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|
/*
* Copyright (C) 2000-2016 Free Software Foundation, Inc.
* Copyright (C) 2016 Red Hat, Inc.
*
* Author: Nikos Mavrogiannopoulos
*
* This file is part of GnuTLS.
*
* The GnuTLS is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation; either version 2.1 of
* the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>
*
*/
#include "gnutls_int.h"
#include "errors.h"
#include <cipher_int.h>
#include <datum.h>
#include <gnutls/crypto.h>
#include <algorithms.h>
#include <random.h>
#include <crypto.h>
#include <fips.h>
#include "crypto-api.h"
typedef struct api_cipher_hd_st {
cipher_hd_st ctx_enc;
cipher_hd_st ctx_dec;
} api_cipher_hd_st;
/**
* gnutls_cipher_init:
* @handle: is a #gnutls_cipher_hd_t type
* @cipher: the encryption algorithm to use
* @key: the key to be used for encryption/decryption
* @iv: the IV to use (if not applicable set NULL)
*
* This function will initialize the @handle context to be usable
* for encryption/decryption of data. This will effectively use the
* current crypto backend in use by gnutls or the cryptographic
* accelerator in use.
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.10.0
**/
int
gnutls_cipher_init(gnutls_cipher_hd_t * handle,
gnutls_cipher_algorithm_t cipher,
const gnutls_datum_t * key, const gnutls_datum_t * iv)
{
api_cipher_hd_st *h;
int ret;
const cipher_entry_st* e;
if (is_cipher_algo_forbidden(cipher))
return gnutls_assert_val(GNUTLS_E_UNWANTED_ALGORITHM);
e = cipher_to_entry(cipher);
if (e == NULL || e->only_aead)
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
*handle = gnutls_calloc(1, sizeof(api_cipher_hd_st));
if (*handle == NULL) {
gnutls_assert();
return GNUTLS_E_MEMORY_ERROR;
}
h = *handle;
ret =
_gnutls_cipher_init(&h->ctx_enc, e, key,
iv, 1);
if (ret >= 0 && _gnutls_cipher_type(e) == CIPHER_BLOCK)
ret =
_gnutls_cipher_init(&h->ctx_dec, e, key, iv, 0);
return ret;
}
/**
* gnutls_cipher_tag:
* @handle: is a #gnutls_cipher_hd_t type
* @tag: will hold the tag
* @tag_size: the length of the tag to return
*
* This function operates on authenticated encryption with
* associated data (AEAD) ciphers and will return the
* output tag.
*
* Returns: Zero or a negative error code on error.
*
* Since: 3.0
**/
int
gnutls_cipher_tag(gnutls_cipher_hd_t handle, void *tag, size_t tag_size)
{
api_cipher_hd_st *h = handle;
if (_gnutls_cipher_is_aead(&h->ctx_enc) == 0)
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
_gnutls_cipher_tag(&h->ctx_enc, tag, tag_size);
return 0;
}
/**
* gnutls_cipher_add_auth:
* @handle: is a #gnutls_cipher_hd_t type
* @ptext: the data to be authenticated
* @ptext_size: the length of the data
*
* This function operates on authenticated encryption with
* associated data (AEAD) ciphers and authenticate the
* input data. This function can only be called once
* and before any encryption operations.
*
* Returns: Zero or a negative error code on error.
*
* Since: 3.0
**/
int
gnutls_cipher_add_auth(gnutls_cipher_hd_t handle, const void *ptext,
size_t ptext_size)
{
api_cipher_hd_st *h = handle;
if (_gnutls_cipher_is_aead(&h->ctx_enc) == 0)
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
return _gnutls_cipher_auth(&h->ctx_enc, ptext, ptext_size);
}
/**
* gnutls_cipher_set_iv:
* @handle: is a #gnutls_cipher_hd_t type
* @iv: the IV to set
* @ivlen: the length of the IV
*
* This function will set the IV to be used for the next
* encryption block.
*
* Since: 3.0
**/
void
gnutls_cipher_set_iv(gnutls_cipher_hd_t handle, void *iv, size_t ivlen)
{
api_cipher_hd_st *h = handle;
if (_gnutls_cipher_setiv(&h->ctx_enc, iv, ivlen) < 0) {
_gnutls_switch_lib_state(LIB_STATE_ERROR);
}
if (_gnutls_cipher_type(h->ctx_enc.e) == CIPHER_BLOCK)
if (_gnutls_cipher_setiv(&h->ctx_dec, iv, ivlen) < 0) {
_gnutls_switch_lib_state(LIB_STATE_ERROR);
}
}
/**
* gnutls_cipher_encrypt:
* @handle: is a #gnutls_cipher_hd_t type
* @ptext: the data to encrypt
* @ptext_len: the length of data to encrypt
*
* This function will encrypt the given data using the algorithm
* specified by the context.
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.10.0
**/
int
gnutls_cipher_encrypt(gnutls_cipher_hd_t handle, void *ptext,
size_t ptext_len)
{
api_cipher_hd_st *h = handle;
return _gnutls_cipher_encrypt(&h->ctx_enc, ptext, ptext_len);
}
/**
* gnutls_cipher_decrypt:
* @handle: is a #gnutls_cipher_hd_t type
* @ctext: the data to decrypt
* @ctext_len: the length of data to decrypt
*
* This function will decrypt the given data using the algorithm
* specified by the context.
*
* Note that in AEAD ciphers, this will not check the tag. You will
* need to compare the tag sent with the value returned from gnutls_cipher_tag().
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.10.0
**/
int
gnutls_cipher_decrypt(gnutls_cipher_hd_t handle, void *ctext,
size_t ctext_len)
{
api_cipher_hd_st *h = handle;
if (_gnutls_cipher_type(h->ctx_enc.e) != CIPHER_BLOCK)
return _gnutls_cipher_decrypt(&h->ctx_enc, ctext,
ctext_len);
else
return _gnutls_cipher_decrypt(&h->ctx_dec, ctext,
ctext_len);
}
/**
* gnutls_cipher_encrypt2:
* @handle: is a #gnutls_cipher_hd_t type
* @ptext: the data to encrypt
* @ptext_len: the length of data to encrypt
* @ctext: the encrypted data
* @ctext_len: the available length for encrypted data
*
* This function will encrypt the given data using the algorithm
* specified by the context. For block ciphers the @ptext_len must be
* a multiple of the block size. For the supported ciphers the encrypted
* data length will equal the plaintext size.
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.12.0
**/
int
gnutls_cipher_encrypt2(gnutls_cipher_hd_t handle, const void *ptext,
size_t ptext_len, void *ctext,
size_t ctext_len)
{
api_cipher_hd_st *h = handle;
return _gnutls_cipher_encrypt2(&h->ctx_enc, ptext, ptext_len,
ctext, ctext_len);
}
/**
* gnutls_cipher_decrypt2:
* @handle: is a #gnutls_cipher_hd_t type
* @ctext: the data to decrypt
* @ctext_len: the length of data to decrypt
* @ptext: the decrypted data
* @ptext_len: the available length for decrypted data
*
* This function will decrypt the given data using the algorithm
* specified by the context. For block ciphers the @ctext_len must be
* a multiple of the block size. For the supported ciphers the plaintext
* data length will equal the ciphertext size.
*
* Note that in AEAD ciphers, this will not check the tag. You will
* need to compare the tag sent with the value returned from gnutls_cipher_tag().
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.12.0
**/
int
gnutls_cipher_decrypt2(gnutls_cipher_hd_t handle, const void *ctext,
size_t ctext_len, void *ptext, size_t ptext_len)
{
api_cipher_hd_st *h = handle;
if (_gnutls_cipher_type(h->ctx_enc.e) != CIPHER_BLOCK)
return _gnutls_cipher_decrypt2(&h->ctx_enc, ctext,
ctext_len, ptext,
ptext_len);
else
return _gnutls_cipher_decrypt2(&h->ctx_dec, ctext,
ctext_len, ptext,
ptext_len);
}
/**
* gnutls_cipher_deinit:
* @handle: is a #gnutls_cipher_hd_t type
*
* This function will deinitialize all resources occupied by the given
* encryption context.
*
* Since: 2.10.0
**/
void gnutls_cipher_deinit(gnutls_cipher_hd_t handle)
{
api_cipher_hd_st *h = handle;
_gnutls_cipher_deinit(&h->ctx_enc);
if (_gnutls_cipher_type(h->ctx_enc.e) == CIPHER_BLOCK)
_gnutls_cipher_deinit(&h->ctx_dec);
gnutls_free(handle);
}
/* HMAC */
/**
* gnutls_hmac_init:
* @dig: is a #gnutls_hmac_hd_t type
* @algorithm: the HMAC algorithm to use
* @key: the key to be used for encryption
* @keylen: the length of the key
*
* This function will initialize an context that can be used to
* produce a Message Authentication Code (MAC) of data. This will
* effectively use the current crypto backend in use by gnutls or the
* cryptographic accelerator in use.
*
* Note that despite the name of this function, it can be used
* for other MAC algorithms than HMAC.
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.10.0
**/
int
gnutls_hmac_init(gnutls_hmac_hd_t * dig,
gnutls_mac_algorithm_t algorithm,
const void *key, size_t keylen)
{
/* MD5 is only allowed internally for TLS */
if (is_mac_algo_forbidden(algorithm))
return gnutls_assert_val(GNUTLS_E_UNWANTED_ALGORITHM);
*dig = gnutls_malloc(sizeof(mac_hd_st));
if (*dig == NULL) {
gnutls_assert();
return GNUTLS_E_MEMORY_ERROR;
}
return _gnutls_mac_init(((mac_hd_st *) * dig),
mac_to_entry(algorithm), key, keylen);
}
/**
* gnutls_hmac_set_nonce:
* @handle: is a #gnutls_hmac_hd_t type
* @nonce: the data to set as nonce
* @nonce_len: the length of data
*
* This function will set the nonce in the MAC algorithm.
*
* Since: 3.2.0
**/
void
gnutls_hmac_set_nonce(gnutls_hmac_hd_t handle, const void *nonce,
size_t nonce_len)
{
_gnutls_mac_set_nonce((mac_hd_st *) handle, nonce, nonce_len);
}
/**
* gnutls_hmac:
* @handle: is a #gnutls_hmac_hd_t type
* @ptext: the data to hash
* @ptext_len: the length of data to hash
*
* This function will hash the given data using the algorithm
* specified by the context.
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.10.0
**/
int gnutls_hmac(gnutls_hmac_hd_t handle, const void *ptext, size_t ptext_len)
{
return _gnutls_mac((mac_hd_st *) handle, ptext, ptext_len);
}
/**
* gnutls_hmac_output:
* @handle: is a #gnutls_hmac_hd_t type
* @digest: is the output value of the MAC
*
* This function will output the current MAC value
* and reset the state of the MAC.
*
* Since: 2.10.0
**/
void gnutls_hmac_output(gnutls_hmac_hd_t handle, void *digest)
{
_gnutls_mac_output((mac_hd_st *) handle, digest);
}
/**
* gnutls_hmac_deinit:
* @handle: is a #gnutls_hmac_hd_t type
* @digest: is the output value of the MAC
*
* This function will deinitialize all resources occupied by
* the given hmac context.
*
* Since: 2.10.0
**/
void gnutls_hmac_deinit(gnutls_hmac_hd_t handle, void *digest)
{
_gnutls_mac_deinit((mac_hd_st *) handle, digest);
gnutls_free(handle);
}
/**
* gnutls_hmac_get_len:
* @algorithm: the hmac algorithm to use
*
* This function will return the length of the output data
* of the given hmac algorithm.
*
* Returns: The length or zero on error.
*
* Since: 2.10.0
**/
unsigned gnutls_hmac_get_len(gnutls_mac_algorithm_t algorithm)
{
return _gnutls_mac_get_algo_len(mac_to_entry(algorithm));
}
/**
* gnutls_hmac_fast:
* @algorithm: the hash algorithm to use
* @key: the key to use
* @keylen: the length of the key
* @ptext: the data to hash
* @ptext_len: the length of data to hash
* @digest: is the output value of the hash
*
* This convenience function will hash the given data and return output
* on a single call.
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.10.0
**/
int
gnutls_hmac_fast(gnutls_mac_algorithm_t algorithm,
const void *key, size_t keylen,
const void *ptext, size_t ptext_len, void *digest)
{
if (is_mac_algo_forbidden(algorithm))
return gnutls_assert_val(GNUTLS_E_UNWANTED_ALGORITHM);
return _gnutls_mac_fast(algorithm, key, keylen, ptext, ptext_len,
digest);
}
/* HASH */
/**
* gnutls_hash_init:
* @dig: is a #gnutls_hash_hd_t type
* @algorithm: the hash algorithm to use
*
* This function will initialize an context that can be used to
* produce a Message Digest of data. This will effectively use the
* current crypto backend in use by gnutls or the cryptographic
* accelerator in use.
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.10.0
**/
int
gnutls_hash_init(gnutls_hash_hd_t * dig,
gnutls_digest_algorithm_t algorithm)
{
if (is_mac_algo_forbidden(algorithm))
return gnutls_assert_val(GNUTLS_E_UNWANTED_ALGORITHM);
*dig = gnutls_malloc(sizeof(digest_hd_st));
if (*dig == NULL) {
gnutls_assert();
return GNUTLS_E_MEMORY_ERROR;
}
return _gnutls_hash_init(((digest_hd_st *) * dig),
hash_to_entry(algorithm));
}
/**
* gnutls_hash:
* @handle: is a #gnutls_hash_hd_t type
* @ptext: the data to hash
* @ptext_len: the length of data to hash
*
* This function will hash the given data using the algorithm
* specified by the context.
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.10.0
**/
int gnutls_hash(gnutls_hash_hd_t handle, const void *ptext, size_t ptext_len)
{
return _gnutls_hash((digest_hd_st *) handle, ptext, ptext_len);
}
/**
* gnutls_hash_output:
* @handle: is a #gnutls_hash_hd_t type
* @digest: is the output value of the hash
*
* This function will output the current hash value
* and reset the state of the hash.
*
* Since: 2.10.0
**/
void gnutls_hash_output(gnutls_hash_hd_t handle, void *digest)
{
_gnutls_hash_output((digest_hd_st *) handle, digest);
}
/**
* gnutls_hash_deinit:
* @handle: is a #gnutls_hash_hd_t type
* @digest: is the output value of the hash
*
* This function will deinitialize all resources occupied by
* the given hash context.
*
* Since: 2.10.0
**/
void gnutls_hash_deinit(gnutls_hash_hd_t handle, void *digest)
{
_gnutls_hash_deinit((digest_hd_st *) handle, digest);
gnutls_free(handle);
}
/**
* gnutls_hash_get_len:
* @algorithm: the hash algorithm to use
*
* This function will return the length of the output data
* of the given hash algorithm.
*
* Returns: The length or zero on error.
*
* Since: 2.10.0
**/
unsigned gnutls_hash_get_len(gnutls_digest_algorithm_t algorithm)
{
return _gnutls_hash_get_algo_len(hash_to_entry(algorithm));
}
/**
* gnutls_hash_fast:
* @algorithm: the hash algorithm to use
* @ptext: the data to hash
* @ptext_len: the length of data to hash
* @digest: is the output value of the hash
*
* This convenience function will hash the given data and return output
* on a single call.
*
* Returns: Zero or a negative error code on error.
*
* Since: 2.10.0
**/
int
gnutls_hash_fast(gnutls_digest_algorithm_t algorithm,
const void *ptext, size_t ptext_len, void *digest)
{
if (is_mac_algo_forbidden(algorithm))
return gnutls_assert_val(GNUTLS_E_UNWANTED_ALGORITHM);
return _gnutls_hash_fast(algorithm, ptext, ptext_len, digest);
}
/**
* gnutls_key_generate:
* @key: is a pointer to a #gnutls_datum_t which will contain a newly
* created key
* @key_size: the number of bytes of the key
*
* Generates a random key of @key_size bytes.
*
* Returns: On success, %GNUTLS_E_SUCCESS (0) is returned, or an
* error code.
*
* Since: 3.0
**/
int gnutls_key_generate(gnutls_datum_t * key, unsigned int key_size)
{
int ret;
FAIL_IF_LIB_ERROR;
#ifdef ENABLE_FIPS140
/* The FIPS140 approved RNGs are not allowed to be used
* to extract key sizes longer than their original seed.
*/
if (_gnutls_fips_mode_enabled() != 0 &&
key_size > FIPS140_RND_KEY_SIZE)
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
#endif
key->size = key_size;
key->data = gnutls_malloc(key->size);
if (!key->data) {
gnutls_assert();
return GNUTLS_E_MEMORY_ERROR;
}
ret = gnutls_rnd(GNUTLS_RND_RANDOM, key->data, key->size);
if (ret < 0) {
gnutls_assert();
_gnutls_free_datum(key);
return ret;
}
return 0;
}
/* AEAD API */
/**
* gnutls_aead_cipher_init:
* @handle: is a #gnutls_aead_cipher_hd_t type.
* @cipher: the authenticated-encryption algorithm to use
* @key: The key to be used for encryption
*
* This function will initialize an context that can be used for
* encryption/decryption of data. This will effectively use the
* current crypto backend in use by gnutls or the cryptographic
* accelerator in use.
*
* Returns: Zero or a negative error code on error.
*
* Since: 3.4.0
**/
int gnutls_aead_cipher_init(gnutls_aead_cipher_hd_t *handle,
gnutls_cipher_algorithm_t cipher,
const gnutls_datum_t *key)
{
api_aead_cipher_hd_st *h;
const cipher_entry_st *e;
if (is_cipher_algo_forbidden(cipher))
return gnutls_assert_val(GNUTLS_E_UNWANTED_ALGORITHM);
e = cipher_to_entry(cipher);
if (e == NULL || e->type != CIPHER_AEAD)
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
*handle = gnutls_calloc(1, sizeof(api_aead_cipher_hd_st));
if (*handle == NULL) {
gnutls_assert();
return GNUTLS_E_MEMORY_ERROR;
}
h = *handle;
return _gnutls_aead_cipher_init(h, cipher, key);
}
/**
* gnutls_aead_cipher_decrypt:
* @handle: is a #gnutls_aead_cipher_hd_t type.
* @nonce: the nonce to set
* @nonce_len: The length of the nonce
* @auth: the data to be authenticated
* @auth_len: The length of the data
* @tag_size: The size of the tag to use (use zero for the default)
* @ctext: the data to decrypt
* @ctext_len: the length of data to decrypt (includes tag size)
* @ptext: the decrypted data
* @ptext_len: the length of decrypted data (initially must hold the maximum available size)
*
* This function will decrypt the given data using the algorithm
* specified by the context. This function must be provided the whole
* data to be decrypted, including the tag, and will fail if the tag
* verification fails.
*
* Returns: Zero or a negative error code on error.
*
* Since: 3.4.0
**/
int
gnutls_aead_cipher_decrypt(gnutls_aead_cipher_hd_t handle,
const void *nonce, size_t nonce_len,
const void *auth, size_t auth_len,
size_t tag_size,
const void *ctext, size_t ctext_len,
void *ptext, size_t *ptext_len)
{
int ret;
api_aead_cipher_hd_st *h = handle;
if (tag_size == 0)
tag_size = _gnutls_cipher_get_tag_size(h->ctx_enc.e);
else if (tag_size > (unsigned)_gnutls_cipher_get_tag_size(h->ctx_enc.e))
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
if (unlikely(ctext_len < tag_size))
return gnutls_assert_val(GNUTLS_E_DECRYPTION_FAILED);
ret = _gnutls_aead_cipher_decrypt(&h->ctx_enc,
nonce, nonce_len,
auth, auth_len,
tag_size,
ctext, ctext_len,
ptext, *ptext_len);
if (unlikely(ret < 0))
return gnutls_assert_val(ret);
/* That assumes that AEAD ciphers are stream */
*ptext_len = ctext_len - tag_size;
return 0;
}
/**
* gnutls_aead_cipher_encrypt:
* @handle: is a #gnutls_aead_cipher_hd_t type.
* @nonce: the nonce to set
* @nonce_len: The length of the nonce
* @auth: the data to be authenticated
* @auth_len: The length of the data
* @tag_size: The size of the tag to use (use zero for the default)
* @ptext: the data to encrypt
* @ptext_len: The length of data to encrypt
* @ctext: the encrypted data
* @ctext_len: the length of encrypted data (initially must hold the maximum available size, including space for tag)
*
* This function will encrypt the given data using the algorithm
* specified by the context. The output data will contain the
* authentication tag.
*
* Returns: Zero or a negative error code on error.
*
* Since: 3.4.0
**/
int
gnutls_aead_cipher_encrypt(gnutls_aead_cipher_hd_t handle,
const void *nonce, size_t nonce_len,
const void *auth, size_t auth_len,
size_t tag_size,
const void *ptext, size_t ptext_len,
void *ctext, size_t *ctext_len)
{
api_aead_cipher_hd_st *h = handle;
int ret;
if (tag_size == 0)
tag_size = _gnutls_cipher_get_tag_size(h->ctx_enc.e);
else if (tag_size > (unsigned)_gnutls_cipher_get_tag_size(h->ctx_enc.e))
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
if (unlikely(*ctext_len < ptext_len + tag_size))
return gnutls_assert_val(GNUTLS_E_SHORT_MEMORY_BUFFER);
ret = _gnutls_aead_cipher_encrypt(&h->ctx_enc,
nonce, nonce_len,
auth, auth_len,
tag_size,
ptext, ptext_len,
ctext, *ctext_len);
if (unlikely(ret < 0))
return gnutls_assert_val(ret);
/* That assumes that AEAD ciphers are stream */
*ctext_len = ptext_len + tag_size;
return 0;
}
struct iov_store_st {
void *data;
size_t size;
unsigned allocated;
};
static void iov_store_free(struct iov_store_st *s)
{
if (s->allocated) {
gnutls_free(s->data);
s->allocated = 0;
}
}
static int copy_iov(struct iov_store_st *dst, const giovec_t *iov, int iovcnt)
{
memset(dst, 0, sizeof(*dst));
if (iovcnt == 0) {
return 0;
} else if (iovcnt == 1) {
dst->data = iov[0].iov_base;
dst->size = iov[0].iov_len;
/* implies: dst->allocated = 0; */
return 0;
} else {
int i;
uint8_t *p;
dst->size = 0;
for (i=0;i<iovcnt;i++)
dst->size += iov[i].iov_len;
dst->data = gnutls_malloc(dst->size);
if (dst->data == NULL)
return gnutls_assert_val(GNUTLS_E_MEMORY_ERROR);
p = dst->data;
for (i=0;i<iovcnt;i++) {
memcpy(p, iov[i].iov_base, iov[i].iov_len);
p += iov[i].iov_len;
}
dst->allocated = 1;
return 0;
}
}
#define AUTH_UPDATE_FINAL(ctx) do { \
if (index) { \
ret = _gnutls_cipher_auth(ctx, cache, index); \
if (unlikely(ret < 0)) \
return gnutls_assert_val(ret); \
} \
} while(0)
#define AUTH_UPDATE(ctx, data, length) do { \
if (index) { \
ssize_t left = blocksize - index; \
if (length < left) { \
memcpy(cache+index, data, \
length); \
index += length; \
goto __update_done; \
} else { \
memcpy(cache+index, data, left); \
ret = _gnutls_cipher_auth(ctx, cache, blocksize); \
if (unlikely(ret < 0)) \
return gnutls_assert_val(ret); \
data += left; \
length -= left; \
} \
} \
if (length >= blocksize) { \
ssize_t to_proc = (length/blocksize)*blocksize; \
ret = _gnutls_cipher_auth(ctx, data, to_proc); \
if (unlikely(ret < 0)) \
return gnutls_assert_val(ret); \
data += to_proc; \
length -= to_proc; \
} \
if (length) \
memcpy(cache, data, length); \
index = length; \
__update_done: \
; \
} while(0)
#define ENCRYPT_FINAL(ctx, dst, dst_size) do { \
if (index) { \
if (unlikely(dst_size < (ssize_t)index)) \
return gnutls_assert_val(GNUTLS_E_SHORT_MEMORY_BUFFER); \
ret = _gnutls_cipher_encrypt2(ctx, cache, index, dst, dst_size); \
if (unlikely(ret < 0)) \
return gnutls_assert_val(ret); \
dst += index; \
dst_size -= index; \
} \
} while(0)
#define ENCRYPT(ctx, data, length, dst, dst_size) do { \
if (index) { \
ssize_t left = blocksize - index; \
if (length < left) { \
memcpy(cache+index, data, \
length); \
index += length; \
goto __encrypt_done; \
} else { \
if (unlikely(dst_size < blocksize)) \
return gnutls_assert_val(GNUTLS_E_SHORT_MEMORY_BUFFER); \
memcpy(cache+index, data, left); \
ret = _gnutls_cipher_encrypt2(ctx, cache, blocksize, dst, dst_size); \
if (unlikely(ret < 0)) \
return gnutls_assert_val(ret); \
data += left; \
length -= left; \
dst += blocksize; \
dst_size -= blocksize; \
} \
} \
if (length >= blocksize) { \
ssize_t to_proc = (length/blocksize)*blocksize; \
if (unlikely(dst_size < to_proc)) \
return gnutls_assert_val(GNUTLS_E_SHORT_MEMORY_BUFFER); \
ret = _gnutls_cipher_encrypt2(ctx, data, to_proc, dst, dst_size); \
if (unlikely(ret < 0)) \
return gnutls_assert_val(ret); \
data += to_proc; \
length -= to_proc; \
dst += to_proc; \
dst_size -= to_proc; \
} \
if (length) \
memcpy(cache, data, length); \
index = length; \
__encrypt_done: \
; \
} while(0)
/**
* gnutls_aead_cipher_encryptv:
* @handle: is a #gnutls_aead_cipher_hd_t type.
* @nonce: the nonce to set
* @nonce_len: The length of the nonce
* @auth_iov: the data to be authenticated
* @auth_iovcnt: The number of buffers in @auth_iov
* @tag_size: The size of the tag to use (use zero for the default)
* @iov: the data to be encrypted
* @iovcnt: The number of buffers in @iov
* @ctext: the encrypted data
* @ctext_len: the length of encrypted data (initially must hold the maximum available size, including space for tag)
*
* This function will encrypt the provided data buffers using the algorithm
* specified by the context. The output data will contain the
* authentication tag.
*
* Returns: Zero or a negative error code on error.
*
* Since: 3.6.3
**/
int
gnutls_aead_cipher_encryptv(gnutls_aead_cipher_hd_t handle,
const void *nonce, size_t nonce_len,
const giovec_t *auth_iov, int auth_iovcnt,
size_t tag_size,
const giovec_t *iov, int iovcnt,
void *ctext, size_t *ctext_len)
{
api_aead_cipher_hd_st *h = handle;
int ret;
uint8_t *dst;
ssize_t dst_size, total = 0, len;
uint8_t *p;
unsigned i;
uint8_t cache[MAX_CIPHER_BLOCK_SIZE];
unsigned index;
ssize_t blocksize = handle->ctx_enc.e->blocksize;
/* Limitation: this function provides an optimization under the internally registered
* AEAD ciphers. When an AEAD cipher is used registered with gnutls_crypto_register_aead_cipher(),
* then this becomes a convenience function as it missed the lower-level primitives
* necessary for piecemeal encryption. */
if (tag_size == 0)
tag_size = _gnutls_cipher_get_tag_size(h->ctx_enc.e);
else if (tag_size > (unsigned)_gnutls_cipher_get_tag_size(h->ctx_enc.e))
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
if (handle->ctx_enc.e->only_aead || handle->ctx_enc.encrypt == NULL) {
/* ciphertext cannot be produced in a piecemeal approach */
struct iov_store_st auth;
struct iov_store_st ptext;
ret = copy_iov(&auth, auth_iov, auth_iovcnt);
if (ret < 0)
return gnutls_assert_val(ret);
ret = copy_iov(&ptext, iov, iovcnt);
if (ret < 0) {
iov_store_free(&auth);
return gnutls_assert_val(ret);
}
ret = gnutls_aead_cipher_encrypt(handle, nonce, nonce_len,
auth.data, auth.size,
tag_size,
ptext.data, ptext.size,
ctext, ctext_len);
iov_store_free(&auth);
iov_store_free(&ptext);
return ret;
}
ret = _gnutls_cipher_setiv(&handle->ctx_enc, nonce, nonce_len);
if (unlikely(ret < 0))
return gnutls_assert_val(ret);
index = 0;
for (i = 0; i < (unsigned)auth_iovcnt; i++) {
p = auth_iov[i].iov_base;
len = auth_iov[i].iov_len;
AUTH_UPDATE(&handle->ctx_enc, p, len);
}
AUTH_UPDATE_FINAL(&handle->ctx_enc);
dst = ctext;
dst_size = *ctext_len;
index = 0;
for (i = 0; i < (unsigned)iovcnt; i++) {
p = iov[i].iov_base;
len = iov[i].iov_len;
ENCRYPT(&handle->ctx_enc, p, len, dst, dst_size);
total += iov[i].iov_len;
}
ENCRYPT_FINAL(&handle->ctx_enc, dst, dst_size);
if ((size_t)dst_size < tag_size)
return gnutls_assert_val(GNUTLS_E_SHORT_MEMORY_BUFFER);
_gnutls_cipher_tag(&handle->ctx_enc, dst, tag_size);
total += tag_size;
*ctext_len = total;
return 0;
}
/**
* gnutls_aead_cipher_deinit:
* @handle: is a #gnutls_aead_cipher_hd_t type.
*
* This function will deinitialize all resources occupied by the given
* authenticated-encryption context.
*
* Since: 3.4.0
**/
void gnutls_aead_cipher_deinit(gnutls_aead_cipher_hd_t handle)
{
_gnutls_aead_cipher_deinit(handle);
gnutls_free(handle);
}
|