/* * SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #pragma once #include "soc/soc_caps.h" #if SOC_KEY_MANAGER_SUPPORTED #include #include "esp_attr.h" #include "ets_sys.h" #include "km.h" #if __cplusplus extern "C" { #endif // store huk info, occupy 96 words struct huk_info { #define HUK_INFO_LEN 384 uint8_t info[HUK_INFO_LEN]; uint32_t crc; } PACKED_ATTR; // store key info, occupy 512 bits struct key_info { #define KEY_INFO_LEN 64 uint8_t info[KEY_INFO_LEN]; uint32_t crc; } PACKED_ATTR; struct huk_key_block { #define KEY_HUK_SECTOR_MAGIC 0xDEA5CE5A uint32_t magic; uint32_t version; // for backward compatibility uint8_t reserved[16]; struct huk_info huk_info; struct key_info key_info[2]; // at most 2 key info (XTS-512_1 and XTS-512_2), at least use 1 } WORD_ALIGNED_ATTR PACKED_ATTR; /* * We define two info sectors "active" and "backup" here * Most rom code would rely only on the "active" sector for the key information * * But there could be a situation where the huk and key information must be regenerated * based on ageing and other factors. For that scenario, we need a "backup" sector */ #define KEY_HUK_SECTOR_OFFSET(i) ((i)*0x1000) #define ACTIVE_SECTOR_OFFSET KEY_HUK_SECTOR_OFFSET(0) #define BACKUP_SECTOR_OFFSET KEY_HUK_SECTOR_OFFSET(1) #define KM_PERI_ECDSA (BIT(0)) #define KM_PERI_XTS (BIT(1)) struct km_deploy_ops { #define KM_KEY_PURPOSE_ECDSA 1 #define KM_KEY_PURPOSE_XTS_256_1 2 #define KM_KEY_PURPOSE_XTS_256_2 3 #define KM_KEY_PURPOSE_XTS_128 4 int km_key_purpose; #define KM_DEPLOY_MODE_RANDOM 0 #define KM_DEPLOY_MODE_AES 1 #define KM_DEPLOY_MODE_ECDH0 2 #define KM_DEPLOY_MODE_ECDH1 3 #define KM_DEPLOY_MODE_RECOVER 4 #define KM_DEPLOY_MODE_EXPORT 5 int deploy_mode; uint8_t *init_key; // 256 bits, only used in aes and ecdh1 deploy mode int deploy_only_once; int force_use_km_key; int km_use_efuse_key; uint32_t efuse_km_rnd_switch_cycle; // 0 means use default uint32_t km_rnd_switch_cycle; // 0 means use default int km_use_sw_init_key; struct huk_info *huk_info; struct key_info *key_info; }; /* state of km */ #define KM_STATE_IDLE 0 #define KM_STATE_LOAD 1 #define KM_STATE_GAIN 2 #define KM_STATE_BUSY 3 #define KM_STATE_INVALID 4 /* state of huk generator * values defined same as km */ #define HUK_STATE_IDLE 0 #define HUK_STATE_LOAD 1 #define HUK_STATE_GAIN 2 #define HUK_STATE_BUSY 3 #define HUK_NOT_GENERATED 0 #define HUK_GEN_VALID 1 #define HUK_GEN_INVALID 2 #if __cplusplus } #endif #endif