esp-idf/components/soc/esp32s2beta/include/soc/spi_mem_reg.h
2019-06-11 13:06:32 +08:00

1894 lines
95 KiB
C

// Copyright 2017-2018 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef _SOC_SPI_MEM_REG_H_
#define _SOC_SPI_MEM_REG_H_
#ifdef __cplusplus
extern "C" {
#endif
#include "soc.h"
#define REG_SPI_MEM_BASE(i) (DR_REG_SPI0_BASE - (i) * 0x1000)
#define SPI_MEM_CMD_REG(i) (REG_SPI_MEM_BASE(i) + 0x000)
/* SPI_MEM_FLASH_READ : R/W ;bitpos:[31] ;default: 1'b0 ; */
/*description: Read flash enable. Read flash operation will be triggered when
the bit is set. The bit will be cleared once the operation done. 1: enable 0: disable.*/
#define SPI_MEM_FLASH_READ (BIT(31))
#define SPI_MEM_FLASH_READ_M (BIT(31))
#define SPI_MEM_FLASH_READ_V 0x1
#define SPI_MEM_FLASH_READ_S 31
/* SPI_MEM_FLASH_WREN : R/W ;bitpos:[30] ;default: 1'b0 ; */
/*description: Write flash enable. Write enable command will be sent when the
bit is set. The bit will be cleared once the operation done. 1: enable 0: disable.*/
#define SPI_MEM_FLASH_WREN (BIT(30))
#define SPI_MEM_FLASH_WREN_M (BIT(30))
#define SPI_MEM_FLASH_WREN_V 0x1
#define SPI_MEM_FLASH_WREN_S 30
/* SPI_MEM_FLASH_WRDI : R/W ;bitpos:[29] ;default: 1'b0 ; */
/*description: Write flash disable. Write disable command will be sent when
the bit is set. The bit will be cleared once the operation done. 1: enable 0: disable.*/
#define SPI_MEM_FLASH_WRDI (BIT(29))
#define SPI_MEM_FLASH_WRDI_M (BIT(29))
#define SPI_MEM_FLASH_WRDI_V 0x1
#define SPI_MEM_FLASH_WRDI_S 29
/* SPI_MEM_FLASH_RDID : R/W ;bitpos:[28] ;default: 1'b0 ; */
/*description: Read JEDEC ID . Read ID command will be sent when the bit is
set. The bit will be cleared once the operation done. 1: enable 0: disable.*/
#define SPI_MEM_FLASH_RDID (BIT(28))
#define SPI_MEM_FLASH_RDID_M (BIT(28))
#define SPI_MEM_FLASH_RDID_V 0x1
#define SPI_MEM_FLASH_RDID_S 28
/* SPI_MEM_FLASH_RDSR : R/W ;bitpos:[27] ;default: 1'b0 ; */
/*description: Read status register-1. Read status operation will be triggered
when the bit is set. The bit will be cleared once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_RDSR (BIT(27))
#define SPI_MEM_FLASH_RDSR_M (BIT(27))
#define SPI_MEM_FLASH_RDSR_V 0x1
#define SPI_MEM_FLASH_RDSR_S 27
/* SPI_MEM_FLASH_WRSR : R/W ;bitpos:[26] ;default: 1'b0 ; */
/*description: Write status register enable. Write status operation will
be triggered when the bit is set. The bit will be cleared once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_WRSR (BIT(26))
#define SPI_MEM_FLASH_WRSR_M (BIT(26))
#define SPI_MEM_FLASH_WRSR_V 0x1
#define SPI_MEM_FLASH_WRSR_S 26
/* SPI_MEM_FLASH_PP : R/W ;bitpos:[25] ;default: 1'b0 ; */
/*description: Page program enable(1 byte ~256 bytes data to be programmed).
Page program operation will be triggered when the bit is set. The bit will be cleared once the operation done .1: enable 0: disable.*/
#define SPI_MEM_FLASH_PP (BIT(25))
#define SPI_MEM_FLASH_PP_M (BIT(25))
#define SPI_MEM_FLASH_PP_V 0x1
#define SPI_MEM_FLASH_PP_S 25
/* SPI_MEM_FLASH_SE : R/W ;bitpos:[24] ;default: 1'b0 ; */
/*description: Sector erase enable(4KB). Sector erase operation will be triggered
when the bit is set. The bit will be cleared once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_SE (BIT(24))
#define SPI_MEM_FLASH_SE_M (BIT(24))
#define SPI_MEM_FLASH_SE_V 0x1
#define SPI_MEM_FLASH_SE_S 24
/* SPI_MEM_FLASH_BE : R/W ;bitpos:[23] ;default: 1'b0 ; */
/*description: Block erase enable(32KB) . Block erase operation will be triggered
when the bit is set. The bit will be cleared once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_BE (BIT(23))
#define SPI_MEM_FLASH_BE_M (BIT(23))
#define SPI_MEM_FLASH_BE_V 0x1
#define SPI_MEM_FLASH_BE_S 23
/* SPI_MEM_FLASH_CE : R/W ;bitpos:[22] ;default: 1'b0 ; */
/*description: Chip erase enable. Chip erase operation will be triggered when
the bit is set. The bit will be cleared once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_CE (BIT(22))
#define SPI_MEM_FLASH_CE_M (BIT(22))
#define SPI_MEM_FLASH_CE_V 0x1
#define SPI_MEM_FLASH_CE_S 22
/* SPI_MEM_FLASH_DP : R/W ;bitpos:[21] ;default: 1'b0 ; */
/*description: Drive Flash into power down. An operation will be triggered
when the bit is set. The bit will be cleared once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_DP (BIT(21))
#define SPI_MEM_FLASH_DP_M (BIT(21))
#define SPI_MEM_FLASH_DP_V 0x1
#define SPI_MEM_FLASH_DP_S 21
/* SPI_MEM_FLASH_RES : R/W ;bitpos:[20] ;default: 1'b0 ; */
/*description: This bit combined with reg_resandres bit releases Flash from
the power-down state or high performance mode and obtains the devices ID. The bit will be cleared once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_RES (BIT(20))
#define SPI_MEM_FLASH_RES_M (BIT(20))
#define SPI_MEM_FLASH_RES_V 0x1
#define SPI_MEM_FLASH_RES_S 20
/* SPI_MEM_FLASH_HPM : R/W ;bitpos:[19] ;default: 1'b0 ; */
/*description: Drive Flash into high performance mode. The bit will be cleared
once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_HPM (BIT(19))
#define SPI_MEM_FLASH_HPM_M (BIT(19))
#define SPI_MEM_FLASH_HPM_V 0x1
#define SPI_MEM_FLASH_HPM_S 19
/* SPI_MEM_USR : R/W ;bitpos:[18] ;default: 1'b0 ; */
/*description: 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.*/
#define SPI_MEM_USR (BIT(18))
#define SPI_MEM_USR_M (BIT(18))
#define SPI_MEM_USR_V 0x1
#define SPI_MEM_USR_S 18
/* SPI_MEM_FLASH_PE : R/W ;bitpos:[17] ;default: 1'b0 ; */
/*description: In user mode it is set to indicate that program/erase operation
will be triggered. The bit is combined with spi_mem_usr bit. The bit will be cleared once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_PE (BIT(17))
#define SPI_MEM_FLASH_PE_M (BIT(17))
#define SPI_MEM_FLASH_PE_V 0x1
#define SPI_MEM_FLASH_PE_S 17
#define SPI_MEM_ADDR_REG(i) (REG_SPI_MEM_BASE(i) + 0x004)
/* SPI_MEM_USR_ADDR_VALUE : R/W ;bitpos:[31:0] ;default: 32'h0 ; */
/*description: In user mode it is the memory address. other then the bit0-bit23
is the memory address the bit24-bit31 are the byte length of a transfer.*/
#define SPI_MEM_USR_ADDR_VALUE 0xFFFFFFFF
#define SPI_MEM_USR_ADDR_VALUE_M ((SPI_MEM_USR_ADDR_VALUE_V)<<(SPI_MEM_USR_ADDR_VALUE_S))
#define SPI_MEM_USR_ADDR_VALUE_V 0xFFFFFFFF
#define SPI_MEM_USR_ADDR_VALUE_S 0
#define SPI_MEM_CTRL_REG(i) (REG_SPI_MEM_BASE(i) + 0x008)
/* SPI_MEM_FREAD_QIO : R/W ;bitpos:[24] ;default: 1'b0 ; */
/*description: In the read operations address phase and read-data phase apply
4 signals. 1: enable 0: disable.*/
#define SPI_MEM_FREAD_QIO (BIT(24))
#define SPI_MEM_FREAD_QIO_M (BIT(24))
#define SPI_MEM_FREAD_QIO_V 0x1
#define SPI_MEM_FREAD_QIO_S 24
/* SPI_MEM_FREAD_DIO : R/W ;bitpos:[23] ;default: 1'b0 ; */
/*description: In the read operations address phase and read-data phase apply
2 signals. 1: enable 0: disable.*/
#define SPI_MEM_FREAD_DIO (BIT(23))
#define SPI_MEM_FREAD_DIO_M (BIT(23))
#define SPI_MEM_FREAD_DIO_V 0x1
#define SPI_MEM_FREAD_DIO_S 23
/* SPI_MEM_WRSR_2B : R/W ;bitpos:[22] ;default: 1'b0 ; */
/*description: two bytes data will be written to status register when it is
set. 1: enable 0: disable.*/
#define SPI_MEM_WRSR_2B (BIT(22))
#define SPI_MEM_WRSR_2B_M (BIT(22))
#define SPI_MEM_WRSR_2B_V 0x1
#define SPI_MEM_WRSR_2B_S 22
/* SPI_MEM_WP_REG : R/W ;bitpos:[21] ;default: 1'b1 ; */
/*description: Write protect signal output when SPI is idle. 1: output high 0: output low.*/
#define SPI_MEM_WP_REG (BIT(21))
#define SPI_MEM_WP_REG_M (BIT(21))
#define SPI_MEM_WP_REG_V 0x1
#define SPI_MEM_WP_REG_S 21
/* SPI_MEM_FREAD_QUAD : R/W ;bitpos:[20] ;default: 1'b0 ; */
/*description: In the read operations read-data phase apply 4 signals. 1: enable 0: disable.*/
#define SPI_MEM_FREAD_QUAD (BIT(20))
#define SPI_MEM_FREAD_QUAD_M (BIT(20))
#define SPI_MEM_FREAD_QUAD_V 0x1
#define SPI_MEM_FREAD_QUAD_S 20
/* SPI_MEM_D_POL : R/W ;bitpos:[19] ;default: 1'b1 ; */
/*description: The bit is used to set MOSI line polarity 1: high 0 low*/
#define SPI_MEM_D_POL (BIT(19))
#define SPI_MEM_D_POL_M (BIT(19))
#define SPI_MEM_D_POL_V 0x1
#define SPI_MEM_D_POL_S 19
/* SPI_MEM_Q_POL : R/W ;bitpos:[18] ;default: 1'b1 ; */
/*description: The bit is used to set MISO line polarity 1: high 0 low*/
#define SPI_MEM_Q_POL (BIT(18))
#define SPI_MEM_Q_POL_M (BIT(18))
#define SPI_MEM_Q_POL_V 0x1
#define SPI_MEM_Q_POL_S 18
/* SPI_MEM_RESANDRES : R/W ;bitpos:[15] ;default: 1'b1 ; */
/*description: The Device ID is read out to SPI_MEM_RD_STATUS register this
bit combine with spi_mem_flash_res bit. 1: enable 0: disable.*/
#define SPI_MEM_RESANDRES (BIT(15))
#define SPI_MEM_RESANDRES_M (BIT(15))
#define SPI_MEM_RESANDRES_V 0x1
#define SPI_MEM_RESANDRES_S 15
/* SPI_MEM_FREAD_DUAL : R/W ;bitpos:[14] ;default: 1'b0 ; */
/*description: In the read operations read-data phase apply 2 signals. 1: enable 0: disable.*/
#define SPI_MEM_FREAD_DUAL (BIT(14))
#define SPI_MEM_FREAD_DUAL_M (BIT(14))
#define SPI_MEM_FREAD_DUAL_V 0x1
#define SPI_MEM_FREAD_DUAL_S 14
/* SPI_MEM_FASTRD_MODE : R/W ;bitpos:[13] ;default: 1'b1 ; */
/*description: This bit enable the bits: spi_mem_fread_qio spi_mem_fread_dio
spi_mem_fread_qout and spi_mem_fread_dout. 1: enable 0: disable.*/
#define SPI_MEM_FASTRD_MODE (BIT(13))
#define SPI_MEM_FASTRD_MODE_M (BIT(13))
#define SPI_MEM_FASTRD_MODE_V 0x1
#define SPI_MEM_FASTRD_MODE_S 13
/* SPI_MEM_TX_CRC_EN : R/W ;bitpos:[11] ;default: 1'b0 ; */
/*description: For SPI1 enable crc32 when writing encrypted data to flash.
1: enable 0:disable*/
#define SPI_MEM_TX_CRC_EN (BIT(11))
#define SPI_MEM_TX_CRC_EN_M (BIT(11))
#define SPI_MEM_TX_CRC_EN_V 0x1
#define SPI_MEM_TX_CRC_EN_S 11
/* SPI_MEM_FCS_CRC_EN : R/W ;bitpos:[10] ;default: 1'b0 ; */
/*description: For SPI1 initialize crc32 module before writing encrypted data
to flash. Active low.*/
#define SPI_MEM_FCS_CRC_EN (BIT(10))
#define SPI_MEM_FCS_CRC_EN_M (BIT(10))
#define SPI_MEM_FCS_CRC_EN_V 0x1
#define SPI_MEM_FCS_CRC_EN_S 10
/* SPI_MEM_FCMD_QUAD : R/W ;bitpos:[8] ;default: 1'b0 ; */
/*description: Apply 4 signals during command phase 1:enable 0: disable*/
#define SPI_MEM_FCMD_QUAD (BIT(8))
#define SPI_MEM_FCMD_QUAD_M (BIT(8))
#define SPI_MEM_FCMD_QUAD_V 0x1
#define SPI_MEM_FCMD_QUAD_S 8
/* SPI_MEM_FCMD_DUAL : R/W ;bitpos:[7] ;default: 1'b0 ; */
/*description: Apply 2 signals during command phase 1:enable 0: disable*/
#define SPI_MEM_FCMD_DUAL (BIT(7))
#define SPI_MEM_FCMD_DUAL_M (BIT(7))
#define SPI_MEM_FCMD_DUAL_V 0x1
#define SPI_MEM_FCMD_DUAL_S 7
/* SPI_MEM_DUMMY_OUT : R/W ;bitpos:[3] ;default: 1'b0 ; */
/*description: In the dummy phase the signal level of spi is output by the spi controller.*/
#define SPI_MEM_DUMMY_OUT (BIT(3))
#define SPI_MEM_DUMMY_OUT_M (BIT(3))
#define SPI_MEM_DUMMY_OUT_V 0x1
#define SPI_MEM_DUMMY_OUT_S 3
#define SPI_MEM_CTRL1_REG(i) (REG_SPI_MEM_BASE(i) + 0x00C)
/* SPI_MEM_CS_DLY_EDGE : R/W ;bitpos:[31] ;default: 1'b0 ; */
/*description: The bit is used to select the spi clock edge to modify CS line timing.*/
#define SPI_MEM_CS_DLY_EDGE (BIT(31))
#define SPI_MEM_CS_DLY_EDGE_M (BIT(31))
#define SPI_MEM_CS_DLY_EDGE_V 0x1
#define SPI_MEM_CS_DLY_EDGE_S 31
/* SPI_MEM_CS_DLY_MODE : R/W ;bitpos:[30:28] ;default: 3'h0 ; */
/*description: The cs signals are delayed by system clock cycles 0: output
without delayed 1: output with the posedge of clk_apb 2 output with the negedge of clk_apb 3: output with the posedge of clk_160 4 output with the negedge of clk_160 5: output with the spi_clk*/
#define SPI_MEM_CS_DLY_MODE 0x00000007
#define SPI_MEM_CS_DLY_MODE_M ((SPI_MEM_CS_DLY_MODE_V)<<(SPI_MEM_CS_DLY_MODE_S))
#define SPI_MEM_CS_DLY_MODE_V 0x7
#define SPI_MEM_CS_DLY_MODE_S 28
/* SPI_MEM_CS_DLY_NUM : R/W ;bitpos:[27:26] ;default: 2'h0 ; */
/*description: spi_mem_cs signal is delayed by system clock cycles*/
#define SPI_MEM_CS_DLY_NUM 0x00000003
#define SPI_MEM_CS_DLY_NUM_M ((SPI_MEM_CS_DLY_NUM_V)<<(SPI_MEM_CS_DLY_NUM_S))
#define SPI_MEM_CS_DLY_NUM_V 0x3
#define SPI_MEM_CS_DLY_NUM_S 26
/* SPI_MEM_CS_HOLD_DLY : R/W ;bitpos:[25:14] ;default: 12'h1 ; */
/*description: SPI fsm is delayed to idle by spi clock cycles.*/
#define SPI_MEM_CS_HOLD_DLY 0x00000FFF
#define SPI_MEM_CS_HOLD_DLY_M ((SPI_MEM_CS_HOLD_DLY_V)<<(SPI_MEM_CS_HOLD_DLY_S))
#define SPI_MEM_CS_HOLD_DLY_V 0xFFF
#define SPI_MEM_CS_HOLD_DLY_S 14
/* SPI_MEM_CS_HOLD_DLY_RES : R/W ;bitpos:[13:2] ;default: 12'hfff ; */
/*description: Delay cycles of resume Flash when resume Flash from standby mode
is enable by spi clock.*/
#define SPI_MEM_CS_HOLD_DLY_RES 0x00000FFF
#define SPI_MEM_CS_HOLD_DLY_RES_M ((SPI_MEM_CS_HOLD_DLY_RES_V)<<(SPI_MEM_CS_HOLD_DLY_RES_S))
#define SPI_MEM_CS_HOLD_DLY_RES_V 0xFFF
#define SPI_MEM_CS_HOLD_DLY_RES_S 2
/* SPI_MEM_CLK_MODE : R/W ;bitpos:[1:0] ;default: 2'h0 ; */
/*description: 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.*/
#define SPI_MEM_CLK_MODE 0x00000003
#define SPI_MEM_CLK_MODE_M ((SPI_MEM_CLK_MODE_V)<<(SPI_MEM_CLK_MODE_S))
#define SPI_MEM_CLK_MODE_V 0x3
#define SPI_MEM_CLK_MODE_S 0
#define SPI_MEM_CTRL2_REG(i) (REG_SPI_MEM_BASE(i) + 0x010)
/* SPI_MEM_SYNC_RESET : R/W ;bitpos:[31] ;default: 1'b0 ; */
/*description: The FSM will be reset.*/
#define SPI_MEM_SYNC_RESET (BIT(31))
#define SPI_MEM_SYNC_RESET_M (BIT(31))
#define SPI_MEM_SYNC_RESET_V 0x1
#define SPI_MEM_SYNC_RESET_S 31
/* SPI_MEM_CS_HOLD_TIME : R/W ;bitpos:[25:13] ;default: 13'h1 ; */
/*description: Spi cs signal is delayed to inactive by spi clock this bits are
combined with spi_mem_cs_hold bit.*/
#define SPI_MEM_CS_HOLD_TIME 0x00001FFF
#define SPI_MEM_CS_HOLD_TIME_M ((SPI_MEM_CS_HOLD_TIME_V)<<(SPI_MEM_CS_HOLD_TIME_S))
#define SPI_MEM_CS_HOLD_TIME_V 0x1FFF
#define SPI_MEM_CS_HOLD_TIME_S 13
/* SPI_MEM_CS_SETUP_TIME : R/W ;bitpos:[12:0] ;default: 13'h1 ; */
/*description: (cycles-1) of prepare phase by spi clock this bits are combined
with spi_mem_cs_setup bit.*/
#define SPI_MEM_CS_SETUP_TIME 0x00001FFF
#define SPI_MEM_CS_SETUP_TIME_M ((SPI_MEM_CS_SETUP_TIME_V)<<(SPI_MEM_CS_SETUP_TIME_S))
#define SPI_MEM_CS_SETUP_TIME_V 0x1FFF
#define SPI_MEM_CS_SETUP_TIME_S 0
#define SPI_MEM_CLOCK_REG(i) (REG_SPI_MEM_BASE(i) + 0x014)
/* SPI_MEM_CLK_EQU_SYSCLK : R/W ;bitpos:[31] ;default: 1'b0 ; */
/*description: reserved*/
#define SPI_MEM_CLK_EQU_SYSCLK (BIT(31))
#define SPI_MEM_CLK_EQU_SYSCLK_M (BIT(31))
#define SPI_MEM_CLK_EQU_SYSCLK_V 0x1
#define SPI_MEM_CLK_EQU_SYSCLK_S 31
/* SPI_MEM_CLKCNT_N : R/W ;bitpos:[23:16] ;default: 8'h3 ; */
/*description: In the master mode it is the divider of spi_mem_clk. So spi_mem_clk
frequency is system/(spi_mem_clkcnt_N+1)*/
#define SPI_MEM_CLKCNT_N 0x000000FF
#define SPI_MEM_CLKCNT_N_M ((SPI_MEM_CLKCNT_N_V)<<(SPI_MEM_CLKCNT_N_S))
#define SPI_MEM_CLKCNT_N_V 0xFF
#define SPI_MEM_CLKCNT_N_S 16
/* SPI_MEM_CLKCNT_H : R/W ;bitpos:[15:8] ;default: 8'h1 ; */
/*description: In the master mode it must be floor((spi_mem_clkcnt_N+1)/2-1).*/
#define SPI_MEM_CLKCNT_H 0x000000FF
#define SPI_MEM_CLKCNT_H_M ((SPI_MEM_CLKCNT_H_V)<<(SPI_MEM_CLKCNT_H_S))
#define SPI_MEM_CLKCNT_H_V 0xFF
#define SPI_MEM_CLKCNT_H_S 8
/* SPI_MEM_CLKCNT_L : R/W ;bitpos:[7:0] ;default: 8'h3 ; */
/*description: In the master mode it must be equal to spi_mem_clkcnt_N.*/
#define SPI_MEM_CLKCNT_L 0x000000FF
#define SPI_MEM_CLKCNT_L_M ((SPI_MEM_CLKCNT_L_V)<<(SPI_MEM_CLKCNT_L_S))
#define SPI_MEM_CLKCNT_L_V 0xFF
#define SPI_MEM_CLKCNT_L_S 0
#define SPI_MEM_USER_REG(i) (REG_SPI_MEM_BASE(i) + 0x018)
/* SPI_MEM_USR_COMMAND : R/W ;bitpos:[31] ;default: 1'b1 ; */
/*description: This bit enable the command phase of an operation.*/
#define SPI_MEM_USR_COMMAND (BIT(31))
#define SPI_MEM_USR_COMMAND_M (BIT(31))
#define SPI_MEM_USR_COMMAND_V 0x1
#define SPI_MEM_USR_COMMAND_S 31
/* SPI_MEM_USR_ADDR : R/W ;bitpos:[30] ;default: 1'b0 ; */
/*description: This bit enable the address phase of an operation.*/
#define SPI_MEM_USR_ADDR (BIT(30))
#define SPI_MEM_USR_ADDR_M (BIT(30))
#define SPI_MEM_USR_ADDR_V 0x1
#define SPI_MEM_USR_ADDR_S 30
/* SPI_MEM_USR_DUMMY : R/W ;bitpos:[29] ;default: 1'b0 ; */
/*description: This bit enable the dummy phase of an operation.*/
#define SPI_MEM_USR_DUMMY (BIT(29))
#define SPI_MEM_USR_DUMMY_M (BIT(29))
#define SPI_MEM_USR_DUMMY_V 0x1
#define SPI_MEM_USR_DUMMY_S 29
/* SPI_MEM_USR_MISO : R/W ;bitpos:[28] ;default: 1'b0 ; */
/*description: This bit enable the read-data phase of an operation.*/
#define SPI_MEM_USR_MISO (BIT(28))
#define SPI_MEM_USR_MISO_M (BIT(28))
#define SPI_MEM_USR_MISO_V 0x1
#define SPI_MEM_USR_MISO_S 28
/* SPI_MEM_USR_MOSI : R/W ;bitpos:[27] ;default: 1'b0 ; */
/*description: This bit enable the write-data phase of an operation.*/
#define SPI_MEM_USR_MOSI (BIT(27))
#define SPI_MEM_USR_MOSI_M (BIT(27))
#define SPI_MEM_USR_MOSI_V 0x1
#define SPI_MEM_USR_MOSI_S 27
/* SPI_MEM_USR_DUMMY_IDLE : R/W ;bitpos:[26] ;default: 1'b0 ; */
/*description: spi clock is disable in dummy phase when the bit is enable.*/
#define SPI_MEM_USR_DUMMY_IDLE (BIT(26))
#define SPI_MEM_USR_DUMMY_IDLE_M (BIT(26))
#define SPI_MEM_USR_DUMMY_IDLE_V 0x1
#define SPI_MEM_USR_DUMMY_IDLE_S 26
/* SPI_MEM_USR_MOSI_HIGHPART : R/W ;bitpos:[25] ;default: 1'b0 ; */
/*description: write-data phase only access to high-part of the buffer spi_mem_w8~spi_mem_w15.
1: enable 0: disable.*/
#define SPI_MEM_USR_MOSI_HIGHPART (BIT(25))
#define SPI_MEM_USR_MOSI_HIGHPART_M (BIT(25))
#define SPI_MEM_USR_MOSI_HIGHPART_V 0x1
#define SPI_MEM_USR_MOSI_HIGHPART_S 25
/* SPI_MEM_USR_MISO_HIGHPART : R/W ;bitpos:[24] ;default: 1'b0 ; */
/*description: read-data phase only access to high-part of the buffer spi_mem_w8~spi_mem_w15.
1: enable 0: disable.*/
#define SPI_MEM_USR_MISO_HIGHPART (BIT(24))
#define SPI_MEM_USR_MISO_HIGHPART_M (BIT(24))
#define SPI_MEM_USR_MISO_HIGHPART_V 0x1
#define SPI_MEM_USR_MISO_HIGHPART_S 24
/* SPI_MEM_FWRITE_QIO : R/W ;bitpos:[15] ;default: 1'b0 ; */
/*description: In the write operations address phase and read-data phase apply 4 signals.*/
#define SPI_MEM_FWRITE_QIO (BIT(15))
#define SPI_MEM_FWRITE_QIO_M (BIT(15))
#define SPI_MEM_FWRITE_QIO_V 0x1
#define SPI_MEM_FWRITE_QIO_S 15
/* SPI_MEM_FWRITE_DIO : R/W ;bitpos:[14] ;default: 1'b0 ; */
/*description: In the write operations address phase and read-data phase apply 2 signals.*/
#define SPI_MEM_FWRITE_DIO (BIT(14))
#define SPI_MEM_FWRITE_DIO_M (BIT(14))
#define SPI_MEM_FWRITE_DIO_V 0x1
#define SPI_MEM_FWRITE_DIO_S 14
/* SPI_MEM_FWRITE_QUAD : R/W ;bitpos:[13] ;default: 1'b0 ; */
/*description: In the write operations read-data phase apply 4 signals*/
#define SPI_MEM_FWRITE_QUAD (BIT(13))
#define SPI_MEM_FWRITE_QUAD_M (BIT(13))
#define SPI_MEM_FWRITE_QUAD_V 0x1
#define SPI_MEM_FWRITE_QUAD_S 13
/* SPI_MEM_FWRITE_DUAL : R/W ;bitpos:[12] ;default: 1'b0 ; */
/*description: In the write operations read-data phase apply 2 signals*/
#define SPI_MEM_FWRITE_DUAL (BIT(12))
#define SPI_MEM_FWRITE_DUAL_M (BIT(12))
#define SPI_MEM_FWRITE_DUAL_V 0x1
#define SPI_MEM_FWRITE_DUAL_S 12
/* SPI_MEM_CK_OUT_EDGE : R/W ;bitpos:[9] ;default: 1'b0 ; */
/*description: the bit combined with spi_mem_mosi_delay_mode bits to set mosi
signal delay mode.*/
#define SPI_MEM_CK_OUT_EDGE (BIT(9))
#define SPI_MEM_CK_OUT_EDGE_M (BIT(9))
#define SPI_MEM_CK_OUT_EDGE_V 0x1
#define SPI_MEM_CK_OUT_EDGE_S 9
/* SPI_MEM_CS_SETUP : R/W ;bitpos:[7] ;default: 1'b0 ; */
/*description: spi cs is enable when spi is in prepare phase. 1: enable 0: disable.*/
#define SPI_MEM_CS_SETUP (BIT(7))
#define SPI_MEM_CS_SETUP_M (BIT(7))
#define SPI_MEM_CS_SETUP_V 0x1
#define SPI_MEM_CS_SETUP_S 7
/* SPI_MEM_CS_HOLD : R/W ;bitpos:[6] ;default: 1'b0 ; */
/*description: spi cs keep low when spi is in done phase. 1: enable 0: disable.*/
#define SPI_MEM_CS_HOLD (BIT(6))
#define SPI_MEM_CS_HOLD_M (BIT(6))
#define SPI_MEM_CS_HOLD_V 0x1
#define SPI_MEM_CS_HOLD_S 6
#define SPI_MEM_USER1_REG(i) (REG_SPI_MEM_BASE(i) + 0x01C)
/* SPI_MEM_USR_ADDR_BITLEN : R/W ;bitpos:[31:26] ;default: 6'd23 ; */
/*description: The length in bits of address phase. The register value shall be (bit_num-1).*/
#define SPI_MEM_USR_ADDR_BITLEN 0x0000003F
#define SPI_MEM_USR_ADDR_BITLEN_M ((SPI_MEM_USR_ADDR_BITLEN_V)<<(SPI_MEM_USR_ADDR_BITLEN_S))
#define SPI_MEM_USR_ADDR_BITLEN_V 0x3F
#define SPI_MEM_USR_ADDR_BITLEN_S 26
/* SPI_MEM_USR_DUMMY_CYCLELEN : R/W ;bitpos:[7:0] ;default: 8'd7 ; */
/*description: The length in spi_mem_clk cycles of dummy phase. The register
value shall be (cycle_num-1).*/
#define SPI_MEM_USR_DUMMY_CYCLELEN 0x000000FF
#define SPI_MEM_USR_DUMMY_CYCLELEN_M ((SPI_MEM_USR_DUMMY_CYCLELEN_V)<<(SPI_MEM_USR_DUMMY_CYCLELEN_S))
#define SPI_MEM_USR_DUMMY_CYCLELEN_V 0xFF
#define SPI_MEM_USR_DUMMY_CYCLELEN_S 0
#define SPI_MEM_USER2_REG(i) (REG_SPI_MEM_BASE(i) + 0x020)
/* SPI_MEM_USR_COMMAND_BITLEN : R/W ;bitpos:[31:28] ;default: 4'd7 ; */
/*description: The length in bits of command phase. The register value shall be (bit_num-1)*/
#define SPI_MEM_USR_COMMAND_BITLEN 0x0000000F
#define SPI_MEM_USR_COMMAND_BITLEN_M ((SPI_MEM_USR_COMMAND_BITLEN_V)<<(SPI_MEM_USR_COMMAND_BITLEN_S))
#define SPI_MEM_USR_COMMAND_BITLEN_V 0xF
#define SPI_MEM_USR_COMMAND_BITLEN_S 28
/* SPI_MEM_USR_COMMAND_VALUE : R/W ;bitpos:[15:0] ;default: 16'b0 ; */
/*description: The value of command.*/
#define SPI_MEM_USR_COMMAND_VALUE 0x0000FFFF
#define SPI_MEM_USR_COMMAND_VALUE_M ((SPI_MEM_USR_COMMAND_VALUE_V)<<(SPI_MEM_USR_COMMAND_VALUE_S))
#define SPI_MEM_USR_COMMAND_VALUE_V 0xFFFF
#define SPI_MEM_USR_COMMAND_VALUE_S 0
#define SPI_MEM_MOSI_DLEN_REG(i) (REG_SPI_MEM_BASE(i) + 0x024)
/* SPI_MEM_USR_MOSI_DBITLEN : R/W ;bitpos:[10:0] ;default: 11'h0 ; */
/*description: The length in bits of write-data. The register value shall be (bit_num-1).*/
#define SPI_MEM_USR_MOSI_DBITLEN 0x000007FF
#define SPI_MEM_USR_MOSI_DBITLEN_M ((SPI_MEM_USR_MOSI_DBITLEN_V)<<(SPI_MEM_USR_MOSI_DBITLEN_S))
#define SPI_MEM_USR_MOSI_DBITLEN_V 0x7FF
#define SPI_MEM_USR_MOSI_DBITLEN_S 0
#define SPI_MEM_MISO_DLEN_REG(i) (REG_SPI_MEM_BASE(i) + 0x028)
/* SPI_MEM_USR_MISO_DBITLEN : R/W ;bitpos:[10:0] ;default: 11'h0 ; */
/*description: The length in bits of read-data. The register value shall be (bit_num-1).*/
#define SPI_MEM_USR_MISO_DBITLEN 0x000007FF
#define SPI_MEM_USR_MISO_DBITLEN_M ((SPI_MEM_USR_MISO_DBITLEN_V)<<(SPI_MEM_USR_MISO_DBITLEN_S))
#define SPI_MEM_USR_MISO_DBITLEN_V 0x7FF
#define SPI_MEM_USR_MISO_DBITLEN_S 0
#define SPI_MEM_RD_STATUS_REG(i) (REG_SPI_MEM_BASE(i) + 0x02C)
/* SPI_MEM_WB_MODE : R/W ;bitpos:[23:16] ;default: 8'h00 ; */
/*description: Mode bits in the flash fast read mode it is combined with spi_mem_fastrd_mode
bit.*/
#define SPI_MEM_WB_MODE 0x000000FF
#define SPI_MEM_WB_MODE_M ((SPI_MEM_WB_MODE_V)<<(SPI_MEM_WB_MODE_S))
#define SPI_MEM_WB_MODE_V 0xFF
#define SPI_MEM_WB_MODE_S 16
/* SPI_MEM_STATUS : R/W ;bitpos:[15:0] ;default: 16'b0 ; */
/*description: The value is stored when set spi_mem_flash_rdsr bit and spi_mem_flash_res bit.*/
#define SPI_MEM_STATUS 0x0000FFFF
#define SPI_MEM_STATUS_M ((SPI_MEM_STATUS_V)<<(SPI_MEM_STATUS_S))
#define SPI_MEM_STATUS_V 0xFFFF
#define SPI_MEM_STATUS_S 0
#define SPI_MEM_EXT_ADDR_REG(i) (REG_SPI_MEM_BASE(i) + 0x030)
/* SPI_MEM_EXT_ADDR : R/W ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The register are the higher 32bits in the 64 bits address mode.*/
#define SPI_MEM_EXT_ADDR 0xFFFFFFFF
#define SPI_MEM_EXT_ADDR_M ((SPI_MEM_EXT_ADDR_V)<<(SPI_MEM_EXT_ADDR_S))
#define SPI_MEM_EXT_ADDR_V 0xFFFFFFFF
#define SPI_MEM_EXT_ADDR_S 0
#define SPI_MEM_MISC_REG(i) (REG_SPI_MEM_BASE(i) + 0x034)
/* SPI_MEM_AUTO_PER : R/W ;bitpos:[11] ;default: 1'b0 ; */
/*description: reserved*/
#define SPI_MEM_AUTO_PER (BIT(11))
#define SPI_MEM_AUTO_PER_M (BIT(11))
#define SPI_MEM_AUTO_PER_V 0x1
#define SPI_MEM_AUTO_PER_S 11
/* SPI_MEM_CS_KEEP_ACTIVE : R/W ;bitpos:[10] ;default: 1'b0 ; */
/*description: spi cs line keep low when the bit is set.*/
#define SPI_MEM_CS_KEEP_ACTIVE (BIT(10))
#define SPI_MEM_CS_KEEP_ACTIVE_M (BIT(10))
#define SPI_MEM_CS_KEEP_ACTIVE_V 0x1
#define SPI_MEM_CS_KEEP_ACTIVE_S 10
/* SPI_MEM_CK_IDLE_EDGE : R/W ;bitpos:[9] ;default: 1'b0 ; */
/*description: 1: spi clk line is high when idle 0: spi clk line is low when idle*/
#define SPI_MEM_CK_IDLE_EDGE (BIT(9))
#define SPI_MEM_CK_IDLE_EDGE_M (BIT(9))
#define SPI_MEM_CK_IDLE_EDGE_V 0x1
#define SPI_MEM_CK_IDLE_EDGE_S 9
/* SPI_MEM_SSUB_PIN : R/W ;bitpos:[8] ;default: 1'b0 ; */
/*description: For SPI0 sram is connected to SUBPINs.*/
#define SPI_MEM_SSUB_PIN (BIT(8))
#define SPI_MEM_SSUB_PIN_M (BIT(8))
#define SPI_MEM_SSUB_PIN_V 0x1
#define SPI_MEM_SSUB_PIN_S 8
/* SPI_MEM_FSUB_PIN : R/W ;bitpos:[7] ;default: 1'b0 ; */
/*description: For SPI0 flash is connected to SUBPINs.*/
#define SPI_MEM_FSUB_PIN (BIT(7))
#define SPI_MEM_FSUB_PIN_M (BIT(7))
#define SPI_MEM_FSUB_PIN_V 0x1
#define SPI_MEM_FSUB_PIN_S 7
/* SPI_MEM_CS_POL : R/W ;bitpos:[6:5] ;default: 2'b0 ; */
/*description: In the master mode the bits are the polarity of spi cs line
the value is equivalent to spi_mem_cs ^ spi_mem_master_cs_pol.*/
#define SPI_MEM_CS_POL 0x00000003
#define SPI_MEM_CS_POL_M ((SPI_MEM_CS_POL_V)<<(SPI_MEM_CS_POL_S))
#define SPI_MEM_CS_POL_V 0x3
#define SPI_MEM_CS_POL_S 5
/* SPI_MEM_TRANS_END_INT_ENA : R/W ;bitpos:[4] ;default: 1'b0 ; */
/*description: The bit is used to enable the intterrupt of SPI transmitting done.*/
#define SPI_MEM_TRANS_END_INT_ENA (BIT(4))
#define SPI_MEM_TRANS_END_INT_ENA_M (BIT(4))
#define SPI_MEM_TRANS_END_INT_ENA_V 0x1
#define SPI_MEM_TRANS_END_INT_ENA_S 4
/* SPI_MEM_TRANS_END : R/W ;bitpos:[3] ;default: 1'b0 ; */
/*description: The bit is used to indicate the transimitting is done.*/
#define SPI_MEM_TRANS_END (BIT(3))
#define SPI_MEM_TRANS_END_M (BIT(3))
#define SPI_MEM_TRANS_END_V 0x1
#define SPI_MEM_TRANS_END_S 3
/* SPI_MEM_CS1_DIS : R/W ;bitpos:[1] ;default: 1'b1 ; */
/*description: SPI CS1 pin enable 1: disable CS1 0: spi_mem_cs1 signal is from/to CS1 pin*/
#define SPI_MEM_CS1_DIS (BIT(1))
#define SPI_MEM_CS1_DIS_M (BIT(1))
#define SPI_MEM_CS1_DIS_V 0x1
#define SPI_MEM_CS1_DIS_S 1
/* SPI_MEM_CS0_DIS : R/W ;bitpos:[0] ;default: 1'b0 ; */
/*description: SPI CS0 pin enable 1: disable CS0 0: spi_mem_cs0 signal is from/to CS0 pin*/
#define SPI_MEM_CS0_DIS (BIT(0))
#define SPI_MEM_CS0_DIS_M (BIT(0))
#define SPI_MEM_CS0_DIS_V 0x1
#define SPI_MEM_CS0_DIS_S 0
#define SPI_MEM_TX_CRC_REG(i) (REG_SPI_MEM_BASE(i) + 0x038)
/* SPI_MEM_TX_CRC_DATA : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: For SPI1 the value of crc32.*/
#define SPI_MEM_TX_CRC_DATA 0xFFFFFFFF
#define SPI_MEM_TX_CRC_DATA_M ((SPI_MEM_TX_CRC_DATA_V)<<(SPI_MEM_TX_CRC_DATA_S))
#define SPI_MEM_TX_CRC_DATA_V 0xFFFFFFFF
#define SPI_MEM_TX_CRC_DATA_S 0
#define SPI_MEM_CACHE_FCTRL_REG(i) (REG_SPI_MEM_BASE(i) + 0x03C)
/* SPI_MEM_FADDR_QUAD : R/W ;bitpos:[8] ;default: 1'b0 ; */
/*description: For SPI0 flash address phase apply 4 signals. 1: enable 0: disable.
The bit is the same with spi_mem_fread_qio.*/
#define SPI_MEM_FADDR_QUAD (BIT(8))
#define SPI_MEM_FADDR_QUAD_M (BIT(8))
#define SPI_MEM_FADDR_QUAD_V 0x1
#define SPI_MEM_FADDR_QUAD_S 8
/* SPI_MEM_FDOUT_QUAD : R/W ;bitpos:[7] ;default: 1'b0 ; */
/*description: For SPI0 flash dout phase apply 4 signals. 1: enable 0: disable.
The bit is the same with spi_mem_fread_qio.*/
#define SPI_MEM_FDOUT_QUAD (BIT(7))
#define SPI_MEM_FDOUT_QUAD_M (BIT(7))
#define SPI_MEM_FDOUT_QUAD_V 0x1
#define SPI_MEM_FDOUT_QUAD_S 7
/* SPI_MEM_FDIN_QUAD : R/W ;bitpos:[6] ;default: 1'b0 ; */
/*description: For SPI0 flash din phase apply 4 signals. 1: enable 0: disable.
The bit is the same with spi_mem_fread_qio.*/
#define SPI_MEM_FDIN_QUAD (BIT(6))
#define SPI_MEM_FDIN_QUAD_M (BIT(6))
#define SPI_MEM_FDIN_QUAD_V 0x1
#define SPI_MEM_FDIN_QUAD_S 6
/* SPI_MEM_FADDR_DUAL : R/W ;bitpos:[5] ;default: 1'b0 ; */
/*description: For SPI0 flash address phase apply 2 signals. 1: enable 0: disable.
The bit is the same with spi_mem_fread_dio.*/
#define SPI_MEM_FADDR_DUAL (BIT(5))
#define SPI_MEM_FADDR_DUAL_M (BIT(5))
#define SPI_MEM_FADDR_DUAL_V 0x1
#define SPI_MEM_FADDR_DUAL_S 5
/* SPI_MEM_FDOUT_DUAL : R/W ;bitpos:[4] ;default: 1'b0 ; */
/*description: For SPI0 flash dout phase apply 2 signals. 1: enable 0: disable.
The bit is the same with spi_mem_fread_dio.*/
#define SPI_MEM_FDOUT_DUAL (BIT(4))
#define SPI_MEM_FDOUT_DUAL_M (BIT(4))
#define SPI_MEM_FDOUT_DUAL_V 0x1
#define SPI_MEM_FDOUT_DUAL_S 4
/* SPI_MEM_FDIN_DUAL : R/W ;bitpos:[3] ;default: 1'b0 ; */
/*description: For SPI0 flash din phase apply 2 signals. 1: enable 0: disable.
The bit is the same with spi_mem_fread_dio.*/
#define SPI_MEM_FDIN_DUAL (BIT(3))
#define SPI_MEM_FDIN_DUAL_M (BIT(3))
#define SPI_MEM_FDIN_DUAL_V 0x1
#define SPI_MEM_FDIN_DUAL_S 3
/* SPI_MEM_CACHE_FLASH_USR_CMD : R/W ;bitpos:[2] ;default: 1'b0 ; */
/*description: For SPI0 cache read flash for user define command 1: enable 0:disable.*/
#define SPI_MEM_CACHE_FLASH_USR_CMD (BIT(2))
#define SPI_MEM_CACHE_FLASH_USR_CMD_M (BIT(2))
#define SPI_MEM_CACHE_FLASH_USR_CMD_V 0x1
#define SPI_MEM_CACHE_FLASH_USR_CMD_S 2
/* SPI_MEM_CACHE_USR_CMD_4BYTE : R/W ;bitpos:[1] ;default: 1'b0 ; */
/*description: For SPI0 cache read flash with 4 bytes command 1: enable 0:disable.*/
#define SPI_MEM_CACHE_USR_CMD_4BYTE (BIT(1))
#define SPI_MEM_CACHE_USR_CMD_4BYTE_M (BIT(1))
#define SPI_MEM_CACHE_USR_CMD_4BYTE_V 0x1
#define SPI_MEM_CACHE_USR_CMD_4BYTE_S 1
/* SPI_MEM_CACHE_REQ_EN : R/W ;bitpos:[0] ;default: 1'b0 ; */
/*description: For SPI0 Cache access enable 1: enable 0:disable.*/
#define SPI_MEM_CACHE_REQ_EN (BIT(0))
#define SPI_MEM_CACHE_REQ_EN_M (BIT(0))
#define SPI_MEM_CACHE_REQ_EN_V 0x1
#define SPI_MEM_CACHE_REQ_EN_S 0
#define SPI_MEM_CACHE_SCTRL_REG(i) (REG_SPI_MEM_BASE(i) + 0x040)
/* SPI_MEM_SRAM_WDUMMY_CYCLELEN : R/W ;bitpos:[29:22] ;default: 8'b1 ; */
/*description: For SPI0 In the sram mode it is the length in bits of write
dummy phase. The register value shall be (bit_num-1).*/
#define SPI_MEM_SRAM_WDUMMY_CYCLELEN 0x000000FF
#define SPI_MEM_SRAM_WDUMMY_CYCLELEN_M ((SPI_MEM_SRAM_WDUMMY_CYCLELEN_V)<<(SPI_MEM_SRAM_WDUMMY_CYCLELEN_S))
#define SPI_MEM_SRAM_WDUMMY_CYCLELEN_V 0xFF
#define SPI_MEM_SRAM_WDUMMY_CYCLELEN_S 22
/* SPI_MEM_CACHE_SRAM_USR_WCMD : R/W ;bitpos:[20] ;default: 1'b1 ; */
/*description: For SPI0 In the spi sram mode cache write sram for user define command*/
#define SPI_MEM_CACHE_SRAM_USR_WCMD (BIT(20))
#define SPI_MEM_CACHE_SRAM_USR_WCMD_M (BIT(20))
#define SPI_MEM_CACHE_SRAM_USR_WCMD_V 0x1
#define SPI_MEM_CACHE_SRAM_USR_WCMD_S 20
/* SPI_MEM_SRAM_ADDR_BITLEN : R/W ;bitpos:[19:14] ;default: 6'd23 ; */
/*description: For SPI0 In the sram mode it is the length in bits of address
phase. The register value shall be (bit_num-1).*/
#define SPI_MEM_SRAM_ADDR_BITLEN 0x0000003F
#define SPI_MEM_SRAM_ADDR_BITLEN_M ((SPI_MEM_SRAM_ADDR_BITLEN_V)<<(SPI_MEM_SRAM_ADDR_BITLEN_S))
#define SPI_MEM_SRAM_ADDR_BITLEN_V 0x3F
#define SPI_MEM_SRAM_ADDR_BITLEN_S 14
/* SPI_MEM_SRAM_RDUMMY_CYCLELEN : R/W ;bitpos:[13:6] ;default: 8'b1 ; */
/*description: For SPI0 In the sram mode it is the length in bits of read
dummy phase. The register value shall be (bit_num-1).*/
#define SPI_MEM_SRAM_RDUMMY_CYCLELEN 0x000000FF
#define SPI_MEM_SRAM_RDUMMY_CYCLELEN_M ((SPI_MEM_SRAM_RDUMMY_CYCLELEN_V)<<(SPI_MEM_SRAM_RDUMMY_CYCLELEN_S))
#define SPI_MEM_SRAM_RDUMMY_CYCLELEN_V 0xFF
#define SPI_MEM_SRAM_RDUMMY_CYCLELEN_S 6
/* SPI_MEM_CACHE_SRAM_USR_RCMD : R/W ;bitpos:[5] ;default: 1'b1 ; */
/*description: For SPI0 In the spi sram mode cache read sram for user define command.*/
#define SPI_MEM_CACHE_SRAM_USR_RCMD (BIT(5))
#define SPI_MEM_CACHE_SRAM_USR_RCMD_M (BIT(5))
#define SPI_MEM_CACHE_SRAM_USR_RCMD_V 0x1
#define SPI_MEM_CACHE_SRAM_USR_RCMD_S 5
/* SPI_MEM_USR_RD_SRAM_DUMMY : R/W ;bitpos:[4] ;default: 1'b1 ; */
/*description: For SPI0 In the spi sram mode it is the enable bit of dummy
phase for read operations.*/
#define SPI_MEM_USR_RD_SRAM_DUMMY (BIT(4))
#define SPI_MEM_USR_RD_SRAM_DUMMY_M (BIT(4))
#define SPI_MEM_USR_RD_SRAM_DUMMY_V 0x1
#define SPI_MEM_USR_RD_SRAM_DUMMY_S 4
/* SPI_MEM_USR_WR_SRAM_DUMMY : R/W ;bitpos:[3] ;default: 1'b0 ; */
/*description: For SPI0 In the spi sram mode it is the enable bit of dummy
phase for write operations.*/
#define SPI_MEM_USR_WR_SRAM_DUMMY (BIT(3))
#define SPI_MEM_USR_WR_SRAM_DUMMY_M (BIT(3))
#define SPI_MEM_USR_WR_SRAM_DUMMY_V 0x1
#define SPI_MEM_USR_WR_SRAM_DUMMY_S 3
/* SPI_MEM_USR_SRAM_QIO : R/W ;bitpos:[2] ;default: 1'b0 ; */
/*description: For SPI0 In the spi sram mode spi quad I/O mode enable 1: enable 0:disable*/
#define SPI_MEM_USR_SRAM_QIO (BIT(2))
#define SPI_MEM_USR_SRAM_QIO_M (BIT(2))
#define SPI_MEM_USR_SRAM_QIO_V 0x1
#define SPI_MEM_USR_SRAM_QIO_S 2
/* SPI_MEM_USR_SRAM_DIO : R/W ;bitpos:[1] ;default: 1'b0 ; */
/*description: For SPI0 In the spi sram mode spi dual I/O mode enable 1: enable 0:disable*/
#define SPI_MEM_USR_SRAM_DIO (BIT(1))
#define SPI_MEM_USR_SRAM_DIO_M (BIT(1))
#define SPI_MEM_USR_SRAM_DIO_V 0x1
#define SPI_MEM_USR_SRAM_DIO_S 1
/* SPI_MEM_CACHE_USR_SCMD_4BYTE : R/W ;bitpos:[0] ;default: 1'b0 ; */
/*description: For SPI0 In the spi sram mode cache read flash with 4 bytes
command 1: enable 0:disable.*/
#define SPI_MEM_CACHE_USR_SCMD_4BYTE (BIT(0))
#define SPI_MEM_CACHE_USR_SCMD_4BYTE_M (BIT(0))
#define SPI_MEM_CACHE_USR_SCMD_4BYTE_V 0x1
#define SPI_MEM_CACHE_USR_SCMD_4BYTE_S 0
#define SPI_MEM_SRAM_CMD_REG(i) (REG_SPI_MEM_BASE(i) + 0x044)
/* SPI_MEM_SCMD_QUAD : R/W ;bitpos:[17] ;default: 1'b0 ; */
/*description: For SPI0 sram cmd phase apply 4 signals. 1: enable 0: disable.
The bit is the same with spi_mem_usr_sram_qio.*/
#define SPI_MEM_SCMD_QUAD (BIT(17))
#define SPI_MEM_SCMD_QUAD_M (BIT(17))
#define SPI_MEM_SCMD_QUAD_V 0x1
#define SPI_MEM_SCMD_QUAD_S 17
/* SPI_MEM_SADDR_QUAD : R/W ;bitpos:[16] ;default: 1'b0 ; */
/*description: For SPI0 sram address phase apply 4 signals. 1: enable 0: disable.
The bit is the same with spi_mem_usr_sram_qio.*/
#define SPI_MEM_SADDR_QUAD (BIT(16))
#define SPI_MEM_SADDR_QUAD_M (BIT(16))
#define SPI_MEM_SADDR_QUAD_V 0x1
#define SPI_MEM_SADDR_QUAD_S 16
/* SPI_MEM_SDOUT_QUAD : R/W ;bitpos:[15] ;default: 1'b0 ; */
/*description: For SPI0 sram dout phase apply 4 signals. 1: enable 0: disable.
The bit is the same with spi_mem_usr_sram_qio.*/
#define SPI_MEM_SDOUT_QUAD (BIT(15))
#define SPI_MEM_SDOUT_QUAD_M (BIT(15))
#define SPI_MEM_SDOUT_QUAD_V 0x1
#define SPI_MEM_SDOUT_QUAD_S 15
/* SPI_MEM_SDIN_QUAD : R/W ;bitpos:[14] ;default: 1'b0 ; */
/*description: For SPI0 sram din phase apply 4 signals. 1: enable 0: disable.
The bit is the same with spi_mem_usr_sram_qio.*/
#define SPI_MEM_SDIN_QUAD (BIT(14))
#define SPI_MEM_SDIN_QUAD_M (BIT(14))
#define SPI_MEM_SDIN_QUAD_V 0x1
#define SPI_MEM_SDIN_QUAD_S 14
/* SPI_MEM_SCMD_DUAL : R/W ;bitpos:[13] ;default: 1'b0 ; */
/*description: For SPI0 sram cmd phase apply 2 signals. 1: enable 0: disable.
The bit is the same with spi_mem_usr_sram_dio.*/
#define SPI_MEM_SCMD_DUAL (BIT(13))
#define SPI_MEM_SCMD_DUAL_M (BIT(13))
#define SPI_MEM_SCMD_DUAL_V 0x1
#define SPI_MEM_SCMD_DUAL_S 13
/* SPI_MEM_SADDR_DUAL : R/W ;bitpos:[12] ;default: 1'b0 ; */
/*description: For SPI0 sram address phase apply 2 signals. 1: enable 0: disable.
The bit is the same with spi_mem_usr_sram_dio.*/
#define SPI_MEM_SADDR_DUAL (BIT(12))
#define SPI_MEM_SADDR_DUAL_M (BIT(12))
#define SPI_MEM_SADDR_DUAL_V 0x1
#define SPI_MEM_SADDR_DUAL_S 12
/* SPI_MEM_SDOUT_DUAL : R/W ;bitpos:[11] ;default: 1'b0 ; */
/*description: For SPI0 sram dout phase apply 2 signals. 1: enable 0: disable.
The bit is the same with spi_mem_usr_sram_dio.*/
#define SPI_MEM_SDOUT_DUAL (BIT(11))
#define SPI_MEM_SDOUT_DUAL_M (BIT(11))
#define SPI_MEM_SDOUT_DUAL_V 0x1
#define SPI_MEM_SDOUT_DUAL_S 11
/* SPI_MEM_SDIN_DUAL : R/W ;bitpos:[10] ;default: 1'b0 ; */
/*description: For SPI0 sram din phase apply 2 signals. 1: enable 0: disable.
The bit is the same with spi_mem_usr_sram_dio.*/
#define SPI_MEM_SDIN_DUAL (BIT(10))
#define SPI_MEM_SDIN_DUAL_M (BIT(10))
#define SPI_MEM_SDIN_DUAL_V 0x1
#define SPI_MEM_SDIN_DUAL_S 10
/* SPI_MEM_SWB_MODE : R/W ;bitpos:[9:2] ;default: 8'b0 ; */
/*description: Mode bits in the psram fast read mode it is combined with spi_mem_fastrd_mode
bit.*/
#define SPI_MEM_SWB_MODE 0x000000FF
#define SPI_MEM_SWB_MODE_M ((SPI_MEM_SWB_MODE_V)<<(SPI_MEM_SWB_MODE_S))
#define SPI_MEM_SWB_MODE_V 0xFF
#define SPI_MEM_SWB_MODE_S 2
/* SPI_MEM_SCLK_MODE : R/W ;bitpos:[1:0] ;default: 2'd0 ; */
/*description: 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.*/
#define SPI_MEM_SCLK_MODE 0x00000003
#define SPI_MEM_SCLK_MODE_M ((SPI_MEM_SCLK_MODE_V)<<(SPI_MEM_SCLK_MODE_S))
#define SPI_MEM_SCLK_MODE_V 0x3
#define SPI_MEM_SCLK_MODE_S 0
#define SPI_MEM_SRAM_DRD_CMD_REG(i) (REG_SPI_MEM_BASE(i) + 0x048)
/* SPI_MEM_CACHE_SRAM_USR_RD_CMD_BITLEN : R/W ;bitpos:[31:28] ;default: 4'h0 ; */
/*description: For SPI0 When cache mode is enable it is the length in bits of
command phase for sram. The register value shall be (bit_num-1).*/
#define SPI_MEM_CACHE_SRAM_USR_RD_CMD_BITLEN 0x0000000F
#define SPI_MEM_CACHE_SRAM_USR_RD_CMD_BITLEN_M ((SPI_MEM_CACHE_SRAM_USR_RD_CMD_BITLEN_V)<<(SPI_MEM_CACHE_SRAM_USR_RD_CMD_BITLEN_S))
#define SPI_MEM_CACHE_SRAM_USR_RD_CMD_BITLEN_V 0xF
#define SPI_MEM_CACHE_SRAM_USR_RD_CMD_BITLEN_S 28
/* SPI_MEM_CACHE_SRAM_USR_RD_CMD_VALUE : R/W ;bitpos:[15:0] ;default: 16'h0 ; */
/*description: For SPI0 When cache mode is enable it is the read command value
of command phase for sram.*/
#define SPI_MEM_CACHE_SRAM_USR_RD_CMD_VALUE 0x0000FFFF
#define SPI_MEM_CACHE_SRAM_USR_RD_CMD_VALUE_M ((SPI_MEM_CACHE_SRAM_USR_RD_CMD_VALUE_V)<<(SPI_MEM_CACHE_SRAM_USR_RD_CMD_VALUE_S))
#define SPI_MEM_CACHE_SRAM_USR_RD_CMD_VALUE_V 0xFFFF
#define SPI_MEM_CACHE_SRAM_USR_RD_CMD_VALUE_S 0
#define SPI_MEM_SRAM_DWR_CMD_REG(i) (REG_SPI_MEM_BASE(i) + 0x04C)
/* SPI_MEM_CACHE_SRAM_USR_WR_CMD_BITLEN : R/W ;bitpos:[31:28] ;default: 4'h0 ; */
/*description: For SPI0 When cache mode is enable it is the in bits of command
phase for sram. The register value shall be (bit_num-1).*/
#define SPI_MEM_CACHE_SRAM_USR_WR_CMD_BITLEN 0x0000000F
#define SPI_MEM_CACHE_SRAM_USR_WR_CMD_BITLEN_M ((SPI_MEM_CACHE_SRAM_USR_WR_CMD_BITLEN_V)<<(SPI_MEM_CACHE_SRAM_USR_WR_CMD_BITLEN_S))
#define SPI_MEM_CACHE_SRAM_USR_WR_CMD_BITLEN_V 0xF
#define SPI_MEM_CACHE_SRAM_USR_WR_CMD_BITLEN_S 28
/* SPI_MEM_CACHE_SRAM_USR_WR_CMD_VALUE : R/W ;bitpos:[15:0] ;default: 16'h0 ; */
/*description: For SPI0 When cache mode is enable it is the write command value
of command phase for sram.*/
#define SPI_MEM_CACHE_SRAM_USR_WR_CMD_VALUE 0x0000FFFF
#define SPI_MEM_CACHE_SRAM_USR_WR_CMD_VALUE_M ((SPI_MEM_CACHE_SRAM_USR_WR_CMD_VALUE_V)<<(SPI_MEM_CACHE_SRAM_USR_WR_CMD_VALUE_S))
#define SPI_MEM_CACHE_SRAM_USR_WR_CMD_VALUE_V 0xFFFF
#define SPI_MEM_CACHE_SRAM_USR_WR_CMD_VALUE_S 0
#define SPI_MEM_SRAM_CLK_REG(i) (REG_SPI_MEM_BASE(i) + 0x050)
/* SPI_MEM_SCLK_EQU_SYSCLK : R/W ;bitpos:[31] ;default: 1'b0 ; */
/*description: For SPI0 sram interface 1: spi_mem_clk is eqaul to system 0:
spi_mem_clk is divided from system clock.*/
#define SPI_MEM_SCLK_EQU_SYSCLK (BIT(31))
#define SPI_MEM_SCLK_EQU_SYSCLK_M (BIT(31))
#define SPI_MEM_SCLK_EQU_SYSCLK_V 0x1
#define SPI_MEM_SCLK_EQU_SYSCLK_S 31
/* SPI_MEM_SCLKCNT_N : R/W ;bitpos:[23:16] ;default: 8'h3 ; */
/*description: For SPI0 sram interface it is the divider of spi_mem_clk. So
spi_mem_clk frequency is system/(spi_mem_clkcnt_N+1)*/
#define SPI_MEM_SCLKCNT_N 0x000000FF
#define SPI_MEM_SCLKCNT_N_M ((SPI_MEM_SCLKCNT_N_V)<<(SPI_MEM_SCLKCNT_N_S))
#define SPI_MEM_SCLKCNT_N_V 0xFF
#define SPI_MEM_SCLKCNT_N_S 16
/* SPI_MEM_SCLKCNT_H : R/W ;bitpos:[15:8] ;default: 8'h1 ; */
/*description: For SPI0 sram interface it must be floor((spi_mem_clkcnt_N+1)/2-1).*/
#define SPI_MEM_SCLKCNT_H 0x000000FF
#define SPI_MEM_SCLKCNT_H_M ((SPI_MEM_SCLKCNT_H_V)<<(SPI_MEM_SCLKCNT_H_S))
#define SPI_MEM_SCLKCNT_H_V 0xFF
#define SPI_MEM_SCLKCNT_H_S 8
/* SPI_MEM_SCLKCNT_L : R/W ;bitpos:[7:0] ;default: 8'h3 ; */
/*description: For SPI0 sram interface it must be equal to spi_mem_clkcnt_N.*/
#define SPI_MEM_SCLKCNT_L 0x000000FF
#define SPI_MEM_SCLKCNT_L_M ((SPI_MEM_SCLKCNT_L_V)<<(SPI_MEM_SCLKCNT_L_S))
#define SPI_MEM_SCLKCNT_L_V 0xFF
#define SPI_MEM_SCLKCNT_L_S 0
#define SPI_MEM_FSM_REG(i) (REG_SPI_MEM_BASE(i) + 0x054)
/* SPI_MEM_ST : RO ;bitpos:[2:0] ;default: 3'b0 ; */
/*description: The status of spi state machine. 0: idle state 1: preparation
state 2: send command state 3: send data state 4: red data state 5:write data state 6: wait state 7: done state.*/
#define SPI_MEM_ST 0x00000007
#define SPI_MEM_ST_M ((SPI_MEM_ST_V)<<(SPI_MEM_ST_S))
#define SPI_MEM_ST_V 0x7
#define SPI_MEM_ST_S 0
#define SPI_MEM_HOLD_REG(i) (REG_SPI_MEM_BASE(i) + 0x058)
/* SPI_MEM_HOLD_ENA : R/W ;bitpos:[1:0] ;default: 2'd3 ; */
/*description: This register is for two SPI masters to share the same cs clock
and data signals. The bits of one SPI are set if the other SPI is busy the SPI will be hold. 1(3): hold at idle phase 2: hold at prepare phase.*/
#define SPI_MEM_HOLD_ENA 0x00000003
#define SPI_MEM_HOLD_ENA_M ((SPI_MEM_HOLD_ENA_V)<<(SPI_MEM_HOLD_ENA_S))
#define SPI_MEM_HOLD_ENA_V 0x3
#define SPI_MEM_HOLD_ENA_S 0
#define SPI_MEM_DMA_CONF_REG(i) (REG_SPI_MEM_BASE(i) + 0x05C)
/* SPI_MEM_DMA_CONTINUE : R/W ;bitpos:[16] ;default: 1'b0 ; */
/*description: spi dma continue tx/rx data.*/
#define SPI_MEM_DMA_CONTINUE (BIT(16))
#define SPI_MEM_DMA_CONTINUE_M (BIT(16))
#define SPI_MEM_DMA_CONTINUE_V 0x1
#define SPI_MEM_DMA_CONTINUE_S 16
/* SPI_MEM_DMA_TX_STOP : R/W ;bitpos:[15] ;default: 1'b0 ; */
/*description: spi dma write data stop when in continue tx/rx mode.*/
#define SPI_MEM_DMA_TX_STOP (BIT(15))
#define SPI_MEM_DMA_TX_STOP_M (BIT(15))
#define SPI_MEM_DMA_TX_STOP_V 0x1
#define SPI_MEM_DMA_TX_STOP_S 15
/* SPI_MEM_DMA_RX_STOP : R/W ;bitpos:[14] ;default: 1'b0 ; */
/*description: spi dma read data stop when in continue tx/rx mode.*/
#define SPI_MEM_DMA_RX_STOP (BIT(14))
#define SPI_MEM_DMA_RX_STOP_M (BIT(14))
#define SPI_MEM_DMA_RX_STOP_V 0x1
#define SPI_MEM_DMA_RX_STOP_S 14
/* SPI_MEM_DMA_MEM_TRANS_ENA : R/W ;bitpos:[13] ;default: 1'b0 ; */
/*description: reserved*/
#define SPI_MEM_DMA_MEM_TRANS_ENA (BIT(13))
#define SPI_MEM_DMA_MEM_TRANS_ENA_M (BIT(13))
#define SPI_MEM_DMA_MEM_TRANS_ENA_V 0x1
#define SPI_MEM_DMA_MEM_TRANS_ENA_S 13
/* SPI_MEM_OUT_DATA_BURST_EN : R/W ;bitpos:[12] ;default: 1'b0 ; */
/*description: spi dma read data from memory in burst mode.*/
#define SPI_MEM_OUT_DATA_BURST_EN (BIT(12))
#define SPI_MEM_OUT_DATA_BURST_EN_M (BIT(12))
#define SPI_MEM_OUT_DATA_BURST_EN_V 0x1
#define SPI_MEM_OUT_DATA_BURST_EN_S 12
/* SPI_MEM_INDSCR_BURST_EN : R/W ;bitpos:[11] ;default: 1'b0 ; */
/*description: read descriptor use burst mode when write data to memory.*/
#define SPI_MEM_INDSCR_BURST_EN (BIT(11))
#define SPI_MEM_INDSCR_BURST_EN_M (BIT(11))
#define SPI_MEM_INDSCR_BURST_EN_V 0x1
#define SPI_MEM_INDSCR_BURST_EN_S 11
/* SPI_MEM_OUTDSCR_BURST_EN : R/W ;bitpos:[10] ;default: 1'b0 ; */
/*description: read descriptor use burst mode when read data for memory.*/
#define SPI_MEM_OUTDSCR_BURST_EN (BIT(10))
#define SPI_MEM_OUTDSCR_BURST_EN_M (BIT(10))
#define SPI_MEM_OUTDSCR_BURST_EN_V 0x1
#define SPI_MEM_OUTDSCR_BURST_EN_S 10
/* SPI_MEM_OUT_EOF_MODE : R/W ;bitpos:[9] ;default: 1'b1 ; */
/*description: out eof flag generation mode . 1: when dma pop all data from
fifo 0:when ahb push all data to fifo.*/
#define SPI_MEM_OUT_EOF_MODE (BIT(9))
#define SPI_MEM_OUT_EOF_MODE_M (BIT(9))
#define SPI_MEM_OUT_EOF_MODE_V 0x1
#define SPI_MEM_OUT_EOF_MODE_S 9
/* SPI_MEM_OUT_AUTO_WRBACK : R/W ;bitpos:[8] ;default: 1'b0 ; */
/*description: when the bit is set DMA continue to use the next inlink node
when the length of inlink is 0.*/
#define SPI_MEM_OUT_AUTO_WRBACK (BIT(8))
#define SPI_MEM_OUT_AUTO_WRBACK_M (BIT(8))
#define SPI_MEM_OUT_AUTO_WRBACK_V 0x1
#define SPI_MEM_OUT_AUTO_WRBACK_S 8
/* SPI_MEM_OUT_LOOP_TEST : R/W ;bitpos:[7] ;default: 1'b0 ; */
/*description: Set bit to test out link.*/
#define SPI_MEM_OUT_LOOP_TEST (BIT(7))
#define SPI_MEM_OUT_LOOP_TEST_M (BIT(7))
#define SPI_MEM_OUT_LOOP_TEST_V 0x1
#define SPI_MEM_OUT_LOOP_TEST_S 7
/* SPI_MEM_IN_LOOP_TEST : R/W ;bitpos:[6] ;default: 1'b0 ; */
/*description: Set bit to test in link.*/
#define SPI_MEM_IN_LOOP_TEST (BIT(6))
#define SPI_MEM_IN_LOOP_TEST_M (BIT(6))
#define SPI_MEM_IN_LOOP_TEST_V 0x1
#define SPI_MEM_IN_LOOP_TEST_S 6
/* SPI_MEM_AHBM_RST : R/W ;bitpos:[5] ;default: 1'b0 ; */
/*description: Reset spi dma ahb master.*/
#define SPI_MEM_AHBM_RST (BIT(5))
#define SPI_MEM_AHBM_RST_M (BIT(5))
#define SPI_MEM_AHBM_RST_V 0x1
#define SPI_MEM_AHBM_RST_S 5
/* SPI_MEM_AHBM_FIFO_RST : R/W ;bitpos:[4] ;default: 1'b0 ; */
/*description: Reset spi dma ahb master fifo pointer.*/
#define SPI_MEM_AHBM_FIFO_RST (BIT(4))
#define SPI_MEM_AHBM_FIFO_RST_M (BIT(4))
#define SPI_MEM_AHBM_FIFO_RST_V 0x1
#define SPI_MEM_AHBM_FIFO_RST_S 4
/* SPI_MEM_OUT_RST : R/W ;bitpos:[3] ;default: 1'b0 ; */
/*description: The bit is used to reset out dma fsm and out data fifo pointer.*/
#define SPI_MEM_OUT_RST (BIT(3))
#define SPI_MEM_OUT_RST_M (BIT(3))
#define SPI_MEM_OUT_RST_V 0x1
#define SPI_MEM_OUT_RST_S 3
/* SPI_MEM_IN_RST : R/W ;bitpos:[2] ;default: 1'b0 ; */
/*description: The bit is used to reset in dma fsm and in data fifo pointer.*/
#define SPI_MEM_IN_RST (BIT(2))
#define SPI_MEM_IN_RST_M (BIT(2))
#define SPI_MEM_IN_RST_V 0x1
#define SPI_MEM_IN_RST_S 2
/* SPI_MEM_DMA_TX_ENA : R/W ;bitpos:[1] ;default: 1'b0 ; */
/*description: spi dma tx data enable.*/
#define SPI_MEM_DMA_TX_ENA (BIT(1))
#define SPI_MEM_DMA_TX_ENA_M (BIT(1))
#define SPI_MEM_DMA_TX_ENA_V 0x1
#define SPI_MEM_DMA_TX_ENA_S 1
/* SPI_MEM_DMA_RX_ENA : R/W ;bitpos:[0] ;default: 1'b0 ; */
/*description: spi dma rx data enable.*/
#define SPI_MEM_DMA_RX_ENA (BIT(0))
#define SPI_MEM_DMA_RX_ENA_M (BIT(0))
#define SPI_MEM_DMA_RX_ENA_V 0x1
#define SPI_MEM_DMA_RX_ENA_S 0
#define SPI_MEM_DMA_OUT_LINK_REG(i) (REG_SPI_MEM_BASE(i) + 0x060)
/* SPI_MEM_OUTLINK_RESTART : R/W ;bitpos:[30] ;default: 1'b0 ; */
/*description: Set the bit to mount on new outlink descriptors.*/
#define SPI_MEM_OUTLINK_RESTART (BIT(30))
#define SPI_MEM_OUTLINK_RESTART_M (BIT(30))
#define SPI_MEM_OUTLINK_RESTART_V 0x1
#define SPI_MEM_OUTLINK_RESTART_S 30
/* SPI_MEM_OUTLINK_START : R/W ;bitpos:[29] ;default: 1'b0 ; */
/*description: Set the bit to start to use outlink descriptor.*/
#define SPI_MEM_OUTLINK_START (BIT(29))
#define SPI_MEM_OUTLINK_START_M (BIT(29))
#define SPI_MEM_OUTLINK_START_V 0x1
#define SPI_MEM_OUTLINK_START_S 29
/* SPI_MEM_OUTLINK_STOP : R/W ;bitpos:[28] ;default: 1'b0 ; */
/*description: Set the bit to stop to use outlink descriptor.*/
#define SPI_MEM_OUTLINK_STOP (BIT(28))
#define SPI_MEM_OUTLINK_STOP_M (BIT(28))
#define SPI_MEM_OUTLINK_STOP_V 0x1
#define SPI_MEM_OUTLINK_STOP_S 28
/* SPI_MEM_OUTLINK_ADDR : R/W ;bitpos:[19:0] ;default: 20'h0 ; */
/*description: The address of the first outlink descriptor.*/
#define SPI_MEM_OUTLINK_ADDR 0x000FFFFF
#define SPI_MEM_OUTLINK_ADDR_M ((SPI_MEM_OUTLINK_ADDR_V)<<(SPI_MEM_OUTLINK_ADDR_S))
#define SPI_MEM_OUTLINK_ADDR_V 0xFFFFF
#define SPI_MEM_OUTLINK_ADDR_S 0
#define SPI_MEM_DMA_IN_LINK_REG(i) (REG_SPI_MEM_BASE(i) + 0x064)
/* SPI_MEM_INLINK_RESTART : R/W ;bitpos:[30] ;default: 1'b0 ; */
/*description: Set the bit to mount on new inlink descriptors.*/
#define SPI_MEM_INLINK_RESTART (BIT(30))
#define SPI_MEM_INLINK_RESTART_M (BIT(30))
#define SPI_MEM_INLINK_RESTART_V 0x1
#define SPI_MEM_INLINK_RESTART_S 30
/* SPI_MEM_INLINK_START : R/W ;bitpos:[29] ;default: 1'b0 ; */
/*description: Set the bit to start to use inlink descriptor.*/
#define SPI_MEM_INLINK_START (BIT(29))
#define SPI_MEM_INLINK_START_M (BIT(29))
#define SPI_MEM_INLINK_START_V 0x1
#define SPI_MEM_INLINK_START_S 29
/* SPI_MEM_INLINK_STOP : R/W ;bitpos:[28] ;default: 1'b0 ; */
/*description: Set the bit to stop to use inlink descriptor.*/
#define SPI_MEM_INLINK_STOP (BIT(28))
#define SPI_MEM_INLINK_STOP_M (BIT(28))
#define SPI_MEM_INLINK_STOP_V 0x1
#define SPI_MEM_INLINK_STOP_S 28
/* SPI_MEM_INLINK_AUTO_RET : R/W ;bitpos:[20] ;default: 1'b0 ; */
/*description: when the bit is set the inlink descriptor returns to the first
link node when a packet is error.*/
#define SPI_MEM_INLINK_AUTO_RET (BIT(20))
#define SPI_MEM_INLINK_AUTO_RET_M (BIT(20))
#define SPI_MEM_INLINK_AUTO_RET_V 0x1
#define SPI_MEM_INLINK_AUTO_RET_S 20
/* SPI_MEM_INLINK_ADDR : R/W ;bitpos:[19:0] ;default: 20'h0 ; */
/*description: The address of the first inlink descriptor.*/
#define SPI_MEM_INLINK_ADDR 0x000FFFFF
#define SPI_MEM_INLINK_ADDR_M ((SPI_MEM_INLINK_ADDR_V)<<(SPI_MEM_INLINK_ADDR_S))
#define SPI_MEM_INLINK_ADDR_V 0xFFFFF
#define SPI_MEM_INLINK_ADDR_S 0
#define SPI_MEM_DMA_INT_ENA_REG(i) (REG_SPI_MEM_BASE(i) + 0x068)
/* SPI_MEM_OUT_TOTAL_EOF_INT_ENA : R/W ;bitpos:[8] ;default: 1'b0 ; */
/*description: The enable bit for sending all the packets to host done.*/
#define SPI_MEM_OUT_TOTAL_EOF_INT_ENA (BIT(8))
#define SPI_MEM_OUT_TOTAL_EOF_INT_ENA_M (BIT(8))
#define SPI_MEM_OUT_TOTAL_EOF_INT_ENA_V 0x1
#define SPI_MEM_OUT_TOTAL_EOF_INT_ENA_S 8
/* SPI_MEM_OUT_EOF_INT_ENA : R/W ;bitpos:[7] ;default: 1'b0 ; */
/*description: The enable bit for sending a packet to host done.*/
#define SPI_MEM_OUT_EOF_INT_ENA (BIT(7))
#define SPI_MEM_OUT_EOF_INT_ENA_M (BIT(7))
#define SPI_MEM_OUT_EOF_INT_ENA_V 0x1
#define SPI_MEM_OUT_EOF_INT_ENA_S 7
/* SPI_MEM_OUT_DONE_INT_ENA : R/W ;bitpos:[6] ;default: 1'b0 ; */
/*description: The enable bit for completing usage of a outlink descriptor .*/
#define SPI_MEM_OUT_DONE_INT_ENA (BIT(6))
#define SPI_MEM_OUT_DONE_INT_ENA_M (BIT(6))
#define SPI_MEM_OUT_DONE_INT_ENA_V 0x1
#define SPI_MEM_OUT_DONE_INT_ENA_S 6
/* SPI_MEM_IN_SUC_EOF_INT_ENA : R/W ;bitpos:[5] ;default: 1'b0 ; */
/*description: The enable bit for completing receiving all the packets from host.*/
#define SPI_MEM_IN_SUC_EOF_INT_ENA (BIT(5))
#define SPI_MEM_IN_SUC_EOF_INT_ENA_M (BIT(5))
#define SPI_MEM_IN_SUC_EOF_INT_ENA_V 0x1
#define SPI_MEM_IN_SUC_EOF_INT_ENA_S 5
/* SPI_MEM_IN_ERR_EOF_INT_ENA : R/W ;bitpos:[4] ;default: 1'b0 ; */
/*description: The enable bit for receiving error.*/
#define SPI_MEM_IN_ERR_EOF_INT_ENA (BIT(4))
#define SPI_MEM_IN_ERR_EOF_INT_ENA_M (BIT(4))
#define SPI_MEM_IN_ERR_EOF_INT_ENA_V 0x1
#define SPI_MEM_IN_ERR_EOF_INT_ENA_S 4
/* SPI_MEM_IN_DONE_INT_ENA : R/W ;bitpos:[3] ;default: 1'b0 ; */
/*description: The enable bit for completing usage of a inlink descriptor.*/
#define SPI_MEM_IN_DONE_INT_ENA (BIT(3))
#define SPI_MEM_IN_DONE_INT_ENA_M (BIT(3))
#define SPI_MEM_IN_DONE_INT_ENA_V 0x1
#define SPI_MEM_IN_DONE_INT_ENA_S 3
/* SPI_MEM_INLINK_DSCR_ERROR_INT_ENA : R/W ;bitpos:[2] ;default: 1'b0 ; */
/*description: The enable bit for inlink descriptor error.*/
#define SPI_MEM_INLINK_DSCR_ERROR_INT_ENA (BIT(2))
#define SPI_MEM_INLINK_DSCR_ERROR_INT_ENA_M (BIT(2))
#define SPI_MEM_INLINK_DSCR_ERROR_INT_ENA_V 0x1
#define SPI_MEM_INLINK_DSCR_ERROR_INT_ENA_S 2
/* SPI_MEM_OUTLINK_DSCR_ERROR_INT_ENA : R/W ;bitpos:[1] ;default: 1'b0 ; */
/*description: The enable bit for outlink descriptor error.*/
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_ENA (BIT(1))
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_ENA_M (BIT(1))
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_ENA_V 0x1
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_ENA_S 1
/* SPI_MEM_INLINK_DSCR_EMPTY_INT_ENA : R/W ;bitpos:[0] ;default: 1'b0 ; */
/*description: The enable bit for lack of enough inlink descriptors.*/
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_ENA (BIT(0))
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_ENA_M (BIT(0))
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_ENA_V 0x1
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_ENA_S 0
#define SPI_MEM_DMA_INT_RAW_REG(i) (REG_SPI_MEM_BASE(i) + 0x06C)
/* SPI_MEM_OUT_TOTAL_EOF_INT_RAW : RO ;bitpos:[8] ;default: 1'b0 ; */
/*description: The raw bit for sending all the packets to host done.*/
#define SPI_MEM_OUT_TOTAL_EOF_INT_RAW (BIT(8))
#define SPI_MEM_OUT_TOTAL_EOF_INT_RAW_M (BIT(8))
#define SPI_MEM_OUT_TOTAL_EOF_INT_RAW_V 0x1
#define SPI_MEM_OUT_TOTAL_EOF_INT_RAW_S 8
/* SPI_MEM_OUT_EOF_INT_RAW : RO ;bitpos:[7] ;default: 1'b0 ; */
/*description: The raw bit for sending a packet to host done.*/
#define SPI_MEM_OUT_EOF_INT_RAW (BIT(7))
#define SPI_MEM_OUT_EOF_INT_RAW_M (BIT(7))
#define SPI_MEM_OUT_EOF_INT_RAW_V 0x1
#define SPI_MEM_OUT_EOF_INT_RAW_S 7
/* SPI_MEM_OUT_DONE_INT_RAW : RO ;bitpos:[6] ;default: 1'b0 ; */
/*description: The raw bit for completing usage of a outlink descriptor.*/
#define SPI_MEM_OUT_DONE_INT_RAW (BIT(6))
#define SPI_MEM_OUT_DONE_INT_RAW_M (BIT(6))
#define SPI_MEM_OUT_DONE_INT_RAW_V 0x1
#define SPI_MEM_OUT_DONE_INT_RAW_S 6
/* SPI_MEM_IN_SUC_EOF_INT_RAW : RO ;bitpos:[5] ;default: 1'b0 ; */
/*description: The raw bit for completing receiving all the packets from host.*/
#define SPI_MEM_IN_SUC_EOF_INT_RAW (BIT(5))
#define SPI_MEM_IN_SUC_EOF_INT_RAW_M (BIT(5))
#define SPI_MEM_IN_SUC_EOF_INT_RAW_V 0x1
#define SPI_MEM_IN_SUC_EOF_INT_RAW_S 5
/* SPI_MEM_IN_ERR_EOF_INT_RAW : RO ;bitpos:[4] ;default: 1'b0 ; */
/*description: The raw bit for receiving error.*/
#define SPI_MEM_IN_ERR_EOF_INT_RAW (BIT(4))
#define SPI_MEM_IN_ERR_EOF_INT_RAW_M (BIT(4))
#define SPI_MEM_IN_ERR_EOF_INT_RAW_V 0x1
#define SPI_MEM_IN_ERR_EOF_INT_RAW_S 4
/* SPI_MEM_IN_DONE_INT_RAW : RO ;bitpos:[3] ;default: 1'b0 ; */
/*description: The raw bit for completing usage of a inlink descriptor.*/
#define SPI_MEM_IN_DONE_INT_RAW (BIT(3))
#define SPI_MEM_IN_DONE_INT_RAW_M (BIT(3))
#define SPI_MEM_IN_DONE_INT_RAW_V 0x1
#define SPI_MEM_IN_DONE_INT_RAW_S 3
/* SPI_MEM_INLINK_DSCR_ERROR_INT_RAW : RO ;bitpos:[2] ;default: 1'b0 ; */
/*description: The raw bit for inlink descriptor error.*/
#define SPI_MEM_INLINK_DSCR_ERROR_INT_RAW (BIT(2))
#define SPI_MEM_INLINK_DSCR_ERROR_INT_RAW_M (BIT(2))
#define SPI_MEM_INLINK_DSCR_ERROR_INT_RAW_V 0x1
#define SPI_MEM_INLINK_DSCR_ERROR_INT_RAW_S 2
/* SPI_MEM_OUTLINK_DSCR_ERROR_INT_RAW : RO ;bitpos:[1] ;default: 1'b0 ; */
/*description: The raw bit for outlink descriptor error.*/
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_RAW (BIT(1))
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_RAW_M (BIT(1))
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_RAW_V 0x1
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_RAW_S 1
/* SPI_MEM_INLINK_DSCR_EMPTY_INT_RAW : RO ;bitpos:[0] ;default: 1'b0 ; */
/*description: The raw bit for lack of enough inlink descriptors.*/
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_RAW (BIT(0))
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_RAW_M (BIT(0))
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_RAW_V 0x1
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_RAW_S 0
#define SPI_MEM_DMA_INT_ST_REG(i) (REG_SPI_MEM_BASE(i) + 0x070)
/* SPI_MEM_OUT_TOTAL_EOF_INT_ST : RO ;bitpos:[8] ;default: 1'b0 ; */
/*description: The status bit for sending all the packets to host done.*/
#define SPI_MEM_OUT_TOTAL_EOF_INT_ST (BIT(8))
#define SPI_MEM_OUT_TOTAL_EOF_INT_ST_M (BIT(8))
#define SPI_MEM_OUT_TOTAL_EOF_INT_ST_V 0x1
#define SPI_MEM_OUT_TOTAL_EOF_INT_ST_S 8
/* SPI_MEM_OUT_EOF_INT_ST : RO ;bitpos:[7] ;default: 1'b0 ; */
/*description: The status bit for sending a packet to host done.*/
#define SPI_MEM_OUT_EOF_INT_ST (BIT(7))
#define SPI_MEM_OUT_EOF_INT_ST_M (BIT(7))
#define SPI_MEM_OUT_EOF_INT_ST_V 0x1
#define SPI_MEM_OUT_EOF_INT_ST_S 7
/* SPI_MEM_OUT_DONE_INT_ST : RO ;bitpos:[6] ;default: 1'b0 ; */
/*description: The status bit for completing usage of a outlink descriptor.*/
#define SPI_MEM_OUT_DONE_INT_ST (BIT(6))
#define SPI_MEM_OUT_DONE_INT_ST_M (BIT(6))
#define SPI_MEM_OUT_DONE_INT_ST_V 0x1
#define SPI_MEM_OUT_DONE_INT_ST_S 6
/* SPI_MEM_IN_SUC_EOF_INT_ST : RO ;bitpos:[5] ;default: 1'b0 ; */
/*description: The status bit for completing receiving all the packets from host.*/
#define SPI_MEM_IN_SUC_EOF_INT_ST (BIT(5))
#define SPI_MEM_IN_SUC_EOF_INT_ST_M (BIT(5))
#define SPI_MEM_IN_SUC_EOF_INT_ST_V 0x1
#define SPI_MEM_IN_SUC_EOF_INT_ST_S 5
/* SPI_MEM_IN_ERR_EOF_INT_ST : RO ;bitpos:[4] ;default: 1'b0 ; */
/*description: The status bit for receiving error.*/
#define SPI_MEM_IN_ERR_EOF_INT_ST (BIT(4))
#define SPI_MEM_IN_ERR_EOF_INT_ST_M (BIT(4))
#define SPI_MEM_IN_ERR_EOF_INT_ST_V 0x1
#define SPI_MEM_IN_ERR_EOF_INT_ST_S 4
/* SPI_MEM_IN_DONE_INT_ST : RO ;bitpos:[3] ;default: 1'b0 ; */
/*description: The status bit for completing usage of a inlink descriptor.*/
#define SPI_MEM_IN_DONE_INT_ST (BIT(3))
#define SPI_MEM_IN_DONE_INT_ST_M (BIT(3))
#define SPI_MEM_IN_DONE_INT_ST_V 0x1
#define SPI_MEM_IN_DONE_INT_ST_S 3
/* SPI_MEM_INLINK_DSCR_ERROR_INT_ST : RO ;bitpos:[2] ;default: 1'b0 ; */
/*description: The status bit for inlink descriptor error.*/
#define SPI_MEM_INLINK_DSCR_ERROR_INT_ST (BIT(2))
#define SPI_MEM_INLINK_DSCR_ERROR_INT_ST_M (BIT(2))
#define SPI_MEM_INLINK_DSCR_ERROR_INT_ST_V 0x1
#define SPI_MEM_INLINK_DSCR_ERROR_INT_ST_S 2
/* SPI_MEM_OUTLINK_DSCR_ERROR_INT_ST : RO ;bitpos:[1] ;default: 1'b0 ; */
/*description: The status bit for outlink descriptor error.*/
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_ST (BIT(1))
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_ST_M (BIT(1))
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_ST_V 0x1
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_ST_S 1
/* SPI_MEM_INLINK_DSCR_EMPTY_INT_ST : RO ;bitpos:[0] ;default: 1'b0 ; */
/*description: The status bit for lack of enough inlink descriptors.*/
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_ST (BIT(0))
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_ST_M (BIT(0))
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_ST_V 0x1
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_ST_S 0
#define SPI_MEM_DMA_INT_CLR_REG(i) (REG_SPI_MEM_BASE(i) + 0x074)
/* SPI_MEM_OUT_TOTAL_EOF_INT_CLR : R/W ;bitpos:[8] ;default: 1'b0 ; */
/*description: The clear bit for sending all the packets to host done.*/
#define SPI_MEM_OUT_TOTAL_EOF_INT_CLR (BIT(8))
#define SPI_MEM_OUT_TOTAL_EOF_INT_CLR_M (BIT(8))
#define SPI_MEM_OUT_TOTAL_EOF_INT_CLR_V 0x1
#define SPI_MEM_OUT_TOTAL_EOF_INT_CLR_S 8
/* SPI_MEM_OUT_EOF_INT_CLR : R/W ;bitpos:[7] ;default: 1'b0 ; */
/*description: The clear bit for sending a packet to host done.*/
#define SPI_MEM_OUT_EOF_INT_CLR (BIT(7))
#define SPI_MEM_OUT_EOF_INT_CLR_M (BIT(7))
#define SPI_MEM_OUT_EOF_INT_CLR_V 0x1
#define SPI_MEM_OUT_EOF_INT_CLR_S 7
/* SPI_MEM_OUT_DONE_INT_CLR : R/W ;bitpos:[6] ;default: 1'b0 ; */
/*description: The clear bit for completing usage of a outlink descriptor.*/
#define SPI_MEM_OUT_DONE_INT_CLR (BIT(6))
#define SPI_MEM_OUT_DONE_INT_CLR_M (BIT(6))
#define SPI_MEM_OUT_DONE_INT_CLR_V 0x1
#define SPI_MEM_OUT_DONE_INT_CLR_S 6
/* SPI_MEM_IN_SUC_EOF_INT_CLR : R/W ;bitpos:[5] ;default: 1'b0 ; */
/*description: The clear bit for completing receiving all the packets from host.*/
#define SPI_MEM_IN_SUC_EOF_INT_CLR (BIT(5))
#define SPI_MEM_IN_SUC_EOF_INT_CLR_M (BIT(5))
#define SPI_MEM_IN_SUC_EOF_INT_CLR_V 0x1
#define SPI_MEM_IN_SUC_EOF_INT_CLR_S 5
/* SPI_MEM_IN_ERR_EOF_INT_CLR : R/W ;bitpos:[4] ;default: 1'b0 ; */
/*description: The clear bit for receiving error.*/
#define SPI_MEM_IN_ERR_EOF_INT_CLR (BIT(4))
#define SPI_MEM_IN_ERR_EOF_INT_CLR_M (BIT(4))
#define SPI_MEM_IN_ERR_EOF_INT_CLR_V 0x1
#define SPI_MEM_IN_ERR_EOF_INT_CLR_S 4
/* SPI_MEM_IN_DONE_INT_CLR : R/W ;bitpos:[3] ;default: 1'b0 ; */
/*description: The clear bit for completing usage of a inlink descriptor.*/
#define SPI_MEM_IN_DONE_INT_CLR (BIT(3))
#define SPI_MEM_IN_DONE_INT_CLR_M (BIT(3))
#define SPI_MEM_IN_DONE_INT_CLR_V 0x1
#define SPI_MEM_IN_DONE_INT_CLR_S 3
/* SPI_MEM_INLINK_DSCR_ERROR_INT_CLR : R/W ;bitpos:[2] ;default: 1'b0 ; */
/*description: The clear bit for inlink descriptor error.*/
#define SPI_MEM_INLINK_DSCR_ERROR_INT_CLR (BIT(2))
#define SPI_MEM_INLINK_DSCR_ERROR_INT_CLR_M (BIT(2))
#define SPI_MEM_INLINK_DSCR_ERROR_INT_CLR_V 0x1
#define SPI_MEM_INLINK_DSCR_ERROR_INT_CLR_S 2
/* SPI_MEM_OUTLINK_DSCR_ERROR_INT_CLR : R/W ;bitpos:[1] ;default: 1'b0 ; */
/*description: The clear bit for outlink descriptor error.*/
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_CLR (BIT(1))
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_CLR_M (BIT(1))
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_CLR_V 0x1
#define SPI_MEM_OUTLINK_DSCR_ERROR_INT_CLR_S 1
/* SPI_MEM_INLINK_DSCR_EMPTY_INT_CLR : R/W ;bitpos:[0] ;default: 1'b0 ; */
/*description: The clear bit for lack of enough inlink descriptors.*/
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_CLR (BIT(0))
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_CLR_M (BIT(0))
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_CLR_V 0x1
#define SPI_MEM_INLINK_DSCR_EMPTY_INT_CLR_S 0
#define SPI_MEM_IN_ERR_EOF_DES_ADDR_REG(i) (REG_SPI_MEM_BASE(i) + 0x078)
/* SPI_MEM_DMA_IN_ERR_EOF_DES_ADDR : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The inlink descriptor address when spi dma produce receiving error.*/
#define SPI_MEM_DMA_IN_ERR_EOF_DES_ADDR 0xFFFFFFFF
#define SPI_MEM_DMA_IN_ERR_EOF_DES_ADDR_M ((SPI_MEM_DMA_IN_ERR_EOF_DES_ADDR_V)<<(SPI_MEM_DMA_IN_ERR_EOF_DES_ADDR_S))
#define SPI_MEM_DMA_IN_ERR_EOF_DES_ADDR_V 0xFFFFFFFF
#define SPI_MEM_DMA_IN_ERR_EOF_DES_ADDR_S 0
#define SPI_MEM_IN_SUC_EOF_DES_ADDR_REG(i) (REG_SPI_MEM_BASE(i) + 0x07C)
/* SPI_MEM_DMA_IN_SUC_EOF_DES_ADDR : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The last inlink descriptor address when spi dma produce from_suc_eof.*/
#define SPI_MEM_DMA_IN_SUC_EOF_DES_ADDR 0xFFFFFFFF
#define SPI_MEM_DMA_IN_SUC_EOF_DES_ADDR_M ((SPI_MEM_DMA_IN_SUC_EOF_DES_ADDR_V)<<(SPI_MEM_DMA_IN_SUC_EOF_DES_ADDR_S))
#define SPI_MEM_DMA_IN_SUC_EOF_DES_ADDR_V 0xFFFFFFFF
#define SPI_MEM_DMA_IN_SUC_EOF_DES_ADDR_S 0
#define SPI_MEM_INLINK_DSCR_REG(i) (REG_SPI_MEM_BASE(i) + 0x080)
/* SPI_MEM_DMA_INLINK_DSCR : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The content of current in descriptor pointer.*/
#define SPI_MEM_DMA_INLINK_DSCR 0xFFFFFFFF
#define SPI_MEM_DMA_INLINK_DSCR_M ((SPI_MEM_DMA_INLINK_DSCR_V)<<(SPI_MEM_DMA_INLINK_DSCR_S))
#define SPI_MEM_DMA_INLINK_DSCR_V 0xFFFFFFFF
#define SPI_MEM_DMA_INLINK_DSCR_S 0
#define SPI_MEM_INLINK_DSCR_BF0_REG(i) (REG_SPI_MEM_BASE(i) + 0x084)
/* SPI_MEM_DMA_INLINK_DSCR_BF0 : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The content of next in descriptor pointer.*/
#define SPI_MEM_DMA_INLINK_DSCR_BF0 0xFFFFFFFF
#define SPI_MEM_DMA_INLINK_DSCR_BF0_M ((SPI_MEM_DMA_INLINK_DSCR_BF0_V)<<(SPI_MEM_DMA_INLINK_DSCR_BF0_S))
#define SPI_MEM_DMA_INLINK_DSCR_BF0_V 0xFFFFFFFF
#define SPI_MEM_DMA_INLINK_DSCR_BF0_S 0
#define SPI_MEM_INLINK_DSCR_BF1_REG(i) (REG_SPI_MEM_BASE(i) + 0x088)
/* SPI_MEM_DMA_INLINK_DSCR_BF1 : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The content of current in descriptor data buffer pointer.*/
#define SPI_MEM_DMA_INLINK_DSCR_BF1 0xFFFFFFFF
#define SPI_MEM_DMA_INLINK_DSCR_BF1_M ((SPI_MEM_DMA_INLINK_DSCR_BF1_V)<<(SPI_MEM_DMA_INLINK_DSCR_BF1_S))
#define SPI_MEM_DMA_INLINK_DSCR_BF1_V 0xFFFFFFFF
#define SPI_MEM_DMA_INLINK_DSCR_BF1_S 0
#define SPI_MEM_OUT_EOF_BFR_DES_ADDR_REG(i) (REG_SPI_MEM_BASE(i) + 0x08C)
/* SPI_MEM_DMA_OUT_EOF_BFR_DES_ADDR : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The address of buffer relative to the outlink descriptor that produce eof.*/
#define SPI_MEM_DMA_OUT_EOF_BFR_DES_ADDR 0xFFFFFFFF
#define SPI_MEM_DMA_OUT_EOF_BFR_DES_ADDR_M ((SPI_MEM_DMA_OUT_EOF_BFR_DES_ADDR_V)<<(SPI_MEM_DMA_OUT_EOF_BFR_DES_ADDR_S))
#define SPI_MEM_DMA_OUT_EOF_BFR_DES_ADDR_V 0xFFFFFFFF
#define SPI_MEM_DMA_OUT_EOF_BFR_DES_ADDR_S 0
#define SPI_MEM_OUT_EOF_DES_ADDR_REG(i) (REG_SPI_MEM_BASE(i) + 0x090)
/* SPI_MEM_DMA_OUT_EOF_DES_ADDR : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The last outlink descriptor address when spi dma produce to_eof.*/
#define SPI_MEM_DMA_OUT_EOF_DES_ADDR 0xFFFFFFFF
#define SPI_MEM_DMA_OUT_EOF_DES_ADDR_M ((SPI_MEM_DMA_OUT_EOF_DES_ADDR_V)<<(SPI_MEM_DMA_OUT_EOF_DES_ADDR_S))
#define SPI_MEM_DMA_OUT_EOF_DES_ADDR_V 0xFFFFFFFF
#define SPI_MEM_DMA_OUT_EOF_DES_ADDR_S 0
#define SPI_MEM_OUTLINK_DSCR_REG(i) (REG_SPI_MEM_BASE(i) + 0x094)
/* SPI_MEM_DMA_OUTLINK_DSCR : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The content of current out descriptor pointer.*/
#define SPI_MEM_DMA_OUTLINK_DSCR 0xFFFFFFFF
#define SPI_MEM_DMA_OUTLINK_DSCR_M ((SPI_MEM_DMA_OUTLINK_DSCR_V)<<(SPI_MEM_DMA_OUTLINK_DSCR_S))
#define SPI_MEM_DMA_OUTLINK_DSCR_V 0xFFFFFFFF
#define SPI_MEM_DMA_OUTLINK_DSCR_S 0
#define SPI_MEM_OUTLINK_DSCR_BF0_REG(i) (REG_SPI_MEM_BASE(i) + 0x098)
/* SPI_MEM_DMA_OUTLINK_DSCR_BF0 : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The content of next out descriptor pointer.*/
#define SPI_MEM_DMA_OUTLINK_DSCR_BF0 0xFFFFFFFF
#define SPI_MEM_DMA_OUTLINK_DSCR_BF0_M ((SPI_MEM_DMA_OUTLINK_DSCR_BF0_V)<<(SPI_MEM_DMA_OUTLINK_DSCR_BF0_S))
#define SPI_MEM_DMA_OUTLINK_DSCR_BF0_V 0xFFFFFFFF
#define SPI_MEM_DMA_OUTLINK_DSCR_BF0_S 0
#define SPI_MEM_OUTLINK_DSCR_BF1_REG(i) (REG_SPI_MEM_BASE(i) + 0x09C)
/* SPI_MEM_DMA_OUTLINK_DSCR_BF1 : RO ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: The content of current out descriptor data buffer pointer.*/
#define SPI_MEM_DMA_OUTLINK_DSCR_BF1 0xFFFFFFFF
#define SPI_MEM_DMA_OUTLINK_DSCR_BF1_M ((SPI_MEM_DMA_OUTLINK_DSCR_BF1_V)<<(SPI_MEM_DMA_OUTLINK_DSCR_BF1_S))
#define SPI_MEM_DMA_OUTLINK_DSCR_BF1_V 0xFFFFFFFF
#define SPI_MEM_DMA_OUTLINK_DSCR_BF1_S 0
#define SPI_MEM_DMA_OUTSTATUS_REG(i) (REG_SPI_MEM_BASE(i) + 0x0A0)
/* SPI_MEM_DMA_OUTFIFO_EMPTY : RO ;bitpos:[31] ;default: 1'b1 ; */
/*description: SPI dma outfifo is empty.*/
#define SPI_MEM_DMA_OUTFIFO_EMPTY (BIT(31))
#define SPI_MEM_DMA_OUTFIFO_EMPTY_M (BIT(31))
#define SPI_MEM_DMA_OUTFIFO_EMPTY_V 0x1
#define SPI_MEM_DMA_OUTFIFO_EMPTY_S 31
/* SPI_MEM_DMA_OUTFIFO_FULL : RO ;bitpos:[30] ;default: 1'b0 ; */
/*description: SPI dma outfifo is full.*/
#define SPI_MEM_DMA_OUTFIFO_FULL (BIT(30))
#define SPI_MEM_DMA_OUTFIFO_FULL_M (BIT(30))
#define SPI_MEM_DMA_OUTFIFO_FULL_V 0x1
#define SPI_MEM_DMA_OUTFIFO_FULL_S 30
/* SPI_MEM_DMA_OUTFIFO_CNT : RO ;bitpos:[29:23] ;default: 7'b0 ; */
/*description: The remains of SPI dma outfifo data.*/
#define SPI_MEM_DMA_OUTFIFO_CNT 0x0000007F
#define SPI_MEM_DMA_OUTFIFO_CNT_M ((SPI_MEM_DMA_OUTFIFO_CNT_V)<<(SPI_MEM_DMA_OUTFIFO_CNT_S))
#define SPI_MEM_DMA_OUTFIFO_CNT_V 0x7F
#define SPI_MEM_DMA_OUTFIFO_CNT_S 23
/* SPI_MEM_DMA_OUT_STATE : RO ;bitpos:[22:20] ;default: 3'b0 ; */
/*description: SPI dma out data state.*/
#define SPI_MEM_DMA_OUT_STATE 0x00000007
#define SPI_MEM_DMA_OUT_STATE_M ((SPI_MEM_DMA_OUT_STATE_V)<<(SPI_MEM_DMA_OUT_STATE_S))
#define SPI_MEM_DMA_OUT_STATE_V 0x7
#define SPI_MEM_DMA_OUT_STATE_S 20
/* SPI_MEM_DMA_OUTDSCR_STATE : RO ;bitpos:[19:18] ;default: 2'b0 ; */
/*description: SPI dma out descriptor state.*/
#define SPI_MEM_DMA_OUTDSCR_STATE 0x00000003
#define SPI_MEM_DMA_OUTDSCR_STATE_M ((SPI_MEM_DMA_OUTDSCR_STATE_V)<<(SPI_MEM_DMA_OUTDSCR_STATE_S))
#define SPI_MEM_DMA_OUTDSCR_STATE_V 0x3
#define SPI_MEM_DMA_OUTDSCR_STATE_S 18
/* SPI_MEM_DMA_OUTDSCR_ADDR : RO ;bitpos:[17:0] ;default: 18'b0 ; */
/*description: SPI dma out descriptor address.*/
#define SPI_MEM_DMA_OUTDSCR_ADDR 0x0003FFFF
#define SPI_MEM_DMA_OUTDSCR_ADDR_M ((SPI_MEM_DMA_OUTDSCR_ADDR_V)<<(SPI_MEM_DMA_OUTDSCR_ADDR_S))
#define SPI_MEM_DMA_OUTDSCR_ADDR_V 0x3FFFF
#define SPI_MEM_DMA_OUTDSCR_ADDR_S 0
#define SPI_MEM_DMA_INSTATUS_REG(i) (REG_SPI_MEM_BASE(i) + 0x0A4)
/* SPI_MEM_DMA_INFIFO_EMPTY : RO ;bitpos:[31] ;default: 1'b1 ; */
/*description: SPI dma infifo is empty.*/
#define SPI_MEM_DMA_INFIFO_EMPTY (BIT(31))
#define SPI_MEM_DMA_INFIFO_EMPTY_M (BIT(31))
#define SPI_MEM_DMA_INFIFO_EMPTY_V 0x1
#define SPI_MEM_DMA_INFIFO_EMPTY_S 31
/* SPI_MEM_DMA_INFIFO_FULL : RO ;bitpos:[30] ;default: 1'b0 ; */
/*description: SPI dma infifo is full.*/
#define SPI_MEM_DMA_INFIFO_FULL (BIT(30))
#define SPI_MEM_DMA_INFIFO_FULL_M (BIT(30))
#define SPI_MEM_DMA_INFIFO_FULL_V 0x1
#define SPI_MEM_DMA_INFIFO_FULL_S 30
/* SPI_MEM_DMA_INFIFO_CNT : RO ;bitpos:[29:23] ;default: 7'b0 ; */
/*description: The remains of SPI dma infifo data.*/
#define SPI_MEM_DMA_INFIFO_CNT 0x0000007F
#define SPI_MEM_DMA_INFIFO_CNT_M ((SPI_MEM_DMA_INFIFO_CNT_V)<<(SPI_MEM_DMA_INFIFO_CNT_S))
#define SPI_MEM_DMA_INFIFO_CNT_V 0x7F
#define SPI_MEM_DMA_INFIFO_CNT_S 23
/* SPI_MEM_DMA_IN_STATE : RO ;bitpos:[22:20] ;default: 3'b0 ; */
/*description: SPI dma in data state.*/
#define SPI_MEM_DMA_IN_STATE 0x00000007
#define SPI_MEM_DMA_IN_STATE_M ((SPI_MEM_DMA_IN_STATE_V)<<(SPI_MEM_DMA_IN_STATE_S))
#define SPI_MEM_DMA_IN_STATE_V 0x7
#define SPI_MEM_DMA_IN_STATE_S 20
/* SPI_MEM_DMA_INDSCR_STATE : RO ;bitpos:[19:18] ;default: 2'b0 ; */
/*description: SPI dma in descriptor state.*/
#define SPI_MEM_DMA_INDSCR_STATE 0x00000003
#define SPI_MEM_DMA_INDSCR_STATE_M ((SPI_MEM_DMA_INDSCR_STATE_V)<<(SPI_MEM_DMA_INDSCR_STATE_S))
#define SPI_MEM_DMA_INDSCR_STATE_V 0x3
#define SPI_MEM_DMA_INDSCR_STATE_S 18
/* SPI_MEM_DMA_INDSCR_ADDR : RO ;bitpos:[17:0] ;default: 18'b0 ; */
/*description: SPI dma in descriptor address.*/
#define SPI_MEM_DMA_INDSCR_ADDR 0x0003FFFF
#define SPI_MEM_DMA_INDSCR_ADDR_M ((SPI_MEM_DMA_INDSCR_ADDR_V)<<(SPI_MEM_DMA_INDSCR_ADDR_S))
#define SPI_MEM_DMA_INDSCR_ADDR_V 0x3FFFF
#define SPI_MEM_DMA_INDSCR_ADDR_S 0
#define SPI_MEM_W0_REG(i) (REG_SPI_MEM_BASE(i) + 0x0A8)
/* SPI_MEM_BUF0 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF0 0xFFFFFFFF
#define SPI_MEM_BUF0_M ((SPI_MEM_BUF0_V)<<(SPI_MEM_BUF0_S))
#define SPI_MEM_BUF0_V 0xFFFFFFFF
#define SPI_MEM_BUF0_S 0
#define SPI_MEM_W1_REG(i) (REG_SPI_MEM_BASE(i) + 0x0AC)
/* SPI_MEM_BUF1 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF1 0xFFFFFFFF
#define SPI_MEM_BUF1_M ((SPI_MEM_BUF1_V)<<(SPI_MEM_BUF1_S))
#define SPI_MEM_BUF1_V 0xFFFFFFFF
#define SPI_MEM_BUF1_S 0
#define SPI_MEM_W2_REG(i) (REG_SPI_MEM_BASE(i) + 0x0B0)
/* SPI_MEM_BUF2 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF2 0xFFFFFFFF
#define SPI_MEM_BUF2_M ((SPI_MEM_BUF2_V)<<(SPI_MEM_BUF2_S))
#define SPI_MEM_BUF2_V 0xFFFFFFFF
#define SPI_MEM_BUF2_S 0
#define SPI_MEM_W3_REG(i) (REG_SPI_MEM_BASE(i) + 0x0B4)
/* SPI_MEM_BUF3 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF3 0xFFFFFFFF
#define SPI_MEM_BUF3_M ((SPI_MEM_BUF3_V)<<(SPI_MEM_BUF3_S))
#define SPI_MEM_BUF3_V 0xFFFFFFFF
#define SPI_MEM_BUF3_S 0
#define SPI_MEM_W4_REG(i) (REG_SPI_MEM_BASE(i) + 0x0B8)
/* SPI_MEM_BUF4 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF4 0xFFFFFFFF
#define SPI_MEM_BUF4_M ((SPI_MEM_BUF4_V)<<(SPI_MEM_BUF4_S))
#define SPI_MEM_BUF4_V 0xFFFFFFFF
#define SPI_MEM_BUF4_S 0
#define SPI_MEM_W5_REG(i) (REG_SPI_MEM_BASE(i) + 0x0BC)
/* SPI_MEM_BUF5 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF5 0xFFFFFFFF
#define SPI_MEM_BUF5_M ((SPI_MEM_BUF5_V)<<(SPI_MEM_BUF5_S))
#define SPI_MEM_BUF5_V 0xFFFFFFFF
#define SPI_MEM_BUF5_S 0
#define SPI_MEM_W6_REG(i) (REG_SPI_MEM_BASE(i) + 0x0C0)
/* SPI_MEM_BUF6 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF6 0xFFFFFFFF
#define SPI_MEM_BUF6_M ((SPI_MEM_BUF6_V)<<(SPI_MEM_BUF6_S))
#define SPI_MEM_BUF6_V 0xFFFFFFFF
#define SPI_MEM_BUF6_S 0
#define SPI_MEM_W7_REG(i) (REG_SPI_MEM_BASE(i) + 0x0C4)
/* SPI_MEM_BUF7 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF7 0xFFFFFFFF
#define SPI_MEM_BUF7_M ((SPI_MEM_BUF7_V)<<(SPI_MEM_BUF7_S))
#define SPI_MEM_BUF7_V 0xFFFFFFFF
#define SPI_MEM_BUF7_S 0
#define SPI_MEM_W8_REG(i) (REG_SPI_MEM_BASE(i) + 0x0C8)
/* SPI_MEM_BUF8 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF8 0xFFFFFFFF
#define SPI_MEM_BUF8_M ((SPI_MEM_BUF8_V)<<(SPI_MEM_BUF8_S))
#define SPI_MEM_BUF8_V 0xFFFFFFFF
#define SPI_MEM_BUF8_S 0
#define SPI_MEM_W9_REG(i) (REG_SPI_MEM_BASE(i) + 0x0CC)
/* SPI_MEM_BUF9 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF9 0xFFFFFFFF
#define SPI_MEM_BUF9_M ((SPI_MEM_BUF9_V)<<(SPI_MEM_BUF9_S))
#define SPI_MEM_BUF9_V 0xFFFFFFFF
#define SPI_MEM_BUF9_S 0
#define SPI_MEM_W10_REG(i) (REG_SPI_MEM_BASE(i) + 0x0D0)
/* SPI_MEM_BUF10 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF10 0xFFFFFFFF
#define SPI_MEM_BUF10_M ((SPI_MEM_BUF10_V)<<(SPI_MEM_BUF10_S))
#define SPI_MEM_BUF10_V 0xFFFFFFFF
#define SPI_MEM_BUF10_S 0
#define SPI_MEM_W11_REG(i) (REG_SPI_MEM_BASE(i) + 0x0D4)
/* SPI_MEM_BUF11 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF11 0xFFFFFFFF
#define SPI_MEM_BUF11_M ((SPI_MEM_BUF11_V)<<(SPI_MEM_BUF11_S))
#define SPI_MEM_BUF11_V 0xFFFFFFFF
#define SPI_MEM_BUF11_S 0
#define SPI_MEM_W12_REG(i) (REG_SPI_MEM_BASE(i) + 0x0D8)
/* SPI_MEM_BUF12 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF12 0xFFFFFFFF
#define SPI_MEM_BUF12_M ((SPI_MEM_BUF12_V)<<(SPI_MEM_BUF12_S))
#define SPI_MEM_BUF12_V 0xFFFFFFFF
#define SPI_MEM_BUF12_S 0
#define SPI_MEM_W13_REG(i) (REG_SPI_MEM_BASE(i) + 0x0DC)
/* SPI_MEM_BUF13 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF13 0xFFFFFFFF
#define SPI_MEM_BUF13_M ((SPI_MEM_BUF13_V)<<(SPI_MEM_BUF13_S))
#define SPI_MEM_BUF13_V 0xFFFFFFFF
#define SPI_MEM_BUF13_S 0
#define SPI_MEM_W14_REG(i) (REG_SPI_MEM_BASE(i) + 0x0E0)
/* SPI_MEM_BUF14 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF14 0xFFFFFFFF
#define SPI_MEM_BUF14_M ((SPI_MEM_BUF14_V)<<(SPI_MEM_BUF14_S))
#define SPI_MEM_BUF14_V 0xFFFFFFFF
#define SPI_MEM_BUF14_S 0
#define SPI_MEM_W15_REG(i) (REG_SPI_MEM_BASE(i) + 0x0E4)
/* SPI_MEM_BUF15 : SRW ;bitpos:[31:0] ;default: 32'b0 ; */
/*description: data buffer*/
#define SPI_MEM_BUF15 0xFFFFFFFF
#define SPI_MEM_BUF15_M ((SPI_MEM_BUF15_V)<<(SPI_MEM_BUF15_S))
#define SPI_MEM_BUF15_V 0xFFFFFFFF
#define SPI_MEM_BUF15_S 0
#define SPI_MEM_FLASH_WAITI_CTRL_REG(i) (REG_SPI_MEM_BASE(i) + 0x0E8)
/* SPI_MEM_WAITI_DUMMY_CYCLELEN : R/W ;bitpos:[17:10] ;default: 8'h0 ; */
/*description: The dummy cycle length when auto wait flash idle*/
#define SPI_MEM_WAITI_DUMMY_CYCLELEN 0x000000FF
#define SPI_MEM_WAITI_DUMMY_CYCLELEN_M ((SPI_MEM_WAITI_DUMMY_CYCLELEN_V)<<(SPI_MEM_WAITI_DUMMY_CYCLELEN_S))
#define SPI_MEM_WAITI_DUMMY_CYCLELEN_V 0xFF
#define SPI_MEM_WAITI_DUMMY_CYCLELEN_S 10
/* SPI_MEM_WAITI_CMD : R/W ;bitpos:[9:2] ;default: 8'h05 ; */
/*description: The command to auto wait idle*/
#define SPI_MEM_WAITI_CMD 0x000000FF
#define SPI_MEM_WAITI_CMD_M ((SPI_MEM_WAITI_CMD_V)<<(SPI_MEM_WAITI_CMD_S))
#define SPI_MEM_WAITI_CMD_V 0xFF
#define SPI_MEM_WAITI_CMD_S 2
/* SPI_MEM_WAITI_DUMMY : R/W ;bitpos:[1] ;default: 1'b0 ; */
/*description: The dummy phase enable when auto wait flash idle*/
#define SPI_MEM_WAITI_DUMMY (BIT(1))
#define SPI_MEM_WAITI_DUMMY_M (BIT(1))
#define SPI_MEM_WAITI_DUMMY_V 0x1
#define SPI_MEM_WAITI_DUMMY_S 1
/* SPI_MEM_WAITI_EN : R/W ;bitpos:[0] ;default: 1'b0 ; */
/*description: auto-waiting flash idle operation when program flash or erase
flash. 1: enable 0: disable.*/
#define SPI_MEM_WAITI_EN (BIT(0))
#define SPI_MEM_WAITI_EN_M (BIT(0))
#define SPI_MEM_WAITI_EN_V 0x1
#define SPI_MEM_WAITI_EN_S 0
#define SPI_MEM_FLASH_SUS_CMD_REG(i) (REG_SPI_MEM_BASE(i) + 0x0EC)
/* SPI_MEM_FLASH_PES : R/W ;bitpos:[1] ;default: 1'b0 ; */
/*description: program erase suspend bit program erase suspend operation will
be triggered when the bit is set. The bit will be cleared once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_PES (BIT(1))
#define SPI_MEM_FLASH_PES_M (BIT(1))
#define SPI_MEM_FLASH_PES_V 0x1
#define SPI_MEM_FLASH_PES_S 1
/* SPI_MEM_FLASH_PER : R/W ;bitpos:[0] ;default: 1'b0 ; */
/*description: program erase resume bit program erase suspend operation will
be triggered when the bit is set. The bit will be cleared once the operation done.1: enable 0: disable.*/
#define SPI_MEM_FLASH_PER (BIT(0))
#define SPI_MEM_FLASH_PER_M (BIT(0))
#define SPI_MEM_FLASH_PER_V 0x1
#define SPI_MEM_FLASH_PER_S 0
#define SPI_MEM_FLASH_SUS_CTRL_REG(i) (REG_SPI_MEM_BASE(i) + 0x0F0)
/* SPI_MEM_FLASH_PES_COMMAND : R/W ;bitpos:[16:9] ;default: 8'h75 ; */
/*description: Program/Erase suspend command.*/
#define SPI_MEM_FLASH_PES_COMMAND 0x000000FF
#define SPI_MEM_FLASH_PES_COMMAND_M ((SPI_MEM_FLASH_PES_COMMAND_V)<<(SPI_MEM_FLASH_PES_COMMAND_S))
#define SPI_MEM_FLASH_PES_COMMAND_V 0xFF
#define SPI_MEM_FLASH_PES_COMMAND_S 9
/* SPI_MEM_FLASH_PER_COMMAND : R/W ;bitpos:[8:1] ;default: 8'h7a ; */
/*description: Program/Erase resume command.*/
#define SPI_MEM_FLASH_PER_COMMAND 0x000000FF
#define SPI_MEM_FLASH_PER_COMMAND_M ((SPI_MEM_FLASH_PER_COMMAND_V)<<(SPI_MEM_FLASH_PER_COMMAND_S))
#define SPI_MEM_FLASH_PER_COMMAND_V 0xFF
#define SPI_MEM_FLASH_PER_COMMAND_S 1
/* SPI_MEM_FLASH_PES_EN : R/W ;bitpos:[0] ;default: 1'b0 ; */
/*description: Auto-suspending enable*/
#define SPI_MEM_FLASH_PES_EN (BIT(0))
#define SPI_MEM_FLASH_PES_EN_M (BIT(0))
#define SPI_MEM_FLASH_PES_EN_V 0x1
#define SPI_MEM_FLASH_PES_EN_S 0
#define SPI_MEM_SUS_STATUS_REG(i) (REG_SPI_MEM_BASE(i) + 0x0F4)
/* SPI_MEM_FLASH_SUS : R/W ;bitpos:[0] ;default: 1'h0 ; */
/*description: The status of flash suspend only used in SPI1.*/
#define SPI_MEM_FLASH_SUS (BIT(0))
#define SPI_MEM_FLASH_SUS_M (BIT(0))
#define SPI_MEM_FLASH_SUS_V 0x1
#define SPI_MEM_FLASH_SUS_S 0
#define SPI_MEM_TIMING_CALI_REG(i) (REG_SPI_MEM_BASE(i) + 0x0F8)
/* SPI_MEM_EXTRA_DUMMY_CYCLELEN : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
/*description: add extra dummy spi clock cycle length for spi clock calibration.*/
#define SPI_MEM_EXTRA_DUMMY_CYCLELEN 0x00000003
#define SPI_MEM_EXTRA_DUMMY_CYCLELEN_M ((SPI_MEM_EXTRA_DUMMY_CYCLELEN_V)<<(SPI_MEM_EXTRA_DUMMY_CYCLELEN_S))
#define SPI_MEM_EXTRA_DUMMY_CYCLELEN_V 0x3
#define SPI_MEM_EXTRA_DUMMY_CYCLELEN_S 2
/* SPI_MEM_TIMING_CALI : R/W ;bitpos:[1] ;default: 1'b0 ; */
/*description: The bit is used to enable timing auto-calibration for all reading operations.*/
#define SPI_MEM_TIMING_CALI (BIT(1))
#define SPI_MEM_TIMING_CALI_M (BIT(1))
#define SPI_MEM_TIMING_CALI_V 0x1
#define SPI_MEM_TIMING_CALI_S 1
/* SPI_MEM_TIMING_CLK_ENA : R/W ;bitpos:[0] ;default: 1'b1 ; */
/*description: The bit is used to enable timing adjust clock for all reading operations.*/
#define SPI_MEM_TIMING_CLK_ENA (BIT(0))
#define SPI_MEM_TIMING_CLK_ENA_M (BIT(0))
#define SPI_MEM_TIMING_CLK_ENA_V 0x1
#define SPI_MEM_TIMING_CLK_ENA_S 0
#define SPI_MEM_DIN_MODE_REG(i) (REG_SPI_MEM_BASE(i) + 0x0FC)
/* SPI_MEM_DIN3_MODE : R/W ;bitpos:[11:9] ;default: 3'h0 ; */
/*description: the input signals are delayed by system 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 posedge of clk_160 4 input with the negedge of clk_160 5: input with the spi_clk high edge 6: input with the spi_clk low edge*/
#define SPI_MEM_DIN3_MODE 0x00000007
#define SPI_MEM_DIN3_MODE_M ((SPI_MEM_DIN3_MODE_V)<<(SPI_MEM_DIN3_MODE_S))
#define SPI_MEM_DIN3_MODE_V 0x7
#define SPI_MEM_DIN3_MODE_S 9
/* SPI_MEM_DIN2_MODE : R/W ;bitpos:[8:6] ;default: 3'h0 ; */
/*description: the input signals are delayed by system 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 posedge of clk_160 4 input with the negedge of clk_160 5: input with the spi_clk high edge 6: input with the spi_clk low edge*/
#define SPI_MEM_DIN2_MODE 0x00000007
#define SPI_MEM_DIN2_MODE_M ((SPI_MEM_DIN2_MODE_V)<<(SPI_MEM_DIN2_MODE_S))
#define SPI_MEM_DIN2_MODE_V 0x7
#define SPI_MEM_DIN2_MODE_S 6
/* SPI_MEM_DIN1_MODE : R/W ;bitpos:[5:3] ;default: 3'h0 ; */
/*description: the input signals are delayed by system 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 posedge of clk_160 4 input with the negedge of clk_160 5: input with the spi_clk high edge 6: input with the spi_clk low edge*/
#define SPI_MEM_DIN1_MODE 0x00000007
#define SPI_MEM_DIN1_MODE_M ((SPI_MEM_DIN1_MODE_V)<<(SPI_MEM_DIN1_MODE_S))
#define SPI_MEM_DIN1_MODE_V 0x7
#define SPI_MEM_DIN1_MODE_S 3
/* SPI_MEM_DIN0_MODE : R/W ;bitpos:[2:0] ;default: 3'h0 ; */
/*description: the input signals are delayed by system 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 posedge of clk_160 4 input with the negedge of clk_160 5: input with the spi_clk high edge 6: input with the spi_clk low edge*/
#define SPI_MEM_DIN0_MODE 0x00000007
#define SPI_MEM_DIN0_MODE_M ((SPI_MEM_DIN0_MODE_V)<<(SPI_MEM_DIN0_MODE_S))
#define SPI_MEM_DIN0_MODE_V 0x7
#define SPI_MEM_DIN0_MODE_S 0
#define SPI_MEM_DIN_NUM_REG(i) (REG_SPI_MEM_BASE(i) + 0x100)
/* SPI_MEM_DIN3_NUM : R/W ;bitpos:[7:6] ;default: 2'h0 ; */
/*description: the input signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_MEM_DIN3_NUM 0x00000003
#define SPI_MEM_DIN3_NUM_M ((SPI_MEM_DIN3_NUM_V)<<(SPI_MEM_DIN3_NUM_S))
#define SPI_MEM_DIN3_NUM_V 0x3
#define SPI_MEM_DIN3_NUM_S 6
/* SPI_MEM_DIN2_NUM : R/W ;bitpos:[5:4] ;default: 2'h0 ; */
/*description: the input signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_MEM_DIN2_NUM 0x00000003
#define SPI_MEM_DIN2_NUM_M ((SPI_MEM_DIN2_NUM_V)<<(SPI_MEM_DIN2_NUM_S))
#define SPI_MEM_DIN2_NUM_V 0x3
#define SPI_MEM_DIN2_NUM_S 4
/* SPI_MEM_DIN1_NUM : R/W ;bitpos:[3:2] ;default: 2'h0 ; */
/*description: the input signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_MEM_DIN1_NUM 0x00000003
#define SPI_MEM_DIN1_NUM_M ((SPI_MEM_DIN1_NUM_V)<<(SPI_MEM_DIN1_NUM_S))
#define SPI_MEM_DIN1_NUM_V 0x3
#define SPI_MEM_DIN1_NUM_S 2
/* SPI_MEM_DIN0_NUM : R/W ;bitpos:[1:0] ;default: 2'h0 ; */
/*description: the input signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_MEM_DIN0_NUM 0x00000003
#define SPI_MEM_DIN0_NUM_M ((SPI_MEM_DIN0_NUM_V)<<(SPI_MEM_DIN0_NUM_S))
#define SPI_MEM_DIN0_NUM_V 0x3
#define SPI_MEM_DIN0_NUM_S 0
#define SPI_MEM_DOUT_MODE_REG(i) (REG_SPI_MEM_BASE(i) + 0x104)
/* SPI_MEM_DOUT3_MODE : R/W ;bitpos:[11:9] ;default: 3'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: output
without delayed 1: output with the posedge of clk_apb 2 output with the negedge of clk_apb 3: output with the posedge of clk_160 4 output with the negedge of clk_160 5: output with the spi_clk high edge 6: output with the spi_clk low edge*/
#define SPI_MEM_DOUT3_MODE 0x00000007
#define SPI_MEM_DOUT3_MODE_M ((SPI_MEM_DOUT3_MODE_V)<<(SPI_MEM_DOUT3_MODE_S))
#define SPI_MEM_DOUT3_MODE_V 0x7
#define SPI_MEM_DOUT3_MODE_S 9
/* SPI_MEM_DOUT2_MODE : R/W ;bitpos:[8:6] ;default: 3'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: output
without delayed 1: output with the posedge of clk_apb 2 output with the negedge of clk_apb 3: output with the posedge of clk_160 4 output with the negedge of clk_160 5: output with the spi_clk high edge 6: output with the spi_clk low edge*/
#define SPI_MEM_DOUT2_MODE 0x00000007
#define SPI_MEM_DOUT2_MODE_M ((SPI_MEM_DOUT2_MODE_V)<<(SPI_MEM_DOUT2_MODE_S))
#define SPI_MEM_DOUT2_MODE_V 0x7
#define SPI_MEM_DOUT2_MODE_S 6
/* SPI_MEM_DOUT1_MODE : R/W ;bitpos:[5:3] ;default: 3'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: output
without delayed 1: output with the posedge of clk_apb 2 output with the negedge of clk_apb 3: output with the posedge of clk_160 4 output with the negedge of clk_160 5: output with the spi_clk high edge 6: output with the spi_clk low edge*/
#define SPI_MEM_DOUT1_MODE 0x00000007
#define SPI_MEM_DOUT1_MODE_M ((SPI_MEM_DOUT1_MODE_V)<<(SPI_MEM_DOUT1_MODE_S))
#define SPI_MEM_DOUT1_MODE_V 0x7
#define SPI_MEM_DOUT1_MODE_S 3
/* SPI_MEM_DOUT0_MODE : R/W ;bitpos:[2:0] ;default: 3'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: output
without delayed 1: output with the posedge of clk_apb 2 output with the negedge of clk_apb 3: output with the posedge of clk_160 4 output with the negedge of clk_160 5: output with the spi_clk high edge 6: output with the spi_clk low edge*/
#define SPI_MEM_DOUT0_MODE 0x00000007
#define SPI_MEM_DOUT0_MODE_M ((SPI_MEM_DOUT0_MODE_V)<<(SPI_MEM_DOUT0_MODE_S))
#define SPI_MEM_DOUT0_MODE_V 0x7
#define SPI_MEM_DOUT0_MODE_S 0
#define SPI_MEM_DOUT_NUM_REG(i) (REG_SPI_MEM_BASE(i) + 0x108)
/* SPI_MEM_DOUT3_NUM : R/W ;bitpos:[7:6] ;default: 2'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_MEM_DOUT3_NUM 0x00000003
#define SPI_MEM_DOUT3_NUM_M ((SPI_MEM_DOUT3_NUM_V)<<(SPI_MEM_DOUT3_NUM_S))
#define SPI_MEM_DOUT3_NUM_V 0x3
#define SPI_MEM_DOUT3_NUM_S 6
/* SPI_MEM_DOUT2_NUM : R/W ;bitpos:[5:4] ;default: 2'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_MEM_DOUT2_NUM 0x00000003
#define SPI_MEM_DOUT2_NUM_M ((SPI_MEM_DOUT2_NUM_V)<<(SPI_MEM_DOUT2_NUM_S))
#define SPI_MEM_DOUT2_NUM_V 0x3
#define SPI_MEM_DOUT2_NUM_S 4
/* SPI_MEM_DOUT1_NUM : R/W ;bitpos:[3:2] ;default: 2'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_MEM_DOUT1_NUM 0x00000003
#define SPI_MEM_DOUT1_NUM_M ((SPI_MEM_DOUT1_NUM_V)<<(SPI_MEM_DOUT1_NUM_S))
#define SPI_MEM_DOUT1_NUM_V 0x3
#define SPI_MEM_DOUT1_NUM_S 2
/* SPI_MEM_DOUT0_NUM : R/W ;bitpos:[1:0] ;default: 2'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_MEM_DOUT0_NUM 0x00000003
#define SPI_MEM_DOUT0_NUM_M ((SPI_MEM_DOUT0_NUM_V)<<(SPI_MEM_DOUT0_NUM_S))
#define SPI_MEM_DOUT0_NUM_V 0x3
#define SPI_MEM_DOUT0_NUM_S 0
#define SPI_SMEM_TIMING_CALI_REG(i) (REG_SPI_MEM_BASE(i) + 0x10C)
/* SPI_SMEM_EXTRA_DUMMY_CYCLELEN : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
/*description: For sram add extra dummy spi clock cycle length for spi clock calibration.*/
#define SPI_SMEM_EXTRA_DUMMY_CYCLELEN 0x00000003
#define SPI_SMEM_EXTRA_DUMMY_CYCLELEN_M ((SPI_SMEM_EXTRA_DUMMY_CYCLELEN_V)<<(SPI_SMEM_EXTRA_DUMMY_CYCLELEN_S))
#define SPI_SMEM_EXTRA_DUMMY_CYCLELEN_V 0x3
#define SPI_SMEM_EXTRA_DUMMY_CYCLELEN_S 2
/* SPI_SMEM_TIMING_CALI : R/W ;bitpos:[1] ;default: 1'b0 ; */
/*description: For sram the bit is used to enable timing auto-calibration for
all reading operations.*/
#define SPI_SMEM_TIMING_CALI (BIT(1))
#define SPI_SMEM_TIMING_CALI_M (BIT(1))
#define SPI_SMEM_TIMING_CALI_V 0x1
#define SPI_SMEM_TIMING_CALI_S 1
/* SPI_SMEM_TIMING_CLK_ENA : R/W ;bitpos:[0] ;default: 1'b1 ; */
/*description: For sram the bit is used to enable timing adjust clock for all
reading operations.*/
#define SPI_SMEM_TIMING_CLK_ENA (BIT(0))
#define SPI_SMEM_TIMING_CLK_ENA_M (BIT(0))
#define SPI_SMEM_TIMING_CLK_ENA_V 0x1
#define SPI_SMEM_TIMING_CLK_ENA_S 0
#define SPI_SMEM_DIN_MODE_REG(i) (REG_SPI_MEM_BASE(i) + 0x110)
/* SPI_SMEM_DIN3_MODE : R/W ;bitpos:[11:9] ;default: 3'h0 ; */
/*description: the input signals are delayed by system 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 posedge of clk_160 4 input with the negedge of clk_160 5: input with the spi_clk high edge 6: input with the spi_clk low edge*/
#define SPI_SMEM_DIN3_MODE 0x00000007
#define SPI_SMEM_DIN3_MODE_M ((SPI_SMEM_DIN3_MODE_V)<<(SPI_SMEM_DIN3_MODE_S))
#define SPI_SMEM_DIN3_MODE_V 0x7
#define SPI_SMEM_DIN3_MODE_S 9
/* SPI_SMEM_DIN2_MODE : R/W ;bitpos:[8:6] ;default: 3'h0 ; */
/*description: the input signals are delayed by system 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 posedge of clk_160 4 input with the negedge of clk_160 5: input with the spi_clk high edge 6: input with the spi_clk low edge*/
#define SPI_SMEM_DIN2_MODE 0x00000007
#define SPI_SMEM_DIN2_MODE_M ((SPI_SMEM_DIN2_MODE_V)<<(SPI_SMEM_DIN2_MODE_S))
#define SPI_SMEM_DIN2_MODE_V 0x7
#define SPI_SMEM_DIN2_MODE_S 6
/* SPI_SMEM_DIN1_MODE : R/W ;bitpos:[5:3] ;default: 3'h0 ; */
/*description: the input signals are delayed by system 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 posedge of clk_160 4 input with the negedge of clk_160 5: input with the spi_clk high edge 6: input with the spi_clk low edge*/
#define SPI_SMEM_DIN1_MODE 0x00000007
#define SPI_SMEM_DIN1_MODE_M ((SPI_SMEM_DIN1_MODE_V)<<(SPI_SMEM_DIN1_MODE_S))
#define SPI_SMEM_DIN1_MODE_V 0x7
#define SPI_SMEM_DIN1_MODE_S 3
/* SPI_SMEM_DIN0_MODE : R/W ;bitpos:[2:0] ;default: 3'h0 ; */
/*description: the input signals are delayed by system 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 posedge of clk_160 4 input with the negedge of clk_160 5: input with the spi_clk high edge 6: input with the spi_clk low edge*/
#define SPI_SMEM_DIN0_MODE 0x00000007
#define SPI_SMEM_DIN0_MODE_M ((SPI_SMEM_DIN0_MODE_V)<<(SPI_SMEM_DIN0_MODE_S))
#define SPI_SMEM_DIN0_MODE_V 0x7
#define SPI_SMEM_DIN0_MODE_S 0
#define SPI_SMEM_DIN_NUM_REG(i) (REG_SPI_MEM_BASE(i) + 0x114)
/* SPI_SMEM_DIN3_NUM : R/W ;bitpos:[7:6] ;default: 2'h0 ; */
/*description: the input signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_SMEM_DIN3_NUM 0x00000003
#define SPI_SMEM_DIN3_NUM_M ((SPI_SMEM_DIN3_NUM_V)<<(SPI_SMEM_DIN3_NUM_S))
#define SPI_SMEM_DIN3_NUM_V 0x3
#define SPI_SMEM_DIN3_NUM_S 6
/* SPI_SMEM_DIN2_NUM : R/W ;bitpos:[5:4] ;default: 2'h0 ; */
/*description: the input signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_SMEM_DIN2_NUM 0x00000003
#define SPI_SMEM_DIN2_NUM_M ((SPI_SMEM_DIN2_NUM_V)<<(SPI_SMEM_DIN2_NUM_S))
#define SPI_SMEM_DIN2_NUM_V 0x3
#define SPI_SMEM_DIN2_NUM_S 4
/* SPI_SMEM_DIN1_NUM : R/W ;bitpos:[3:2] ;default: 2'h0 ; */
/*description: the input signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_SMEM_DIN1_NUM 0x00000003
#define SPI_SMEM_DIN1_NUM_M ((SPI_SMEM_DIN1_NUM_V)<<(SPI_SMEM_DIN1_NUM_S))
#define SPI_SMEM_DIN1_NUM_V 0x3
#define SPI_SMEM_DIN1_NUM_S 2
/* SPI_SMEM_DIN0_NUM : R/W ;bitpos:[1:0] ;default: 2'h0 ; */
/*description: the input signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_SMEM_DIN0_NUM 0x00000003
#define SPI_SMEM_DIN0_NUM_M ((SPI_SMEM_DIN0_NUM_V)<<(SPI_SMEM_DIN0_NUM_S))
#define SPI_SMEM_DIN0_NUM_V 0x3
#define SPI_SMEM_DIN0_NUM_S 0
#define SPI_SMEM_DOUT_MODE_REG(i) (REG_SPI_MEM_BASE(i) + 0x118)
/* SPI_SMEM_DOUT3_MODE : R/W ;bitpos:[11:9] ;default: 3'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: output
without delayed 1: output with the posedge of clk_apb 2 output with the negedge of clk_apb 3: output with the posedge of clk_160 4 output with the negedge of clk_160 5: output with the spi_clk high edge 6: output with the spi_clk low edge*/
#define SPI_SMEM_DOUT3_MODE 0x00000007
#define SPI_SMEM_DOUT3_MODE_M ((SPI_SMEM_DOUT3_MODE_V)<<(SPI_SMEM_DOUT3_MODE_S))
#define SPI_SMEM_DOUT3_MODE_V 0x7
#define SPI_SMEM_DOUT3_MODE_S 9
/* SPI_SMEM_DOUT2_MODE : R/W ;bitpos:[8:6] ;default: 3'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: output
without delayed 1: output with the posedge of clk_apb 2 output with the negedge of clk_apb 3: output with the posedge of clk_160 4 output with the negedge of clk_160 5: output with the spi_clk high edge 6: output with the spi_clk low edge*/
#define SPI_SMEM_DOUT2_MODE 0x00000007
#define SPI_SMEM_DOUT2_MODE_M ((SPI_SMEM_DOUT2_MODE_V)<<(SPI_SMEM_DOUT2_MODE_S))
#define SPI_SMEM_DOUT2_MODE_V 0x7
#define SPI_SMEM_DOUT2_MODE_S 6
/* SPI_SMEM_DOUT1_MODE : R/W ;bitpos:[5:3] ;default: 3'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: output
without delayed 1: output with the posedge of clk_apb 2 output with the negedge of clk_apb 3: output with the posedge of clk_160 4 output with the negedge of clk_160 5: output with the spi_clk high edge 6: output with the spi_clk low edge*/
#define SPI_SMEM_DOUT1_MODE 0x00000007
#define SPI_SMEM_DOUT1_MODE_M ((SPI_SMEM_DOUT1_MODE_V)<<(SPI_SMEM_DOUT1_MODE_S))
#define SPI_SMEM_DOUT1_MODE_V 0x7
#define SPI_SMEM_DOUT1_MODE_S 3
/* SPI_SMEM_DOUT0_MODE : R/W ;bitpos:[2:0] ;default: 3'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: output
without delayed 1: output with the posedge of clk_apb 2 output with the negedge of clk_apb 3: output with the posedge of clk_160 4 output with the negedge of clk_160 5: output with the spi_clk high edge 6: output with the spi_clk low edge*/
#define SPI_SMEM_DOUT0_MODE 0x00000007
#define SPI_SMEM_DOUT0_MODE_M ((SPI_SMEM_DOUT0_MODE_V)<<(SPI_SMEM_DOUT0_MODE_S))
#define SPI_SMEM_DOUT0_MODE_V 0x7
#define SPI_SMEM_DOUT0_MODE_S 0
#define SPI_SMEM_DOUT_NUM_REG(i) (REG_SPI_MEM_BASE(i) + 0x11C)
/* SPI_SMEM_DOUT3_NUM : R/W ;bitpos:[7:6] ;default: 2'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_SMEM_DOUT3_NUM 0x00000003
#define SPI_SMEM_DOUT3_NUM_M ((SPI_SMEM_DOUT3_NUM_V)<<(SPI_SMEM_DOUT3_NUM_S))
#define SPI_SMEM_DOUT3_NUM_V 0x3
#define SPI_SMEM_DOUT3_NUM_S 6
/* SPI_SMEM_DOUT2_NUM : R/W ;bitpos:[5:4] ;default: 2'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_SMEM_DOUT2_NUM 0x00000003
#define SPI_SMEM_DOUT2_NUM_M ((SPI_SMEM_DOUT2_NUM_V)<<(SPI_SMEM_DOUT2_NUM_S))
#define SPI_SMEM_DOUT2_NUM_V 0x3
#define SPI_SMEM_DOUT2_NUM_S 4
/* SPI_SMEM_DOUT1_NUM : R/W ;bitpos:[3:2] ;default: 2'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_SMEM_DOUT1_NUM 0x00000003
#define SPI_SMEM_DOUT1_NUM_M ((SPI_SMEM_DOUT1_NUM_V)<<(SPI_SMEM_DOUT1_NUM_S))
#define SPI_SMEM_DOUT1_NUM_V 0x3
#define SPI_SMEM_DOUT1_NUM_S 2
/* SPI_SMEM_DOUT0_NUM : R/W ;bitpos:[1:0] ;default: 2'h0 ; */
/*description: the output signals are delayed by system clock cycles 0: delayed
by 1 cycle 1: delayed by 2 cycles ...*/
#define SPI_SMEM_DOUT0_NUM 0x00000003
#define SPI_SMEM_DOUT0_NUM_M ((SPI_SMEM_DOUT0_NUM_V)<<(SPI_SMEM_DOUT0_NUM_S))
#define SPI_SMEM_DOUT0_NUM_V 0x3
#define SPI_SMEM_DOUT0_NUM_S 0
#define SPI_MEM_CLOCK_GATE_REG(i) (REG_SPI_MEM_BASE(i) + 0x120)
/* SPI_MEM_CLK_EN : R/W ;bitpos:[0] ;default: 1'b1 ; */
/*description: */
#define SPI_MEM_CLK_EN (BIT(0))
#define SPI_MEM_CLK_EN_M (BIT(0))
#define SPI_MEM_CLK_EN_V 0x1
#define SPI_MEM_CLK_EN_S 0
#define SPI_MEM_DATE_REG(i) (REG_SPI_MEM_BASE(i) + 0x3FC)
/* SPI_MEM_DATE : R/W ;bitpos:[27:0] ;default: 28'h1810250 ; */
/*description: SPI register version.*/
#define SPI_MEM_DATE 0x0FFFFFFF
#define SPI_MEM_DATE_M ((SPI_MEM_DATE_V)<<(SPI_MEM_DATE_S))
#define SPI_MEM_DATE_V 0xFFFFFFF
#define SPI_MEM_DATE_S 0
#ifdef __cplusplus
}
#endif
#endif /*_SOC_SPI_MEM_REG_H_ */