11bb92983SJerome Forissier /* SPDX-License-Identifier: BSD-2-Clause */ 2e1770e71SJens Wiklander /* 3e1770e71SJens Wiklander * Copyright (c) 2014-2017, Linaro Limited 4e1770e71SJens Wiklander */ 5e1770e71SJens Wiklander 6e1770e71SJens Wiklander /* 7e1770e71SJens Wiklander * This is the Cryptographic Provider API (CP API). 8e1770e71SJens Wiklander * 9e1770e71SJens Wiklander * This defines how most crypto syscalls that implement the Cryptographic 10e1770e71SJens Wiklander * Operations API can invoke the actual providers of cryptographic algorithms 11e1770e71SJens Wiklander * (such as LibTomCrypt). 12e1770e71SJens Wiklander * 13e1770e71SJens Wiklander * To add a new provider, you need to provide an implementation of this 14e1770e71SJens Wiklander * interface. 15e1770e71SJens Wiklander * 16e1770e71SJens Wiklander * The following parameters are commonly used. 17e1770e71SJens Wiklander * 18e1770e71SJens Wiklander * @ctx: context allocated by the syscall, for later use by the algorithm 19e1770e71SJens Wiklander * @algo: algorithm identifier (TEE_ALG_*) 20e1770e71SJens Wiklander */ 21e1770e71SJens Wiklander 22e1770e71SJens Wiklander #ifndef __CRYPTO_CRYPTO_H 23e1770e71SJens Wiklander #define __CRYPTO_CRYPTO_H 24e1770e71SJens Wiklander 256301ca1cSJorge Ramirez-Ortiz #include <tee/tee_obj.h> 26e1770e71SJens Wiklander #include <tee_api_types.h> 27e1770e71SJens Wiklander 28e1770e71SJens Wiklander TEE_Result crypto_init(void); 29e1770e71SJens Wiklander 30e1770e71SJens Wiklander /* Message digest functions */ 31ecf2e014SJens Wiklander TEE_Result crypto_hash_alloc_ctx(void **ctx, uint32_t algo); 326b3a371cSJens Wiklander TEE_Result crypto_hash_init(void *ctx); 336b3a371cSJens Wiklander TEE_Result crypto_hash_update(void *ctx, const uint8_t *data, size_t len); 346b3a371cSJens Wiklander TEE_Result crypto_hash_final(void *ctx, uint8_t *digest, size_t len); 356b3a371cSJens Wiklander void crypto_hash_free_ctx(void *ctx); 366b3a371cSJens Wiklander void crypto_hash_copy_state(void *dst_ctx, void *src_ctx); 37e1770e71SJens Wiklander 38e1770e71SJens Wiklander /* Symmetric ciphers */ 3972a9b1a0SJens Wiklander TEE_Result crypto_cipher_alloc_ctx(void **ctx, uint32_t algo); 40cbda7091SJens Wiklander TEE_Result crypto_cipher_init(void *ctx, TEE_OperationMode mode, 41e1770e71SJens Wiklander const uint8_t *key1, size_t key1_len, 42e1770e71SJens Wiklander const uint8_t *key2, size_t key2_len, 43e1770e71SJens Wiklander const uint8_t *iv, size_t iv_len); 44cbda7091SJens Wiklander TEE_Result crypto_cipher_update(void *ctx, TEE_OperationMode mode, 45cbda7091SJens Wiklander bool last_block, const uint8_t *data, 46cbda7091SJens Wiklander size_t len, uint8_t *dst); 47cbda7091SJens Wiklander void crypto_cipher_final(void *ctx); 48e1770e71SJens Wiklander TEE_Result crypto_cipher_get_block_size(uint32_t algo, size_t *size); 49cbda7091SJens Wiklander void crypto_cipher_free_ctx(void *ctx); 50cbda7091SJens Wiklander void crypto_cipher_copy_state(void *dst_ctx, void *src_ctx); 51e1770e71SJens Wiklander 52e1770e71SJens Wiklander /* Message Authentication Code functions */ 5382ef73bcSJens Wiklander TEE_Result crypto_mac_alloc_ctx(void **ctx, uint32_t algo); 54c69bc615SJens Wiklander TEE_Result crypto_mac_init(void *ctx, const uint8_t *key, size_t len); 55c69bc615SJens Wiklander TEE_Result crypto_mac_update(void *ctx, const uint8_t *data, size_t len); 56c69bc615SJens Wiklander TEE_Result crypto_mac_final(void *ctx, uint8_t *digest, size_t digest_len); 57c69bc615SJens Wiklander void crypto_mac_free_ctx(void *ctx); 58c69bc615SJens Wiklander void crypto_mac_copy_state(void *dst_ctx, void *src_ctx); 59e1770e71SJens Wiklander 60e1770e71SJens Wiklander /* Authenticated encryption */ 61d7ac7d0fSJens Wiklander TEE_Result crypto_authenc_alloc_ctx(void **ctx, uint32_t algo); 6252ee414bSJens Wiklander TEE_Result crypto_authenc_init(void *ctx, TEE_OperationMode mode, 63e1770e71SJens Wiklander const uint8_t *key, size_t key_len, 64e1770e71SJens Wiklander const uint8_t *nonce, size_t nonce_len, 65e1770e71SJens Wiklander size_t tag_len, size_t aad_len, 66e1770e71SJens Wiklander size_t payload_len); 6752ee414bSJens Wiklander TEE_Result crypto_authenc_update_aad(void *ctx, TEE_OperationMode mode, 68e1770e71SJens Wiklander const uint8_t *data, size_t len); 6952ee414bSJens Wiklander TEE_Result crypto_authenc_update_payload(void *ctx, TEE_OperationMode mode, 70e1770e71SJens Wiklander const uint8_t *src_data, 71e1770e71SJens Wiklander size_t src_len, uint8_t *dst_data, 72e1770e71SJens Wiklander size_t *dst_len); 7352ee414bSJens Wiklander TEE_Result crypto_authenc_enc_final(void *ctx, const uint8_t *src_data, 7452ee414bSJens Wiklander size_t src_len, uint8_t *dst_data, 7552ee414bSJens Wiklander size_t *dst_len, uint8_t *dst_tag, 7652ee414bSJens Wiklander size_t *dst_tag_len); 7752ee414bSJens Wiklander TEE_Result crypto_authenc_dec_final(void *ctx, const uint8_t *src_data, 7852ee414bSJens Wiklander size_t src_len, uint8_t *dst_data, 7952ee414bSJens Wiklander size_t *dst_len, const uint8_t *tag, 8052ee414bSJens Wiklander size_t tag_len); 8152ee414bSJens Wiklander void crypto_authenc_final(void *ctx); 8252ee414bSJens Wiklander void crypto_authenc_free_ctx(void *ctx); 8352ee414bSJens Wiklander void crypto_authenc_copy_state(void *dst_ctx, void *src_ctx); 84e1770e71SJens Wiklander 855dfe86d0SJorge Ramirez-Ortiz /* Informs crypto that the data in the buffer will be removed from storage */ 866301ca1cSJorge Ramirez-Ortiz TEE_Result crypto_storage_obj_del(struct tee_obj *obj); 875dfe86d0SJorge Ramirez-Ortiz 88e1770e71SJens Wiklander /* Implementation-defined big numbers */ 89e1770e71SJens Wiklander 90e1770e71SJens Wiklander /* 91e1770e71SJens Wiklander * Allocate a bignum capable of holding an unsigned integer value of 92e1770e71SJens Wiklander * up to bitsize bits 93e1770e71SJens Wiklander */ 94e1770e71SJens Wiklander struct bignum *crypto_bignum_allocate(size_t size_bits); 95e1770e71SJens Wiklander TEE_Result crypto_bignum_bin2bn(const uint8_t *from, size_t fromsize, 96e1770e71SJens Wiklander struct bignum *to); 97e1770e71SJens Wiklander size_t crypto_bignum_num_bytes(struct bignum *a); 98e1770e71SJens Wiklander size_t crypto_bignum_num_bits(struct bignum *a); 99e1770e71SJens Wiklander void crypto_bignum_bn2bin(const struct bignum *from, uint8_t *to); 100e1770e71SJens Wiklander void crypto_bignum_copy(struct bignum *to, const struct bignum *from); 101e2ec831cSJihwan Park void crypto_bignum_free(struct bignum **a); 102e1770e71SJens Wiklander void crypto_bignum_clear(struct bignum *a); 103e1770e71SJens Wiklander 104e1770e71SJens Wiklander /* return -1 if a<b, 0 if a==b, +1 if a>b */ 105e1770e71SJens Wiklander int32_t crypto_bignum_compare(struct bignum *a, struct bignum *b); 106e1770e71SJens Wiklander 107e1770e71SJens Wiklander /* Asymmetric algorithms */ 108e1770e71SJens Wiklander 109e1770e71SJens Wiklander struct rsa_keypair { 110e1770e71SJens Wiklander struct bignum *e; /* Public exponent */ 111e1770e71SJens Wiklander struct bignum *d; /* Private exponent */ 112e1770e71SJens Wiklander struct bignum *n; /* Modulus */ 113e1770e71SJens Wiklander 114e1770e71SJens Wiklander /* Optional CRT parameters (all NULL if unused) */ 115e1770e71SJens Wiklander struct bignum *p; /* N = pq */ 116e1770e71SJens Wiklander struct bignum *q; 117e1770e71SJens Wiklander struct bignum *qp; /* 1/q mod p */ 118e1770e71SJens Wiklander struct bignum *dp; /* d mod (p-1) */ 119e1770e71SJens Wiklander struct bignum *dq; /* d mod (q-1) */ 120e1770e71SJens Wiklander }; 121e1770e71SJens Wiklander 122e1770e71SJens Wiklander struct rsa_public_key { 123e1770e71SJens Wiklander struct bignum *e; /* Public exponent */ 124e1770e71SJens Wiklander struct bignum *n; /* Modulus */ 125e1770e71SJens Wiklander }; 126e1770e71SJens Wiklander 127e1770e71SJens Wiklander struct dsa_keypair { 128e1770e71SJens Wiklander struct bignum *g; /* Generator of subgroup (public) */ 129e1770e71SJens Wiklander struct bignum *p; /* Prime number (public) */ 130e1770e71SJens Wiklander struct bignum *q; /* Order of subgroup (public) */ 131e1770e71SJens Wiklander struct bignum *y; /* Public key */ 132e1770e71SJens Wiklander struct bignum *x; /* Private key */ 133e1770e71SJens Wiklander }; 134e1770e71SJens Wiklander 135e1770e71SJens Wiklander struct dsa_public_key { 136e1770e71SJens Wiklander struct bignum *g; /* Generator of subgroup (public) */ 137e1770e71SJens Wiklander struct bignum *p; /* Prime number (public) */ 138e1770e71SJens Wiklander struct bignum *q; /* Order of subgroup (public) */ 139e1770e71SJens Wiklander struct bignum *y; /* Public key */ 140e1770e71SJens Wiklander }; 141e1770e71SJens Wiklander 142e1770e71SJens Wiklander struct dh_keypair { 143e1770e71SJens Wiklander struct bignum *g; /* Generator of Z_p (shared) */ 144e1770e71SJens Wiklander struct bignum *p; /* Prime modulus (shared) */ 145e1770e71SJens Wiklander struct bignum *x; /* Private key */ 146e1770e71SJens Wiklander struct bignum *y; /* Public key y = g^x */ 147e1770e71SJens Wiklander 148e1770e71SJens Wiklander /* 149e1770e71SJens Wiklander * Optional parameters used by key generation. 150e1770e71SJens Wiklander * When not used, q == NULL and xbits == 0 151e1770e71SJens Wiklander */ 152e1770e71SJens Wiklander struct bignum *q; /* x must be in the range [2, q-2] */ 153e1770e71SJens Wiklander uint32_t xbits; /* Number of bits in the private key */ 154e1770e71SJens Wiklander }; 155e1770e71SJens Wiklander 156e1770e71SJens Wiklander struct ecc_public_key { 157e1770e71SJens Wiklander struct bignum *x; /* Public value x */ 158e1770e71SJens Wiklander struct bignum *y; /* Public value y */ 159e1770e71SJens Wiklander uint32_t curve; /* Curve type */ 160df00cf59SCedric Neveux const struct crypto_ecc_public_ops *ops; /* Key Operations */ 161e1770e71SJens Wiklander }; 162e1770e71SJens Wiklander 163e1770e71SJens Wiklander struct ecc_keypair { 164e1770e71SJens Wiklander struct bignum *d; /* Private value */ 165e1770e71SJens Wiklander struct bignum *x; /* Public value x */ 166e1770e71SJens Wiklander struct bignum *y; /* Public value y */ 167e1770e71SJens Wiklander uint32_t curve; /* Curve type */ 168df00cf59SCedric Neveux const struct crypto_ecc_keypair_ops *ops; /* Key Operations */ 169e1770e71SJens Wiklander }; 170e1770e71SJens Wiklander 17146e25a17Sloubaihui struct montgomery_keypair { 17290040fa4SSohaib ul Hassan uint8_t *priv; /* Private value */ 17390040fa4SSohaib ul Hassan uint8_t *pub; /* Public value */ 17490040fa4SSohaib ul Hassan }; 17590040fa4SSohaib ul Hassan 176a116848bSValerii Chubar struct ed25519_keypair { 177a116848bSValerii Chubar uint8_t *priv; 178a116848bSValerii Chubar uint8_t *pub; 17903e07432SValerii Chubar uint32_t curve; 180a116848bSValerii Chubar }; 181a116848bSValerii Chubar 182c4cab13eSClement Faure struct ed25519_public_key { 183c4cab13eSClement Faure uint8_t *pub; 184c4cab13eSClement Faure uint32_t curve; 185c4cab13eSClement Faure }; 186c4cab13eSClement Faure 187e1770e71SJens Wiklander /* 188e1770e71SJens Wiklander * Key allocation functions 189e1770e71SJens Wiklander * Allocate the bignum's inside a key structure. 190e1770e71SJens Wiklander * TEE core will later use crypto_bignum_free(). 191e1770e71SJens Wiklander */ 192e1770e71SJens Wiklander TEE_Result crypto_acipher_alloc_rsa_keypair(struct rsa_keypair *s, 193e1770e71SJens Wiklander size_t key_size_bits); 194e1770e71SJens Wiklander TEE_Result crypto_acipher_alloc_rsa_public_key(struct rsa_public_key *s, 195e1770e71SJens Wiklander size_t key_size_bits); 196e1770e71SJens Wiklander void crypto_acipher_free_rsa_public_key(struct rsa_public_key *s); 197a1d5c81fSElias von Däniken void crypto_acipher_free_rsa_keypair(struct rsa_keypair *s); 198e1770e71SJens Wiklander TEE_Result crypto_acipher_alloc_dsa_keypair(struct dsa_keypair *s, 199e1770e71SJens Wiklander size_t key_size_bits); 200e1770e71SJens Wiklander TEE_Result crypto_acipher_alloc_dsa_public_key(struct dsa_public_key *s, 201e1770e71SJens Wiklander size_t key_size_bits); 202e1770e71SJens Wiklander TEE_Result crypto_acipher_alloc_dh_keypair(struct dh_keypair *s, 203e1770e71SJens Wiklander size_t key_size_bits); 204e1770e71SJens Wiklander TEE_Result crypto_acipher_alloc_ecc_public_key(struct ecc_public_key *s, 205df00cf59SCedric Neveux uint32_t key_type, 206e1770e71SJens Wiklander size_t key_size_bits); 207e1770e71SJens Wiklander TEE_Result crypto_acipher_alloc_ecc_keypair(struct ecc_keypair *s, 208df00cf59SCedric Neveux uint32_t key_type, 209e1770e71SJens Wiklander size_t key_size_bits); 210e1770e71SJens Wiklander void crypto_acipher_free_ecc_public_key(struct ecc_public_key *s); 21146e25a17Sloubaihui TEE_Result crypto_acipher_alloc_x25519_keypair(struct montgomery_keypair *s, 21290040fa4SSohaib ul Hassan size_t key_size_bits); 21334ce35b1Sloubaihui TEE_Result crypto_acipher_alloc_x448_keypair(struct montgomery_keypair *s, 21434ce35b1Sloubaihui size_t key_size_bits); 215a116848bSValerii Chubar TEE_Result crypto_acipher_alloc_ed25519_keypair(struct ed25519_keypair *s, 216a116848bSValerii Chubar size_t key_size_bits); 217c4cab13eSClement Faure TEE_Result 218c4cab13eSClement Faure crypto_acipher_alloc_ed25519_public_key(struct ed25519_public_key *key, 219c4cab13eSClement Faure size_t key_size); 220e1770e71SJens Wiklander 221e1770e71SJens Wiklander /* 222e1770e71SJens Wiklander * Key generation functions 223e1770e71SJens Wiklander */ 224e1770e71SJens Wiklander TEE_Result crypto_acipher_gen_rsa_key(struct rsa_keypair *key, size_t key_size); 225e1770e71SJens Wiklander TEE_Result crypto_acipher_gen_dsa_key(struct dsa_keypair *key, size_t key_size); 226e1770e71SJens Wiklander TEE_Result crypto_acipher_gen_dh_key(struct dh_keypair *key, struct bignum *q, 2279f4dcefbSJerome Forissier size_t xbits, size_t key_size); 22821282baeSJerome Forissier TEE_Result crypto_acipher_gen_ecc_key(struct ecc_keypair *key, size_t key_size); 22946e25a17Sloubaihui TEE_Result crypto_acipher_gen_x25519_key(struct montgomery_keypair *key, 23090040fa4SSohaib ul Hassan size_t key_size); 23134ce35b1Sloubaihui TEE_Result crypto_acipher_gen_x448_key(struct montgomery_keypair *key, 23234ce35b1Sloubaihui size_t key_size); 233a116848bSValerii Chubar TEE_Result crypto_acipher_gen_ed25519_key(struct ed25519_keypair *key, 234a116848bSValerii Chubar size_t key_size); 235a116848bSValerii Chubar TEE_Result crypto_acipher_ed25519_sign(struct ed25519_keypair *key, 236a116848bSValerii Chubar const uint8_t *msg, size_t msg_len, 237a116848bSValerii Chubar uint8_t *sig, size_t *sig_len); 238a116848bSValerii Chubar TEE_Result crypto_acipher_ed25519ctx_sign(struct ed25519_keypair *key, 239a116848bSValerii Chubar const uint8_t *msg, size_t msg_len, 240a116848bSValerii Chubar uint8_t *sig, size_t *sig_len, 241a116848bSValerii Chubar bool ph_flag, 242a116848bSValerii Chubar const uint8_t *ctx, size_t ctxlen); 243c4cab13eSClement Faure TEE_Result crypto_acipher_ed25519_verify(struct ed25519_public_key *key, 244a116848bSValerii Chubar const uint8_t *msg, size_t msg_len, 245a116848bSValerii Chubar const uint8_t *sig, size_t sig_len); 246c4cab13eSClement Faure TEE_Result crypto_acipher_ed25519ctx_verify(struct ed25519_public_key *key, 247a116848bSValerii Chubar const uint8_t *msg, size_t msg_len, 248a116848bSValerii Chubar const uint8_t *sig, size_t sig_len, 249a116848bSValerii Chubar bool ph_flag, 250a116848bSValerii Chubar const uint8_t *ctx, size_t ctxlen); 251e1770e71SJens Wiklander 252e1770e71SJens Wiklander TEE_Result crypto_acipher_dh_shared_secret(struct dh_keypair *private_key, 253e1770e71SJens Wiklander struct bignum *public_key, 254e1770e71SJens Wiklander struct bignum *secret); 255e1770e71SJens Wiklander 256e1770e71SJens Wiklander TEE_Result crypto_acipher_rsanopad_decrypt(struct rsa_keypair *key, 257e1770e71SJens Wiklander const uint8_t *src, size_t src_len, 258e1770e71SJens Wiklander uint8_t *dst, size_t *dst_len); 259e1770e71SJens Wiklander TEE_Result crypto_acipher_rsanopad_encrypt(struct rsa_public_key *key, 260e1770e71SJens Wiklander const uint8_t *src, size_t src_len, 261e1770e71SJens Wiklander uint8_t *dst, size_t *dst_len); 262e1770e71SJens Wiklander TEE_Result crypto_acipher_rsaes_decrypt(uint32_t algo, struct rsa_keypair *key, 263e1770e71SJens Wiklander const uint8_t *label, size_t label_len, 264*86ee543bSSami Tolvanen uint32_t mgf_algo, 265e1770e71SJens Wiklander const uint8_t *src, size_t src_len, 266e1770e71SJens Wiklander uint8_t *dst, size_t *dst_len); 267e1770e71SJens Wiklander TEE_Result crypto_acipher_rsaes_encrypt(uint32_t algo, 268e1770e71SJens Wiklander struct rsa_public_key *key, 269e1770e71SJens Wiklander const uint8_t *label, size_t label_len, 270*86ee543bSSami Tolvanen uint32_t mgf_algo, 271e1770e71SJens Wiklander const uint8_t *src, size_t src_len, 272e1770e71SJens Wiklander uint8_t *dst, size_t *dst_len); 273e1770e71SJens Wiklander /* RSA SSA sign/verify: if salt_len == -1, use default value */ 274e1770e71SJens Wiklander TEE_Result crypto_acipher_rsassa_sign(uint32_t algo, struct rsa_keypair *key, 275e1770e71SJens Wiklander int salt_len, const uint8_t *msg, 276e1770e71SJens Wiklander size_t msg_len, uint8_t *sig, 277e1770e71SJens Wiklander size_t *sig_len); 278e1770e71SJens Wiklander TEE_Result crypto_acipher_rsassa_verify(uint32_t algo, 279e1770e71SJens Wiklander struct rsa_public_key *key, 280e1770e71SJens Wiklander int salt_len, const uint8_t *msg, 281e1770e71SJens Wiklander size_t msg_len, const uint8_t *sig, 282e1770e71SJens Wiklander size_t sig_len); 283e1770e71SJens Wiklander TEE_Result crypto_acipher_dsa_sign(uint32_t algo, struct dsa_keypair *key, 284e1770e71SJens Wiklander const uint8_t *msg, size_t msg_len, 285e1770e71SJens Wiklander uint8_t *sig, size_t *sig_len); 286e1770e71SJens Wiklander TEE_Result crypto_acipher_dsa_verify(uint32_t algo, struct dsa_public_key *key, 287e1770e71SJens Wiklander const uint8_t *msg, size_t msg_len, 288e1770e71SJens Wiklander const uint8_t *sig, size_t sig_len); 289e1770e71SJens Wiklander TEE_Result crypto_acipher_ecc_sign(uint32_t algo, struct ecc_keypair *key, 290e1770e71SJens Wiklander const uint8_t *msg, size_t msg_len, 291e1770e71SJens Wiklander uint8_t *sig, size_t *sig_len); 292e1770e71SJens Wiklander TEE_Result crypto_acipher_ecc_verify(uint32_t algo, struct ecc_public_key *key, 293e1770e71SJens Wiklander const uint8_t *msg, size_t msg_len, 294e1770e71SJens Wiklander const uint8_t *sig, size_t sig_len); 295e1770e71SJens Wiklander TEE_Result crypto_acipher_ecc_shared_secret(struct ecc_keypair *private_key, 296e1770e71SJens Wiklander struct ecc_public_key *public_key, 297e1770e71SJens Wiklander void *secret, 298e1770e71SJens Wiklander unsigned long *secret_len); 29991fc6bd8SJerome Forissier TEE_Result crypto_acipher_sm2_pke_decrypt(struct ecc_keypair *key, 30091fc6bd8SJerome Forissier const uint8_t *src, size_t src_len, 30191fc6bd8SJerome Forissier uint8_t *dst, size_t *dst_len); 30291fc6bd8SJerome Forissier TEE_Result crypto_acipher_sm2_pke_encrypt(struct ecc_public_key *key, 30391fc6bd8SJerome Forissier const uint8_t *src, size_t src_len, 30491fc6bd8SJerome Forissier uint8_t *dst, size_t *dst_len); 30546e25a17Sloubaihui TEE_Result crypto_acipher_x25519_shared_secret(struct montgomery_keypair 30690040fa4SSohaib ul Hassan *private_key, 30790040fa4SSohaib ul Hassan void *public_key, void *secret, 30890040fa4SSohaib ul Hassan unsigned long *secret_len); 30934ce35b1Sloubaihui TEE_Result crypto_acipher_x448_shared_secret(struct montgomery_keypair 31034ce35b1Sloubaihui *private_key, 31134ce35b1Sloubaihui void *public_key, void *secret, 31234ce35b1Sloubaihui unsigned long *secret_len); 313e1770e71SJens Wiklander 3145b385b3fSJerome Forissier struct sm2_kep_parms { 3155b385b3fSJerome Forissier uint8_t *out; 3165b385b3fSJerome Forissier size_t out_len; 3175b385b3fSJerome Forissier bool is_initiator; 3185b385b3fSJerome Forissier const uint8_t *initiator_id; 3195b385b3fSJerome Forissier size_t initiator_id_len; 3205b385b3fSJerome Forissier const uint8_t *responder_id; 3215b385b3fSJerome Forissier size_t responder_id_len; 3225b385b3fSJerome Forissier const uint8_t *conf_in; 3235b385b3fSJerome Forissier size_t conf_in_len; 3245b385b3fSJerome Forissier uint8_t *conf_out; 3255b385b3fSJerome Forissier size_t conf_out_len; 3265b385b3fSJerome Forissier }; 3275b385b3fSJerome Forissier 3285b385b3fSJerome Forissier TEE_Result crypto_acipher_sm2_kep_derive(struct ecc_keypair *my_key, 3295b385b3fSJerome Forissier struct ecc_keypair *my_eph_key, 3305b385b3fSJerome Forissier struct ecc_public_key *peer_key, 3315b385b3fSJerome Forissier struct ecc_public_key *peer_eph_key, 3325b385b3fSJerome Forissier struct sm2_kep_parms *p); 3335b385b3fSJerome Forissier 334e1770e71SJens Wiklander /* 335e1770e71SJens Wiklander * Verifies a SHA-256 hash, doesn't require crypto_init() to be called in 336e1770e71SJens Wiklander * advance and has as few dependencies as possible. 337e1770e71SJens Wiklander * 338e1770e71SJens Wiklander * This function is primarily used by pager and early initialization code 339e1770e71SJens Wiklander * where the complete crypto library isn't available. 340e1770e71SJens Wiklander */ 341e1770e71SJens Wiklander TEE_Result hash_sha256_check(const uint8_t *hash, const uint8_t *data, 342e1770e71SJens Wiklander size_t data_size); 343e1770e71SJens Wiklander 344b8bb0afaSSumit Garg /* 345b8bb0afaSSumit Garg * Computes a SHA-512/256 hash, vetted conditioner as per NIST.SP.800-90B. 346b8bb0afaSSumit Garg * It doesn't require crypto_init() to be called in advance and has as few 347b8bb0afaSSumit Garg * dependencies as possible. 348b8bb0afaSSumit Garg * 349b8bb0afaSSumit Garg * This function could be used inside interrupt context where the crypto 350b8bb0afaSSumit Garg * library can't be used due to mutex handling. 351b8bb0afaSSumit Garg */ 352b8bb0afaSSumit Garg TEE_Result hash_sha512_256_compute(uint8_t *digest, const uint8_t *data, 353b8bb0afaSSumit Garg size_t data_size); 354b8bb0afaSSumit Garg 3556e954a6eSJens Wiklander #define CRYPTO_RNG_SRC_IS_QUICK(sid) (!!((sid) & 1)) 356e1770e71SJens Wiklander 3576e954a6eSJens Wiklander /* 3586e954a6eSJens Wiklander * enum crypto_rng_src - RNG entropy source 3596e954a6eSJens Wiklander * 3606e954a6eSJens Wiklander * Identifiers for different RNG entropy sources. The lowest bit indicates 3616e954a6eSJens Wiklander * if the source is to be merely queued (bit is 1) or if it's delivered 3626e954a6eSJens Wiklander * directly to the pool. The difference is that in the latter case RPC to 3636e954a6eSJens Wiklander * normal world can be performed and in the former it must not. 3646e954a6eSJens Wiklander */ 3656e954a6eSJens Wiklander enum crypto_rng_src { 3666e954a6eSJens Wiklander CRYPTO_RNG_SRC_JITTER_SESSION = (0 << 1 | 0), 3676e954a6eSJens Wiklander CRYPTO_RNG_SRC_JITTER_RPC = (1 << 1 | 1), 3686e954a6eSJens Wiklander CRYPTO_RNG_SRC_NONSECURE = (1 << 1 | 0), 3696e954a6eSJens Wiklander }; 370e1770e71SJens Wiklander 3716e954a6eSJens Wiklander /* 3726e954a6eSJens Wiklander * crypto_rng_init() - initialize the RNG 3736e954a6eSJens Wiklander * @data: buffer with initial seed 3746e954a6eSJens Wiklander * @dlen: length of @data 3756e954a6eSJens Wiklander */ 3766e954a6eSJens Wiklander TEE_Result crypto_rng_init(const void *data, size_t dlen); 3776e954a6eSJens Wiklander 3786e954a6eSJens Wiklander /* 3796e954a6eSJens Wiklander * crypto_rng_add_event() - supply entropy to RNG from a source 3806e954a6eSJens Wiklander * @sid: Source identifier, should be unique for a specific source 3816e954a6eSJens Wiklander * @pnum: Pool number, acquired using crypto_rng_get_next_pool_num() 3826e954a6eSJens Wiklander * @data: Data associated with the event 3836e954a6eSJens Wiklander * @dlen: Length of @data 3846e954a6eSJens Wiklander * 3856e954a6eSJens Wiklander * @sid controls whether the event is merly queued in a ring buffer or if 3866e954a6eSJens Wiklander * it's added to one of the pools directly. If CRYPTO_RNG_SRC_IS_QUICK() is 3876e954a6eSJens Wiklander * true (lowest bit set) events are queue otherwise added to corresponding 3886e954a6eSJens Wiklander * pool. If CRYPTO_RNG_SRC_IS_QUICK() is false, eventual queued events are 3896e954a6eSJens Wiklander * added to their queues too. 3906e954a6eSJens Wiklander */ 3916e954a6eSJens Wiklander void crypto_rng_add_event(enum crypto_rng_src sid, unsigned int *pnum, 3926e954a6eSJens Wiklander const void *data, size_t dlen); 3936e954a6eSJens Wiklander 3946e954a6eSJens Wiklander /* 3956e954a6eSJens Wiklander * crypto_rng_read() - read cryptograhically secure RNG 3966e954a6eSJens Wiklander * @buf: Buffer to hold the data 3976e954a6eSJens Wiklander * @len: Length of buffer. 3986e954a6eSJens Wiklander * 3996e954a6eSJens Wiklander * Eventual queued events are also added to their pools during this 4006e954a6eSJens Wiklander * function call. 4016e954a6eSJens Wiklander */ 4026e954a6eSJens Wiklander TEE_Result crypto_rng_read(void *buf, size_t len); 403e1770e71SJens Wiklander 404e7dbc357SSummer Qin /* 405e7dbc357SSummer Qin * crypto_aes_expand_enc_key() - Expand an AES key 406e7dbc357SSummer Qin * @key: AES key buffer 4074746d394SMarkus S. Wamser * @key_len: Size of the @key buffer in bytes 408e7dbc357SSummer Qin * @enc_key: Expanded AES encryption key buffer 409e7dbc357SSummer Qin * @enc_keylen: Size of the @enc_key buffer in bytes 410e7dbc357SSummer Qin * @rounds: Number of rounds to be used during encryption 411e7dbc357SSummer Qin */ 4120d360202SJens Wiklander TEE_Result crypto_aes_expand_enc_key(const void *key, size_t key_len, 413e7dbc357SSummer Qin void *enc_key, size_t enc_keylen, 414e7dbc357SSummer Qin unsigned int *rounds); 415e7dbc357SSummer Qin 416e7dbc357SSummer Qin /* 417e7dbc357SSummer Qin * crypto_aes_enc_block() - Encrypt an AES block 418e7dbc357SSummer Qin * @enc_key: Expanded AES encryption key 419e7dbc357SSummer Qin * @enc_keylen: Size of @enc_key in bytes 420e7dbc357SSummer Qin * @rounds: Number of rounds 421e7dbc357SSummer Qin * @src: Source buffer of one AES block (16 bytes) 422e7dbc357SSummer Qin * @dst: Destination buffer of one AES block (16 bytes) 423e7dbc357SSummer Qin */ 424e7dbc357SSummer Qin void crypto_aes_enc_block(const void *enc_key, size_t enc_keylen, 425e7dbc357SSummer Qin unsigned int rounds, const void *src, void *dst); 4260d360202SJens Wiklander 427e1770e71SJens Wiklander #endif /* __CRYPTO_CRYPTO_H */ 428