rt-thread/bsp/ra6m4-cpk/ra/fsp/inc/fsp_features.h

288 lines
18 KiB
C

/***********************************************************************************************************************
* Copyright [2020-2021] Renesas Electronics Corporation and/or its affiliates. All Rights Reserved.
*
* This software and documentation are supplied by Renesas Electronics America Inc. and may only be used with products
* of Renesas Electronics Corp. and its affiliates ("Renesas"). No other uses are authorized. Renesas products are
* sold pursuant to Renesas terms and conditions of sale. Purchasers are solely responsible for the selection and use
* of Renesas products and Renesas assumes no liability. No license, express or implied, to any intellectual property
* right is granted by Renesas. This software is protected under all applicable laws, including copyright laws. Renesas
* reserves the right to change or discontinue this software and/or this documentation. THE SOFTWARE AND DOCUMENTATION
* IS DELIVERED TO YOU "AS IS," AND RENESAS MAKES NO REPRESENTATIONS OR WARRANTIES, AND TO THE FULLEST EXTENT
* PERMISSIBLE UNDER APPLICABLE LAW, DISCLAIMS ALL WARRANTIES, WHETHER EXPLICITLY OR IMPLICITLY, INCLUDING WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT, WITH RESPECT TO THE SOFTWARE OR
* DOCUMENTATION. RENESAS SHALL HAVE NO LIABILITY ARISING OUT OF ANY SECURITY VULNERABILITY OR BREACH. TO THE MAXIMUM
* EXTENT PERMITTED BY LAW, IN NO EVENT WILL RENESAS BE LIABLE TO YOU IN CONNECTION WITH THE SOFTWARE OR DOCUMENTATION
* (OR ANY PERSON OR ENTITY CLAIMING RIGHTS DERIVED FROM YOU) FOR ANY LOSS, DAMAGES, OR CLAIMS WHATSOEVER, INCLUDING,
* WITHOUT LIMITATION, ANY DIRECT, CONSEQUENTIAL, SPECIAL, INDIRECT, PUNITIVE, OR INCIDENTAL DAMAGES; ANY LOST PROFITS,
* OTHER ECONOMIC DAMAGE, PROPERTY DAMAGE, OR PERSONAL INJURY; AND EVEN IF RENESAS HAS BEEN ADVISED OF THE POSSIBILITY
* OF SUCH LOSS, DAMAGES, CLAIMS OR COSTS.
**********************************************************************************************************************/
#ifndef FSP_FEATURES_H
#define FSP_FEATURES_H
/***********************************************************************************************************************
* Includes <System Includes> , "Project Includes"
**********************************************************************************************************************/
/* C99 includes. */
#include <stdint.h>
#include <stddef.h>
#include <stdbool.h>
#include <assert.h>
/* Different compiler support. */
#include "fsp_common_api.h"
#include "../../fsp/src/bsp/mcu/all/bsp_compiler_support.h"
/***********************************************************************************************************************
* Macro definitions
**********************************************************************************************************************/
/*******************************************************************************************************************//**
* @addtogroup BSP_MCU
* @{
**********************************************************************************************************************/
/***********************************************************************************************************************
* Typedef definitions
**********************************************************************************************************************/
/** Available modules. */
typedef enum e_fsp_ip
{
FSP_IP_CFLASH = 0, ///< Code Flash
FSP_IP_DFLASH = 1, ///< Data Flash
FSP_IP_RAM = 2, ///< RAM
FSP_IP_LVD = 3, ///< Low Voltage Detection
FSP_IP_CGC = 3, ///< Clock Generation Circuit
FSP_IP_LPM = 3, ///< Low Power Modes
FSP_IP_FCU = 4, ///< Flash Control Unit
FSP_IP_ICU = 6, ///< Interrupt Control Unit
FSP_IP_DMAC = 7, ///< DMA Controller
FSP_IP_DTC = 8, ///< Data Transfer Controller
FSP_IP_IOPORT = 9, ///< I/O Ports
FSP_IP_PFS = 10, ///< Pin Function Select
FSP_IP_ELC = 11, ///< Event Link Controller
FSP_IP_MPU = 13, ///< Memory Protection Unit
FSP_IP_MSTP = 14, ///< Module Stop
FSP_IP_MMF = 15, ///< Memory Mirror Function
FSP_IP_KEY = 16, ///< Key Interrupt Function
FSP_IP_CAC = 17, ///< Clock Frequency Accuracy Measurement Circuit
FSP_IP_DOC = 18, ///< Data Operation Circuit
FSP_IP_CRC = 19, ///< Cyclic Redundancy Check Calculator
FSP_IP_SCI = 20, ///< Serial Communications Interface
FSP_IP_IIC = 21, ///< I2C Bus Interface
FSP_IP_SPI = 22, ///< Serial Peripheral Interface
FSP_IP_CTSU = 23, ///< Capacitive Touch Sensing Unit
FSP_IP_SCE = 24, ///< Secure Cryptographic Engine
FSP_IP_SLCDC = 25, ///< Segment LCD Controller
FSP_IP_AES = 26, ///< Advanced Encryption Standard
FSP_IP_TRNG = 27, ///< True Random Number Generator
FSP_IP_FCACHE = 30, ///< Flash Cache
FSP_IP_SRAM = 31, ///< SRAM
FSP_IP_ADC = 32, ///< A/D Converter
FSP_IP_DAC = 33, ///< 12-Bit D/A Converter
FSP_IP_TSN = 34, ///< Temperature Sensor
FSP_IP_DAAD = 35, ///< D/A A/D Synchronous Unit
FSP_IP_ACMPHS = 36, ///< High Speed Analog Comparator
FSP_IP_ACMPLP = 37, ///< Low Power Analog Comparator
FSP_IP_OPAMP = 38, ///< Operational Amplifier
FSP_IP_SDADC = 39, ///< Sigma Delta A/D Converter
FSP_IP_RTC = 40, ///< Real Time Clock
FSP_IP_WDT = 41, ///< Watch Dog Timer
FSP_IP_IWDT = 42, ///< Independent Watch Dog Timer
FSP_IP_GPT = 43, ///< General PWM Timer
FSP_IP_POEG = 44, ///< Port Output Enable for GPT
FSP_IP_OPS = 45, ///< Output Phase Switch
FSP_IP_AGT = 47, ///< Asynchronous General-Purpose Timer
FSP_IP_CAN = 48, ///< Controller Area Network
FSP_IP_IRDA = 49, ///< Infrared Data Association
FSP_IP_QSPI = 50, ///< Quad Serial Peripheral Interface
FSP_IP_USBFS = 51, ///< USB Full Speed
FSP_IP_SDHI = 52, ///< SD/MMC Host Interface
FSP_IP_SRC = 53, ///< Sampling Rate Converter
FSP_IP_SSI = 54, ///< Serial Sound Interface
FSP_IP_DALI = 55, ///< Digital Addressable Lighting Interface
FSP_IP_ETHER = 64, ///< Ethernet MAC Controller
FSP_IP_EDMAC = 64, ///< Ethernet DMA Controller
FSP_IP_EPTPC = 65, ///< Ethernet PTP Controller
FSP_IP_PDC = 66, ///< Parallel Data Capture Unit
FSP_IP_GLCDC = 67, ///< Graphics LCD Controller
FSP_IP_DRW = 68, ///< 2D Drawing Engine
FSP_IP_JPEG = 69, ///< JPEG
FSP_IP_DAC8 = 70, ///< 8-Bit D/A Converter
FSP_IP_USBHS = 71, ///< USB High Speed
FSP_IP_OSPI = 72, ///< Octa Serial Peripheral Interface
FSP_IP_CEC = 73, ///< HDMI CEC
} fsp_ip_t;
/** Signals that can be mapped to an interrupt. */
typedef enum e_fsp_signal
{
FSP_SIGNAL_ADC_COMPARE_MATCH = 0, ///< ADC COMPARE MATCH
FSP_SIGNAL_ADC_COMPARE_MISMATCH, ///< ADC COMPARE MISMATCH
FSP_SIGNAL_ADC_SCAN_END, ///< ADC SCAN END
FSP_SIGNAL_ADC_SCAN_END_B, ///< ADC SCAN END B
FSP_SIGNAL_ADC_WINDOW_A, ///< ADC WINDOW A
FSP_SIGNAL_ADC_WINDOW_B, ///< ADC WINDOW B
FSP_SIGNAL_AES_RDREQ = 0, ///< AES RDREQ
FSP_SIGNAL_AES_WRREQ, ///< AES WRREQ
FSP_SIGNAL_AGT_COMPARE_A = 0, ///< AGT COMPARE A
FSP_SIGNAL_AGT_COMPARE_B, ///< AGT COMPARE B
FSP_SIGNAL_AGT_INT, ///< AGT INT
FSP_SIGNAL_CAC_FREQUENCY_ERROR = 0, ///< CAC FREQUENCY ERROR
FSP_SIGNAL_CAC_MEASUREMENT_END, ///< CAC MEASUREMENT END
FSP_SIGNAL_CAC_OVERFLOW, ///< CAC OVERFLOW
FSP_SIGNAL_CAN_ERROR = 0, ///< CAN ERROR
FSP_SIGNAL_CAN_FIFO_RX, ///< CAN FIFO RX
FSP_SIGNAL_CAN_FIFO_TX, ///< CAN FIFO TX
FSP_SIGNAL_CAN_MAILBOX_RX, ///< CAN MAILBOX RX
FSP_SIGNAL_CAN_MAILBOX_TX, ///< CAN MAILBOX TX
FSP_SIGNAL_CGC_MOSC_STOP = 0, ///< CGC MOSC STOP
FSP_SIGNAL_LPM_SNOOZE_REQUEST, ///< LPM SNOOZE REQUEST
FSP_SIGNAL_LVD_LVD1, ///< LVD LVD1
FSP_SIGNAL_LVD_LVD2, ///< LVD LVD2
FSP_SIGNAL_VBATT_LVD, ///< VBATT LVD
FSP_SIGNAL_LVD_VBATT = FSP_SIGNAL_VBATT_LVD, ///< LVD VBATT
FSP_SIGNAL_ACMPHS_INT = 0, ///< ACMPHS INT
FSP_SIGNAL_ACMPLP_INT = 0, ///< ACMPLP INT
FSP_SIGNAL_CTSU_END = 0, ///< CTSU END
FSP_SIGNAL_CTSU_READ, ///< CTSU READ
FSP_SIGNAL_CTSU_WRITE, ///< CTSU WRITE
FSP_SIGNAL_DALI_DEI = 0, ///< DALI DEI
FSP_SIGNAL_DALI_CLI, ///< DALI CLI
FSP_SIGNAL_DALI_SDI, ///< DALI SDI
FSP_SIGNAL_DALI_BPI, ///< DALI BPI
FSP_SIGNAL_DALI_FEI, ///< DALI FEI
FSP_SIGNAL_DALI_SDI_OR_BPI, ///< DALI SDI OR BPI
FSP_SIGNAL_DMAC_INT = 0, ///< DMAC INT
FSP_SIGNAL_DOC_INT = 0, ///< DOC INT
FSP_SIGNAL_DRW_INT = 0, ///< DRW INT
FSP_SIGNAL_DTC_COMPLETE = 0, ///< DTC COMPLETE
FSP_SIGNAL_DTC_END, ///< DTC END
FSP_SIGNAL_EDMAC_EINT = 0, ///< EDMAC EINT
FSP_SIGNAL_ELC_SOFTWARE_EVENT_0 = 0, ///< ELC SOFTWARE EVENT 0
FSP_SIGNAL_ELC_SOFTWARE_EVENT_1, ///< ELC SOFTWARE EVENT 1
FSP_SIGNAL_EPTPC_IPLS = 0, ///< EPTPC IPLS
FSP_SIGNAL_EPTPC_MINT, ///< EPTPC MINT
FSP_SIGNAL_EPTPC_PINT, ///< EPTPC PINT
FSP_SIGNAL_EPTPC_TIMER0_FALL, ///< EPTPC TIMER0 FALL
FSP_SIGNAL_EPTPC_TIMER0_RISE, ///< EPTPC TIMER0 RISE
FSP_SIGNAL_EPTPC_TIMER1_FALL, ///< EPTPC TIMER1 FALL
FSP_SIGNAL_EPTPC_TIMER1_RISE, ///< EPTPC TIMER1 RISE
FSP_SIGNAL_EPTPC_TIMER2_FALL, ///< EPTPC TIMER2 FALL
FSP_SIGNAL_EPTPC_TIMER2_RISE, ///< EPTPC TIMER2 RISE
FSP_SIGNAL_EPTPC_TIMER3_FALL, ///< EPTPC TIMER3 FALL
FSP_SIGNAL_EPTPC_TIMER3_RISE, ///< EPTPC TIMER3 RISE
FSP_SIGNAL_EPTPC_TIMER4_FALL, ///< EPTPC TIMER4 FALL
FSP_SIGNAL_EPTPC_TIMER4_RISE, ///< EPTPC TIMER4 RISE
FSP_SIGNAL_EPTPC_TIMER5_FALL, ///< EPTPC TIMER5 FALL
FSP_SIGNAL_EPTPC_TIMER5_RISE, ///< EPTPC TIMER5 RISE
FSP_SIGNAL_FCU_FIFERR = 0, ///< FCU FIFERR
FSP_SIGNAL_FCU_FRDYI, ///< FCU FRDYI
FSP_SIGNAL_GLCDC_LINE_DETECT = 0, ///< GLCDC LINE DETECT
FSP_SIGNAL_GLCDC_UNDERFLOW_1, ///< GLCDC UNDERFLOW 1
FSP_SIGNAL_GLCDC_UNDERFLOW_2, ///< GLCDC UNDERFLOW 2
FSP_SIGNAL_GPT_CAPTURE_COMPARE_A = 0, ///< GPT CAPTURE COMPARE A
FSP_SIGNAL_GPT_CAPTURE_COMPARE_B, ///< GPT CAPTURE COMPARE B
FSP_SIGNAL_GPT_COMPARE_C, ///< GPT COMPARE C
FSP_SIGNAL_GPT_COMPARE_D, ///< GPT COMPARE D
FSP_SIGNAL_GPT_COMPARE_E, ///< GPT COMPARE E
FSP_SIGNAL_GPT_COMPARE_F, ///< GPT COMPARE F
FSP_SIGNAL_GPT_COUNTER_OVERFLOW, ///< GPT COUNTER OVERFLOW
FSP_SIGNAL_GPT_COUNTER_UNDERFLOW, ///< GPT COUNTER UNDERFLOW
FSP_SIGNAL_GPT_AD_TRIG_A, ///< GPT AD TRIG A
FSP_SIGNAL_GPT_AD_TRIG_B, ///< GPT AD TRIG B
FSP_SIGNAL_OPS_UVW_EDGE, ///< OPS UVW EDGE
FSP_SIGNAL_ICU_IRQ0 = 0, ///< ICU IRQ0
FSP_SIGNAL_ICU_IRQ1, ///< ICU IRQ1
FSP_SIGNAL_ICU_IRQ2, ///< ICU IRQ2
FSP_SIGNAL_ICU_IRQ3, ///< ICU IRQ3
FSP_SIGNAL_ICU_IRQ4, ///< ICU IRQ4
FSP_SIGNAL_ICU_IRQ5, ///< ICU IRQ5
FSP_SIGNAL_ICU_IRQ6, ///< ICU IRQ6
FSP_SIGNAL_ICU_IRQ7, ///< ICU IRQ7
FSP_SIGNAL_ICU_IRQ8, ///< ICU IRQ8
FSP_SIGNAL_ICU_IRQ9, ///< ICU IRQ9
FSP_SIGNAL_ICU_IRQ10, ///< ICU IRQ10
FSP_SIGNAL_ICU_IRQ11, ///< ICU IRQ11
FSP_SIGNAL_ICU_IRQ12, ///< ICU IRQ12
FSP_SIGNAL_ICU_IRQ13, ///< ICU IRQ13
FSP_SIGNAL_ICU_IRQ14, ///< ICU IRQ14
FSP_SIGNAL_ICU_IRQ15, ///< ICU IRQ15
FSP_SIGNAL_ICU_SNOOZE_CANCEL, ///< ICU SNOOZE CANCEL
FSP_SIGNAL_IIC_ERI = 0, ///< IIC ERI
FSP_SIGNAL_IIC_RXI, ///< IIC RXI
FSP_SIGNAL_IIC_TEI, ///< IIC TEI
FSP_SIGNAL_IIC_TXI, ///< IIC TXI
FSP_SIGNAL_IIC_WUI, ///< IIC WUI
FSP_SIGNAL_IOPORT_EVENT_1 = 0, ///< IOPORT EVENT 1
FSP_SIGNAL_IOPORT_EVENT_2, ///< IOPORT EVENT 2
FSP_SIGNAL_IOPORT_EVENT_3, ///< IOPORT EVENT 3
FSP_SIGNAL_IOPORT_EVENT_4, ///< IOPORT EVENT 4
FSP_SIGNAL_IWDT_UNDERFLOW = 0, ///< IWDT UNDERFLOW
FSP_SIGNAL_JPEG_JDTI = 0, ///< JPEG JDTI
FSP_SIGNAL_JPEG_JEDI, ///< JPEG JEDI
FSP_SIGNAL_KEY_INT = 0, ///< KEY INT
FSP_SIGNAL_PDC_FRAME_END = 0, ///< PDC FRAME END
FSP_SIGNAL_PDC_INT, ///< PDC INT
FSP_SIGNAL_PDC_RECEIVE_DATA_READY, ///< PDC RECEIVE DATA READY
FSP_SIGNAL_POEG_EVENT = 0, ///< POEG EVENT
FSP_SIGNAL_QSPI_INT = 0, ///< QSPI INT
FSP_SIGNAL_RTC_ALARM = 0, ///< RTC ALARM
FSP_SIGNAL_RTC_PERIOD, ///< RTC PERIOD
FSP_SIGNAL_RTC_CARRY, ///< RTC CARRY
FSP_SIGNAL_SCE_INTEGRATE_RDRDY = 0, ///< SCE INTEGRATE RDRDY
FSP_SIGNAL_SCE_INTEGRATE_WRRDY, ///< SCE INTEGRATE WRRDY
FSP_SIGNAL_SCE_LONG_PLG, ///< SCE LONG PLG
FSP_SIGNAL_SCE_PROC_BUSY, ///< SCE PROC BUSY
FSP_SIGNAL_SCE_RDRDY_0, ///< SCE RDRDY 0
FSP_SIGNAL_SCE_RDRDY_1, ///< SCE RDRDY 1
FSP_SIGNAL_SCE_ROMOK, ///< SCE ROMOK
FSP_SIGNAL_SCE_TEST_BUSY, ///< SCE TEST BUSY
FSP_SIGNAL_SCE_WRRDY_0, ///< SCE WRRDY 0
FSP_SIGNAL_SCE_WRRDY_1, ///< SCE WRRDY 1
FSP_SIGNAL_SCE_WRRDY_4, ///< SCE WRRDY 4
FSP_SIGNAL_SCI_AM = 0, ///< SCI AM
FSP_SIGNAL_SCI_ERI, ///< SCI ERI
FSP_SIGNAL_SCI_RXI, ///< SCI RXI
FSP_SIGNAL_SCI_RXI_OR_ERI, ///< SCI RXI OR ERI
FSP_SIGNAL_SCI_TEI, ///< SCI TEI
FSP_SIGNAL_SCI_TXI, ///< SCI TXI
FSP_SIGNAL_SDADC_ADI = 0, ///< SDADC ADI
FSP_SIGNAL_SDADC_SCANEND, ///< SDADC SCANEND
FSP_SIGNAL_SDADC_CALIEND, ///< SDADC CALIEND
FSP_SIGNAL_SDHIMMC_ACCS = 0, ///< SDHIMMC ACCS
FSP_SIGNAL_SDHIMMC_CARD, ///< SDHIMMC CARD
FSP_SIGNAL_SDHIMMC_DMA_REQ, ///< SDHIMMC DMA REQ
FSP_SIGNAL_SDHIMMC_SDIO, ///< SDHIMMC SDIO
FSP_SIGNAL_SPI_ERI = 0, ///< SPI ERI
FSP_SIGNAL_SPI_IDLE, ///< SPI IDLE
FSP_SIGNAL_SPI_RXI, ///< SPI RXI
FSP_SIGNAL_SPI_TEI, ///< SPI TEI
FSP_SIGNAL_SPI_TXI, ///< SPI TXI
FSP_SIGNAL_SRC_CONVERSION_END = 0, ///< SRC CONVERSION END
FSP_SIGNAL_SRC_INPUT_FIFO_EMPTY, ///< SRC INPUT FIFO EMPTY
FSP_SIGNAL_SRC_OUTPUT_FIFO_FULL, ///< SRC OUTPUT FIFO FULL
FSP_SIGNAL_SRC_OUTPUT_FIFO_OVERFLOW, ///< SRC OUTPUT FIFO OVERFLOW
FSP_SIGNAL_SRC_OUTPUT_FIFO_UNDERFLOW, ///< SRC OUTPUT FIFO UNDERFLOW
FSP_SIGNAL_SSI_INT = 0, ///< SSI INT
FSP_SIGNAL_SSI_RXI, ///< SSI RXI
FSP_SIGNAL_SSI_TXI, ///< SSI TXI
FSP_SIGNAL_SSI_TXI_RXI, ///< SSI TXI RXI
FSP_SIGNAL_TRNG_RDREQ = 0, ///< TRNG RDREQ
FSP_SIGNAL_USB_FIFO_0 = 0, ///< USB FIFO 0
FSP_SIGNAL_USB_FIFO_1, ///< USB FIFO 1
FSP_SIGNAL_USB_INT, ///< USB INT
FSP_SIGNAL_USB_RESUME, ///< USB RESUME
FSP_SIGNAL_USB_USB_INT_RESUME, ///< USB USB INT RESUME
FSP_SIGNAL_WDT_UNDERFLOW = 0, ///< WDT UNDERFLOW
} fsp_signal_t;
typedef void (* fsp_vector_t)(void);
/** @} (end addtogroup BSP_MCU) */
#endif