/* * Copyright : (C) 2022 Phytium Information Technology, Inc. * All Rights Reserved. * * This program is OPEN SOURCE software: you can redistribute it and/or modify it * under the terms of the Phytium Public License as published by the Phytium Technology Co.,Ltd, * either version 1.0 of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful,but WITHOUT ANY WARRANTY; * without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * See the Phytium Public License for more details. * * * FilePath: fparameters_comm.h * Date: 2022-02-10 14:53:42 * LastEditTime: 2022-02-17 18:01:11 * Description:  This file is for * * Modify History: * Ver   Who        Date         Changes * ----- ------     --------    -------------------------------------- */ #ifndef BOARD_E2000_PARAMTERERS_COMMON_H #define BOARD_E2000_PARAMTERERS_COMMON_H #ifdef __cplusplus extern "C" { #endif /***************************** Include Files *********************************/ #if !defined(__ASSEMBLER__) #include "ftypes.h" #endif /************************** Constant Definitions *****************************/ /* CACHE */ #define CACHE_LINE_ADDR_MASK 0x3FUL #define CACHE_LINE 64U /* DEVICE Register Address */ #define FT_DEV_BASE_ADDR 0x28000000U #define FT_DEV_END_ADDR 0x2FFFFFFFU /* PCI */ #define FPCIE_NUM 1 #define FPCIE0_ID 0 #define FPCIE0_MISC_IRQ_NUM 40 #define FPCIE_CFG_MAX_NUM_OF_BUS 256 #define FPCIE_CFG_MAX_NUM_OF_DEV 32 #define FPCIE_CFG_MAX_NUM_OF_FUN 8 #define FPCI_CONFIG_BASE_ADDR 0x40000000U #define FPCI_CONFIG_REG_LENGTH 0x10000000U #define FPCI_IO_CONFIG_BASE_ADDR 0x50000000U #define FPCI_IO_CONFIG_REG_LENGTH 0x08000000U #define FPCI_MEM32_BASE_ADDR 0x58000000U #define FPCI_MEM32_REG_LENGTH 0x27FFFFFFU #define FPCI_MEM64_BASE_ADDR 0x1000000000U #define FPCI_MEM64_REG_LENGTH 0x1000000000U #define FPCI_EU0_C0_CONTROL_BASE_ADDR 0x29000000U #define FPCI_EU0_C1_CONTROL_BASE_ADDR 0x29010000U #define FPCI_EU0_C2_CONTROL_BASE_ADDR 0x29020000U #define FPCI_EU1_C0_CONTROL_BASE_ADDR 0x29030000U #define FPCI_EU1_C1_CONTROL_BASE_ADDR 0x29040000U #define FPCI_EU1_C2_CONTROL_BASE_ADDR 0x29050000U #define FPCI_EU0_CONFIG_BASE_ADDR 0x29100000U #define FPCI_EU1_CONFIG_BASE_ADDR 0x29101000U #define FPCI_INTA_IRQ_NUM 36 #define FPCI_INTB_IRQ_NUM 37 #define FPCI_INTC_IRQ_NUM 38 #define FPCI_INTD_IRQ_NUM 39 #define FPCI_NEED_SKIP 0 #define FPCI_INTX_PEU0_STAT 0x29100000U #define FPCI_INTX_PEU1_STAT 0x29101000U #define FPCI_INTX_EU0_C0_CONTROL 0x29000184U #define FPCI_INTX_EU0_C1_CONTROL 0x29010184U #define FPCI_INTX_EU0_C2_CONTROL 0x29020184U #define FPCI_INTX_EU1_C0_CONTROL 0x29030184U #define FPCI_INTX_EU1_C1_CONTROL 0x29040184U #define FPCI_INTX_EU1_C2_CONTROL 0x29050184U #define FPCI_INTX_CONTROL_NUM 6 /* Total number of controllers */ #define FPCI_INTX_SATA_NUM 2 /* Total number of controllers */ /* platform ahci host */ #define PLAT_AHCI_HOST_MAX_COUNT 5 #define AHCI_BASE_0 0 #define AHCI_BASE_1 0 #define AHCI_BASE_2 0 #define AHCI_BASE_3 0 #define AHCI_BASE_4 0 #define AHCI_IRQ_0 0 #define AHCI_IRQ_1 0 #define AHCI_IRQ_2 0 #define AHCI_IRQ_3 0 #define AHCI_IRQ_4 0 /* sata controller */ #define FSATA0_BASE_ADDR 0x31A40000U #define FSATA1_BASE_ADDR 0x32014000U #define FSATA0_IRQ_NUM 74 #define FSATA1_IRQ_NUM 75 #if !defined(__ASSEMBLER__) enum { FSATA0_ID = 0, FSATA1_ID = 1, FSATA_NUM }; #endif /* SCMI and MHU */ #define FSCMI_MHU_BASE_ADDR 0x32a00000 #define FSCMI_MHU_IRQ_NUM (22U + 32U) #define FSCMI_SHR_MEM_ADDR 0x32a11400 #define FSCMI_MEM_TX_OFSET 0x1400 #define FSCMI_MEM_RX_OFSET 0x1000 #define FSCMI_SHR_MEM_SIZE 0x400 #define FSCMI_MSG_SIZE 128 #define FSCMI_MAX_STR_SIZE 16 #define FSCMI_MAX_NUM_SENSOR 16 #define FSCMI_MAX_PROTOCOLS_IMP 16 #define FSCMI_MAX_PERF_DOMAINS 3 #define FSCMI_MAX_OPPS 4 /* UART */ #define FUART_NUM 4U #define FUART_REG_LENGTH 0x18000U #define FUART0_ID 0U #define FUART0_IRQ_NUM (85 + 30) #define FUART0_BASE_ADDR 0x2800c000U #define FUART0_CLK_FREQ_HZ 100000000U #define FUART1_ID 1U #define FUART1_IRQ_NUM (86 + 30) #define FUART1_BASE_ADDR 0x2800d000U #define FUART1_CLK_FREQ_HZ 100000000U #define FUART2_ID 2U #define FUART2_IRQ_NUM (87 + 30) #define FUART2_BASE_ADDR 0x2800e000U #define FUART2_CLK_FREQ_HZ 100000000U #define FUART3_BASE_ADDR 0x2800f000U #define FUART3_ID 3U #define FUART3_IRQ_NUM (88 + 30) #define FUART3_CLK_FREQ_HZ 100000000U #define FT_STDOUT_BASE_ADDR FUART1_BASE_ADDR #define FT_STDIN_BASE_ADDR FUART1_BASE_ADDR /****** GIC v3 *****/ #define FT_GICV3_INSTANCES_NUM 1U #define GICV3_REG_LENGTH 0x00009000U /* * The maximum priority value that can be used in the GIC. */ #define GICV3_MAX_INTR_PRIO_VAL 240U #define GICV3_INTR_PRIO_MASK 0x000000f0U #define ARM_GIC_NR_IRQS 270U #define ARM_GIC_IRQ_START 0U #define FGIC_NUM 1U #define ARM_GIC_IPI_COUNT 16U /* MPCore IPI count */ #define SGI_INT_MAX 16U #define SPI_START_INT_NUM 32U /* SPI start at ID32 */ #define PPI_START_INT_NUM 16U /* PPI start at ID16 */ #define GIC_INT_MAX_NUM 1020U /* GIC max interrupts count */ #define GICV3_BASE_ADDR 0x30800000U #define GICV3_DISTRIBUTOR_BASE_ADDR (GICV3_BASE_ADDR + 0) #define GICV3_RD_BASE_ADDR (GICV3_BASE_ADDR + 0x80000U) #define GICV3_RD_OFFSET (2U << 16) #define FT_GICV3_VECTORTABLE_NUM GIC_INT_MAX_NUM /* GPIO */ #if !defined(__ASSEMBLER__) enum { FGPIO0_ID = 0, FGPIO1_ID = 1, FGPIO2_ID, FGPIO3_ID, FGPIO4_ID, FGPIO5_ID, FGPIO_NUM }; #endif #define FGPIO_WITH_PIN_IRQ 2U /* max id of gpio assign irq for each pin */ #define FGPIO0_BASE_ADDR 0x28034000U #define FGPIO1_BASE_ADDR 0x28035000U #define FGPIO2_BASE_ADDR 0x28036000U #define FGPIO3_BASE_ADDR 0x28037000U #define FGPIO4_BASE_ADDR 0x28038000U #define FGPIO5_BASE_ADDR 0x28039000U #define FGPIO_CTRL_PIN_NUM 16U #define FGPIO_PIN_IRQ_BASE 140U #define FGPIO_PIN_IRQ_NUM_GET(id, pin) (FGPIO_PIN_IRQ_BASE + FGPIO_CTRL_PIN_NUM * (id) + (pin)) #define FGPIO_3_IRQ_NUM 188U #define FGPIO_4_IRQ_NUM 189U #define FGPIO_5_IRQ_NUM 190U #define FGPIO_PIN_IRQ_TOTAL 51U /* SPI */ #define FSPI0_BASE_ADDR 0x2803A000U #define FSPI1_BASE_ADDR 0x2803B000U #define FSPI2_BASE 0x2803C000U #define FSPI3_BASE 0x2803D000U #define FSPI0_ID 0U #define FSPI1_ID 1U #define FSPI2_ID 2U #define FSPI3_ID 3U #define FSPI0_IRQ_NUM 191U #define FSPI1_IRQ_NUM 192U #define FSPI2_IRQ_NUM 193U #define FSPI3_IRQ_NUM 194U #define FSPI_CLK_FREQ_HZ 50000000U #define FSPI_NUM 4U /* XMAC */ #define FXMAC_NUM 4U #define FXMAC0_ID 0U #define FXMAC1_ID 1U #define FXMAC2_ID 2U #define FXMAC3_ID 3U #define FXMAC0_BASE_ADDR 0x3200C000U #define FXMAC1_BASE_ADDR 0x3200E000U #define FXMAC2_BASE_ADDR 0x32010000U #define FXMAC3_BASE_ADDR 0x32012000U #define FXMAC0_MODE_SEL_BASE_ADDR 0x3200DC00U #define FXMAC0_LOOPBACK_SEL_BASE_ADDR 0x3200DC04U #define FXMAC1_MODE_SEL_BASE_ADDR 0x3200FC00U #define FXMAC1_LOOPBACK_SEL_BASE_ADDR 0x3200FC04U #define FXMAC2_MODE_SEL_BASE_ADDR 0x32011C00U #define FXMAC2_LOOPBACK_SEL_BASE_ADDR 0x32011C04U #define FXMAC3_MODE_SEL_BASE_ADDR 0x32013C00U #define FXMAC3_LOOPBACK_SEL_BASE_ADDR 0x32013C04U #define FXMAC0_PCLK 50000000U #define FXMAC1_PCLK 50000000U #define FXMAC2_PCLK 50000000U #define FXMAC3_PCLK 50000000U #define FXMAC0_HOTPLUG_IRQ_NUM (53U + 30U) #define FXMAC1_HOTPLUG_IRQ_NUM (54U + 30U) #define FXMAC2_HOTPLUG_IRQ_NUM (55U + 30U) #define FXMAC3_HOTPLUG_IRQ_NUM (56U + 30U) #define FXMAC_QUEUE_MAX_NUM 16U #define FXMAC0_QUEUE0_IRQ_NUM (57U + 30U) #define FXMAC0_QUEUE1_IRQ_NUM (58U + 30U) #define FXMAC0_QUEUE2_IRQ_NUM (59U + 30U) #define FXMAC0_QUEUE3_IRQ_NUM (60U + 30U) #define FXMAC0_QUEUE4_IRQ_NUM (30U + 30U) #define FXMAC0_QUEUE5_IRQ_NUM (31U + 30U) #define FXMAC0_QUEUE6_IRQ_NUM (32U + 30U) #define FXMAC0_QUEUE7_IRQ_NUM (33U + 30U) #define FXMAC1_QUEUE0_IRQ_NUM (61U + 30U) #define FXMAC1_QUEUE1_IRQ_NUM (62U + 30U) #define FXMAC1_QUEUE2_IRQ_NUM (63U + 30U) #define FXMAC1_QUEUE3_IRQ_NUM (64U + 30U) #define FXMAC2_QUEUE0_IRQ_NUM (66U + 30U) #define FXMAC2_QUEUE1_IRQ_NUM (67U + 30U) #define FXMAC2_QUEUE2_IRQ_NUM (68U + 30U) #define FXMAC2_QUEUE3_IRQ_NUM (69U + 30U) #define FXMAC3_QUEUE0_IRQ_NUM (70U + 30U) #define FXMAC3_QUEUE1_IRQ_NUM (71U + 30U) #define FXMAC3_QUEUE2_IRQ_NUM (72U + 30U) #define FXMAC3_QUEUE3_IRQ_NUM (73U + 30U) #define FXMAC_PHY_MAX_NUM 32U #define FXMAC_CLK_TYPE_0 #if !defined(__ASSEMBLER__) /* IOPAD */ enum { FIOPAD0_ID = 0, FIOPAD_NUM }; #endif /* QSPI */ #if !defined(__ASSEMBLER__) enum { FQSPI0_ID = 0, FQSPI_NUM }; #define FQSPI_BASE_ADDR 0x028008000U /* FQSPI cs 0_3, chip number */ enum { FQSPI_CS_0 = 0, FQSPI_CS_1 = 1, FQSPI_CS_2 = 2, FQSPI_CS_3 = 3, FQSPI_CS_NUM }; #endif #define FQSPI_MEM_START_ADDR 0x0U #define FQSPI_MEM_END_ADDR 0x0FFFFFFFU /* 256MB */ #define FQSPI_MEM_START_ADDR_64 0x100000000U #define FQSPI_MEM_END_ADDR_64 0x17FFFFFFFU /* 2GB */ /* TIMER and TACHO */ #define FTIMER_NUM 38U #define FTIMER_CLK_FREQ_HZ 50000000ULL /* 50MHz */ #define FTIMER_TICK_PERIOD_NS 20U /* 20ns */ #define FTIMER_TACHO_IRQ_NUM(n) (226U + (n)) #define FTIMER_TACHO_BASE_ADDR(n) (0x28054000U + 0x1000U * (n)) #if !defined(__ASSEMBLER__) enum { FTACHO0_ID = 0, FTACHO1_ID = 1, FTACHO2_ID, FTACHO3_ID, FTACHO4_ID, FTACHO5_ID, FTACHO6_ID, FTACHO7_ID, FTACHO8_ID, FTACHO9_ID, FTACHO10_ID, FTACHO11_ID, FTACHO12_ID, FTACHO13_ID, FTACHO14_ID, FTACHO15_ID, FTACHO_NUM } ; #endif /* GDMA */ #define FGDMA0_ID 0U #define FGDMA0_BASE_ADDR 0x32B34000U #define FGDMA0_CHANNEL0_IRQ_NUM 266U #define FGDMA_NUM_OF_CHAN 16 #define FGDMA_INSTANCE_NUM 1U #define FGDMA0_CAPACITY (1U<<0) /* CANFD */ #define FCAN_CLK_FREQ_HZ 200000000U #define FCAN0_BASE_ADDR 0x2800A000U #define FCAN1_BASE_ADDR 0x2800B000U #define FCAN0_IRQ_NUM 113U #define FCAN1_IRQ_NUM 114U #if !defined(__ASSEMBLER__) enum { FCAN0_ID = 0, FCAN1_ID = 1, FCAN_NUM }; #endif /* WDT */ #if !defined(__ASSEMBLER__) enum { FWDT0_ID = 0, FWDT1_ID, FWDT_NUM }; #endif #define FWDT0_REFRESH_BASE_ADDR 0x28040000U #define FWDT1_REFRESH_BASE_ADDR 0x28042000U #define FWDT_CONTROL_BASE_ADDR(x) ((x)+0x1000) #define FWDT0_IRQ_NUM 196U #define FWDT1_IRQ_NUM 197U #define FWDT_CLK_FREQ_HZ 48000000U /* 48MHz */ /*MIO*/ #define FMIO_BASE_ADDR(n) (0x28014000 + 0x2000 * (n)) #define FMIO_CONF_ADDR(n) FMIO_BASE_ADDR(n)+0x1000 #define FMIO_IRQ_NUM(n) (124+n) #define FMIO_CLK_FREQ_HZ 50000000 /* 50MHz */ #if !defined(__ASSEMBLER__) enum { FMIO0_ID = 0, FMIO1_ID = 1, FMIO2_ID, FMIO3_ID, FMIO4_ID, FMIO5_ID, FMIO6_ID, FMIO7_ID, FMIO8_ID, FMIO9_ID, FMIO10_ID, FMIO11_ID, FMIO12_ID, FMIO13_ID, FMIO14_ID, FMIO15_ID, FMIO_NUM }; #endif #if !defined(__ASSEMBLER__) /*I2C0 -> PMBUS0 * I2C1 -> PMBUS1 * I2C2 -> SMBUS0 */ enum { FI2C0_ID = 0, FI2C1_ID, FI2C2_ID, FI2C_NUM }; #endif #define FI2C0_BASE_ADDR 0x28011000 #define FI2C1_BASE_ADDR 0x28012000 #define FI2C2_BASE_ADDR 0x28013000 #define FI2C0_IRQ_NUM 121 #define FI2C1_IRQ_NUM 122 #define FI2C2_IRQ_NUM 123 #define FI2C_CLK_FREQ_HZ 50000000 /* 50MHz */ /* SDIO */ #if !defined(__ASSEMBLER__) enum { FSDIO0_ID = 0, FSDIO1_ID = 1, FSDIO_NUM }; #endif #define FSDIO0_BASE_ADDR 0x28000000U #define FSDIO1_BASE_ADDR 0x28001000U #define FSDIO0_IRQ_NUM 104U #define FSDIO1_IRQ_NUM 105U #define FSDIO_CLK_FREQ_HZ (1200000000UL) /* 1.2GHz */ /* NAND */ #define FNAND_NUM 1U #define FNAND_INSTANCE0 0U #define FNAND_BASE_ADDR 0x28002000U #define FNAND_IRQ_NUM (106U) #define FNAND_CONNECT_MAX_NUM 1U #define FIOPAD_BASE_ADDR 0x32B30000U /* DDMA */ #define FDDMA0_ID 0U #define FDDMA0_BASE_ADDR 0x28003000U #define FDDMA0_IRQ_NUM 107U #define FDDMA1_ID 1U #define FDDMA1_BASE_ADDR 0x28004000U #define FDDMA1_IRQ_NUM 108U #define FDDMA_INSTANCE_NUM 2U #define FDDMA0_UART0_TX_SLAVE_ID 2U /* uart0 tx slave-id */ #define FDDMA0_UART1_TX_SLAVE_ID 3U /* uart1 tx slave-id */ #define FDDMA0_UART2_TX_SLAVE_ID 4U /* uart2 tx slave-id */ #define FDDMA0_UART3_TX_SLAVE_ID 5U /* uart3 tx slave-id */ #define FDDMA0_SPIM0_TX_SLAVE_ID 6U /* spi0 tx slave-id */ #define FDDMA0_SPIM1_TX_SLAVE_ID 7U /* spi1 tx slave-id */ #define FDDMA0_SPIM2_TX_SLAVE_ID 8U /* spi2 tx slave-id */ #define FDDMA0_SPIM3_TX_SLAVE_ID 9U /* spi3 tx slave-id */ #define FDDMA0_UART0_RX_SLAVE_ID 15U /* uart0 rx slave-id */ #define FDDMA0_UART1_RX_SLAVE_ID 16U /* uart1 rx slave-id */ #define FDDMA0_UART2_RX_SLAVE_ID 17U /* uart2 rx slave-id */ #define FDDMA0_UART3_RX_SLAVE_ID 18U /* uart3 rx slave-id */ #define FDDMA0_SPIM0_RX_SLAVE_ID 19U /* spi0 rx slave-id */ #define FDDMA0_SPIM1_RX_SLAVE_ID 20U /* spi1 rx slave-id */ #define FDDMA0_SPIM2_RX_SLAVE_ID 21U /* spi2 rx slave-id */ #define FDDMA0_SPIM3_RX_SLAVE_ID 22U /* spi3 rx slave-id */ /* FDDMA1_ID */ #define FDDMA1_MIO0_TX_SLAVE_ID 0U /* mio0 rx slave-id */ #define FDDMA1_MIO1_TX_SLAVE_ID 1U /* mio1 rx slave-id */ #define FDDMA1_MIO2_TX_SLAVE_ID 2U /* mio2 rx slave-id */ #define FDDMA1_MIO3_TX_SLAVE_ID 3U /* mio3 rx slave-id */ #define FDDMA1_MIO4_TX_SLAVE_ID 4U /* mio4 rx slave-id */ #define FDDMA1_MIO5_TX_SLAVE_ID 5U /* mio5 rx slave-id */ #define FDDMA1_MIO6_TX_SLAVE_ID 6U /* mio6 rx slave-id */ #define FDDMA1_MIO7_TX_SLAVE_ID 7U /* mio7 rx slave-id */ #define FDDMA1_MIO8_TX_SLAVE_ID 8U /* mio8 rx slave-id */ #define FDDMA1_MIO9_TX_SLAVE_ID 9U /* mio9 rx slave-id */ #define FDDMA1_MIO10_TX_SLAVE_ID 10U /* mio10 rx slave-id */ #define FDDMA1_MIO11_TX_SLAVE_ID 11U /* mio11 rx slave-id */ #define FDDMA1_MIO12_TX_SLAVE_ID 12U /* mio12 rx slave-id */ #define FDDMA1_MIO13_TX_SLAVE_ID 13U /* mio13 rx slave-id */ #define FDDMA1_MIO14_TX_SLAVE_ID 14U /* mio14 rx slave-id */ #define FDDMA1_MIO15_TX_SLAVE_ID 15U /* mio15 rx slave-id */ #define FDDMA1_MIO0_RX_SLAVE_ID 16U /* mio0 tx slave-id */ #define FDDMA1_MIO1_RX_SLAVE_ID 17U /* mio1 tx slave-id */ #define FDDMA1_MIO2_RX_SLAVE_ID 18U /* mio2 tx slave-id */ #define FDDMA1_MIO3_RX_SLAVE_ID 19U /* mio3 tx slave-id */ #define FDDMA1_MIO4_RX_SLAVE_ID 20U /* mio4 tx slave-id */ #define FDDMA1_MIO5_RX_SLAVE_ID 21U /* mio5 tx slave-id */ #define FDDMA1_MIO6_RX_SLAVE_ID 22U /* mio6 tx slave-id */ #define FDDMA1_MIO7_RX_SLAVE_ID 23U /* mio7 tx slave-id */ #define FDDMA1_MIO8_RX_SLAVE_ID 24U /* mio8 tx slave-id */ #define FDDMA1_MIO9_RX_SLAVE_ID 25U /* mio9 tx slave-id */ #define FDDMA1_MIO10_RX_SLAVE_ID 26U /* mio10 tx slave-id */ #define FDDMA1_MIO11_RX_SLAVE_ID 27U /* mio11 tx slave-id */ #define FDDMA1_MIO12_RX_SLAVE_ID 28U /* mio12 tx slave-id */ #define FDDMA1_MIO13_RX_SLAVE_ID 29U /* mio13 tx slave-id */ #define FDDMA1_MIO14_RX_SLAVE_ID 30U /* mio14 tx slave-id */ #define FDDMA1_MIO15_RX_SLAVE_ID 31U /* mio15 tx slave-id */ #define FDDMA_MIN_SLAVE_ID 0U #define FDDMA_MAX_SLAVE_ID 31U /* ADC */ #if !defined(__ASSEMBLER__) enum { FADC0_ID = 0, FADC_NUM }; typedef enum { FADC_CHANNEL_0 = 0, FADC_CHANNEL_1 = 1, FADC_CHANNEL_2, FADC_CHANNEL_3, FADC_CHANNEL_4, FADC_CHANNEL_5, FADC_CHANNEL_6, FADC_CHANNEL_7, FADC_CHANNEL_NUM } FAdcChannel; #endif #define FADC0_BASE_ADDR 0x2807B000U #define FADC0_IRQ_NUM 264U /* PWM */ #if !defined(__ASSEMBLER__) enum { FPWM0_ID = 0, FPWM1_ID = 1, FPWM2_ID, FPWM3_ID, FPWM4_ID, FPWM5_ID, FPWM6_ID, FPWM7_ID, FPWM_NUM }; typedef enum { FPWM_CHANNEL_0 = 0, FPWM_CHANNEL_1, FPWM_CHANNEL_NUM } FPwmChannel; #endif #define FPWM_BASE_ADDR 0x2804A000U #define FPWM_CLK_FREQ_HZ 50000000U /* 50MHz */ #define FPWM0_IRQ_NUM 205U #define FPWM1_IRQ_NUM 206U #define FPWM2_IRQ_NUM 207U #define FPWM3_IRQ_NUM 208U #define FPWM4_IRQ_NUM 209U #define FPWM5_IRQ_NUM 210U #define FPWM6_IRQ_NUM 211U #define FPWM7_IRQ_NUM 212U #define FPWM8_IRQ_NUM 213U #define FPWM9_IRQ_NUM 214U #define FPWM10_IRQ_NUM 215U #define FPWM11_IRQ_NUM 216U #define FPWM12_IRQ_NUM 217U #define FPWM13_IRQ_NUM 218U #define FPWM14_IRQ_NUM 219U #define FPWM15_IRQ_NUM 220U /* Semaphore */ #define FSEMA0_ID 0U #define FSEMA0_BASE_ADDR 0x32B36000U #define FSEMA_INSTANCE_NUM 1U /* LSD Config */ #define FLSD_CONFIG_BASE 0x2807E000U #define FLSD_NAND_MMCSD_HADDR 0xC0U #define FLSD_CK_STOP_CONFIG0_HADDR 0x10U /* USB3 */ #define FUSB3_ID_0 0U #define FUSB3_ID_1 1U #define FUSB3_NUM 2U #define FUSB3_XHCI_OFFSET 0x8000U #define FUSB3_0_BASE_ADDR 0x31A00000U #define FUSB3_1_BASE_ADDR 0x31A20000U #define FUSB3_0_IRQ_NUM 48U #define FUSB3_1_IRQ_NUM 49U /* DcDp */ #if !defined(__ASSEMBLER__) typedef enum { FDCDP_ID0 = 0, FDCDP_ID1, FDCDP_INSTANCE_NUM } FDcDpNum; #endif #define FDC_CTRL_BASE_OFFSET 0x32000000U #define FDC0_CHANNEL_BASE_OFFSET 0x32001000U #define FDC1_CHANNEL_BASE_OFFSET (FDC0_CHANNEL_BASE_OFFSET + 0x1000U) #define FDP0_CHANNEL_BASE_OFFSET 0x32004000U #define FDP1_CHANNEL_BASE_OFFSET (FDP0_CHANNEL_BASE_OFFSET + 0x1000U) #define FDP0_PHY_BASE_OFFSET 0x32300000U #define FDP1_PHY_BASE_OFFSET (FDP0_PHY_BASE_OFFSET + 0x100000U) #define FDCDP_IRQ_NUM 76 /* generic timer */ /* non-secure physical timer int id */ #define GENERIC_TIMER_NS_IRQ_NUM 30U /* virtual timer int id */ #define GENERIC_VTIMER_IRQ_NUM 27U #if !defined(__ASSEMBLER__) enum { GENERIC_TIMER_ID0 = 0, /* non-secure physical timer */ GENERIC_TIMER_ID1 = 1, /* virtual timer */ GENERIC_TIMER_NUM }; #endif /*****************************************************************************/ #ifdef __cplusplus } #endif #endif