * @retval None + */ +void ETH_PhyWrite(uint32_t phyAddr, uint32_t phyReg, uint32_t data); +/** + * @brief Fills each ETH_InitStruct member with its default value. + * @param ETH_InitStruct: pointer to a ETH_InitTypeDef structure + * which will be initialized. + * @retval : None + */ +void ETH_StructInit(ETH_InitTypeDef* init); +/** + * @brief Ethernet initialization + * @note This function should be called at first before any other interfaces. + * @param[in] init A pointer to structure ETH_InitTypeDef + * @retval BOOL The bit indicates if ethernet is initialized successfully + */ +BOOL ETH_Init(ETH_InitTypeDef *init); + +/** + * @brief Enable or disable ethernet interrupt. + * @param[in] Int interrupt mask bits, which can be the combination of @ref ETH_INT + * @param[in] Enable The bit indicates if specific interrupts are enable or not + * @retval None + */ +void ETH_ITConfig(uint32_t Int, BOOL enable); + +/** + * @brief Check specific interrupts are set or not + * @param[in] Int interrupt mask bits, which can be the combination of @ref ETH_INT + * @retval BOOL The bit indicates if specific interrupts are set or not + */ +BOOL ETH_GetITStatus(uint32_t Int); + +/** + * @brief Clear specific interrupts + * @param[in] Int interrupt mask bits, which can be the combination of @ref ETH_INT + * @retval None + */ +void ETH_ClearITPendingBit(uint32_t Int); + +/** + * @brief Get ethernte MAC address + * @param[in] mac A user-allocated buffer to fetch MAC to be read, 6 bytes. + * @retval None + */ +void ETH_GetMacAddr(uint8_t *mac); + +/** + * @brief Set ethernet transmission descriptor ring + * @note Make sure that memory occupied by descriptors should be in physical + * memory and keep valid before ethernet transmission is finished. + * @param[in] ring A pointer to header of ETH_TX_DESC ring, whose last node + * has a 'nextDescAddr' pointed to first node. + * @retval BOOL The bit indicates if valid ring is set + */ +BOOL ETH_SetTxDescRing(ETH_TX_DESC *ring); + +/** + * @brief Start ethernet transmission + * @param None + * @retval None + */ +void ETH_StartTx(void); + +/** + * @brief Stop ethernet transmission + * @param None + * @retval None + */ +void ETH_StopTx(void); + +/** + * @brief Resume ethernet transmission\n + * While ethernet doesn't have enough buffer to transmit data, it will + * pause and inform users by interrupt 'ETH_INT_TX_BUF_UNAVAI'. Users + * must call this function to start ethernet again after new buffer + * prepared. + * @param None + * @retval None + */ +void ETH_ResumeTx(void); + +/** + * @brief Get free transmission descriptor\n + * @param None + * @retval ETH_TX_DESC* A pointer of free transmission descriptor, + * NULL if no free descriptor + */ +ETH_TX_DESC *ETH_AcquireFreeTxDesc(void); + +/** + * @brief Check if a transmission descriptor is free or not + * @param[in] desc A pointer of a transmission descriptor + * @retval BOOL True if the transmission descriptor is free, or flase. + */ +BOOL ETH_IsFreeTxDesc(ETH_TX_DESC *desc); + +/** + * @brief Release a transmission descriptor to ethernet\n + * After users prepared data in the buffer of a free descriptor, + * They must call this function to change ownership of the + * descriptor to hardware. + * @param[in] desc A pointer of a transmission descriptor + * @retval None + */ +void ETH_ReleaseTxDesc(ETH_TX_DESC *desc); + +/** + * @brief Set buffer address of the specific TX descriptor + * @param[in] desc A pointer of a transmission descriptor + * @param[in] bufAddr buffer address to be sent + * @retval None + */ +void ETH_SetTxDescBufAddr(ETH_TX_DESC *desc, uint32_t bufAddr); + +/** + * @brief Get buffer address of the specific TX descriptor + * @param[in] desc A pointer of a transmission descriptor + * @retval uint32_t buffer address to be gotten + */ +uint32_t ETH_GetTxDescBufAddr(ETH_TX_DESC *desc); + +/** + * @brief Set ethernet receive descriptor ring + * @note Make sure that memory occupied by descriptors should be in physical + * memory and keep valid before ethernet receive is finished. + * @param[in] ring A pointer to header of ETH_TX_DESC ring, whose last node + * has a 'nextDescAddr' pointed to first node. + * @retval BOOL The bit indicates if valid ring is set + */ +BOOL ETH_SetRxDescRing(ETH_RX_DESC *ring); + +/** + * @brief Start ethernet receive + * @param None + * @retval None + */ +void ETH_StartRx(void); + +/** + * @brief Stop ethernet receive + * @param None + * @retval None + */ +void ETH_StopRx(void); + +/** + * @brief Resume ethernet receive\n + * While ethernet doesn't have enough buffer to receive data, it will + * pause and inform users by interrupt 'ETH_INT_RX_BUF_UNAVAI'. Users + * must call this function to start ethernet again after new buffer + * prepared. + * @param None + * @retval None + */ +void ETH_ResumeRx(void); + +/** + * @brief Get the free descriptor which contains received data\n + * @param None + * @retval ETH_RX_DESC* A pointer of free receive descriptor, + * NULL if no free descriptor + */ +ETH_RX_DESC *ETH_AcquireFreeRxDesc(void); + +/** + * @brief Check if a receive descriptor is free or not + * @param[in] desc A pointer of a receive descriptor + * @retval BOOL True if the receive descriptor is free, or flase. + */ +BOOL ETH_IsFreeRxDesc(ETH_RX_DESC *desc); + +/** + * @brief Release a receive descriptor to ethernet\n + * After users handled data in the buffer of a free descriptor, + * They must call this function to change ownership of the + * descriptor to hardware. + * @param[in] desc A pointer of a transmission descriptor + * @retval None + */ +void ETH_ReleaseRxDesc(ETH_RX_DESC *desc); + +/** + * @brief Set buffer address of the specific RX descriptor + * @param[in] desc A pointer of a receive descriptor + * @param[in] bufAddr buffer address to be received + * @retval None + */ +void ETH_SetRxDescBufAddr(ETH_RX_DESC *desc, uint32_t bufAddr); + +/** + * @brief Get buffer address of the specific RX descriptor + * @param[in] desc A pointer of a receive descriptor + * @retval uint32_t buffer address to be gotten + */ +uint32_t ETH_GetRxDescBufAddr(ETH_RX_DESC *desc); + +#ifdef __cplusplus +} +#endif + +#endif /* __CMEM7_ETH_H */ + diff --git a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_flash.h b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_flash.h index 477cc59212..b2ef305965 100644 --- a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_flash.h +++ b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_flash.h @@ -200,7 +200,15 @@ void FLASH_Read(uint8_t ReadMode, uint32_t addr, uint16_t size, uint8_t* data); * @param[out] data A pointer to the data to be written * @retval None */ -void FLASH_Write(uint32_t addr, uint16_t size, uint8_t* data); +void FLASH_Write(uint32_t addr, uint16_t size, uint8_t* data); + + +void flash_WaitInWritting(void) ; + +void flash_WaitReadFifoNotEmpty(void); + +uint16_t flash_ReadFifo(uint16_t size, uint8_t* data) ; + #ifdef __cplusplus } diff --git a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_gpio.h b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_gpio.h index 836bc2f7b6..e76d9d42d2 100644 --- a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_gpio.h +++ b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_gpio.h @@ -139,6 +139,17 @@ void GPIO_InitPwm(uint8_t Channel, uint32_t HighLevelNanoSecond, uint32_t LowLev * @retval None */ void GPIO_EnablePwm(uint8_t Channel, BOOL Enable); + + + +/** + xjf 20150324 + +**/ +void GPIO_SetBits(uint32_t mask); +void GPIO_clrBits(uint32_t mask); +uint32_t GPIO_getBits(uint32_t mask); + #ifdef __cplusplus } diff --git a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_includes.h b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_includes.h index a7e6cc2cc4..54d608dc41 100644 --- a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_includes.h +++ b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_includes.h @@ -101,6 +101,16 @@ #ifdef _WDG #include "cmem7_wdg.h" #endif + + +#ifdef _MARVELL + #include + #include +#endif + +#ifdef _IP1826D + #include +#endif #ifdef __cplusplus } diff --git a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_misc.h b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_misc.h index d0b980aa72..43744c2625 100644 --- a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_misc.h +++ b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_misc.h @@ -1,236 +1,276 @@ -/** - ***************************************************************************** - * @file cmem7_misc.h - * - * @brief CMEM7 miscellaneous header file - * - * - * @version V1.0 - * @date 3. September 2013 - * - * @note - * - ***************************************************************************** - * @attention - * - * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS - * WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE - * TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT, - * INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING - * FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE - * CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. - * - *

© COPYRIGHT 2013 Capital-micro

- ***************************************************************************** - */ - -#ifndef __CMEM7_MISC_H -#define __CMEM7_MISC_H - -#ifdef __cplusplus - extern "C" { -#endif - -#include "cmem7.h" -#include "cmem7_conf.h" - -/** - * @brief NVIC initialization structure - */ -/** -@code - The table below gives the allowed values of the pre-emption priority and subpriority according - to the Priority Grouping configuration performed by NVIC_PriorityGroupConfig function - ============================================================================================================================ - NVIC_PriorityGroup | NVIC_IRQChannelPreemptionPriority | NVIC_IRQChannelSubPriority | Description - ============================================================================================================================ - NVIC_PriorityGroup_0 | 0 | 0-15 | 0 bits for pre-emption priority - | | | 4 bits for subpriority - ---------------------------------------------------------------------------------------------------------------------------- - NVIC_PriorityGroup_1 | 0-1 | 0-7 | 1 bits for pre-emption priority - | | | 3 bits for subpriority - ---------------------------------------------------------------------------------------------------------------------------- - NVIC_PriorityGroup_2 | 0-3 | 0-3 | 2 bits for pre-emption priority - | | | 2 bits for subpriority - ---------------------------------------------------------------------------------------------------------------------------- - NVIC_PriorityGroup_3 | 0-7 | 0-1 | 3 bits for pre-emption priority - | | | 1 bits for subpriority - ---------------------------------------------------------------------------------------------------------------------------- - NVIC_PriorityGroup_4 | 0-15 | 0 | 4 bits for pre-emption priority - | | | 0 bits for subpriority - ============================================================================================================================ -@endcode - */ - -typedef struct -{ - uint8_t NVIC_IRQChannel; /*!< Specifies the IRQ channel to be enabled or disabled. - This parameter can be a value of @ref IRQn_Type - (For the complete Capital-micro Devices IRQ Channels list, please - refer to cmem7.h file) */ - - uint8_t NVIC_IRQChannelPreemptionPriority; /*!< Specifies the pre-emption priority for the IRQ channel - specified in NVIC_IRQChannel. This parameter can be a value - between 0 and 15 as described in the table @ref NVIC_Priority_Table */ - - uint8_t NVIC_IRQChannelSubPriority; /*!< Specifies the subpriority level for the IRQ channel specified - in NVIC_IRQChannel. This parameter can be a value - between 0 and 15 as described in the table @ref NVIC_Priority_Table */ - - BOOL NVIC_IRQChannelCmd; /*!< Specifies whether the IRQ channel defined in NVIC_IRQChannel - will be enabled or disabled. - This parameter can be set either to ENABLE or DISABLE */ -} NVIC_InitTypeDef; - - -/** @defgroup NVIC_VectTab - * @{ - */ - -#define NVIC_VectTab_RAM ((uint32_t)0x20000000) -#define NVIC_VectTab_FLASH ((uint32_t)0x08000000) -#define IS_NVIC_VECTTAB(VECTTAB) (((VECTTAB) == NVIC_VectTab_RAM) || \ - ((VECTTAB) == NVIC_VectTab_FLASH)) -/** - * @} - */ - -/** @defgroup NVIC_LP - * @{ - */ -#define NVIC_LP_SEVONPEND ((uint8_t)0x10) -#define NVIC_LP_SLEEPDEEP ((uint8_t)0x04) -#define NVIC_LP_SLEEPONEXIT ((uint8_t)0x02) -#define IS_NVIC_LP(LP) (((LP) == NVIC_LP_SEVONPEND) || \ - ((LP) == NVIC_LP_SLEEPDEEP) || \ - ((LP) == NVIC_LP_SLEEPONEXIT)) -/** - * @} - */ - -/** @defgroup NVIC_PriorityGroup - * @{ - */ -#define NVIC_PriorityGroup_0 ((uint32_t)0x700) /*!< 0 bits for pre-emption priority - 4 bits for subpriority */ -#define NVIC_PriorityGroup_1 ((uint32_t)0x600) /*!< 1 bits for pre-emption priority - 3 bits for subpriority */ -#define NVIC_PriorityGroup_2 ((uint32_t)0x500) /*!< 2 bits for pre-emption priority - 2 bits for subpriority */ -#define NVIC_PriorityGroup_3 ((uint32_t)0x400) /*!< 3 bits for pre-emption priority - 1 bits for subpriority */ -#define NVIC_PriorityGroup_4 ((uint32_t)0x300) /*!< 4 bits for pre-emption priority - 0 bits for subpriority */ - -#define IS_NVIC_PRIORITY_GROUP(GROUP) (((GROUP) == NVIC_PriorityGroup_0) || \ - ((GROUP) == NVIC_PriorityGroup_1) || \ - ((GROUP) == NVIC_PriorityGroup_2) || \ - ((GROUP) == NVIC_PriorityGroup_3) || \ - ((GROUP) == NVIC_PriorityGroup_4)) -/** - * @} - */ - -#define IS_NVIC_PREEMPTION_PRIORITY(PRIORITY) ((PRIORITY) < 0x10) - -#define IS_NVIC_SUB_PRIORITY(PRIORITY) ((PRIORITY) < 0x10) - -#define IS_NVIC_OFFSET(OFFSET) ((OFFSET) < 0x000FFFFF) - -/** - * @brief Configures the priority grouping: pre-emption priority and subpriority. - * @param NVIC_PriorityGroup: specifies the priority grouping bits length. - * This parameter can be one of the following values, ref as @ref NVIC_PriorityGroup: - * @arg NVIC_PriorityGroup_0: 0 bits for pre-emption priority - * 4 bits for subpriority - * @arg NVIC_PriorityGroup_1: 1 bits for pre-emption priority - * 3 bits for subpriority - * @arg NVIC_PriorityGroup_2: 2 bits for pre-emption priority - * 2 bits for subpriority - * @arg NVIC_PriorityGroup_3: 3 bits for pre-emption priority - * 1 bits for subpriority - * @arg NVIC_PriorityGroup_4: 4 bits for pre-emption priority - * 0 bits for subpriority - * @retval None - */ -void NVIC_PriorityGroupConfig(uint32_t NVIC_PriorityGroup); - -/** - * @brief Initializes the NVIC peripheral according to the specified - * parameters in the NVIC_InitStruct. - * @param NVIC_InitStruct: pointer to a NVIC_InitTypeDef structure that contains - * the configuration information for the specified NVIC peripheral. - * @retval None - */ -void NVIC_Init(NVIC_InitTypeDef* NVIC_InitStruct); - -/** - * @brief Sets the vector table location and Offset. - * @param NVIC_VectTab: specifies if the vector table is in RAM or FLASH memory. - * This parameter can be one of the following values, ref as @ref NVIC_VectTab: - * @arg NVIC_VectTab_RAM - * @arg NVIC_VectTab_FLASH - * @param Offset: Vector Table base offset field. This value must be a multiple - * of 0x200. - * @retval None - */ -void NVIC_SetVectorTable(uint32_t NVIC_VectTab, uint32_t Offset); - -/** - * @brief Selects the condition for the system to enter low power mode. - * @param LowPowerMode: Specifies the new mode for the system to enter low power mode. - * This parameter can be one of the following values, ref as @ref NVIC_LP: - * @arg NVIC_LP_SEVONPEND - * @arg NVIC_LP_SLEEPDEEP - * @arg NVIC_LP_SLEEPONEXIT - * @param NewState: new state of LP condition. This parameter can be: ENABLE or DISABLE. - * @retval None - */ -void NVIC_SystemLPConfig(uint8_t LowPowerMode, BOOL NewState); - -/** - * @brief Memory map from address 'from' to 'address 'to' and open icache or not - * @param[in] from address to be mapped from - * @param[in] to address to be mapped to - * @param[in] isIcacheOn icache is on or off - * @retval None - */ -void GLB_MMAP(uint32_t from, uint32_t to, BOOL isIcacheOn); - -/** - * @brief Set NMI irq number, it should be one of @ref IRQn_Type. - * @Note You can assign any valid IRQn_Type to NMI. After that, you will enter NMI - * interrupt routine if the specific 'irq' occurs. By default, NMI irq number - * is 0, same as ETH_INT_IRQn - * @param[in] irq irq number - * @retval None - */ -void GLB_SetNmiIrqNum(uint32_t irq); - -/** @defgroup SYS_CLK_SEL - * @{ - */ -#define SYS_CLK_SEL_OSC 0x0 -#define SYS_CLK_SEL_DLL 0x1 -#define SYS_CLK_SEL_CRYSTAL 0x2 -#define SYS_CLK_SEL_EXTERNAL 0x3 -/** - * @} - */ - -/** - * @brief Select system clock source, it should be one of @ref SYS_CLK_SEL. - * @Note You MUST make sure externel clock has been stabled if clock - * source is external before call this function. - * Default value is SYS_CLK_SEL_OSC - * @param[in] irq irq number - * @retval None - */ -void GLB_SelectSysClkSource(uint8_t source); - -#ifdef __cplusplus -} -#endif - -#endif /* __CMEM7_MISC_H */ - +/** + ***************************************************************************** + * @file cmem7_misc.h + * + * @brief CMEM7 miscellaneous header file + * + * + * @version V1.0 + * @date 3. September 2013 + * + * @note + * + ***************************************************************************** + * @attention + * + * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS + * WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE + * TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT, + * INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING + * FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE + * CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. + * + *

© COPYRIGHT 2013 Capital-micro

+ ***************************************************************************** + */ + +#ifndef __CMEM7_MISC_H +#define __CMEM7_MISC_H + +#ifdef __cplusplus + extern "C" { +#endif + +#include "cmem7.h" +#include "cmem7_conf.h" + +/** + * @brief NVIC initialization structure + */ +/** +@code + The table below gives the allowed values of the pre-emption priority and subpriority according + to the Priority Grouping configuration performed by NVIC_PriorityGroupConfig function + ============================================================================================================================ + NVIC_PriorityGroup | NVIC_IRQChannelPreemptionPriority | NVIC_IRQChannelSubPriority | Description + ============================================================================================================================ + NVIC_PriorityGroup_0 | 0 | 0-15 | 0 bits for pre-emption priority + | | | 4 bits for subpriority + ---------------------------------------------------------------------------------------------------------------------------- + NVIC_PriorityGroup_1 | 0-1 | 0-7 | 1 bits for pre-emption priority + | | | 3 bits for subpriority + ---------------------------------------------------------------------------------------------------------------------------- + NVIC_PriorityGroup_2 | 0-3 | 0-3 | 2 bits for pre-emption priority + | | | 2 bits for subpriority + ---------------------------------------------------------------------------------------------------------------------------- + NVIC_PriorityGroup_3 | 0-7 | 0-1 | 3 bits for pre-emption priority + | | | 1 bits for subpriority + ---------------------------------------------------------------------------------------------------------------------------- + NVIC_PriorityGroup_4 | 0-15 | 0 | 4 bits for pre-emption priority + | | | 0 bits for subpriority + ============================================================================================================================ +@endcode + */ + +typedef struct +{ + uint8_t NVIC_IRQChannel; /*!< Specifies the IRQ channel to be enabled or disabled. + This parameter can be a value of @ref IRQn_Type + (For the complete Capital-micro Devices IRQ Channels list, please + refer to cmem7.h file) */ + + uint8_t NVIC_IRQChannelPreemptionPriority; /*!< Specifies the pre-emption priority for the IRQ channel + specified in NVIC_IRQChannel. This parameter can be a value + between 0 and 15 as described in the table @ref NVIC_Priority_Table */ + + uint8_t NVIC_IRQChannelSubPriority; /*!< Specifies the subpriority level for the IRQ channel specified + in NVIC_IRQChannel. This parameter can be a value + between 0 and 15 as described in the table @ref NVIC_Priority_Table */ + + BOOL NVIC_IRQChannelCmd; /*!< Specifies whether the IRQ channel defined in NVIC_IRQChannel + will be enabled or disabled. + This parameter can be set either to ENABLE or DISABLE */ +} NVIC_InitTypeDef; + + +/** @defgroup NVIC_VectTab + * @{ + */ + +#define NVIC_VectTab_CME_CODE ((uint32_t)0x00000000) +#define NVIC_VectTab_RAM ((uint32_t)0x20000000) +#define NVIC_VectTab_FLASH ((uint32_t)0x08000000) +#define IS_NVIC_VECTTAB(VECTTAB) (((VECTTAB) == NVIC_VectTab_CME_CODE) || \ + ((VECTTAB) == NVIC_VectTab_RAM) || \ + ((VECTTAB) == NVIC_VectTab_FLASH)) +/** + * @} + */ + +/** @defgroup NVIC_LP + * @{ + */ +#define NVIC_LP_SEVONPEND ((uint8_t)0x10) +#define NVIC_LP_SLEEPDEEP ((uint8_t)0x04) +#define NVIC_LP_SLEEPONEXIT ((uint8_t)0x02) +#define IS_NVIC_LP(LP) (((LP) == NVIC_LP_SEVONPEND) || \ + ((LP) == NVIC_LP_SLEEPDEEP) || \ + ((LP) == NVIC_LP_SLEEPONEXIT)) +/** + * @} + */ + +/** @defgroup NVIC_PriorityGroup + * @{ + */ +#define NVIC_PriorityGroup_0 ((uint32_t)0x700) /*!< 0 bits for pre-emption priority + 4 bits for subpriority */ +#define NVIC_PriorityGroup_1 ((uint32_t)0x600) /*!< 1 bits for pre-emption priority + 3 bits for subpriority */ +#define NVIC_PriorityGroup_2 ((uint32_t)0x500) /*!< 2 bits for pre-emption priority + 2 bits for subpriority */ +#define NVIC_PriorityGroup_3 ((uint32_t)0x400) /*!< 3 bits for pre-emption priority + 1 bits for subpriority */ +#define NVIC_PriorityGroup_4 ((uint32_t)0x300) /*!< 4 bits for pre-emption priority + 0 bits for subpriority */ + +#define IS_NVIC_PRIORITY_GROUP(GROUP) (((GROUP) == NVIC_PriorityGroup_0) || \ + ((GROUP) == NVIC_PriorityGroup_1) || \ + ((GROUP) == NVIC_PriorityGroup_2) || \ + ((GROUP) == NVIC_PriorityGroup_3) || \ + ((GROUP) == NVIC_PriorityGroup_4)) +/** + * @} + */ + +#define IS_NVIC_PREEMPTION_PRIORITY(PRIORITY) ((PRIORITY) < 0x10) + +#define IS_NVIC_SUB_PRIORITY(PRIORITY) ((PRIORITY) < 0x10) + +#define IS_NVIC_OFFSET(OFFSET) ((OFFSET) < 0x000FFFFF) + +/** + * @brief Configures the priority grouping: pre-emption priority and subpriority. + * @param NVIC_PriorityGroup: specifies the priority grouping bits length. + * This parameter can be one of the following values, ref as @ref NVIC_PriorityGroup: + * @arg NVIC_PriorityGroup_0: 0 bits for pre-emption priority + * 4 bits for subpriority + * @arg NVIC_PriorityGroup_1: 1 bits for pre-emption priority + * 3 bits for subpriority + * @arg NVIC_PriorityGroup_2: 2 bits for pre-emption priority + * 2 bits for subpriority + * @arg NVIC_PriorityGroup_3: 3 bits for pre-emption priority + * 1 bits for subpriority + * @arg NVIC_PriorityGroup_4: 4 bits for pre-emption priority + * 0 bits for subpriority + * @retval None + */ +void NVIC_PriorityGroupConfig(uint32_t NVIC_PriorityGroup); + +/** + * @brief Initializes the NVIC peripheral according to the specified + * parameters in the NVIC_InitStruct. + * @param NVIC_InitStruct: pointer to a NVIC_InitTypeDef structure that contains + * the configuration information for the specified NVIC peripheral. + * @retval None + */ +void NVIC_Init(NVIC_InitTypeDef* NVIC_InitStruct); + +/** + * @brief Sets the vector table location and Offset. + * @param NVIC_VectTab: specifies if the vector table is in RAM or FLASH memory. + * This parameter can be one of the following values, ref as @ref NVIC_VectTab: + * @arg NVIC_VectTab_RAM + * @arg NVIC_VectTab_FLASH + * @param Offset: Vector Table base offset field. This value must be a multiple + * of 0x200. + * @retval None + */ +void NVIC_SetVectorTable(uint32_t NVIC_VectTab, uint32_t Offset); + +/** + * @brief Selects the condition for the system to enter low power mode. + * @param LowPowerMode: Specifies the new mode for the system to enter low power mode. + * This parameter can be one of the following values, ref as @ref NVIC_LP: + * @arg NVIC_LP_SEVONPEND + * @arg NVIC_LP_SLEEPDEEP + * @arg NVIC_LP_SLEEPONEXIT + * @param NewState: new state of LP condition. This parameter can be: ENABLE or DISABLE. + * @retval None + */ +void NVIC_SystemLPConfig(uint8_t LowPowerMode, BOOL NewState); + +/** + * @brief Memory map from address 'from' to 'address 'to' and open icache or not + * @param[in] from address to be mapped from + * @param[in] to address to be mapped to + * @param[in] isIcacheOn icache is on or off + * @retval None + */ +void GLB_MMAP(uint32_t from, uint32_t to, BOOL isIcacheOn); + +/** + * @brief Convert the mapping destination address to source address + * @param[in] to address to be mapped to + * @retval uint32_t address to be mapped from + */ +uint32_t GLB_ConvertToMappingFromAddr(uint32_t to); + +/** + * @brief Convert the mapping source address to destination address + * @param[in] from address to be mapped from + * @retval uint32_t address to be mapped to + */ +uint32_t GLB_ConvertToMappingToAddr(uint32_t from); + +/** + * @brief Set NMI irq number, it should be one of @ref IRQn_Type. + * @Note You can assign any valid IRQn_Type to NMI. After that, you will enter NMI + * interrupt routine if the specific 'irq' occurs. By default, NMI irq number + * is 0, same as ETH_INT_IRQn + * @param[in] irq irq number + * @retval None + */ +void GLB_SetNmiIrqNum(uint32_t irq); + +/** @defgroup SYS_CLK_SEL + * @{ + */ +#define SYS_CLK_SEL_OSC 0x0 +#define SYS_CLK_SEL_DLL 0x1 +#define SYS_CLK_SEL_CRYSTAL 0x2 +#define SYS_CLK_SEL_EXTERNAL 0x3 +/** + * @} + */ + +/** + * @brief Select system clock source, it should be one of @ref SYS_CLK_SEL. + * @Note You MUST make sure externel clock has been stabled if clock + * source is external before call this function. + * Default value is SYS_CLK_SEL_OSC + * @param[in] irq irq number + * @retval None + */ +void GLB_SelectSysClkSource(uint8_t source); + +/** + * @brief Simulate instruction 'STRB' or 'STRH' with 'BFI' + * @Note In M7, you have to write a register in 32-bit alignment, + * not in 8-bit or 16-bit. + * @param[in] addr register address to be written + * @param[in] value value to be written + * @param[in] lsb LSB in register to be written + * @param[in] len bit length to be written + * @retval None + */ + + +//#define aaaa(len) __asm("LDR len, 11") + +#define CMEM7_BFI(addr, value, lsb, len) \ + do { \ + unsigned long tmp; \ + unsigned long tmp1 = (unsigned long)addr; \ + \ + __asm("LDR tmp, [tmp1]\n" \ + "BFI tmp, "#value", "#lsb", "#len" \n" \ + "STR tmp, [tmp1]\n"); \ + } while (0) + +#ifdef __cplusplus +} +#endif + +#endif /* __CMEM7_MISC_H */ + diff --git a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_rtc.h b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_rtc.h index bb04de5d83..00d5d74520 100644 --- a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_rtc.h +++ b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_rtc.h @@ -1,89 +1,89 @@ -/** - ***************************************************************************** - * @file cmem7_rtc.h - * - * @brief CMEM7 RTC header file - * - * - * @version V1.0 - * @date 3. September 2013 - * - * @note - * - ***************************************************************************** - * @attention - * - * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS - * WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE - * TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT, - * INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING - * FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE - * CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. - * - *

© COPYRIGHT 2013 Capital-micro

- ***************************************************************************** - */ - -#ifndef __CMEM7_RTC_H -#define __CMEM7_RTC_H - -#ifdef __cplusplus - extern "C" { -#endif - -#include "cmem7.h" -#include "cmem7_conf.h" - -/** @defgroup RTC_Int - * @{ - */ -#define RTC_Int_Second ((uint32_t)0x00000001) -#define RTC_Int_Microsecond ((uint32_t)0x00000002) -#define RTC_Int_All ((uint32_t)0x00000003) -#define IS_RTC_INT(INT) (((INT) != 0) && (((INT) & ~RTC_Int_All) == 0)) -/** - * @} - */ - -/** - * @brief Enable or disable RTC interrupt. - * @param[in] Int interrupt mask bits, which can be the combination of @ref RTC_Int - * @param[in] Enable The bit indicates if specific interrupts are enable or not - * @retval None - */ -void RTC_EnableInt(uint32_t Int, BOOL Enable); - -/** - * @brief Check specific interrupts are set or not - * @param[in] Int interrupt mask bits, which can be the combination of @ref RTC_Int - * @retval BOOL The bit indicates if specific interrupts are set or not - */ -BOOL RTC_GetIntStatus(uint32_t Int); - -/** - * @brief Clear specific interrupts - * @param[in] Int interrupt mask bits, which can be the combination of @ref RTC_Int - * @retval None - */ -void RTC_ClearInt(uint32_t Int); - -/** - * @brief Get seconds since power up - * @param None - * @retval uint32_t Seconds since power up - */ -uint32_t RTC_GetSecond(void); - -/** - * @brief Get current micro-seconds - * @param None - * @retval uint32_t Current micro-seconds - */ -uint16_t RTC_GetMicroSecond(void); - -#ifdef __cplusplus -} -#endif - -#endif /* __CMEM7_RTC_H */ - +/** + ***************************************************************************** + * @file cmem7_rtc.h + * + * @brief CMEM7 RTC header file + * + * + * @version V1.0 + * @date 3. September 2013 + * + * @note + * + ***************************************************************************** + * @attention + * + * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS + * WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE + * TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT, + * INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING + * FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE + * CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. + * + *

© COPYRIGHT 2013 Capital-micro

+ ***************************************************************************** + */ + +#ifndef __CMEM7_RTC_H +#define __CMEM7_RTC_H + +#ifdef __cplusplus + extern "C" { +#endif + +#include "cmem7.h" +#include "cmem7_conf.h" + +/** @defgroup RTC_Int + * @{ + */ +#define RTC_Int_Second ((uint32_t)0x00000001) +#define RTC_Int_Millsecond ((uint32_t)0x00000002) +#define RTC_Int_All ((uint32_t)0x00000003) +#define IS_RTC_INT(INT) (((INT) != 0) && (((INT) & ~RTC_Int_All) == 0)) +/** + * @} + */ + +/** + * @brief Enable or disable RTC interrupt. + * @param[in] Int interrupt mask bits, which can be the combination of @ref RTC_Int + * @param[in] Enable The bit indicates if specific interrupts are enable or not + * @retval None + */ +void RTC_ITConfig(uint32_t Int, BOOL Enable); + +/** + * @brief Check specific interrupts are set or not + * @param[in] Int interrupt mask bits, which can be the combination of @ref RTC_Int + * @retval BOOL The bit indicates if specific interrupts are set or not + */ +BOOL RTC_GetITStatus(uint32_t Int); + +/** + * @brief Clear specific interrupts + * @param[in] Int interrupt mask bits, which can be the combination of @ref RTC_Int + * @retval None + */ +void RTC_ClearITPendingBit(uint32_t Int); + +/** + * @brief Get seconds since power up + * @param None + * @retval uint32_t Seconds since power up + */ +uint32_t RTC_GetSecond(void); + +/** + * @brief Get current millseconds + * @param None + * @retval uint32_t Current millseconds + */ +uint16_t RTC_GetMillSecond(void); + +#ifdef __cplusplus +} +#endif + +#endif /* __CMEM7_RTC_H */ + diff --git a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_wdg.h b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_wdg.h index 86fecbe8fa..5abf7ba0d8 100644 --- a/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_wdg.h +++ b/bsp/CME_M7/StdPeriph_Driver/inc/cmem7_wdg.h @@ -1,103 +1,110 @@ -/** - ***************************************************************************** - * @file cmem7_wdg.h - * - * @brief CMEM7 watchdog header file - * - * - * @version V1.0 - * @date 3. September 2013 - * - * @note - * - ***************************************************************************** - * @attention - * - * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS - * WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE - * TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT, - * INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING - * FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE - * CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. - * - *

© COPYRIGHT 2013 Capital-micro

- ***************************************************************************** - */ - -#ifndef __CMEM7_WDG_H -#define __CMEM7_WDG_H - -#ifdef __cplusplus - extern "C" { -#endif - -#include "cmem7.h" -#include "cmem7_conf.h" - -/** @defgroup WDG_INT - * @{ - */ -#define WDG_INT_QUARTER 0 -#define WDG_INT_HALF 1 -#define IS_WDG_INT(INT) (((INT) == WDG_INT_QUARTER) || \ - ((INT) == WDG_INT_HALF)) -/** - * @} - */ - -/** @defgroup WDG_TRIGGER_MODE - * @{ - */ -#define WDG_TRIGGER_MODE_EDGE 0 -#define WDG_TRIGGER_MODE_LEVEL 1 -#define IS_WDG_TRIGGER_MODE(TRI) (((TRI) == WDG_TRIGGER_MODE_EDGE) || \ - ((TRI) == WDG_TRIGGER_MODE_LEVEL)) -/** - * @} - */ - -/** - * @brief Watchdog initialization - * @note This function should be called at first before any other interfaces. - * @param[in] trigger Watchdog interrupt trigger mode, which is a value of @ref WDG_TRIGGER_MODE - * @param[in] ResetMicroSecond MicroSeconds lasts before global reset - * @retval None - */ -void WDG_Init(uint8_t trigger, uint16_t ResetMicroSecond); - -/** - * @brief Enable or disable watchdog interrupt. - * @param[in] Int interrupt mask bits, which is a value of @ref WDG_INT - * @param[in] Enable The bit indicates if the specific interrupt are enable or not - * @retval None - */ -void WDG_EnableInt(uint8_t Int, BOOL Enable); - -/** - * @brief Check the specific interrupt are set or not - * @param None - * @retval BOOL The bit indicates if the specific interrupt are set or not - */ -BOOL WDG_GetIntStatus(void); - -/** - * @brief Clear the specific interrupt - * @param None - * @retval None - */ -void WDG_ClearInt(void); - -/** - * @brief Enable or disable watchdog. - * @param[in] Enable The bit indicates if watchdog is enable or not - * @retval None - */ -void WDG_Enable(BOOL Enable); - - -#ifdef __cplusplus -} -#endif - -#endif /* __CMEM7_WDG_H */ - +/** + ***************************************************************************** + * @file cmem7_wdg.h + * + * @brief CMEM7 watchdog header file + * + * + * @version V1.0 + * @date 3. September 2013 + * + * @note + * + ***************************************************************************** + * @attention + * + * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS + * WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE + * TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT, + * INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING + * FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE + * CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. + * + *

© COPYRIGHT 2013 Capital-micro

+ ***************************************************************************** + */ + +#ifndef __CMEM7_WDG_H +#define __CMEM7_WDG_H + +#ifdef __cplusplus + extern "C" { +#endif + +#include "cmem7.h" +#include "cmem7_conf.h" + +/** @defgroup WDG_INT + * @{ + */ +#define WDG_INT_QUARTER 0 +#define WDG_INT_HALF 1 +#define IS_WDG_INT(INT) (((INT) == WDG_INT_QUARTER) || \ + ((INT) == WDG_INT_HALF)) +/** + * @} + */ + +/** @defgroup WDG_TRIGGER_MODE + * @{ + */ +#define WDG_TRIGGER_MODE_EDGE 0 +#define WDG_TRIGGER_MODE_LEVEL 1 +#define IS_WDG_TRIGGER_MODE(TRI) (((TRI) == WDG_TRIGGER_MODE_EDGE) || \ + ((TRI) == WDG_TRIGGER_MODE_LEVEL)) +/** + * @} + */ + +/** + * @brief Deinitializes the Watchdog peripheral registers to their default reset values. + * @param[in] None + * @retval None + */ +void WDG_DeInit(void); + +/** + * @brief Watchdog initialization + * @note This function should be called at first before any other interfaces. + * @param[in] trigger Watchdog interrupt trigger mode, which is a value of @ref WDG_TRIGGER_MODE + * @param[in] ResetMillSecond MillSeconds lasts before global reset + * @retval None + */ +void WDG_Init(uint8_t trigger, uint16_t ResetMillSecond); + +/** + * @brief Enable or disable watchdog interrupt. + * @param[in] Int interrupt mask bits, which is a value of @ref WDG_INT + * @param[in] Enable The bit indicates if the specific interrupt are enable or not + * @retval None + */ +void WDG_ITConfig(uint8_t Int, BOOL Enable); + +/** + * @brief Check the specific interrupt are set or not + * @param None + * @retval BOOL The bit indicates if the specific interrupt are set or not + */ +BOOL WDG_GetITStatus(void); + +/** + * @brief Clear the specific interrupt + * @param None + * @retval None + */ +void WDG_ClearITPendingBit(void); + +/** + * @brief Enable or disable watchdog. + * @param[in] Enable The bit indicates if watchdog is enable or not + * @retval None + */ +void WDG_Cmd(BOOL Enable); + + +#ifdef __cplusplus +} +#endif + +#endif /* __CMEM7_WDG_H */ +