// 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 #include "sdkconfig.h" #include "esp_efuse.h" #include #include "esp_efuse_table.h" // md5_digest_table 6256f9b7c6783e0b651bf52b5b162aa8 // This file was generated from the file esp_efuse_table.csv. DO NOT CHANGE THIS FILE MANUALLY. // If you want to change some fields, you need to change esp_efuse_table.csv file // then run `efuse_common_table` or `efuse_custom_table` command it will generate this file. // To show efuse_table run the command 'show_efuse_table'. #define MAX_BLK_LEN CONFIG_EFUSE_MAX_BLK_LEN // The last free bit in the block is counted over the entire file. #define LAST_FREE_BIT_BLK1 MAX_BLK_LEN #define LAST_FREE_BIT_BLK2 MAX_BLK_LEN #define LAST_FREE_BIT_BLK3 192 _Static_assert(LAST_FREE_BIT_BLK1 <= MAX_BLK_LEN, "The eFuse table does not match the coding scheme. Edit the table and restart the efuse_common_table or efuse_custom_table command to regenerate the new files."); _Static_assert(LAST_FREE_BIT_BLK2 <= MAX_BLK_LEN, "The eFuse table does not match the coding scheme. Edit the table and restart the efuse_common_table or efuse_custom_table command to regenerate the new files."); _Static_assert(LAST_FREE_BIT_BLK3 <= MAX_BLK_LEN, "The eFuse table does not match the coding scheme. Edit the table and restart the efuse_common_table or efuse_custom_table command to regenerate the new files."); static const esp_efuse_desc_t MAC_FACTORY[] = { {EFUSE_BLK0, 72, 8}, // Factory MAC addr [0], {EFUSE_BLK0, 64, 8}, // Factory MAC addr [1], {EFUSE_BLK0, 56, 8}, // Factory MAC addr [2], {EFUSE_BLK0, 48, 8}, // Factory MAC addr [3], {EFUSE_BLK0, 40, 8}, // Factory MAC addr [4], {EFUSE_BLK0, 32, 8}, // Factory MAC addr [5], }; static const esp_efuse_desc_t MAC_FACTORY_CRC[] = { {EFUSE_BLK0, 80, 8}, // CRC8 for factory MAC address, }; static const esp_efuse_desc_t MAC_CUSTOM_CRC[] = { {EFUSE_BLK3, 0, 8}, // CRC8 for custom MAC address., }; static const esp_efuse_desc_t MAC_CUSTOM[] = { {EFUSE_BLK3, 8, 48}, // Custom MAC, }; static const esp_efuse_desc_t MAC_CUSTOM_VER[] = { {EFUSE_BLK3, 184, 8}, // Custom MAC version, }; static const esp_efuse_desc_t SECURE_BOOT_KEY[] = { {EFUSE_BLK2, 0, MAX_BLK_LEN}, // Security boot. Key. (length = "None" - 256. "3/4" - 192. "REPEAT" - 128), }; static const esp_efuse_desc_t ABS_DONE_0[] = { {EFUSE_BLK0, 196, 1}, // Secure boot V1 is enabled for bootloader image. EFUSE_RD_ABS_DONE_0, }; static const esp_efuse_desc_t ABS_DONE_1[] = { {EFUSE_BLK0, 197, 1}, // Secure boot V2 is enabled for bootloader image. EFUSE_RD_ABS_DONE_1, }; static const esp_efuse_desc_t ENCRYPT_FLASH_KEY[] = { {EFUSE_BLK1, 0, MAX_BLK_LEN}, // Flash encrypt. Key. (length = "None" - 256. "3/4" - 192. "REPEAT" - 128), }; static const esp_efuse_desc_t ENCRYPT_CONFIG[] = { {EFUSE_BLK0, 188, 4}, // Flash encrypt. EFUSE_FLASH_CRYPT_CONFIG_M, }; static const esp_efuse_desc_t DISABLE_DL_ENCRYPT[] = { {EFUSE_BLK0, 199, 1}, // Flash encrypt. Disable UART bootloader encryption. EFUSE_DISABLE_DL_ENCRYPT., }; static const esp_efuse_desc_t DISABLE_DL_DECRYPT[] = { {EFUSE_BLK0, 200, 1}, // Flash encrypt. Disable UART bootloader decryption. EFUSE_DISABLE_DL_DECRYPT., }; static const esp_efuse_desc_t DISABLE_DL_CACHE[] = { {EFUSE_BLK0, 201, 1}, // Flash encrypt. Disable UART bootloader MMU cache. EFUSE_DISABLE_DL_CACHE., }; static const esp_efuse_desc_t FLASH_CRYPT_CNT[] = { {EFUSE_BLK0, 20, 7}, // Flash encrypt. Flash encryption is enabled if this field has an odd number of bits set. EFUSE_FLASH_CRYPT_CNT., }; static const esp_efuse_desc_t DISABLE_JTAG[] = { {EFUSE_BLK0, 198, 1}, // Disable JTAG. EFUSE_RD_DISABLE_JTAG., }; static const esp_efuse_desc_t CONSOLE_DEBUG_DISABLE[] = { {EFUSE_BLK0, 194, 1}, // Disable ROM BASIC interpreter fallback. EFUSE_RD_CONSOLE_DEBUG_DISABLE., }; static const esp_efuse_desc_t UART_DOWNLOAD_DIS[] = { {EFUSE_BLK0, 27, 1}, // Disable UART download mode. Valid for ESP32 V3 and newer, }; static const esp_efuse_desc_t WR_DIS_EFUSE_RD_DISABLE[] = { {EFUSE_BLK0, 0, 1}, // Write protection for EFUSE_RD_DISABLE, }; static const esp_efuse_desc_t WR_DIS_FLASH_CRYPT_CNT[] = { {EFUSE_BLK0, 2, 1}, // Flash encrypt. Write protection FLASH_CRYPT_CNT, }; static const esp_efuse_desc_t WR_DIS_BLK1[] = { {EFUSE_BLK0, 7, 1}, // Flash encrypt. Write protection encryption key. EFUSE_WR_DIS_BLK1, }; static const esp_efuse_desc_t WR_DIS_BLK2[] = { {EFUSE_BLK0, 8, 1}, // Security boot. Write protection security key. EFUSE_WR_DIS_BLK2, }; static const esp_efuse_desc_t WR_DIS_BLK3[] = { {EFUSE_BLK0, 9, 1}, // Write protection for EFUSE_BLK3. EFUSE_WR_DIS_BLK3, }; static const esp_efuse_desc_t RD_DIS_BLK1[] = { {EFUSE_BLK0, 16, 1}, // Flash encrypt. efuse_key_read_protected. EFUSE_RD_DIS_BLK1, }; static const esp_efuse_desc_t RD_DIS_BLK2[] = { {EFUSE_BLK0, 17, 1}, // Security boot. efuse_key_read_protected. EFUSE_RD_DIS_BLK2, }; static const esp_efuse_desc_t RD_DIS_BLK3[] = { {EFUSE_BLK0, 18, 1}, // Read protection for EFUSE_BLK3. EFUSE_RD_DIS_BLK3, }; static const esp_efuse_desc_t CHIP_VER_DIS_APP_CPU[] = { {EFUSE_BLK0, 96, 1}, // EFUSE_RD_CHIP_VER_DIS_APP_CPU, }; static const esp_efuse_desc_t CHIP_VER_DIS_BT[] = { {EFUSE_BLK0, 97, 1}, // EFUSE_RD_CHIP_VER_DIS_BT, }; static const esp_efuse_desc_t CHIP_VER_PKG[] = { {EFUSE_BLK0, 105, 3}, // EFUSE_RD_CHIP_VER_PKG least significant bits, {EFUSE_BLK0, 98, 1}, // EFUSE_RD_CHIP_VER_PKG_4BIT most significant bit, }; static const esp_efuse_desc_t CHIP_CPU_FREQ_LOW[] = { {EFUSE_BLK0, 108, 1}, // EFUSE_RD_CHIP_CPU_FREQ_LOW, }; static const esp_efuse_desc_t CHIP_CPU_FREQ_RATED[] = { {EFUSE_BLK0, 109, 1}, // EFUSE_RD_CHIP_CPU_FREQ_RATED, }; static const esp_efuse_desc_t CHIP_VER_REV1[] = { {EFUSE_BLK0, 111, 1}, // EFUSE_RD_CHIP_VER_REV1, }; static const esp_efuse_desc_t CHIP_VER_REV2[] = { {EFUSE_BLK0, 180, 1}, // EFUSE_RD_CHIP_VER_REV2, }; static const esp_efuse_desc_t WAFER_VERSION_MINOR[] = { {EFUSE_BLK0, 184, 2}, // WAFER_VERSION_MINOR, }; static const esp_efuse_desc_t XPD_SDIO_REG[] = { {EFUSE_BLK0, 142, 1}, // EFUSE_RD_XPD_SDIO_REG, }; static const esp_efuse_desc_t SDIO_TIEH[] = { {EFUSE_BLK0, 143, 1}, // EFUSE_RD_SDIO_TIEH, }; static const esp_efuse_desc_t SDIO_FORCE[] = { {EFUSE_BLK0, 144, 1}, // EFUSE_RD_SDIO_FORCE, }; static const esp_efuse_desc_t ADC_VREF_AND_SDIO_DREF[] = { {EFUSE_BLK0, 136, 6}, // EFUSE_RD_ADC_VREF[0..4] or ( SDIO_DREFH[0 1], }; static const esp_efuse_desc_t ADC1_TP_LOW[] = { {EFUSE_BLK3, 96, 7}, // TP_REG EFUSE_RD_ADC1_TP_LOW, }; static const esp_efuse_desc_t ADC2_TP_LOW[] = { {EFUSE_BLK3, 112, 7}, // TP_REG EFUSE_RD_ADC2_TP_LOW, }; static const esp_efuse_desc_t ADC1_TP_HIGH[] = { {EFUSE_BLK3, 103, 9}, // TP_REG EFUSE_RD_ADC1_TP_HIGH, }; static const esp_efuse_desc_t ADC2_TP_HIGH[] = { {EFUSE_BLK3, 119, 9}, // TP_REG EFUSE_RD_ADC2_TP_HIGH, }; static const esp_efuse_desc_t SECURE_VERSION[] = { {EFUSE_BLK3, 128, 32}, // Secure version for anti-rollback, }; const esp_efuse_desc_t* ESP_EFUSE_MAC_FACTORY[] = { &MAC_FACTORY[0], // Factory MAC addr [0] &MAC_FACTORY[1], // Factory MAC addr [1] &MAC_FACTORY[2], // Factory MAC addr [2] &MAC_FACTORY[3], // Factory MAC addr [3] &MAC_FACTORY[4], // Factory MAC addr [4] &MAC_FACTORY[5], // Factory MAC addr [5] NULL }; const esp_efuse_desc_t* ESP_EFUSE_MAC_FACTORY_CRC[] = { &MAC_FACTORY_CRC[0], // CRC8 for factory MAC address NULL }; const esp_efuse_desc_t* ESP_EFUSE_MAC_CUSTOM_CRC[] = { &MAC_CUSTOM_CRC[0], // CRC8 for custom MAC address. NULL }; const esp_efuse_desc_t* ESP_EFUSE_MAC_CUSTOM[] = { &MAC_CUSTOM[0], // Custom MAC NULL }; const esp_efuse_desc_t* ESP_EFUSE_MAC_CUSTOM_VER[] = { &MAC_CUSTOM_VER[0], // Custom MAC version NULL }; const esp_efuse_desc_t* ESP_EFUSE_SECURE_BOOT_KEY[] = { &SECURE_BOOT_KEY[0], // Security boot. Key. (length = "None" - 256. "3/4" - 192. "REPEAT" - 128) NULL }; const esp_efuse_desc_t* ESP_EFUSE_ABS_DONE_0[] = { &ABS_DONE_0[0], // Secure boot V1 is enabled for bootloader image. EFUSE_RD_ABS_DONE_0 NULL }; const esp_efuse_desc_t* ESP_EFUSE_ABS_DONE_1[] = { &ABS_DONE_1[0], // Secure boot V2 is enabled for bootloader image. EFUSE_RD_ABS_DONE_1 NULL }; const esp_efuse_desc_t* ESP_EFUSE_ENCRYPT_FLASH_KEY[] = { &ENCRYPT_FLASH_KEY[0], // Flash encrypt. Key. (length = "None" - 256. "3/4" - 192. "REPEAT" - 128) NULL }; const esp_efuse_desc_t* ESP_EFUSE_ENCRYPT_CONFIG[] = { &ENCRYPT_CONFIG[0], // Flash encrypt. EFUSE_FLASH_CRYPT_CONFIG_M NULL }; const esp_efuse_desc_t* ESP_EFUSE_DISABLE_DL_ENCRYPT[] = { &DISABLE_DL_ENCRYPT[0], // Flash encrypt. Disable UART bootloader encryption. EFUSE_DISABLE_DL_ENCRYPT. NULL }; const esp_efuse_desc_t* ESP_EFUSE_DISABLE_DL_DECRYPT[] = { &DISABLE_DL_DECRYPT[0], // Flash encrypt. Disable UART bootloader decryption. EFUSE_DISABLE_DL_DECRYPT. NULL }; const esp_efuse_desc_t* ESP_EFUSE_DISABLE_DL_CACHE[] = { &DISABLE_DL_CACHE[0], // Flash encrypt. Disable UART bootloader MMU cache. EFUSE_DISABLE_DL_CACHE. NULL }; const esp_efuse_desc_t* ESP_EFUSE_FLASH_CRYPT_CNT[] = { &FLASH_CRYPT_CNT[0], // Flash encrypt. Flash encryption is enabled if this field has an odd number of bits set. EFUSE_FLASH_CRYPT_CNT. NULL }; const esp_efuse_desc_t* ESP_EFUSE_DISABLE_JTAG[] = { &DISABLE_JTAG[0], // Disable JTAG. EFUSE_RD_DISABLE_JTAG. NULL }; const esp_efuse_desc_t* ESP_EFUSE_CONSOLE_DEBUG_DISABLE[] = { &CONSOLE_DEBUG_DISABLE[0], // Disable ROM BASIC interpreter fallback. EFUSE_RD_CONSOLE_DEBUG_DISABLE. NULL }; const esp_efuse_desc_t* ESP_EFUSE_UART_DOWNLOAD_DIS[] = { &UART_DOWNLOAD_DIS[0], // Disable UART download mode. Valid for ESP32 V3 and newer NULL }; const esp_efuse_desc_t* ESP_EFUSE_WR_DIS_EFUSE_RD_DISABLE[] = { &WR_DIS_EFUSE_RD_DISABLE[0], // Write protection for EFUSE_RD_DISABLE NULL }; const esp_efuse_desc_t* ESP_EFUSE_WR_DIS_FLASH_CRYPT_CNT[] = { &WR_DIS_FLASH_CRYPT_CNT[0], // Flash encrypt. Write protection FLASH_CRYPT_CNT NULL }; const esp_efuse_desc_t* ESP_EFUSE_WR_DIS_BLK1[] = { &WR_DIS_BLK1[0], // Flash encrypt. Write protection encryption key. EFUSE_WR_DIS_BLK1 NULL }; const esp_efuse_desc_t* ESP_EFUSE_WR_DIS_BLK2[] = { &WR_DIS_BLK2[0], // Security boot. Write protection security key. EFUSE_WR_DIS_BLK2 NULL }; const esp_efuse_desc_t* ESP_EFUSE_WR_DIS_BLK3[] = { &WR_DIS_BLK3[0], // Write protection for EFUSE_BLK3. EFUSE_WR_DIS_BLK3 NULL }; const esp_efuse_desc_t* ESP_EFUSE_RD_DIS_BLK1[] = { &RD_DIS_BLK1[0], // Flash encrypt. efuse_key_read_protected. EFUSE_RD_DIS_BLK1 NULL }; const esp_efuse_desc_t* ESP_EFUSE_RD_DIS_BLK2[] = { &RD_DIS_BLK2[0], // Security boot. efuse_key_read_protected. EFUSE_RD_DIS_BLK2 NULL }; const esp_efuse_desc_t* ESP_EFUSE_RD_DIS_BLK3[] = { &RD_DIS_BLK3[0], // Read protection for EFUSE_BLK3. EFUSE_RD_DIS_BLK3 NULL }; const esp_efuse_desc_t* ESP_EFUSE_CHIP_VER_DIS_APP_CPU[] = { &CHIP_VER_DIS_APP_CPU[0], // EFUSE_RD_CHIP_VER_DIS_APP_CPU NULL }; const esp_efuse_desc_t* ESP_EFUSE_CHIP_VER_DIS_BT[] = { &CHIP_VER_DIS_BT[0], // EFUSE_RD_CHIP_VER_DIS_BT NULL }; const esp_efuse_desc_t* ESP_EFUSE_CHIP_VER_PKG[] = { &CHIP_VER_PKG[0], // EFUSE_RD_CHIP_VER_PKG least significant bits &CHIP_VER_PKG[1], // EFUSE_RD_CHIP_VER_PKG_4BIT most significant bit NULL }; const esp_efuse_desc_t* ESP_EFUSE_CHIP_CPU_FREQ_LOW[] = { &CHIP_CPU_FREQ_LOW[0], // EFUSE_RD_CHIP_CPU_FREQ_LOW NULL }; const esp_efuse_desc_t* ESP_EFUSE_CHIP_CPU_FREQ_RATED[] = { &CHIP_CPU_FREQ_RATED[0], // EFUSE_RD_CHIP_CPU_FREQ_RATED NULL }; const esp_efuse_desc_t* ESP_EFUSE_CHIP_VER_REV1[] = { &CHIP_VER_REV1[0], // EFUSE_RD_CHIP_VER_REV1 NULL }; const esp_efuse_desc_t* ESP_EFUSE_CHIP_VER_REV2[] = { &CHIP_VER_REV2[0], // EFUSE_RD_CHIP_VER_REV2 NULL }; const esp_efuse_desc_t* ESP_EFUSE_WAFER_VERSION_MINOR[] = { &WAFER_VERSION_MINOR[0], // WAFER_VERSION_MINOR NULL }; const esp_efuse_desc_t* ESP_EFUSE_XPD_SDIO_REG[] = { &XPD_SDIO_REG[0], // EFUSE_RD_XPD_SDIO_REG NULL }; const esp_efuse_desc_t* ESP_EFUSE_SDIO_TIEH[] = { &SDIO_TIEH[0], // EFUSE_RD_SDIO_TIEH NULL }; const esp_efuse_desc_t* ESP_EFUSE_SDIO_FORCE[] = { &SDIO_FORCE[0], // EFUSE_RD_SDIO_FORCE NULL }; const esp_efuse_desc_t* ESP_EFUSE_ADC_VREF_AND_SDIO_DREF[] = { &ADC_VREF_AND_SDIO_DREF[0], // EFUSE_RD_ADC_VREF[0..4] or ( SDIO_DREFH[0 1] NULL }; const esp_efuse_desc_t* ESP_EFUSE_ADC1_TP_LOW[] = { &ADC1_TP_LOW[0], // TP_REG EFUSE_RD_ADC1_TP_LOW NULL }; const esp_efuse_desc_t* ESP_EFUSE_ADC2_TP_LOW[] = { &ADC2_TP_LOW[0], // TP_REG EFUSE_RD_ADC2_TP_LOW NULL }; const esp_efuse_desc_t* ESP_EFUSE_ADC1_TP_HIGH[] = { &ADC1_TP_HIGH[0], // TP_REG EFUSE_RD_ADC1_TP_HIGH NULL }; const esp_efuse_desc_t* ESP_EFUSE_ADC2_TP_HIGH[] = { &ADC2_TP_HIGH[0], // TP_REG EFUSE_RD_ADC2_TP_HIGH NULL }; const esp_efuse_desc_t* ESP_EFUSE_SECURE_VERSION[] = { &SECURE_VERSION[0], // Secure version for anti-rollback NULL };