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/*
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* SPDX - FileCopyrightText : 2019 - 2023 Espressif Systems ( Shanghai ) CO LTD
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*
* SPDX - License - Identifier : Apache - 2.0
*/
# include <stdlib.h>
# include <string.h>
# include "sdkconfig.h"
# include "esp_attr.h"
# include "esp_err.h"
# include "esp_types.h"
# include "esp_log.h"
# include "soc/spi_mem_reg.h"
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# include "soc/io_mux_reg.h"
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# include "esp_private/mspi_timing_tuning.h"
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# include "soc/soc.h"
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# include "soc/rtc.h"
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# include "hal/spi_flash_hal.h"
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# include "hal/mspi_timing_tuning_ll.h"
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# include "hal/clk_tree_ll.h"
# include "hal/regi2c_ctrl_ll.h"
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# include "mspi_timing_config.h"
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# if CONFIG_IDF_TARGET_ESP32S3
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# include "esp32s3/rom/cache.h"
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# endif
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# if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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const static char * TAG = " MSPI Timing " ;
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static mspi_timing_tuning_param_t s_flash_best_timing_tuning_config ;
static mspi_timing_tuning_param_t s_psram_best_timing_tuning_config ;
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# endif
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/*------------------------------------------------------------------------------
* Common settings
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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void mspi_timing_set_pin_drive_strength ( void )
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{
//For now, set them all to 3. Need to check after QVL test results are out. TODO: IDF-3663
//Set default clk
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mspi_timing_ll_set_all_pin_drive ( 0 , 3 ) ;
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}
/*------------------------------------------------------------------------------
* Static functions to get clock configs
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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static mspi_timing_config_core_clock_t get_mspi_core_clock ( void )
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{
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return mspi_timing_config_get_core_clock ( ) ;
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}
static uint32_t get_flash_clock_divider ( void )
{
# if CONFIG_ESPTOOLPY_FLASHFREQ_20M
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return MSPI_TIMING_CORE_CLOCK_MHZ / 20 ;
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# elif CONFIG_ESPTOOLPY_FLASHFREQ_40M
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return MSPI_TIMING_CORE_CLOCK_MHZ / 40 ;
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# elif CONFIG_ESPTOOLPY_FLASHFREQ_80M
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return MSPI_TIMING_CORE_CLOCK_MHZ / 80 ;
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# elif CONFIG_ESPTOOLPY_FLASHFREQ_120M
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return MSPI_TIMING_CORE_CLOCK_MHZ / 120 ;
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# else
abort ( ) ;
# endif
}
static uint32_t get_psram_clock_divider ( void )
{
# if CONFIG_SPIRAM_SPEED_40M
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return MSPI_TIMING_CORE_CLOCK_MHZ / 40 ;
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# elif CONFIG_SPIRAM_SPEED_80M
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return MSPI_TIMING_CORE_CLOCK_MHZ / 80 ;
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# elif CONFIG_SPIRAM_SPEED_120M
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return MSPI_TIMING_CORE_CLOCK_MHZ / 120 ;
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# else
//Will enter this branch only if PSRAM is not enable
return 0 ;
# endif
}
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# if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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/*------------------------------------------------------------------------------
* Static functions to do timing tuning
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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/**
* Set timing tuning regs , in order to get successful sample points
*/
static void init_spi1_for_tuning ( bool is_flash )
{
//Get required core clock and module clock settings
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mspi_timing_config_core_clock_t core_clock = get_mspi_core_clock ( ) ;
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//Set SPI1 core clock. SPI0 and SPI1 share the register for core clock. So we only set SPI0 here.
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mspi_timing_config_set_core_clock ( 0 , core_clock ) ;
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//Set SPI1 module clock as required
if ( is_flash ) {
uint32_t flash_div = get_flash_clock_divider ( ) ;
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mspi_timing_config_set_flash_clock ( 1 , flash_div ) ;
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//Power on HCLK
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mspi_timinng_ll_enable_flash_hclk ( 0 ) ;
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} else {
//We use SPI1 Flash to tune PSRAM, PSRAM timing related regs do nothing on SPI1
uint32_t psram_div = get_psram_clock_divider ( ) ;
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mspi_timing_config_set_flash_clock ( 1 , psram_div ) ;
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//Power on HCLK
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mspi_timinng_ll_enable_psram_hclk ( 0 ) ;
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}
}
/**
* We use different SPI1 timing tuning config to read data to see if current MSPI sampling is successful .
* The sampling result will be stored in an array . In this array , successful item will be 1 , failed item will be 0.
*/
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static void sweep_for_success_sample_points ( const uint8_t * reference_data , const mspi_timing_config_t * config , bool is_flash , uint8_t * out_array )
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{
uint32_t config_idx = 0 ;
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uint8_t read_data [ MSPI_TIMING_TEST_DATA_LEN ] = { 0 } ;
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for ( config_idx = 0 ; config_idx < config - > available_config_num ; config_idx + + ) {
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memset ( read_data , 0 , MSPI_TIMING_TEST_DATA_LEN ) ;
# if MSPI_TIMING_FLASH_NEEDS_TUNING
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if ( is_flash ) {
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mspi_timing_config_flash_set_tuning_regs ( & ( config - > tuning_config_table [ config_idx ] ) ) ;
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mspi_timing_config_flash_read_data ( read_data , MSPI_TIMING_FLASH_TEST_DATA_ADDR , sizeof ( read_data ) ) ;
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}
# endif
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# if MSPI_TIMING_PSRAM_NEEDS_TUNING
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if ( ! is_flash ) {
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mspi_timing_config_psram_set_tuning_regs ( & ( config - > tuning_config_table [ config_idx ] ) ) ;
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mspi_timing_config_psram_read_data ( read_data , MSPI_TIMING_PSRAM_TEST_DATA_ADDR , MSPI_TIMING_TEST_DATA_LEN ) ;
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}
# endif
if ( memcmp ( reference_data , read_data , sizeof ( read_data ) ) = = 0 ) {
out_array [ config_idx ] = 1 ;
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ESP_EARLY_LOGD ( TAG , " %d, good " , config_idx ) ;
} else {
ESP_EARLY_LOGD ( TAG , " %d, bad " , config_idx ) ;
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}
}
}
/**
* Find consecutive successful sampling points .
* e . g . array : { 1 , 1 , 0 , 0 , 1 , 1 , 1 , 0 }
* out_length : 3
* outout_end_index : 6
*/
static void find_max_consecutive_success_points ( uint8_t * array , uint32_t size , uint32_t * out_length , uint32_t * out_end_index )
{
uint32_t max = 0 ;
uint32_t match_num = 0 ;
uint32_t i = 0 ;
uint32_t end = 0 ;
while ( i < size ) {
if ( array [ i ] ) {
match_num + + ;
} else {
if ( match_num > max ) {
max = match_num ;
end = i - 1 ;
}
match_num = 0 ;
}
i + + ;
}
* out_length = match_num > max ? match_num : max ;
* out_end_index = match_num = = size ? size : end ;
}
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# if (MSPI_TIMING_FLASH_DTR_MODE || MSPI_TIMING_PSRAM_DTR_MODE) && (MSPI_TIMING_CORE_CLOCK_MHZ == 240)
static bool get_working_pll_freq ( const uint8_t * reference_data , bool is_flash , uint32_t * out_max_freq , uint32_t * out_min_freq )
{
uint8_t read_data [ MSPI_TIMING_TEST_DATA_LEN ] = { 0 } ;
rtc_cpu_freq_config_t previous_config ;
rtc_clk_cpu_freq_get_config ( & previous_config ) ;
uint32_t big_num = MSPI_TIMING_PLL_FREQ_SCAN_RANGE_MHZ_MAX * 2 ; //This number should be larger than MSPI_TIMING_PLL_FREQ_SCAN_RANGE_MHZ_MAX, for error handling
uint32_t max_freq = 0 ;
uint32_t min_freq = big_num ;
rtc_xtal_freq_t xtal_freq = rtc_clk_xtal_freq_get ( ) ;
//BBPLL CALIBRATION START
regi2c_ctrl_ll_bbpll_calibration_start ( ) ;
for ( int pll_mhz_tuning = MSPI_TIMING_PLL_FREQ_SCAN_RANGE_MHZ_MIN ; pll_mhz_tuning < = MSPI_TIMING_PLL_FREQ_SCAN_RANGE_MHZ_MAX ; pll_mhz_tuning + = 8 ) {
/**
* pll_mhz = xtal_mhz * ( oc_div + 4 ) / ( oc_ref_div + 1 )
*/
clk_ll_bbpll_set_frequency_for_mspi_tuning ( xtal_freq , pll_mhz_tuning , ( ( pll_mhz_tuning / 4 ) - 4 ) , 9 ) ;
memset ( read_data , 0 , MSPI_TIMING_TEST_DATA_LEN ) ;
if ( is_flash ) {
mspi_timing_config_flash_read_data ( read_data , MSPI_TIMING_FLASH_TEST_DATA_ADDR , MSPI_TIMING_TEST_DATA_LEN ) ;
} else {
mspi_timing_config_psram_read_data ( read_data , MSPI_TIMING_PSRAM_TEST_DATA_ADDR , MSPI_TIMING_TEST_DATA_LEN ) ;
}
if ( memcmp ( read_data , reference_data , MSPI_TIMING_TEST_DATA_LEN ) = = 0 ) {
max_freq = MAX ( pll_mhz_tuning , max_freq ) ;
min_freq = MIN ( pll_mhz_tuning , min_freq ) ;
//Continue to find successful cases
continue ;
}
if ( max_freq ! = 0 ) {
//The first fail case after successful case(s) is the end
break ;
}
//If no break, no successful case found, continue to find successful cases
}
//restore PLL config
clk_ll_bbpll_set_freq_mhz ( previous_config . source_freq_mhz ) ;
clk_ll_bbpll_set_config ( previous_config . source_freq_mhz , xtal_freq ) ;
//WAIT CALIBRATION DONE
while ( ! regi2c_ctrl_ll_bbpll_calibration_is_done ( ) ) ;
//BBPLL CALIBRATION STOP
regi2c_ctrl_ll_bbpll_calibration_stop ( ) ;
* out_max_freq = max_freq ;
* out_min_freq = min_freq ;
return ( max_freq ! = 0 ) ;
}
# endif //Frequency Scanning
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# if MSPI_TIMING_FLASH_DTR_MODE || MSPI_TIMING_PSRAM_DTR_MODE
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static uint32_t select_best_tuning_config_dtr ( mspi_timing_config_t * config , uint32_t consecutive_length , uint32_t end , const uint8_t * reference_data , bool is_flash )
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{
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# if (MSPI_TIMING_CORE_CLOCK_MHZ == 160)
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//Core clock 160M DTR best point scheme
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( void ) reference_data ;
( void ) is_flash ;
uint32_t best_point = 0 ;
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//These numbers will probably be same on other chips, if this version of algorithm is utilised
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if ( consecutive_length < = 2 | | consecutive_length > = 6 ) {
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//tuning is FAIL, select default point, and generate a warning
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best_point = config - > default_config_id ;
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ESP_EARLY_LOGW ( TAG , " tuning fail, best point is fallen back to index %d " , best_point ) ;
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} else if ( consecutive_length < = 4 ) {
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//consecutive length : 3 or 4
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best_point = end - 1 ;
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ESP_EARLY_LOGD ( TAG , " tuning success, best point is index %d " , best_point ) ;
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} else {
//consecutive point list length equals 5
best_point = end - 2 ;
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ESP_EARLY_LOGD ( TAG , " tuning success, best point is index %d " , best_point ) ;
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}
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return best_point ;
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# elif (MSPI_TIMING_CORE_CLOCK_MHZ == 240)
uint32_t best_point = 0 ;
uint32_t current_point = end + 1 - consecutive_length ;
bool ret = false ;
//This `max_freq` is the max pll frequency that per MSPI timing tuning config can work
uint32_t max_freq = 0 ;
uint32_t temp_max_freq = 0 ;
uint32_t temp_min_freq = 0 ;
for ( ; current_point < = end ; current_point + + ) {
if ( is_flash ) {
mspi_timing_config_flash_set_tuning_regs ( & ( config - > tuning_config_table [ current_point ] ) ) ;
} else {
mspi_timing_config_psram_set_tuning_regs ( & ( config - > tuning_config_table [ current_point ] ) ) ;
}
ret = get_working_pll_freq ( reference_data , is_flash , & temp_max_freq , & temp_min_freq ) ;
if ( ret & & temp_min_freq < = MSPI_TIMING_PLL_FREQ_SCAN_THRESH_MHZ_LOW & & temp_max_freq > = MSPI_TIMING_PLL_FREQ_SCAN_THRESH_MHZ_HIGH & & temp_max_freq > max_freq ) {
max_freq = temp_max_freq ;
best_point = current_point ;
}
ESP_EARLY_LOGD ( TAG , " sample point %d, max pll is %d mhz, min pll is %d \n " , current_point , temp_max_freq , temp_min_freq ) ;
}
if ( max_freq = = 0 ) {
ESP_EARLY_LOGW ( TAG , " freq scan tuning fail, best point is fallen back to index %d " , end + 1 - consecutive_length ) ;
best_point = end + 1 - consecutive_length ;
} else {
ESP_EARLY_LOGD ( TAG , " freq scan success, max pll is %dmhz, best point is index %d " , max_freq , best_point ) ;
}
return best_point ;
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# else
//won't reach here
abort ( ) ;
# endif
}
# endif
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# if MSPI_TIMING_FLASH_STR_MODE || MSPI_TIMING_PSRAM_STR_MODE
static uint32_t select_best_tuning_config_str ( mspi_timing_config_t * config , uint32_t consecutive_length , uint32_t end )
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{
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# if (MSPI_TIMING_CORE_CLOCK_MHZ == 120 || MSPI_TIMING_CORE_CLOCK_MHZ == 240)
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ESP_EARLY_LOGW ( " FLASH/PSRAM " , " DO NOT USE FOR MASS PRODUCTION! Timing parameters may be updated in future IDF version. " ) ;
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//STR best point scheme
uint32_t best_point ;
if ( consecutive_length < = 2 | | consecutive_length > = 5 ) {
//tuning is FAIL, select default point, and generate a warning
best_point = config - > default_config_id ;
ESP_EARLY_LOGW ( TAG , " tuning fail, best point is fallen back to index %d " , best_point ) ;
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} else {
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//consecutive length : 3 or 4
best_point = end - consecutive_length / 2 ;
ESP_EARLY_LOGD ( TAG , " tuning success, best point is index %d " , best_point ) ;
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}
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return best_point ;
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# else
//won't reach here
abort ( ) ;
# endif
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}
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# endif
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static void select_best_tuning_config ( mspi_timing_config_t * config , uint32_t consecutive_length , uint32_t end , const uint8_t * reference_data , bool is_flash )
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{
uint32_t best_point = 0 ;
if ( is_flash ) {
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# if MSPI_TIMING_FLASH_DTR_MODE
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best_point = select_best_tuning_config_dtr ( config , consecutive_length , end , reference_data , is_flash ) ;
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# elif MSPI_TIMING_FLASH_STR_MODE
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best_point = select_best_tuning_config_str ( config , consecutive_length , end ) ;
# endif
s_flash_best_timing_tuning_config = config - > tuning_config_table [ best_point ] ;
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ESP_EARLY_LOGI ( TAG , " Flash timing tuning index: %d " , best_point ) ;
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} else {
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# if MSPI_TIMING_PSRAM_DTR_MODE
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best_point = select_best_tuning_config_dtr ( config , consecutive_length , end , reference_data , is_flash ) ;
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# elif MSPI_TIMING_PSRAM_STR_MODE
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best_point = select_best_tuning_config_str ( config , consecutive_length , end ) ;
# endif
s_psram_best_timing_tuning_config = config - > tuning_config_table [ best_point ] ;
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ESP_EARLY_LOGI ( TAG , " PSRAM timing tuning index: %d " , best_point ) ;
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}
}
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static void do_tuning ( const uint8_t * reference_data , mspi_timing_config_t * timing_config , bool is_flash )
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{
/**
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* We use SPI1 to tune the timing :
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* 1. Get all SPI1 sampling results .
* 2. Find the longest consecutive successful sampling points from the result above .
* 3. The middle one will be the best sampling point .
*/
uint32_t consecutive_length = 0 ;
uint32_t last_success_point = 0 ;
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uint8_t sample_result [ MSPI_TIMING_CONFIG_NUM_DEFAULT ] = { 0 } ;
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init_spi1_for_tuning ( is_flash ) ;
sweep_for_success_sample_points ( reference_data , timing_config , is_flash , sample_result ) ;
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find_max_consecutive_success_points ( sample_result , MSPI_TIMING_CONFIG_NUM_DEFAULT , & consecutive_length , & last_success_point ) ;
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select_best_tuning_config ( timing_config , consecutive_length , last_success_point , reference_data , is_flash ) ;
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}
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# endif //#if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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/*------------------------------------------------------------------------------
* FLASH Timing Tuning
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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# if MSPI_TIMING_FLASH_NEEDS_TUNING
static void get_flash_tuning_configs ( mspi_timing_config_t * config )
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{
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# if MSPI_TIMING_FLASH_DTR_MODE
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# define FLASH_MODE DTR_MODE
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# else //MSPI_TIMING_FLASH_STR_MODE
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# define FLASH_MODE STR_MODE
# endif
# if CONFIG_ESPTOOLPY_FLASHFREQ_20M
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* config = MSPI_TIMING_FLASH_GET_TUNING_CONFIG ( MSPI_TIMING_CORE_CLOCK_MHZ , 20 , FLASH_MODE ) ;
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# elif CONFIG_ESPTOOLPY_FLASHFREQ_40M
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* config = MSPI_TIMING_FLASH_GET_TUNING_CONFIG ( MSPI_TIMING_CORE_CLOCK_MHZ , 40 , FLASH_MODE ) ;
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# elif CONFIG_ESPTOOLPY_FLASHFREQ_80M
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* config = MSPI_TIMING_FLASH_GET_TUNING_CONFIG ( MSPI_TIMING_CORE_CLOCK_MHZ , 80 , FLASH_MODE ) ;
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# elif CONFIG_ESPTOOLPY_FLASHFREQ_120M
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* config = MSPI_TIMING_FLASH_GET_TUNING_CONFIG ( MSPI_TIMING_CORE_CLOCK_MHZ , 120 , FLASH_MODE ) ;
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# endif
# undef FLASH_MODE
}
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void mspi_timing_flash_tuning ( void )
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{
/**
* set SPI01 related regs to 20 mhz configuration , to get reference data from FLASH
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* see detailed comments in this function ( ` mspi_timing_enter_low_speed_mode ` )
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*/
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mspi_timing_enter_low_speed_mode ( true ) ;
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//Disable the variable dummy mode when doing timing tuning
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mspi_timing_ll_enable_flash_variable_dummy ( 1 , false ) ; //GD flash will read error in variable mode with 20MHz
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uint8_t reference_data [ MSPI_TIMING_TEST_DATA_LEN ] = { 0 } ;
mspi_timing_config_flash_read_data ( reference_data , MSPI_TIMING_FLASH_TEST_DATA_ADDR , sizeof ( reference_data ) ) ;
mspi_timing_config_t timing_configs = { 0 } ;
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get_flash_tuning_configs ( & timing_configs ) ;
do_tuning ( reference_data , & timing_configs , true ) ;
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mspi_timing_enter_high_speed_mode ( true ) ;
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}
# else
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void mspi_timing_flash_tuning ( void )
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{
//Empty function for compatibility, therefore upper layer won't need to know that FLASH in which operation mode and frequency config needs to be tuned
}
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# endif //MSPI_TIMING_FLASH_NEEDS_TUNING
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/*------------------------------------------------------------------------------
* PSRAM Timing Tuning
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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# if MSPI_TIMING_PSRAM_NEEDS_TUNING
static void get_psram_tuning_configs ( mspi_timing_config_t * config )
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{
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# if MSPI_TIMING_PSRAM_DTR_MODE
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# define PSRAM_MODE DTR_MODE
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# else //MSPI_TIMING_PSRAM_STR_MODE
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# define PSRAM_MODE STR_MODE
# endif
# if CONFIG_SPIRAM_SPEED_40M
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* config = MSPI_TIMING_PSRAM_GET_TUNING_CONFIG ( MSPI_TIMING_CORE_CLOCK_MHZ , 40 , PSRAM_MODE ) ;
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# elif CONFIG_SPIRAM_SPEED_80M
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* config = MSPI_TIMING_PSRAM_GET_TUNING_CONFIG ( MSPI_TIMING_CORE_CLOCK_MHZ , 80 , PSRAM_MODE ) ;
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# elif CONFIG_SPIRAM_SPEED_120M
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* config = MSPI_TIMING_PSRAM_GET_TUNING_CONFIG ( MSPI_TIMING_CORE_CLOCK_MHZ , 120 , PSRAM_MODE ) ;
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# endif
# undef PSRAM_MODE
}
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void mspi_timing_psram_tuning ( void )
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{
/**
* set SPI01 related regs to 20 mhz configuration , to write reference data to PSRAM
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* see detailed comments in this function ( ` mspi_timing_enter_low_speed_mode ` )
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*/
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mspi_timing_enter_low_speed_mode ( true ) ;
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// write data into psram, used to do timing tuning test.
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uint8_t reference_data [ MSPI_TIMING_TEST_DATA_LEN ] ;
for ( int i = 0 ; i < MSPI_TIMING_TEST_DATA_LEN / 4 ; i + + ) {
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( ( uint32_t * ) reference_data ) [ i ] = 0xa5ff005a ;
}
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mspi_timing_config_psram_write_data ( reference_data , MSPI_TIMING_PSRAM_TEST_DATA_ADDR , MSPI_TIMING_TEST_DATA_LEN ) ;
mspi_timing_config_t timing_configs = { 0 } ;
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get_psram_tuning_configs ( & timing_configs ) ;
//Disable the variable dummy mode when doing timing tuning
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mspi_timing_ll_enable_flash_variable_dummy ( 1 , false ) ;
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//Get required config, and set them to PSRAM related registers
do_tuning ( reference_data , & timing_configs , false ) ;
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mspi_timing_enter_high_speed_mode ( true ) ;
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}
# else
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void mspi_timing_psram_tuning ( void )
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{
//Empty function for compatibility, therefore upper layer won't need to know that FLASH in which operation mode and frequency config needs to be tuned
}
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# endif //MSPI_TIMING_PSRAM_NEEDS_TUNING
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/*------------------------------------------------------------------------------
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* APIs to make SPI0 ( and SPI1 ) FLASH work for high / low freq
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* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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# if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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static void clear_timing_tuning_regs ( bool control_spi1 )
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{
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mspi_timing_config_flash_set_din_mode_num ( 0 , 0 , 0 ) ; //SPI0 and SPI1 share the registers for flash din mode and num setting, so we only set SPI0's reg
mspi_timing_config_flash_set_extra_dummy ( 0 , 0 ) ;
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if ( control_spi1 ) {
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mspi_timing_config_flash_set_extra_dummy ( 1 , 0 ) ;
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} else {
//Won't touch SPI1 registers
}
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mspi_timing_config_psram_set_din_mode_num ( 0 , 0 , 0 ) ;
mspi_timing_config_psram_set_extra_dummy ( 0 , 0 ) ;
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}
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# endif //#if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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void mspi_timing_enter_low_speed_mode ( bool control_spi1 )
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{
/**
* Here we are going to slow the SPI1 frequency to 20 Mhz , so we need to set SPI1 din_num and din_mode regs .
*
* Because SPI0 and SPI1 share the din_num and din_mode regs , so if we clear SPI1 din_num and din_mode to
* 0 , if the SPI0 flash module clock is still in high freq , it may not work correctly .
*
* Therefore , here we need to slow both the SPI0 and SPI1 and related timing tuning regs to 20 Mhz configuration .
*/
//Switch SPI1 and SPI0 clock as 20MHz, set its SPIMEM core clock as 80M and set clock division as 4
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mspi_timing_config_set_core_clock ( 0 , MSPI_TIMING_CONFIG_CORE_CLOCK_80M ) ; //SPI0 and SPI1 share the register for core clock. So we only set SPI0 here.
mspi_timing_config_set_flash_clock ( 0 , 4 ) ;
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if ( control_spi1 ) {
//After tuning, won't touch SPI1 again
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mspi_timing_config_set_flash_clock ( 1 , 4 ) ;
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}
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//Set PSRAM module clock
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mspi_timing_config_set_psram_clock ( 0 , 4 ) ;
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# if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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clear_timing_tuning_regs ( control_spi1 ) ;
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# endif
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}
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# if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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static void set_timing_tuning_regs_as_required ( bool control_spi1 )
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{
//SPI0 and SPI1 share the registers for flash din mode and num setting, so we only set SPI0's reg
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mspi_timing_config_flash_set_din_mode_num ( 0 , s_flash_best_timing_tuning_config . spi_din_mode , s_flash_best_timing_tuning_config . spi_din_num ) ;
mspi_timing_config_flash_set_extra_dummy ( 0 , s_flash_best_timing_tuning_config . extra_dummy_len ) ;
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if ( control_spi1 ) {
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mspi_timing_config_flash_set_extra_dummy ( 1 , s_flash_best_timing_tuning_config . extra_dummy_len ) ;
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}
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mspi_timing_config_psram_set_din_mode_num ( 0 , s_psram_best_timing_tuning_config . spi_din_mode , s_psram_best_timing_tuning_config . spi_din_num ) ;
mspi_timing_config_psram_set_extra_dummy ( 0 , s_psram_best_timing_tuning_config . extra_dummy_len ) ;
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}
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# endif //#if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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/**
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* Set SPI0 FLASH and PSRAM module clock , din_num , din_mode and extra dummy ,
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* according to the configuration got from timing tuning function ( ` calculate_best_flash_tuning_config ` ) .
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* iF control_spi1 = = 1 , will also update SPI1 timing registers . Should only be set to 1 when do tuning .
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*
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* This function should always be called after ` mspi_timing_flash_tuning ` or ` calculate_best_flash_tuning_config `
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*/
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void mspi_timing_enter_high_speed_mode ( bool control_spi1 )
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{
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mspi_timing_config_core_clock_t core_clock = get_mspi_core_clock ( ) ;
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uint32_t flash_div = get_flash_clock_divider ( ) ;
uint32_t psram_div = get_psram_clock_divider ( ) ;
//Set SPI01 core clock
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mspi_timing_config_set_core_clock ( 0 , core_clock ) ; //SPI0 and SPI1 share the register for core clock. So we only set SPI0 here.
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//Set FLASH module clock
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mspi_timing_config_set_flash_clock ( 0 , flash_div ) ;
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if ( control_spi1 ) {
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mspi_timing_config_set_flash_clock ( 1 , flash_div ) ;
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}
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//Set PSRAM module clock
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mspi_timing_config_set_psram_clock ( 0 , psram_div ) ;
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# if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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set_timing_tuning_regs_as_required ( true ) ;
# endif
}
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void mspi_timing_change_speed_mode_cache_safe ( bool switch_down )
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{
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Cache_Freeze_ICache_Enable ( CACHE_FREEZE_ACK_BUSY ) ;
Cache_Freeze_DCache_Enable ( CACHE_FREEZE_ACK_BUSY ) ;
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if ( switch_down ) {
//enter MSPI low speed mode, extra delays should be removed
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mspi_timing_enter_low_speed_mode ( false ) ;
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} else {
//enter MSPI high speed mode, extra delays should be considered
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mspi_timing_enter_high_speed_mode ( false ) ;
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}
Cache_Freeze_DCache_Disable ( ) ;
Cache_Freeze_ICache_Disable ( ) ;
}
/*------------------------------------------------------------------------------
* APIs to inform SPI1 Flash driver of necessary timing configurations
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
bool spi_timing_is_tuned ( void )
{
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# if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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return true ;
# else
return false ;
# endif
}
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# if MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING
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void spi_timing_get_flash_timing_param ( spi_flash_hal_timing_config_t * out_timing_config )
{
// Get clock configuration directly from system.
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out_timing_config - > clock_config . spimem = mspi_timing_config_get_flash_clock_reg ( ) ;
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// Get extra dummy length here. Therefore, no matter what freq, or mode.
// If it needs tuning, it will return correct extra dummy len. If no tuning, it will return 0.
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out_timing_config - > extra_dummy = s_flash_best_timing_tuning_config . extra_dummy_len ;
// Get CS setup/hold value here.
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mspi_timing_config_get_cs_timing ( & out_timing_config - > cs_setup , & out_timing_config - > cs_hold ) ;
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}
# else
void spi_timing_get_flash_timing_param ( spi_flash_hal_timing_config_t * out_timing_config )
{
// This function shouldn't be called if timing tuning is not used.
abort ( ) ;
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}
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# endif // MSPI_TIMING_FLASH_NEEDS_TUNING || MSPI_TIMING_PSRAM_NEEDS_TUNING