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openssl/crypto/modes/cts128.c
Shane Lontis 459b15d451 Add Common shared code needed to move aes ciphers to providers 
Custom aes ciphers will be placed into multiple new files
(instead of the monolithic setup used in the e_aes.c legacy code)
so it makes sense to have a header for the platform specific
code that needs to be shared between files.
modes_lcl.h has also moved to modes_int.h to allow sharing with the
provider source.
Code that will be common to AEAD ciphers has also been added. These
will be used by seperate PR's for GCM, CCM & OCB.

Reviewed-by: Matt Caswell <matt@openssl.org>
Reviewed-by: Richard Levitte <levitte@openssl.org>
(Merged from https://github.com/openssl/openssl/pull/9301)
2019-07-16 09:46:14 +10:00

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/*
* Copyright 2008-2016 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
*/
#include <string.h>
#include <openssl/crypto.h>
#include "internal/modes_int.h"
/*
* Trouble with Ciphertext Stealing, CTS, mode is that there is no
* common official specification, but couple of cipher/application
* specific ones: RFC2040 and RFC3962. Then there is 'Proposal to
* Extend CBC Mode By "Ciphertext Stealing"' at NIST site, which
* deviates from mentioned RFCs. Most notably it allows input to be
* of block length and it doesn't flip the order of the last two
* blocks. CTS is being discussed even in ECB context, but it's not
* adopted for any known application. This implementation provides
* two interfaces: one compliant with above mentioned RFCs and one
* compliant with the NIST proposal, both extending CBC mode.
*/
size_t CRYPTO_cts128_encrypt_block(const unsigned char *in,
unsigned char *out, size_t len,
const void *key, unsigned char ivec[16],
block128_f block)
{
size_t residue, n;
if (len <= 16)
return 0;
if ((residue = len % 16) == 0)
residue = 16;
len -= residue;
CRYPTO_cbc128_encrypt(in, out, len, key, ivec, block);
in += len;
out += len;
for (n = 0; n < residue; ++n)
ivec[n] ^= in[n];
(*block) (ivec, ivec, key);
memcpy(out, out - 16, residue);
memcpy(out - 16, ivec, 16);
return len + residue;
}
size_t CRYPTO_nistcts128_encrypt_block(const unsigned char *in,
unsigned char *out, size_t len,
const void *key,
unsigned char ivec[16],
block128_f block)
{
size_t residue, n;
if (len < 16)
return 0;
residue = len % 16;
len -= residue;
CRYPTO_cbc128_encrypt(in, out, len, key, ivec, block);
if (residue == 0)
return len;
in += len;
out += len;
for (n = 0; n < residue; ++n)
ivec[n] ^= in[n];
(*block) (ivec, ivec, key);
memcpy(out - 16 + residue, ivec, 16);
return len + residue;
}
size_t CRYPTO_cts128_encrypt(const unsigned char *in, unsigned char *out,
size_t len, const void *key,
unsigned char ivec[16], cbc128_f cbc)
{
size_t residue;
union {
size_t align;
unsigned char c[16];
} tmp;
if (len <= 16)
return 0;
if ((residue = len % 16) == 0)
residue = 16;
len -= residue;
(*cbc) (in, out, len, key, ivec, 1);
in += len;
out += len;
#if defined(CBC_HANDLES_TRUNCATED_IO)
memcpy(tmp.c, out - 16, 16);
(*cbc) (in, out - 16, residue, key, ivec, 1);
memcpy(out, tmp.c, residue);
#else
memset(tmp.c, 0, sizeof(tmp));
memcpy(tmp.c, in, residue);
memcpy(out, out - 16, residue);
(*cbc) (tmp.c, out - 16, 16, key, ivec, 1);
#endif
return len + residue;
}
size_t CRYPTO_nistcts128_encrypt(const unsigned char *in, unsigned char *out,
size_t len, const void *key,
unsigned char ivec[16], cbc128_f cbc)
{
size_t residue;
union {
size_t align;
unsigned char c[16];
} tmp;
if (len < 16)
return 0;
residue = len % 16;
len -= residue;
(*cbc) (in, out, len, key, ivec, 1);
if (residue == 0)
return len;
in += len;
out += len;
#if defined(CBC_HANDLES_TRUNCATED_IO)
(*cbc) (in, out - 16 + residue, residue, key, ivec, 1);
#else
memset(tmp.c, 0, sizeof(tmp));
memcpy(tmp.c, in, residue);
(*cbc) (tmp.c, out - 16 + residue, 16, key, ivec, 1);
#endif
return len + residue;
}
size_t CRYPTO_cts128_decrypt_block(const unsigned char *in,
unsigned char *out, size_t len,
const void *key, unsigned char ivec[16],
block128_f block)
{
size_t residue, n;
union {
size_t align;
unsigned char c[32];
} tmp;
if (len <= 16)
return 0;
if ((residue = len % 16) == 0)
residue = 16;
len -= 16 + residue;
if (len) {
CRYPTO_cbc128_decrypt(in, out, len, key, ivec, block);
in += len;
out += len;
}
(*block) (in, tmp.c + 16, key);
memcpy(tmp.c, tmp.c + 16, 16);
memcpy(tmp.c, in + 16, residue);
(*block) (tmp.c, tmp.c, key);
for (n = 0; n < 16; ++n) {
unsigned char c = in[n];
out[n] = tmp.c[n] ^ ivec[n];
ivec[n] = c;
}
for (residue += 16; n < residue; ++n)
out[n] = tmp.c[n] ^ in[n];
return 16 + len + residue;
}
size_t CRYPTO_nistcts128_decrypt_block(const unsigned char *in,
unsigned char *out, size_t len,
const void *key,
unsigned char ivec[16],
block128_f block)
{
size_t residue, n;
union {
size_t align;
unsigned char c[32];
} tmp;
if (len < 16)
return 0;
residue = len % 16;
if (residue == 0) {
CRYPTO_cbc128_decrypt(in, out, len, key, ivec, block);
return len;
}
len -= 16 + residue;
if (len) {
CRYPTO_cbc128_decrypt(in, out, len, key, ivec, block);
in += len;
out += len;
}
(*block) (in + residue, tmp.c + 16, key);
memcpy(tmp.c, tmp.c + 16, 16);
memcpy(tmp.c, in, residue);
(*block) (tmp.c, tmp.c, key);
for (n = 0; n < 16; ++n) {
unsigned char c = in[n];
out[n] = tmp.c[n] ^ ivec[n];
ivec[n] = in[n + residue];
tmp.c[n] = c;
}
for (residue += 16; n < residue; ++n)
out[n] = tmp.c[n] ^ tmp.c[n - 16];
return 16 + len + residue;
}
size_t CRYPTO_cts128_decrypt(const unsigned char *in, unsigned char *out,
size_t len, const void *key,
unsigned char ivec[16], cbc128_f cbc)
{
size_t residue;
union {
size_t align;
unsigned char c[32];
} tmp;
if (len <= 16)
return 0;
if ((residue = len % 16) == 0)
residue = 16;
len -= 16 + residue;
if (len) {
(*cbc) (in, out, len, key, ivec, 0);
in += len;
out += len;
}
memset(tmp.c, 0, sizeof(tmp));
/*
* this places in[16] at &tmp.c[16] and decrypted block at &tmp.c[0]
*/
(*cbc) (in, tmp.c, 16, key, tmp.c + 16, 0);
memcpy(tmp.c, in + 16, residue);
#if defined(CBC_HANDLES_TRUNCATED_IO)
(*cbc) (tmp.c, out, 16 + residue, key, ivec, 0);
#else
(*cbc) (tmp.c, tmp.c, 32, key, ivec, 0);
memcpy(out, tmp.c, 16 + residue);
#endif
return 16 + len + residue;
}
size_t CRYPTO_nistcts128_decrypt(const unsigned char *in, unsigned char *out,
size_t len, const void *key,
unsigned char ivec[16], cbc128_f cbc)
{
size_t residue;
union {
size_t align;
unsigned char c[32];
} tmp;
if (len < 16)
return 0;
residue = len % 16;
if (residue == 0) {
(*cbc) (in, out, len, key, ivec, 0);
return len;
}
len -= 16 + residue;
if (len) {
(*cbc) (in, out, len, key, ivec, 0);
in += len;
out += len;
}
memset(tmp.c, 0, sizeof(tmp));
/*
* this places in[16] at &tmp.c[16] and decrypted block at &tmp.c[0]
*/
(*cbc) (in + residue, tmp.c, 16, key, tmp.c + 16, 0);
memcpy(tmp.c, in, residue);
#if defined(CBC_HANDLES_TRUNCATED_IO)
(*cbc) (tmp.c, out, 16 + residue, key, ivec, 0);
#else
(*cbc) (tmp.c, tmp.c, 32, key, ivec, 0);
memcpy(out, tmp.c, 16 + residue);
#endif
return 16 + len + residue;
}
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