/* * SPDX-FileCopyrightText: 2015-2021 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include #include "sdkconfig.h" #include "esp_log.h" #include "esp_efuse.h" #include "esp_efuse_table.h" #include "esp_flash_encrypt.h" #include "esp_secure_boot.h" #if CONFIG_IDF_TARGET_ESP32 #define CRYPT_CNT ESP_EFUSE_FLASH_CRYPT_CNT #define WR_DIS_CRYPT_CNT ESP_EFUSE_WR_DIS_FLASH_CRYPT_CNT #else #define CRYPT_CNT ESP_EFUSE_SPI_BOOT_CRYPT_CNT #define WR_DIS_CRYPT_CNT ESP_EFUSE_WR_DIS_SPI_BOOT_CRYPT_CNT #endif static const char *TAG = "flash_encrypt"; #ifndef BOOTLOADER_BUILD void esp_flash_encryption_init_checks() { esp_flash_enc_mode_t mode; #ifdef CONFIG_SECURE_FLASH_CHECK_ENC_EN_IN_APP if (!esp_flash_encryption_enabled()) { ESP_LOGE(TAG, "Flash encryption eFuse bit was not enabled in bootloader but CONFIG_SECURE_FLASH_ENC_ENABLED is on"); abort(); } #endif // CONFIG_SECURE_FLASH_CHECK_ENC_EN_IN_APP // First check is: if Release mode flash encryption & secure boot are enabled then // FLASH_CRYPT_CNT *must* be write protected. This will have happened automatically // if bootloader is IDF V4.0 or newer but may not have happened for previous ESP-IDF bootloaders. #ifdef CONFIG_SECURE_FLASH_ENCRYPTION_MODE_RELEASE #ifdef CONFIG_SECURE_BOOT if (esp_secure_boot_enabled() && esp_flash_encryption_enabled()) { bool flash_crypt_cnt_wr_dis = esp_efuse_read_field_bit(WR_DIS_CRYPT_CNT); if (!flash_crypt_cnt_wr_dis) { uint8_t flash_crypt_cnt = 0; esp_efuse_read_field_blob(CRYPT_CNT, &flash_crypt_cnt, CRYPT_CNT[0]->bit_count); if (flash_crypt_cnt == (1<<(CRYPT_CNT[0]->bit_count))-1) { // If encryption counter is already max, no need to write protect it // (this distinction is important on ESP32 ECO3 where write-procted FLASH_CRYPT_CNT also write-protects UART_DL_DIS) } else { ESP_LOGE(TAG, "Flash encryption & Secure Boot together requires FLASH_CRYPT_CNT efuse to be write protected. Fixing now..."); esp_flash_write_protect_crypt_cnt(); } } } #endif // CONFIG_SECURE_BOOT #endif // CONFIG_SECURE_FLASH_ENCRYPTION_MODE_RELEASE // Second check is to print a warning or error if the current running flash encryption mode // doesn't match the expectation from project config (due to mismatched bootloader and app, probably) mode = esp_get_flash_encryption_mode(); if (mode == ESP_FLASH_ENC_MODE_DEVELOPMENT) { #ifdef CONFIG_SECURE_FLASH_ENCRYPTION_MODE_RELEASE ESP_LOGE(TAG, "Flash encryption settings error: app is configured for RELEASE but efuses are set for DEVELOPMENT"); ESP_LOGE(TAG, "Mismatch found in security options in bootloader menuconfig and efuse settings. Device is not secure."); #else ESP_LOGW(TAG, "Flash encryption mode is DEVELOPMENT (not secure)"); #endif // CONFIG_SECURE_FLASH_ENCRYPTION_MODE_RELEASE } else if (mode == ESP_FLASH_ENC_MODE_RELEASE) { ESP_LOGI(TAG, "Flash encryption mode is RELEASE"); } } #endif // BOOTLOADER_BUILD /** * This former inlined function must not be defined in the header file anymore. * As it depends on efuse component, any use of it outside of `bootloader_support`, * would require the caller component to include `efuse` as part of its `REQUIRES` or * `PRIV_REQUIRES` entries. * Attribute IRAM_ATTR must be specified for the app build. */ bool IRAM_ATTR esp_flash_encryption_enabled(void) { uint32_t flash_crypt_cnt = 0; #ifndef CONFIG_EFUSE_VIRTUAL_KEEP_IN_FLASH flash_crypt_cnt = efuse_ll_get_flash_crypt_cnt(); #else #if CONFIG_IDF_TARGET_ESP32 esp_efuse_read_field_blob(ESP_EFUSE_FLASH_CRYPT_CNT, &flash_crypt_cnt, ESP_EFUSE_FLASH_CRYPT_CNT[0]->bit_count); #else esp_efuse_read_field_blob(ESP_EFUSE_SPI_BOOT_CRYPT_CNT, &flash_crypt_cnt, ESP_EFUSE_SPI_BOOT_CRYPT_CNT[0]->bit_count); #endif #endif /* __builtin_parity is in flash, so we calculate parity inline */ bool enabled = false; while (flash_crypt_cnt) { if (flash_crypt_cnt & 1) { enabled = !enabled; } flash_crypt_cnt >>= 1; } return enabled; } void esp_flash_write_protect_crypt_cnt(void) { esp_efuse_write_field_bit(WR_DIS_CRYPT_CNT); } esp_flash_enc_mode_t esp_get_flash_encryption_mode(void) { bool flash_crypt_cnt_wr_dis = false; esp_flash_enc_mode_t mode = ESP_FLASH_ENC_MODE_DEVELOPMENT; if (esp_flash_encryption_enabled()) { /* Check if FLASH CRYPT CNT is write protected */ flash_crypt_cnt_wr_dis = esp_efuse_read_field_bit(WR_DIS_CRYPT_CNT); if (!flash_crypt_cnt_wr_dis) { uint8_t flash_crypt_cnt = 0; esp_efuse_read_field_blob(CRYPT_CNT, &flash_crypt_cnt, CRYPT_CNT[0]->bit_count); if (flash_crypt_cnt == (1 << (CRYPT_CNT[0]->bit_count)) - 1) { flash_crypt_cnt_wr_dis = true; } } if (flash_crypt_cnt_wr_dis) { #if CONFIG_IDF_TARGET_ESP32 bool dis_dl_cache = esp_efuse_read_field_bit(ESP_EFUSE_DISABLE_DL_CACHE); bool dis_dl_enc = esp_efuse_read_field_bit(ESP_EFUSE_DISABLE_DL_ENCRYPT); bool dis_dl_dec = esp_efuse_read_field_bit(ESP_EFUSE_DISABLE_DL_DECRYPT); /* Check if DISABLE_DL_DECRYPT, DISABLE_DL_ENCRYPT & DISABLE_DL_CACHE are set */ if ( dis_dl_cache && dis_dl_enc && dis_dl_dec ) { mode = ESP_FLASH_ENC_MODE_RELEASE; } #elif CONFIG_IDF_TARGET_ESP32S2 || CONFIG_IDF_TARGET_ESP32S3 bool dis_dl_enc = esp_efuse_read_field_bit(ESP_EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT); bool dis_dl_icache = esp_efuse_read_field_bit(ESP_EFUSE_DIS_DOWNLOAD_ICACHE); bool dis_dl_dcache = esp_efuse_read_field_bit(ESP_EFUSE_DIS_DOWNLOAD_DCACHE); if (dis_dl_enc && dis_dl_icache && dis_dl_dcache) { mode = ESP_FLASH_ENC_MODE_RELEASE; } #elif CONFIG_IDF_TARGET_ESP32C2 || CONFIG_IDF_TARGET_ESP32C3 || CONFIG_IDF_TARGET_ESP32H2 bool dis_dl_enc = esp_efuse_read_field_bit(ESP_EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT); bool dis_dl_icache = esp_efuse_read_field_bit(ESP_EFUSE_DIS_DOWNLOAD_ICACHE); if (dis_dl_enc && dis_dl_icache) { mode = ESP_FLASH_ENC_MODE_RELEASE; #ifdef CONFIG_SOC_FLASH_ENCRYPTION_XTS_AES_128_DERIVED // This chip supports two types of key: AES128_DERIVED and AES128. // To be in RELEASE mode, it is important for the AES128_DERIVED key that XTS_KEY_LENGTH_256 be write-protected. bool xts_key_len_256_wr_dis = esp_efuse_read_field_bit(WR_DIS_CRYPT_CNT); mode = (xts_key_len_256_wr_dis) ? ESP_FLASH_ENC_MODE_RELEASE : ESP_FLASH_ENC_MODE_DEVELOPMENT; #endif // CONFIG_SOC_FLASH_ENCRYPTION_XTS_AES_128_DERIVED } #endif } } else { mode = ESP_FLASH_ENC_MODE_DISABLED; } return mode; } void esp_flash_encryption_set_release_mode(void) { esp_flash_enc_mode_t mode = esp_get_flash_encryption_mode(); if (mode == ESP_FLASH_ENC_MODE_RELEASE) { return; } if (mode == ESP_FLASH_ENC_MODE_DISABLED) { ESP_LOGE(TAG, "Flash encryption eFuse is not enabled, abort.."); abort(); return; } // ESP_FLASH_ENC_MODE_DEVELOPMENT -> ESP_FLASH_ENC_MODE_RELEASE esp_efuse_batch_write_begin(); if (!esp_efuse_read_field_bit(WR_DIS_CRYPT_CNT)) { size_t flash_crypt_cnt = 0; esp_efuse_read_field_cnt(CRYPT_CNT, &flash_crypt_cnt); if (flash_crypt_cnt != CRYPT_CNT[0]->bit_count) { esp_efuse_write_field_cnt(CRYPT_CNT, CRYPT_CNT[0]->bit_count - flash_crypt_cnt); } } #if CONFIG_IDF_TARGET_ESP32 esp_efuse_write_field_bit(ESP_EFUSE_DISABLE_DL_CACHE); esp_efuse_write_field_bit(ESP_EFUSE_DISABLE_DL_ENCRYPT); esp_efuse_write_field_bit(ESP_EFUSE_DISABLE_DL_DECRYPT); #elif CONFIG_IDF_TARGET_ESP32S2 || CONFIG_IDF_TARGET_ESP32S3 esp_efuse_write_field_bit(ESP_EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT); esp_efuse_write_field_bit(ESP_EFUSE_DIS_DOWNLOAD_ICACHE); esp_efuse_write_field_bit(ESP_EFUSE_DIS_DOWNLOAD_DCACHE); #elif CONFIG_IDF_TARGET_ESP32C2 || CONFIG_IDF_TARGET_ESP32C3 || CONFIG_IDF_TARGET_ESP32H2 esp_efuse_write_field_bit(ESP_EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT); esp_efuse_write_field_bit(ESP_EFUSE_DIS_DOWNLOAD_ICACHE); #ifdef CONFIG_SOC_FLASH_ENCRYPTION_XTS_AES_128_DERIVED // For AES128_DERIVED, FE key is 16 bytes and XTS_KEY_LENGTH_256 is 0. // It is important to protect XTS_KEY_LENGTH_256 from further changing it to 1. Set write protection for this bit. // Burning WR_DIS_CRYPT_CNT, blocks further changing of eFuses: DIS_DOWNLOAD_MANUAL_ENCRYPT, SPI_BOOT_CRYPT_CNT, [XTS_KEY_LENGTH_256], SECURE_BOOT_EN. esp_efuse_write_field_bit(WR_DIS_CRYPT_CNT); #endif // CONFIG_SOC_FLASH_ENCRYPTION_XTS_AES_128_DERIVED #else ESP_LOGE(TAG, "Flash Encryption support not added, abort.."); abort(); #endif esp_efuse_disable_rom_download_mode(); esp_efuse_batch_write_commit(); if (esp_get_flash_encryption_mode() != ESP_FLASH_ENC_MODE_RELEASE) { ESP_LOGE(TAG, "Flash encryption mode is DEVELOPMENT, abort.."); abort(); } ESP_LOGI(TAG, "Flash encryption mode is RELEASE"); }