/* * Copyright (c) 2018-2022, Arm Limited. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause * */ #ifndef __TFM_CRYPTO_DEFS_H__ #define __TFM_CRYPTO_DEFS_H__ #ifdef __cplusplus extern "C" { #endif #include #include #include "tfm_api.h" #include "psa/crypto.h" #ifdef PLATFORM_DEFAULT_CRYPTO_KEYS #include "crypto_keys/tfm_builtin_key_ids.h" #else #include "tfm_builtin_key_ids.h" #endif /* PLATFORM_DEFAULT_CRYPTO_KEYS */ /** * \brief This type is used to overcome a limitation in the number of maximum * IOVECs that can be used especially in psa_aead_encrypt and * psa_aead_decrypt. */ #define TFM_CRYPTO_MAX_NONCE_LENGTH (16u) struct tfm_crypto_aead_pack_input { uint8_t nonce[TFM_CRYPTO_MAX_NONCE_LENGTH]; uint32_t nonce_length; }; /** * \brief Structure used to pack non-pointer types in a call * */ struct tfm_crypto_pack_iovec { psa_key_id_t key_id; /*!< Key id */ psa_algorithm_t alg; /*!< Algorithm */ uint32_t op_handle; /*!< Frontend context handle associated to a * multipart operation */ size_t capacity; /*!< Key derivation capacity */ size_t ad_length; /*!< Additional Data length for multipart AEAD */ size_t plaintext_length; /*!< Plaintext length for multipart AEAD */ struct tfm_crypto_aead_pack_input aead_in; /*!< Packs AEAD-related inputs */ uint16_t function_id; /*!< Used to identify the function in the * API dispatcher to the service backend * See tfm_crypto_func_sid for detail */ uint16_t step; /*!< Key derivation step */ }; /** * \brief Type associated to the group of a function encoding. There can be * nine groups (Random, Key management, Hash, MAC, Cipher, AEAD, * Asym sign, Asym encrypt, Key derivation). */ enum tfm_crypto_group_id { TFM_CRYPTO_GROUP_ID_RANDOM = 0x0, TFM_CRYPTO_GROUP_ID_KEY_MANAGEMENT, TFM_CRYPTO_GROUP_ID_HASH, TFM_CRYPTO_GROUP_ID_MAC, TFM_CRYPTO_GROUP_ID_CIPHER, TFM_CRYPTO_GROUP_ID_AEAD, TFM_CRYPTO_GROUP_ID_ASYM_SIGN, TFM_CRYPTO_GROUP_ID_ASYM_ENCRYPT, TFM_CRYPTO_GROUP_ID_KEY_DERIVATION, }; /* X macro describing each of the available PSA Crypto APIs */ #define KEY_MANAGEMENT_FUNCS \ X(TFM_CRYPTO_GET_KEY_ATTRIBUTES) \ X(TFM_CRYPTO_RESET_KEY_ATTRIBUTES) \ X(TFM_CRYPTO_OPEN_KEY) \ X(TFM_CRYPTO_CLOSE_KEY) \ X(TFM_CRYPTO_IMPORT_KEY) \ X(TFM_CRYPTO_DESTROY_KEY) \ X(TFM_CRYPTO_EXPORT_KEY) \ X(TFM_CRYPTO_EXPORT_PUBLIC_KEY) \ X(TFM_CRYPTO_PURGE_KEY) \ X(TFM_CRYPTO_COPY_KEY) \ X(TFM_CRYPTO_GENERATE_KEY) #define HASH_FUNCS \ X(TFM_CRYPTO_HASH_COMPUTE) \ X(TFM_CRYPTO_HASH_COMPARE) \ X(TFM_CRYPTO_HASH_SETUP) \ X(TFM_CRYPTO_HASH_UPDATE) \ X(TFM_CRYPTO_HASH_CLONE) \ X(TFM_CRYPTO_HASH_FINISH) \ X(TFM_CRYPTO_HASH_VERIFY) \ X(TFM_CRYPTO_HASH_ABORT) #define MAC_FUNCS \ X(TFM_CRYPTO_MAC_COMPUTE) \ X(TFM_CRYPTO_MAC_VERIFY) \ X(TFM_CRYPTO_MAC_SIGN_SETUP) \ X(TFM_CRYPTO_MAC_VERIFY_SETUP) \ X(TFM_CRYPTO_MAC_UPDATE) \ X(TFM_CRYPTO_MAC_SIGN_FINISH) \ X(TFM_CRYPTO_MAC_VERIFY_FINISH) \ X(TFM_CRYPTO_MAC_ABORT) #define CIPHER_FUNCS \ X(TFM_CRYPTO_CIPHER_ENCRYPT) \ X(TFM_CRYPTO_CIPHER_DECRYPT) \ X(TFM_CRYPTO_CIPHER_ENCRYPT_SETUP) \ X(TFM_CRYPTO_CIPHER_DECRYPT_SETUP) \ X(TFM_CRYPTO_CIPHER_GENERATE_IV) \ X(TFM_CRYPTO_CIPHER_SET_IV) \ X(TFM_CRYPTO_CIPHER_UPDATE) \ X(TFM_CRYPTO_CIPHER_FINISH) \ X(TFM_CRYPTO_CIPHER_ABORT) #define AEAD_FUNCS \ X(TFM_CRYPTO_AEAD_ENCRYPT) \ X(TFM_CRYPTO_AEAD_DECRYPT) \ X(TFM_CRYPTO_AEAD_ENCRYPT_SETUP) \ X(TFM_CRYPTO_AEAD_DECRYPT_SETUP) \ X(TFM_CRYPTO_AEAD_GENERATE_NONCE) \ X(TFM_CRYPTO_AEAD_SET_NONCE) \ X(TFM_CRYPTO_AEAD_SET_LENGTHS) \ X(TFM_CRYPTO_AEAD_UPDATE_AD) \ X(TFM_CRYPTO_AEAD_UPDATE) \ X(TFM_CRYPTO_AEAD_FINISH) \ X(TFM_CRYPTO_AEAD_VERIFY) \ X(TFM_CRYPTO_AEAD_ABORT) #define ASYMMETRIC_SIGN_FUNCS \ X(TFM_CRYPTO_ASYMMETRIC_SIGN_MESSAGE) \ X(TFM_CRYPTO_ASYMMETRIC_VERIFY_MESSAGE) \ X(TFM_CRYPTO_ASYMMETRIC_SIGN_HASH) \ X(TFM_CRYPTO_ASYMMETRIC_VERIFY_HASH) #define AYSMMETRIC_ENCRYPT_FUNCS \ X(TFM_CRYPTO_ASYMMETRIC_ENCRYPT) \ X(TFM_CRYPTO_ASYMMETRIC_DECRYPT) #define KEY_DERIVATION_FUNCS \ X(TFM_CRYPTO_RAW_KEY_AGREEMENT) \ X(TFM_CRYPTO_KEY_DERIVATION_SETUP) \ X(TFM_CRYPTO_KEY_DERIVATION_GET_CAPACITY) \ X(TFM_CRYPTO_KEY_DERIVATION_SET_CAPACITY) \ X(TFM_CRYPTO_KEY_DERIVATION_INPUT_BYTES) \ X(TFM_CRYPTO_KEY_DERIVATION_INPUT_KEY) \ X(TFM_CRYPTO_KEY_DERIVATION_KEY_AGREEMENT) \ X(TFM_CRYPTO_KEY_DERIVATION_OUTPUT_BYTES) \ X(TFM_CRYPTO_KEY_DERIVATION_OUTPUT_KEY) \ X(TFM_CRYPTO_KEY_DERIVATION_ABORT) #define RANDOM_FUNCS \ X(TFM_CRYPTO_GENERATE_RANDOM) /* * Define function IDs in each group. The function ID will be encoded into * tfm_crypto_func_sid below. * Each group is defined as a dedicated enum in case the total number of * PSA Crypto APIs exceeds 256. */ #define X(func_id) func_id, enum tfm_crypto_key_management_func_id { KEY_MANAGEMENT_FUNCS }; enum tfm_crypto_hash_func_id { HASH_FUNCS }; enum tfm_crypto_mac_func_id { MAC_FUNCS }; enum tfm_crypto_cipher_func_id { CIPHER_FUNCS }; enum tfm_crypto_aead_func_id { AEAD_FUNCS }; enum tfm_crypto_asym_sign_func_id { ASYMMETRIC_SIGN_FUNCS }; enum tfm_crypto_asym_encrypt_func_id { AYSMMETRIC_ENCRYPT_FUNCS }; enum tfm_crypto_key_derivation_func_id { KEY_DERIVATION_FUNCS }; enum tfm_crypto_random_func_id { RANDOM_FUNCS }; #undef X #define FUNC_ID(func_id) (((func_id) & 0xFF) << 8) /* * Numerical progressive value identifying a function API exposed through * the interfaces (S or NS). It's used to dispatch the requests from S/NS * to the corresponding API implementation in the Crypto service backend. * * Each function SID is encoded as uint16_t. * | Func ID | Group ID | * 15 8 7 0 * Func ID is defined in each group func_id enum above * Group ID is defined in tfm_crypto_group_id. */ enum tfm_crypto_func_sid { #define X(func_id) func_id ## _SID = (uint16_t)((FUNC_ID(func_id)) | \ (TFM_CRYPTO_GROUP_ID_KEY_MANAGEMENT & 0xFF)), KEY_MANAGEMENT_FUNCS #undef X #define X(func_id) func_id ## _SID = (uint16_t)((FUNC_ID(func_id)) | \ (TFM_CRYPTO_GROUP_ID_HASH & 0xFF)), HASH_FUNCS #undef X #define X(func_id) func_id ## _SID = (uint16_t)((FUNC_ID(func_id)) | \ (TFM_CRYPTO_GROUP_ID_MAC & 0xFF)), MAC_FUNCS #undef X #define X(func_id) func_id ## _SID = (uint16_t)((FUNC_ID(func_id)) | \ (TFM_CRYPTO_GROUP_ID_CIPHER & 0xFF)), CIPHER_FUNCS #undef X #define X(func_id) func_id ## _SID = (uint16_t)((FUNC_ID(func_id)) | \ (TFM_CRYPTO_GROUP_ID_AEAD & 0xFF)), AEAD_FUNCS #undef X #define X(func_id) func_id ## _SID = (uint16_t)((FUNC_ID(func_id)) | \ (TFM_CRYPTO_GROUP_ID_ASYM_SIGN & 0xFF)), ASYMMETRIC_SIGN_FUNCS #undef X #define X(func_id) func_id ## _SID = (uint16_t)((FUNC_ID(func_id)) | \ (TFM_CRYPTO_GROUP_ID_ASYM_ENCRYPT & 0xFF)), AYSMMETRIC_ENCRYPT_FUNCS #undef X #define X(func_id) func_id ## _SID = (uint16_t)((FUNC_ID(func_id)) | \ (TFM_CRYPTO_GROUP_ID_KEY_DERIVATION & 0xFF)), KEY_DERIVATION_FUNCS #undef X #define X(func_id) func_id ## _SID = (uint16_t)((FUNC_ID(func_id)) | \ (TFM_CRYPTO_GROUP_ID_RANDOM & 0xFF)), RANDOM_FUNCS }; #undef X /** * \brief Define an invalid value for an SID * */ #define TFM_CRYPTO_SID_INVALID (~0x0u) /** * \brief This value is used to mark an handle as invalid. * */ #define TFM_CRYPTO_INVALID_HANDLE (0x0u) /** * \brief Define miscellaneous literal constants that are used in the service * */ enum { TFM_CRYPTO_NOT_IN_USE = 0, TFM_CRYPTO_IN_USE = 1 }; #ifdef __cplusplus } #endif #endif /* __TFM_CRYPTO_DEFS_H__ */