openssl/crypto/modes/wrap128.c

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/*
* Copyright 2013-2018 The OpenSSL Project Authors. All Rights Reserved.
*
* Licensed under the Apache License 2.0 (the "License"). You may not use
* this file except in compliance with the License. You can obtain a copy
* in the file LICENSE in the source distribution or at
* https://www.openssl.org/source/license.html
*/
/** Beware!
*
* Following wrapping modes were designed for AES but this implementation
* allows you to use them for any 128 bit block cipher.
*/
#include "internal/cryptlib.h"
#include <openssl/modes.h>
/** RFC 3394 section 2.2.3.1 Default Initial Value */
static const unsigned char default_iv[] = {
0xA6, 0xA6, 0xA6, 0xA6, 0xA6, 0xA6, 0xA6, 0xA6,
};
/** RFC 5649 section 3 Alternative Initial Value 32-bit constant */
static const unsigned char default_aiv[] = {
0xA6, 0x59, 0x59, 0xA6
};
/** Input size limit: lower than maximum of standards but far larger than
* anything that will be used in practice.
*/
#define CRYPTO128_WRAP_MAX (1UL << 31)
/** Wrapping according to RFC 3394 section 2.2.1.
*
* @param[in] key Key value.
* @param[in] iv IV value. Length = 8 bytes. NULL = use default_iv.
* @param[in] in Plaintext as n 64-bit blocks, n >= 2.
* @param[in] inlen Length of in.
* @param[out] out Ciphertext. Minimal buffer length = (inlen + 8) bytes.
* Input and output buffers can overlap if block function
* supports that.
* @param[in] block Block processing function.
* @return 0 if inlen does not consist of n 64-bit blocks, n >= 2.
* or if inlen > CRYPTO128_WRAP_MAX.
* Output length if wrapping succeeded.
*/
size_t CRYPTO_128_wrap(void *key, const unsigned char *iv,
unsigned char *out,
const unsigned char *in, size_t inlen,
block128_f block)
{
unsigned char *A, B[16], *R;
size_t i, j, t;
if ((inlen & 0x7) || (inlen < 16) || (inlen > CRYPTO128_WRAP_MAX))
return 0;
A = B;
t = 1;
memmove(out + 8, in, inlen);
if (!iv)
iv = default_iv;
memcpy(A, iv, 8);
for (j = 0; j < 6; j++) {
R = out + 8;
for (i = 0; i < inlen; i += 8, t++, R += 8) {
memcpy(B + 8, R, 8);
block(B, B, key);
A[7] ^= (unsigned char)(t & 0xff);
if (t > 0xff) {
A[6] ^= (unsigned char)((t >> 8) & 0xff);
A[5] ^= (unsigned char)((t >> 16) & 0xff);
A[4] ^= (unsigned char)((t >> 24) & 0xff);
}
memcpy(R, B + 8, 8);
}
}
memcpy(out, A, 8);
return inlen + 8;
}
/** Unwrapping according to RFC 3394 section 2.2.2 steps 1-2.
* The IV check (step 3) is responsibility of the caller.
*
* @param[in] key Key value.
* @param[out] iv Unchecked IV value. Minimal buffer length = 8 bytes.
* @param[out] out Plaintext without IV.
* Minimal buffer length = (inlen - 8) bytes.
* Input and output buffers can overlap if block function
* supports that.
* @param[in] in Ciphertext as n 64-bit blocks.
* @param[in] inlen Length of in.
* @param[in] block Block processing function.
* @return 0 if inlen is out of range [24, CRYPTO128_WRAP_MAX]
* or if inlen is not a multiple of 8.
* Output length otherwise.
*/
static size_t crypto_128_unwrap_raw(void *key, unsigned char *iv,
unsigned char *out,
const unsigned char *in, size_t inlen,
block128_f block)
{
unsigned char *A, B[16], *R;
size_t i, j, t;
inlen -= 8;
if ((inlen & 0x7) || (inlen < 16) || (inlen > CRYPTO128_WRAP_MAX))
return 0;
A = B;
t = 6 * (inlen >> 3);
memcpy(A, in, 8);
memmove(out, in + 8, inlen);
for (j = 0; j < 6; j++) {
R = out + inlen - 8;
for (i = 0; i < inlen; i += 8, t--, R -= 8) {
A[7] ^= (unsigned char)(t & 0xff);
if (t > 0xff) {
A[6] ^= (unsigned char)((t >> 8) & 0xff);
A[5] ^= (unsigned char)((t >> 16) & 0xff);
A[4] ^= (unsigned char)((t >> 24) & 0xff);
}
memcpy(B + 8, R, 8);
block(B, B, key);
memcpy(R, B + 8, 8);
}
}
memcpy(iv, A, 8);
return inlen;
}
/** Unwrapping according to RFC 3394 section 2.2.2, including the IV check.
* The first block of plaintext has to match the supplied IV, otherwise an
* error is returned.
*
* @param[in] key Key value.
* @param[out] iv IV value to match against. Length = 8 bytes.
* NULL = use default_iv.
* @param[out] out Plaintext without IV.
* Minimal buffer length = (inlen - 8) bytes.
* Input and output buffers can overlap if block function
* supports that.
* @param[in] in Ciphertext as n 64-bit blocks.
* @param[in] inlen Length of in.
* @param[in] block Block processing function.
* @return 0 if inlen is out of range [24, CRYPTO128_WRAP_MAX]
* or if inlen is not a multiple of 8
* or if IV doesn't match expected value.
* Output length otherwise.
*/
size_t CRYPTO_128_unwrap(void *key, const unsigned char *iv,
unsigned char *out, const unsigned char *in,
size_t inlen, block128_f block)
{
size_t ret;
unsigned char got_iv[8];
ret = crypto_128_unwrap_raw(key, got_iv, out, in, inlen, block);
CRYPTO_128_unwrap(): Fix refactoring damage crypto/modes/wrap128.c was heavily refactored to support AES Key Wrap with Padding, and four bugs were introduced into CRYPTO_128_unwrap() at that time: - crypto_128_unwrap_raw()'s return value ('ret') is checked incorrectly, and the function immediately returns 'ret' in (almost) all cases. This makes the IV checking code later in the function unreachable, but callers think the IV check succeeded since CRYPTO_128_unwrap()'s return value is non-zero. FIX: Return 0 (error) if crypto_128_unwrap_raw() returned 0 (error). - crypto_128_unwrap_raw() writes the IV to the 'got_iv' buffer, not to the first 8 bytes of the output buffer ('out') as the IV checking code expects. This makes the IV check fail. FIX: Compare 'iv' to 'got_iv', not 'out'. - The data written to the output buffer ('out') is "cleansed" if the IV check fails, but the code passes OPENSSL_cleanse() the input buffer length ('inlen') instead of the number of bytes that crypto_128_unwrap_raw() wrote to the output buffer ('ret'). This means that OPENSSL_cleanse() could potentially write past the end of 'out'. FIX: Change 'inlen' to 'ret' in the OPENSSL_cleanse() call. - CRYPTO_128_unwrap() is returning the length of the input buffer ('inlen') instead of the number of bytes written to the output buffer ('ret'). This could cause the caller to read past the end of 'out'. FIX: Return 'ret' instead of 'inlen' at the end of the function. PR#3749 Reviewed-by: Stephen Henson <steve@openssl.org> Reviewed-by: Emilia Käsper <emilia@openssl.org>
2015-03-14 12:23:21 +08:00
if (ret == 0)
return 0;
if (!iv)
iv = default_iv;
CRYPTO_128_unwrap(): Fix refactoring damage crypto/modes/wrap128.c was heavily refactored to support AES Key Wrap with Padding, and four bugs were introduced into CRYPTO_128_unwrap() at that time: - crypto_128_unwrap_raw()'s return value ('ret') is checked incorrectly, and the function immediately returns 'ret' in (almost) all cases. This makes the IV checking code later in the function unreachable, but callers think the IV check succeeded since CRYPTO_128_unwrap()'s return value is non-zero. FIX: Return 0 (error) if crypto_128_unwrap_raw() returned 0 (error). - crypto_128_unwrap_raw() writes the IV to the 'got_iv' buffer, not to the first 8 bytes of the output buffer ('out') as the IV checking code expects. This makes the IV check fail. FIX: Compare 'iv' to 'got_iv', not 'out'. - The data written to the output buffer ('out') is "cleansed" if the IV check fails, but the code passes OPENSSL_cleanse() the input buffer length ('inlen') instead of the number of bytes that crypto_128_unwrap_raw() wrote to the output buffer ('ret'). This means that OPENSSL_cleanse() could potentially write past the end of 'out'. FIX: Change 'inlen' to 'ret' in the OPENSSL_cleanse() call. - CRYPTO_128_unwrap() is returning the length of the input buffer ('inlen') instead of the number of bytes written to the output buffer ('ret'). This could cause the caller to read past the end of 'out'. FIX: Return 'ret' instead of 'inlen' at the end of the function. PR#3749 Reviewed-by: Stephen Henson <steve@openssl.org> Reviewed-by: Emilia Käsper <emilia@openssl.org>
2015-03-14 12:23:21 +08:00
if (CRYPTO_memcmp(got_iv, iv, 8)) {
OPENSSL_cleanse(out, ret);
return 0;
}
CRYPTO_128_unwrap(): Fix refactoring damage crypto/modes/wrap128.c was heavily refactored to support AES Key Wrap with Padding, and four bugs were introduced into CRYPTO_128_unwrap() at that time: - crypto_128_unwrap_raw()'s return value ('ret') is checked incorrectly, and the function immediately returns 'ret' in (almost) all cases. This makes the IV checking code later in the function unreachable, but callers think the IV check succeeded since CRYPTO_128_unwrap()'s return value is non-zero. FIX: Return 0 (error) if crypto_128_unwrap_raw() returned 0 (error). - crypto_128_unwrap_raw() writes the IV to the 'got_iv' buffer, not to the first 8 bytes of the output buffer ('out') as the IV checking code expects. This makes the IV check fail. FIX: Compare 'iv' to 'got_iv', not 'out'. - The data written to the output buffer ('out') is "cleansed" if the IV check fails, but the code passes OPENSSL_cleanse() the input buffer length ('inlen') instead of the number of bytes that crypto_128_unwrap_raw() wrote to the output buffer ('ret'). This means that OPENSSL_cleanse() could potentially write past the end of 'out'. FIX: Change 'inlen' to 'ret' in the OPENSSL_cleanse() call. - CRYPTO_128_unwrap() is returning the length of the input buffer ('inlen') instead of the number of bytes written to the output buffer ('ret'). This could cause the caller to read past the end of 'out'. FIX: Return 'ret' instead of 'inlen' at the end of the function. PR#3749 Reviewed-by: Stephen Henson <steve@openssl.org> Reviewed-by: Emilia Käsper <emilia@openssl.org>
2015-03-14 12:23:21 +08:00
return ret;
}
/** Wrapping according to RFC 5649 section 4.1.
*
* @param[in] key Key value.
* @param[in] icv (Non-standard) IV, 4 bytes. NULL = use default_aiv.
* @param[out] out Ciphertext. Minimal buffer length = (inlen + 15) bytes.
* Input and output buffers can overlap if block function
* supports that.
* @param[in] in Plaintext as n 64-bit blocks, n >= 2.
* @param[in] inlen Length of in.
* @param[in] block Block processing function.
* @return 0 if inlen is out of range [1, CRYPTO128_WRAP_MAX].
* Output length if wrapping succeeded.
*/
size_t CRYPTO_128_wrap_pad(void *key, const unsigned char *icv,
unsigned char *out,
const unsigned char *in, size_t inlen,
block128_f block)
{
/* n: number of 64-bit blocks in the padded key data
*
* If length of plain text is not a multiple of 8, pad the plain text octet
* string on the right with octets of zeros, where final length is the
* smallest multiple of 8 that is greater than length of plain text.
* If length of plain text is a multiple of 8, then there is no padding. */
const size_t blocks_padded = (inlen + 7) / 8; /* CEILING(m/8) */
const size_t padded_len = blocks_padded * 8;
const size_t padding_len = padded_len - inlen;
/* RFC 5649 section 3: Alternative Initial Value */
unsigned char aiv[8];
int ret;
/* Section 1: use 32-bit fixed field for plaintext octet length */
if (inlen == 0 || inlen >= CRYPTO128_WRAP_MAX)
return 0;
/* Section 3: Alternative Initial Value */
if (!icv)
memcpy(aiv, default_aiv, 4);
else
memcpy(aiv, icv, 4); /* Standard doesn't mention this. */
aiv[4] = (inlen >> 24) & 0xFF;
aiv[5] = (inlen >> 16) & 0xFF;
aiv[6] = (inlen >> 8) & 0xFF;
aiv[7] = inlen & 0xFF;
if (padded_len == 8) {
/*
* Section 4.1 - special case in step 2: If the padded plaintext
* contains exactly eight octets, then prepend the AIV and encrypt
* the resulting 128-bit block using AES in ECB mode.
*/
memmove(out + 8, in, inlen);
memcpy(out, aiv, 8);
memset(out + 8 + inlen, 0, padding_len);
block(out, out, key);
ret = 16; /* AIV + padded input */
} else {
memmove(out, in, inlen);
memset(out + inlen, 0, padding_len); /* Section 4.1 step 1 */
ret = CRYPTO_128_wrap(key, aiv, out, out, padded_len, block);
}
return ret;
}
/** Unwrapping according to RFC 5649 section 4.2.
*
* @param[in] key Key value.
* @param[in] icv (Non-standard) IV, 4 bytes. NULL = use default_aiv.
* @param[out] out Plaintext. Minimal buffer length = (inlen - 8) bytes.
* Input and output buffers can overlap if block function
* supports that.
* @param[in] in Ciphertext as n 64-bit blocks.
* @param[in] inlen Length of in.
* @param[in] block Block processing function.
* @return 0 if inlen is out of range [16, CRYPTO128_WRAP_MAX],
* or if inlen is not a multiple of 8
* or if IV and message length indicator doesn't match.
* Output length if unwrapping succeeded and IV matches.
*/
size_t CRYPTO_128_unwrap_pad(void *key, const unsigned char *icv,
unsigned char *out,
const unsigned char *in, size_t inlen,
block128_f block)
{
/* n: number of 64-bit blocks in the padded key data */
size_t n = inlen / 8 - 1;
size_t padded_len;
size_t padding_len;
size_t ptext_len;
/* RFC 5649 section 3: Alternative Initial Value */
unsigned char aiv[8];
static unsigned char zeros[8] = { 0x0 };
size_t ret;
/* Section 4.2: Ciphertext length has to be (n+1) 64-bit blocks. */
if ((inlen & 0x7) != 0 || inlen < 16 || inlen >= CRYPTO128_WRAP_MAX)
return 0;
if (inlen == 16) {
/*
* Section 4.2 - special case in step 1: When n=1, the ciphertext
* contains exactly two 64-bit blocks and they are decrypted as a
* single AES block using AES in ECB mode: AIV | P[1] = DEC(K, C[0] |
* C[1])
*/
unsigned char buff[16];
block(in, buff, key);
memcpy(aiv, buff, 8);
/* Remove AIV */
memcpy(out, buff + 8, 8);
padded_len = 8;
OPENSSL_cleanse(buff, inlen);
} else {
padded_len = inlen - 8;
ret = crypto_128_unwrap_raw(key, aiv, out, in, inlen, block);
if (padded_len != ret) {
OPENSSL_cleanse(out, inlen);
return 0;
}
}
/*
* Section 3: AIV checks: Check that MSB(32,A) = A65959A6. Optionally a
* user-supplied value can be used (even if standard doesn't mention
* this).
*/
if ((!icv && CRYPTO_memcmp(aiv, default_aiv, 4))
|| (icv && CRYPTO_memcmp(aiv, icv, 4))) {
OPENSSL_cleanse(out, inlen);
return 0;
}
/*
* Check that 8*(n-1) < LSB(32,AIV) <= 8*n. If so, let ptext_len =
* LSB(32,AIV).
*/
ptext_len = ((unsigned int)aiv[4] << 24)
| ((unsigned int)aiv[5] << 16)
| ((unsigned int)aiv[6] << 8)
| (unsigned int)aiv[7];
if (8 * (n - 1) >= ptext_len || ptext_len > 8 * n) {
OPENSSL_cleanse(out, inlen);
return 0;
}
/*
* Check that the rightmost padding_len octets of the output data are
* zero.
*/
padding_len = padded_len - ptext_len;
if (CRYPTO_memcmp(out + ptext_len, zeros, padding_len) != 0) {
OPENSSL_cleanse(out, inlen);
return 0;
}
/* Section 4.2 step 3: Remove padding */
return ptext_len;
}