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  2.   ssl
  3.   s3_cbc.c
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/*
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 * Copyright 2012-2018 The OpenSSL Project Authors. All Rights Reserved.
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 *
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 * Licensed under the OpenSSL license (the "License").  You may not use
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 * this file except in compliance with the License.  You can obtain a copy
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 * in the file LICENSE in the source distribution or at
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 * https://www.openssl.org/source/license.html
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 */
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#include "internal/constant_time.h"
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#include "ssl_local.h"
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#include "internal/cryptlib.h"
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#include <openssl/md5.h>
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#include <openssl/sha.h>
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/*
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 * MAX_HASH_BIT_COUNT_BYTES is the maximum number of bytes in the hash's
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 * length field. (SHA-384/512 have 128-bit length.)
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 */
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#define MAX_HASH_BIT_COUNT_BYTES 16
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/*
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 * MAX_HASH_BLOCK_SIZE is the maximum hash block size that we'll support.
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 * Currently SHA-384/512 has a 128-byte block size and that's the largest
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 * supported by TLS.)
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 */
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#define MAX_HASH_BLOCK_SIZE 128
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/*
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 * u32toLE serialises an unsigned, 32-bit number (n) as four bytes at (p) in
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 * little-endian order. The value of p is advanced by four.
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 */
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#define u32toLE(n, p) \
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        (*((p)++)=(unsigned char)(n), \
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         *((p)++)=(unsigned char)(n>>8), \
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         *((p)++)=(unsigned char)(n>>16), \
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         *((p)++)=(unsigned char)(n>>24))
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/*
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 * These functions serialize the state of a hash and thus perform the
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 * standard "final" operation without adding the padding and length that such
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 * a function typically does.
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 */
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static void tls1_md5_final_raw(void *ctx, unsigned char *md_out)
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{
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    MD5_CTX *md5 = ctx;
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    u32toLE(md5->A, md_out);
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    u32toLE(md5->B, md_out);
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    u32toLE(md5->C, md_out);
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    u32toLE(md5->D, md_out);
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}
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static void tls1_sha1_final_raw(void *ctx, unsigned char *md_out)
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{
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    SHA_CTX *sha1 = ctx;
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    l2n(sha1->h0, md_out);
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    l2n(sha1->h1, md_out);
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    l2n(sha1->h2, md_out);
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    l2n(sha1->h3, md_out);
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    l2n(sha1->h4, md_out);
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}
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static void tls1_sha256_final_raw(void *ctx, unsigned char *md_out)
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{
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    SHA256_CTX *sha256 = ctx;
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    unsigned i;
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    for (i = 0; i < 8; i++) {
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        l2n(sha256->h[i], md_out);
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    }
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}
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static void tls1_sha512_final_raw(void *ctx, unsigned char *md_out)
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{
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    SHA512_CTX *sha512 = ctx;
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    unsigned i;
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    for (i = 0; i < 8; i++) {
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        l2n8(sha512->h[i], md_out);
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    }
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}
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#undef  LARGEST_DIGEST_CTX
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#define LARGEST_DIGEST_CTX SHA512_CTX
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/*
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 * ssl3_cbc_record_digest_supported returns 1 iff |ctx| uses a hash function
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 * which ssl3_cbc_digest_record supports.
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 */
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char ssl3_cbc_record_digest_supported(const EVP_MD_CTX *ctx)
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{
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    switch (EVP_MD_CTX_type(ctx)) {
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    case NID_md5:
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    case NID_sha1:
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    case NID_sha224:
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    case NID_sha256:
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    case NID_sha384:
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    case NID_sha512:
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        return 1;
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    default:
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        return 0;
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    }
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}
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/*-
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 * ssl3_cbc_digest_record computes the MAC of a decrypted, padded SSLv3/TLS
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 * record.
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 *
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 *   ctx: the EVP_MD_CTX from which we take the hash function.
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 *     ssl3_cbc_record_digest_supported must return true for this EVP_MD_CTX.
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 *   md_out: the digest output. At most EVP_MAX_MD_SIZE bytes will be written.
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 *   md_out_size: if non-NULL, the number of output bytes is written here.
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 *   header: the 13-byte, TLS record header.
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 *   data: the record data itself, less any preceding explicit IV.
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 *   data_plus_mac_size: the secret, reported length of the data and MAC
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 *     once the padding has been removed.
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 *   data_plus_mac_plus_padding_size: the public length of the whole
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 *     record, including padding.
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 *   is_sslv3: non-zero if we are to use SSLv3. Otherwise, TLS.
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 *
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 * On entry: by virtue of having been through one of the remove_padding
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 * functions, above, we know that data_plus_mac_size is large enough to contain
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 * a padding byte and MAC. (If the padding was invalid, it might contain the
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 * padding too. )
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 * Returns 1 on success or 0 on error
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 */
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int ssl3_cbc_digest_record(const EVP_MD_CTX *ctx,
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                           unsigned char *md_out,
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                           size_t *md_out_size,
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                           const unsigned char header[13],
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                           const unsigned char *data,
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                           size_t data_plus_mac_size,
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                           size_t data_plus_mac_plus_padding_size,
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                           const unsigned char *mac_secret,
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                           size_t mac_secret_length, char is_sslv3)
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{
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    union {
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        double align;
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        unsigned char c[sizeof(LARGEST_DIGEST_CTX)];
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    } md_state;
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    void (*md_final_raw) (void *ctx, unsigned char *md_out);
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    void (*md_transform) (void *ctx, const unsigned char *block);
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    size_t md_size, md_block_size = 64;
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    size_t sslv3_pad_length = 40, header_length, variance_blocks,
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        len, max_mac_bytes, num_blocks,
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        num_starting_blocks, k, mac_end_offset, c, index_a, index_b;
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    size_t bits;          /* at most 18 bits */
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    unsigned char length_bytes[MAX_HASH_BIT_COUNT_BYTES];
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    /* hmac_pad is the masked HMAC key. */
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    unsigned char hmac_pad[MAX_HASH_BLOCK_SIZE];
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    unsigned char first_block[MAX_HASH_BLOCK_SIZE];
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    unsigned char mac_out[EVP_MAX_MD_SIZE];
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    size_t i, j;
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    unsigned md_out_size_u;
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    EVP_MD_CTX *md_ctx = NULL;
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    /*
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     * mdLengthSize is the number of bytes in the length field that
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     * terminates * the hash.
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     */
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    size_t md_length_size = 8;
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    char length_is_big_endian = 1;
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    int ret;
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    /*
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     * This is a, hopefully redundant, check that allows us to forget about
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     * many possible overflows later in this function.
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     */
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    if (!ossl_assert(data_plus_mac_plus_padding_size < 1024 * 1024))
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        return 0;
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    switch (EVP_MD_CTX_type(ctx)) {
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    case NID_md5:
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        if (MD5_Init((MD5_CTX *)md_state.c) <= 0)
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            return 0;
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        md_final_raw = tls1_md5_final_raw;
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        md_transform =
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            (void (*)(void *ctx, const unsigned char *block))MD5_Transform;
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        md_size = 16;
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        sslv3_pad_length = 48;
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        length_is_big_endian = 0;
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        break;
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    case NID_sha1:
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        if (SHA1_Init((SHA_CTX *)md_state.c) <= 0)
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            return 0;
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        md_final_raw = tls1_sha1_final_raw;
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        md_transform =
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            (void (*)(void *ctx, const unsigned char *block))SHA1_Transform;
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        md_size = 20;
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        break;
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    case NID_sha224:
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        if (SHA224_Init((SHA256_CTX *)md_state.c) <= 0)
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            return 0;
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        md_final_raw = tls1_sha256_final_raw;
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        md_transform =
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            (void (*)(void *ctx, const unsigned char *block))SHA256_Transform;
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        md_size = 224 / 8;
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        break;
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    case NID_sha256:
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        if (SHA256_Init((SHA256_CTX *)md_state.c) <= 0)
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            return 0;
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        md_final_raw = tls1_sha256_final_raw;
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        md_transform =
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            (void (*)(void *ctx, const unsigned char *block))SHA256_Transform;
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        md_size = 32;
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        break;
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    case NID_sha384:
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        if (SHA384_Init((SHA512_CTX *)md_state.c) <= 0)
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            return 0;
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        md_final_raw = tls1_sha512_final_raw;
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        md_transform =
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            (void (*)(void *ctx, const unsigned char *block))SHA512_Transform;
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        md_size = 384 / 8;
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        md_block_size = 128;
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        md_length_size = 16;
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        break;
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    case NID_sha512:
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        if (SHA512_Init((SHA512_CTX *)md_state.c) <= 0)
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            return 0;
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        md_final_raw = tls1_sha512_final_raw;
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        md_transform =
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            (void (*)(void *ctx, const unsigned char *block))SHA512_Transform;
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        md_size = 64;
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        md_block_size = 128;
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        md_length_size = 16;
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        break;
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    default:
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        /*
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         * ssl3_cbc_record_digest_supported should have been called first to
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         * check that the hash function is supported.
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         */
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        if (md_out_size != NULL)
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            *md_out_size = 0;
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        return ossl_assert(0);
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    }
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    if (!ossl_assert(md_length_size <= MAX_HASH_BIT_COUNT_BYTES)
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            || !ossl_assert(md_block_size <= MAX_HASH_BLOCK_SIZE)
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            || !ossl_assert(md_size <= EVP_MAX_MD_SIZE))
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        return 0;
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    header_length = 13;
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    if (is_sslv3) {
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        header_length = mac_secret_length + sslv3_pad_length + 8 /* sequence
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                                                                  * number */  +
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            1 /* record type */  +
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            2 /* record length */ ;
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    }
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    /*
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     * variance_blocks is the number of blocks of the hash that we have to
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     * calculate in constant time because they could be altered by the
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     * padding value. In SSLv3, the padding must be minimal so the end of
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     * the plaintext varies by, at most, 15+20 = 35 bytes. (We conservatively
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     * assume that the MAC size varies from 0..20 bytes.) In case the 9 bytes
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     * of hash termination (0x80 + 64-bit length) don't fit in the final
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     * block, we say that the final two blocks can vary based on the padding.
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     * TLSv1 has MACs up to 48 bytes long (SHA-384) and the padding is not
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     * required to be minimal. Therefore we say that the final |variance_blocks|
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     * blocks can
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     * vary based on the padding. Later in the function, if the message is
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     * short and there obviously cannot be this many blocks then
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     * variance_blocks can be reduced.
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     */
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    variance_blocks = is_sslv3 ? 2 : ( ((255 + 1 + md_size + md_block_size - 1) / md_block_size) + 1);
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    /*
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     * From now on we're dealing with the MAC, which conceptually has 13
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     * bytes of `header' before the start of the data (TLS) or 71/75 bytes
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     * (SSLv3)
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     */
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    len = data_plus_mac_plus_padding_size + header_length;
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    /*
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     * max_mac_bytes contains the maximum bytes of bytes in the MAC,
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     * including * |header|, assuming that there's no padding.
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     */
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    max_mac_bytes = len - md_size - 1;
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    /* num_blocks is the maximum number of hash blocks. */
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    num_blocks =
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        (max_mac_bytes + 1 + md_length_size + md_block_size -
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         1) / md_block_size;
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    /*
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     * In order to calculate the MAC in constant time we have to handle the
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     * final blocks specially because the padding value could cause the end
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     * to appear somewhere in the final |variance_blocks| blocks and we can't
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     * leak where. However, |num_starting_blocks| worth of data can be hashed
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     * right away because no padding value can affect whether they are
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     * plaintext.
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     */
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    num_starting_blocks = 0;
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    /*
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     * k is the starting byte offset into the conceptual header||data where
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     * we start processing.
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     */
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    k = 0;
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    /*
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     * mac_end_offset is the index just past the end of the data to be MACed.
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     */
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    mac_end_offset = data_plus_mac_size + header_length - md_size;
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    /*
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     * c is the index of the 0x80 byte in the final hash block that contains
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     * application data.
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     */
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    c = mac_end_offset % md_block_size;
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    /*
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     * index_a is the hash block number that contains the 0x80 terminating
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     * value.
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     */
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    index_a = mac_end_offset / md_block_size;
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    /*
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     * index_b is the hash block number that contains the 64-bit hash length,
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     * in bits.
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     */
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    index_b = (mac_end_offset + md_length_size) / md_block_size;
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    /*
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     * bits is the hash-length in bits. It includes the additional hash block
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     * for the masked HMAC key, or whole of |header| in the case of SSLv3.
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     */
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    /*
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     * For SSLv3, if we're going to have any starting blocks then we need at
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     * least two because the header is larger than a single block.
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     */
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    if (num_blocks > variance_blocks + (is_sslv3 ? 1 : 0)) {
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        num_starting_blocks = num_blocks - variance_blocks;
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        k = md_block_size * num_starting_blocks;
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    }
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    bits = 8 * mac_end_offset;
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    if (!is_sslv3) {
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        /*
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         * Compute the initial HMAC block. For SSLv3, the padding and secret
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         * bytes are included in |header| because they take more than a
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         * single block.
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         */
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        bits += 8 * md_block_size;
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        memset(hmac_pad, 0, md_block_size);
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        if (!ossl_assert(mac_secret_length <= sizeof(hmac_pad)))
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            return 0;
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        memcpy(hmac_pad, mac_secret, mac_secret_length);
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        for (i = 0; i < md_block_size; i++)
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            hmac_pad[i] ^= 0x36;
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        md_transform(md_state.c, hmac_pad);
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    }
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    if (length_is_big_endian) {
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        memset(length_bytes, 0, md_length_size - 4);
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        length_bytes[md_length_size - 4] = (unsigned char)(bits >> 24);
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        length_bytes[md_length_size - 3] = (unsigned char)(bits >> 16);
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        length_bytes[md_length_size - 2] = (unsigned char)(bits >> 8);
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        length_bytes[md_length_size - 1] = (unsigned char)bits;
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    } else {
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        memset(length_bytes, 0, md_length_size);
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        length_bytes[md_length_size - 5] = (unsigned char)(bits >> 24);
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        length_bytes[md_length_size - 6] = (unsigned char)(bits >> 16);
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        length_bytes[md_length_size - 7] = (unsigned char)(bits >> 8);
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        length_bytes[md_length_size - 8] = (unsigned char)bits;
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    }
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    if (k > 0) {
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        if (is_sslv3) {
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            size_t overhang;
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Packit c4476c 
            /*
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             * The SSLv3 header is larger than a single block. overhang is
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             * the number of bytes beyond a single block that the header
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             * consumes: either 7 bytes (SHA1) or 11 bytes (MD5). There are no
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             * ciphersuites in SSLv3 that are not SHA1 or MD5 based and
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             * therefore we can be confident that the header_length will be
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             * greater than |md_block_size|. However we add a sanity check just
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             * in case
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             */
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            if (header_length <= md_block_size) {
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                /* Should never happen */
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                return 0;
Packit c4476c 
            }
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            overhang = header_length - md_block_size;
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            md_transform(md_state.c, header);
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            memcpy(first_block, header + md_block_size, overhang);
Packit c4476c 
            memcpy(first_block + overhang, data, md_block_size - overhang);
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            md_transform(md_state.c, first_block);
Packit c4476c 
            for (i = 1; i < k / md_block_size - 1; i++)
Packit c4476c 
                md_transform(md_state.c, data + md_block_size * i - overhang);
Packit c4476c 
        } else {
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            /* k is a multiple of md_block_size. */
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            memcpy(first_block, header, 13);
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            memcpy(first_block + 13, data, md_block_size - 13);
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            md_transform(md_state.c, first_block);
Packit c4476c 
            for (i = 1; i < k / md_block_size; i++)
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                md_transform(md_state.c, data + md_block_size * i - 13);
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        }
Packit c4476c 
    }
Packit c4476c
Packit c4476c 
    memset(mac_out, 0, sizeof(mac_out));
Packit c4476c
Packit c4476c 
    /*
Packit c4476c 
     * We now process the final hash blocks. For each block, we construct it
Packit c4476c 
     * in constant time. If the |i==index_a| then we'll include the 0x80
Packit c4476c 
     * bytes and zero pad etc. For each block we selectively copy it, in
Packit c4476c 
     * constant time, to |mac_out|.
Packit c4476c 
     */
Packit c4476c 
    for (i = num_starting_blocks; i <= num_starting_blocks + variance_blocks;
Packit c4476c 
         i++) {
Packit c4476c 
        unsigned char block[MAX_HASH_BLOCK_SIZE];
Packit c4476c 
        unsigned char is_block_a = constant_time_eq_8_s(i, index_a);
Packit c4476c 
        unsigned char is_block_b = constant_time_eq_8_s(i, index_b);
Packit c4476c 
        for (j = 0; j < md_block_size; j++) {
Packit c4476c 
            unsigned char b = 0, is_past_c, is_past_cp1;
Packit c4476c 
            if (k < header_length)
Packit c4476c 
                b = header[k];
Packit c4476c 
            else if (k < data_plus_mac_plus_padding_size + header_length)
Packit c4476c 
                b = data[k - header_length];
Packit c4476c 
            k++;
Packit c4476c
Packit c4476c 
            is_past_c = is_block_a & constant_time_ge_8_s(j, c);
Packit c4476c 
            is_past_cp1 = is_block_a & constant_time_ge_8_s(j, c + 1);
Packit c4476c 
            /*
Packit c4476c 
             * If this is the block containing the end of the application
Packit c4476c 
             * data, and we are at the offset for the 0x80 value, then
Packit c4476c 
             * overwrite b with 0x80.
Packit c4476c 
             */
Packit c4476c 
            b = constant_time_select_8(is_past_c, 0x80, b);
Packit c4476c 
            /*
Packit c4476c 
             * If this block contains the end of the application data
Packit c4476c 
             * and we're past the 0x80 value then just write zero.
Packit c4476c 
             */
Packit c4476c 
            b = b & ~is_past_cp1;
Packit c4476c 
            /*
Packit c4476c 
             * If this is index_b (the final block), but not index_a (the end
Packit c4476c 
             * of the data), then the 64-bit length didn't fit into index_a
Packit c4476c 
             * and we're having to add an extra block of zeros.
Packit c4476c 
             */
Packit c4476c 
            b &= ~is_block_b | is_block_a;
Packit c4476c
Packit c4476c 
            /*
Packit c4476c 
             * The final bytes of one of the blocks contains the length.
Packit c4476c 
             */
Packit c4476c 
            if (j >= md_block_size - md_length_size) {
Packit c4476c 
                /* If this is index_b, write a length byte. */
Packit c4476c 
                b = constant_time_select_8(is_block_b,
Packit c4476c 
                                           length_bytes[j -
Packit c4476c 
                                                        (md_block_size -
Packit c4476c 
                                                         md_length_size)], b);
Packit c4476c 
            }
Packit c4476c 
            block[j] = b;
Packit c4476c 
        }
Packit c4476c
Packit c4476c 
        md_transform(md_state.c, block);
Packit c4476c 
        md_final_raw(md_state.c, block);
Packit c4476c 
        /* If this is index_b, copy the hash value to |mac_out|. */
Packit c4476c 
        for (j = 0; j < md_size; j++)
Packit c4476c 
            mac_out[j] |= block[j] & is_block_b;
Packit c4476c 
    }
Packit c4476c
Packit c4476c 
    md_ctx = EVP_MD_CTX_new();
Packit c4476c 
    if (md_ctx == NULL)
Packit c4476c 
        goto err;
Packit c4476c 
    if (EVP_DigestInit_ex(md_ctx, EVP_MD_CTX_md(ctx), NULL /* engine */ ) <= 0)
Packit c4476c 
        goto err;
Packit c4476c 
    if (is_sslv3) {
Packit c4476c 
        /* We repurpose |hmac_pad| to contain the SSLv3 pad2 block. */
Packit c4476c 
        memset(hmac_pad, 0x5c, sslv3_pad_length);
Packit c4476c
Packit c4476c 
        if (EVP_DigestUpdate(md_ctx, mac_secret, mac_secret_length) <= 0
Packit c4476c 
            || EVP_DigestUpdate(md_ctx, hmac_pad, sslv3_pad_length) <= 0
Packit c4476c 
            || EVP_DigestUpdate(md_ctx, mac_out, md_size) <= 0)
Packit c4476c 
            goto err;
Packit c4476c 
    } else {
Packit c4476c 
        /* Complete the HMAC in the standard manner. */
Packit c4476c 
        for (i = 0; i < md_block_size; i++)
Packit c4476c 
            hmac_pad[i] ^= 0x6a;
Packit c4476c
Packit c4476c 
        if (EVP_DigestUpdate(md_ctx, hmac_pad, md_block_size) <= 0
Packit c4476c 
            || EVP_DigestUpdate(md_ctx, mac_out, md_size) <= 0)
Packit c4476c 
            goto err;
Packit c4476c 
    }
Packit c4476c 
    /* TODO(size_t): Convert me */
Packit c4476c 
    ret = EVP_DigestFinal(md_ctx, md_out, &md_out_size_u);
Packit c4476c 
    if (ret && md_out_size)
Packit c4476c 
        *md_out_size = md_out_size_u;
Packit c4476c 
    EVP_MD_CTX_free(md_ctx);
Packit c4476c
Packit c4476c 
    return 1;
Packit c4476c 
 err:
Packit c4476c 
    EVP_MD_CTX_free(md_ctx);
Packit c4476c 
    return 0;
Packit c4476c 
}

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