Слияние кода завершено, страница обновится автоматически
/*******************************************************************************
Copyright (c) 2018, Intel Corporation
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
* Neither the name of Intel Corporation nor the names of its contributors
may be used to endorse or promote products derived from this software
without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*******************************************************************************/
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include "intel-ipsec-mb.h"
#include "constants.h"
extern void sha1_block_sse(const void *, void *);
extern void sha1_block_avx(const void *, void *);
extern void sha224_block_sse(const void *, void *);
extern void sha224_block_avx(const void *, void *);
extern void sha256_block_sse(const void *, void *);
extern void sha256_block_avx(const void *, void *);
extern void sha384_block_sse(const void *, void *);
extern void sha384_block_avx(const void *, void *);
extern void sha512_block_sse(const void *, void *);
extern void sha512_block_avx(const void *, void *);
/* ========================================================================== */
/*
* Various utility functions for SHA API
*/
__forceinline
uint32_t bswap4(const uint32_t val)
{
return ((val >> 24) | /**< A*/
((val & 0xff0000) >> 8) | /**< B*/
((val & 0xff00) << 8) | /**< C*/
(val << 24)); /**< D*/
}
__forceinline
uint64_t bswap8(const uint64_t val)
{
return (((uint64_t) bswap4((uint32_t) val)) << 32) |
(((uint64_t) bswap4((uint32_t) (val >> 32))));
}
__forceinline
void store8_be(void *outp, const uint64_t val)
{
*((uint64_t *)outp) = bswap8(val);
}
__forceinline
void copy_bswap4_array(void *dst, const void *src, const size_t num)
{
uint32_t *outp = (uint32_t *) dst;
const uint32_t *inp = (const uint32_t *) src;
size_t i;
for (i = 0; i < num; i++)
outp[i] = bswap4(inp[i]);
}
__forceinline
void copy_bswap8_array(void *dst, const void *src, const size_t num)
{
uint64_t *outp = (uint64_t *) dst;
const uint64_t *inp = (const uint64_t *) src;
size_t i;
for (i = 0; i < num; i++)
outp[i] = bswap8(inp[i]);
}
__forceinline
void
sha_generic_one_block(const void *inp, void *digest,
const int is_avx, const int sha_type)
{
if (sha_type == 1) {
if (is_avx)
sha1_block_avx(inp, digest);
else
sha1_block_sse(inp, digest);
} else if (sha_type == 224) {
if (is_avx)
sha224_block_avx(inp, digest);
else
sha224_block_sse(inp, digest);
} else if (sha_type == 256) {
if (is_avx)
sha256_block_avx(inp, digest);
else
sha256_block_sse(inp, digest);
} else if (sha_type == 384) {
if (is_avx)
sha384_block_avx(inp, digest);
else
sha384_block_sse(inp, digest);
} else if (sha_type == 512) {
if (is_avx)
sha512_block_avx(inp, digest);
else
sha512_block_sse(inp, digest);
}
}
__forceinline
void sha1_init_digest(void *p)
{
uint32_t *p_digest = (uint32_t *)p;
p_digest[0] = H0;
p_digest[1] = H1;
p_digest[2] = H2;
p_digest[3] = H3;
p_digest[4] = H4;
}
__forceinline
void sha224_init_digest(void *p)
{
uint32_t *p_digest = (uint32_t *)p;
p_digest[0] = SHA224_H0;
p_digest[1] = SHA224_H1;
p_digest[2] = SHA224_H2;
p_digest[3] = SHA224_H3;
p_digest[4] = SHA224_H4;
p_digest[5] = SHA224_H5;
p_digest[6] = SHA224_H6;
p_digest[7] = SHA224_H7;
}
__forceinline
void sha256_init_digest(void *p)
{
uint32_t *p_digest = (uint32_t *)p;
p_digest[0] = SHA256_H0;
p_digest[1] = SHA256_H1;
p_digest[2] = SHA256_H2;
p_digest[3] = SHA256_H3;
p_digest[4] = SHA256_H4;
p_digest[5] = SHA256_H5;
p_digest[6] = SHA256_H6;
p_digest[7] = SHA256_H7;
}
__forceinline
void sha384_init_digest(void *p)
{
uint64_t *p_digest = (uint64_t *)p;
p_digest[0] = SHA384_H0;
p_digest[1] = SHA384_H1;
p_digest[2] = SHA384_H2;
p_digest[3] = SHA384_H3;
p_digest[4] = SHA384_H4;
p_digest[5] = SHA384_H5;
p_digest[6] = SHA384_H6;
p_digest[7] = SHA384_H7;
}
__forceinline
void sha512_init_digest(void *p)
{
uint64_t *p_digest = (uint64_t *)p;
p_digest[0] = SHA512_H0;
p_digest[1] = SHA512_H1;
p_digest[2] = SHA512_H2;
p_digest[3] = SHA512_H3;
p_digest[4] = SHA512_H4;
p_digest[5] = SHA512_H5;
p_digest[6] = SHA512_H6;
p_digest[7] = SHA512_H7;
}
__forceinline
void
sha_generic_init(void *digest, const int sha_type)
{
if (sha_type == 1)
sha1_init_digest(digest);
else if (sha_type == 224)
sha224_init_digest(digest);
else if (sha_type == 256)
sha256_init_digest(digest);
else if (sha_type == 384)
sha384_init_digest(digest);
else if (sha_type == 512)
sha512_init_digest(digest);
}
__forceinline
void sha_generic_write_digest(void *dst, const void *src, const int sha_type)
{
if (sha_type == 1)
copy_bswap4_array(dst, src, NUM_SHA_DIGEST_WORDS);
else if (sha_type == 224)
copy_bswap4_array(dst, src, NUM_SHA_224_DIGEST_WORDS);
else if (sha_type == 256)
copy_bswap4_array(dst, src, NUM_SHA_256_DIGEST_WORDS);
else if (sha_type == 384)
copy_bswap8_array(dst, src, NUM_SHA_384_DIGEST_WORDS);
else if (sha_type == 512)
copy_bswap8_array(dst, src, NUM_SHA_512_DIGEST_WORDS);
}
__forceinline
void
sha_generic(const void *data, const uint64_t length, void *digest,
const int is_avx, const int sha_type, const uint64_t blk_size,
const uint64_t pad_size)
{
uint8_t cb[SHA_512_BLOCK_SIZE]; /* biggest possible */
union {
uint32_t digest1[NUM_SHA_256_DIGEST_WORDS];
uint64_t digest2[NUM_SHA_512_DIGEST_WORDS];
} local_digest;
void *ld = (void *) &local_digest;
const uint8_t *inp = (const uint8_t *) data;
uint64_t idx, r;
if (data == NULL || digest == NULL)
return;
sha_generic_init(ld, sha_type);
for (idx = 0; (idx + blk_size) <= length; idx += blk_size)
sha_generic_one_block(&inp[idx], ld, is_avx, sha_type);
r = length % blk_size;
memset(cb, 0, sizeof(cb));
memcpy(cb, &inp[idx], r);
cb[r] = 0x80;
if (r >= (blk_size - pad_size)) {
/* length will be encoded in the next block */
sha_generic_one_block(cb, ld, is_avx, sha_type);
memset(cb, 0, sizeof(cb));
}
store8_be(&cb[blk_size - 8], length * 8 /* bit length */);
sha_generic_one_block(cb, ld, is_avx, sha_type);
sha_generic_write_digest(digest, ld, sha_type);
}
__forceinline
void sha_generic_1block(const void *data, void *digest,
const int is_avx, const int sha_type)
{
if (data == NULL || digest == NULL)
return;
sha_generic_init(digest, sha_type);
sha_generic_one_block(data, digest, is_avx, sha_type);
}
/* ========================================================================== */
/* One block SHA1 computation for IPAD / OPAD usage only */
void sha1_one_block_sse(const void *data, void *digest)
{
sha_generic_1block(data, digest, 0 /* SSE */, 1 /* SHA1 */);
}
void sha1_one_block_avx(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 1 /* SHA1 */);
}
void sha1_one_block_avx2(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 1 /* SHA1 */);
}
void sha1_one_block_avx512(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 1 /* SHA1 */);
}
/* ========================================================================== */
/*
* SHA1 API for use in HMAC-SHA1 when key is longer than the block size
*/
void sha1_sse(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 0 /* SSE */, 1, SHA1_BLOCK_SIZE,
SHA1_PAD_SIZE);
}
void sha1_avx(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 1, SHA1_BLOCK_SIZE,
SHA1_PAD_SIZE);
}
void sha1_avx2(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 1, SHA1_BLOCK_SIZE,
SHA1_PAD_SIZE);
}
void sha1_avx512(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 1, SHA1_BLOCK_SIZE,
SHA1_PAD_SIZE);
}
/* ========================================================================== */
/* One block SHA224 computation for IPAD / OPAD usage only */
void sha224_one_block_sse(const void *data, void *digest)
{
sha_generic_1block(data, digest, 0 /* SSE */, 224 /* SHA224 */);
}
void sha224_one_block_avx(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 224 /* SHA224 */);
}
void sha224_one_block_avx2(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 224 /* SHA224 */);
}
void sha224_one_block_avx512(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 224 /* SHA224 */);
}
/* ========================================================================== */
/*
* SHA224 API for use in HMAC-SHA224 when key is longer than the block size
*/
void sha224_sse(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 0 /* SSE */, 224, SHA_256_BLOCK_SIZE,
SHA224_PAD_SIZE);
}
void sha224_avx(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 224, SHA_256_BLOCK_SIZE,
SHA224_PAD_SIZE);
}
void sha224_avx2(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 224, SHA_256_BLOCK_SIZE,
SHA224_PAD_SIZE);
}
void sha224_avx512(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 224, SHA_256_BLOCK_SIZE,
SHA224_PAD_SIZE);
}
/* ========================================================================== */
/* One block SHA256 computation for IPAD / OPAD usage only */
void sha256_one_block_sse(const void *data, void *digest)
{
sha_generic_1block(data, digest, 0 /* SSE */, 256 /* SHA256 */);
}
void sha256_one_block_avx(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 256 /* SHA256 */);
}
void sha256_one_block_avx2(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 256 /* SHA256 */);
}
void sha256_one_block_avx512(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 256 /* SHA256 */);
}
/* ========================================================================== */
/*
* SHA256 API for use in HMAC-SHA256 when key is longer than the block size
*/
void sha256_sse(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 0 /* SSE */, 256, SHA_256_BLOCK_SIZE,
SHA256_PAD_SIZE);
}
void sha256_avx(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 256, SHA_256_BLOCK_SIZE,
SHA256_PAD_SIZE);
}
void sha256_avx2(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 256, SHA_256_BLOCK_SIZE,
SHA256_PAD_SIZE);
}
void sha256_avx512(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 256, SHA_256_BLOCK_SIZE,
SHA256_PAD_SIZE);
}
/* ========================================================================== */
/* One block SHA384 computation for IPAD / OPAD usage only */
void sha384_one_block_sse(const void *data, void *digest)
{
sha_generic_1block(data, digest, 0 /* SSE */, 384 /* SHA384 */);
}
void sha384_one_block_avx(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 384 /* SHA384 */);
}
void sha384_one_block_avx2(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 384 /* SHA384 */);
}
void sha384_one_block_avx512(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 384 /* SHA384 */);
}
/* ========================================================================== */
/*
* SHA384 API for use in HMAC-SHA384 when key is longer than the block size
*/
void sha384_sse(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 0 /* SSE */, 384, SHA_384_BLOCK_SIZE,
SHA384_PAD_SIZE);
}
void sha384_avx(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 384, SHA_384_BLOCK_SIZE,
SHA384_PAD_SIZE);
}
void sha384_avx2(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 384, SHA_384_BLOCK_SIZE,
SHA384_PAD_SIZE);
}
void sha384_avx512(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 384, SHA_384_BLOCK_SIZE,
SHA384_PAD_SIZE);
}
/* ========================================================================== */
/* One block SHA512 computation for IPAD / OPAD usage only */
void sha512_one_block_sse(const void *data, void *digest)
{
sha_generic_1block(data, digest, 0 /* SSE */, 512 /* SHA512 */);
}
void sha512_one_block_avx(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 512 /* SHA512 */);
}
void sha512_one_block_avx2(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 512 /* SHA512 */);
}
void sha512_one_block_avx512(const void *data, void *digest)
{
sha_generic_1block(data, digest, 1 /* AVX */, 512 /* SHA512 */);
}
/* ========================================================================== */
/*
* SHA512 API for use in HMAC-SHA512 when key is longer than the block size
*/
void sha512_sse(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 0 /* SSE */, 512, SHA_512_BLOCK_SIZE,
SHA512_PAD_SIZE);
}
void sha512_avx(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 512, SHA_512_BLOCK_SIZE,
SHA512_PAD_SIZE);
}
void sha512_avx2(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 512, SHA_512_BLOCK_SIZE,
SHA512_PAD_SIZE);
}
void sha512_avx512(const void *data, const uint64_t length, void *digest)
{
sha_generic(data, length, digest, 1 /* AVX */, 512, SHA_512_BLOCK_SIZE,
SHA512_PAD_SIZE);
}
Вы можете оставить комментарий после Вход в систему
Неприемлемый контент может быть отображен здесь и не будет показан на странице. Вы можете проверить и изменить его с помощью соответствующей функции редактирования.
Если вы подтверждаете, что содержание не содержит непристойной лексики/перенаправления на рекламу/насилия/вульгарной порнографии/нарушений/пиратства/ложного/незначительного или незаконного контента, связанного с национальными законами и предписаниями, вы можете нажать «Отправить» для подачи апелляции, и мы обработаем ее как можно скорее.
Опубликовать ( 0 )