/** * SPDX-FileCopyrightText: 2023 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #pragma once #include #include "soc/soc.h" #ifdef __cplusplus extern "C" { #endif /** SPI_CMD_REG register * Command control register */ #define SPI_CMD_REG(i) (REG_SPI_BASE(i) + 0x0) /** SPI_CONF_BITLEN : R/W; bitpos: [17:0]; default: 0; * Define the APB cycles of SPI_CONF state. Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_CONF_BITLEN 0x0003FFFFU #define SPI_CONF_BITLEN_M (SPI_CONF_BITLEN_V << SPI_CONF_BITLEN_S) #define SPI_CONF_BITLEN_V 0x0003FFFFU #define SPI_CONF_BITLEN_S 0 /** SPI_UPDATE : WT; bitpos: [23]; default: 0; * Set this bit to synchronize SPI registers from APB clock domain into SPI module * clock domain, which is only used in SPI master mode. */ #define SPI_UPDATE (BIT(23)) #define SPI_UPDATE_M (SPI_UPDATE_V << SPI_UPDATE_S) #define SPI_UPDATE_V 0x00000001U #define SPI_UPDATE_S 23 /** SPI_USR : R/W/SC; bitpos: [24]; default: 0; * User define command enable. An operation will be triggered when the bit is set. * The bit will be cleared once the operation done.1: enable 0: disable. Can not be * changed by CONF_buf. */ #define SPI_USR (BIT(24)) #define SPI_USR_M (SPI_USR_V << SPI_USR_S) #define SPI_USR_V 0x00000001U #define SPI_USR_S 24 /** SPI_ADDR_REG register * Address value register */ #define SPI_ADDR_REG(i) (REG_SPI_BASE(i) + 0x4) /** SPI_USR_ADDR_VALUE : R/W; bitpos: [31:0]; default: 0; * Address to slave. Can be configured in CONF state. */ #define SPI_USR_ADDR_VALUE 0xFFFFFFFFU #define SPI_USR_ADDR_VALUE_M (SPI_USR_ADDR_VALUE_V << SPI_USR_ADDR_VALUE_S) #define SPI_USR_ADDR_VALUE_V 0xFFFFFFFFU #define SPI_USR_ADDR_VALUE_S 0 /** SPI_CTRL_REG register * SPI control register */ #define SPI_CTRL_REG(i) (REG_SPI_BASE(i) + 0x8) /** SPI_DUMMY_OUT : R/W; bitpos: [3]; default: 0; * 0: In the dummy phase, the FSPI bus signals are not output. 1: In the dummy phase, * the FSPI bus signals are output. Can be configured in CONF state. */ #define SPI_DUMMY_OUT (BIT(3)) #define SPI_DUMMY_OUT_M (SPI_DUMMY_OUT_V << SPI_DUMMY_OUT_S) #define SPI_DUMMY_OUT_V 0x00000001U #define SPI_DUMMY_OUT_S 3 /** SPI_FADDR_DUAL : R/W; bitpos: [5]; default: 0; * Apply 2 signals during addr phase 1:enable 0: disable. Can be configured in CONF * state. */ #define SPI_FADDR_DUAL (BIT(5)) #define SPI_FADDR_DUAL_M (SPI_FADDR_DUAL_V << SPI_FADDR_DUAL_S) #define SPI_FADDR_DUAL_V 0x00000001U #define SPI_FADDR_DUAL_S 5 /** SPI_FADDR_QUAD : R/W; bitpos: [6]; default: 0; * Apply 4 signals during addr phase 1:enable 0: disable. Can be configured in CONF * state. */ #define SPI_FADDR_QUAD (BIT(6)) #define SPI_FADDR_QUAD_M (SPI_FADDR_QUAD_V << SPI_FADDR_QUAD_S) #define SPI_FADDR_QUAD_V 0x00000001U #define SPI_FADDR_QUAD_S 6 /** SPI_FADDR_OCT : R/W; bitpos: [7]; default: 0; * Apply 8 signals during addr phase 1:enable 0: disable. Can be configured in CONF * state. */ //this field is only for GPSPI2 #define SPI_FADDR_OCT (BIT(7)) #define SPI_FADDR_OCT_M (SPI_FADDR_OCT_V << SPI_FADDR_OCT_S) #define SPI_FADDR_OCT_V 0x00000001U #define SPI_FADDR_OCT_S 7 /** SPI_FCMD_DUAL : R/W; bitpos: [8]; default: 0; * Apply 2 signals during command phase 1:enable 0: disable. Can be configured in CONF * state. */ #define SPI_FCMD_DUAL (BIT(8)) #define SPI_FCMD_DUAL_M (SPI_FCMD_DUAL_V << SPI_FCMD_DUAL_S) #define SPI_FCMD_DUAL_V 0x00000001U #define SPI_FCMD_DUAL_S 8 /** SPI_FCMD_QUAD : R/W; bitpos: [9]; default: 0; * Apply 4 signals during command phase 1:enable 0: disable. Can be configured in CONF * state. */ #define SPI_FCMD_QUAD (BIT(9)) #define SPI_FCMD_QUAD_M (SPI_FCMD_QUAD_V << SPI_FCMD_QUAD_S) #define SPI_FCMD_QUAD_V 0x00000001U #define SPI_FCMD_QUAD_S 9 /** SPI_FCMD_OCT : R/W; bitpos: [10]; default: 0; * Apply 8 signals during command phase 1:enable 0: disable. Can be configured in CONF * state. */ //this field is only for GPSPI2 #define SPI_FCMD_OCT (BIT(10)) #define SPI_FCMD_OCT_M (SPI_FCMD_OCT_V << SPI_FCMD_OCT_S) #define SPI_FCMD_OCT_V 0x00000001U #define SPI_FCMD_OCT_S 10 /** SPI_FREAD_DUAL : R/W; bitpos: [14]; default: 0; * In the read operations, read-data phase apply 2 signals. 1: enable 0: disable. Can * be configured in CONF state. */ #define SPI_FREAD_DUAL (BIT(14)) #define SPI_FREAD_DUAL_M (SPI_FREAD_DUAL_V << SPI_FREAD_DUAL_S) #define SPI_FREAD_DUAL_V 0x00000001U #define SPI_FREAD_DUAL_S 14 /** SPI_FREAD_QUAD : R/W; bitpos: [15]; default: 0; * In the read operations read-data phase apply 4 signals. 1: enable 0: disable. Can * be configured in CONF state. */ #define SPI_FREAD_QUAD (BIT(15)) #define SPI_FREAD_QUAD_M (SPI_FREAD_QUAD_V << SPI_FREAD_QUAD_S) #define SPI_FREAD_QUAD_V 0x00000001U #define SPI_FREAD_QUAD_S 15 /** SPI_FREAD_OCT : R/W; bitpos: [16]; default: 0; * In the read operations read-data phase apply 8 signals. 1: enable 0: disable. Can * be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_FREAD_OCT (BIT(16)) #define SPI_FREAD_OCT_M (SPI_FREAD_OCT_V << SPI_FREAD_OCT_S) #define SPI_FREAD_OCT_V 0x00000001U #define SPI_FREAD_OCT_S 16 /** SPI_Q_POL : R/W; bitpos: [18]; default: 1; * The bit is used to set MISO line polarity, 1: high 0, low. Can be configured in * CONF state. */ #define SPI_Q_POL (BIT(18)) #define SPI_Q_POL_M (SPI_Q_POL_V << SPI_Q_POL_S) #define SPI_Q_POL_V 0x00000001U #define SPI_Q_POL_S 18 /** SPI_D_POL : R/W; bitpos: [19]; default: 1; * The bit is used to set MOSI line polarity, 1: high 0, low. Can be configured in * CONF state. */ #define SPI_D_POL (BIT(19)) #define SPI_D_POL_M (SPI_D_POL_V << SPI_D_POL_S) #define SPI_D_POL_V 0x00000001U #define SPI_D_POL_S 19 /** SPI_HOLD_POL : R/W; bitpos: [20]; default: 1; * SPI_HOLD output value when SPI is idle. 1: output high, 0: output low. Can be * configured in CONF state. */ #define SPI_HOLD_POL (BIT(20)) #define SPI_HOLD_POL_M (SPI_HOLD_POL_V << SPI_HOLD_POL_S) #define SPI_HOLD_POL_V 0x00000001U #define SPI_HOLD_POL_S 20 /** SPI_WP_POL : R/W; bitpos: [21]; default: 1; * Write protect signal output when SPI is idle. 1: output high, 0: output low. Can * be configured in CONF state. */ #define SPI_WP_POL (BIT(21)) #define SPI_WP_POL_M (SPI_WP_POL_V << SPI_WP_POL_S) #define SPI_WP_POL_V 0x00000001U #define SPI_WP_POL_S 21 /** SPI_RD_BIT_ORDER : R/W; bitpos: [24:23]; default: 0; * In read-data (MISO) phase 1: LSB first 0: MSB first. Can be configured in CONF * state. */ #define SPI_RD_BIT_ORDER 0x00000003U #define SPI_RD_BIT_ORDER_M (SPI_RD_BIT_ORDER_V << SPI_RD_BIT_ORDER_S) #define SPI_RD_BIT_ORDER_V 0x00000003U #define SPI_RD_BIT_ORDER_S 23 /** SPI_WR_BIT_ORDER : R/W; bitpos: [26:25]; default: 0; * In command address write-data (MOSI) phases 1: LSB firs 0: MSB first. Can be * configured in CONF state. */ #define SPI_WR_BIT_ORDER 0x00000003U #define SPI_WR_BIT_ORDER_M (SPI_WR_BIT_ORDER_V << SPI_WR_BIT_ORDER_S) #define SPI_WR_BIT_ORDER_V 0x00000003U #define SPI_WR_BIT_ORDER_S 25 /** SPI_CLOCK_REG register * SPI clock control register */ #define SPI_CLOCK_REG(i) (REG_SPI_BASE(i) + 0xc) /** SPI_CLKCNT_L : R/W; bitpos: [5:0]; default: 3; * In the master mode it must be equal to spi_clkcnt_N. In the slave mode it must be * 0. Can be configured in CONF state. */ #define SPI_CLKCNT_L 0x0000003FU #define SPI_CLKCNT_L_M (SPI_CLKCNT_L_V << SPI_CLKCNT_L_S) #define SPI_CLKCNT_L_V 0x0000003FU #define SPI_CLKCNT_L_S 0 /** SPI_CLKCNT_H : R/W; bitpos: [11:6]; default: 1; * In the master mode it must be floor((spi_clkcnt_N+1)/2-1). In the slave mode it * must be 0. Can be configured in CONF state. */ #define SPI_CLKCNT_H 0x0000003FU #define SPI_CLKCNT_H_M (SPI_CLKCNT_H_V << SPI_CLKCNT_H_S) #define SPI_CLKCNT_H_V 0x0000003FU #define SPI_CLKCNT_H_S 6 /** SPI_CLKCNT_N : R/W; bitpos: [17:12]; default: 3; * In the master mode it is the divider of spi_clk. So spi_clk frequency is * system/(spi_clkdiv_pre+1)/(spi_clkcnt_N+1). Can be configured in CONF state. */ #define SPI_CLKCNT_N 0x0000003FU #define SPI_CLKCNT_N_M (SPI_CLKCNT_N_V << SPI_CLKCNT_N_S) #define SPI_CLKCNT_N_V 0x0000003FU #define SPI_CLKCNT_N_S 12 /** SPI_CLKDIV_PRE : R/W; bitpos: [21:18]; default: 0; * In the master mode it is pre-divider of spi_clk. Can be configured in CONF state. */ #define SPI_CLKDIV_PRE 0x0000000FU #define SPI_CLKDIV_PRE_M (SPI_CLKDIV_PRE_V << SPI_CLKDIV_PRE_S) #define SPI_CLKDIV_PRE_V 0x0000000FU #define SPI_CLKDIV_PRE_S 18 /** SPI_CLK_EQU_SYSCLK : R/W; bitpos: [31]; default: 1; * In the master mode 1: spi_clk is eqaul to system 0: spi_clk is divided from system * clock. Can be configured in CONF state. */ #define SPI_CLK_EQU_SYSCLK (BIT(31)) #define SPI_CLK_EQU_SYSCLK_M (SPI_CLK_EQU_SYSCLK_V << SPI_CLK_EQU_SYSCLK_S) #define SPI_CLK_EQU_SYSCLK_V 0x00000001U #define SPI_CLK_EQU_SYSCLK_S 31 /** SPI_USER_REG register * SPI USER control register */ #define SPI_USER_REG(i) (REG_SPI_BASE(i) + 0x10) /** SPI_DOUTDIN : R/W; bitpos: [0]; default: 0; * Set the bit to enable full duplex communication. 1: enable 0: disable. Can be * configured in CONF state. */ #define SPI_DOUTDIN (BIT(0)) #define SPI_DOUTDIN_M (SPI_DOUTDIN_V << SPI_DOUTDIN_S) #define SPI_DOUTDIN_V 0x00000001U #define SPI_DOUTDIN_S 0 /** SPI_QPI_MODE : R/W/SS/SC; bitpos: [3]; default: 0; * Both for master mode and slave mode. 1: spi controller is in QPI mode. 0: others. * Can be configured in CONF state. */ #define SPI_QPI_MODE (BIT(3)) #define SPI_QPI_MODE_M (SPI_QPI_MODE_V << SPI_QPI_MODE_S) #define SPI_QPI_MODE_V 0x00000001U #define SPI_QPI_MODE_S 3 /** SPI_OPI_MODE : R/W; bitpos: [4]; default: 0; * Just for master mode. 1: spi controller is in OPI mode (all in 8-b-m). 0: others. * Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_OPI_MODE (BIT(4)) #define SPI_OPI_MODE_M (SPI_OPI_MODE_V << SPI_OPI_MODE_S) #define SPI_OPI_MODE_V 0x00000001U #define SPI_OPI_MODE_S 4 /** SPI_TSCK_I_EDGE : R/W; bitpos: [5]; default: 0; * In the slave mode, this bit can be used to change the polarity of tsck. 0: tsck = * spi_ck_i. 1:tsck = !spi_ck_i. */ #define SPI_TSCK_I_EDGE (BIT(5)) #define SPI_TSCK_I_EDGE_M (SPI_TSCK_I_EDGE_V << SPI_TSCK_I_EDGE_S) #define SPI_TSCK_I_EDGE_V 0x00000001U #define SPI_TSCK_I_EDGE_S 5 /** SPI_CS_HOLD : R/W; bitpos: [6]; default: 1; * spi cs keep low when spi is in done phase. 1: enable 0: disable. Can be * configured in CONF state. */ #define SPI_CS_HOLD (BIT(6)) #define SPI_CS_HOLD_M (SPI_CS_HOLD_V << SPI_CS_HOLD_S) #define SPI_CS_HOLD_V 0x00000001U #define SPI_CS_HOLD_S 6 /** SPI_CS_SETUP : R/W; bitpos: [7]; default: 1; * spi cs is enable when spi is in prepare phase. 1: enable 0: disable. Can be * configured in CONF state. */ #define SPI_CS_SETUP (BIT(7)) #define SPI_CS_SETUP_M (SPI_CS_SETUP_V << SPI_CS_SETUP_S) #define SPI_CS_SETUP_V 0x00000001U #define SPI_CS_SETUP_S 7 /** SPI_RSCK_I_EDGE : R/W; bitpos: [8]; default: 0; * In the slave mode, this bit can be used to change the polarity of rsck. 0: rsck = * !spi_ck_i. 1:rsck = spi_ck_i. */ #define SPI_RSCK_I_EDGE (BIT(8)) #define SPI_RSCK_I_EDGE_M (SPI_RSCK_I_EDGE_V << SPI_RSCK_I_EDGE_S) #define SPI_RSCK_I_EDGE_V 0x00000001U #define SPI_RSCK_I_EDGE_S 8 /** SPI_CK_OUT_EDGE : R/W; bitpos: [9]; default: 0; * the bit combined with spi_mosi_delay_mode bits to set mosi signal delay mode. Can * be configured in CONF state. */ #define SPI_CK_OUT_EDGE (BIT(9)) #define SPI_CK_OUT_EDGE_M (SPI_CK_OUT_EDGE_V << SPI_CK_OUT_EDGE_S) #define SPI_CK_OUT_EDGE_V 0x00000001U #define SPI_CK_OUT_EDGE_S 9 /** SPI_FWRITE_DUAL : R/W; bitpos: [12]; default: 0; * In the write operations read-data phase apply 2 signals. Can be configured in CONF * state. */ #define SPI_FWRITE_DUAL (BIT(12)) #define SPI_FWRITE_DUAL_M (SPI_FWRITE_DUAL_V << SPI_FWRITE_DUAL_S) #define SPI_FWRITE_DUAL_V 0x00000001U #define SPI_FWRITE_DUAL_S 12 /** SPI_FWRITE_QUAD : R/W; bitpos: [13]; default: 0; * In the write operations read-data phase apply 4 signals. Can be configured in CONF * state. */ #define SPI_FWRITE_QUAD (BIT(13)) #define SPI_FWRITE_QUAD_M (SPI_FWRITE_QUAD_V << SPI_FWRITE_QUAD_S) #define SPI_FWRITE_QUAD_V 0x00000001U #define SPI_FWRITE_QUAD_S 13 /** SPI_FWRITE_OCT : R/W; bitpos: [14]; default: 0; * In the write operations read-data phase apply 8 signals. Can be configured in CONF * state. */ //this field is only for GPSPI2 #define SPI_FWRITE_OCT (BIT(14)) #define SPI_FWRITE_OCT_M (SPI_FWRITE_OCT_V << SPI_FWRITE_OCT_S) #define SPI_FWRITE_OCT_V 0x00000001U #define SPI_FWRITE_OCT_S 14 /** SPI_USR_CONF_NXT : R/W; bitpos: [15]; default: 0; * 1: Enable the DMA CONF phase of next seg-trans operation, which means seg-trans * will continue. 0: The seg-trans will end after the current SPI seg-trans or this is * not seg-trans mode. Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_USR_CONF_NXT (BIT(15)) #define SPI_USR_CONF_NXT_M (SPI_USR_CONF_NXT_V << SPI_USR_CONF_NXT_S) #define SPI_USR_CONF_NXT_V 0x00000001U #define SPI_USR_CONF_NXT_S 15 /** SPI_SIO : R/W; bitpos: [17]; default: 0; * Set the bit to enable 3-line half duplex communication mosi and miso signals share * the same pin. 1: enable 0: disable. Can be configured in CONF state. */ #define SPI_SIO (BIT(17)) #define SPI_SIO_M (SPI_SIO_V << SPI_SIO_S) #define SPI_SIO_V 0x00000001U #define SPI_SIO_S 17 /** SPI_USR_MISO_HIGHPART : R/W; bitpos: [24]; default: 0; * read-data phase only access to high-part of the buffer spi_w8~spi_w15. 1: enable 0: * disable. Can be configured in CONF state. */ #define SPI_USR_MISO_HIGHPART (BIT(24)) #define SPI_USR_MISO_HIGHPART_M (SPI_USR_MISO_HIGHPART_V << SPI_USR_MISO_HIGHPART_S) #define SPI_USR_MISO_HIGHPART_V 0x00000001U #define SPI_USR_MISO_HIGHPART_S 24 /** SPI_USR_MOSI_HIGHPART : R/W; bitpos: [25]; default: 0; * write-data phase only access to high-part of the buffer spi_w8~spi_w15. 1: enable * 0: disable. Can be configured in CONF state. */ #define SPI_USR_MOSI_HIGHPART (BIT(25)) #define SPI_USR_MOSI_HIGHPART_M (SPI_USR_MOSI_HIGHPART_V << SPI_USR_MOSI_HIGHPART_S) #define SPI_USR_MOSI_HIGHPART_V 0x00000001U #define SPI_USR_MOSI_HIGHPART_S 25 /** SPI_USR_DUMMY_IDLE : R/W; bitpos: [26]; default: 0; * spi clock is disable in dummy phase when the bit is enable. Can be configured in * CONF state. */ #define SPI_USR_DUMMY_IDLE (BIT(26)) #define SPI_USR_DUMMY_IDLE_M (SPI_USR_DUMMY_IDLE_V << SPI_USR_DUMMY_IDLE_S) #define SPI_USR_DUMMY_IDLE_V 0x00000001U #define SPI_USR_DUMMY_IDLE_S 26 /** SPI_USR_MOSI : R/W; bitpos: [27]; default: 0; * This bit enable the write-data phase of an operation. Can be configured in CONF * state. */ #define SPI_USR_MOSI (BIT(27)) #define SPI_USR_MOSI_M (SPI_USR_MOSI_V << SPI_USR_MOSI_S) #define SPI_USR_MOSI_V 0x00000001U #define SPI_USR_MOSI_S 27 /** SPI_USR_MISO : R/W; bitpos: [28]; default: 0; * This bit enable the read-data phase of an operation. Can be configured in CONF * state. */ #define SPI_USR_MISO (BIT(28)) #define SPI_USR_MISO_M (SPI_USR_MISO_V << SPI_USR_MISO_S) #define SPI_USR_MISO_V 0x00000001U #define SPI_USR_MISO_S 28 /** SPI_USR_DUMMY : R/W; bitpos: [29]; default: 0; * This bit enable the dummy phase of an operation. Can be configured in CONF state. */ #define SPI_USR_DUMMY (BIT(29)) #define SPI_USR_DUMMY_M (SPI_USR_DUMMY_V << SPI_USR_DUMMY_S) #define SPI_USR_DUMMY_V 0x00000001U #define SPI_USR_DUMMY_S 29 /** SPI_USR_ADDR : R/W; bitpos: [30]; default: 0; * This bit enable the address phase of an operation. Can be configured in CONF state. */ #define SPI_USR_ADDR (BIT(30)) #define SPI_USR_ADDR_M (SPI_USR_ADDR_V << SPI_USR_ADDR_S) #define SPI_USR_ADDR_V 0x00000001U #define SPI_USR_ADDR_S 30 /** SPI_USR_COMMAND : R/W; bitpos: [31]; default: 1; * This bit enable the command phase of an operation. Can be configured in CONF state. */ #define SPI_USR_COMMAND (BIT(31)) #define SPI_USR_COMMAND_M (SPI_USR_COMMAND_V << SPI_USR_COMMAND_S) #define SPI_USR_COMMAND_V 0x00000001U #define SPI_USR_COMMAND_S 31 /** SPI_USER1_REG register * SPI USER control register 1 */ #define SPI_USER1_REG(i) (REG_SPI_BASE(i) + 0x14) /** SPI_USR_DUMMY_CYCLELEN : R/W; bitpos: [7:0]; default: 7; * The length in spi_clk cycles of dummy phase. The register value shall be * (cycle_num-1). Can be configured in CONF state. */ #define SPI_USR_DUMMY_CYCLELEN 0x000000FFU #define SPI_USR_DUMMY_CYCLELEN_M (SPI_USR_DUMMY_CYCLELEN_V << SPI_USR_DUMMY_CYCLELEN_S) #define SPI_USR_DUMMY_CYCLELEN_V 0x000000FFU #define SPI_USR_DUMMY_CYCLELEN_S 0 /** SPI_MST_WFULL_ERR_END_EN : R/W; bitpos: [16]; default: 1; * 1: SPI transfer is ended when SPI RX AFIFO wfull error is valid in GP-SPI master * FD/HD-mode. 0: SPI transfer is not ended when SPI RX AFIFO wfull error is valid in * GP-SPI master FD/HD-mode. */ #define SPI_MST_WFULL_ERR_END_EN (BIT(16)) #define SPI_MST_WFULL_ERR_END_EN_M (SPI_MST_WFULL_ERR_END_EN_V << SPI_MST_WFULL_ERR_END_EN_S) #define SPI_MST_WFULL_ERR_END_EN_V 0x00000001U #define SPI_MST_WFULL_ERR_END_EN_S 16 /** SPI_CS_SETUP_TIME : R/W; bitpos: [21:17]; default: 0; * (cycles+1) of prepare phase by spi clock this bits are combined with spi_cs_setup * bit. Can be configured in CONF state. */ #define SPI_CS_SETUP_TIME 0x0000001FU #define SPI_CS_SETUP_TIME_M (SPI_CS_SETUP_TIME_V << SPI_CS_SETUP_TIME_S) #define SPI_CS_SETUP_TIME_V 0x0000001FU #define SPI_CS_SETUP_TIME_S 17 /** SPI_CS_HOLD_TIME : R/W; bitpos: [26:22]; default: 1; * delay cycles of cs pin by spi clock this bits are combined with spi_cs_hold bit. * Can be configured in CONF state. */ #define SPI_CS_HOLD_TIME 0x0000001FU #define SPI_CS_HOLD_TIME_M (SPI_CS_HOLD_TIME_V << SPI_CS_HOLD_TIME_S) #define SPI_CS_HOLD_TIME_V 0x0000001FU #define SPI_CS_HOLD_TIME_S 22 /** SPI_USR_ADDR_BITLEN : R/W; bitpos: [31:27]; default: 23; * The length in bits of address phase. The register value shall be (bit_num-1). Can * be configured in CONF state. */ #define SPI_USR_ADDR_BITLEN 0x0000001FU #define SPI_USR_ADDR_BITLEN_M (SPI_USR_ADDR_BITLEN_V << SPI_USR_ADDR_BITLEN_S) #define SPI_USR_ADDR_BITLEN_V 0x0000001FU #define SPI_USR_ADDR_BITLEN_S 27 /** SPI_USER2_REG register * SPI USER control register 2 */ #define SPI_USER2_REG(i) (REG_SPI_BASE(i) + 0x18) /** SPI_USR_COMMAND_VALUE : R/W; bitpos: [15:0]; default: 0; * The value of command. Can be configured in CONF state. */ #define SPI_USR_COMMAND_VALUE 0x0000FFFFU #define SPI_USR_COMMAND_VALUE_M (SPI_USR_COMMAND_VALUE_V << SPI_USR_COMMAND_VALUE_S) #define SPI_USR_COMMAND_VALUE_V 0x0000FFFFU #define SPI_USR_COMMAND_VALUE_S 0 /** SPI_MST_REMPTY_ERR_END_EN : R/W; bitpos: [27]; default: 1; * 1: SPI transfer is ended when SPI TX AFIFO read empty error is valid in GP-SPI * master FD/HD-mode. 0: SPI transfer is not ended when SPI TX AFIFO read empty error * is valid in GP-SPI master FD/HD-mode. */ #define SPI_MST_REMPTY_ERR_END_EN (BIT(27)) #define SPI_MST_REMPTY_ERR_END_EN_M (SPI_MST_REMPTY_ERR_END_EN_V << SPI_MST_REMPTY_ERR_END_EN_S) #define SPI_MST_REMPTY_ERR_END_EN_V 0x00000001U #define SPI_MST_REMPTY_ERR_END_EN_S 27 /** SPI_USR_COMMAND_BITLEN : R/W; bitpos: [31:28]; default: 7; * The length in bits of command phase. The register value shall be (bit_num-1). Can * be configured in CONF state. */ #define SPI_USR_COMMAND_BITLEN 0x0000000FU #define SPI_USR_COMMAND_BITLEN_M (SPI_USR_COMMAND_BITLEN_V << SPI_USR_COMMAND_BITLEN_S) #define SPI_USR_COMMAND_BITLEN_V 0x0000000FU #define SPI_USR_COMMAND_BITLEN_S 28 /** SPI_MS_DLEN_REG register * SPI data bit length control register */ #define SPI_MS_DLEN_REG(i) (REG_SPI_BASE(i) + 0x1c) /** SPI_MS_DATA_BITLEN : R/W; bitpos: [17:0]; default: 0; * The value of these bits is the configured SPI transmission data bit length in * master mode DMA controlled transfer or CPU controlled transfer. The value is also * the configured bit length in slave mode DMA RX controlled transfer. The register * value shall be (bit_num-1). Can be configured in CONF state. */ #define SPI_MS_DATA_BITLEN 0x0003FFFFU #define SPI_MS_DATA_BITLEN_M (SPI_MS_DATA_BITLEN_V << SPI_MS_DATA_BITLEN_S) #define SPI_MS_DATA_BITLEN_V 0x0003FFFFU #define SPI_MS_DATA_BITLEN_S 0 /** SPI_MISC_REG register * SPI misc register */ #define SPI_MISC_REG(i) (REG_SPI_BASE(i) + 0x20) /** SPI_CS0_DIS : R/W; bitpos: [0]; default: 0; * SPI CS$n pin enable, 1: disable CS$n, 0: spi_cs$n signal is from/to CS$n pin. Can * be configured in CONF state. */ #define SPI_CS0_DIS (BIT(0)) #define SPI_CS0_DIS_M (SPI_CS0_DIS_V << SPI_CS0_DIS_S) #define SPI_CS0_DIS_V 0x00000001U #define SPI_CS0_DIS_S 0 /** SPI_CS1_DIS : R/W; bitpos: [1]; default: 1; * SPI CS$n pin enable, 1: disable CS$n, 0: spi_cs$n signal is from/to CS$n pin. Can * be configured in CONF state. */ #define SPI_CS1_DIS (BIT(1)) #define SPI_CS1_DIS_M (SPI_CS1_DIS_V << SPI_CS1_DIS_S) #define SPI_CS1_DIS_V 0x00000001U #define SPI_CS1_DIS_S 1 /** SPI_CS2_DIS : R/W; bitpos: [2]; default: 1; * SPI CS$n pin enable, 1: disable CS$n, 0: spi_cs$n signal is from/to CS$n pin. Can * be configured in CONF state. */ #define SPI_CS2_DIS (BIT(2)) #define SPI_CS2_DIS_M (SPI_CS2_DIS_V << SPI_CS2_DIS_S) #define SPI_CS2_DIS_V 0x00000001U #define SPI_CS2_DIS_S 2 /** SPI_CS3_DIS : R/W; bitpos: [3]; default: 1; * SPI CS$n pin enable, 1: disable CS$n, 0: spi_cs$n signal is from/to CS$n pin. Can * be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_CS3_DIS (BIT(3)) #define SPI_CS3_DIS_M (SPI_CS3_DIS_V << SPI_CS3_DIS_S) #define SPI_CS3_DIS_V 0x00000001U #define SPI_CS3_DIS_S 3 /** SPI_CS4_DIS : R/W; bitpos: [4]; default: 1; * SPI CS$n pin enable, 1: disable CS$n, 0: spi_cs$n signal is from/to CS$n pin. Can * be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_CS4_DIS (BIT(4)) #define SPI_CS4_DIS_M (SPI_CS4_DIS_V << SPI_CS4_DIS_S) #define SPI_CS4_DIS_V 0x00000001U #define SPI_CS4_DIS_S 4 /** SPI_CS5_DIS : R/W; bitpos: [5]; default: 1; * SPI CS$n pin enable, 1: disable CS$n, 0: spi_cs$n signal is from/to CS$n pin. Can * be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_CS5_DIS (BIT(5)) #define SPI_CS5_DIS_M (SPI_CS5_DIS_V << SPI_CS5_DIS_S) #define SPI_CS5_DIS_V 0x00000001U #define SPI_CS5_DIS_S 5 /** SPI_CK_DIS : R/W; bitpos: [6]; default: 0; * 1: spi clk out disable, 0: spi clk out enable. Can be configured in CONF state. */ #define SPI_CK_DIS (BIT(6)) #define SPI_CK_DIS_M (SPI_CK_DIS_V << SPI_CK_DIS_S) #define SPI_CK_DIS_V 0x00000001U #define SPI_CK_DIS_S 6 /** SPI_MASTER_CS_POL : R/W; bitpos: [12:7]; default: 0; * In the master mode the bits are the polarity of spi cs line, the value is * equivalent to spi_cs ^ spi_master_cs_pol. Can be configured in CONF state. */ //This field for GPSPI3 is only 3-bit-width #define SPI_MASTER_CS_POL 0x0000003FU #define SPI_MASTER_CS_POL_M (SPI_MASTER_CS_POL_V << SPI_MASTER_CS_POL_S) #define SPI_MASTER_CS_POL_V 0x0000003FU #define SPI_MASTER_CS_POL_S 7 /** SPI_CLK_DATA_DTR_EN : R/W; bitpos: [16]; default: 0; * 1: SPI master DTR mode is applied to SPI clk, data and spi_dqs. 0: SPI master DTR * mode is only applied to spi_dqs. This bit should be used with bit 17/18/19. */ //this field is only for GPSPI2 #define SPI_CLK_DATA_DTR_EN (BIT(16)) #define SPI_CLK_DATA_DTR_EN_M (SPI_CLK_DATA_DTR_EN_V << SPI_CLK_DATA_DTR_EN_S) #define SPI_CLK_DATA_DTR_EN_V 0x00000001U #define SPI_CLK_DATA_DTR_EN_S 16 /** SPI_DATA_DTR_EN : R/W; bitpos: [17]; default: 0; * 1: SPI clk and data of SPI_DOUT and SPI_DIN state are in DTR mode, including master * 1/2/4/8-bm. 0: SPI clk and data of SPI_DOUT and SPI_DIN state are in STR mode. * Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DATA_DTR_EN (BIT(17)) #define SPI_DATA_DTR_EN_M (SPI_DATA_DTR_EN_V << SPI_DATA_DTR_EN_S) #define SPI_DATA_DTR_EN_V 0x00000001U #define SPI_DATA_DTR_EN_S 17 /** SPI_ADDR_DTR_EN : R/W; bitpos: [18]; default: 0; * 1: SPI clk and data of SPI_SEND_ADDR state are in DTR mode, including master * 1/2/4/8-bm. 0: SPI clk and data of SPI_SEND_ADDR state are in STR mode. Can be * configured in CONF state. */ //this field is only for GPSPI2 #define SPI_ADDR_DTR_EN (BIT(18)) #define SPI_ADDR_DTR_EN_M (SPI_ADDR_DTR_EN_V << SPI_ADDR_DTR_EN_S) #define SPI_ADDR_DTR_EN_V 0x00000001U #define SPI_ADDR_DTR_EN_S 18 /** SPI_CMD_DTR_EN : R/W; bitpos: [19]; default: 0; * 1: SPI clk and data of SPI_SEND_CMD state are in DTR mode, including master * 1/2/4/8-bm. 0: SPI clk and data of SPI_SEND_CMD state are in STR mode. Can be * configured in CONF state. */ //this field is only for GPSPI2 #define SPI_CMD_DTR_EN (BIT(19)) #define SPI_CMD_DTR_EN_M (SPI_CMD_DTR_EN_V << SPI_CMD_DTR_EN_S) #define SPI_CMD_DTR_EN_V 0x00000001U #define SPI_CMD_DTR_EN_S 19 /** SPI_SLAVE_CS_POL : R/W; bitpos: [23]; default: 0; * spi slave input cs polarity select. 1: inv 0: not change. Can be configured in * CONF state. */ #define SPI_SLAVE_CS_POL (BIT(23)) #define SPI_SLAVE_CS_POL_M (SPI_SLAVE_CS_POL_V << SPI_SLAVE_CS_POL_S) #define SPI_SLAVE_CS_POL_V 0x00000001U #define SPI_SLAVE_CS_POL_S 23 /** SPI_DQS_IDLE_EDGE : R/W; bitpos: [24]; default: 0; * The default value of spi_dqs. Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DQS_IDLE_EDGE (BIT(24)) #define SPI_DQS_IDLE_EDGE_M (SPI_DQS_IDLE_EDGE_V << SPI_DQS_IDLE_EDGE_S) #define SPI_DQS_IDLE_EDGE_V 0x00000001U #define SPI_DQS_IDLE_EDGE_S 24 /** SPI_CK_IDLE_EDGE : R/W; bitpos: [29]; default: 0; * 1: spi clk line is high when idle 0: spi clk line is low when idle. Can be * configured in CONF state. */ #define SPI_CK_IDLE_EDGE (BIT(29)) #define SPI_CK_IDLE_EDGE_M (SPI_CK_IDLE_EDGE_V << SPI_CK_IDLE_EDGE_S) #define SPI_CK_IDLE_EDGE_V 0x00000001U #define SPI_CK_IDLE_EDGE_S 29 /** SPI_CS_KEEP_ACTIVE : R/W; bitpos: [30]; default: 0; * spi cs line keep low when the bit is set. Can be configured in CONF state. */ #define SPI_CS_KEEP_ACTIVE (BIT(30)) #define SPI_CS_KEEP_ACTIVE_M (SPI_CS_KEEP_ACTIVE_V << SPI_CS_KEEP_ACTIVE_S) #define SPI_CS_KEEP_ACTIVE_V 0x00000001U #define SPI_CS_KEEP_ACTIVE_S 30 /** SPI_QUAD_DIN_PIN_SWAP : R/W; bitpos: [31]; default: 0; * 1: SPI quad input swap enable, swap FSPID with FSPIQ, swap FSPIWP with FSPIHD. 0: * spi quad input swap disable. Can be configured in CONF state. */ #define SPI_QUAD_DIN_PIN_SWAP (BIT(31)) #define SPI_QUAD_DIN_PIN_SWAP_M (SPI_QUAD_DIN_PIN_SWAP_V << SPI_QUAD_DIN_PIN_SWAP_S) #define SPI_QUAD_DIN_PIN_SWAP_V 0x00000001U #define SPI_QUAD_DIN_PIN_SWAP_S 31 /** SPI_DIN_MODE_REG register * SPI input delay mode configuration */ #define SPI_DIN_MODE_REG(i) (REG_SPI_BASE(i) + 0x24) /** SPI_DIN0_MODE : R/W; bitpos: [1:0]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: input without delayed, * 1: input with the posedge of clk_apb,2 input with the negedge of clk_apb, 3: input * with the spi_clk. Can be configured in CONF state. */ #define SPI_DIN0_MODE 0x00000003U #define SPI_DIN0_MODE_M (SPI_DIN0_MODE_V << SPI_DIN0_MODE_S) #define SPI_DIN0_MODE_V 0x00000003U #define SPI_DIN0_MODE_S 0 /** SPI_DIN1_MODE : R/W; bitpos: [3:2]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: input without delayed, * 1: input with the posedge of clk_apb,2 input with the negedge of clk_apb, 3: input * with the spi_clk. Can be configured in CONF state. */ #define SPI_DIN1_MODE 0x00000003U #define SPI_DIN1_MODE_M (SPI_DIN1_MODE_V << SPI_DIN1_MODE_S) #define SPI_DIN1_MODE_V 0x00000003U #define SPI_DIN1_MODE_S 2 /** SPI_DIN2_MODE : R/W; bitpos: [5:4]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: input without delayed, * 1: input with the posedge of clk_apb,2 input with the negedge of clk_apb, 3: input * with the spi_clk. Can be configured in CONF state. */ #define SPI_DIN2_MODE 0x00000003U #define SPI_DIN2_MODE_M (SPI_DIN2_MODE_V << SPI_DIN2_MODE_S) #define SPI_DIN2_MODE_V 0x00000003U #define SPI_DIN2_MODE_S 4 /** SPI_DIN3_MODE : R/W; bitpos: [7:6]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: input without delayed, * 1: input with the posedge of clk_apb,2 input with the negedge of clk_apb, 3: input * with the spi_clk. Can be configured in CONF state. */ #define SPI_DIN3_MODE 0x00000003U #define SPI_DIN3_MODE_M (SPI_DIN3_MODE_V << SPI_DIN3_MODE_S) #define SPI_DIN3_MODE_V 0x00000003U #define SPI_DIN3_MODE_S 6 /** SPI_DIN4_MODE : R/W; bitpos: [9:8]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: input without delayed, * 1: input with the posedge of clk_apb,2 input with the negedge of clk_apb, 3: input * with the spi_clk. Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DIN4_MODE 0x00000003U #define SPI_DIN4_MODE_M (SPI_DIN4_MODE_V << SPI_DIN4_MODE_S) #define SPI_DIN4_MODE_V 0x00000003U #define SPI_DIN4_MODE_S 8 /** SPI_DIN5_MODE : R/W; bitpos: [11:10]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: input without delayed, * 1: input with the posedge of clk_apb,2 input with the negedge of clk_apb, 3: input * with the spi_clk. Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DIN5_MODE 0x00000003U #define SPI_DIN5_MODE_M (SPI_DIN5_MODE_V << SPI_DIN5_MODE_S) #define SPI_DIN5_MODE_V 0x00000003U #define SPI_DIN5_MODE_S 10 /** SPI_DIN6_MODE : R/W; bitpos: [13:12]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: input without delayed, * 1: input with the posedge of clk_apb,2 input with the negedge of clk_apb, 3: input * with the spi_clk. Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DIN6_MODE 0x00000003U #define SPI_DIN6_MODE_M (SPI_DIN6_MODE_V << SPI_DIN6_MODE_S) #define SPI_DIN6_MODE_V 0x00000003U #define SPI_DIN6_MODE_S 12 /** SPI_DIN7_MODE : R/W; bitpos: [15:14]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: input without delayed, * 1: input with the posedge of clk_apb,2 input with the negedge of clk_apb, 3: input * with the spi_clk. Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DIN7_MODE 0x00000003U #define SPI_DIN7_MODE_M (SPI_DIN7_MODE_V << SPI_DIN7_MODE_S) #define SPI_DIN7_MODE_V 0x00000003U #define SPI_DIN7_MODE_S 14 /** SPI_TIMING_HCLK_ACTIVE : R/W; bitpos: [16]; default: 0; * 1:enable hclk in SPI input timing module. 0: disable it. Can be configured in CONF * state. */ #define SPI_TIMING_HCLK_ACTIVE (BIT(16)) #define SPI_TIMING_HCLK_ACTIVE_M (SPI_TIMING_HCLK_ACTIVE_V << SPI_TIMING_HCLK_ACTIVE_S) #define SPI_TIMING_HCLK_ACTIVE_V 0x00000001U #define SPI_TIMING_HCLK_ACTIVE_S 16 /** SPI_DIN_NUM_REG register * SPI input delay number configuration */ #define SPI_DIN_NUM_REG(i) (REG_SPI_BASE(i) + 0x28) /** SPI_DIN0_NUM : R/W; bitpos: [1:0]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: delayed by 1 cycle, 1: * delayed by 2 cycles,... Can be configured in CONF state. */ #define SPI_DIN0_NUM 0x00000003U #define SPI_DIN0_NUM_M (SPI_DIN0_NUM_V << SPI_DIN0_NUM_S) #define SPI_DIN0_NUM_V 0x00000003U #define SPI_DIN0_NUM_S 0 /** SPI_DIN1_NUM : R/W; bitpos: [3:2]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: delayed by 1 cycle, 1: * delayed by 2 cycles,... Can be configured in CONF state. */ #define SPI_DIN1_NUM 0x00000003U #define SPI_DIN1_NUM_M (SPI_DIN1_NUM_V << SPI_DIN1_NUM_S) #define SPI_DIN1_NUM_V 0x00000003U #define SPI_DIN1_NUM_S 2 /** SPI_DIN2_NUM : R/W; bitpos: [5:4]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: delayed by 1 cycle, 1: * delayed by 2 cycles,... Can be configured in CONF state. */ #define SPI_DIN2_NUM 0x00000003U #define SPI_DIN2_NUM_M (SPI_DIN2_NUM_V << SPI_DIN2_NUM_S) #define SPI_DIN2_NUM_V 0x00000003U #define SPI_DIN2_NUM_S 4 /** SPI_DIN3_NUM : R/W; bitpos: [7:6]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: delayed by 1 cycle, 1: * delayed by 2 cycles,... Can be configured in CONF state. */ #define SPI_DIN3_NUM 0x00000003U #define SPI_DIN3_NUM_M (SPI_DIN3_NUM_V << SPI_DIN3_NUM_S) #define SPI_DIN3_NUM_V 0x00000003U #define SPI_DIN3_NUM_S 6 /** SPI_DIN4_NUM : R/W; bitpos: [9:8]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: delayed by 1 cycle, 1: * delayed by 2 cycles,... Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DIN4_NUM 0x00000003U #define SPI_DIN4_NUM_M (SPI_DIN4_NUM_V << SPI_DIN4_NUM_S) #define SPI_DIN4_NUM_V 0x00000003U #define SPI_DIN4_NUM_S 8 /** SPI_DIN5_NUM : R/W; bitpos: [11:10]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: delayed by 1 cycle, 1: * delayed by 2 cycles,... Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DIN5_NUM 0x00000003U #define SPI_DIN5_NUM_M (SPI_DIN5_NUM_V << SPI_DIN5_NUM_S) #define SPI_DIN5_NUM_V 0x00000003U #define SPI_DIN5_NUM_S 10 /** SPI_DIN6_NUM : R/W; bitpos: [13:12]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: delayed by 1 cycle, 1: * delayed by 2 cycles,... Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DIN6_NUM 0x00000003U #define SPI_DIN6_NUM_M (SPI_DIN6_NUM_V << SPI_DIN6_NUM_S) #define SPI_DIN6_NUM_V 0x00000003U #define SPI_DIN6_NUM_S 12 /** SPI_DIN7_NUM : R/W; bitpos: [15:14]; default: 0; * the input signals are delayed by SPI module clock cycles, 0: delayed by 1 cycle, 1: * delayed by 2 cycles,... Can be configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DIN7_NUM 0x00000003U #define SPI_DIN7_NUM_M (SPI_DIN7_NUM_V << SPI_DIN7_NUM_S) #define SPI_DIN7_NUM_V 0x00000003U #define SPI_DIN7_NUM_S 14 /** SPI_DOUT_MODE_REG register * SPI output delay mode configuration */ #define SPI_DOUT_MODE_REG(i) (REG_SPI_BASE(i) + 0x2c) /** SPI_DOUT0_MODE : R/W; bitpos: [0]; default: 0; * The output signal $n is delayed by the SPI module clock, 0: output without delayed, * 1: output delay for a SPI module clock cycle at its negative edge. Can be * configured in CONF state. */ #define SPI_DOUT0_MODE (BIT(0)) #define SPI_DOUT0_MODE_M (SPI_DOUT0_MODE_V << SPI_DOUT0_MODE_S) #define SPI_DOUT0_MODE_V 0x00000001U #define SPI_DOUT0_MODE_S 0 /** SPI_DOUT1_MODE : R/W; bitpos: [1]; default: 0; * The output signal $n is delayed by the SPI module clock, 0: output without delayed, * 1: output delay for a SPI module clock cycle at its negative edge. Can be * configured in CONF state. */ #define SPI_DOUT1_MODE (BIT(1)) #define SPI_DOUT1_MODE_M (SPI_DOUT1_MODE_V << SPI_DOUT1_MODE_S) #define SPI_DOUT1_MODE_V 0x00000001U #define SPI_DOUT1_MODE_S 1 /** SPI_DOUT2_MODE : R/W; bitpos: [2]; default: 0; * The output signal $n is delayed by the SPI module clock, 0: output without delayed, * 1: output delay for a SPI module clock cycle at its negative edge. Can be * configured in CONF state. */ #define SPI_DOUT2_MODE (BIT(2)) #define SPI_DOUT2_MODE_M (SPI_DOUT2_MODE_V << SPI_DOUT2_MODE_S) #define SPI_DOUT2_MODE_V 0x00000001U #define SPI_DOUT2_MODE_S 2 /** SPI_DOUT3_MODE : R/W; bitpos: [3]; default: 0; * The output signal $n is delayed by the SPI module clock, 0: output without delayed, * 1: output delay for a SPI module clock cycle at its negative edge. Can be * configured in CONF state. */ #define SPI_DOUT3_MODE (BIT(3)) #define SPI_DOUT3_MODE_M (SPI_DOUT3_MODE_V << SPI_DOUT3_MODE_S) #define SPI_DOUT3_MODE_V 0x00000001U #define SPI_DOUT3_MODE_S 3 /** SPI_DOUT4_MODE : R/W; bitpos: [4]; default: 0; * The output signal $n is delayed by the SPI module clock, 0: output without delayed, * 1: output delay for a SPI module clock cycle at its negative edge. Can be * configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DOUT4_MODE (BIT(4)) #define SPI_DOUT4_MODE_M (SPI_DOUT4_MODE_V << SPI_DOUT4_MODE_S) #define SPI_DOUT4_MODE_V 0x00000001U #define SPI_DOUT4_MODE_S 4 /** SPI_DOUT5_MODE : R/W; bitpos: [5]; default: 0; * The output signal $n is delayed by the SPI module clock, 0: output without delayed, * 1: output delay for a SPI module clock cycle at its negative edge. Can be * configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DOUT5_MODE (BIT(5)) #define SPI_DOUT5_MODE_M (SPI_DOUT5_MODE_V << SPI_DOUT5_MODE_S) #define SPI_DOUT5_MODE_V 0x00000001U #define SPI_DOUT5_MODE_S 5 /** SPI_DOUT6_MODE : R/W; bitpos: [6]; default: 0; * The output signal $n is delayed by the SPI module clock, 0: output without delayed, * 1: output delay for a SPI module clock cycle at its negative edge. Can be * configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DOUT6_MODE (BIT(6)) #define SPI_DOUT6_MODE_M (SPI_DOUT6_MODE_V << SPI_DOUT6_MODE_S) #define SPI_DOUT6_MODE_V 0x00000001U #define SPI_DOUT6_MODE_S 6 /** SPI_DOUT7_MODE : R/W; bitpos: [7]; default: 0; * The output signal $n is delayed by the SPI module clock, 0: output without delayed, * 1: output delay for a SPI module clock cycle at its negative edge. Can be * configured in CONF state. */ //this field is only for GPSPI2 #define SPI_DOUT7_MODE (BIT(7)) #define SPI_DOUT7_MODE_M (SPI_DOUT7_MODE_V << SPI_DOUT7_MODE_S) #define SPI_DOUT7_MODE_V 0x00000001U #define SPI_DOUT7_MODE_S 7 /** SPI_D_DQS_MODE : R/W; bitpos: [8]; default: 0; * The output signal SPI_DQS is delayed by the SPI module clock, 0: output without * delayed, 1: output delay for a SPI module clock cycle at its negative edge. Can be * configured in CONF state. */ //this field is only for GPSPI2 #define SPI_D_DQS_MODE (BIT(8)) #define SPI_D_DQS_MODE_M (SPI_D_DQS_MODE_V << SPI_D_DQS_MODE_S) #define SPI_D_DQS_MODE_V 0x00000001U #define SPI_D_DQS_MODE_S 8 /** SPI_DMA_CONF_REG register * SPI DMA control register */ #define SPI_DMA_CONF_REG(i) (REG_SPI_BASE(i) + 0x30) /** SPI_DMA_OUTFIFO_EMPTY : RO; bitpos: [0]; default: 1; * Records the status of DMA TX FIFO. 1: DMA TX FIFO is not ready for sending data. 0: * DMA TX FIFO is ready for sending data. */ #define SPI_DMA_OUTFIFO_EMPTY (BIT(0)) #define SPI_DMA_OUTFIFO_EMPTY_M (SPI_DMA_OUTFIFO_EMPTY_V << SPI_DMA_OUTFIFO_EMPTY_S) #define SPI_DMA_OUTFIFO_EMPTY_V 0x00000001U #define SPI_DMA_OUTFIFO_EMPTY_S 0 /** SPI_DMA_INFIFO_FULL : RO; bitpos: [1]; default: 1; * Records the status of DMA RX FIFO. 1: DMA RX FIFO is not ready for receiving data. * 0: DMA RX FIFO is ready for receiving data. */ #define SPI_DMA_INFIFO_FULL (BIT(1)) #define SPI_DMA_INFIFO_FULL_M (SPI_DMA_INFIFO_FULL_V << SPI_DMA_INFIFO_FULL_S) #define SPI_DMA_INFIFO_FULL_V 0x00000001U #define SPI_DMA_INFIFO_FULL_S 1 /** SPI_DMA_SLV_SEG_TRANS_EN : R/W; bitpos: [18]; default: 0; * Enable dma segment transfer in spi dma half slave mode. 1: enable. 0: disable. */ #define SPI_DMA_SLV_SEG_TRANS_EN (BIT(18)) #define SPI_DMA_SLV_SEG_TRANS_EN_M (SPI_DMA_SLV_SEG_TRANS_EN_V << SPI_DMA_SLV_SEG_TRANS_EN_S) #define SPI_DMA_SLV_SEG_TRANS_EN_V 0x00000001U #define SPI_DMA_SLV_SEG_TRANS_EN_S 18 /** SPI_SLV_RX_SEG_TRANS_CLR_EN : R/W; bitpos: [19]; default: 0; * 1: spi_dma_infifo_full_vld is cleared by spi slave cmd 5. 0: * spi_dma_infifo_full_vld is cleared by spi_trans_done. */ #define SPI_SLV_RX_SEG_TRANS_CLR_EN (BIT(19)) #define SPI_SLV_RX_SEG_TRANS_CLR_EN_M (SPI_SLV_RX_SEG_TRANS_CLR_EN_V << SPI_SLV_RX_SEG_TRANS_CLR_EN_S) #define SPI_SLV_RX_SEG_TRANS_CLR_EN_V 0x00000001U #define SPI_SLV_RX_SEG_TRANS_CLR_EN_S 19 /** SPI_SLV_TX_SEG_TRANS_CLR_EN : R/W; bitpos: [20]; default: 0; * 1: spi_dma_outfifo_empty_vld is cleared by spi slave cmd 6. 0: * spi_dma_outfifo_empty_vld is cleared by spi_trans_done. */ #define SPI_SLV_TX_SEG_TRANS_CLR_EN (BIT(20)) #define SPI_SLV_TX_SEG_TRANS_CLR_EN_M (SPI_SLV_TX_SEG_TRANS_CLR_EN_V << SPI_SLV_TX_SEG_TRANS_CLR_EN_S) #define SPI_SLV_TX_SEG_TRANS_CLR_EN_V 0x00000001U #define SPI_SLV_TX_SEG_TRANS_CLR_EN_S 20 /** SPI_RX_EOF_EN : R/W; bitpos: [21]; default: 0; * 1: spi_dma_inlink_eof is set when the number of dma pushed data bytes is equal to * the value of spi_slv/mst_dma_rd_bytelen[19:0] in spi dma transition. 0: * spi_dma_inlink_eof is set by spi_trans_done in non-seg-trans or * spi_dma_seg_trans_done in seg-trans. */ #define SPI_RX_EOF_EN (BIT(21)) #define SPI_RX_EOF_EN_M (SPI_RX_EOF_EN_V << SPI_RX_EOF_EN_S) #define SPI_RX_EOF_EN_V 0x00000001U #define SPI_RX_EOF_EN_S 21 /** SPI_DMA_RX_ENA : R/W; bitpos: [27]; default: 0; * Set this bit to enable SPI DMA controlled receive data mode. */ #define SPI_DMA_RX_ENA (BIT(27)) #define SPI_DMA_RX_ENA_M (SPI_DMA_RX_ENA_V << SPI_DMA_RX_ENA_S) #define SPI_DMA_RX_ENA_V 0x00000001U #define SPI_DMA_RX_ENA_S 27 /** SPI_DMA_TX_ENA : R/W; bitpos: [28]; default: 0; * Set this bit to enable SPI DMA controlled send data mode. */ #define SPI_DMA_TX_ENA (BIT(28)) #define SPI_DMA_TX_ENA_M (SPI_DMA_TX_ENA_V << SPI_DMA_TX_ENA_S) #define SPI_DMA_TX_ENA_V 0x00000001U #define SPI_DMA_TX_ENA_S 28 /** SPI_RX_AFIFO_RST : WT; bitpos: [29]; default: 0; * Set this bit to reset RX AFIFO, which is used to receive data in SPI master and * slave mode transfer. */ #define SPI_RX_AFIFO_RST (BIT(29)) #define SPI_RX_AFIFO_RST_M (SPI_RX_AFIFO_RST_V << SPI_RX_AFIFO_RST_S) #define SPI_RX_AFIFO_RST_V 0x00000001U #define SPI_RX_AFIFO_RST_S 29 /** SPI_BUF_AFIFO_RST : WT; bitpos: [30]; default: 0; * Set this bit to reset BUF TX AFIFO, which is used send data out in SPI slave CPU * controlled mode transfer and master mode transfer. */ #define SPI_BUF_AFIFO_RST (BIT(30)) #define SPI_BUF_AFIFO_RST_M (SPI_BUF_AFIFO_RST_V << SPI_BUF_AFIFO_RST_S) #define SPI_BUF_AFIFO_RST_V 0x00000001U #define SPI_BUF_AFIFO_RST_S 30 /** SPI_DMA_AFIFO_RST : WT; bitpos: [31]; default: 0; * Set this bit to reset DMA TX AFIFO, which is used to send data out in SPI slave DMA * controlled mode transfer. */ #define SPI_DMA_AFIFO_RST (BIT(31)) #define SPI_DMA_AFIFO_RST_M (SPI_DMA_AFIFO_RST_V << SPI_DMA_AFIFO_RST_S) #define SPI_DMA_AFIFO_RST_V 0x00000001U #define SPI_DMA_AFIFO_RST_S 31 /** SPI_DMA_INT_ENA_REG register * SPI interrupt enable register */ #define SPI_DMA_INT_ENA_REG(i) (REG_SPI_BASE(i) + 0x34) /** SPI_DMA_INFIFO_FULL_ERR_INT_ENA : R/W; bitpos: [0]; default: 0; * The enable bit for SPI_DMA_INFIFO_FULL_ERR_INT interrupt. */ #define SPI_DMA_INFIFO_FULL_ERR_INT_ENA (BIT(0)) #define SPI_DMA_INFIFO_FULL_ERR_INT_ENA_M (SPI_DMA_INFIFO_FULL_ERR_INT_ENA_V << SPI_DMA_INFIFO_FULL_ERR_INT_ENA_S) #define SPI_DMA_INFIFO_FULL_ERR_INT_ENA_V 0x00000001U #define SPI_DMA_INFIFO_FULL_ERR_INT_ENA_S 0 /** SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ENA : R/W; bitpos: [1]; default: 0; * The enable bit for SPI_DMA_OUTFIFO_EMPTY_ERR_INT interrupt. */ #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ENA (BIT(1)) #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ENA_M (SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ENA_V << SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ENA_S) #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ENA_V 0x00000001U #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ENA_S 1 /** SPI_SLV_EX_QPI_INT_ENA : R/W; bitpos: [2]; default: 0; * The enable bit for SPI slave Ex_QPI interrupt. */ #define SPI_SLV_EX_QPI_INT_ENA (BIT(2)) #define SPI_SLV_EX_QPI_INT_ENA_M (SPI_SLV_EX_QPI_INT_ENA_V << SPI_SLV_EX_QPI_INT_ENA_S) #define SPI_SLV_EX_QPI_INT_ENA_V 0x00000001U #define SPI_SLV_EX_QPI_INT_ENA_S 2 /** SPI_SLV_EN_QPI_INT_ENA : R/W; bitpos: [3]; default: 0; * The enable bit for SPI slave En_QPI interrupt. */ #define SPI_SLV_EN_QPI_INT_ENA (BIT(3)) #define SPI_SLV_EN_QPI_INT_ENA_M (SPI_SLV_EN_QPI_INT_ENA_V << SPI_SLV_EN_QPI_INT_ENA_S) #define SPI_SLV_EN_QPI_INT_ENA_V 0x00000001U #define SPI_SLV_EN_QPI_INT_ENA_S 3 /** SPI_SLV_CMD7_INT_ENA : R/W; bitpos: [4]; default: 0; * The enable bit for SPI slave CMD7 interrupt. */ #define SPI_SLV_CMD7_INT_ENA (BIT(4)) #define SPI_SLV_CMD7_INT_ENA_M (SPI_SLV_CMD7_INT_ENA_V << SPI_SLV_CMD7_INT_ENA_S) #define SPI_SLV_CMD7_INT_ENA_V 0x00000001U #define SPI_SLV_CMD7_INT_ENA_S 4 /** SPI_SLV_CMD8_INT_ENA : R/W; bitpos: [5]; default: 0; * The enable bit for SPI slave CMD8 interrupt. */ #define SPI_SLV_CMD8_INT_ENA (BIT(5)) #define SPI_SLV_CMD8_INT_ENA_M (SPI_SLV_CMD8_INT_ENA_V << SPI_SLV_CMD8_INT_ENA_S) #define SPI_SLV_CMD8_INT_ENA_V 0x00000001U #define SPI_SLV_CMD8_INT_ENA_S 5 /** SPI_SLV_CMD9_INT_ENA : R/W; bitpos: [6]; default: 0; * The enable bit for SPI slave CMD9 interrupt. */ #define SPI_SLV_CMD9_INT_ENA (BIT(6)) #define SPI_SLV_CMD9_INT_ENA_M (SPI_SLV_CMD9_INT_ENA_V << SPI_SLV_CMD9_INT_ENA_S) #define SPI_SLV_CMD9_INT_ENA_V 0x00000001U #define SPI_SLV_CMD9_INT_ENA_S 6 /** SPI_SLV_CMDA_INT_ENA : R/W; bitpos: [7]; default: 0; * The enable bit for SPI slave CMDA interrupt. */ #define SPI_SLV_CMDA_INT_ENA (BIT(7)) #define SPI_SLV_CMDA_INT_ENA_M (SPI_SLV_CMDA_INT_ENA_V << SPI_SLV_CMDA_INT_ENA_S) #define SPI_SLV_CMDA_INT_ENA_V 0x00000001U #define SPI_SLV_CMDA_INT_ENA_S 7 /** SPI_SLV_RD_DMA_DONE_INT_ENA : R/W; bitpos: [8]; default: 0; * The enable bit for SPI_SLV_RD_DMA_DONE_INT interrupt. */ #define SPI_SLV_RD_DMA_DONE_INT_ENA (BIT(8)) #define SPI_SLV_RD_DMA_DONE_INT_ENA_M (SPI_SLV_RD_DMA_DONE_INT_ENA_V << SPI_SLV_RD_DMA_DONE_INT_ENA_S) #define SPI_SLV_RD_DMA_DONE_INT_ENA_V 0x00000001U #define SPI_SLV_RD_DMA_DONE_INT_ENA_S 8 /** SPI_SLV_WR_DMA_DONE_INT_ENA : R/W; bitpos: [9]; default: 0; * The enable bit for SPI_SLV_WR_DMA_DONE_INT interrupt. */ #define SPI_SLV_WR_DMA_DONE_INT_ENA (BIT(9)) #define SPI_SLV_WR_DMA_DONE_INT_ENA_M (SPI_SLV_WR_DMA_DONE_INT_ENA_V << SPI_SLV_WR_DMA_DONE_INT_ENA_S) #define SPI_SLV_WR_DMA_DONE_INT_ENA_V 0x00000001U #define SPI_SLV_WR_DMA_DONE_INT_ENA_S 9 /** SPI_SLV_RD_BUF_DONE_INT_ENA : R/W; bitpos: [10]; default: 0; * The enable bit for SPI_SLV_RD_BUF_DONE_INT interrupt. */ #define SPI_SLV_RD_BUF_DONE_INT_ENA (BIT(10)) #define SPI_SLV_RD_BUF_DONE_INT_ENA_M (SPI_SLV_RD_BUF_DONE_INT_ENA_V << SPI_SLV_RD_BUF_DONE_INT_ENA_S) #define SPI_SLV_RD_BUF_DONE_INT_ENA_V 0x00000001U #define SPI_SLV_RD_BUF_DONE_INT_ENA_S 10 /** SPI_SLV_WR_BUF_DONE_INT_ENA : R/W; bitpos: [11]; default: 0; * The enable bit for SPI_SLV_WR_BUF_DONE_INT interrupt. */ #define SPI_SLV_WR_BUF_DONE_INT_ENA (BIT(11)) #define SPI_SLV_WR_BUF_DONE_INT_ENA_M (SPI_SLV_WR_BUF_DONE_INT_ENA_V << SPI_SLV_WR_BUF_DONE_INT_ENA_S) #define SPI_SLV_WR_BUF_DONE_INT_ENA_V 0x00000001U #define SPI_SLV_WR_BUF_DONE_INT_ENA_S 11 /** SPI_TRANS_DONE_INT_ENA : R/W; bitpos: [12]; default: 0; * The enable bit for SPI_TRANS_DONE_INT interrupt. */ #define SPI_TRANS_DONE_INT_ENA (BIT(12)) #define SPI_TRANS_DONE_INT_ENA_M (SPI_TRANS_DONE_INT_ENA_V << SPI_TRANS_DONE_INT_ENA_S) #define SPI_TRANS_DONE_INT_ENA_V 0x00000001U #define SPI_TRANS_DONE_INT_ENA_S 12 /** SPI_DMA_SEG_TRANS_DONE_INT_ENA : R/W; bitpos: [13]; default: 0; * The enable bit for SPI_DMA_SEG_TRANS_DONE_INT interrupt. */ #define SPI_DMA_SEG_TRANS_DONE_INT_ENA (BIT(13)) #define SPI_DMA_SEG_TRANS_DONE_INT_ENA_M (SPI_DMA_SEG_TRANS_DONE_INT_ENA_V << SPI_DMA_SEG_TRANS_DONE_INT_ENA_S) #define SPI_DMA_SEG_TRANS_DONE_INT_ENA_V 0x00000001U #define SPI_DMA_SEG_TRANS_DONE_INT_ENA_S 13 /** SPI_SEG_MAGIC_ERR_INT_ENA : R/W; bitpos: [14]; default: 0; * The enable bit for SPI_SEG_MAGIC_ERR_INT interrupt. */ //this field is only for GPSPI2 #define SPI_SEG_MAGIC_ERR_INT_ENA (BIT(14)) #define SPI_SEG_MAGIC_ERR_INT_ENA_M (SPI_SEG_MAGIC_ERR_INT_ENA_V << SPI_SEG_MAGIC_ERR_INT_ENA_S) #define SPI_SEG_MAGIC_ERR_INT_ENA_V 0x00000001U #define SPI_SEG_MAGIC_ERR_INT_ENA_S 14 /** SPI_SLV_BUF_ADDR_ERR_INT_ENA : R/W; bitpos: [15]; default: 0; * The enable bit for SPI_SLV_BUF_ADDR_ERR_INT interrupt. */ #define SPI_SLV_BUF_ADDR_ERR_INT_ENA (BIT(15)) #define SPI_SLV_BUF_ADDR_ERR_INT_ENA_M (SPI_SLV_BUF_ADDR_ERR_INT_ENA_V << SPI_SLV_BUF_ADDR_ERR_INT_ENA_S) #define SPI_SLV_BUF_ADDR_ERR_INT_ENA_V 0x00000001U #define SPI_SLV_BUF_ADDR_ERR_INT_ENA_S 15 /** SPI_SLV_CMD_ERR_INT_ENA : R/W; bitpos: [16]; default: 0; * The enable bit for SPI_SLV_CMD_ERR_INT interrupt. */ #define SPI_SLV_CMD_ERR_INT_ENA (BIT(16)) #define SPI_SLV_CMD_ERR_INT_ENA_M (SPI_SLV_CMD_ERR_INT_ENA_V << SPI_SLV_CMD_ERR_INT_ENA_S) #define SPI_SLV_CMD_ERR_INT_ENA_V 0x00000001U #define SPI_SLV_CMD_ERR_INT_ENA_S 16 /** SPI_MST_RX_AFIFO_WFULL_ERR_INT_ENA : R/W; bitpos: [17]; default: 0; * The enable bit for SPI_MST_RX_AFIFO_WFULL_ERR_INT interrupt. */ #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_ENA (BIT(17)) #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_ENA_M (SPI_MST_RX_AFIFO_WFULL_ERR_INT_ENA_V << SPI_MST_RX_AFIFO_WFULL_ERR_INT_ENA_S) #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_ENA_V 0x00000001U #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_ENA_S 17 /** SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ENA : R/W; bitpos: [18]; default: 0; * The enable bit for SPI_MST_TX_AFIFO_REMPTY_ERR_INT interrupt. */ #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ENA (BIT(18)) #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ENA_M (SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ENA_V << SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ENA_S) #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ENA_V 0x00000001U #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ENA_S 18 /** SPI_APP2_INT_ENA : R/W; bitpos: [19]; default: 0; * The enable bit for SPI_APP2_INT interrupt. */ #define SPI_APP2_INT_ENA (BIT(19)) #define SPI_APP2_INT_ENA_M (SPI_APP2_INT_ENA_V << SPI_APP2_INT_ENA_S) #define SPI_APP2_INT_ENA_V 0x00000001U #define SPI_APP2_INT_ENA_S 19 /** SPI_APP1_INT_ENA : R/W; bitpos: [20]; default: 0; * The enable bit for SPI_APP1_INT interrupt. */ #define SPI_APP1_INT_ENA (BIT(20)) #define SPI_APP1_INT_ENA_M (SPI_APP1_INT_ENA_V << SPI_APP1_INT_ENA_S) #define SPI_APP1_INT_ENA_V 0x00000001U #define SPI_APP1_INT_ENA_S 20 /** SPI_DMA_INT_CLR_REG register * SPI interrupt clear register */ #define SPI_DMA_INT_CLR_REG(i) (REG_SPI_BASE(i) + 0x38) /** SPI_DMA_INFIFO_FULL_ERR_INT_CLR : WT; bitpos: [0]; default: 0; * The clear bit for SPI_DMA_INFIFO_FULL_ERR_INT interrupt. */ #define SPI_DMA_INFIFO_FULL_ERR_INT_CLR (BIT(0)) #define SPI_DMA_INFIFO_FULL_ERR_INT_CLR_M (SPI_DMA_INFIFO_FULL_ERR_INT_CLR_V << SPI_DMA_INFIFO_FULL_ERR_INT_CLR_S) #define SPI_DMA_INFIFO_FULL_ERR_INT_CLR_V 0x00000001U #define SPI_DMA_INFIFO_FULL_ERR_INT_CLR_S 0 /** SPI_DMA_OUTFIFO_EMPTY_ERR_INT_CLR : WT; bitpos: [1]; default: 0; * The clear bit for SPI_DMA_OUTFIFO_EMPTY_ERR_INT interrupt. */ #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_CLR (BIT(1)) #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_CLR_M (SPI_DMA_OUTFIFO_EMPTY_ERR_INT_CLR_V << SPI_DMA_OUTFIFO_EMPTY_ERR_INT_CLR_S) #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_CLR_V 0x00000001U #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_CLR_S 1 /** SPI_SLV_EX_QPI_INT_CLR : WT; bitpos: [2]; default: 0; * The clear bit for SPI slave Ex_QPI interrupt. */ #define SPI_SLV_EX_QPI_INT_CLR (BIT(2)) #define SPI_SLV_EX_QPI_INT_CLR_M (SPI_SLV_EX_QPI_INT_CLR_V << SPI_SLV_EX_QPI_INT_CLR_S) #define SPI_SLV_EX_QPI_INT_CLR_V 0x00000001U #define SPI_SLV_EX_QPI_INT_CLR_S 2 /** SPI_SLV_EN_QPI_INT_CLR : WT; bitpos: [3]; default: 0; * The clear bit for SPI slave En_QPI interrupt. */ #define SPI_SLV_EN_QPI_INT_CLR (BIT(3)) #define SPI_SLV_EN_QPI_INT_CLR_M (SPI_SLV_EN_QPI_INT_CLR_V << SPI_SLV_EN_QPI_INT_CLR_S) #define SPI_SLV_EN_QPI_INT_CLR_V 0x00000001U #define SPI_SLV_EN_QPI_INT_CLR_S 3 /** SPI_SLV_CMD7_INT_CLR : WT; bitpos: [4]; default: 0; * The clear bit for SPI slave CMD7 interrupt. */ #define SPI_SLV_CMD7_INT_CLR (BIT(4)) #define SPI_SLV_CMD7_INT_CLR_M (SPI_SLV_CMD7_INT_CLR_V << SPI_SLV_CMD7_INT_CLR_S) #define SPI_SLV_CMD7_INT_CLR_V 0x00000001U #define SPI_SLV_CMD7_INT_CLR_S 4 /** SPI_SLV_CMD8_INT_CLR : WT; bitpos: [5]; default: 0; * The clear bit for SPI slave CMD8 interrupt. */ #define SPI_SLV_CMD8_INT_CLR (BIT(5)) #define SPI_SLV_CMD8_INT_CLR_M (SPI_SLV_CMD8_INT_CLR_V << SPI_SLV_CMD8_INT_CLR_S) #define SPI_SLV_CMD8_INT_CLR_V 0x00000001U #define SPI_SLV_CMD8_INT_CLR_S 5 /** SPI_SLV_CMD9_INT_CLR : WT; bitpos: [6]; default: 0; * The clear bit for SPI slave CMD9 interrupt. */ #define SPI_SLV_CMD9_INT_CLR (BIT(6)) #define SPI_SLV_CMD9_INT_CLR_M (SPI_SLV_CMD9_INT_CLR_V << SPI_SLV_CMD9_INT_CLR_S) #define SPI_SLV_CMD9_INT_CLR_V 0x00000001U #define SPI_SLV_CMD9_INT_CLR_S 6 /** SPI_SLV_CMDA_INT_CLR : WT; bitpos: [7]; default: 0; * The clear bit for SPI slave CMDA interrupt. */ #define SPI_SLV_CMDA_INT_CLR (BIT(7)) #define SPI_SLV_CMDA_INT_CLR_M (SPI_SLV_CMDA_INT_CLR_V << SPI_SLV_CMDA_INT_CLR_S) #define SPI_SLV_CMDA_INT_CLR_V 0x00000001U #define SPI_SLV_CMDA_INT_CLR_S 7 /** SPI_SLV_RD_DMA_DONE_INT_CLR : WT; bitpos: [8]; default: 0; * The clear bit for SPI_SLV_RD_DMA_DONE_INT interrupt. */ #define SPI_SLV_RD_DMA_DONE_INT_CLR (BIT(8)) #define SPI_SLV_RD_DMA_DONE_INT_CLR_M (SPI_SLV_RD_DMA_DONE_INT_CLR_V << SPI_SLV_RD_DMA_DONE_INT_CLR_S) #define SPI_SLV_RD_DMA_DONE_INT_CLR_V 0x00000001U #define SPI_SLV_RD_DMA_DONE_INT_CLR_S 8 /** SPI_SLV_WR_DMA_DONE_INT_CLR : WT; bitpos: [9]; default: 0; * The clear bit for SPI_SLV_WR_DMA_DONE_INT interrupt. */ #define SPI_SLV_WR_DMA_DONE_INT_CLR (BIT(9)) #define SPI_SLV_WR_DMA_DONE_INT_CLR_M (SPI_SLV_WR_DMA_DONE_INT_CLR_V << SPI_SLV_WR_DMA_DONE_INT_CLR_S) #define SPI_SLV_WR_DMA_DONE_INT_CLR_V 0x00000001U #define SPI_SLV_WR_DMA_DONE_INT_CLR_S 9 /** SPI_SLV_RD_BUF_DONE_INT_CLR : WT; bitpos: [10]; default: 0; * The clear bit for SPI_SLV_RD_BUF_DONE_INT interrupt. */ #define SPI_SLV_RD_BUF_DONE_INT_CLR (BIT(10)) #define SPI_SLV_RD_BUF_DONE_INT_CLR_M (SPI_SLV_RD_BUF_DONE_INT_CLR_V << SPI_SLV_RD_BUF_DONE_INT_CLR_S) #define SPI_SLV_RD_BUF_DONE_INT_CLR_V 0x00000001U #define SPI_SLV_RD_BUF_DONE_INT_CLR_S 10 /** SPI_SLV_WR_BUF_DONE_INT_CLR : WT; bitpos: [11]; default: 0; * The clear bit for SPI_SLV_WR_BUF_DONE_INT interrupt. */ #define SPI_SLV_WR_BUF_DONE_INT_CLR (BIT(11)) #define SPI_SLV_WR_BUF_DONE_INT_CLR_M (SPI_SLV_WR_BUF_DONE_INT_CLR_V << SPI_SLV_WR_BUF_DONE_INT_CLR_S) #define SPI_SLV_WR_BUF_DONE_INT_CLR_V 0x00000001U #define SPI_SLV_WR_BUF_DONE_INT_CLR_S 11 /** SPI_TRANS_DONE_INT_CLR : WT; bitpos: [12]; default: 0; * The clear bit for SPI_TRANS_DONE_INT interrupt. */ #define SPI_TRANS_DONE_INT_CLR (BIT(12)) #define SPI_TRANS_DONE_INT_CLR_M (SPI_TRANS_DONE_INT_CLR_V << SPI_TRANS_DONE_INT_CLR_S) #define SPI_TRANS_DONE_INT_CLR_V 0x00000001U #define SPI_TRANS_DONE_INT_CLR_S 12 /** SPI_DMA_SEG_TRANS_DONE_INT_CLR : WT; bitpos: [13]; default: 0; * The clear bit for SPI_DMA_SEG_TRANS_DONE_INT interrupt. */ #define SPI_DMA_SEG_TRANS_DONE_INT_CLR (BIT(13)) #define SPI_DMA_SEG_TRANS_DONE_INT_CLR_M (SPI_DMA_SEG_TRANS_DONE_INT_CLR_V << SPI_DMA_SEG_TRANS_DONE_INT_CLR_S) #define SPI_DMA_SEG_TRANS_DONE_INT_CLR_V 0x00000001U #define SPI_DMA_SEG_TRANS_DONE_INT_CLR_S 13 /** SPI_SEG_MAGIC_ERR_INT_CLR : WT; bitpos: [14]; default: 0; * The clear bit for SPI_SEG_MAGIC_ERR_INT interrupt. */ //this field is only for GPSPI2 #define SPI_SEG_MAGIC_ERR_INT_CLR (BIT(14)) #define SPI_SEG_MAGIC_ERR_INT_CLR_M (SPI_SEG_MAGIC_ERR_INT_CLR_V << SPI_SEG_MAGIC_ERR_INT_CLR_S) #define SPI_SEG_MAGIC_ERR_INT_CLR_V 0x00000001U #define SPI_SEG_MAGIC_ERR_INT_CLR_S 14 /** SPI_SLV_BUF_ADDR_ERR_INT_CLR : WT; bitpos: [15]; default: 0; * The clear bit for SPI_SLV_BUF_ADDR_ERR_INT interrupt. */ #define SPI_SLV_BUF_ADDR_ERR_INT_CLR (BIT(15)) #define SPI_SLV_BUF_ADDR_ERR_INT_CLR_M (SPI_SLV_BUF_ADDR_ERR_INT_CLR_V << SPI_SLV_BUF_ADDR_ERR_INT_CLR_S) #define SPI_SLV_BUF_ADDR_ERR_INT_CLR_V 0x00000001U #define SPI_SLV_BUF_ADDR_ERR_INT_CLR_S 15 /** SPI_SLV_CMD_ERR_INT_CLR : WT; bitpos: [16]; default: 0; * The clear bit for SPI_SLV_CMD_ERR_INT interrupt. */ #define SPI_SLV_CMD_ERR_INT_CLR (BIT(16)) #define SPI_SLV_CMD_ERR_INT_CLR_M (SPI_SLV_CMD_ERR_INT_CLR_V << SPI_SLV_CMD_ERR_INT_CLR_S) #define SPI_SLV_CMD_ERR_INT_CLR_V 0x00000001U #define SPI_SLV_CMD_ERR_INT_CLR_S 16 /** SPI_MST_RX_AFIFO_WFULL_ERR_INT_CLR : WT; bitpos: [17]; default: 0; * The clear bit for SPI_MST_RX_AFIFO_WFULL_ERR_INT interrupt. */ #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_CLR (BIT(17)) #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_CLR_M (SPI_MST_RX_AFIFO_WFULL_ERR_INT_CLR_V << SPI_MST_RX_AFIFO_WFULL_ERR_INT_CLR_S) #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_CLR_V 0x00000001U #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_CLR_S 17 /** SPI_MST_TX_AFIFO_REMPTY_ERR_INT_CLR : WT; bitpos: [18]; default: 0; * The clear bit for SPI_MST_TX_AFIFO_REMPTY_ERR_INT interrupt. */ #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_CLR (BIT(18)) #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_CLR_M (SPI_MST_TX_AFIFO_REMPTY_ERR_INT_CLR_V << SPI_MST_TX_AFIFO_REMPTY_ERR_INT_CLR_S) #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_CLR_V 0x00000001U #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_CLR_S 18 /** SPI_APP2_INT_CLR : WT; bitpos: [19]; default: 0; * The clear bit for SPI_APP2_INT interrupt. */ #define SPI_APP2_INT_CLR (BIT(19)) #define SPI_APP2_INT_CLR_M (SPI_APP2_INT_CLR_V << SPI_APP2_INT_CLR_S) #define SPI_APP2_INT_CLR_V 0x00000001U #define SPI_APP2_INT_CLR_S 19 /** SPI_APP1_INT_CLR : WT; bitpos: [20]; default: 0; * The clear bit for SPI_APP1_INT interrupt. */ #define SPI_APP1_INT_CLR (BIT(20)) #define SPI_APP1_INT_CLR_M (SPI_APP1_INT_CLR_V << SPI_APP1_INT_CLR_S) #define SPI_APP1_INT_CLR_V 0x00000001U #define SPI_APP1_INT_CLR_S 20 /** SPI_DMA_INT_RAW_REG register * SPI interrupt raw register */ #define SPI_DMA_INT_RAW_REG(i) (REG_SPI_BASE(i) + 0x3c) /** SPI_DMA_INFIFO_FULL_ERR_INT_RAW : R/WTC/SS; bitpos: [0]; default: 0; * 1: The current data rate of DMA Rx is smaller than that of SPI, which will lose the * receive data. 0: Others. */ #define SPI_DMA_INFIFO_FULL_ERR_INT_RAW (BIT(0)) #define SPI_DMA_INFIFO_FULL_ERR_INT_RAW_M (SPI_DMA_INFIFO_FULL_ERR_INT_RAW_V << SPI_DMA_INFIFO_FULL_ERR_INT_RAW_S) #define SPI_DMA_INFIFO_FULL_ERR_INT_RAW_V 0x00000001U #define SPI_DMA_INFIFO_FULL_ERR_INT_RAW_S 0 /** SPI_DMA_OUTFIFO_EMPTY_ERR_INT_RAW : R/WTC/SS; bitpos: [1]; default: 0; * 1: The current data rate of DMA TX is smaller than that of SPI. SPI will stop in * master mode and send out all 0 in slave mode. 0: Others. */ #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_RAW (BIT(1)) #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_RAW_M (SPI_DMA_OUTFIFO_EMPTY_ERR_INT_RAW_V << SPI_DMA_OUTFIFO_EMPTY_ERR_INT_RAW_S) #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_RAW_V 0x00000001U #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_RAW_S 1 /** SPI_SLV_EX_QPI_INT_RAW : R/WTC/SS; bitpos: [2]; default: 0; * The raw bit for SPI slave Ex_QPI interrupt. 1: SPI slave mode Ex_QPI transmission * is ended. 0: Others. */ #define SPI_SLV_EX_QPI_INT_RAW (BIT(2)) #define SPI_SLV_EX_QPI_INT_RAW_M (SPI_SLV_EX_QPI_INT_RAW_V << SPI_SLV_EX_QPI_INT_RAW_S) #define SPI_SLV_EX_QPI_INT_RAW_V 0x00000001U #define SPI_SLV_EX_QPI_INT_RAW_S 2 /** SPI_SLV_EN_QPI_INT_RAW : R/WTC/SS; bitpos: [3]; default: 0; * The raw bit for SPI slave En_QPI interrupt. 1: SPI slave mode En_QPI transmission * is ended. 0: Others. */ #define SPI_SLV_EN_QPI_INT_RAW (BIT(3)) #define SPI_SLV_EN_QPI_INT_RAW_M (SPI_SLV_EN_QPI_INT_RAW_V << SPI_SLV_EN_QPI_INT_RAW_S) #define SPI_SLV_EN_QPI_INT_RAW_V 0x00000001U #define SPI_SLV_EN_QPI_INT_RAW_S 3 /** SPI_SLV_CMD7_INT_RAW : R/WTC/SS; bitpos: [4]; default: 0; * The raw bit for SPI slave CMD7 interrupt. 1: SPI slave mode CMD7 transmission is * ended. 0: Others. */ #define SPI_SLV_CMD7_INT_RAW (BIT(4)) #define SPI_SLV_CMD7_INT_RAW_M (SPI_SLV_CMD7_INT_RAW_V << SPI_SLV_CMD7_INT_RAW_S) #define SPI_SLV_CMD7_INT_RAW_V 0x00000001U #define SPI_SLV_CMD7_INT_RAW_S 4 /** SPI_SLV_CMD8_INT_RAW : R/WTC/SS; bitpos: [5]; default: 0; * The raw bit for SPI slave CMD8 interrupt. 1: SPI slave mode CMD8 transmission is * ended. 0: Others. */ #define SPI_SLV_CMD8_INT_RAW (BIT(5)) #define SPI_SLV_CMD8_INT_RAW_M (SPI_SLV_CMD8_INT_RAW_V << SPI_SLV_CMD8_INT_RAW_S) #define SPI_SLV_CMD8_INT_RAW_V 0x00000001U #define SPI_SLV_CMD8_INT_RAW_S 5 /** SPI_SLV_CMD9_INT_RAW : R/WTC/SS; bitpos: [6]; default: 0; * The raw bit for SPI slave CMD9 interrupt. 1: SPI slave mode CMD9 transmission is * ended. 0: Others. */ #define SPI_SLV_CMD9_INT_RAW (BIT(6)) #define SPI_SLV_CMD9_INT_RAW_M (SPI_SLV_CMD9_INT_RAW_V << SPI_SLV_CMD9_INT_RAW_S) #define SPI_SLV_CMD9_INT_RAW_V 0x00000001U #define SPI_SLV_CMD9_INT_RAW_S 6 /** SPI_SLV_CMDA_INT_RAW : R/WTC/SS; bitpos: [7]; default: 0; * The raw bit for SPI slave CMDA interrupt. 1: SPI slave mode CMDA transmission is * ended. 0: Others. */ #define SPI_SLV_CMDA_INT_RAW (BIT(7)) #define SPI_SLV_CMDA_INT_RAW_M (SPI_SLV_CMDA_INT_RAW_V << SPI_SLV_CMDA_INT_RAW_S) #define SPI_SLV_CMDA_INT_RAW_V 0x00000001U #define SPI_SLV_CMDA_INT_RAW_S 7 /** SPI_SLV_RD_DMA_DONE_INT_RAW : R/WTC/SS; bitpos: [8]; default: 0; * The raw bit for SPI_SLV_RD_DMA_DONE_INT interrupt. 1: SPI slave mode Rd_DMA * transmission is ended. 0: Others. */ #define SPI_SLV_RD_DMA_DONE_INT_RAW (BIT(8)) #define SPI_SLV_RD_DMA_DONE_INT_RAW_M (SPI_SLV_RD_DMA_DONE_INT_RAW_V << SPI_SLV_RD_DMA_DONE_INT_RAW_S) #define SPI_SLV_RD_DMA_DONE_INT_RAW_V 0x00000001U #define SPI_SLV_RD_DMA_DONE_INT_RAW_S 8 /** SPI_SLV_WR_DMA_DONE_INT_RAW : R/WTC/SS; bitpos: [9]; default: 0; * The raw bit for SPI_SLV_WR_DMA_DONE_INT interrupt. 1: SPI slave mode Wr_DMA * transmission is ended. 0: Others. */ #define SPI_SLV_WR_DMA_DONE_INT_RAW (BIT(9)) #define SPI_SLV_WR_DMA_DONE_INT_RAW_M (SPI_SLV_WR_DMA_DONE_INT_RAW_V << SPI_SLV_WR_DMA_DONE_INT_RAW_S) #define SPI_SLV_WR_DMA_DONE_INT_RAW_V 0x00000001U #define SPI_SLV_WR_DMA_DONE_INT_RAW_S 9 /** SPI_SLV_RD_BUF_DONE_INT_RAW : R/WTC/SS; bitpos: [10]; default: 0; * The raw bit for SPI_SLV_RD_BUF_DONE_INT interrupt. 1: SPI slave mode Rd_BUF * transmission is ended. 0: Others. */ #define SPI_SLV_RD_BUF_DONE_INT_RAW (BIT(10)) #define SPI_SLV_RD_BUF_DONE_INT_RAW_M (SPI_SLV_RD_BUF_DONE_INT_RAW_V << SPI_SLV_RD_BUF_DONE_INT_RAW_S) #define SPI_SLV_RD_BUF_DONE_INT_RAW_V 0x00000001U #define SPI_SLV_RD_BUF_DONE_INT_RAW_S 10 /** SPI_SLV_WR_BUF_DONE_INT_RAW : R/WTC/SS; bitpos: [11]; default: 0; * The raw bit for SPI_SLV_WR_BUF_DONE_INT interrupt. 1: SPI slave mode Wr_BUF * transmission is ended. 0: Others. */ #define SPI_SLV_WR_BUF_DONE_INT_RAW (BIT(11)) #define SPI_SLV_WR_BUF_DONE_INT_RAW_M (SPI_SLV_WR_BUF_DONE_INT_RAW_V << SPI_SLV_WR_BUF_DONE_INT_RAW_S) #define SPI_SLV_WR_BUF_DONE_INT_RAW_V 0x00000001U #define SPI_SLV_WR_BUF_DONE_INT_RAW_S 11 /** SPI_TRANS_DONE_INT_RAW : R/WTC/SS; bitpos: [12]; default: 0; * The raw bit for SPI_TRANS_DONE_INT interrupt. 1: SPI master mode transmission is * ended. 0: others. */ #define SPI_TRANS_DONE_INT_RAW (BIT(12)) #define SPI_TRANS_DONE_INT_RAW_M (SPI_TRANS_DONE_INT_RAW_V << SPI_TRANS_DONE_INT_RAW_S) #define SPI_TRANS_DONE_INT_RAW_V 0x00000001U #define SPI_TRANS_DONE_INT_RAW_S 12 /** SPI_DMA_SEG_TRANS_DONE_INT_RAW : R/WTC/SS; bitpos: [13]; default: 0; * The raw bit for SPI_DMA_SEG_TRANS_DONE_INT interrupt. 1: spi master DMA * full-duplex/half-duplex seg-conf-trans ends or slave half-duplex seg-trans ends. * And data has been pushed to corresponding memory. 0: seg-conf-trans or seg-trans * is not ended or not occurred. */ #define SPI_DMA_SEG_TRANS_DONE_INT_RAW (BIT(13)) #define SPI_DMA_SEG_TRANS_DONE_INT_RAW_M (SPI_DMA_SEG_TRANS_DONE_INT_RAW_V << SPI_DMA_SEG_TRANS_DONE_INT_RAW_S) #define SPI_DMA_SEG_TRANS_DONE_INT_RAW_V 0x00000001U #define SPI_DMA_SEG_TRANS_DONE_INT_RAW_S 13 /** SPI_SEG_MAGIC_ERR_INT_RAW : R/WTC/SS; bitpos: [14]; default: 0; * The raw bit for SPI_SEG_MAGIC_ERR_INT interrupt. 1: The magic value in CONF buffer * is error in the DMA seg-conf-trans. 0: others. */ //this field is only for GPSPI2 #define SPI_SEG_MAGIC_ERR_INT_RAW (BIT(14)) #define SPI_SEG_MAGIC_ERR_INT_RAW_M (SPI_SEG_MAGIC_ERR_INT_RAW_V << SPI_SEG_MAGIC_ERR_INT_RAW_S) #define SPI_SEG_MAGIC_ERR_INT_RAW_V 0x00000001U #define SPI_SEG_MAGIC_ERR_INT_RAW_S 14 /** SPI_SLV_BUF_ADDR_ERR_INT_RAW : R/WTC/SS; bitpos: [15]; default: 0; * The raw bit for SPI_SLV_BUF_ADDR_ERR_INT interrupt. 1: The accessing data address * of the current SPI slave mode CPU controlled FD, Wr_BUF or Rd_BUF transmission is * bigger than 63. 0: Others. */ #define SPI_SLV_BUF_ADDR_ERR_INT_RAW (BIT(15)) #define SPI_SLV_BUF_ADDR_ERR_INT_RAW_M (SPI_SLV_BUF_ADDR_ERR_INT_RAW_V << SPI_SLV_BUF_ADDR_ERR_INT_RAW_S) #define SPI_SLV_BUF_ADDR_ERR_INT_RAW_V 0x00000001U #define SPI_SLV_BUF_ADDR_ERR_INT_RAW_S 15 /** SPI_SLV_CMD_ERR_INT_RAW : R/WTC/SS; bitpos: [16]; default: 0; * The raw bit for SPI_SLV_CMD_ERR_INT interrupt. 1: The slave command value in the * current SPI slave HD mode transmission is not supported. 0: Others. */ #define SPI_SLV_CMD_ERR_INT_RAW (BIT(16)) #define SPI_SLV_CMD_ERR_INT_RAW_M (SPI_SLV_CMD_ERR_INT_RAW_V << SPI_SLV_CMD_ERR_INT_RAW_S) #define SPI_SLV_CMD_ERR_INT_RAW_V 0x00000001U #define SPI_SLV_CMD_ERR_INT_RAW_S 16 /** SPI_MST_RX_AFIFO_WFULL_ERR_INT_RAW : R/WTC/SS; bitpos: [17]; default: 0; * The raw bit for SPI_MST_RX_AFIFO_WFULL_ERR_INT interrupt. 1: There is a RX AFIFO * write-full error when SPI inputs data in master mode. 0: Others. */ #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_RAW (BIT(17)) #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_RAW_M (SPI_MST_RX_AFIFO_WFULL_ERR_INT_RAW_V << SPI_MST_RX_AFIFO_WFULL_ERR_INT_RAW_S) #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_RAW_V 0x00000001U #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_RAW_S 17 /** SPI_MST_TX_AFIFO_REMPTY_ERR_INT_RAW : R/WTC/SS; bitpos: [18]; default: 0; * The raw bit for SPI_MST_TX_AFIFO_REMPTY_ERR_INT interrupt. 1: There is a TX BUF * AFIFO read-empty error when SPI outputs data in master mode. 0: Others. */ #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_RAW (BIT(18)) #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_RAW_M (SPI_MST_TX_AFIFO_REMPTY_ERR_INT_RAW_V << SPI_MST_TX_AFIFO_REMPTY_ERR_INT_RAW_S) #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_RAW_V 0x00000001U #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_RAW_S 18 /** SPI_APP2_INT_RAW : R/WTC/SS; bitpos: [19]; default: 0; * The raw bit for SPI_APP2_INT interrupt. The value is only controlled by software. */ #define SPI_APP2_INT_RAW (BIT(19)) #define SPI_APP2_INT_RAW_M (SPI_APP2_INT_RAW_V << SPI_APP2_INT_RAW_S) #define SPI_APP2_INT_RAW_V 0x00000001U #define SPI_APP2_INT_RAW_S 19 /** SPI_APP1_INT_RAW : R/WTC/SS; bitpos: [20]; default: 0; * The raw bit for SPI_APP1_INT interrupt. The value is only controlled by software. */ #define SPI_APP1_INT_RAW (BIT(20)) #define SPI_APP1_INT_RAW_M (SPI_APP1_INT_RAW_V << SPI_APP1_INT_RAW_S) #define SPI_APP1_INT_RAW_V 0x00000001U #define SPI_APP1_INT_RAW_S 20 /** SPI_DMA_INT_ST_REG register * SPI interrupt status register */ #define SPI_DMA_INT_ST_REG(i) (REG_SPI_BASE(i) + 0x40) /** SPI_DMA_INFIFO_FULL_ERR_INT_ST : RO; bitpos: [0]; default: 0; * The status bit for SPI_DMA_INFIFO_FULL_ERR_INT interrupt. */ #define SPI_DMA_INFIFO_FULL_ERR_INT_ST (BIT(0)) #define SPI_DMA_INFIFO_FULL_ERR_INT_ST_M (SPI_DMA_INFIFO_FULL_ERR_INT_ST_V << SPI_DMA_INFIFO_FULL_ERR_INT_ST_S) #define SPI_DMA_INFIFO_FULL_ERR_INT_ST_V 0x00000001U #define SPI_DMA_INFIFO_FULL_ERR_INT_ST_S 0 /** SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ST : RO; bitpos: [1]; default: 0; * The status bit for SPI_DMA_OUTFIFO_EMPTY_ERR_INT interrupt. */ #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ST (BIT(1)) #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ST_M (SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ST_V << SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ST_S) #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ST_V 0x00000001U #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_ST_S 1 /** SPI_SLV_EX_QPI_INT_ST : RO; bitpos: [2]; default: 0; * The status bit for SPI slave Ex_QPI interrupt. */ #define SPI_SLV_EX_QPI_INT_ST (BIT(2)) #define SPI_SLV_EX_QPI_INT_ST_M (SPI_SLV_EX_QPI_INT_ST_V << SPI_SLV_EX_QPI_INT_ST_S) #define SPI_SLV_EX_QPI_INT_ST_V 0x00000001U #define SPI_SLV_EX_QPI_INT_ST_S 2 /** SPI_SLV_EN_QPI_INT_ST : RO; bitpos: [3]; default: 0; * The status bit for SPI slave En_QPI interrupt. */ #define SPI_SLV_EN_QPI_INT_ST (BIT(3)) #define SPI_SLV_EN_QPI_INT_ST_M (SPI_SLV_EN_QPI_INT_ST_V << SPI_SLV_EN_QPI_INT_ST_S) #define SPI_SLV_EN_QPI_INT_ST_V 0x00000001U #define SPI_SLV_EN_QPI_INT_ST_S 3 /** SPI_SLV_CMD7_INT_ST : RO; bitpos: [4]; default: 0; * The status bit for SPI slave CMD7 interrupt. */ #define SPI_SLV_CMD7_INT_ST (BIT(4)) #define SPI_SLV_CMD7_INT_ST_M (SPI_SLV_CMD7_INT_ST_V << SPI_SLV_CMD7_INT_ST_S) #define SPI_SLV_CMD7_INT_ST_V 0x00000001U #define SPI_SLV_CMD7_INT_ST_S 4 /** SPI_SLV_CMD8_INT_ST : RO; bitpos: [5]; default: 0; * The status bit for SPI slave CMD8 interrupt. */ #define SPI_SLV_CMD8_INT_ST (BIT(5)) #define SPI_SLV_CMD8_INT_ST_M (SPI_SLV_CMD8_INT_ST_V << SPI_SLV_CMD8_INT_ST_S) #define SPI_SLV_CMD8_INT_ST_V 0x00000001U #define SPI_SLV_CMD8_INT_ST_S 5 /** SPI_SLV_CMD9_INT_ST : RO; bitpos: [6]; default: 0; * The status bit for SPI slave CMD9 interrupt. */ #define SPI_SLV_CMD9_INT_ST (BIT(6)) #define SPI_SLV_CMD9_INT_ST_M (SPI_SLV_CMD9_INT_ST_V << SPI_SLV_CMD9_INT_ST_S) #define SPI_SLV_CMD9_INT_ST_V 0x00000001U #define SPI_SLV_CMD9_INT_ST_S 6 /** SPI_SLV_CMDA_INT_ST : RO; bitpos: [7]; default: 0; * The status bit for SPI slave CMDA interrupt. */ #define SPI_SLV_CMDA_INT_ST (BIT(7)) #define SPI_SLV_CMDA_INT_ST_M (SPI_SLV_CMDA_INT_ST_V << SPI_SLV_CMDA_INT_ST_S) #define SPI_SLV_CMDA_INT_ST_V 0x00000001U #define SPI_SLV_CMDA_INT_ST_S 7 /** SPI_SLV_RD_DMA_DONE_INT_ST : RO; bitpos: [8]; default: 0; * The status bit for SPI_SLV_RD_DMA_DONE_INT interrupt. */ #define SPI_SLV_RD_DMA_DONE_INT_ST (BIT(8)) #define SPI_SLV_RD_DMA_DONE_INT_ST_M (SPI_SLV_RD_DMA_DONE_INT_ST_V << SPI_SLV_RD_DMA_DONE_INT_ST_S) #define SPI_SLV_RD_DMA_DONE_INT_ST_V 0x00000001U #define SPI_SLV_RD_DMA_DONE_INT_ST_S 8 /** SPI_SLV_WR_DMA_DONE_INT_ST : RO; bitpos: [9]; default: 0; * The status bit for SPI_SLV_WR_DMA_DONE_INT interrupt. */ #define SPI_SLV_WR_DMA_DONE_INT_ST (BIT(9)) #define SPI_SLV_WR_DMA_DONE_INT_ST_M (SPI_SLV_WR_DMA_DONE_INT_ST_V << SPI_SLV_WR_DMA_DONE_INT_ST_S) #define SPI_SLV_WR_DMA_DONE_INT_ST_V 0x00000001U #define SPI_SLV_WR_DMA_DONE_INT_ST_S 9 /** SPI_SLV_RD_BUF_DONE_INT_ST : RO; bitpos: [10]; default: 0; * The status bit for SPI_SLV_RD_BUF_DONE_INT interrupt. */ #define SPI_SLV_RD_BUF_DONE_INT_ST (BIT(10)) #define SPI_SLV_RD_BUF_DONE_INT_ST_M (SPI_SLV_RD_BUF_DONE_INT_ST_V << SPI_SLV_RD_BUF_DONE_INT_ST_S) #define SPI_SLV_RD_BUF_DONE_INT_ST_V 0x00000001U #define SPI_SLV_RD_BUF_DONE_INT_ST_S 10 /** SPI_SLV_WR_BUF_DONE_INT_ST : RO; bitpos: [11]; default: 0; * The status bit for SPI_SLV_WR_BUF_DONE_INT interrupt. */ #define SPI_SLV_WR_BUF_DONE_INT_ST (BIT(11)) #define SPI_SLV_WR_BUF_DONE_INT_ST_M (SPI_SLV_WR_BUF_DONE_INT_ST_V << SPI_SLV_WR_BUF_DONE_INT_ST_S) #define SPI_SLV_WR_BUF_DONE_INT_ST_V 0x00000001U #define SPI_SLV_WR_BUF_DONE_INT_ST_S 11 /** SPI_TRANS_DONE_INT_ST : RO; bitpos: [12]; default: 0; * The status bit for SPI_TRANS_DONE_INT interrupt. */ #define SPI_TRANS_DONE_INT_ST (BIT(12)) #define SPI_TRANS_DONE_INT_ST_M (SPI_TRANS_DONE_INT_ST_V << SPI_TRANS_DONE_INT_ST_S) #define SPI_TRANS_DONE_INT_ST_V 0x00000001U #define SPI_TRANS_DONE_INT_ST_S 12 /** SPI_DMA_SEG_TRANS_DONE_INT_ST : RO; bitpos: [13]; default: 0; * The status bit for SPI_DMA_SEG_TRANS_DONE_INT interrupt. */ #define SPI_DMA_SEG_TRANS_DONE_INT_ST (BIT(13)) #define SPI_DMA_SEG_TRANS_DONE_INT_ST_M (SPI_DMA_SEG_TRANS_DONE_INT_ST_V << SPI_DMA_SEG_TRANS_DONE_INT_ST_S) #define SPI_DMA_SEG_TRANS_DONE_INT_ST_V 0x00000001U #define SPI_DMA_SEG_TRANS_DONE_INT_ST_S 13 /** SPI_SEG_MAGIC_ERR_INT_ST : RO; bitpos: [14]; default: 0; * The status bit for SPI_SEG_MAGIC_ERR_INT interrupt. */ //this field is only for GPSPI2 #define SPI_SEG_MAGIC_ERR_INT_ST (BIT(14)) #define SPI_SEG_MAGIC_ERR_INT_ST_M (SPI_SEG_MAGIC_ERR_INT_ST_V << SPI_SEG_MAGIC_ERR_INT_ST_S) #define SPI_SEG_MAGIC_ERR_INT_ST_V 0x00000001U #define SPI_SEG_MAGIC_ERR_INT_ST_S 14 /** SPI_SLV_BUF_ADDR_ERR_INT_ST : RO; bitpos: [15]; default: 0; * The status bit for SPI_SLV_BUF_ADDR_ERR_INT interrupt. */ #define SPI_SLV_BUF_ADDR_ERR_INT_ST (BIT(15)) #define SPI_SLV_BUF_ADDR_ERR_INT_ST_M (SPI_SLV_BUF_ADDR_ERR_INT_ST_V << SPI_SLV_BUF_ADDR_ERR_INT_ST_S) #define SPI_SLV_BUF_ADDR_ERR_INT_ST_V 0x00000001U #define SPI_SLV_BUF_ADDR_ERR_INT_ST_S 15 /** SPI_SLV_CMD_ERR_INT_ST : RO; bitpos: [16]; default: 0; * The status bit for SPI_SLV_CMD_ERR_INT interrupt. */ #define SPI_SLV_CMD_ERR_INT_ST (BIT(16)) #define SPI_SLV_CMD_ERR_INT_ST_M (SPI_SLV_CMD_ERR_INT_ST_V << SPI_SLV_CMD_ERR_INT_ST_S) #define SPI_SLV_CMD_ERR_INT_ST_V 0x00000001U #define SPI_SLV_CMD_ERR_INT_ST_S 16 /** SPI_MST_RX_AFIFO_WFULL_ERR_INT_ST : RO; bitpos: [17]; default: 0; * The status bit for SPI_MST_RX_AFIFO_WFULL_ERR_INT interrupt. */ #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_ST (BIT(17)) #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_ST_M (SPI_MST_RX_AFIFO_WFULL_ERR_INT_ST_V << SPI_MST_RX_AFIFO_WFULL_ERR_INT_ST_S) #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_ST_V 0x00000001U #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_ST_S 17 /** SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ST : RO; bitpos: [18]; default: 0; * The status bit for SPI_MST_TX_AFIFO_REMPTY_ERR_INT interrupt. */ #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ST (BIT(18)) #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ST_M (SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ST_V << SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ST_S) #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ST_V 0x00000001U #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_ST_S 18 /** SPI_APP2_INT_ST : RO; bitpos: [19]; default: 0; * The status bit for SPI_APP2_INT interrupt. */ #define SPI_APP2_INT_ST (BIT(19)) #define SPI_APP2_INT_ST_M (SPI_APP2_INT_ST_V << SPI_APP2_INT_ST_S) #define SPI_APP2_INT_ST_V 0x00000001U #define SPI_APP2_INT_ST_S 19 /** SPI_APP1_INT_ST : RO; bitpos: [20]; default: 0; * The status bit for SPI_APP1_INT interrupt. */ #define SPI_APP1_INT_ST (BIT(20)) #define SPI_APP1_INT_ST_M (SPI_APP1_INT_ST_V << SPI_APP1_INT_ST_S) #define SPI_APP1_INT_ST_V 0x00000001U #define SPI_APP1_INT_ST_S 20 /** SPI_DMA_INT_SET_REG register * SPI interrupt software set register */ #define SPI_DMA_INT_SET_REG(i) (REG_SPI_BASE(i) + 0x44) /** SPI_DMA_INFIFO_FULL_ERR_INT_SET : WT; bitpos: [0]; default: 0; * The software set bit for SPI_DMA_INFIFO_FULL_ERR_INT interrupt. */ #define SPI_DMA_INFIFO_FULL_ERR_INT_SET (BIT(0)) #define SPI_DMA_INFIFO_FULL_ERR_INT_SET_M (SPI_DMA_INFIFO_FULL_ERR_INT_SET_V << SPI_DMA_INFIFO_FULL_ERR_INT_SET_S) #define SPI_DMA_INFIFO_FULL_ERR_INT_SET_V 0x00000001U #define SPI_DMA_INFIFO_FULL_ERR_INT_SET_S 0 /** SPI_DMA_OUTFIFO_EMPTY_ERR_INT_SET : WT; bitpos: [1]; default: 0; * The software set bit for SPI_DMA_OUTFIFO_EMPTY_ERR_INT interrupt. */ #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_SET (BIT(1)) #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_SET_M (SPI_DMA_OUTFIFO_EMPTY_ERR_INT_SET_V << SPI_DMA_OUTFIFO_EMPTY_ERR_INT_SET_S) #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_SET_V 0x00000001U #define SPI_DMA_OUTFIFO_EMPTY_ERR_INT_SET_S 1 /** SPI_SLV_EX_QPI_INT_SET : WT; bitpos: [2]; default: 0; * The software set bit for SPI slave Ex_QPI interrupt. */ #define SPI_SLV_EX_QPI_INT_SET (BIT(2)) #define SPI_SLV_EX_QPI_INT_SET_M (SPI_SLV_EX_QPI_INT_SET_V << SPI_SLV_EX_QPI_INT_SET_S) #define SPI_SLV_EX_QPI_INT_SET_V 0x00000001U #define SPI_SLV_EX_QPI_INT_SET_S 2 /** SPI_SLV_EN_QPI_INT_SET : WT; bitpos: [3]; default: 0; * The software set bit for SPI slave En_QPI interrupt. */ #define SPI_SLV_EN_QPI_INT_SET (BIT(3)) #define SPI_SLV_EN_QPI_INT_SET_M (SPI_SLV_EN_QPI_INT_SET_V << SPI_SLV_EN_QPI_INT_SET_S) #define SPI_SLV_EN_QPI_INT_SET_V 0x00000001U #define SPI_SLV_EN_QPI_INT_SET_S 3 /** SPI_SLV_CMD7_INT_SET : WT; bitpos: [4]; default: 0; * The software set bit for SPI slave CMD7 interrupt. */ #define SPI_SLV_CMD7_INT_SET (BIT(4)) #define SPI_SLV_CMD7_INT_SET_M (SPI_SLV_CMD7_INT_SET_V << SPI_SLV_CMD7_INT_SET_S) #define SPI_SLV_CMD7_INT_SET_V 0x00000001U #define SPI_SLV_CMD7_INT_SET_S 4 /** SPI_SLV_CMD8_INT_SET : WT; bitpos: [5]; default: 0; * The software set bit for SPI slave CMD8 interrupt. */ #define SPI_SLV_CMD8_INT_SET (BIT(5)) #define SPI_SLV_CMD8_INT_SET_M (SPI_SLV_CMD8_INT_SET_V << SPI_SLV_CMD8_INT_SET_S) #define SPI_SLV_CMD8_INT_SET_V 0x00000001U #define SPI_SLV_CMD8_INT_SET_S 5 /** SPI_SLV_CMD9_INT_SET : WT; bitpos: [6]; default: 0; * The software set bit for SPI slave CMD9 interrupt. */ #define SPI_SLV_CMD9_INT_SET (BIT(6)) #define SPI_SLV_CMD9_INT_SET_M (SPI_SLV_CMD9_INT_SET_V << SPI_SLV_CMD9_INT_SET_S) #define SPI_SLV_CMD9_INT_SET_V 0x00000001U #define SPI_SLV_CMD9_INT_SET_S 6 /** SPI_SLV_CMDA_INT_SET : WT; bitpos: [7]; default: 0; * The software set bit for SPI slave CMDA interrupt. */ #define SPI_SLV_CMDA_INT_SET (BIT(7)) #define SPI_SLV_CMDA_INT_SET_M (SPI_SLV_CMDA_INT_SET_V << SPI_SLV_CMDA_INT_SET_S) #define SPI_SLV_CMDA_INT_SET_V 0x00000001U #define SPI_SLV_CMDA_INT_SET_S 7 /** SPI_SLV_RD_DMA_DONE_INT_SET : WT; bitpos: [8]; default: 0; * The software set bit for SPI_SLV_RD_DMA_DONE_INT interrupt. */ #define SPI_SLV_RD_DMA_DONE_INT_SET (BIT(8)) #define SPI_SLV_RD_DMA_DONE_INT_SET_M (SPI_SLV_RD_DMA_DONE_INT_SET_V << SPI_SLV_RD_DMA_DONE_INT_SET_S) #define SPI_SLV_RD_DMA_DONE_INT_SET_V 0x00000001U #define SPI_SLV_RD_DMA_DONE_INT_SET_S 8 /** SPI_SLV_WR_DMA_DONE_INT_SET : WT; bitpos: [9]; default: 0; * The software set bit for SPI_SLV_WR_DMA_DONE_INT interrupt. */ #define SPI_SLV_WR_DMA_DONE_INT_SET (BIT(9)) #define SPI_SLV_WR_DMA_DONE_INT_SET_M (SPI_SLV_WR_DMA_DONE_INT_SET_V << SPI_SLV_WR_DMA_DONE_INT_SET_S) #define SPI_SLV_WR_DMA_DONE_INT_SET_V 0x00000001U #define SPI_SLV_WR_DMA_DONE_INT_SET_S 9 /** SPI_SLV_RD_BUF_DONE_INT_SET : WT; bitpos: [10]; default: 0; * The software set bit for SPI_SLV_RD_BUF_DONE_INT interrupt. */ #define SPI_SLV_RD_BUF_DONE_INT_SET (BIT(10)) #define SPI_SLV_RD_BUF_DONE_INT_SET_M (SPI_SLV_RD_BUF_DONE_INT_SET_V << SPI_SLV_RD_BUF_DONE_INT_SET_S) #define SPI_SLV_RD_BUF_DONE_INT_SET_V 0x00000001U #define SPI_SLV_RD_BUF_DONE_INT_SET_S 10 /** SPI_SLV_WR_BUF_DONE_INT_SET : WT; bitpos: [11]; default: 0; * The software set bit for SPI_SLV_WR_BUF_DONE_INT interrupt. */ #define SPI_SLV_WR_BUF_DONE_INT_SET (BIT(11)) #define SPI_SLV_WR_BUF_DONE_INT_SET_M (SPI_SLV_WR_BUF_DONE_INT_SET_V << SPI_SLV_WR_BUF_DONE_INT_SET_S) #define SPI_SLV_WR_BUF_DONE_INT_SET_V 0x00000001U #define SPI_SLV_WR_BUF_DONE_INT_SET_S 11 /** SPI_TRANS_DONE_INT_SET : WT; bitpos: [12]; default: 0; * The software set bit for SPI_TRANS_DONE_INT interrupt. */ #define SPI_TRANS_DONE_INT_SET (BIT(12)) #define SPI_TRANS_DONE_INT_SET_M (SPI_TRANS_DONE_INT_SET_V << SPI_TRANS_DONE_INT_SET_S) #define SPI_TRANS_DONE_INT_SET_V 0x00000001U #define SPI_TRANS_DONE_INT_SET_S 12 /** SPI_DMA_SEG_TRANS_DONE_INT_SET : WT; bitpos: [13]; default: 0; * The software set bit for SPI_DMA_SEG_TRANS_DONE_INT interrupt. */ #define SPI_DMA_SEG_TRANS_DONE_INT_SET (BIT(13)) #define SPI_DMA_SEG_TRANS_DONE_INT_SET_M (SPI_DMA_SEG_TRANS_DONE_INT_SET_V << SPI_DMA_SEG_TRANS_DONE_INT_SET_S) #define SPI_DMA_SEG_TRANS_DONE_INT_SET_V 0x00000001U #define SPI_DMA_SEG_TRANS_DONE_INT_SET_S 13 /** SPI_SEG_MAGIC_ERR_INT_SET : WT; bitpos: [14]; default: 0; * The software set bit for SPI_SEG_MAGIC_ERR_INT interrupt. */ //this field is only for GPSPI2 #define SPI_SEG_MAGIC_ERR_INT_SET (BIT(14)) #define SPI_SEG_MAGIC_ERR_INT_SET_M (SPI_SEG_MAGIC_ERR_INT_SET_V << SPI_SEG_MAGIC_ERR_INT_SET_S) #define SPI_SEG_MAGIC_ERR_INT_SET_V 0x00000001U #define SPI_SEG_MAGIC_ERR_INT_SET_S 14 /** SPI_SLV_BUF_ADDR_ERR_INT_SET : WT; bitpos: [15]; default: 0; * The software set bit for SPI_SLV_BUF_ADDR_ERR_INT interrupt. */ #define SPI_SLV_BUF_ADDR_ERR_INT_SET (BIT(15)) #define SPI_SLV_BUF_ADDR_ERR_INT_SET_M (SPI_SLV_BUF_ADDR_ERR_INT_SET_V << SPI_SLV_BUF_ADDR_ERR_INT_SET_S) #define SPI_SLV_BUF_ADDR_ERR_INT_SET_V 0x00000001U #define SPI_SLV_BUF_ADDR_ERR_INT_SET_S 15 /** SPI_SLV_CMD_ERR_INT_SET : WT; bitpos: [16]; default: 0; * The software set bit for SPI_SLV_CMD_ERR_INT interrupt. */ #define SPI_SLV_CMD_ERR_INT_SET (BIT(16)) #define SPI_SLV_CMD_ERR_INT_SET_M (SPI_SLV_CMD_ERR_INT_SET_V << SPI_SLV_CMD_ERR_INT_SET_S) #define SPI_SLV_CMD_ERR_INT_SET_V 0x00000001U #define SPI_SLV_CMD_ERR_INT_SET_S 16 /** SPI_MST_RX_AFIFO_WFULL_ERR_INT_SET : WT; bitpos: [17]; default: 0; * The software set bit for SPI_MST_RX_AFIFO_WFULL_ERR_INT interrupt. */ #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_SET (BIT(17)) #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_SET_M (SPI_MST_RX_AFIFO_WFULL_ERR_INT_SET_V << SPI_MST_RX_AFIFO_WFULL_ERR_INT_SET_S) #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_SET_V 0x00000001U #define SPI_MST_RX_AFIFO_WFULL_ERR_INT_SET_S 17 /** SPI_MST_TX_AFIFO_REMPTY_ERR_INT_SET : WT; bitpos: [18]; default: 0; * The software set bit for SPI_MST_TX_AFIFO_REMPTY_ERR_INT interrupt. */ #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_SET (BIT(18)) #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_SET_M (SPI_MST_TX_AFIFO_REMPTY_ERR_INT_SET_V << SPI_MST_TX_AFIFO_REMPTY_ERR_INT_SET_S) #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_SET_V 0x00000001U #define SPI_MST_TX_AFIFO_REMPTY_ERR_INT_SET_S 18 /** SPI_APP2_INT_SET : WT; bitpos: [19]; default: 0; * The software set bit for SPI_APP2_INT interrupt. */ #define SPI_APP2_INT_SET (BIT(19)) #define SPI_APP2_INT_SET_M (SPI_APP2_INT_SET_V << SPI_APP2_INT_SET_S) #define SPI_APP2_INT_SET_V 0x00000001U #define SPI_APP2_INT_SET_S 19 /** SPI_APP1_INT_SET : WT; bitpos: [20]; default: 0; * The software set bit for SPI_APP1_INT interrupt. */ #define SPI_APP1_INT_SET (BIT(20)) #define SPI_APP1_INT_SET_M (SPI_APP1_INT_SET_V << SPI_APP1_INT_SET_S) #define SPI_APP1_INT_SET_V 0x00000001U #define SPI_APP1_INT_SET_S 20 /** SPI_W0_REG register * SPI CPU-controlled buffer0 */ #define SPI_W0_REG(i) (REG_SPI_BASE(i) + 0x98) /** SPI_BUF0 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF0 0xFFFFFFFFU #define SPI_BUF0_M (SPI_BUF0_V << SPI_BUF0_S) #define SPI_BUF0_V 0xFFFFFFFFU #define SPI_BUF0_S 0 /** SPI_W1_REG register * SPI CPU-controlled buffer1 */ #define SPI_W1_REG(i) (REG_SPI_BASE(i) + 0x9c) /** SPI_BUF1 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF1 0xFFFFFFFFU #define SPI_BUF1_M (SPI_BUF1_V << SPI_BUF1_S) #define SPI_BUF1_V 0xFFFFFFFFU #define SPI_BUF1_S 0 /** SPI_W2_REG register * SPI CPU-controlled buffer2 */ #define SPI_W2_REG(i) (REG_SPI_BASE(i) + 0xa0) /** SPI_BUF2 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF2 0xFFFFFFFFU #define SPI_BUF2_M (SPI_BUF2_V << SPI_BUF2_S) #define SPI_BUF2_V 0xFFFFFFFFU #define SPI_BUF2_S 0 /** SPI_W3_REG register * SPI CPU-controlled buffer3 */ #define SPI_W3_REG(i) (REG_SPI_BASE(i) + 0xa4) /** SPI_BUF3 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF3 0xFFFFFFFFU #define SPI_BUF3_M (SPI_BUF3_V << SPI_BUF3_S) #define SPI_BUF3_V 0xFFFFFFFFU #define SPI_BUF3_S 0 /** SPI_W4_REG register * SPI CPU-controlled buffer4 */ #define SPI_W4_REG(i) (REG_SPI_BASE(i) + 0xa8) /** SPI_BUF4 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF4 0xFFFFFFFFU #define SPI_BUF4_M (SPI_BUF4_V << SPI_BUF4_S) #define SPI_BUF4_V 0xFFFFFFFFU #define SPI_BUF4_S 0 /** SPI_W5_REG register * SPI CPU-controlled buffer5 */ #define SPI_W5_REG(i) (REG_SPI_BASE(i) + 0xac) /** SPI_BUF5 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF5 0xFFFFFFFFU #define SPI_BUF5_M (SPI_BUF5_V << SPI_BUF5_S) #define SPI_BUF5_V 0xFFFFFFFFU #define SPI_BUF5_S 0 /** SPI_W6_REG register * SPI CPU-controlled buffer6 */ #define SPI_W6_REG(i) (REG_SPI_BASE(i) + 0xb0) /** SPI_BUF6 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF6 0xFFFFFFFFU #define SPI_BUF6_M (SPI_BUF6_V << SPI_BUF6_S) #define SPI_BUF6_V 0xFFFFFFFFU #define SPI_BUF6_S 0 /** SPI_W7_REG register * SPI CPU-controlled buffer7 */ #define SPI_W7_REG(i) (REG_SPI_BASE(i) + 0xb4) /** SPI_BUF7 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF7 0xFFFFFFFFU #define SPI_BUF7_M (SPI_BUF7_V << SPI_BUF7_S) #define SPI_BUF7_V 0xFFFFFFFFU #define SPI_BUF7_S 0 /** SPI_W8_REG register * SPI CPU-controlled buffer8 */ #define SPI_W8_REG(i) (REG_SPI_BASE(i) + 0xb8) /** SPI_BUF8 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF8 0xFFFFFFFFU #define SPI_BUF8_M (SPI_BUF8_V << SPI_BUF8_S) #define SPI_BUF8_V 0xFFFFFFFFU #define SPI_BUF8_S 0 /** SPI_W9_REG register * SPI CPU-controlled buffer9 */ #define SPI_W9_REG(i) (REG_SPI_BASE(i) + 0xbc) /** SPI_BUF9 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF9 0xFFFFFFFFU #define SPI_BUF9_M (SPI_BUF9_V << SPI_BUF9_S) #define SPI_BUF9_V 0xFFFFFFFFU #define SPI_BUF9_S 0 /** SPI_W10_REG register * SPI CPU-controlled buffer10 */ #define SPI_W10_REG(i) (REG_SPI_BASE(i) + 0xc0) /** SPI_BUF10 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF10 0xFFFFFFFFU #define SPI_BUF10_M (SPI_BUF10_V << SPI_BUF10_S) #define SPI_BUF10_V 0xFFFFFFFFU #define SPI_BUF10_S 0 /** SPI_W11_REG register * SPI CPU-controlled buffer11 */ #define SPI_W11_REG(i) (REG_SPI_BASE(i) + 0xc4) /** SPI_BUF11 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF11 0xFFFFFFFFU #define SPI_BUF11_M (SPI_BUF11_V << SPI_BUF11_S) #define SPI_BUF11_V 0xFFFFFFFFU #define SPI_BUF11_S 0 /** SPI_W12_REG register * SPI CPU-controlled buffer12 */ #define SPI_W12_REG(i) (REG_SPI_BASE(i) + 0xc8) /** SPI_BUF12 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF12 0xFFFFFFFFU #define SPI_BUF12_M (SPI_BUF12_V << SPI_BUF12_S) #define SPI_BUF12_V 0xFFFFFFFFU #define SPI_BUF12_S 0 /** SPI_W13_REG register * SPI CPU-controlled buffer13 */ #define SPI_W13_REG(i) (REG_SPI_BASE(i) + 0xcc) /** SPI_BUF13 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF13 0xFFFFFFFFU #define SPI_BUF13_M (SPI_BUF13_V << SPI_BUF13_S) #define SPI_BUF13_V 0xFFFFFFFFU #define SPI_BUF13_S 0 /** SPI_W14_REG register * SPI CPU-controlled buffer14 */ #define SPI_W14_REG(i) (REG_SPI_BASE(i) + 0xd0) /** SPI_BUF14 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF14 0xFFFFFFFFU #define SPI_BUF14_M (SPI_BUF14_V << SPI_BUF14_S) #define SPI_BUF14_V 0xFFFFFFFFU #define SPI_BUF14_S 0 /** SPI_W15_REG register * SPI CPU-controlled buffer15 */ #define SPI_W15_REG(i) (REG_SPI_BASE(i) + 0xd4) /** SPI_BUF15 : R/W/SS; bitpos: [31:0]; default: 0; * data buffer */ #define SPI_BUF15 0xFFFFFFFFU #define SPI_BUF15_M (SPI_BUF15_V << SPI_BUF15_S) #define SPI_BUF15_V 0xFFFFFFFFU #define SPI_BUF15_S 0 /** SPI_SLAVE_REG register * SPI slave control register */ #define SPI_SLAVE_REG(i) (REG_SPI_BASE(i) + 0xe0) /** SPI_CLK_MODE : R/W; bitpos: [1:0]; default: 0; * SPI clock mode bits. 0: SPI clock is off when CS inactive 1: SPI clock is delayed * one cycle after CS inactive 2: SPI clock is delayed two cycles after CS inactive 3: * SPI clock is alwasy on. Can be configured in CONF state. */ #define SPI_CLK_MODE 0x00000003U #define SPI_CLK_MODE_M (SPI_CLK_MODE_V << SPI_CLK_MODE_S) #define SPI_CLK_MODE_V 0x00000003U #define SPI_CLK_MODE_S 0 /** SPI_CLK_MODE_13 : R/W; bitpos: [2]; default: 0; * {CPOL, CPHA},1: support spi clk mode 1 and 3, first edge output data B[0]/B[7]. 0: * support spi clk mode 0 and 2, first edge output data B[1]/B[6]. */ #define SPI_CLK_MODE_13 (BIT(2)) #define SPI_CLK_MODE_13_M (SPI_CLK_MODE_13_V << SPI_CLK_MODE_13_S) #define SPI_CLK_MODE_13_V 0x00000001U #define SPI_CLK_MODE_13_S 2 /** SPI_RSCK_DATA_OUT : R/W; bitpos: [3]; default: 0; * It saves half a cycle when tsck is the same as rsck. 1: output data at rsck posedge * 0: output data at tsck posedge */ #define SPI_RSCK_DATA_OUT (BIT(3)) #define SPI_RSCK_DATA_OUT_M (SPI_RSCK_DATA_OUT_V << SPI_RSCK_DATA_OUT_S) #define SPI_RSCK_DATA_OUT_V 0x00000001U #define SPI_RSCK_DATA_OUT_S 3 /** SPI_SLV_RDDMA_BITLEN_EN : R/W; bitpos: [8]; default: 0; * 1: SPI_SLV_DATA_BITLEN stores data bit length of master-read-slave data length in * DMA controlled mode(Rd_DMA). 0: others */ #define SPI_SLV_RDDMA_BITLEN_EN (BIT(8)) #define SPI_SLV_RDDMA_BITLEN_EN_M (SPI_SLV_RDDMA_BITLEN_EN_V << SPI_SLV_RDDMA_BITLEN_EN_S) #define SPI_SLV_RDDMA_BITLEN_EN_V 0x00000001U #define SPI_SLV_RDDMA_BITLEN_EN_S 8 /** SPI_SLV_WRDMA_BITLEN_EN : R/W; bitpos: [9]; default: 0; * 1: SPI_SLV_DATA_BITLEN stores data bit length of master-write-to-slave data length * in DMA controlled mode(Wr_DMA). 0: others */ #define SPI_SLV_WRDMA_BITLEN_EN (BIT(9)) #define SPI_SLV_WRDMA_BITLEN_EN_M (SPI_SLV_WRDMA_BITLEN_EN_V << SPI_SLV_WRDMA_BITLEN_EN_S) #define SPI_SLV_WRDMA_BITLEN_EN_V 0x00000001U #define SPI_SLV_WRDMA_BITLEN_EN_S 9 /** SPI_SLV_RDBUF_BITLEN_EN : R/W; bitpos: [10]; default: 0; * 1: SPI_SLV_DATA_BITLEN stores data bit length of master-read-slave data length in * CPU controlled mode(Rd_BUF). 0: others */ #define SPI_SLV_RDBUF_BITLEN_EN (BIT(10)) #define SPI_SLV_RDBUF_BITLEN_EN_M (SPI_SLV_RDBUF_BITLEN_EN_V << SPI_SLV_RDBUF_BITLEN_EN_S) #define SPI_SLV_RDBUF_BITLEN_EN_V 0x00000001U #define SPI_SLV_RDBUF_BITLEN_EN_S 10 /** SPI_SLV_WRBUF_BITLEN_EN : R/W; bitpos: [11]; default: 0; * 1: SPI_SLV_DATA_BITLEN stores data bit length of master-write-to-slave data length * in CPU controlled mode(Wr_BUF). 0: others */ #define SPI_SLV_WRBUF_BITLEN_EN (BIT(11)) #define SPI_SLV_WRBUF_BITLEN_EN_M (SPI_SLV_WRBUF_BITLEN_EN_V << SPI_SLV_WRBUF_BITLEN_EN_S) #define SPI_SLV_WRBUF_BITLEN_EN_V 0x00000001U #define SPI_SLV_WRBUF_BITLEN_EN_S 11 /** SPI_SLV_LAST_BYTE_STRB : R/SS; bitpos: [19:12]; default: 0; * Represents the effective bit of the last received data byte in SPI slave FD and HD * mode. */ #define SPI_SLV_LAST_BYTE_STRB 0x000000FFU #define SPI_SLV_LAST_BYTE_STRB_M (SPI_SLV_LAST_BYTE_STRB_V << SPI_SLV_LAST_BYTE_STRB_S) #define SPI_SLV_LAST_BYTE_STRB_V 0x000000FFU #define SPI_SLV_LAST_BYTE_STRB_S 12 /** SPI_DMA_SEG_MAGIC_VALUE : R/W; bitpos: [25:22]; default: 10; * The magic value of BM table in master DMA seg-trans. */ //this field is only for GPSPI2 #define SPI_DMA_SEG_MAGIC_VALUE 0x0000000FU #define SPI_DMA_SEG_MAGIC_VALUE_M (SPI_DMA_SEG_MAGIC_VALUE_V << SPI_DMA_SEG_MAGIC_VALUE_S) #define SPI_DMA_SEG_MAGIC_VALUE_V 0x0000000FU #define SPI_DMA_SEG_MAGIC_VALUE_S 22 /** SPI_SLAVE_MODE : R/W; bitpos: [26]; default: 0; * Set SPI work mode. 1: slave mode 0: master mode. */ #define SPI_SLAVE_MODE (BIT(26)) #define SPI_SLAVE_MODE_M (SPI_SLAVE_MODE_V << SPI_SLAVE_MODE_S) #define SPI_SLAVE_MODE_V 0x00000001U #define SPI_SLAVE_MODE_S 26 /** SPI_SOFT_RESET : WT; bitpos: [27]; default: 0; * Software reset enable, reset the spi clock line cs line and data lines. Can be * configured in CONF state. */ #define SPI_SOFT_RESET (BIT(27)) #define SPI_SOFT_RESET_M (SPI_SOFT_RESET_V << SPI_SOFT_RESET_S) #define SPI_SOFT_RESET_V 0x00000001U #define SPI_SOFT_RESET_S 27 /** SPI_USR_CONF : R/W; bitpos: [28]; default: 0; * 1: Enable the DMA CONF phase of current seg-trans operation, which means seg-trans * will start. 0: This is not seg-trans mode. */ //this field is only for GPSPI2 #define SPI_USR_CONF (BIT(28)) #define SPI_USR_CONF_M (SPI_USR_CONF_V << SPI_USR_CONF_S) #define SPI_USR_CONF_V 0x00000001U #define SPI_USR_CONF_S 28 /** SPI_MST_FD_WAIT_DMA_TX_DATA : R/W; bitpos: [29]; default: 0; * In master full-duplex mode, 1: GP-SPI will wait DMA TX data is ready before * starting SPI transfer. 0: GP-SPI does not wait DMA TX data before starting SPI * transfer. */ #define SPI_MST_FD_WAIT_DMA_TX_DATA (BIT(29)) #define SPI_MST_FD_WAIT_DMA_TX_DATA_M (SPI_MST_FD_WAIT_DMA_TX_DATA_V << SPI_MST_FD_WAIT_DMA_TX_DATA_S) #define SPI_MST_FD_WAIT_DMA_TX_DATA_V 0x00000001U #define SPI_MST_FD_WAIT_DMA_TX_DATA_S 29 /** SPI_SLAVE1_REG register * SPI slave control register 1 */ #define SPI_SLAVE1_REG(i) (REG_SPI_BASE(i) + 0xe4) /** SPI_SLV_DATA_BITLEN : R/W/SS; bitpos: [17:0]; default: 0; * The transferred data bit length in SPI slave FD and HD mode. */ #define SPI_SLV_DATA_BITLEN 0x0003FFFFU #define SPI_SLV_DATA_BITLEN_M (SPI_SLV_DATA_BITLEN_V << SPI_SLV_DATA_BITLEN_S) #define SPI_SLV_DATA_BITLEN_V 0x0003FFFFU #define SPI_SLV_DATA_BITLEN_S 0 /** SPI_SLV_LAST_COMMAND : R/W/SS; bitpos: [25:18]; default: 0; * In the slave mode it is the value of command. */ #define SPI_SLV_LAST_COMMAND 0x000000FFU #define SPI_SLV_LAST_COMMAND_M (SPI_SLV_LAST_COMMAND_V << SPI_SLV_LAST_COMMAND_S) #define SPI_SLV_LAST_COMMAND_V 0x000000FFU #define SPI_SLV_LAST_COMMAND_S 18 /** SPI_SLV_LAST_ADDR : R/W/SS; bitpos: [31:26]; default: 0; * In the slave mode it is the value of address. */ #define SPI_SLV_LAST_ADDR 0x0000003FU #define SPI_SLV_LAST_ADDR_M (SPI_SLV_LAST_ADDR_V << SPI_SLV_LAST_ADDR_S) #define SPI_SLV_LAST_ADDR_V 0x0000003FU #define SPI_SLV_LAST_ADDR_S 26 /** SPI_CLK_GATE_REG register * SPI module clock and register clock control */ #define SPI_CLK_GATE_REG(i) (REG_SPI_BASE(i) + 0xe8) /** SPI_CLK_EN : R/W; bitpos: [0]; default: 0; * Set this bit to enable clk gate */ #define SPI_CLK_EN (BIT(0)) #define SPI_CLK_EN_M (SPI_CLK_EN_V << SPI_CLK_EN_S) #define SPI_CLK_EN_V 0x00000001U #define SPI_CLK_EN_S 0 /** SPI_MST_CLK_ACTIVE : R/W; bitpos: [1]; default: 0; * Set this bit to power on the SPI module clock. */ #define SPI_MST_CLK_ACTIVE (BIT(1)) #define SPI_MST_CLK_ACTIVE_M (SPI_MST_CLK_ACTIVE_V << SPI_MST_CLK_ACTIVE_S) #define SPI_MST_CLK_ACTIVE_V 0x00000001U #define SPI_MST_CLK_ACTIVE_S 1 /** SPI_MST_CLK_SEL : R/W; bitpos: [2]; default: 0; * This bit is used to select SPI module clock source in master mode. 1: PLL_CLK_80M. * 0: XTAL CLK. */ #define SPI_MST_CLK_SEL (BIT(2)) #define SPI_MST_CLK_SEL_M (SPI_MST_CLK_SEL_V << SPI_MST_CLK_SEL_S) #define SPI_MST_CLK_SEL_V 0x00000001U #define SPI_MST_CLK_SEL_S 2 /** SPI_DATE_REG register * Version control */ #define SPI_DATE_REG(i) (REG_SPI_BASE(i) + 0xf0) /** SPI_DATE : R/W; bitpos: [27:0]; default: 35680770; * SPI register version. */ #define SPI_DATE 0x0FFFFFFFU #define SPI_DATE_M (SPI_DATE_V << SPI_DATE_S) #define SPI_DATE_V 0x0FFFFFFFU #define SPI_DATE_S 0 #ifdef __cplusplus } #endif