/src/nettle-with-libgmp/siv-gcm.c

Source (jump to first uncovered line)
/* siv-gcm.c

   AES-GCM-SIV, RFC8452

   Copyright (C) 2022 Red Hat, Inc.

   This file is part of GNU Nettle.

   GNU Nettle is free software: you can redistribute it and/or
   modify it under the terms of either:

     * the GNU Lesser General Public License as published by the Free
       Software Foundation; either version 3 of the License, or (at your
       option) any later version.

   or

     * the GNU General Public License as published by the Free
       Software Foundation; either version 2 of the License, or (at your
       option) any later version.

   or both in parallel, as here.

   GNU Nettle 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
   General Public License for more details.

   You should have received copies of the GNU General Public License and
   the GNU Lesser General Public License along with this program.  If
   not, see http://www.gnu.org/licenses/.
*/

#if HAVE_CONFIG_H
# include "config.h"
#endif

#include "siv-gcm.h"
#include "ghash-internal.h"
#include "block-internal.h"
#include "nettle-internal.h"
#include "macros.h"
#include "memops.h"
#include "ctr-internal.h"
#include <string.h>

#define MIN(a,b) (((a) < (b)) ? (a) : (b))

static void
siv_gcm_derive_keys (const void *ctx,
         nettle_cipher_func *f,
         size_t key_size,
         size_t nlength, const uint8_t *nonce,
         union nettle_block16 *auth_key,
         uint8_t *encryption_key)
{
  union nettle_block16 block;
  union nettle_block16 out;
  size_t i;

  block16_zero (&block);
  memcpy (block.b + 4, nonce, MIN(nlength, SIV_GCM_NONCE_SIZE));

  f (ctx, SIV_GCM_BLOCK_SIZE, out.b, block.b);
  auth_key->u64[0] = out.u64[0];

  block.b[0] = 1;
  f (ctx, SIV_GCM_BLOCK_SIZE, out.b, block.b);
  auth_key->u64[1] = out.u64[0];

  assert (key_size % 8 == 0 && key_size / 8 + 2 <= UINT8_MAX);

  for (i = 0; i < key_size; i += 8)
    {
      block.b[0]++;
      f (ctx, SIV_GCM_BLOCK_SIZE, out.b, block.b);
      memcpy (encryption_key + i, out.b, 8);
    }
}

static nettle_fill16_func siv_gcm_fill;

static void
siv_gcm_fill(uint8_t *ctr, size_t blocks, union nettle_block16 *buffer)
{
  uint32_t c;

  c = LE_READ_UINT32(ctr);

  for (; blocks-- > 0; buffer++, c++)
    {
      memcpy(buffer->b + 4, ctr + 4, SIV_GCM_BLOCK_SIZE - 4);
      LE_WRITE_UINT32(buffer->b, c);
    }

  LE_WRITE_UINT32(ctr, c);
}

static void
siv_ghash_pad_update (struct gcm_key *ctx,
          union nettle_block16 *state,
          size_t length, const uint8_t *data)
{
  size_t blocks;

  blocks = length / SIV_GCM_BLOCK_SIZE;
  if (blocks > 0)
    {
      data = _siv_ghash_update (ctx, state, blocks, data);
      length &= 0xf;
    }
  if (length > 0)
    {
      uint8_t block[SIV_GCM_BLOCK_SIZE];

      memset (block + length, 0, SIV_GCM_BLOCK_SIZE - length);
      memcpy (block, data, length);
      _siv_ghash_update (ctx, state, 1, block);
    }
}

static void
siv_gcm_authenticate (const void *ctx,
          const struct nettle_cipher *nc,
          const union nettle_block16 *authentication_key,
          const uint8_t *nonce,
          size_t alength, const uint8_t *adata,
          size_t mlength, const uint8_t *mdata,
          uint8_t *tag)
{
  union nettle_block16 state;
  struct gcm_key siv_ghash_key;
  union nettle_block16 block;

  _siv_ghash_set_key (&siv_ghash_key, authentication_key);

  block16_zero (&state);
  siv_ghash_pad_update (&siv_ghash_key, &state, alength, adata);
  siv_ghash_pad_update (&siv_ghash_key, &state, mlength, mdata);

  block.u64[0] = bswap64_if_be (alength * 8);
  block.u64[1] = bswap64_if_be (mlength * 8);

  _siv_ghash_update (&siv_ghash_key, &state, 1, block.b);
  block16_bswap (&state, &state);

  memxor (state.b, nonce, SIV_GCM_NONCE_SIZE);
  state.b[15] &= 0x7f;
  nc->encrypt (ctx, SIV_GCM_BLOCK_SIZE, tag, state.b);
}

void
siv_gcm_encrypt_message (const struct nettle_cipher *nc,
       const void *ctx,
       void *ctr_ctx,
       size_t nlength, const uint8_t *nonce,
       size_t alength, const uint8_t *adata,
       size_t clength, uint8_t *dst, const uint8_t *src)
{
  union nettle_block16 authentication_key;
  TMP_DECL(encryption_key, uint8_t, NETTLE_MAX_CIPHER_KEY_SIZE);
  uint8_t ctr[SIV_GCM_DIGEST_SIZE];
  uint8_t *tag = dst + clength - SIV_GCM_BLOCK_SIZE;

  assert (clength >= SIV_GCM_DIGEST_SIZE);
  assert (nlength == SIV_GCM_NONCE_SIZE);

  TMP_ALLOC(encryption_key, nc->key_size);
  siv_gcm_derive_keys (ctx, nc->encrypt, nc->key_size, nlength, nonce,
           &authentication_key, encryption_key);

  /* Calculate authentication tag.  */
  nc->set_encrypt_key (ctr_ctx, encryption_key);

  siv_gcm_authenticate (ctr_ctx, nc,
      &authentication_key,
      nonce, alength, adata,
      clength - SIV_GCM_BLOCK_SIZE, src,
      tag);

  /* Encrypt the plaintext.  */

  /* The initial counter block is the tag with the most significant
     bit of the last byte set to one.  */
  memcpy (ctr, tag, SIV_GCM_DIGEST_SIZE);
  ctr[15] |= 0x80;
  _nettle_ctr_crypt16 (ctr_ctx, nc->encrypt, siv_gcm_fill, ctr,
           clength - SIV_GCM_BLOCK_SIZE, dst, src);
}

int
siv_gcm_decrypt_message (const struct nettle_cipher *nc,
       const void *ctx,
       void *ctr_ctx,
       size_t nlength, const uint8_t *nonce,
       size_t alength, const uint8_t *adata,
       size_t mlength, uint8_t *dst, const uint8_t *src)
{
  union nettle_block16 authentication_key;
  TMP_DECL(encryption_key, uint8_t, NETTLE_MAX_CIPHER_KEY_SIZE);
  union nettle_block16 state;
  uint8_t tag[SIV_GCM_DIGEST_SIZE];

  assert (nlength == SIV_GCM_NONCE_SIZE);

  TMP_ALLOC(encryption_key, nc->key_size);
  siv_gcm_derive_keys (ctx, nc->encrypt, nc->key_size, nlength, nonce,
           &authentication_key, encryption_key);

  memcpy (state.b, src + mlength, SIV_GCM_DIGEST_SIZE);
  /* The initial counter block is the tag with the most significant
     bit of the last byte set to one.  */
  state.b[15] |= 0x80;

  /* Decrypt the ciphertext.  */
  nc->set_encrypt_key (ctr_ctx, encryption_key);

  _nettle_ctr_crypt16 (ctr_ctx, nc->encrypt, siv_gcm_fill, state.b,
           mlength, dst, src);

  /* Calculate authentication tag.  */
  siv_gcm_authenticate (ctr_ctx, nc,
      &authentication_key,
      nonce, alength, adata,
      mlength, dst,
      tag);

  return memeql_sec (tag, src + mlength, SIV_GCM_DIGEST_SIZE);
}

Coverage Report

Created: 2024-06-28 06:39

Line	Count	Source (jump to first uncovered line)
1		/* siv-gcm.c
2
3		AES-GCM-SIV, RFC8452
4
5		Copyright (C) 2022 Red Hat, Inc.
6
7		This file is part of GNU Nettle.
8
9		GNU Nettle is free software: you can redistribute it and/or
10		modify it under the terms of either:
11
12		* the GNU Lesser General Public License as published by the Free
13		Software Foundation; either version 3 of the License, or (at your
14		option) any later version.
15
16		or
17
18		* the GNU General Public License as published by the Free
19		Software Foundation; either version 2 of the License, or (at your
20		option) any later version.
21
22		or both in parallel, as here.
23
24		GNU Nettle is distributed in the hope that it will be useful,
25		but WITHOUT ANY WARRANTY; without even the implied warranty of
26		MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
27		General Public License for more details.
28
29		You should have received copies of the GNU General Public License and
30		the GNU Lesser General Public License along with this program. If
31		not, see http://www.gnu.org/licenses/.
32		*/
33
34		#if HAVE_CONFIG_H
35		# include "config.h"
36		#endif
37
38		#include "siv-gcm.h"
39		#include "ghash-internal.h"
40		#include "block-internal.h"
41		#include "nettle-internal.h"
42		#include "macros.h"
43		#include "memops.h"
44		#include "ctr-internal.h"
45		#include <string.h>
46
47	302	#define MIN(a,b) (((a) < (b)) ? (a) : (b))
48
49		static void
50		siv_gcm_derive_keys (const void *ctx,
51		nettle_cipher_func *f,
52		size_t key_size,
53		size_t nlength, const uint8_t *nonce,
54		union nettle_block16 *auth_key,
55		uint8_t *encryption_key)
56	302	{
57	302	union nettle_block16 block;
58	302	union nettle_block16 out;
59	302	size_t i;
60
61	302	block16_zero (&block);
62	302	memcpy (block.b + 4, nonce, MIN(nlength, SIV_GCM_NONCE_SIZE));
63
64	302	f (ctx, SIV_GCM_BLOCK_SIZE, out.b, block.b);
65	302	auth_key->u64[0] = out.u64[0];
66
67	302	block.b[0] = 1;
68	302	f (ctx, SIV_GCM_BLOCK_SIZE, out.b, block.b);
69	302	auth_key->u64[1] = out.u64[0];
70
71	302	assert (key_size % 8 == 0 && key_size / 8 + 2 <= UINT8_MAX);
72
73	1.16k	for (i = 0; i < key_size; i += 8)
74	864	{
75	864	block.b[0]++;
76	864	f (ctx, SIV_GCM_BLOCK_SIZE, out.b, block.b);
77	864	memcpy (encryption_key + i, out.b, 8);
78	864	}
79	302	}
80
81		static nettle_fill16_func siv_gcm_fill;
82
83		static void
84		siv_gcm_fill(uint8_t ctr, size_t blocks, union nettle_block16 buffer)
85	442	{
86	442	uint32_t c;
87
88	442	c = LE_READ_UINT32(ctr);
89
90	1.07k	for (; blocks-- > 0; buffer++, c++)
91	636	{
92	636	memcpy(buffer->b + 4, ctr + 4, SIV_GCM_BLOCK_SIZE - 4);
93	636	LE_WRITE_UINT32(buffer->b, c);
94	636	}
95
96	442	LE_WRITE_UINT32(ctr, c);
97	442	}
98
99		static void
100		siv_ghash_pad_update (struct gcm_key *ctx,
101		union nettle_block16 *state,
102		size_t length, const uint8_t *data)
103	604	{
104	604	size_t blocks;
105
106	604	blocks = length / SIV_GCM_BLOCK_SIZE;
107	604	if (blocks > 0)
108	372	{
109	372	data = _siv_ghash_update (ctx, state, blocks, data);
110	372	length &= 0xf;
111	372	}
112	604	if (length > 0)
113	210	{
114	210	uint8_t block[SIV_GCM_BLOCK_SIZE];
115
116	210	memset (block + length, 0, SIV_GCM_BLOCK_SIZE - length);
117	210	memcpy (block, data, length);
118	210	_siv_ghash_update (ctx, state, 1, block);
119	210	}
120	604	}
121
122		static void
123		siv_gcm_authenticate (const void *ctx,
124		const struct nettle_cipher *nc,
125		const union nettle_block16 *authentication_key,
126		const uint8_t *nonce,
127		size_t alength, const uint8_t *adata,
128		size_t mlength, const uint8_t *mdata,
129		uint8_t *tag)
130	302	{
131	302	union nettle_block16 state;
132	302	struct gcm_key siv_ghash_key;
133	302	union nettle_block16 block;
134
135	302	_siv_ghash_set_key (&siv_ghash_key, authentication_key);
136
137	302	block16_zero (&state);
138	302	siv_ghash_pad_update (&siv_ghash_key, &state, alength, adata);
139	302	siv_ghash_pad_update (&siv_ghash_key, &state, mlength, mdata);
140
141	302	block.u64[0] = bswap64_if_be (alength * 8);
142	302	block.u64[1] = bswap64_if_be (mlength * 8);
143
144	302	_siv_ghash_update (&siv_ghash_key, &state, 1, block.b);
145	302	block16_bswap (&state, &state);
146
147	302	memxor (state.b, nonce, SIV_GCM_NONCE_SIZE);
148	302	state.b[15] &= 0x7f;
149	302	nc->encrypt (ctx, SIV_GCM_BLOCK_SIZE, tag, state.b);
150	302	}
151
152		void
153		siv_gcm_encrypt_message (const struct nettle_cipher *nc,
154		const void *ctx,
155		void *ctr_ctx,
156		size_t nlength, const uint8_t *nonce,
157		size_t alength, const uint8_t *adata,
158		size_t clength, uint8_t dst, const uint8_t src)
159	126	{
160	126	union nettle_block16 authentication_key;
161	126	TMP_DECL(encryption_key, uint8_t, NETTLE_MAX_CIPHER_KEY_SIZE);
162	126	uint8_t ctr[SIV_GCM_DIGEST_SIZE];
163	126	uint8_t *tag = dst + clength - SIV_GCM_BLOCK_SIZE;
164
165	126	assert (clength >= SIV_GCM_DIGEST_SIZE);
166	126	assert (nlength == SIV_GCM_NONCE_SIZE);
167
168	126	TMP_ALLOC(encryption_key, nc->key_size);
169	126	siv_gcm_derive_keys (ctx, nc->encrypt, nc->key_size, nlength, nonce,
170	126	&authentication_key, encryption_key);
171
172		/* Calculate authentication tag. */
173	126	nc->set_encrypt_key (ctr_ctx, encryption_key);
174
175	126	siv_gcm_authenticate (ctr_ctx, nc,
176	126	&authentication_key,
177	126	nonce, alength, adata,
178	126	clength - SIV_GCM_BLOCK_SIZE, src,
179	126	tag);
180
181		/* Encrypt the plaintext. */
182
183		/* The initial counter block is the tag with the most significant
184		bit of the last byte set to one. */
185	126	memcpy (ctr, tag, SIV_GCM_DIGEST_SIZE);
186	126	ctr[15] \|= 0x80;
187	126	_nettle_ctr_crypt16 (ctr_ctx, nc->encrypt, siv_gcm_fill, ctr,
188	126	clength - SIV_GCM_BLOCK_SIZE, dst, src);
189	126	}
190
191		int
192		siv_gcm_decrypt_message (const struct nettle_cipher *nc,
193		const void *ctx,
194		void *ctr_ctx,
195		size_t nlength, const uint8_t *nonce,
196		size_t alength, const uint8_t *adata,
197		size_t mlength, uint8_t dst, const uint8_t src)
198	176	{
199	176	union nettle_block16 authentication_key;
200	176	TMP_DECL(encryption_key, uint8_t, NETTLE_MAX_CIPHER_KEY_SIZE);
201	176	union nettle_block16 state;
202	176	uint8_t tag[SIV_GCM_DIGEST_SIZE];
203
204	176	assert (nlength == SIV_GCM_NONCE_SIZE);
205
206	176	TMP_ALLOC(encryption_key, nc->key_size);
207	176	siv_gcm_derive_keys (ctx, nc->encrypt, nc->key_size, nlength, nonce,
208	176	&authentication_key, encryption_key);
209
210	176	memcpy (state.b, src + mlength, SIV_GCM_DIGEST_SIZE);
211		/* The initial counter block is the tag with the most significant
212		bit of the last byte set to one. */
213	176	state.b[15] \|= 0x80;
214
215		/* Decrypt the ciphertext. */
216	176	nc->set_encrypt_key (ctr_ctx, encryption_key);
217
218	176	_nettle_ctr_crypt16 (ctr_ctx, nc->encrypt, siv_gcm_fill, state.b,
219	176	mlength, dst, src);
220
221		/* Calculate authentication tag. */
222	176	siv_gcm_authenticate (ctr_ctx, nc,
223	176	&authentication_key,
224	176	nonce, alength, adata,
225	176	mlength, dst,
226	176	tag);
227
228	176	return memeql_sec (tag, src + mlength, SIV_GCM_DIGEST_SIZE);
229	176	}