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- /*
- * Copyright 2011-2016 The OpenSSL Project Authors. All Rights Reserved.
- *
- * Licensed under the OpenSSL license (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 <openssl/opensslconf.h>
- #include <stdio.h>
- #include <string.h>
- #include <openssl/evp.h>
- #include <openssl/objects.h>
- #include <openssl/aes.h>
- #include <openssl/sha.h>
- #include <openssl/rand.h>
- #include "modes_lcl.h"
- #include "internal/evp_int.h"
- #include "internal/constant_time_locl.h"
- typedef struct {
- AES_KEY ks;
- SHA_CTX head, tail, md;
- size_t payload_length; /* AAD length in decrypt case */
- union {
- unsigned int tls_ver;
- unsigned char tls_aad[16]; /* 13 used */
- } aux;
- } EVP_AES_HMAC_SHA1;
- #define NO_PAYLOAD_LENGTH ((size_t)-1)
- #if defined(AES_ASM) && ( \
- defined(__x86_64) || defined(__x86_64__) || \
- defined(_M_AMD64) || defined(_M_X64) )
- extern unsigned int OPENSSL_ia32cap_P[];
- # define AESNI_CAPABLE (1<<(57-32))
- int aesni_set_encrypt_key(const unsigned char *userKey, int bits,
- AES_KEY *key);
- int aesni_set_decrypt_key(const unsigned char *userKey, int bits,
- AES_KEY *key);
- void aesni_cbc_encrypt(const unsigned char *in,
- unsigned char *out,
- size_t length,
- const AES_KEY *key, unsigned char *ivec, int enc);
- void aesni_cbc_sha1_enc(const void *inp, void *out, size_t blocks,
- const AES_KEY *key, unsigned char iv[16],
- SHA_CTX *ctx, const void *in0);
- void aesni256_cbc_sha1_dec(const void *inp, void *out, size_t blocks,
- const AES_KEY *key, unsigned char iv[16],
- SHA_CTX *ctx, const void *in0);
- # define data(ctx) ((EVP_AES_HMAC_SHA1 *)EVP_CIPHER_CTX_get_cipher_data(ctx))
- static int aesni_cbc_hmac_sha1_init_key(EVP_CIPHER_CTX *ctx,
- const unsigned char *inkey,
- const unsigned char *iv, int enc)
- {
- EVP_AES_HMAC_SHA1 *key = data(ctx);
- int ret;
- if (enc)
- ret = aesni_set_encrypt_key(inkey,
- EVP_CIPHER_CTX_key_length(ctx) * 8,
- &key->ks);
- else
- ret = aesni_set_decrypt_key(inkey,
- EVP_CIPHER_CTX_key_length(ctx) * 8,
- &key->ks);
- SHA1_Init(&key->head); /* handy when benchmarking */
- key->tail = key->head;
- key->md = key->head;
- key->payload_length = NO_PAYLOAD_LENGTH;
- return ret < 0 ? 0 : 1;
- }
- # define STITCHED_CALL
- # undef STITCHED_DECRYPT_CALL
- # if !defined(STITCHED_CALL)
- # define aes_off 0
- # endif
- void sha1_block_data_order(void *c, const void *p, size_t len);
- static void sha1_update(SHA_CTX *c, const void *data, size_t len)
- {
- const unsigned char *ptr = data;
- size_t res;
- if ((res = c->num)) {
- res = SHA_CBLOCK - res;
- if (len < res)
- res = len;
- SHA1_Update(c, ptr, res);
- ptr += res;
- len -= res;
- }
- res = len % SHA_CBLOCK;
- len -= res;
- if (len) {
- sha1_block_data_order(c, ptr, len / SHA_CBLOCK);
- ptr += len;
- c->Nh += len >> 29;
- c->Nl += len <<= 3;
- if (c->Nl < (unsigned int)len)
- c->Nh++;
- }
- if (res)
- SHA1_Update(c, ptr, res);
- }
- # ifdef SHA1_Update
- # undef SHA1_Update
- # endif
- # define SHA1_Update sha1_update
- # if !defined(OPENSSL_NO_MULTIBLOCK)
- typedef struct {
- unsigned int A[8], B[8], C[8], D[8], E[8];
- } SHA1_MB_CTX;
- typedef struct {
- const unsigned char *ptr;
- int blocks;
- } HASH_DESC;
- void sha1_multi_block(SHA1_MB_CTX *, const HASH_DESC *, int);
- typedef struct {
- const unsigned char *inp;
- unsigned char *out;
- int blocks;
- u64 iv[2];
- } CIPH_DESC;
- void aesni_multi_cbc_encrypt(CIPH_DESC *, void *, int);
- static size_t tls1_1_multi_block_encrypt(EVP_AES_HMAC_SHA1 *key,
- unsigned char *out,
- const unsigned char *inp,
- size_t inp_len, int n4x)
- { /* n4x is 1 or 2 */
- HASH_DESC hash_d[8], edges[8];
- CIPH_DESC ciph_d[8];
- unsigned char storage[sizeof(SHA1_MB_CTX) + 32];
- union {
- u64 q[16];
- u32 d[32];
- u8 c[128];
- } blocks[8];
- SHA1_MB_CTX *ctx;
- unsigned int frag, last, packlen, i, x4 = 4 * n4x, minblocks, processed =
- 0;
- size_t ret = 0;
- u8 *IVs;
- # if defined(BSWAP8)
- u64 seqnum;
- # endif
- /* ask for IVs in bulk */
- if (RAND_bytes((IVs = blocks[0].c), 16 * x4) <= 0)
- return 0;
- ctx = (SHA1_MB_CTX *) (storage + 32 - ((size_t)storage % 32)); /* align */
- frag = (unsigned int)inp_len >> (1 + n4x);
- last = (unsigned int)inp_len + frag - (frag << (1 + n4x));
- if (last > frag && ((last + 13 + 9) % 64) < (x4 - 1)) {
- frag++;
- last -= x4 - 1;
- }
- packlen = 5 + 16 + ((frag + 20 + 16) & -16);
- /* populate descriptors with pointers and IVs */
- hash_d[0].ptr = inp;
- ciph_d[0].inp = inp;
- /* 5+16 is place for header and explicit IV */
- ciph_d[0].out = out + 5 + 16;
- memcpy(ciph_d[0].out - 16, IVs, 16);
- memcpy(ciph_d[0].iv, IVs, 16);
- IVs += 16;
- for (i = 1; i < x4; i++) {
- ciph_d[i].inp = hash_d[i].ptr = hash_d[i - 1].ptr + frag;
- ciph_d[i].out = ciph_d[i - 1].out + packlen;
- memcpy(ciph_d[i].out - 16, IVs, 16);
- memcpy(ciph_d[i].iv, IVs, 16);
- IVs += 16;
- }
- # if defined(BSWAP8)
- memcpy(blocks[0].c, key->md.data, 8);
- seqnum = BSWAP8(blocks[0].q[0]);
- # endif
- for (i = 0; i < x4; i++) {
- unsigned int len = (i == (x4 - 1) ? last : frag);
- # if !defined(BSWAP8)
- unsigned int carry, j;
- # endif
- ctx->A[i] = key->md.h0;
- ctx->B[i] = key->md.h1;
- ctx->C[i] = key->md.h2;
- ctx->D[i] = key->md.h3;
- ctx->E[i] = key->md.h4;
- /* fix seqnum */
- # if defined(BSWAP8)
- blocks[i].q[0] = BSWAP8(seqnum + i);
- # else
- for (carry = i, j = 8; j--;) {
- blocks[i].c[j] = ((u8 *)key->md.data)[j] + carry;
- carry = (blocks[i].c[j] - carry) >> (sizeof(carry) * 8 - 1);
- }
- # endif
- blocks[i].c[8] = ((u8 *)key->md.data)[8];
- blocks[i].c[9] = ((u8 *)key->md.data)[9];
- blocks[i].c[10] = ((u8 *)key->md.data)[10];
- /* fix length */
- blocks[i].c[11] = (u8)(len >> 8);
- blocks[i].c[12] = (u8)(len);
- memcpy(blocks[i].c + 13, hash_d[i].ptr, 64 - 13);
- hash_d[i].ptr += 64 - 13;
- hash_d[i].blocks = (len - (64 - 13)) / 64;
- edges[i].ptr = blocks[i].c;
- edges[i].blocks = 1;
- }
- /* hash 13-byte headers and first 64-13 bytes of inputs */
- sha1_multi_block(ctx, edges, n4x);
- /* hash bulk inputs */
- # define MAXCHUNKSIZE 2048
- # if MAXCHUNKSIZE%64
- # error "MAXCHUNKSIZE is not divisible by 64"
- # elif MAXCHUNKSIZE
- /*
- * goal is to minimize pressure on L1 cache by moving in shorter steps,
- * so that hashed data is still in the cache by the time we encrypt it
- */
- minblocks = ((frag <= last ? frag : last) - (64 - 13)) / 64;
- if (minblocks > MAXCHUNKSIZE / 64) {
- for (i = 0; i < x4; i++) {
- edges[i].ptr = hash_d[i].ptr;
- edges[i].blocks = MAXCHUNKSIZE / 64;
- ciph_d[i].blocks = MAXCHUNKSIZE / 16;
- }
- do {
- sha1_multi_block(ctx, edges, n4x);
- aesni_multi_cbc_encrypt(ciph_d, &key->ks, n4x);
- for (i = 0; i < x4; i++) {
- edges[i].ptr = hash_d[i].ptr += MAXCHUNKSIZE;
- hash_d[i].blocks -= MAXCHUNKSIZE / 64;
- edges[i].blocks = MAXCHUNKSIZE / 64;
- ciph_d[i].inp += MAXCHUNKSIZE;
- ciph_d[i].out += MAXCHUNKSIZE;
- ciph_d[i].blocks = MAXCHUNKSIZE / 16;
- memcpy(ciph_d[i].iv, ciph_d[i].out - 16, 16);
- }
- processed += MAXCHUNKSIZE;
- minblocks -= MAXCHUNKSIZE / 64;
- } while (minblocks > MAXCHUNKSIZE / 64);
- }
- # endif
- # undef MAXCHUNKSIZE
- sha1_multi_block(ctx, hash_d, n4x);
- memset(blocks, 0, sizeof(blocks));
- for (i = 0; i < x4; i++) {
- unsigned int len = (i == (x4 - 1) ? last : frag),
- off = hash_d[i].blocks * 64;
- const unsigned char *ptr = hash_d[i].ptr + off;
- off = (len - processed) - (64 - 13) - off; /* remainder actually */
- memcpy(blocks[i].c, ptr, off);
- blocks[i].c[off] = 0x80;
- len += 64 + 13; /* 64 is HMAC header */
- len *= 8; /* convert to bits */
- if (off < (64 - 8)) {
- # ifdef BSWAP4
- blocks[i].d[15] = BSWAP4(len);
- # else
- PUTU32(blocks[i].c + 60, len);
- # endif
- edges[i].blocks = 1;
- } else {
- # ifdef BSWAP4
- blocks[i].d[31] = BSWAP4(len);
- # else
- PUTU32(blocks[i].c + 124, len);
- # endif
- edges[i].blocks = 2;
- }
- edges[i].ptr = blocks[i].c;
- }
- /* hash input tails and finalize */
- sha1_multi_block(ctx, edges, n4x);
- memset(blocks, 0, sizeof(blocks));
- for (i = 0; i < x4; i++) {
- # ifdef BSWAP4
- blocks[i].d[0] = BSWAP4(ctx->A[i]);
- ctx->A[i] = key->tail.h0;
- blocks[i].d[1] = BSWAP4(ctx->B[i]);
- ctx->B[i] = key->tail.h1;
- blocks[i].d[2] = BSWAP4(ctx->C[i]);
- ctx->C[i] = key->tail.h2;
- blocks[i].d[3] = BSWAP4(ctx->D[i]);
- ctx->D[i] = key->tail.h3;
- blocks[i].d[4] = BSWAP4(ctx->E[i]);
- ctx->E[i] = key->tail.h4;
- blocks[i].c[20] = 0x80;
- blocks[i].d[15] = BSWAP4((64 + 20) * 8);
- # else
- PUTU32(blocks[i].c + 0, ctx->A[i]);
- ctx->A[i] = key->tail.h0;
- PUTU32(blocks[i].c + 4, ctx->B[i]);
- ctx->B[i] = key->tail.h1;
- PUTU32(blocks[i].c + 8, ctx->C[i]);
- ctx->C[i] = key->tail.h2;
- PUTU32(blocks[i].c + 12, ctx->D[i]);
- ctx->D[i] = key->tail.h3;
- PUTU32(blocks[i].c + 16, ctx->E[i]);
- ctx->E[i] = key->tail.h4;
- blocks[i].c[20] = 0x80;
- PUTU32(blocks[i].c + 60, (64 + 20) * 8);
- # endif
- edges[i].ptr = blocks[i].c;
- edges[i].blocks = 1;
- }
- /* finalize MACs */
- sha1_multi_block(ctx, edges, n4x);
- for (i = 0; i < x4; i++) {
- unsigned int len = (i == (x4 - 1) ? last : frag), pad, j;
- unsigned char *out0 = out;
- memcpy(ciph_d[i].out, ciph_d[i].inp, len - processed);
- ciph_d[i].inp = ciph_d[i].out;
- out += 5 + 16 + len;
- /* write MAC */
- PUTU32(out + 0, ctx->A[i]);
- PUTU32(out + 4, ctx->B[i]);
- PUTU32(out + 8, ctx->C[i]);
- PUTU32(out + 12, ctx->D[i]);
- PUTU32(out + 16, ctx->E[i]);
- out += 20;
- len += 20;
- /* pad */
- pad = 15 - len % 16;
- for (j = 0; j <= pad; j++)
- *(out++) = pad;
- len += pad + 1;
- ciph_d[i].blocks = (len - processed) / 16;
- len += 16; /* account for explicit iv */
- /* arrange header */
- out0[0] = ((u8 *)key->md.data)[8];
- out0[1] = ((u8 *)key->md.data)[9];
- out0[2] = ((u8 *)key->md.data)[10];
- out0[3] = (u8)(len >> 8);
- out0[4] = (u8)(len);
- ret += len + 5;
- inp += frag;
- }
- aesni_multi_cbc_encrypt(ciph_d, &key->ks, n4x);
- OPENSSL_cleanse(blocks, sizeof(blocks));
- OPENSSL_cleanse(ctx, sizeof(*ctx));
- return ret;
- }
- # endif
- static int aesni_cbc_hmac_sha1_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out,
- const unsigned char *in, size_t len)
- {
- EVP_AES_HMAC_SHA1 *key = data(ctx);
- unsigned int l;
- size_t plen = key->payload_length, iv = 0, /* explicit IV in TLS 1.1 and
- * later */
- sha_off = 0;
- # if defined(STITCHED_CALL)
- size_t aes_off = 0, blocks;
- sha_off = SHA_CBLOCK - key->md.num;
- # endif
- key->payload_length = NO_PAYLOAD_LENGTH;
- if (len % AES_BLOCK_SIZE)
- return 0;
- if (EVP_CIPHER_CTX_encrypting(ctx)) {
- if (plen == NO_PAYLOAD_LENGTH)
- plen = len;
- else if (len !=
- ((plen + SHA_DIGEST_LENGTH +
- AES_BLOCK_SIZE) & -AES_BLOCK_SIZE))
- return 0;
- else if (key->aux.tls_ver >= TLS1_1_VERSION)
- iv = AES_BLOCK_SIZE;
- # if defined(STITCHED_CALL)
- if (plen > (sha_off + iv)
- && (blocks = (plen - (sha_off + iv)) / SHA_CBLOCK)) {
- SHA1_Update(&key->md, in + iv, sha_off);
- aesni_cbc_sha1_enc(in, out, blocks, &key->ks,
- EVP_CIPHER_CTX_iv_noconst(ctx),
- &key->md, in + iv + sha_off);
- blocks *= SHA_CBLOCK;
- aes_off += blocks;
- sha_off += blocks;
- key->md.Nh += blocks >> 29;
- key->md.Nl += blocks <<= 3;
- if (key->md.Nl < (unsigned int)blocks)
- key->md.Nh++;
- } else {
- sha_off = 0;
- }
- # endif
- sha_off += iv;
- SHA1_Update(&key->md, in + sha_off, plen - sha_off);
- if (plen != len) { /* "TLS" mode of operation */
- if (in != out)
- memcpy(out + aes_off, in + aes_off, plen - aes_off);
- /* calculate HMAC and append it to payload */
- SHA1_Final(out + plen, &key->md);
- key->md = key->tail;
- SHA1_Update(&key->md, out + plen, SHA_DIGEST_LENGTH);
- SHA1_Final(out + plen, &key->md);
- /* pad the payload|hmac */
- plen += SHA_DIGEST_LENGTH;
- for (l = len - plen - 1; plen < len; plen++)
- out[plen] = l;
- /* encrypt HMAC|padding at once */
- aesni_cbc_encrypt(out + aes_off, out + aes_off, len - aes_off,
- &key->ks, EVP_CIPHER_CTX_iv_noconst(ctx), 1);
- } else {
- aesni_cbc_encrypt(in + aes_off, out + aes_off, len - aes_off,
- &key->ks, EVP_CIPHER_CTX_iv_noconst(ctx), 1);
- }
- } else {
- union {
- unsigned int u[SHA_DIGEST_LENGTH / sizeof(unsigned int)];
- unsigned char c[32 + SHA_DIGEST_LENGTH];
- } mac, *pmac;
- /* arrange cache line alignment */
- pmac = (void *)(((size_t)mac.c + 31) & ((size_t)0 - 32));
- if (plen != NO_PAYLOAD_LENGTH) { /* "TLS" mode of operation */
- size_t inp_len, mask, j, i;
- unsigned int res, maxpad, pad, bitlen;
- int ret = 1;
- union {
- unsigned int u[SHA_LBLOCK];
- unsigned char c[SHA_CBLOCK];
- } *data = (void *)key->md.data;
- # if defined(STITCHED_DECRYPT_CALL)
- unsigned char tail_iv[AES_BLOCK_SIZE];
- int stitch = 0;
- # endif
- if ((key->aux.tls_aad[plen - 4] << 8 | key->aux.tls_aad[plen - 3])
- >= TLS1_1_VERSION) {
- if (len < (AES_BLOCK_SIZE + SHA_DIGEST_LENGTH + 1))
- return 0;
- /* omit explicit iv */
- memcpy(EVP_CIPHER_CTX_iv_noconst(ctx), in, AES_BLOCK_SIZE);
- in += AES_BLOCK_SIZE;
- out += AES_BLOCK_SIZE;
- len -= AES_BLOCK_SIZE;
- } else if (len < (SHA_DIGEST_LENGTH + 1))
- return 0;
- # if defined(STITCHED_DECRYPT_CALL)
- if (len >= 1024 && ctx->key_len == 32) {
- /* decrypt last block */
- memcpy(tail_iv, in + len - 2 * AES_BLOCK_SIZE,
- AES_BLOCK_SIZE);
- aesni_cbc_encrypt(in + len - AES_BLOCK_SIZE,
- out + len - AES_BLOCK_SIZE, AES_BLOCK_SIZE,
- &key->ks, tail_iv, 0);
- stitch = 1;
- } else
- # endif
- /* decrypt HMAC|padding at once */
- aesni_cbc_encrypt(in, out, len, &key->ks,
- EVP_CIPHER_CTX_iv_noconst(ctx), 0);
- /* figure out payload length */
- pad = out[len - 1];
- maxpad = len - (SHA_DIGEST_LENGTH + 1);
- maxpad |= (255 - maxpad) >> (sizeof(maxpad) * 8 - 8);
- maxpad &= 255;
- ret &= constant_time_ge(maxpad, pad);
- inp_len = len - (SHA_DIGEST_LENGTH + pad + 1);
- mask = (0 - ((inp_len - len) >> (sizeof(inp_len) * 8 - 1)));
- inp_len &= mask;
- ret &= (int)mask;
- key->aux.tls_aad[plen - 2] = inp_len >> 8;
- key->aux.tls_aad[plen - 1] = inp_len;
- /* calculate HMAC */
- key->md = key->head;
- SHA1_Update(&key->md, key->aux.tls_aad, plen);
- # if defined(STITCHED_DECRYPT_CALL)
- if (stitch) {
- blocks = (len - (256 + 32 + SHA_CBLOCK)) / SHA_CBLOCK;
- aes_off = len - AES_BLOCK_SIZE - blocks * SHA_CBLOCK;
- sha_off = SHA_CBLOCK - plen;
- aesni_cbc_encrypt(in, out, aes_off, &key->ks, ctx->iv, 0);
- SHA1_Update(&key->md, out, sha_off);
- aesni256_cbc_sha1_dec(in + aes_off,
- out + aes_off, blocks, &key->ks,
- ctx->iv, &key->md, out + sha_off);
- sha_off += blocks *= SHA_CBLOCK;
- out += sha_off;
- len -= sha_off;
- inp_len -= sha_off;
- key->md.Nl += (blocks << 3); /* at most 18 bits */
- memcpy(ctx->iv, tail_iv, AES_BLOCK_SIZE);
- }
- # endif
- # if 1 /* see original reference version in #else */
- len -= SHA_DIGEST_LENGTH; /* amend mac */
- if (len >= (256 + SHA_CBLOCK)) {
- j = (len - (256 + SHA_CBLOCK)) & (0 - SHA_CBLOCK);
- j += SHA_CBLOCK - key->md.num;
- SHA1_Update(&key->md, out, j);
- out += j;
- len -= j;
- inp_len -= j;
- }
- /* but pretend as if we hashed padded payload */
- bitlen = key->md.Nl + (inp_len << 3); /* at most 18 bits */
- # ifdef BSWAP4
- bitlen = BSWAP4(bitlen);
- # else
- mac.c[0] = 0;
- mac.c[1] = (unsigned char)(bitlen >> 16);
- mac.c[2] = (unsigned char)(bitlen >> 8);
- mac.c[3] = (unsigned char)bitlen;
- bitlen = mac.u[0];
- # endif
- pmac->u[0] = 0;
- pmac->u[1] = 0;
- pmac->u[2] = 0;
- pmac->u[3] = 0;
- pmac->u[4] = 0;
- for (res = key->md.num, j = 0; j < len; j++) {
- size_t c = out[j];
- mask = (j - inp_len) >> (sizeof(j) * 8 - 8);
- c &= mask;
- c |= 0x80 & ~mask & ~((inp_len - j) >> (sizeof(j) * 8 - 8));
- data->c[res++] = (unsigned char)c;
- if (res != SHA_CBLOCK)
- continue;
- /* j is not incremented yet */
- mask = 0 - ((inp_len + 7 - j) >> (sizeof(j) * 8 - 1));
- data->u[SHA_LBLOCK - 1] |= bitlen & mask;
- sha1_block_data_order(&key->md, data, 1);
- mask &= 0 - ((j - inp_len - 72) >> (sizeof(j) * 8 - 1));
- pmac->u[0] |= key->md.h0 & mask;
- pmac->u[1] |= key->md.h1 & mask;
- pmac->u[2] |= key->md.h2 & mask;
- pmac->u[3] |= key->md.h3 & mask;
- pmac->u[4] |= key->md.h4 & mask;
- res = 0;
- }
- for (i = res; i < SHA_CBLOCK; i++, j++)
- data->c[i] = 0;
- if (res > SHA_CBLOCK - 8) {
- mask = 0 - ((inp_len + 8 - j) >> (sizeof(j) * 8 - 1));
- data->u[SHA_LBLOCK - 1] |= bitlen & mask;
- sha1_block_data_order(&key->md, data, 1);
- mask &= 0 - ((j - inp_len - 73) >> (sizeof(j) * 8 - 1));
- pmac->u[0] |= key->md.h0 & mask;
- pmac->u[1] |= key->md.h1 & mask;
- pmac->u[2] |= key->md.h2 & mask;
- pmac->u[3] |= key->md.h3 & mask;
- pmac->u[4] |= key->md.h4 & mask;
- memset(data, 0, SHA_CBLOCK);
- j += 64;
- }
- data->u[SHA_LBLOCK - 1] = bitlen;
- sha1_block_data_order(&key->md, data, 1);
- mask = 0 - ((j - inp_len - 73) >> (sizeof(j) * 8 - 1));
- pmac->u[0] |= key->md.h0 & mask;
- pmac->u[1] |= key->md.h1 & mask;
- pmac->u[2] |= key->md.h2 & mask;
- pmac->u[3] |= key->md.h3 & mask;
- pmac->u[4] |= key->md.h4 & mask;
- # ifdef BSWAP4
- pmac->u[0] = BSWAP4(pmac->u[0]);
- pmac->u[1] = BSWAP4(pmac->u[1]);
- pmac->u[2] = BSWAP4(pmac->u[2]);
- pmac->u[3] = BSWAP4(pmac->u[3]);
- pmac->u[4] = BSWAP4(pmac->u[4]);
- # else
- for (i = 0; i < 5; i++) {
- res = pmac->u[i];
- pmac->c[4 * i + 0] = (unsigned char)(res >> 24);
- pmac->c[4 * i + 1] = (unsigned char)(res >> 16);
- pmac->c[4 * i + 2] = (unsigned char)(res >> 8);
- pmac->c[4 * i + 3] = (unsigned char)res;
- }
- # endif
- len += SHA_DIGEST_LENGTH;
- # else /* pre-lucky-13 reference version of above */
- SHA1_Update(&key->md, out, inp_len);
- res = key->md.num;
- SHA1_Final(pmac->c, &key->md);
- {
- unsigned int inp_blocks, pad_blocks;
- /* but pretend as if we hashed padded payload */
- inp_blocks =
- 1 + ((SHA_CBLOCK - 9 - res) >> (sizeof(res) * 8 - 1));
- res += (unsigned int)(len - inp_len);
- pad_blocks = res / SHA_CBLOCK;
- res %= SHA_CBLOCK;
- pad_blocks +=
- 1 + ((SHA_CBLOCK - 9 - res) >> (sizeof(res) * 8 - 1));
- for (; inp_blocks < pad_blocks; inp_blocks++)
- sha1_block_data_order(&key->md, data, 1);
- }
- # endif
- key->md = key->tail;
- SHA1_Update(&key->md, pmac->c, SHA_DIGEST_LENGTH);
- SHA1_Final(pmac->c, &key->md);
- /* verify HMAC */
- out += inp_len;
- len -= inp_len;
- # if 1 /* see original reference version in #else */
- {
- unsigned char *p = out + len - 1 - maxpad - SHA_DIGEST_LENGTH;
- size_t off = out - p;
- unsigned int c, cmask;
- maxpad += SHA_DIGEST_LENGTH;
- for (res = 0, i = 0, j = 0; j < maxpad; j++) {
- c = p[j];
- cmask =
- ((int)(j - off - SHA_DIGEST_LENGTH)) >> (sizeof(int) *
- 8 - 1);
- res |= (c ^ pad) & ~cmask; /* ... and padding */
- cmask &= ((int)(off - 1 - j)) >> (sizeof(int) * 8 - 1);
- res |= (c ^ pmac->c[i]) & cmask;
- i += 1 & cmask;
- }
- maxpad -= SHA_DIGEST_LENGTH;
- res = 0 - ((0 - res) >> (sizeof(res) * 8 - 1));
- ret &= (int)~res;
- }
- # else /* pre-lucky-13 reference version of above */
- for (res = 0, i = 0; i < SHA_DIGEST_LENGTH; i++)
- res |= out[i] ^ pmac->c[i];
- res = 0 - ((0 - res) >> (sizeof(res) * 8 - 1));
- ret &= (int)~res;
- /* verify padding */
- pad = (pad & ~res) | (maxpad & res);
- out = out + len - 1 - pad;
- for (res = 0, i = 0; i < pad; i++)
- res |= out[i] ^ pad;
- res = (0 - res) >> (sizeof(res) * 8 - 1);
- ret &= (int)~res;
- # endif
- return ret;
- } else {
- # if defined(STITCHED_DECRYPT_CALL)
- if (len >= 1024 && ctx->key_len == 32) {
- if (sha_off %= SHA_CBLOCK)
- blocks = (len - 3 * SHA_CBLOCK) / SHA_CBLOCK;
- else
- blocks = (len - 2 * SHA_CBLOCK) / SHA_CBLOCK;
- aes_off = len - blocks * SHA_CBLOCK;
- aesni_cbc_encrypt(in, out, aes_off, &key->ks, ctx->iv, 0);
- SHA1_Update(&key->md, out, sha_off);
- aesni256_cbc_sha1_dec(in + aes_off,
- out + aes_off, blocks, &key->ks,
- ctx->iv, &key->md, out + sha_off);
- sha_off += blocks *= SHA_CBLOCK;
- out += sha_off;
- len -= sha_off;
- key->md.Nh += blocks >> 29;
- key->md.Nl += blocks <<= 3;
- if (key->md.Nl < (unsigned int)blocks)
- key->md.Nh++;
- } else
- # endif
- /* decrypt HMAC|padding at once */
- aesni_cbc_encrypt(in, out, len, &key->ks,
- EVP_CIPHER_CTX_iv_noconst(ctx), 0);
- SHA1_Update(&key->md, out, len);
- }
- }
- return 1;
- }
- static int aesni_cbc_hmac_sha1_ctrl(EVP_CIPHER_CTX *ctx, int type, int arg,
- void *ptr)
- {
- EVP_AES_HMAC_SHA1 *key = data(ctx);
- switch (type) {
- case EVP_CTRL_AEAD_SET_MAC_KEY:
- {
- unsigned int i;
- unsigned char hmac_key[64];
- memset(hmac_key, 0, sizeof(hmac_key));
- if (arg > (int)sizeof(hmac_key)) {
- SHA1_Init(&key->head);
- SHA1_Update(&key->head, ptr, arg);
- SHA1_Final(hmac_key, &key->head);
- } else {
- memcpy(hmac_key, ptr, arg);
- }
- for (i = 0; i < sizeof(hmac_key); i++)
- hmac_key[i] ^= 0x36; /* ipad */
- SHA1_Init(&key->head);
- SHA1_Update(&key->head, hmac_key, sizeof(hmac_key));
- for (i = 0; i < sizeof(hmac_key); i++)
- hmac_key[i] ^= 0x36 ^ 0x5c; /* opad */
- SHA1_Init(&key->tail);
- SHA1_Update(&key->tail, hmac_key, sizeof(hmac_key));
- OPENSSL_cleanse(hmac_key, sizeof(hmac_key));
- return 1;
- }
- case EVP_CTRL_AEAD_TLS1_AAD:
- {
- unsigned char *p = ptr;
- unsigned int len;
- if (arg != EVP_AEAD_TLS1_AAD_LEN)
- return -1;
- len = p[arg - 2] << 8 | p[arg - 1];
- if (EVP_CIPHER_CTX_encrypting(ctx)) {
- key->payload_length = len;
- if ((key->aux.tls_ver =
- p[arg - 4] << 8 | p[arg - 3]) >= TLS1_1_VERSION) {
- len -= AES_BLOCK_SIZE;
- p[arg - 2] = len >> 8;
- p[arg - 1] = len;
- }
- key->md = key->head;
- SHA1_Update(&key->md, p, arg);
- return (int)(((len + SHA_DIGEST_LENGTH +
- AES_BLOCK_SIZE) & -AES_BLOCK_SIZE)
- - len);
- } else {
- memcpy(key->aux.tls_aad, ptr, arg);
- key->payload_length = arg;
- return SHA_DIGEST_LENGTH;
- }
- }
- # if !defined(OPENSSL_NO_MULTIBLOCK)
- case EVP_CTRL_TLS1_1_MULTIBLOCK_MAX_BUFSIZE:
- return (int)(5 + 16 + ((arg + 20 + 16) & -16));
- case EVP_CTRL_TLS1_1_MULTIBLOCK_AAD:
- {
- EVP_CTRL_TLS1_1_MULTIBLOCK_PARAM *param =
- (EVP_CTRL_TLS1_1_MULTIBLOCK_PARAM *) ptr;
- unsigned int n4x = 1, x4;
- unsigned int frag, last, packlen, inp_len;
- if (arg < (int)sizeof(EVP_CTRL_TLS1_1_MULTIBLOCK_PARAM))
- return -1;
- inp_len = param->inp[11] << 8 | param->inp[12];
- if (EVP_CIPHER_CTX_encrypting(ctx)) {
- if ((param->inp[9] << 8 | param->inp[10]) < TLS1_1_VERSION)
- return -1;
- if (inp_len) {
- if (inp_len < 4096)
- return 0; /* too short */
- if (inp_len >= 8192 && OPENSSL_ia32cap_P[2] & (1 << 5))
- n4x = 2; /* AVX2 */
- } else if ((n4x = param->interleave / 4) && n4x <= 2)
- inp_len = param->len;
- else
- return -1;
- key->md = key->head;
- SHA1_Update(&key->md, param->inp, 13);
- x4 = 4 * n4x;
- n4x += 1;
- frag = inp_len >> n4x;
- last = inp_len + frag - (frag << n4x);
- if (last > frag && ((last + 13 + 9) % 64 < (x4 - 1))) {
- frag++;
- last -= x4 - 1;
- }
- packlen = 5 + 16 + ((frag + 20 + 16) & -16);
- packlen = (packlen << n4x) - packlen;
- packlen += 5 + 16 + ((last + 20 + 16) & -16);
- param->interleave = x4;
- return (int)packlen;
- } else
- return -1; /* not yet */
- }
- case EVP_CTRL_TLS1_1_MULTIBLOCK_ENCRYPT:
- {
- EVP_CTRL_TLS1_1_MULTIBLOCK_PARAM *param =
- (EVP_CTRL_TLS1_1_MULTIBLOCK_PARAM *) ptr;
- return (int)tls1_1_multi_block_encrypt(key, param->out,
- param->inp, param->len,
- param->interleave / 4);
- }
- case EVP_CTRL_TLS1_1_MULTIBLOCK_DECRYPT:
- # endif
- default:
- return -1;
- }
- }
- static EVP_CIPHER aesni_128_cbc_hmac_sha1_cipher = {
- # ifdef NID_aes_128_cbc_hmac_sha1
- NID_aes_128_cbc_hmac_sha1,
- # else
- NID_undef,
- # endif
- AES_BLOCK_SIZE, 16, AES_BLOCK_SIZE,
- EVP_CIPH_CBC_MODE | EVP_CIPH_FLAG_DEFAULT_ASN1 |
- EVP_CIPH_FLAG_AEAD_CIPHER | EVP_CIPH_FLAG_TLS1_1_MULTIBLOCK,
- aesni_cbc_hmac_sha1_init_key,
- aesni_cbc_hmac_sha1_cipher,
- NULL,
- sizeof(EVP_AES_HMAC_SHA1),
- EVP_CIPH_FLAG_DEFAULT_ASN1 ? NULL : EVP_CIPHER_set_asn1_iv,
- EVP_CIPH_FLAG_DEFAULT_ASN1 ? NULL : EVP_CIPHER_get_asn1_iv,
- aesni_cbc_hmac_sha1_ctrl,
- NULL
- };
- static EVP_CIPHER aesni_256_cbc_hmac_sha1_cipher = {
- # ifdef NID_aes_256_cbc_hmac_sha1
- NID_aes_256_cbc_hmac_sha1,
- # else
- NID_undef,
- # endif
- AES_BLOCK_SIZE, 32, AES_BLOCK_SIZE,
- EVP_CIPH_CBC_MODE | EVP_CIPH_FLAG_DEFAULT_ASN1 |
- EVP_CIPH_FLAG_AEAD_CIPHER | EVP_CIPH_FLAG_TLS1_1_MULTIBLOCK,
- aesni_cbc_hmac_sha1_init_key,
- aesni_cbc_hmac_sha1_cipher,
- NULL,
- sizeof(EVP_AES_HMAC_SHA1),
- EVP_CIPH_FLAG_DEFAULT_ASN1 ? NULL : EVP_CIPHER_set_asn1_iv,
- EVP_CIPH_FLAG_DEFAULT_ASN1 ? NULL : EVP_CIPHER_get_asn1_iv,
- aesni_cbc_hmac_sha1_ctrl,
- NULL
- };
- const EVP_CIPHER *EVP_aes_128_cbc_hmac_sha1(void)
- {
- return (OPENSSL_ia32cap_P[1] & AESNI_CAPABLE ?
- &aesni_128_cbc_hmac_sha1_cipher : NULL);
- }
- const EVP_CIPHER *EVP_aes_256_cbc_hmac_sha1(void)
- {
- return (OPENSSL_ia32cap_P[1] & AESNI_CAPABLE ?
- &aesni_256_cbc_hmac_sha1_cipher : NULL);
- }
- #else
- const EVP_CIPHER *EVP_aes_128_cbc_hmac_sha1(void)
- {
- return NULL;
- }
- const EVP_CIPHER *EVP_aes_256_cbc_hmac_sha1(void)
- {
- return NULL;
- }
- #endif
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