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/*
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* SPDX - FileCopyrightText : 2019 - 2022 Espressif Systems ( Shanghai ) CO LTD
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*
* SPDX - License - Identifier : Apache - 2.0
*/
# include "sdkconfig.h"
# include "string.h"
# include "esp_attr.h"
# include "esp_err.h"
# include "esp_types.h"
# include "esp_log.h"
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# include "../esp_psram_impl.h"
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# include "esp32s3/rom/ets_sys.h"
# include "esp32s3/rom/spi_flash.h"
# include "esp32s3/rom/opi_flash.h"
# include "esp32s3/rom/cache.h"
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# include "soc/gpio_periph.h"
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# include "soc/io_mux_reg.h"
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# include "soc/syscon_reg.h"
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# include "esp_private/spi_flash_os.h"
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# define OPI_PSRAM_SYNC_READ 0x0000
# define OPI_PSRAM_SYNC_WRITE 0x8080
# define OPI_PSRAM_REG_READ 0x4040
# define OPI_PSRAM_REG_WRITE 0xC0C0
# define OCT_PSRAM_RD_CMD_BITLEN 16
# define OCT_PSRAM_WR_CMD_BITLEN 16
# define OCT_PSRAM_ADDR_BITLEN 32
# define OCT_PSRAM_RD_DUMMY_BITLEN (2*(10-1))
# define OCT_PSRAM_WR_DUMMY_BITLEN (2*(5-1))
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# define OCT_PSRAM_CS1_IO SPI_CS1_GPIO_NUM
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# define OCT_PSRAM_CS_SETUP_TIME 3
# define OCT_PSRAM_CS_HOLD_TIME 3
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# define OCT_PSRAM_CS_ECC_HOLD_TIME 3
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# define OCT_PSRAM_CS_HOLD_DELAY 2
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# define OCT_PSRAM_PAGE_SIZE 2 //2 for 1024B
# define OCT_PSRAM_ECC_ENABLE_MASK BIT(8)
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typedef struct {
union {
struct {
uint8_t drive_str : 2 ;
uint8_t read_latency : 3 ;
uint8_t lt : 1 ;
uint8_t rsvd0_1 : 2 ;
} ;
uint8_t val ;
} mr0 ;
union {
struct {
uint8_t vendor_id : 5 ;
uint8_t rsvd0_2 : 3 ;
} ;
uint8_t val ;
} mr1 ;
union {
struct {
uint8_t density : 3 ;
uint8_t dev_id : 2 ;
uint8_t rsvd1_2 : 2 ;
uint8_t gb : 1 ;
} ;
uint8_t val ;
} mr2 ;
union {
struct {
uint8_t rsvd3_7 : 5 ;
uint8_t srf : 1 ;
uint8_t vcc : 1 ;
uint8_t rsvd0 : 1 ;
} ;
uint8_t val ;
} mr3 ;
union {
struct {
uint8_t pasr : 3 ;
uint8_t rf : 1 ;
uint8_t rsvd3 : 1 ;
uint8_t wr_latency : 3 ;
} ;
uint8_t val ;
} mr4 ;
union {
struct {
uint8_t bl : 2 ;
uint8_t bt : 1 ;
uint8_t rsvd0_4 : 5 ;
} ;
uint8_t val ;
} mr8 ;
} opi_psram_mode_reg_t ;
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static const char * TAG = " octal_psram " ;
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static uint32_t s_psram_size ; //this stands for physical psram size in bytes
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static void s_config_psram_spi_phases ( void ) ;
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uint8_t esp_psram_impl_get_cs_io ( void )
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{
return OCT_PSRAM_CS1_IO ;
}
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/**
* Initialise mode registers of the PSRAM
*/
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static void s_init_psram_mode_reg ( int spi_num , opi_psram_mode_reg_t * mode_reg_config )
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{
esp_rom_spiflash_read_mode_t mode = ESP_ROM_SPIFLASH_OPI_DTR_MODE ;
int cmd_len = 16 ;
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uint32_t addr = 0x0 ; //0x0 is the MR0 register
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int addr_bit_len = 32 ;
int dummy = OCT_PSRAM_RD_DUMMY_BITLEN ;
opi_psram_mode_reg_t mode_reg = { 0 } ;
int data_bit_len = 16 ;
//read
esp_rom_opiflash_exec_cmd ( spi_num , mode ,
OPI_PSRAM_REG_READ , cmd_len ,
addr , addr_bit_len ,
dummy ,
NULL , 0 ,
& mode_reg . mr0 . val , data_bit_len ,
BIT ( 1 ) ,
false ) ;
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//modify
mode_reg . mr0 . lt = mode_reg_config - > mr0 . lt ;
mode_reg . mr0 . read_latency = mode_reg_config - > mr0 . read_latency ;
mode_reg . mr0 . drive_str = mode_reg_config - > mr0 . drive_str ;
//write
esp_rom_opiflash_exec_cmd ( spi_num , mode ,
OPI_PSRAM_REG_WRITE , cmd_len ,
addr , addr_bit_len ,
0 ,
& mode_reg . mr0 . val , 16 ,
NULL , 0 ,
BIT ( 1 ) ,
false ) ;
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# if CONFIG_SPIRAM_ECC_ENABLE
addr = 0x8 ; //0x8 is the MR8 register
data_bit_len = 8 ;
//read
esp_rom_opiflash_exec_cmd ( spi_num , mode ,
OPI_PSRAM_REG_READ , cmd_len ,
addr , addr_bit_len ,
dummy ,
NULL , 0 ,
& mode_reg . mr8 . val , data_bit_len ,
BIT ( 1 ) ,
false ) ;
//modify
mode_reg . mr8 . bt = mode_reg_config - > mr8 . bt ;
mode_reg . mr8 . bl = mode_reg_config - > mr8 . bl ;
//write
esp_rom_opiflash_exec_cmd ( spi_num , mode ,
OPI_PSRAM_REG_WRITE , cmd_len ,
addr , addr_bit_len ,
0 ,
& mode_reg . mr8 . val , 16 ,
NULL , 0 ,
BIT ( 1 ) ,
false ) ;
# endif
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}
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static void s_get_psram_mode_reg ( int spi_num , opi_psram_mode_reg_t * out_reg )
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{
esp_rom_spiflash_read_mode_t mode = ESP_ROM_SPIFLASH_OPI_DTR_MODE ;
int cmd_len = 16 ;
int addr_bit_len = 32 ;
int dummy = OCT_PSRAM_RD_DUMMY_BITLEN ;
int data_bit_len = 16 ;
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//Read MR0~1 register
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esp_rom_opiflash_exec_cmd ( spi_num , mode ,
OPI_PSRAM_REG_READ , cmd_len ,
0x0 , addr_bit_len ,
dummy ,
NULL , 0 ,
& out_reg - > mr0 . val , data_bit_len ,
BIT ( 1 ) ,
false ) ;
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//Read MR2~3 register
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esp_rom_opiflash_exec_cmd ( spi_num , mode ,
OPI_PSRAM_REG_READ , cmd_len ,
0x2 , addr_bit_len ,
dummy ,
NULL , 0 ,
& out_reg - > mr2 . val , data_bit_len ,
BIT ( 1 ) ,
false ) ;
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data_bit_len = 8 ;
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//Read MR4 register
esp_rom_opiflash_exec_cmd ( spi_num , mode ,
OPI_PSRAM_REG_READ , cmd_len ,
0x4 , addr_bit_len ,
dummy ,
NULL , 0 ,
& out_reg - > mr4 . val , data_bit_len ,
BIT ( 1 ) ,
false ) ;
//Read MR8 register
esp_rom_opiflash_exec_cmd ( spi_num , mode ,
OPI_PSRAM_REG_READ , cmd_len ,
0x8 , addr_bit_len ,
dummy ,
NULL , 0 ,
& out_reg - > mr8 . val , data_bit_len ,
BIT ( 1 ) ,
false ) ;
}
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static void s_print_psram_info ( opi_psram_mode_reg_t * reg_val )
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{
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ESP_EARLY_LOGI ( TAG , " vendor id : 0x%02x (%s) " , reg_val - > mr1 . vendor_id , reg_val - > mr1 . vendor_id = = 0x0d ? " AP " : " UNKNOWN " ) ;
ESP_EARLY_LOGI ( TAG , " dev id : 0x%02x (generation %d) " , reg_val - > mr2 . dev_id , reg_val - > mr2 . dev_id + 1 ) ;
ESP_EARLY_LOGI ( TAG , " density : 0x%02x (%d Mbit) " , reg_val - > mr2 . density , reg_val - > mr2 . density = = 0x1 ? 32 :
reg_val - > mr2 . density = = 0 X3 ? 64 :
reg_val - > mr2 . density = = 0x5 ? 128 :
reg_val - > mr2 . density = = 0x7 ? 256 : 0 ) ;
ESP_EARLY_LOGI ( TAG , " good-die : 0x%02x (%s) " , reg_val - > mr2 . gb , reg_val - > mr2 . gb = = 1 ? " Pass " : " Fail " ) ;
ESP_EARLY_LOGI ( TAG , " Latency : 0x%02x (%s) " , reg_val - > mr0 . lt , reg_val - > mr0 . lt = = 1 ? " Fixed " : " Variable " ) ;
ESP_EARLY_LOGI ( TAG , " VCC : 0x%02x (%s) " , reg_val - > mr3 . vcc , reg_val - > mr3 . vcc = = 1 ? " 3V " : " 1.8V " ) ;
ESP_EARLY_LOGI ( TAG , " SRF : 0x%02x (%s Refresh) " , reg_val - > mr3 . srf , reg_val - > mr3 . srf = = 0x1 ? " Fast " : " Slow " ) ;
ESP_EARLY_LOGI ( TAG , " BurstType : 0x%02x (%s Wrap) " , reg_val - > mr8 . bt , reg_val - > mr8 . bt = = 1 & & reg_val - > mr8 . bl ! = 3 ? " Hybrid " : " " ) ;
ESP_EARLY_LOGI ( TAG , " BurstLen : 0x%02x (%d Byte) " , reg_val - > mr8 . bl , reg_val - > mr8 . bl = = 0x00 ? 16 :
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reg_val - > mr8 . bl = = 0x01 ? 32 :
reg_val - > mr8 . bl = = 0x10 ? 64 : 1024 ) ;
ESP_EARLY_LOGI ( TAG , " Readlatency : 0x%02x (%d cycles@%s) " , reg_val - > mr0 . read_latency , reg_val - > mr0 . read_latency * 2 + 6 ,
reg_val - > mr0 . lt = = 1 ? " Fixed " : " Variable " ) ;
ESP_EARLY_LOGI ( TAG , " DriveStrength: 0x%02x (1/%d) " , reg_val - > mr0 . drive_str , reg_val - > mr0 . drive_str = = 0x00 ? 1 :
reg_val - > mr0 . drive_str = = 0x01 ? 2 :
reg_val - > mr0 . drive_str = = 0x02 ? 4 : 8 ) ;
}
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static void s_set_psram_cs_timing ( void )
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{
//SPI0/1 share the cs_hold / cs_setup, cd_hold_time / cd_setup_time, cs_hold_delay registers for PSRAM, so we only need to set SPI0 related registers here
SET_PERI_REG_MASK ( SPI_MEM_SPI_SMEM_AC_REG ( 0 ) , SPI_MEM_SPI_SMEM_CS_HOLD_M | SPI_MEM_SPI_SMEM_CS_SETUP_M ) ;
SET_PERI_REG_BITS ( SPI_MEM_SPI_SMEM_AC_REG ( 0 ) , SPI_MEM_SPI_SMEM_CS_HOLD_TIME_V , OCT_PSRAM_CS_HOLD_TIME , SPI_MEM_SPI_SMEM_CS_HOLD_TIME_S ) ;
SET_PERI_REG_BITS ( SPI_MEM_SPI_SMEM_AC_REG ( 0 ) , SPI_MEM_SPI_SMEM_CS_SETUP_TIME_V , OCT_PSRAM_CS_SETUP_TIME , SPI_MEM_SPI_SMEM_CS_SETUP_TIME_S ) ;
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# if CONFIG_SPIRAM_ECC_ENABLE
SET_PERI_REG_BITS ( SPI_MEM_SPI_SMEM_AC_REG ( 0 ) , SPI_MEM_SPI_SMEM_ECC_CS_HOLD_TIME_V , OCT_PSRAM_CS_ECC_HOLD_TIME , SPI_MEM_SPI_SMEM_ECC_CS_HOLD_TIME_S ) ;
# endif
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//CS1 high time
SET_PERI_REG_BITS ( SPI_MEM_SPI_SMEM_AC_REG ( 0 ) , SPI_MEM_SPI_SMEM_CS_HOLD_DELAY_V , OCT_PSRAM_CS_HOLD_DELAY , SPI_MEM_SPI_SMEM_CS_HOLD_DELAY_S ) ;
}
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static void s_init_psram_pins ( void )
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{
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//Set cs1 pin function
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PIN_FUNC_SELECT ( GPIO_PIN_MUX_REG [ OCT_PSRAM_CS1_IO ] , FUNC_SPICS1_SPICS1 ) ;
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//Set mspi cs1 drive strength
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PIN_SET_DRV ( GPIO_PIN_MUX_REG [ OCT_PSRAM_CS1_IO ] , 3 ) ;
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//Set psram clock pin drive strength
REG_SET_FIELD ( SPI_MEM_DATE_REG ( 0 ) , SPI_MEM_SPI_SMEM_SPICLK_FUN_DRV , 3 ) ;
}
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/**
* Enable error correcting code feature
*
* Can add an input parameter for selecting ECC mode if needed
*/
static void s_configure_psram_ecc ( void )
{
# if CONFIG_SPIRAM_ECC_ENABLE
//Clear this bit to use ECC 16to17 mode
CLEAR_PERI_REG_MASK ( SPI_MEM_SPI_SMEM_AC_REG ( 0 ) , SPI_MEM_SPI_SMEM_ECC_16TO18_BYTE_EN_M ) ;
SET_PERI_REG_BITS ( SYSCON_SPI_MEM_ECC_CTRL_REG , SYSCON_SRAM_PAGE_SIZE_V , OCT_PSRAM_PAGE_SIZE , SYSCON_SRAM_PAGE_SIZE_S ) ;
SET_PERI_REG_MASK ( SPI_MEM_SPI_SMEM_AC_REG ( 0 ) , SPI_MEM_SPI_SMEM_ECC_SKIP_PAGE_CORNER_M ) ;
/**
* Enable ECC region 0 ( ACE0 )
* Default : ACE0 range : 0 ~ 256 MB
* Current Octal PSRAM is 8 MB , ACE0 is enough
*/
SET_PERI_REG_MASK ( SYSCON_SRAM_ACE0_ATTR_REG , OCT_PSRAM_ECC_ENABLE_MASK ) ;
ESP_EARLY_LOGI ( TAG , " ECC is enabled " ) ;
# else
CLEAR_PERI_REG_MASK ( SYSCON_SRAM_ACE0_ATTR_REG , OCT_PSRAM_ECC_ENABLE_MASK ) ;
# endif
}
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esp_err_t esp_psram_impl_enable ( psram_vaddr_mode_t vaddrmode )
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{
s_init_psram_pins ( ) ;
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s_set_psram_cs_timing ( ) ;
s_configure_psram_ecc ( ) ;
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//enter MSPI slow mode to init PSRAM device registers
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spi_timing_enter_mspi_low_speed_mode ( true ) ;
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//set to variable dummy mode
SET_PERI_REG_MASK ( SPI_MEM_DDR_REG ( 1 ) , SPI_MEM_SPI_FMEM_VAR_DUMMY ) ;
esp_rom_spi_set_dtr_swap_mode ( 1 , false , false ) ;
//Set PSRAM read latency and drive strength
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static opi_psram_mode_reg_t mode_reg = { 0 } ;
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mode_reg . mr0 . lt = 1 ;
mode_reg . mr0 . read_latency = 2 ;
mode_reg . mr0 . drive_str = 0 ;
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mode_reg . mr8 . bl = 3 ;
mode_reg . mr8 . bt = 0 ;
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s_init_psram_mode_reg ( 1 , & mode_reg ) ;
//Print PSRAM info
s_get_psram_mode_reg ( 1 , & mode_reg ) ;
s_print_psram_info ( & mode_reg ) ;
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s_psram_size = mode_reg . mr2 . density = = 0x1 ? PSRAM_SIZE_4MB :
mode_reg . mr2 . density = = 0 X3 ? PSRAM_SIZE_8MB :
mode_reg . mr2 . density = = 0x5 ? PSRAM_SIZE_16MB :
mode_reg . mr2 . density = = 0x7 ? PSRAM_SIZE_32MB : 0 ;
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//Do PSRAM timing tuning, we use SPI1 to do the tuning, and set the SPI0 PSRAM timing related registers accordingly
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spi_timing_psram_tuning ( ) ;
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//Back to the high speed mode. Flash/PSRAM clocks are set to the clock that user selected. SPI0/1 registers are all set correctly
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spi_timing_enter_mspi_high_speed_mode ( true ) ;
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/**
* Tuning may change SPI1 regs , whereas legacy spi_flash APIs rely on these regs .
* This function is to restore SPI1 init state .
*/
spi_flash_set_rom_required_regs ( ) ;
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//Flash chip requires MSPI specifically, call this function to set them
spi_flash_set_vendor_required_regs ( ) ;
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s_config_psram_spi_phases ( ) ;
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return ESP_OK ;
}
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//Configure PSRAM SPI0 phase related registers here according to the PSRAM chip requirement
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static void s_config_psram_spi_phases ( void )
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{
//Config Write CMD phase for SPI0 to access PSRAM
SET_PERI_REG_MASK ( SPI_MEM_CACHE_SCTRL_REG ( 0 ) , SPI_MEM_CACHE_SRAM_USR_WCMD_M ) ;
SET_PERI_REG_BITS ( SPI_MEM_SRAM_DWR_CMD_REG ( 0 ) , SPI_MEM_CACHE_SRAM_USR_WR_CMD_BITLEN , OCT_PSRAM_WR_CMD_BITLEN - 1 , SPI_MEM_CACHE_SRAM_USR_WR_CMD_BITLEN_S ) ;
SET_PERI_REG_BITS ( SPI_MEM_SRAM_DWR_CMD_REG ( 0 ) , SPI_MEM_CACHE_SRAM_USR_WR_CMD_VALUE , OPI_PSRAM_SYNC_WRITE , SPI_MEM_CACHE_SRAM_USR_WR_CMD_VALUE_S ) ;
//Config Read CMD phase for SPI0 to access PSRAM
SET_PERI_REG_MASK ( SPI_MEM_CACHE_SCTRL_REG ( 0 ) , SPI_MEM_CACHE_SRAM_USR_RCMD_M ) ;
SET_PERI_REG_BITS ( SPI_MEM_SRAM_DRD_CMD_REG ( 0 ) , SPI_MEM_CACHE_SRAM_USR_RD_CMD_BITLEN_V , OCT_PSRAM_RD_CMD_BITLEN - 1 , SPI_MEM_CACHE_SRAM_USR_RD_CMD_BITLEN_S ) ;
SET_PERI_REG_BITS ( SPI_MEM_SRAM_DRD_CMD_REG ( 0 ) , SPI_MEM_CACHE_SRAM_USR_RD_CMD_VALUE_V , OPI_PSRAM_SYNC_READ , SPI_MEM_CACHE_SRAM_USR_RD_CMD_VALUE_S ) ;
//Config ADDR phase
SET_PERI_REG_BITS ( SPI_MEM_CACHE_SCTRL_REG ( 0 ) , SPI_MEM_SRAM_ADDR_BITLEN_V , OCT_PSRAM_ADDR_BITLEN - 1 , SPI_MEM_SRAM_ADDR_BITLEN_S ) ;
SET_PERI_REG_MASK ( SPI_MEM_CACHE_SCTRL_REG ( 0 ) , SPI_MEM_CACHE_USR_SCMD_4BYTE_M ) ;
//Config RD/WR Dummy phase
SET_PERI_REG_MASK ( SPI_MEM_CACHE_SCTRL_REG ( 0 ) , SPI_MEM_USR_RD_SRAM_DUMMY_M | SPI_MEM_USR_WR_SRAM_DUMMY_M ) ;
SET_PERI_REG_BITS ( SPI_MEM_CACHE_SCTRL_REG ( 0 ) , SPI_MEM_SRAM_RDUMMY_CYCLELEN_V , OCT_PSRAM_RD_DUMMY_BITLEN - 1 , SPI_MEM_SRAM_RDUMMY_CYCLELEN_S ) ;
SET_PERI_REG_MASK ( SPI_MEM_SPI_SMEM_DDR_REG ( 0 ) , SPI_MEM_SPI_SMEM_VAR_DUMMY_M ) ;
SET_PERI_REG_BITS ( SPI_MEM_CACHE_SCTRL_REG ( 0 ) , SPI_MEM_SRAM_WDUMMY_CYCLELEN_V , OCT_PSRAM_WR_DUMMY_BITLEN - 1 , SPI_MEM_SRAM_WDUMMY_CYCLELEN_S ) ;
CLEAR_PERI_REG_MASK ( SPI_MEM_SPI_SMEM_DDR_REG ( 0 ) , SPI_MEM_SPI_SMEM_DDR_WDAT_SWP_M | SPI_MEM_SPI_SMEM_DDR_RDAT_SWP_M ) ;
SET_PERI_REG_MASK ( SPI_MEM_SPI_SMEM_DDR_REG ( 0 ) , SPI_MEM_SPI_SMEM_DDR_EN_M ) ;
SET_PERI_REG_MASK ( SPI_MEM_SRAM_CMD_REG ( 0 ) , SPI_MEM_SDUMMY_OUT_M | SPI_MEM_SCMD_OCT_M | SPI_MEM_SADDR_OCT_M | SPI_MEM_SDOUT_OCT_M | SPI_MEM_SDIN_OCT_M ) ;
SET_PERI_REG_MASK ( SPI_MEM_CACHE_SCTRL_REG ( 0 ) , SPI_MEM_SRAM_OCT_M ) ;
Cache_Resume_DCache ( 0 ) ;
}
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/*---------------------------------------------------------------------------------
* Following APIs are not required to be IRAM - Safe
*
* Consider moving these to another file if this kind of APIs grows dramatically
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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esp_err_t esp_psram_impl_get_physical_size ( uint32_t * out_size_bytes )
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{
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if ( ! out_size_bytes ) {
return ESP_ERR_INVALID_ARG ;
}
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* out_size_bytes = s_psram_size ;
return ( s_psram_size ? ESP_OK : ESP_ERR_INVALID_STATE ) ;
}
/**
* This function is to get the available physical psram size in bytes .
* If ECC is enabled , available PSRAM size will be 15 / 16 times its physical size .
*/
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esp_err_t esp_psram_impl_get_available_size ( uint32_t * out_size_bytes )
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{
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if ( ! out_size_bytes ) {
return ESP_ERR_INVALID_ARG ;
}
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# if CONFIG_SPIRAM_ECC_ENABLE
* out_size_bytes = s_psram_size * 15 / 16 ;
# else
* out_size_bytes = s_psram_size ;
# endif
return ( s_psram_size ? ESP_OK : ESP_ERR_INVALID_STATE ) ;
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}