/* * SPDX-FileCopyrightText: 2020-2021 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #pragma once #include #include "esp_hmac.h" #include "esp_err.h" #include "esp_ds_err.h" #include "soc/soc_caps.h" #ifdef __cplusplus extern "C" { #endif #define ESP_DS_IV_BIT_LEN 128 #define ESP_DS_IV_LEN (ESP_DS_IV_BIT_LEN / 8) #define ESP_DS_SIGNATURE_MAX_BIT_LEN SOC_RSA_MAX_BIT_LEN #define ESP_DS_SIGNATURE_MD_BIT_LEN 256 #define ESP_DS_SIGNATURE_M_PRIME_BIT_LEN 32 #define ESP_DS_SIGNATURE_L_BIT_LEN 32 #define ESP_DS_SIGNATURE_PADDING_BIT_LEN 64 /* Length of parameter 'C' stored in flash, in bytes - Operands Y, M and r_bar; each equal to maximum RSA bit length - Operand MD (message digest); 256 bits - Operands M' and L; each 32 bits - Operand beta (padding value; 64 bits */ #define ESP_DS_C_LEN (((ESP_DS_SIGNATURE_MAX_BIT_LEN * 3 \ + ESP_DS_SIGNATURE_MD_BIT_LEN \ + ESP_DS_SIGNATURE_M_PRIME_BIT_LEN \ + ESP_DS_SIGNATURE_L_BIT_LEN \ + ESP_DS_SIGNATURE_PADDING_BIT_LEN) / 8)) typedef struct esp_ds_context esp_ds_context_t; typedef enum { ESP_DS_RSA_1024 = (1024 / 32) - 1, ESP_DS_RSA_2048 = (2048 / 32) - 1, ESP_DS_RSA_3072 = (3072 / 32) - 1, ESP_DS_RSA_4096 = (4096 / 32) - 1 } esp_digital_signature_length_t; /** * Encrypted private key data. Recommended to store in flash in this format. * * @note This struct has to match to one from the ROM code! This documentation is mostly taken from there. */ typedef struct esp_digital_signature_data { /** * 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.) * * @note In IDF, the enum type length is the same as of type unsigned, so they can be used interchangably. * See the ROM code for the original declaration of struct \c ets_ds_data_t. */ esp_digital_signature_length_t rsa_length; /** * IV value used to encrypt 'c' */ uint32_t iv[ESP_DS_IV_BIT_LEN / 32]; /** * Encrypted Digital Signature parameters. Result of AES-CBC encryption * of plaintext values. Includes an encrypted message digest. */ uint8_t c[ESP_DS_C_LEN]; } esp_ds_data_t; /** * Plaintext parameters used by Digital Signature. * * This is only used for encrypting the RSA parameters by calling esp_ds_encrypt_params(). * Afterwards, the result can be stored in flash or in other persistent memory. * The encryption is a prerequisite step before any signature operation can be done. */ typedef struct { uint32_t Y[ESP_DS_SIGNATURE_MAX_BIT_LEN / 32]; //!< RSA exponent uint32_t M[ESP_DS_SIGNATURE_MAX_BIT_LEN / 32]; //!< RSA modulus uint32_t Rb[ESP_DS_SIGNATURE_MAX_BIT_LEN / 32]; //!< RSA r inverse operand uint32_t M_prime; //!< RSA M prime operand uint32_t length; //!< RSA length in words (32 bit) } esp_ds_p_data_t; /** * @brief Sign the message with a hardware key from specific key slot. * The function calculates a plain RSA signature with help of the DS peripheral. * The RSA encryption operation is as follows: * Z = XY mod M where, * Z is the signature, X is the input message, * Y and M are the RSA private key parameters. * * This function is a wrapper around \c esp_ds_finish_sign() and \c esp_ds_start_sign(), so do not use them * in parallel. * It blocks until the signing is finished and then returns the signature. * * @note * Please see note section of \c esp_ds_start_sign() for more details about the input parameters. * * @param message the message to be signed; its length should be (data->rsa_length + 1)*4 bytes * @param data the encrypted signing key data (AES encrypted RSA key + IV) * @param key_id the HMAC key ID determining the HMAC key of the HMAC which will be used to decrypt the * signing key data * @param signature the destination of the signature, should be (data->rsa_length + 1)*4 bytes long * * @return * - ESP_OK if successful, the signature was written to the parameter \c signature. * - ESP_ERR_INVALID_ARG if one of the parameters is NULL or data->rsa_length is too long or 0 * - ESP_ERR_HW_CRYPTO_DS_HMAC_FAIL if there was an HMAC failure during retrieval of the decryption key * - ESP_ERR_NO_MEM if there hasn't been enough memory to allocate the context object * - ESP_ERR_HW_CRYPTO_DS_INVALID_KEY if there's a problem with passing the HMAC key to the DS component * - ESP_ERR_HW_CRYPTO_DS_INVALID_DIGEST if the message digest didn't match; the signature is invalid. * - ESP_ERR_HW_CRYPTO_DS_INVALID_PADDING if the message padding is incorrect, the signature can be read though * since the message digest matches. */ esp_err_t esp_ds_sign(const void *message, const esp_ds_data_t *data, hmac_key_id_t key_id, void *signature); /** * @brief Start the signing process. * * This function yields a context object which needs to be passed to \c esp_ds_finish_sign() to finish the signing * process. * The function calculates a plain RSA signature with help of the DS peripheral. * The RSA encryption operation is as follows: * Z = XY mod M where, * Z is the signature, X is the input message, * Y and M are the RSA private key parameters. * * @note * This function locks the HMAC, SHA, AES and RSA components, so the user has to ensure to call * \c esp_ds_finish_sign() in a timely manner. * The numbers Y, M, Rb which are a part of esp_ds_data_t should be provided in little endian format * and should be of length equal to the RSA private key bit length * The message length in bits should also be equal to the RSA private key bit length. * No padding is applied to the message automatically, Please ensure the message is appropriate padded before * calling the API. * * @param message the message to be signed; its length should be (data->rsa_length + 1)*4 bytes * @param data the encrypted signing key data (AES encrypted RSA key + IV) * @param key_id the HMAC key ID determining the HMAC key of the HMAC which will be used to decrypt the * signing key data * @param esp_ds_ctx the context object which is needed for finishing the signing process later * * @return * - ESP_OK if successful, the ds operation was started now and has to be finished with \c esp_ds_finish_sign() * - ESP_ERR_INVALID_ARG if one of the parameters is NULL or data->rsa_length is too long or 0 * - ESP_ERR_HW_CRYPTO_DS_HMAC_FAIL if there was an HMAC failure during retrieval of the decryption key * - ESP_ERR_NO_MEM if there hasn't been enough memory to allocate the context object * - ESP_ERR_HW_CRYPTO_DS_INVALID_KEY if there's a problem with passing the HMAC key to the DS component */ esp_err_t esp_ds_start_sign(const void *message, const esp_ds_data_t *data, hmac_key_id_t key_id, esp_ds_context_t **esp_ds_ctx); /** * Return true if the DS peripheral is busy, otherwise false. * * @note Only valid if \c esp_ds_start_sign() was called before. */ bool esp_ds_is_busy(void); /** * @brief Finish the signing process. * * @param signature the destination of the signature, should be (data->rsa_length + 1)*4 bytes long * @param esp_ds_ctx the context object retreived by \c esp_ds_start_sign() * * @return * - ESP_OK if successful, the ds operation has been finished and the result is written to signature. * - ESP_ERR_INVALID_ARG if one of the parameters is NULL * - ESP_ERR_HW_CRYPTO_DS_INVALID_DIGEST if the message digest didn't match; the signature is invalid. * This means that the encrypted RSA key parameters are invalid, indicating that they may have been tampered * with or indicating a flash error, etc. * - ESP_ERR_HW_CRYPTO_DS_INVALID_PADDING if the message padding is incorrect, the signature can be read though * since the message digest matches (see TRM for more details). */ esp_err_t esp_ds_finish_sign(void *signature, esp_ds_context_t *esp_ds_ctx); /** * @brief Encrypt the private key parameters. * * The encryption is a prerequisite step before any signature operation can be done. * It is not strictly necessary to use this encryption function, the encryption could also happen on an external * device. * * @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. * * @note * The numbers Y, M, Rb which are a part of esp_ds_data_t should be provided in little endian format * and should be of length equal to the RSA private key bit length * The message length in bits should also be equal to the RSA private key bit length. * No padding is applied to the message automatically, Please ensure the message is appropriate padded before * calling the API. * * @return * - ESP_OK if successful, the ds operation has been finished and the result is written to signature. * - ESP_ERR_INVALID_ARG if one of the parameters is NULL or p_data->rsa_length is too long */ esp_err_t esp_ds_encrypt_params(esp_ds_data_t *data, const void *iv, const esp_ds_p_data_t *p_data, const void *key); #ifdef __cplusplus } #endif