/* SPDX-License-Identifier: BSD-2-Clause */ /* * Copyright (c) 2014, STMicroelectronics International N.V. * Copyright (c) 2021, SumUp Services GmbH */ #ifndef UTEE_DEFINES_H #define UTEE_DEFINES_H #include #include #include #include /* * Copied from TEE Internal API specificaion v1.0 table 6-9 "Structure of * Algorithm Identifier". */ #define TEE_MAIN_ALGO_MD5 0x01 #define TEE_MAIN_ALGO_SHA1 0x02 #define TEE_MAIN_ALGO_SHA224 0x03 #define TEE_MAIN_ALGO_SHA256 0x04 #define TEE_MAIN_ALGO_SHA384 0x05 #define TEE_MAIN_ALGO_SHA512 0x06 #define TEE_MAIN_ALGO_SM3 0x07 #define TEE_MAIN_ALGO_SHA3_224 0x08 #define TEE_MAIN_ALGO_SHA3_256 0x09 #define TEE_MAIN_ALGO_SHA3_384 0x0A #define TEE_MAIN_ALGO_SHA3_512 0x0B #define TEE_MAIN_ALGO_AES 0x10 #define TEE_MAIN_ALGO_DES 0x11 #define TEE_MAIN_ALGO_DES2 0x12 #define TEE_MAIN_ALGO_DES3 0x13 #define TEE_MAIN_ALGO_SM4 0x14 /* Not in v1.2, extrapolated */ #define TEE_MAIN_ALGO_RSA 0x30 #define TEE_MAIN_ALGO_DSA 0x31 #define TEE_MAIN_ALGO_DH 0x32 #define TEE_MAIN_ALGO_ECDSA 0x41 #define TEE_MAIN_ALGO_ECDH 0x42 #define TEE_MAIN_ALGO_ED25519 0x43 #define TEE_MAIN_ALGO_SM2_DSA_SM3 0x45 /* Not in v1.2 spec */ #define TEE_MAIN_ALGO_SM2_KEP 0x46 /* Not in v1.2 spec */ #define TEE_MAIN_ALGO_SM2_PKE 0x47 /* Not in v1.2 spec */ #define TEE_MAIN_ALGO_HKDF 0xC0 /* OP-TEE extension */ #define TEE_MAIN_ALGO_CONCAT_KDF 0xC1 /* OP-TEE extension */ #define TEE_MAIN_ALGO_PBKDF2 0xC2 /* OP-TEE extension */ #define TEE_MAIN_ALGO_X25519 0x44 /* Not in v1.2 spec */ #define TEE_MAIN_ALGO_SHAKE128 0xC3 /* OP-TEE extension */ #define TEE_MAIN_ALGO_SHAKE256 0xC4 /* OP-TEE extension */ #define TEE_MAIN_ALGO_X448 0x49 #define TEE_CHAIN_MODE_ECB_NOPAD 0x0 #define TEE_CHAIN_MODE_CBC_NOPAD 0x1 #define TEE_CHAIN_MODE_CTR 0x2 #define TEE_CHAIN_MODE_CTS 0x3 #define TEE_CHAIN_MODE_XTS 0x4 #define TEE_CHAIN_MODE_CBC_MAC_PKCS5 0x5 #define TEE_CHAIN_MODE_CMAC 0x6 #define TEE_CHAIN_MODE_CCM 0x7 #define TEE_CHAIN_MODE_GCM 0x8 #define TEE_CHAIN_MODE_PKCS1_PSS_MGF1 0x9 /* ??? */ static inline uint32_t __tee_alg_get_class(uint32_t algo) { if (algo == TEE_ALG_SM2_PKE) return TEE_OPERATION_ASYMMETRIC_CIPHER; if (algo == TEE_ALG_SM2_KEP) return TEE_OPERATION_KEY_DERIVATION; if (algo == TEE_ALG_RSASSA_PKCS1_V1_5) return TEE_OPERATION_ASYMMETRIC_SIGNATURE; if (algo == TEE_ALG_DES3_CMAC) return TEE_OPERATION_MAC; if (algo == TEE_ALG_SM4_XTS) return TEE_OPERATION_CIPHER; if (algo == TEE_ALG_RSASSA_PKCS1_PSS_MGF1_MD5) return TEE_OPERATION_ASYMMETRIC_SIGNATURE; if (algo == TEE_ALG_RSAES_PKCS1_OAEP_MGF1_MD5) return TEE_OPERATION_ASYMMETRIC_CIPHER; return (algo >> 28) & 0xF; /* Bits [31:28] */ } #define TEE_ALG_GET_CLASS(algo) __tee_alg_get_class(algo) static inline uint32_t __tee_alg_get_main_alg(uint32_t algo) { switch (algo) { case TEE_ALG_SM2_PKE: return TEE_MAIN_ALGO_SM2_PKE; case TEE_ALG_SM2_KEP: return TEE_MAIN_ALGO_SM2_KEP; case TEE_ALG_X25519: return TEE_MAIN_ALGO_X25519; case TEE_ALG_ED25519: return TEE_MAIN_ALGO_ED25519; case TEE_ALG_ECDSA_SHA1: case TEE_ALG_ECDSA_SHA224: case TEE_ALG_ECDSA_SHA256: case TEE_ALG_ECDSA_SHA384: case TEE_ALG_ECDSA_SHA512: return TEE_MAIN_ALGO_ECDSA; case TEE_ALG_HKDF: return TEE_MAIN_ALGO_HKDF; case TEE_ALG_SHAKE128: return TEE_MAIN_ALGO_SHAKE128; case TEE_ALG_SHAKE256: return TEE_MAIN_ALGO_SHAKE256; case TEE_ALG_X448: return TEE_MAIN_ALGO_X448; default: break; } return algo & 0xff; } #define TEE_ALG_GET_MAIN_ALG(algo) __tee_alg_get_main_alg(algo) /* Bits [11:8] */ #define TEE_ALG_GET_CHAIN_MODE(algo) (((algo) >> 8) & 0xF) /* * Value not defined in the GP spec, and not used as bits 15-12 of any TEE_ALG* * value. TEE_ALG_SM2_DSA_SM3 has value 0x6 for bits 15-12 which would yield the * SHA512 digest if we were to apply the bit masks that were valid up to the TEE * Internal Core API v1.1. */ #define __TEE_MAIN_HASH_SM3 0x7 static inline uint32_t __tee_alg_get_digest_hash(uint32_t algo) { if (algo == TEE_ALG_SM2_DSA_SM3) return __TEE_MAIN_HASH_SM3; /* Bits [15:12] */ return (algo >> 12) & 0xF; } #define TEE_ALG_GET_DIGEST_HASH(algo) __tee_alg_get_digest_hash(algo) /* Bits [23:20] */ #define TEE_ALG_GET_INTERNAL_HASH(algo) (((algo) >> 20) & 0x7) static inline uint32_t __tee_alg_get_key_type(uint32_t algo, bool with_priv) { uint32_t key_type = 0xA0000000 | TEE_ALG_GET_MAIN_ALG(algo); if (with_priv) key_type |= 0x01000000; return key_type; } #define TEE_ALG_GET_KEY_TYPE(algo, with_private_key) \ __tee_alg_get_key_type(algo, with_private_key) static inline uint32_t __tee_alg_hash_algo(uint32_t main_hash) { if (main_hash == __TEE_MAIN_HASH_SM3) return TEE_ALG_SM3; return (TEE_OPERATION_DIGEST << 28) | main_hash; } /* Return hash algorithm based on main hash */ #define TEE_ALG_HASH_ALGO(main_hash) __tee_alg_hash_algo(main_hash) /* Extract internal hash and return hash algorithm */ #define TEE_INTERNAL_HASH_TO_ALGO(algo) \ TEE_ALG_HASH_ALGO(TEE_ALG_GET_INTERNAL_HASH(algo)) /* Extract digest hash and return hash algorithm */ #define TEE_DIGEST_HASH_TO_ALGO(algo) \ TEE_ALG_HASH_ALGO(TEE_ALG_GET_DIGEST_HASH(algo)) /* Return HMAC algorithm based on main hash */ #define TEE_ALG_HMAC_ALGO(main_hash) \ (TEE_OPERATION_MAC << 28 | (main_hash)) #define TEE_AES_BLOCK_SIZE 16UL #define TEE_DES_BLOCK_SIZE 8UL #define TEE_SM4_BLOCK_SIZE 16UL #define TEE_AES_MAX_KEY_SIZE 32UL /* SHA-512 */ #ifndef TEE_MD5_HASH_SIZE typedef enum { TEE_MD5_HASH_SIZE = 16, TEE_SHA1_HASH_SIZE = 20, TEE_SHA224_HASH_SIZE = 28, TEE_SHA256_HASH_SIZE = 32, TEE_SM3_HASH_SIZE = 32, TEE_SHA384_HASH_SIZE = 48, TEE_SHA512_HASH_SIZE = 64, TEE_MD5SHA1_HASH_SIZE = (TEE_MD5_HASH_SIZE + TEE_SHA1_HASH_SIZE), TEE_MAX_HASH_SIZE = 64, } t_hash_size; #endif #define TEE_MAC_SIZE_AES_CBC_MAC_NOPAD #define TEE_MAC_SIZE_AES_CBC_MAC_PKCS5 #define TEE_MAC_SIZE_AES_CMAC #define TEE_MAC_SIZE_DES_CBC_MAC_PKCS5 static inline size_t __tee_alg_get_digest_size(uint32_t algo) { switch (algo) { case TEE_ALG_MD5: case TEE_ALG_HMAC_MD5: return TEE_MD5_HASH_SIZE; case TEE_ALG_SHA1: case TEE_ALG_HMAC_SHA1: case TEE_ALG_DSA_SHA1: case TEE_ALG_ECDSA_SHA1: return TEE_SHA1_HASH_SIZE; case TEE_ALG_SHA224: case TEE_ALG_SHA3_224: case TEE_ALG_HMAC_SHA224: case TEE_ALG_HMAC_SHA3_224: case TEE_ALG_DSA_SHA224: case TEE_ALG_ECDSA_SHA224: return TEE_SHA224_HASH_SIZE; case TEE_ALG_SHA256: case TEE_ALG_SHA3_256: case TEE_ALG_HMAC_SHA256: case TEE_ALG_HMAC_SHA3_256: case TEE_ALG_DSA_SHA256: case TEE_ALG_ECDSA_SHA256: return TEE_SHA256_HASH_SIZE; case TEE_ALG_SHA384: case TEE_ALG_SHA3_384: case TEE_ALG_HMAC_SHA384: case TEE_ALG_HMAC_SHA3_384: case TEE_ALG_ECDSA_SHA384: return TEE_SHA384_HASH_SIZE; case TEE_ALG_SHA512: case TEE_ALG_SHA3_512: case TEE_ALG_HMAC_SHA512: case TEE_ALG_HMAC_SHA3_512: case TEE_ALG_ECDSA_SHA512: return TEE_SHA512_HASH_SIZE; case TEE_ALG_SM3: case TEE_ALG_HMAC_SM3: return TEE_SM3_HASH_SIZE; case TEE_ALG_AES_CBC_MAC_NOPAD: case TEE_ALG_AES_CBC_MAC_PKCS5: case TEE_ALG_AES_CMAC: return TEE_AES_BLOCK_SIZE; case TEE_ALG_DES_CBC_MAC_NOPAD: case TEE_ALG_DES_CBC_MAC_PKCS5: case TEE_ALG_DES3_CBC_MAC_NOPAD: case TEE_ALG_DES3_CBC_MAC_PKCS5: case TEE_ALG_DES3_CMAC: return TEE_DES_BLOCK_SIZE; default: return 0; } } /* Return algorithm digest size */ #define TEE_ALG_GET_DIGEST_SIZE(algo) __tee_alg_get_digest_size(algo) /* * Bit indicating that the attribute is a value attribute * See TEE Internal API specificaion v1.0 table 6-12 "Partial Structure of * Attribute Identifier" */ #ifdef __compiler_bswap64 #define TEE_U64_BSWAP(x) __compiler_bswap64((x)) #else #define TEE_U64_BSWAP(x) ((uint64_t)( \ (((uint64_t)(x) & UINT64_C(0xff00000000000000ULL)) >> 56) | \ (((uint64_t)(x) & UINT64_C(0x00ff000000000000ULL)) >> 40) | \ (((uint64_t)(x) & UINT64_C(0x0000ff0000000000ULL)) >> 24) | \ (((uint64_t)(x) & UINT64_C(0x000000ff00000000ULL)) >> 8) | \ (((uint64_t)(x) & UINT64_C(0x00000000ff000000ULL)) << 8) | \ (((uint64_t)(x) & UINT64_C(0x0000000000ff0000ULL)) << 24) | \ (((uint64_t)(x) & UINT64_C(0x000000000000ff00ULL)) << 40) | \ (((uint64_t)(x) & UINT64_C(0x00000000000000ffULL)) << 56))) #endif #ifdef __compiler_bswap32 #define TEE_U32_BSWAP(x) __compiler_bswap32((x)) #else #define TEE_U32_BSWAP(x) ((uint32_t)( \ (((uint32_t)(x) & UINT32_C(0xff000000)) >> 24) | \ (((uint32_t)(x) & UINT32_C(0x00ff0000)) >> 8) | \ (((uint32_t)(x) & UINT32_C(0x0000ff00)) << 8) | \ (((uint32_t)(x) & UINT32_C(0x000000ff)) << 24))) #endif #ifdef __compiler_bswap16 #define TEE_U16_BSWAP(x) __compiler_bswap16((x)) #else #define TEE_U16_BSWAP(x) ((uint16_t)( \ (((uint16_t)(x) & UINT16_C(0xff00)) >> 8) | \ (((uint16_t)(x) & UINT16_C(0x00ff)) << 8))) #endif /* If we we're on a big endian platform we'll have to update these */ #define TEE_U64_FROM_LITTLE_ENDIAN(x) ((uint64_t)(x)) #define TEE_U32_FROM_LITTLE_ENDIAN(x) ((uint32_t)(x)) #define TEE_U16_FROM_LITTLE_ENDIAN(x) ((uint16_t)(x)) #define TEE_U64_TO_LITTLE_ENDIAN(x) ((uint64_t)(x)) #define TEE_U32_TO_LITTLE_ENDIAN(x) ((uint32_t)(x)) #define TEE_U16_TO_LITTLE_ENDIAN(x) ((uint16_t)(x)) #define TEE_U64_FROM_BIG_ENDIAN(x) TEE_U64_BSWAP(x) #define TEE_U32_FROM_BIG_ENDIAN(x) TEE_U32_BSWAP(x) #define TEE_U16_FROM_BIG_ENDIAN(x) TEE_U16_BSWAP(x) #define TEE_U64_TO_BIG_ENDIAN(x) TEE_U64_BSWAP(x) #define TEE_U32_TO_BIG_ENDIAN(x) TEE_U32_BSWAP(x) #define TEE_U16_TO_BIG_ENDIAN(x) TEE_U16_BSWAP(x) #define TEE_TIME_MILLIS_BASE 1000 #define TEE_TIME_LT(t1, t2) \ (((t1).seconds == (t2).seconds) ? \ ((t1).millis < (t2).millis) : \ ((t1).seconds < (t2).seconds)) #define TEE_TIME_LE(t1, t2) \ (((t1).seconds == (t2).seconds) ? \ ((t1).millis <= (t2).millis) : \ ((t1).seconds <= (t2).seconds)) #define TEE_TIME_ADD(t1, t2, dst) do { \ (dst).seconds = (t1).seconds + (t2).seconds; \ (dst).millis = (t1).millis + (t2).millis; \ if ((dst).millis >= TEE_TIME_MILLIS_BASE) { \ (dst).seconds++; \ (dst).millis -= TEE_TIME_MILLIS_BASE; \ } \ } while (0) #define TEE_TIME_SUB(t1, t2, dst) do { \ (dst).seconds = (t1).seconds - (t2).seconds; \ if ((t1).millis < (t2).millis) { \ (dst).seconds--; \ (dst).millis = (t1).millis + TEE_TIME_MILLIS_BASE - (t2).millis;\ } else { \ (dst).millis = (t1).millis - (t2).millis; \ } \ } while (0) /* ------------------------------------------------------------ */ /* OTP mapping */ /* ------------------------------------------------------------ */ #define HW_UNIQUE_KEY_WORD1 (8) #define HW_UNIQUE_KEY_LENGTH (16) #define HW_UNIQUE_KEY_WORD2 (HW_UNIQUE_KEY_WORD1 + 1) #define HW_UNIQUE_KEY_WORD3 (HW_UNIQUE_KEY_WORD1 + 2) #define HW_UNIQUE_KEY_WORD4 (HW_UNIQUE_KEY_WORD1 + 3) #define UTEE_SE_READER_PRESENT (1 << 0) #define UTEE_SE_READER_TEE_ONLY (1 << 1) #define UTEE_SE_READER_SELECT_RESPONE_ENABLE (1 << 2) #endif /* UTEE_DEFINES_H */