/* * SPDX-FileCopyrightText: 2020-2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include #include "sdkconfig.h" #include "esp_err.h" #include "esp_log.h" #include "spi_flash_defs.h" #include "esp_rom_sys.h" #include "esp_rom_spiflash.h" #include "spi_flash_override.h" // TODO: These dependencies will be removed after remove bootloader_flash to G0.IDF-4609 #include "bootloader_flash_override.h" #include "bootloader_flash_priv.h" /******************************************************************************* * Flash high speed performance mode. * HPM: High performance mode. * HPF: High performance flag. * * Different flash chips might have different high performance strategy. * 1. Some flash chips send A3H to enable the HPM. * 2. Some flash chips write HPF bit in status register. * 3. Some flash chips adjust dummy cycles. ******************************************************************************/ #if CONFIG_ESPTOOLPY_FLASHFREQ_120M #define FLASH_FREQUENCY 120 #elif CONFIG_ESPTOOLPY_FLASHFREQ_80M #define FLASH_FREQUENCY 80 #elif CONFIG_ESPTOOLPY_FLASHFREQ_40M #define FLASH_FREQUENCY 40 #elif CONFIG_ESPTOOLPY_FLASHFREQ_20M #define FLASH_FREQUENCY 20 #endif const static char *HPM_TAG = "flash HPM"; // TODO: This function will be changed after remove bootloader_flash to G0.IDF-4609 extern uint32_t bootloader_flash_execute_command_common( uint8_t command, uint32_t addr_len, uint32_t address, uint8_t dummy_len, uint8_t mosi_len, uint32_t mosi_data, uint8_t miso_len); extern uint32_t IRAM_ATTR bootloader_flash_read_sfdp(uint32_t sfdp_addr, unsigned int miso_byte_num); //-----------------For flash chips which enter HPM via command-----------------------// /** * @brief Probe the chip whether use command to enable HPM mode. Take GD as an example: * Some GD send 0xA3 command to enable HPM mode of the flash. */ static esp_err_t spi_flash_hpm_probe_chip_with_cmd(uint32_t flash_id) { esp_err_t ret = ESP_OK; switch (flash_id) { /* The flash listed here should enter the HPM with command 0xA3 */ case 0xC84016: case 0xC84017: // Read BYTE4 in SFDP, 0 means C series, 6 means E series uint32_t gd_sfdp = bootloader_flash_read_sfdp(0x4, 1); if (gd_sfdp == 0x0) { break; } else { ret = ESP_ERR_NOT_FOUND; break; } default: ret = ESP_ERR_NOT_FOUND; break; } return ret; } static spi_flash_requirement_t spi_flash_hpm_chip_hpm_requirement_check_with_cmd(uint32_t flash_id, uint32_t freq_mhz, int voltage_mv, int temperautre) { // voltage and temperature are not been used now, to be completed in the future. (void)voltage_mv; (void)temperautre; spi_flash_requirement_t chip_cap = SPI_FLASH_HPM_UNNEEDED; if (freq_mhz > 80) { chip_cap = SPI_FLASH_HPM_CMD_NEEDED; } ESP_EARLY_LOGD(HPM_TAG, "HPM with command, status is %d", chip_cap); return chip_cap; } /** * @brief Send HPMEN command (A3H) */ static void spi_flash_enable_high_performance_send_cmd(void) { uint32_t dummy = 24; bootloader_flash_execute_command_common(CMD_HPMEN, 0, 0, dummy, 0, 0, 0); // Delay for T(HPM) refering to datasheet. esp_rom_delay_us(20); } /** * @brief Check whether flash HPM has been enabled. According to flash datasheets, majorities of * HPF bit are at bit-5, sr-3. But some are not. Therefore, this function is only used for those * HPF bit is at bit-5, sr-3. */ static esp_err_t spi_flash_high_performance_check_hpf_bit_5(void) { if((bootloader_read_status_8b_rdsr3() & (1 << 4)) == 0) { return ESP_FAIL; } return ESP_OK; } //-----------------For flash chips which enter HPM via adjust dummy-----------------------// /** * @brief Probe the chip whether adjust dummy to enable HPM mode. Take XMC as an example: * Adjust dummy bits to enable HPM mode of the flash. If XMC works under 80MHz, the dummy bits * might be 6, but when works under 120MHz, the dummy bits might be 10. */ static esp_err_t spi_flash_hpm_probe_chip_with_dummy(uint32_t flash_id) { esp_err_t ret = ESP_OK; switch (flash_id) { /* The flash listed here should enter the HPM by adjusting dummy cycles */ // XMC chips. case 0x204017: case 0x204018: break; // GD chips. case 0xC84017: case 0xC84018: // Read BYTE4 in SFDP, 0 means C series, 6 means E series uint32_t gd_sfdp = bootloader_flash_read_sfdp(0x4, 1); if (gd_sfdp == 0x6) { break; } else { ret = ESP_ERR_NOT_FOUND; break; } default: ret = ESP_ERR_NOT_FOUND; break; } return ret; } static spi_flash_requirement_t spi_flash_hpm_chip_hpm_requirement_check_with_dummy(uint32_t flash_id, uint32_t freq_mhz, int voltage_mv, int temperautre) { // voltage and temperature are not been used now, to be completed in the future. (void)voltage_mv; (void)temperautre; spi_flash_requirement_t chip_cap = SPI_FLASH_HPM_UNNEEDED; if (freq_mhz >= 104) { chip_cap = SPI_FLASH_HPM_DUMMY_NEEDED; } ESP_EARLY_LOGD(HPM_TAG, "HPM with dummy, status is %d", chip_cap); return chip_cap; } /** * @brief Adjust dummy cycles. This function modifies the Dummy Cycle Bits in SR3. * Usually, the bits are at bit-0, bit-1, sr-3 and set DC[1:0]=[1,1]. * * @note Don't forget to adjust dummy configurations for MSPI, you can get the * correct dummy from interface `spi_flash_hpm_get_dummy`. */ static void spi_flash_turn_high_performance_reconfig_dummy(void) { uint8_t old_status_3 = bootloader_read_status_8b_rdsr3(); uint8_t new_status = (old_status_3 | 0x03); bootloader_execute_flash_command(CMD_WRENVSR, 0, 0, 0); bootloader_write_status_8b_wrsr3(new_status); esp_rom_spiflash_wait_idle(&g_rom_flashchip); } /** * @brief Check whether HPM has been enabled. This function checks the DC bits */ static esp_err_t spi_flash_high_performance_check_dummy_sr(void) { if((bootloader_read_status_8b_rdsr3() & 0x03) == 0) { return ESP_FAIL; } return ESP_OK; } static void spi_flash_hpm_get_dummy_xmc(spi_flash_hpm_dummy_conf_t *dummy_conf) { dummy_conf->dio_dummy = SPI_FLASH_DIO_HPM_DUMMY_BITLEN; dummy_conf->dout_dummy = SPI_FLASH_DOUT_DUMMY_BITLEN; dummy_conf->qio_dummy = SPI_FLASH_QIO_HPM_DUMMY_BITLEN; dummy_conf->qout_dummy = SPI_FLASH_QOUT_DUMMY_BITLEN; dummy_conf->fastrd_dummy = SPI_FLASH_FASTRD_DUMMY_BITLEN; } //-----------------For flash chips which enter HPM via write status register-----------------------// /** * @brief Probe the chip whether to write status register to enable HPM mode. Take ZB as an example: * Write status register bits to enable HPM mode of the flash. If ZB works under 80MHz, the register value * would be 0, but when works under 120MHz, the register value would be 1. */ static esp_err_t spi_flash_hpm_probe_chip_with_write_hpf_bit_5(uint32_t flash_id) { esp_err_t ret = ESP_OK; switch (flash_id) { /* The flash listed here should enter the HPM by adjusting dummy cycles */ // ZB chips. case 0x5E4016: break; default: ret = ESP_ERR_NOT_FOUND; break; } return ret; } static spi_flash_requirement_t spi_flash_hpm_chip_require_check_hpf_bit_5(uint32_t flash_id, uint32_t freq_mhz, int voltage_mv, int temperautre) { // voltage and temperature are not been used now, to be completed in the future. (void)voltage_mv; (void)temperautre; spi_flash_requirement_t chip_cap = SPI_FLASH_HPM_UNNEEDED; if (freq_mhz >= 104) { chip_cap = SPI_FLASH_HPM_WRITE_SR_NEEDED; } ESP_EARLY_LOGD(HPM_TAG, "HPM with dummy, status is %d", chip_cap); return chip_cap; } /** * @brief Write bit 5 in status 3 */ static void spi_flash_turn_high_performance_write_hpf_bit_5(void) { uint8_t old_status_3 = bootloader_read_status_8b_rdsr3(); uint8_t new_status = (old_status_3 | 0x10); bootloader_execute_flash_command(CMD_WRENVSR, 0, 0, 0); bootloader_write_status_8b_wrsr3(new_status); esp_rom_spiflash_wait_idle(&g_rom_flashchip); } //-----------------------generic functions-------------------------------------// /** * @brief Default dummy for almost all flash chips. If your flash does't need to reconfigure dummy, * just call this function. */ void __attribute__((weak)) spi_flash_hpm_get_dummy_generic(spi_flash_hpm_dummy_conf_t *dummy_conf) { dummy_conf->dio_dummy = SPI_FLASH_DIO_DUMMY_BITLEN; dummy_conf->dout_dummy = SPI_FLASH_DOUT_DUMMY_BITLEN; dummy_conf->qio_dummy = SPI_FLASH_QIO_DUMMY_BITLEN; dummy_conf->qout_dummy = SPI_FLASH_QOUT_DUMMY_BITLEN; dummy_conf->fastrd_dummy = SPI_FLASH_FASTRD_DUMMY_BITLEN; } const spi_flash_hpm_info_t __attribute__((weak)) spi_flash_hpm_enable_list[] = { /* vendor, chip_id, freq_threshold, temperature threshold, operation for setting high performance, reading HPF status, get dummy */ { "command", spi_flash_hpm_probe_chip_with_cmd, spi_flash_hpm_chip_hpm_requirement_check_with_cmd, spi_flash_enable_high_performance_send_cmd, spi_flash_high_performance_check_hpf_bit_5, spi_flash_hpm_get_dummy_generic }, { "dummy", spi_flash_hpm_probe_chip_with_dummy, spi_flash_hpm_chip_hpm_requirement_check_with_dummy, spi_flash_turn_high_performance_reconfig_dummy, spi_flash_high_performance_check_dummy_sr, spi_flash_hpm_get_dummy_xmc}, { "write sr3-bit5", spi_flash_hpm_probe_chip_with_write_hpf_bit_5, spi_flash_hpm_chip_require_check_hpf_bit_5, spi_flash_turn_high_performance_write_hpf_bit_5, spi_flash_high_performance_check_hpf_bit_5, spi_flash_hpm_get_dummy_generic}, // default: do nothing, but keep the dummy get function. The first item with NULL as its probe will be the fallback. { "NULL", NULL, NULL, NULL, NULL, spi_flash_hpm_get_dummy_generic}, }; static const spi_flash_hpm_info_t *chip_hpm = NULL; static spi_flash_hpm_dummy_conf_t dummy_conf; static bool hpm_dummy_changed = false; esp_err_t spi_flash_enable_high_performance_mode(void) { uint32_t flash_chip_id = g_rom_flashchip.device_id; uint32_t flash_freq = FLASH_FREQUENCY; spi_flash_requirement_t hpm_requirement_check; // voltage and temperature has not been implemented, just leave an interface here. Complete in the future. int voltage = 0; int temperature = 0; const spi_flash_hpm_info_t *chip = spi_flash_hpm_enable_list; esp_err_t ret = ESP_OK; while (chip->probe) { ret = chip->probe(flash_chip_id); if (ret == ESP_OK) { break; } chip++; } chip_hpm = chip; if (ret != ESP_OK) { #if (FLASH_FREQUENCY == 120) ESP_EARLY_LOGW(HPM_TAG, "Flash high performance mode hasn't been supported"); #endif return ret; } hpm_requirement_check = chip_hpm->chip_hpm_requirement_check(flash_chip_id, flash_freq, voltage, temperature); if ((hpm_requirement_check == SPI_FLASH_HPM_CMD_NEEDED) || (hpm_requirement_check == SPI_FLASH_HPM_DUMMY_NEEDED) || (hpm_requirement_check == SPI_FLASH_HPM_WRITE_SR_NEEDED)) { ESP_EARLY_LOGI(HPM_TAG, "Enabling flash high speed mode by %s", chip_hpm->method); chip_hpm->flash_hpm_enable(); ESP_EARLY_LOGD(HPM_TAG, "Checking whether HPM has been executed"); if (chip_hpm->flash_hpf_check() != ESP_OK) { ESP_EARLY_LOGE(HPM_TAG, "Flash high performance mode hasn't been executed successfully"); return ESP_FAIL; } hpm_dummy_changed = (hpm_requirement_check == SPI_FLASH_HPM_DUMMY_NEEDED) ? true : false; } else if (hpm_requirement_check == SPI_FLASH_HPM_BEYOND_LIMIT) { ESP_EARLY_LOGE(HPM_TAG, "Flash does not have the ability to raise to that frequency"); return ESP_FAIL; } return ESP_OK; } const spi_flash_hpm_dummy_conf_t *spi_flash_hpm_get_dummy(void) { chip_hpm->flash_get_dummy(&dummy_conf); return &dummy_conf; } bool spi_flash_hpm_dummy_adjust(void) { return hpm_dummy_changed; }