/* * SPDX-FileCopyrightText: 2023 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include #include "esp_err.h" #include "esp_log.h" #include "esp_fault.h" #include "soc/soc_caps.h" #include "sdkconfig.h" #include "nvs_flash.h" #include "nvs_sec_provider.h" #if SOC_HMAC_SUPPORTED #include "bootloader_random.h" #include "esp_random.h" #include "esp_efuse.h" #include "esp_efuse_chip.h" #endif // SOC_HMAC_SUPPORTED static __attribute__((unused)) const char *TAG = "nvs_sec_provider"; #if CONFIG_NVS_SEC_KEY_PROTECT_USING_FLASH_ENC static esp_err_t generate_keys_flash_enc(const void* sec_scheme_cfg, nvs_sec_cfg_t* cfg) { if (sec_scheme_cfg == NULL || cfg == NULL) { return ESP_ERR_INVALID_ARG; } nvs_sec_config_flash_enc_t *scheme_cfg_flash_enc = (nvs_sec_config_flash_enc_t *)sec_scheme_cfg; return nvs_flash_generate_keys(scheme_cfg_flash_enc->nvs_keys_part, cfg); } static esp_err_t read_security_cfg_flash_enc(const void* sec_scheme_cfg, nvs_sec_cfg_t* cfg) { if (sec_scheme_cfg == NULL || cfg == NULL) { return ESP_ERR_INVALID_ARG; } nvs_sec_config_flash_enc_t *scheme_cfg_flash_enc = (nvs_sec_config_flash_enc_t *)sec_scheme_cfg; return nvs_flash_read_security_cfg(scheme_cfg_flash_enc->nvs_keys_part, cfg); } esp_err_t nvs_sec_provider_register_flash_enc(const nvs_sec_config_flash_enc_t *sec_scheme_cfg, nvs_sec_scheme_t **sec_scheme_handle_out) { if (sec_scheme_cfg == NULL || sec_scheme_handle_out == NULL) { return ESP_ERR_INVALID_ARG; } nvs_sec_scheme_t *sec_scheme = calloc(1, sizeof(nvs_sec_scheme_t)); if (sec_scheme == NULL) { return ESP_ERR_NO_MEM; } sec_scheme->scheme_id = NVS_SEC_SCHEME_FLASH_ENC; sec_scheme->nvs_flash_key_gen = &generate_keys_flash_enc; sec_scheme->nvs_flash_read_cfg = &read_security_cfg_flash_enc; sec_scheme->scheme_data = calloc(1, sizeof(nvs_sec_config_flash_enc_t)); if (sec_scheme->scheme_data == NULL) { free(sec_scheme); return ESP_ERR_NO_MEM; } memcpy(sec_scheme->scheme_data, (void *)sec_scheme_cfg, sizeof(nvs_sec_config_flash_enc_t)); esp_err_t err = nvs_flash_register_security_scheme(sec_scheme); if (err != ESP_OK) { free(sec_scheme->scheme_data); free(sec_scheme); return err; } *sec_scheme_handle_out = sec_scheme; return ESP_OK; } static void __attribute__((constructor)) nvs_sec_provider_register_flash_enc_ctr(void) { ESP_EARLY_LOGI(TAG, "NVS Encryption - Registering Flash encryption-based scheme..."); nvs_sec_config_flash_enc_t sec_scheme_cfg = NVS_SEC_PROVIDER_CFG_FLASH_ENC_DEFAULT(); nvs_sec_scheme_t *sec_scheme_handle_out = NULL; nvs_sec_provider_register_flash_enc(&sec_scheme_cfg, &sec_scheme_handle_out); } #endif #if SOC_HMAC_SUPPORTED #if CONFIG_NVS_SEC_HMAC_EFUSE_KEY_ID > 5 #error "NVS Encryption (HMAC): Configured eFuse block (CONFIG_NVS_SEC_HMAC_EFUSE_KEY_ID) out of range!" #endif static esp_err_t compute_nvs_keys_with_hmac(hmac_key_id_t hmac_key_id, nvs_sec_cfg_t* cfg) { uint32_t ekey_seed[8] = {[0 ... 7] = 0xAEBE5A5A}; uint32_t tkey_seed[8] = {[0 ... 7] = 0xCEDEA5A5}; esp_err_t err = esp_hmac_calculate(hmac_key_id, ekey_seed, sizeof(ekey_seed), (uint8_t *)cfg->eky); if (err != ESP_OK) { ESP_LOGE(TAG, "Failed to calculate seed HMAC: [0x%02X] (%s)", err, esp_err_to_name(err)); return err; } ESP_FAULT_ASSERT(err == ESP_OK); err = esp_hmac_calculate(hmac_key_id, tkey_seed, sizeof(tkey_seed), (uint8_t *)cfg->tky); if (err != ESP_OK) { ESP_LOGE(TAG, "Failed to calculate seed HMAC: [0x%02X] (%s)", err, esp_err_to_name(err)); return err; } ESP_FAULT_ASSERT(err == ESP_OK); /* NOTE: If the XTS E-key and T-key are the same, we have a hash collision */ ESP_FAULT_ASSERT(memcmp(cfg->eky, cfg->tky, NVS_KEY_SIZE) != 0); return ESP_OK; } static esp_efuse_block_t convert_key_type(hmac_key_id_t key_id) { return (esp_efuse_block_t)(EFUSE_BLK_KEY0 + (esp_efuse_block_t) key_id); } static bool is_hmac_key_burnt_in_efuse(hmac_key_id_t hmac_key_id) { bool ret = false; esp_efuse_block_t hmac_key_blk = convert_key_type(hmac_key_id); esp_efuse_purpose_t hmac_efuse_blk_purpose = esp_efuse_get_key_purpose(hmac_key_blk); if (hmac_efuse_blk_purpose == ESP_EFUSE_KEY_PURPOSE_HMAC_UP) { ret = true; } return ret; } static esp_err_t generate_keys_hmac(const void* scheme_cfg, nvs_sec_cfg_t* cfg) { if (cfg == NULL) { return ESP_ERR_INVALID_ARG; } nvs_sec_config_hmac_t *scheme_cfg_hmac = (nvs_sec_config_hmac_t *)scheme_cfg; hmac_key_id_t hmac_key = scheme_cfg_hmac->hmac_key_id; if (hmac_key >= HMAC_KEY_MAX) { ESP_LOGE(TAG, "Invalid HMAC key ID received!"); return ESP_ERR_INVALID_ARG; } esp_err_t err = ESP_FAIL; if (!is_hmac_key_burnt_in_efuse(hmac_key)) { uint8_t hmac_key_buf[32] = {0}; bootloader_random_enable(); esp_fill_random(hmac_key_buf, sizeof(hmac_key_buf)); bootloader_random_disable(); esp_efuse_block_t hmac_key_blk = convert_key_type(hmac_key); err = esp_efuse_write_key(hmac_key_blk, ESP_EFUSE_KEY_PURPOSE_HMAC_UP, hmac_key_buf, sizeof(hmac_key_buf)); if (err != ESP_OK) { if (err == ESP_ERR_EFUSE_REPEATED_PROG) { ESP_LOGE(TAG, "Configured eFuse block for HMAC key already-in-use!"); return ESP_ERR_NVS_SEC_HMAC_KEY_BLK_ALREADY_USED; } ESP_LOGE(TAG, "Failed to write the HMAC key to eFuse: [0x%02X] (%s)", err, esp_err_to_name(err)); return ESP_ERR_NVS_SEC_HMAC_KEY_GENERATION_FAILED; } memset(hmac_key_buf, 0x00, sizeof(hmac_key_buf)); } else { ESP_LOGW(TAG, "HMAC Key already present in configured eFuse block, using the same for NVS encryption!"); } err = compute_nvs_keys_with_hmac(hmac_key, cfg); if (err != ESP_OK) { ESP_LOGE(TAG, "Failed to derive the encryption keys using HMAC!"); return ESP_ERR_NVS_SEC_HMAC_XTS_KEYS_DERIV_FAILED; } return ESP_OK; } static esp_err_t read_security_cfg_hmac(const void* scheme_cfg, nvs_sec_cfg_t* cfg) { if (cfg == NULL) { return ESP_ERR_INVALID_ARG; } nvs_sec_config_hmac_t *scheme_cfg_hmac = (nvs_sec_config_hmac_t *)scheme_cfg; hmac_key_id_t hmac_key = scheme_cfg_hmac->hmac_key_id; if (hmac_key >= HMAC_KEY_MAX) { ESP_LOGE(TAG, "Invalid HMAC key ID received!"); return ESP_ERR_INVALID_ARG; } if (!is_hmac_key_burnt_in_efuse(hmac_key)) { ESP_LOGE(TAG, "Could not find HMAC key in configured eFuse block!"); return ESP_ERR_NVS_SEC_HMAC_KEY_NOT_FOUND; } esp_err_t err = compute_nvs_keys_with_hmac(hmac_key, cfg); if (err != ESP_OK) { ESP_LOGE(TAG, "Failed to derive the encryption keys using HMAC!"); return ESP_ERR_NVS_SEC_HMAC_XTS_KEYS_DERIV_FAILED; } return ESP_OK; } esp_err_t nvs_sec_provider_register_hmac(const nvs_sec_config_hmac_t *sec_scheme_cfg, nvs_sec_scheme_t **sec_scheme_handle_out) { if (sec_scheme_cfg == NULL || sec_scheme_handle_out == NULL) { return ESP_ERR_INVALID_ARG; } nvs_sec_scheme_t *sec_scheme = calloc(1, sizeof(nvs_sec_scheme_t)); if (sec_scheme == NULL) { return ESP_ERR_NO_MEM; } sec_scheme->scheme_id = NVS_SEC_SCHEME_HMAC; sec_scheme->nvs_flash_key_gen = &generate_keys_hmac; sec_scheme->nvs_flash_read_cfg = &read_security_cfg_hmac; sec_scheme->scheme_data = calloc(1, sizeof(nvs_sec_config_hmac_t)); if (sec_scheme->scheme_data == NULL) { free(sec_scheme); return ESP_ERR_NO_MEM; } memcpy(sec_scheme->scheme_data, (void *)sec_scheme_cfg, sizeof(nvs_sec_config_hmac_t)); esp_err_t err = nvs_flash_register_security_scheme(sec_scheme); if (err != ESP_OK) { free(sec_scheme->scheme_data); free(sec_scheme); return err; } *sec_scheme_handle_out = sec_scheme; return ESP_OK; } #if CONFIG_NVS_SEC_KEY_PROTECT_USING_HMAC static void __attribute__((constructor)) nvs_sec_provider_register_hmac_ctr(void) { ESP_EARLY_LOGI(TAG, "NVS Encryption - Registering HMAC-based scheme..."); nvs_sec_config_hmac_t sec_scheme_cfg = NVS_SEC_PROVIDER_CFG_HMAC_DEFAULT(); nvs_sec_scheme_t *sec_scheme_handle_out = NULL; nvs_sec_provider_register_hmac(&sec_scheme_cfg, &sec_scheme_handle_out); } #endif // CONFIG_NVS_SEC_KEY_PROTECT_USING_HMAC #endif // SOC_HMAC_SUPPORTED esp_err_t nvs_sec_provider_deregister(nvs_sec_scheme_t *sec_scheme_handle) { if (sec_scheme_handle == NULL) { return ESP_ERR_INVALID_ARG; } if (sec_scheme_handle->scheme_data != NULL) { free(sec_scheme_handle->scheme_data); } free(sec_scheme_handle); return ESP_OK; } void nvs_sec_provider_include_impl(void) { // Linker hook, exists for no other purpose }