/* * SPDX-FileCopyrightText: 2020-2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #pragma once #ifdef __cplusplus extern "C" { #endif #include #include #define ETS_DS_MAX_BITS 3072 #define ETS_DS_IV_LEN 16 /* Length of parameter 'C' stored in flash (not including IV) Comprises encrypted Y, M, rinv, md (32), mprime (4), length (4), padding (8) Note that if ETS_DS_MAX_BITS<4096, 'C' needs to be split up when writing to hardware */ #define ETS_DS_C_LEN ((ETS_DS_MAX_BITS * 3 / 8) + 32 + 8 + 8) /* Encrypted ETS data. Recommended to store in flash in this format. */ typedef struct { /* RSA LENGTH register parameters * (number of words in RSA key & operands, minus one). * * * This value must match the length field encrypted and stored in 'c', * or invalid results will be returned. (The DS peripheral will * always use the value in 'c', not this value, so an attacker can't * alter the DS peripheral results this way, it will just truncate or * extend the message and the resulting signature in software.) */ unsigned rsa_length; /* IV value used to encrypt 'c' */ uint8_t iv[ETS_DS_IV_LEN]; /* Encrypted Digital Signature parameters. Result of AES-CBC encryption of plaintext values. Includes an encrypted message digest. */ uint8_t c[ETS_DS_C_LEN]; } ets_ds_data_t; typedef enum { ETS_DS_OK, ETS_DS_INVALID_PARAM, /* Supplied parameters are invalid */ ETS_DS_INVALID_KEY, /* HMAC peripheral failed to supply key */ ETS_DS_INVALID_PADDING, /* 'c' decrypted with invalid padding */ ETS_DS_INVALID_DIGEST, /* 'c' decrypted with invalid digest */ } ets_ds_result_t; void ets_ds_enable(void); void ets_ds_disable(void); /* * @brief Start signing a message (or padded message digest) using the Digital Signature peripheral * * - @param message Pointer to message (or padded digest) containing the message to sign. Should be * (data->rsa_length + 1)*4 bytes long. @param data Pointer to DS data. Can be a pointer to data * in flash. * * Caller must have already called ets_ds_enable() and ets_hmac_calculate_downstream() before calling * this function, and is responsible for calling ets_ds_finish_sign() and then * ets_hmac_invalidate_downstream() afterwards. * * @return ETS_DS_OK if signature is in progress, ETS_DS_INVALID_PARAM if param is invalid, * EST_DS_INVALID_KEY if key or HMAC peripheral is configured incorrectly. */ ets_ds_result_t ets_ds_start_sign(const void *message, const ets_ds_data_t *data); /* * @brief Returns true if the DS peripheral is busy following a call to ets_ds_start_sign() * * A result of false indicates that a call to ets_ds_finish_sign() will not block. * * Only valid if ets_ds_enable() has been called. */ bool ets_ds_is_busy(void); /* @brief Finish signing a message using the Digital Signature peripheral * * Must be called after ets_ds_start_sign(). Can use ets_ds_busy() to wait until * peripheral is no longer busy. * * - @param signature Pointer to buffer to contain the signature. Should be * (data->rsa_length + 1)*4 bytes long. * - @param data Should match the 'data' parameter passed to ets_ds_start_sign() * * @param ETS_DS_OK if signing succeeded, ETS_DS_INVALID_PARAM if param is invalid, * ETS_DS_INVALID_DIGEST or ETS_DS_INVALID_PADDING if there is a problem with the * encrypted data digest or padding bytes (in case of ETS_DS_INVALID_PADDING, a * digest is produced anyhow.) */ ets_ds_result_t ets_ds_finish_sign(void *signature, const ets_ds_data_t *data); /* Plaintext parameters used by Digital Signature. Not used for signing with DS peripheral, but can be encrypted in-device by calling ets_ds_encrypt_params() */ typedef struct { uint32_t Y[ETS_DS_MAX_BITS / 32]; uint32_t M[ETS_DS_MAX_BITS / 32]; uint32_t Rb[ETS_DS_MAX_BITS / 32]; uint32_t M_prime; uint32_t length; } ets_ds_p_data_t; typedef enum { ETS_DS_KEY_HMAC, /* The HMAC key (as stored in efuse) */ ETS_DS_KEY_AES, /* The AES key (as derived from HMAC key by HMAC peripheral in downstream mode) */ } ets_ds_key_t; /* @brief Encrypt DS parameters suitable for storing and later use with DS peripheral * * @param data Output buffer to store encrypted data, suitable for later use generating signatures. * @param iv Pointer to 16 byte IV buffer, will be copied into 'data'. Should be randomly generated bytes each time. * @param p_data Pointer to input plaintext key data. The expectation is this data will be deleted after this process is done and 'data' is stored. * @param key Pointer to 32 bytes of key data. Type determined by key_type parameter. The expectation is the corresponding HMAC key will be stored to efuse and then permanently erased. * @param key_type Type of key stored in 'key' (either the AES-256 DS key, or an HMAC DS key from which the AES DS key is derived using HMAC peripheral) * * @return ETS_DS_INVALID_PARAM if any parameter is invalid, or ETS_DS_OK if 'data' is successfully generated from the input parameters. */ ets_ds_result_t ets_ds_encrypt_params(ets_ds_data_t *data, const void *iv, const ets_ds_p_data_t *p_data, const void *key, ets_ds_key_t key_type); #ifdef __cplusplus } #endif