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// SPDX-License-Identifier: BSD-2-Clause
/*
* Copyright (c) 2017, Linaro Limited
*/
#include <assert.h>
#include <compiler.h>
#include <crypto/aes-ccm.h>
#include <crypto/aes-gcm.h>
#include <crypto/crypto.h>
#include <kernel/panic.h>
#include <stdlib.h>
#include <string.h>
#if !defined(_CFG_CRYPTO_WITH_HASH)
TEE_Result crypto_hash_alloc_ctx(void **ctx __unused, uint32_t algo __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
void crypto_hash_free_ctx(void *ctx __unused, uint32_t algo __unused)
{
assert(0);
}
void crypto_hash_copy_state(void *dst_ctx __unused, void *src_ctx __unused,
uint32_t algo __unused)
{
assert(0);
}
TEE_Result crypto_hash_init(void *ctx __unused, uint32_t algo __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_hash_update(void *ctx __unused, uint32_t algo __unused,
const uint8_t *data __unused, size_t len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_hash_final(void *ctx __unused, uint32_t algo __unused,
uint8_t *digest __unused, size_t len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
#endif /*_CFG_CRYPTO_WITH_HASH*/
#if !defined(_CFG_CRYPTO_WITH_CIPHER)
TEE_Result crypto_cipher_alloc_ctx(void **ctx __unused, uint32_t algo __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
void crypto_cipher_free_ctx(void *ctx __unused, uint32_t algo __unused)
{
assert(0);
}
void crypto_cipher_copy_state(void *dst_ctx __unused, void *src_ctx __unused,
uint32_t algo __unused)
{
assert(0);
}
TEE_Result crypto_cipher_init(void *ctx __unused, uint32_t algo __unused,
TEE_OperationMode mode __unused,
const uint8_t *key1 __unused,
size_t key1_len __unused,
const uint8_t *key2 __unused,
size_t key2_len __unused,
const uint8_t *iv __unused,
size_t iv_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_cipher_update(void *ctx __unused, uint32_t algo __unused,
TEE_OperationMode mode __unused,
bool last_block __unused,
const uint8_t *data __unused,
size_t len __unused, uint8_t *dst __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
void crypto_cipher_final(void *ctx __unused, uint32_t algo __unused)
{
}
TEE_Result crypto_cipher_get_block_size(uint32_t algo __unused,
size_t *size __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
#endif /*_CFG_CRYPTO_WITH_CIPHER*/
#if !defined(_CFG_CRYPTO_WITH_MAC)
TEE_Result crypto_mac_alloc_ctx(void **ctx __unused, uint32_t algo __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
void crypto_mac_free_ctx(void *ctx __unused, uint32_t algo __unused)
{
assert(0);
}
void crypto_mac_copy_state(void *dst_ctx __unused, void *src_ctx __unused,
uint32_t algo __unused)
{
assert(0);
}
TEE_Result crypto_mac_init(void *ctx __unused, uint32_t algo __unused,
const uint8_t *key __unused, size_t len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_mac_update(void *ctx __unused, uint32_t algo __unused,
const uint8_t *data __unused, size_t len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_mac_final(void *ctx __unused, uint32_t algo __unused,
uint8_t *digest __unused,
size_t digest_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
#endif /*_CFG_CRYPTO_WITH_MAC*/
TEE_Result crypto_authenc_alloc_ctx(void **ctx, uint32_t algo)
{
switch (algo) {
#if defined(CFG_CRYPTO_CCM)
case TEE_ALG_AES_CCM:
return crypto_aes_ccm_alloc_ctx(ctx);
#endif
#if defined(CFG_CRYPTO_GCM)
case TEE_ALG_AES_GCM:
return crypto_aes_gcm_alloc_ctx(ctx);
#endif
default:
return TEE_ERROR_NOT_IMPLEMENTED;
}
}
void crypto_authenc_free_ctx(void *ctx, uint32_t algo)
{
switch (algo) {
#if defined(CFG_CRYPTO_CCM)
case TEE_ALG_AES_CCM:
crypto_aes_ccm_free_ctx(ctx);
break;
#endif
#if defined(CFG_CRYPTO_GCM)
case TEE_ALG_AES_GCM:
crypto_aes_gcm_free_ctx(ctx);
break;
#endif
default:
assert(0);
}
}
void crypto_authenc_copy_state(void *dst_ctx, void *src_ctx, uint32_t algo)
{
switch (algo) {
#if defined(CFG_CRYPTO_CCM)
case TEE_ALG_AES_CCM:
crypto_aes_ccm_copy_state(dst_ctx, src_ctx);
break;
#endif
#if defined(CFG_CRYPTO_GCM)
case TEE_ALG_AES_GCM:
crypto_aes_gcm_copy_state(dst_ctx, src_ctx);
break;
#endif
default:
assert(0);
}
}
TEE_Result crypto_authenc_init(void *ctx __maybe_unused,
uint32_t algo __maybe_unused,
TEE_OperationMode mode __maybe_unused,
const uint8_t *key __maybe_unused,
size_t key_len __maybe_unused,
const uint8_t *nonce __maybe_unused,
size_t nonce_len __maybe_unused,
size_t tag_len __maybe_unused,
size_t aad_len __maybe_unused,
size_t payload_len __maybe_unused)
{
switch (algo) {
#if defined(CFG_CRYPTO_CCM)
case TEE_ALG_AES_CCM:
return crypto_aes_ccm_init(ctx, mode, key, key_len, nonce,
nonce_len, tag_len, aad_len,
payload_len);
#endif
#if defined(CFG_CRYPTO_GCM)
case TEE_ALG_AES_GCM:
return crypto_aes_gcm_init(ctx, mode, key, key_len, nonce,
nonce_len, tag_len);
#endif
default:
return TEE_ERROR_NOT_IMPLEMENTED;
}
}
TEE_Result crypto_authenc_update_aad(void *ctx __maybe_unused,
uint32_t algo __maybe_unused,
TEE_OperationMode mode __unused,
const uint8_t *data __maybe_unused,
size_t len __maybe_unused)
{
switch (algo) {
#if defined(CFG_CRYPTO_CCM)
case TEE_ALG_AES_CCM:
return crypto_aes_ccm_update_aad(ctx, data, len);
#endif
#if defined(CFG_CRYPTO_GCM)
case TEE_ALG_AES_GCM:
return crypto_aes_gcm_update_aad(ctx, data, len);
#endif
default:
return TEE_ERROR_NOT_IMPLEMENTED;
}
}
TEE_Result crypto_authenc_update_payload(void *ctx __maybe_unused,
uint32_t algo __maybe_unused,
TEE_OperationMode mode __maybe_unused,
const uint8_t *src_data __maybe_unused,
size_t src_len __maybe_unused,
uint8_t *dst_data __maybe_unused,
size_t *dst_len __maybe_unused)
{
size_t dl = *dst_len;
*dst_len = src_len;
if (dl < src_len)
return TEE_ERROR_SHORT_BUFFER;
switch (algo) {
#if defined(CFG_CRYPTO_CCM)
case TEE_ALG_AES_CCM:
return crypto_aes_ccm_update_payload(ctx, mode, src_data,
src_len, dst_data);
#endif
#if defined(CFG_CRYPTO_GCM)
case TEE_ALG_AES_GCM:
return crypto_aes_gcm_update_payload(ctx, mode, src_data,
src_len, dst_data);
#endif
default:
return TEE_ERROR_NOT_IMPLEMENTED;
}
}
TEE_Result crypto_authenc_enc_final(void *ctx __maybe_unused,
uint32_t algo __maybe_unused,
const uint8_t *src_data __maybe_unused,
size_t src_len __maybe_unused,
uint8_t *dst_data __maybe_unused,
size_t *dst_len __maybe_unused,
uint8_t *dst_tag __maybe_unused,
size_t *dst_tag_len __maybe_unused)
{
size_t dl = *dst_len;
*dst_len = src_len;
if (dl < src_len)
return TEE_ERROR_SHORT_BUFFER;
switch (algo) {
#if defined(CFG_CRYPTO_CCM)
case TEE_ALG_AES_CCM:
return crypto_aes_ccm_enc_final(ctx, src_data, src_len,
dst_data, dst_tag, dst_tag_len);
#endif
#if defined(CFG_CRYPTO_GCM)
case TEE_ALG_AES_GCM:
return crypto_aes_gcm_enc_final(ctx, src_data, src_len,
dst_data, dst_tag, dst_tag_len);
#endif
default:
return TEE_ERROR_NOT_IMPLEMENTED;
}
}
TEE_Result crypto_authenc_dec_final(void *ctx __maybe_unused,
uint32_t algo __maybe_unused,
const uint8_t *src_data __maybe_unused,
size_t src_len __maybe_unused,
uint8_t *dst_data __maybe_unused,
size_t *dst_len __maybe_unused,
const uint8_t *tag __maybe_unused,
size_t tag_len __maybe_unused)
{
size_t dl = *dst_len;
*dst_len = src_len;
if (dl < src_len)
return TEE_ERROR_SHORT_BUFFER;
switch (algo) {
#if defined(CFG_CRYPTO_CCM)
case TEE_ALG_AES_CCM:
return crypto_aes_ccm_dec_final(ctx, src_data, src_len,
dst_data, tag, tag_len);
#endif
#if defined(CFG_CRYPTO_GCM)
case TEE_ALG_AES_GCM:
return crypto_aes_gcm_dec_final(ctx, src_data, src_len,
dst_data, tag, tag_len);
#endif
default:
return TEE_ERROR_NOT_IMPLEMENTED;
}
}
void crypto_authenc_final(void *ctx __maybe_unused,
uint32_t algo __maybe_unused)
{
switch (algo) {
#if defined(CFG_CRYPTO_CCM)
case TEE_ALG_AES_CCM:
crypto_aes_ccm_final(ctx);
break;
#endif
#if defined(CFG_CRYPTO_GCM)
case TEE_ALG_AES_GCM:
crypto_aes_gcm_final(ctx);
break;
#endif
default:
break;
}
}
#if !defined(_CFG_CRYPTO_WITH_ACIPHER)
struct bignum *crypto_bignum_allocate(size_t size_bits __unused)
{
return NULL;
}
TEE_Result crypto_bignum_bin2bn(const uint8_t *from __unused,
size_t fromsize __unused,
struct bignum *to __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
size_t crypto_bignum_num_bytes(struct bignum *a __unused)
{
return 0;
}
size_t crypto_bignum_num_bits(struct bignum *a __unused)
{
return 0;
}
/*
* crypto_bignum_allocate() and crypto_bignum_bin2bn() failing should be
* enough to guarantee that the functions calling this function aren't
* called, but just in case add a panic() here to avoid unexpected
* behavoir.
*/
static void bignum_cant_happen(void)
{
volatile bool b = true;
/* Avoid warning about function does not return */
if (b)
panic();
}
void crypto_bignum_bn2bin(const struct bignum *from __unused,
uint8_t *to __unused)
{
bignum_cant_happen();
}
void crypto_bignum_copy(struct bignum *to __unused,
const struct bignum *from __unused)
{
bignum_cant_happen();
}
void crypto_bignum_free(struct bignum *a)
{
if (a)
panic();
}
void crypto_bignum_clear(struct bignum *a __unused)
{
bignum_cant_happen();
}
/* return -1 if a<b, 0 if a==b, +1 if a>b */
int32_t crypto_bignum_compare(struct bignum *a __unused,
struct bignum *b __unused)
{
bignum_cant_happen();
return -1;
}
#endif /*!_CFG_CRYPTO_WITH_ACIPHER*/
#if !defined(CFG_CRYPTO_RSA) || !defined(_CFG_CRYPTO_WITH_ACIPHER)
TEE_Result crypto_acipher_alloc_rsa_keypair(struct rsa_keypair *s __unused,
size_t key_size_bits __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result
crypto_acipher_alloc_rsa_public_key(struct rsa_public_key *s __unused,
size_t key_size_bits __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
void crypto_acipher_free_rsa_public_key(struct rsa_public_key *s __unused)
{
}
TEE_Result crypto_acipher_gen_rsa_key(struct rsa_keypair *key __unused,
size_t key_size __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_rsanopad_decrypt(struct rsa_keypair *key __unused,
const uint8_t *src __unused,
size_t src_len __unused,
uint8_t *dst __unused,
size_t *dst_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_rsanopad_encrypt(struct rsa_public_key *key __unused,
const uint8_t *src __unused,
size_t src_len __unused,
uint8_t *dst __unused,
size_t *dst_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_rsaes_decrypt(uint32_t algo __unused,
struct rsa_keypair *key __unused,
const uint8_t *label __unused,
size_t label_len __unused,
const uint8_t *src __unused,
size_t src_len __unused,
uint8_t *dst __unused,
size_t *dst_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_rsaes_encrypt(uint32_t algo __unused,
struct rsa_public_key *key __unused,
const uint8_t *label __unused,
size_t label_len __unused,
const uint8_t *src __unused,
size_t src_len __unused,
uint8_t *dst __unused,
size_t *dst_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_rsassa_sign(uint32_t algo __unused,
struct rsa_keypair *key __unused,
int salt_len __unused,
const uint8_t *msg __unused,
size_t msg_len __unused,
uint8_t *sig __unused,
size_t *sig_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_rsassa_verify(uint32_t algo __unused,
struct rsa_public_key *key __unused,
int salt_len __unused,
const uint8_t *msg __unused,
size_t msg_len __unused,
const uint8_t *sig __unused,
size_t sig_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
#endif /*!CFG_CRYPTO_RSA || !_CFG_CRYPTO_WITH_ACIPHER*/
#if !defined(CFG_CRYPTO_DSA) || !defined(_CFG_CRYPTO_WITH_ACIPHER)
TEE_Result crypto_acipher_alloc_dsa_keypair(struct dsa_keypair *s __unused,
size_t key_size_bits __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result
crypto_acipher_alloc_dsa_public_key(struct dsa_public_key *s __unused,
size_t key_size_bits __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_gen_dsa_key(struct dsa_keypair *key __unused,
size_t key_size __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_dsa_sign(uint32_t algo __unused,
struct dsa_keypair *key __unused,
const uint8_t *msg __unused,
size_t msg_len __unused,
uint8_t *sig __unused,
size_t *sig_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_dsa_verify(uint32_t algo __unused,
struct dsa_public_key *key __unused,
const uint8_t *msg __unused,
size_t msg_len __unused,
const uint8_t *sig __unused,
size_t sig_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
#endif /*!CFG_CRYPTO_DSA || !_CFG_CRYPTO_WITH_ACIPHER*/
#if !defined(CFG_CRYPTO_DH) || !defined(_CFG_CRYPTO_WITH_ACIPHER)
TEE_Result crypto_acipher_alloc_dh_keypair(struct dh_keypair *s __unused,
size_t key_size_bits __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_gen_dh_key(struct dh_keypair *key __unused,
struct bignum *q __unused,
size_t xbits __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result
crypto_acipher_dh_shared_secret(struct dh_keypair *private_key __unused,
struct bignum *public_key __unused,
struct bignum *secret __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
#endif /*!CFG_CRYPTO_DH || !_CFG_CRYPTO_WITH_ACIPHER*/
#if !defined(CFG_CRYPTO_ECC) || !defined(_CFG_CRYPTO_WITH_ACIPHER)
TEE_Result
crypto_acipher_alloc_ecc_public_key(struct ecc_public_key *s __unused,
size_t key_size_bits __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_alloc_ecc_keypair(struct ecc_keypair *s __unused,
size_t key_size_bits __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
void crypto_acipher_free_ecc_public_key(struct ecc_public_key *s __unused)
{
}
TEE_Result crypto_acipher_gen_ecc_key(struct ecc_keypair *key __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_ecc_sign(uint32_t algo __unused,
struct ecc_keypair *key __unused,
const uint8_t *msg __unused,
size_t msg_len __unused,
uint8_t *sig __unused,
size_t *sig_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result crypto_acipher_ecc_verify(uint32_t algo __unused,
struct ecc_public_key *key __unused,
const uint8_t *msg __unused,
size_t msg_len __unused,
const uint8_t *sig __unused,
size_t sig_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
TEE_Result
crypto_acipher_ecc_shared_secret(struct ecc_keypair *private_key __unused,
struct ecc_public_key *public_key __unused,
void *secret __unused,
unsigned long *secret_len __unused)
{
return TEE_ERROR_NOT_IMPLEMENTED;
}
#endif /*!CFG_CRYPTO_ECC || !_CFG_CRYPTO_WITH_ACIPHER*/
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