s3_cbc.c revision 04ef91b390dfcc6125913e2f2af502d23d7a5112
1fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* ssl/s3_cbc.c */ 2fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* ==================================================================== 3fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * Copyright (c) 2012 The OpenSSL Project. All rights reserved. 4fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 5fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * Redistribution and use in source and binary forms, with or without 6fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * modification, are permitted provided that the following conditions 7fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * are met: 8fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 9fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 1. Redistributions of source code must retain the above copyright 10fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * notice, this list of conditions and the following disclaimer. 11fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 12fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 2. Redistributions in binary form must reproduce the above copyright 13fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * notice, this list of conditions and the following disclaimer in 14fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * the documentation and/or other materials provided with the 15fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * distribution. 16fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 17fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 3. All advertising materials mentioning features or use of this 18fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * software must display the following acknowledgment: 19fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * "This product includes software developed by the OpenSSL Project 20fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * for use in the OpenSSL Toolkit. (http://www.openssl.org/)" 21fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 22fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 4. The names "OpenSSL Toolkit" and "OpenSSL Project" must not be used to 23fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * endorse or promote products derived from this software without 24fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * prior written permission. For written permission, please contact 25fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * openssl-core@openssl.org. 26fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 27fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 5. Products derived from this software may not be called "OpenSSL" 28fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * nor may "OpenSSL" appear in their names without prior written 29fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * permission of the OpenSSL Project. 30fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 31fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 6. Redistributions of any form whatsoever must retain the following 32fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * acknowledgment: 33fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * "This product includes software developed by the OpenSSL Project 34fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * for use in the OpenSSL Toolkit (http://www.openssl.org/)" 35fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 36fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * THIS SOFTWARE IS PROVIDED BY THE OpenSSL PROJECT ``AS IS'' AND ANY 37fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 38fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 39fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE OpenSSL PROJECT OR 40fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 41fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 42fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 43fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 44fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, 45fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 46fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED 47fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * OF THE POSSIBILITY OF SUCH DAMAGE. 48fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * ==================================================================== 49fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 50fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * This product includes cryptographic software written by Eric Young 51fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * (eay@cryptsoft.com). This product includes software written by Tim 52fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * Hudson (tjh@cryptsoft.com). 53fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 54fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom */ 55fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 56fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#include "ssl_locl.h" 57fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 58fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#include <openssl/md5.h> 59fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#include <openssl/sha.h> 60fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 61fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* MAX_HASH_BIT_COUNT_BYTES is the maximum number of bytes in the hash's length 62fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * field. (SHA-384/512 have 128-bit length.) */ 63fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#define MAX_HASH_BIT_COUNT_BYTES 16 64fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 65fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* MAX_HASH_BLOCK_SIZE is the maximum hash block size that we'll support. 66fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * Currently SHA-384/512 has a 128-byte block size and that's the largest 67fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * supported by TLS.) */ 68fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#define MAX_HASH_BLOCK_SIZE 128 69fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 70fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* Some utility functions are needed: 71fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 72fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * These macros return the given value with the MSB copied to all the other 73fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * bits. They use the fact that arithmetic shift shifts-in the sign bit. 74fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * However, this is not ensured by the C standard so you may need to replace 75fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * them with something else on odd CPUs. */ 76fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#define DUPLICATE_MSB_TO_ALL(x) ( (unsigned)( (int)(x) >> (sizeof(int)*8-1) ) ) 77fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#define DUPLICATE_MSB_TO_ALL_8(x) ((unsigned char)(DUPLICATE_MSB_TO_ALL(x))) 78fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 79fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* constant_time_ge returns 0xff if a>=b and 0x00 otherwise. */ 80fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromstatic unsigned constant_time_ge(unsigned a, unsigned b) 81fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 82fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom a -= b; 83fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom return DUPLICATE_MSB_TO_ALL(~a); 84fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 85fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 86fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* constant_time_eq_8 returns 0xff if a==b and 0x00 otherwise. */ 87fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromstatic unsigned char constant_time_eq_8(unsigned char a, unsigned char b) 88fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 89fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned c = a ^ b; 90fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom c--; 91fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom return DUPLICATE_MSB_TO_ALL_8(c); 92fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 93fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 94fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* ssl3_cbc_remove_padding removes padding from the decrypted, SSLv3, CBC 95fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * record in |rec| by updating |rec->length| in constant time. 96fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 97fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * block_size: the block size of the cipher used to encrypt the record. 98fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * returns: 99fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 0: (in non-constant time) if the record is publicly invalid. 100fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 1: if the padding was valid 101fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * -1: otherwise. */ 102fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromint ssl3_cbc_remove_padding(const SSL* s, 103fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom SSL3_RECORD *rec, 104fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned block_size, 105fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned mac_size) 106fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 107fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned padding_length, good; 108fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom const unsigned overhead = 1 /* padding length byte */ + mac_size; 109fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 110fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* These lengths are all public so we can test them in non-constant 111fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * time. */ 112fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (overhead > rec->length) 113fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom return 0; 114fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 115fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom padding_length = rec->data[rec->length-1]; 116fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom good = constant_time_ge(rec->length, padding_length+overhead); 117fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* SSLv3 requires that the padding is minimal. */ 118fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom good &= constant_time_ge(block_size, padding_length+1); 11904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom padding_length = good & (padding_length+1); 12004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom rec->length -= padding_length; 12104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom rec->type |= padding_length<<8; /* kludge: pass padding length */ 122fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom return (int)((good & 1) | (~good & -1)); 123fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom} 124fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 125fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* tls1_cbc_remove_padding removes the CBC padding from the decrypted, TLS, CBC 126fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * record in |rec| in constant time and returns 1 if the padding is valid and 127fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * -1 otherwise. It also removes any explicit IV from the start of the record 128fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * without leaking any timing about whether there was enough space after the 129fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * padding was removed. 130fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 131fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * block_size: the block size of the cipher used to encrypt the record. 132fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * returns: 133fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 0: (in non-constant time) if the record is publicly invalid. 134fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 1: if the padding was valid 135fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * -1: otherwise. */ 136fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromint tls1_cbc_remove_padding(const SSL* s, 137fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom SSL3_RECORD *rec, 138fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned block_size, 139fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned mac_size) 140fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 141fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned padding_length, good, to_check, i; 142fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom const char has_explicit_iv = 143fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom s->version >= TLS1_1_VERSION || s->version == DTLS1_VERSION; 144fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom const unsigned overhead = 1 /* padding length byte */ + 145fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom mac_size + 146fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom (has_explicit_iv ? block_size : 0); 147fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 148fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* These lengths are all public so we can test them in non-constant 149fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * time. */ 150fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (overhead > rec->length) 151fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom return 0; 152fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 15304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom /* We can always safely skip the explicit IV. We check at the beginning 15404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * of this function that the record has at least enough space for the 15504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * IV, MAC and padding length byte. (These can be checked in 15604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * non-constant time because it's all public information.) So, if the 15704ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * padding was invalid, then we didn't change |rec->length| and this is 15804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * safe. If the padding was valid then we know that we have at least 15904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * overhead+padding_length bytes of space and so this is still safe 16004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * because overhead accounts for the explicit IV. */ 16104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom if (has_explicit_iv) 16204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom { 16304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom rec->data += block_size; 16404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom rec->input += block_size; 16504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom rec->length -= block_size; 16604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom } 16704ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom 168fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom padding_length = rec->data[rec->length-1]; 169fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 170fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* NB: if compression is in operation the first packet may not be of 171fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * even length so the padding bug check cannot be performed. This bug 172fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * workaround has been around since SSLeay so hopefully it is either 173fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * fixed now or no buggy implementation supports compression [steve] 174fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom */ 175fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if ( (s->options&SSL_OP_TLS_BLOCK_PADDING_BUG) && !s->expand) 176fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 177fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* First packet is even in size, so check */ 178fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if ((memcmp(s->s3->read_sequence, "\0\0\0\0\0\0\0\0",8) == 0) && 179fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom !(padding_length & 1)) 180fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 181fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom s->s3->flags|=TLS1_FLAGS_TLS_PADDING_BUG; 182fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 183fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if ((s->s3->flags & TLS1_FLAGS_TLS_PADDING_BUG) && 184fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom padding_length > 0) 185fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 186fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom padding_length--; 187fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 188fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 189fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 19004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom if (EVP_CIPHER_flags(s->enc_read_ctx->cipher)&EVP_CIPH_FLAG_AEAD_CIPHER) 19104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom { 19204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom /* padding is already verified */ 19304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom rec->length -= padding_length; 19404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom return 1; 19504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom } 19604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom 197fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom good = constant_time_ge(rec->length, overhead+padding_length); 198fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* The padding consists of a length byte at the end of the record and 199fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * then that many bytes of padding, all with the same value as the 200fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * length byte. Thus, with the length byte included, there are i+1 201fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * bytes of padding. 202fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 203fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * We can't check just |padding_length+1| bytes because that leaks 204fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * decrypted information. Therefore we always have to check the maximum 205fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * amount of padding possible. (Again, the length of the record is 206fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * public information so we can use it.) */ 207fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom to_check = 255; /* maximum amount of padding. */ 208fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (to_check > rec->length-1) 209fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom to_check = rec->length-1; 210fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 211fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (i = 0; i < to_check; i++) 212fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 213fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char mask = constant_time_ge(padding_length, i); 214fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char b = rec->data[rec->length-1-i]; 215fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* The final |padding_length+1| bytes should all have the value 216fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * |padding_length|. Therefore the XOR should be zero. */ 217fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom good &= ~(mask&(padding_length ^ b)); 218fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 219fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 220fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* If any of the final |padding_length+1| bytes had the wrong value, 221fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * one or more of the lower eight bits of |good| will be cleared. We 222fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * AND the bottom 8 bits together and duplicate the result to all the 223fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * bits. */ 224fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom good &= good >> 4; 225fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom good &= good >> 2; 226fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom good &= good >> 1; 227fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom good <<= sizeof(good)*8-1; 228fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom good = DUPLICATE_MSB_TO_ALL(good); 229fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 23004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom padding_length = good & (padding_length+1); 23104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom rec->length -= padding_length; 23204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom rec->type |= padding_length<<8; /* kludge: pass padding length */ 233fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 234fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom return (int)((good & 1) | (~good & -1)); 235fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 236fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 237fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#if defined(_M_AMD64) || defined(__x86_64__) 238fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#define CBC_MAC_ROTATE_IN_PLACE 239fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#endif 240fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 241fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* ssl3_cbc_copy_mac copies |md_size| bytes from the end of |rec| to |out| in 242fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * constant time (independent of the concrete value of rec->length, which may 243fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * vary within a 256-byte window). 244fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 245fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * ssl3_cbc_remove_padding or tls1_cbc_remove_padding must be called prior to 246fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * this function. 247fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 248fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * On entry: 249fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * rec->orig_len >= md_size 250fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * md_size <= EVP_MAX_MD_SIZE 251fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 252fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * If CBC_MAC_ROTATE_IN_PLACE is defined then the rotation is performed with 253fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * variable accesses in a 64-byte-aligned buffer. Assuming that this fits into 254fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * a single cache-line, then the variable memory accesses don't actually affect 255fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * the timing. This has been tested to be true on Intel amd64 chips. 256fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom */ 257fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromvoid ssl3_cbc_copy_mac(unsigned char* out, 258fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom const SSL3_RECORD *rec, 25904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom unsigned md_size,unsigned orig_len) 260fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 261fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#if defined(CBC_MAC_ROTATE_IN_PLACE) 262fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char rotated_mac_buf[EVP_MAX_MD_SIZE*2]; 263fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char *rotated_mac; 264fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#else 265fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char rotated_mac[EVP_MAX_MD_SIZE]; 266fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#endif 267fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 268fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* mac_end is the index of |rec->data| just after the end of the MAC. */ 269fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned mac_end = rec->length; 270fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned mac_start = mac_end - md_size; 271fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* scan_start contains the number of bytes that we can ignore because 272fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * the MAC's position can only vary by 255 bytes. */ 273fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned scan_start = 0; 274fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned i, j; 275fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned div_spoiler; 276fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned rotate_offset; 277fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 27804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom OPENSSL_assert(orig_len >= md_size); 279fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom OPENSSL_assert(md_size <= EVP_MAX_MD_SIZE); 280fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 281fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#if defined(CBC_MAC_ROTATE_IN_PLACE) 282fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom rotated_mac = (unsigned char*) (((intptr_t)(rotated_mac_buf + 64)) & ~63); 283fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#endif 284fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 285fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* This information is public so it's safe to branch based on it. */ 28604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom if (orig_len > md_size + 255 + 1) 28704ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom scan_start = orig_len - (md_size + 255 + 1); 288fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* div_spoiler contains a multiple of md_size that is used to cause the 289fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * modulo operation to be constant time. Without this, the time varies 290fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * based on the amount of padding when running on Intel chips at least. 291fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 292fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * The aim of right-shifting md_size is so that the compiler doesn't 293fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * figure out that it can remove div_spoiler as that would require it 294fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * to prove that md_size is always even, which I hope is beyond it. */ 295fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom div_spoiler = md_size >> 1; 296fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom div_spoiler <<= (sizeof(div_spoiler)-1)*8; 297fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom rotate_offset = (div_spoiler + mac_start - scan_start) % md_size; 298fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 299fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom memset(rotated_mac, 0, md_size); 30004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom for (i = scan_start; i < orig_len;) 301fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 30204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom for (j = 0; j < md_size && i < orig_len; i++, j++) 303fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 304fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char mac_started = constant_time_ge(i, mac_start); 305fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char mac_ended = constant_time_ge(i, mac_end); 306fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char b = 0; 307fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom b = rec->data[i]; 308fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom rotated_mac[j] |= b & mac_started & ~mac_ended; 309fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 310fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 311fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 312fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* Now rotate the MAC */ 313fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#if defined(CBC_MAC_ROTATE_IN_PLACE) 314fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom j = 0; 315fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (i = 0; i < md_size; i++) 316fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 317fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char offset = (div_spoiler + rotate_offset + i) % md_size; 318fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom out[j++] = rotated_mac[offset]; 319fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 320fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#else 321fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom memset(out, 0, md_size); 322fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (i = 0; i < md_size; i++) 323fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 324fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char offset = (div_spoiler + md_size - rotate_offset + i) % md_size; 325fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (j = 0; j < md_size; j++) 326fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom out[j] |= rotated_mac[i] & constant_time_eq_8(j, offset); 327fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 328fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom#endif 329fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 330fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 331fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* These functions serialize the state of a hash and thus perform the standard 332fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * "final" operation without adding the padding and length that such a function 333fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * typically does. */ 334fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromstatic void tls1_md5_final_raw(void* ctx, unsigned char *md_out) 335fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 336fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom MD5_CTX *md5 = ctx; 337fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n(md5->A, md_out); 338fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n(md5->B, md_out); 339fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n(md5->C, md_out); 340fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n(md5->D, md_out); 341fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 342fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 343fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromstatic void tls1_sha1_final_raw(void* ctx, unsigned char *md_out) 344fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 345fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom SHA_CTX *sha1 = ctx; 346fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n(sha1->h0, md_out); 347fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n(sha1->h1, md_out); 348fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n(sha1->h2, md_out); 349fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n(sha1->h3, md_out); 350fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n(sha1->h4, md_out); 351fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 35204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#define LARGEST_DIGEST_CTX SHA_CTX 353fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 35404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#ifndef OPENSSL_NO_SHA256 355fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromstatic void tls1_sha256_final_raw(void* ctx, unsigned char *md_out) 356fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 357fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom SHA256_CTX *sha256 = ctx; 358fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned i; 359fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 360fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (i = 0; i < 8; i++) 361fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 362fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n(sha256->h[i], md_out); 363fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 364fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 36504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#undef LARGEST_DIGEST_CTX 36604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#define LARGEST_DIGEST_CTX SHA256_CTX 36704ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#endif 368fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 36904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#ifndef OPENSSL_NO_SHA512 370fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromstatic void tls1_sha512_final_raw(void* ctx, unsigned char *md_out) 371fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 372fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom SHA512_CTX *sha512 = ctx; 373fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned i; 374fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 375fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (i = 0; i < 8; i++) 376fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 377fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom l2n8(sha512->h[i], md_out); 378fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 379fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 38004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#undef LARGEST_DIGEST_CTX 38104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#define LARGEST_DIGEST_CTX SHA512_CTX 38204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#endif 383fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 384fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* ssl3_cbc_record_digest_supported returns 1 iff |ctx| uses a hash function 385fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * which ssl3_cbc_digest_record supports. */ 386fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromchar ssl3_cbc_record_digest_supported(const EVP_MD_CTX *ctx) 387fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 38804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#ifdef OPENSSL_FIPS 38904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom if (FIPS_mode()) 39004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom return 0; 39104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#endif 39204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom switch (EVP_MD_CTX_type(ctx)) 393fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 394fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_md5: 395fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_sha1: 39604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#ifndef OPENSSL_NO_SHA256 397fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_sha224: 398fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_sha256: 39904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#endif 40004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#ifndef OPENSSL_NO_SHA512 401fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_sha384: 402fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_sha512: 40304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#endif 404fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom return 1; 405fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom default: 406fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom return 0; 407fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 408fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 409fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 410fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom/* ssl3_cbc_digest_record computes the MAC of a decrypted, padded SSLv3/TLS 411fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * record. 412fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 413fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * ctx: the EVP_MD_CTX from which we take the hash function. 414fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * ssl3_cbc_record_digest_supported must return true for this EVP_MD_CTX. 415fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * md_out: the digest output. At most EVP_MAX_MD_SIZE bytes will be written. 416fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * md_out_size: if non-NULL, the number of output bytes is written here. 417fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * header: the 13-byte, TLS record header. 418fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * data: the record data itself, less any preceeding explicit IV. 419fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * data_plus_mac_size: the secret, reported length of the data and MAC 420fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * once the padding has been removed. 421fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * data_plus_mac_plus_padding_size: the public length of the whole 422fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * record, including padding. 423fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * is_sslv3: non-zero if we are to use SSLv3. Otherwise, TLS. 424fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 425fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * On entry: by virtue of having been through one of the remove_padding 426fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * functions, above, we know that data_plus_mac_size is large enough to contain 427fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * a padding byte and MAC. (If the padding was invalid, it might contain the 428fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * padding too. ) */ 429fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstromvoid ssl3_cbc_digest_record( 430fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom const EVP_MD_CTX *ctx, 431fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char* md_out, 432fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom size_t* md_out_size, 433fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom const unsigned char header[13], 434fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom const unsigned char *data, 435fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom size_t data_plus_mac_size, 436fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom size_t data_plus_mac_plus_padding_size, 437fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom const unsigned char *mac_secret, 438fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned mac_secret_length, 439fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom char is_sslv3) 440fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 44104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom union { double align; 44204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom unsigned char c[sizeof(LARGEST_DIGEST_CTX)]; } md_state; 443fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom void (*md_final_raw)(void *ctx, unsigned char *md_out); 444fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom void (*md_transform)(void *ctx, const unsigned char *block); 445fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned md_size, md_block_size = 64; 446fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned sslv3_pad_length = 40, header_length, variance_blocks, 447fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom len, max_mac_bytes, num_blocks, 448fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom num_starting_blocks, k, mac_end_offset, c, index_a, index_b; 44904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom unsigned int bits; /* at most 18 bits */ 450fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char length_bytes[MAX_HASH_BIT_COUNT_BYTES]; 451fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* hmac_pad is the masked HMAC key. */ 452fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char hmac_pad[MAX_HASH_BLOCK_SIZE]; 453fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char first_block[MAX_HASH_BLOCK_SIZE]; 454fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char mac_out[EVP_MAX_MD_SIZE]; 455fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned i, j, md_out_size_u; 456fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom EVP_MD_CTX md_ctx; 457fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* mdLengthSize is the number of bytes in the length field that terminates 458fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * the hash. */ 459fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned md_length_size = 8; 460fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 461fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* This is a, hopefully redundant, check that allows us to forget about 462fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * many possible overflows later in this function. */ 463fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom OPENSSL_assert(data_plus_mac_plus_padding_size < 1024*1024); 464fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 46504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom switch (EVP_MD_CTX_type(ctx)) 466fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 467fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_md5: 46804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom MD5_Init((MD5_CTX*)md_state.c); 469fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_final_raw = tls1_md5_final_raw; 470fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_transform = (void(*)(void *ctx, const unsigned char *block)) MD5_Transform; 471fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_size = 16; 472fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom sslv3_pad_length = 48; 473fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom break; 474fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_sha1: 47504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom SHA1_Init((SHA_CTX*)md_state.c); 476fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_final_raw = tls1_sha1_final_raw; 477fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_transform = (void(*)(void *ctx, const unsigned char *block)) SHA1_Transform; 478fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_size = 20; 479fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom break; 48004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#ifndef OPENSSL_NO_SHA256 481fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_sha224: 48204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom SHA224_Init((SHA256_CTX*)md_state.c); 483fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_final_raw = tls1_sha256_final_raw; 484fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_transform = (void(*)(void *ctx, const unsigned char *block)) SHA256_Transform; 485fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_size = 224/8; 486fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom break; 487fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_sha256: 48804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom SHA256_Init((SHA256_CTX*)md_state.c); 489fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_final_raw = tls1_sha256_final_raw; 490fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_transform = (void(*)(void *ctx, const unsigned char *block)) SHA256_Transform; 491fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_size = 32; 492fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom break; 49304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#endif 49404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#ifndef OPENSSL_NO_SHA512 495fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_sha384: 49604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom SHA384_Init((SHA512_CTX*)md_state.c); 497fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_final_raw = tls1_sha512_final_raw; 498fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_transform = (void(*)(void *ctx, const unsigned char *block)) SHA512_Transform; 499fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_size = 384/8; 500fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_block_size = 128; 501fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_length_size = 16; 502fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom break; 503fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom case NID_sha512: 50404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom SHA512_Init((SHA512_CTX*)md_state.c); 505fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_final_raw = tls1_sha512_final_raw; 506fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_transform = (void(*)(void *ctx, const unsigned char *block)) SHA512_Transform; 507fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_size = 64; 508fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_block_size = 128; 509fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom md_length_size = 16; 510fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom break; 51104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#endif 512fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom default: 513fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* ssl3_cbc_record_digest_supported should have been 514fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * called first to check that the hash function is 515fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * supported. */ 516fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom OPENSSL_assert(0); 517fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (md_out_size) 518fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom *md_out_size = -1; 519fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom return; 520fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 521fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 522fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom OPENSSL_assert(md_length_size <= MAX_HASH_BIT_COUNT_BYTES); 523fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom OPENSSL_assert(md_block_size <= MAX_HASH_BLOCK_SIZE); 524fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom OPENSSL_assert(md_size <= EVP_MAX_MD_SIZE); 525fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 526fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom header_length = 13; 527fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (is_sslv3) 528fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 529fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom header_length = 530fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom mac_secret_length + 531fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom sslv3_pad_length + 532fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 8 /* sequence number */ + 533fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 1 /* record type */ + 534fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 2 /* record length */; 535fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 536fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 537fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* variance_blocks is the number of blocks of the hash that we have to 538fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * calculate in constant time because they could be altered by the 539fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * padding value. 540fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 541fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * In SSLv3, the padding must be minimal so the end of the plaintext 542fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * varies by, at most, 15+20 = 35 bytes. (We conservatively assume that 543fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * the MAC size varies from 0..20 bytes.) In case the 9 bytes of hash 544fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * termination (0x80 + 64-bit length) don't fit in the final block, we 545fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * say that the final two blocks can vary based on the padding. 546fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 547fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * TLSv1 has MACs up to 48 bytes long (SHA-384) and the padding is not 548fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * required to be minimal. Therefore we say that the final six blocks 549fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * can vary based on the padding. 550fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 551fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * Later in the function, if the message is short and there obviously 552fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * cannot be this many blocks then variance_blocks can be reduced. */ 553fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom variance_blocks = is_sslv3 ? 2 : 6; 554fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* From now on we're dealing with the MAC, which conceptually has 13 555fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * bytes of `header' before the start of the data (TLS) or 71/75 bytes 556fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * (SSLv3) */ 557fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom len = data_plus_mac_plus_padding_size + header_length; 558fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* max_mac_bytes contains the maximum bytes of bytes in the MAC, including 559fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * |header|, assuming that there's no padding. */ 560fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom max_mac_bytes = len - md_size - 1; 561fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* num_blocks is the maximum number of hash blocks. */ 562fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom num_blocks = (max_mac_bytes + 1 + md_length_size + md_block_size - 1) / md_block_size; 563fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* In order to calculate the MAC in constant time we have to handle 564fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * the final blocks specially because the padding value could cause the 565fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * end to appear somewhere in the final |variance_blocks| blocks and we 566fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * can't leak where. However, |num_starting_blocks| worth of data can 567fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * be hashed right away because no padding value can affect whether 568fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * they are plaintext. */ 569fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom num_starting_blocks = 0; 570fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* k is the starting byte offset into the conceptual header||data where 571fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * we start processing. */ 572fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom k = 0; 573fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* mac_end_offset is the index just past the end of the data to be 574fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * MACed. */ 575fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom mac_end_offset = data_plus_mac_size + header_length - md_size; 576fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* c is the index of the 0x80 byte in the final hash block that 577fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * contains application data. */ 578fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom c = mac_end_offset % md_block_size; 579fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* index_a is the hash block number that contains the 0x80 terminating 580fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * value. */ 581fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom index_a = mac_end_offset / md_block_size; 582fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* index_b is the hash block number that contains the 64-bit hash 583fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * length, in bits. */ 584fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom index_b = (mac_end_offset + md_length_size) / md_block_size; 585fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* bits is the hash-length in bits. It includes the additional hash 586fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * block for the masked HMAC key, or whole of |header| in the case of 587fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * SSLv3. */ 588fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 589fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* For SSLv3, if we're going to have any starting blocks then we need 590fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * at least two because the header is larger than a single block. */ 591fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (num_blocks > variance_blocks + (is_sslv3 ? 1 : 0)) 592fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 593fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom num_starting_blocks = num_blocks - variance_blocks; 594fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom k = md_block_size*num_starting_blocks; 595fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 596fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 597fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom bits = 8*mac_end_offset; 598fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (!is_sslv3) 599fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 600fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* Compute the initial HMAC block. For SSLv3, the padding and 601fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * secret bytes are included in |header| because they take more 602fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * than a single block. */ 603fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom bits += 8*md_block_size; 604fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom memset(hmac_pad, 0, md_block_size); 605fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom OPENSSL_assert(mac_secret_length <= sizeof(hmac_pad)); 606fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom memcpy(hmac_pad, mac_secret, mac_secret_length); 607fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (i = 0; i < md_block_size; i++) 608fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom hmac_pad[i] ^= 0x36; 609fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 61004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom md_transform(md_state.c, hmac_pad); 611fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 612fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 61304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom memset(length_bytes,0,md_length_size-4); 61404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom length_bytes[md_length_size-4] = (unsigned char)(bits>>24); 61504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom length_bytes[md_length_size-3] = (unsigned char)(bits>>16); 61604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom length_bytes[md_length_size-2] = (unsigned char)(bits>>8); 61704ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom length_bytes[md_length_size-1] = (unsigned char)bits; 618fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 619fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (k > 0) 620fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 621fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (is_sslv3) 622fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 623fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* The SSLv3 header is larger than a single block. 624fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * overhang is the number of bytes beyond a single 625fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * block that the header consumes: either 7 bytes 626fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * (SHA1) or 11 bytes (MD5). */ 627fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned overhang = header_length-md_block_size; 62804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom md_transform(md_state.c, header); 629fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom memcpy(first_block, header + md_block_size, overhang); 630fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom memcpy(first_block + overhang, data, md_block_size-overhang); 63104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom md_transform(md_state.c, first_block); 632fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (i = 1; i < k/md_block_size - 1; i++) 63304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom md_transform(md_state.c, data + md_block_size*i - overhang); 634fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 635fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom else 636fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 637fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* k is a multiple of md_block_size. */ 638fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom memcpy(first_block, header, 13); 639fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom memcpy(first_block+13, data, md_block_size-13); 64004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom md_transform(md_state.c, first_block); 641fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (i = 1; i < k/md_block_size; i++) 64204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom md_transform(md_state.c, data + md_block_size*i - 13); 643fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 644fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 645fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 646fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom memset(mac_out, 0, sizeof(mac_out)); 647fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 648fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* We now process the final hash blocks. For each block, we construct 649fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * it in constant time. If the |i==index_a| then we'll include the 0x80 650fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * bytes and zero pad etc. For each block we selectively copy it, in 651fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * constant time, to |mac_out|. */ 652fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (i = num_starting_blocks; i <= num_starting_blocks+variance_blocks; i++) 653fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 654fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char block[MAX_HASH_BLOCK_SIZE]; 655fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char is_block_a = constant_time_eq_8(i, index_a); 656fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char is_block_b = constant_time_eq_8(i, index_b); 657fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (j = 0; j < md_block_size; j++) 658fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 659fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom unsigned char b = 0, is_past_c, is_past_cp1; 660fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (k < header_length) 661fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom b = header[k]; 662fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom else if (k < data_plus_mac_plus_padding_size + header_length) 663fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom b = data[k-header_length]; 664fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom k++; 665fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 666fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom is_past_c = is_block_a & constant_time_ge(j, c); 667fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom is_past_cp1 = is_block_a & constant_time_ge(j, c+1); 668fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* If this is the block containing the end of the 669fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * application data, and we are at the offset for the 670fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * 0x80 value, then overwrite b with 0x80. */ 671fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom b = (b&~is_past_c) | (0x80&is_past_c); 672fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* If this the the block containing the end of the 673fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * application data and we're past the 0x80 value then 674fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * just write zero. */ 675fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom b = b&~is_past_cp1; 676fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* If this is index_b (the final block), but not 677fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * index_a (the end of the data), then the 64-bit 678fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * length didn't fit into index_a and we're having to 679fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * add an extra block of zeros. */ 680fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom b &= ~is_block_b | is_block_a; 681fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 682fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* The final bytes of one of the blocks contains the 683fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom * length. */ 684fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (j >= md_block_size - md_length_size) 685fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 686fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* If this is index_b, write a length byte. */ 687fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom b = (b&~is_block_b) | (is_block_b&length_bytes[j-(md_block_size-md_length_size)]); 688fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 689fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom block[j] = b; 690fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 691fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 69204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom md_transform(md_state.c, block); 69304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom md_final_raw(md_state.c, block); 694fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* If this is index_b, copy the hash value to |mac_out|. */ 695fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (j = 0; j < md_size; j++) 696fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom mac_out[j] |= block[j]&is_block_b; 697fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 698fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 699fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom EVP_MD_CTX_init(&md_ctx); 700fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom EVP_DigestInit_ex(&md_ctx, ctx->digest, NULL /* engine */); 701fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (is_sslv3) 702fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 703fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* We repurpose |hmac_pad| to contain the SSLv3 pad2 block. */ 704fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom memset(hmac_pad, 0x5c, sslv3_pad_length); 705fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 706fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom EVP_DigestUpdate(&md_ctx, mac_secret, mac_secret_length); 707fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom EVP_DigestUpdate(&md_ctx, hmac_pad, sslv3_pad_length); 708fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom EVP_DigestUpdate(&md_ctx, mac_out, md_size); 709fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 710fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom else 711fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom { 712fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom /* Complete the HMAC in the standard manner. */ 713fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom for (i = 0; i < md_block_size; i++) 714fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom hmac_pad[i] ^= 0x6a; 715fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom 716fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom EVP_DigestUpdate(&md_ctx, hmac_pad, md_block_size); 717fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom EVP_DigestUpdate(&md_ctx, mac_out, md_size); 718fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 719fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom EVP_DigestFinal(&md_ctx, md_out, &md_out_size_u); 720fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom if (md_out_size) 721fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom *md_out_size = md_out_size_u; 722fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom EVP_MD_CTX_cleanup(&md_ctx); 723fa75fdba32eae335f286afb1dc93ef1b5ec72615Brian Carlstrom } 72404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom 72504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#ifdef OPENSSL_FIPS 72604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom 72704ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom/* Due to the need to use EVP in FIPS mode we can't reimplement digests but 72804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * we can ensure the number of blocks processed is equal for all cases 72904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * by digesting additional data. 73004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom */ 73104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom 73204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstromvoid tls_fips_digest_extra( 73304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom const EVP_CIPHER_CTX *cipher_ctx, EVP_MD_CTX *mac_ctx, 73404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom const unsigned char *data, size_t data_len, size_t orig_len) 73504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom { 73604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom size_t block_size, digest_pad, blocks_data, blocks_orig; 73704ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom if (EVP_CIPHER_CTX_mode(cipher_ctx) != EVP_CIPH_CBC_MODE) 73804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom return; 73904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom block_size = EVP_MD_CTX_block_size(mac_ctx); 74004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom /* We are in FIPS mode if we get this far so we know we have only SHA* 74104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * digests and TLS to deal with. 74204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * Minimum digest padding length is 17 for SHA384/SHA512 and 9 74304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * otherwise. 74404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * Additional header is 13 bytes. To get the number of digest blocks 74504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * processed round up the amount of data plus padding to the nearest 74604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * block length. Block length is 128 for SHA384/SHA512 and 64 otherwise. 74704ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * So we have: 74804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * blocks = (payload_len + digest_pad + 13 + block_size - 1)/block_size 74904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * equivalently: 75004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * blocks = (payload_len + digest_pad + 12)/block_size + 1 75104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * HMAC adds a constant overhead. 75204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * We're ultimately only interested in differences so this becomes 75304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * blocks = (payload_len + 29)/128 75404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * for SHA384/SHA512 and 75504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * blocks = (payload_len + 21)/64 75604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * otherwise. 75704ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom */ 75804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom digest_pad = block_size == 64 ? 21 : 29; 75904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom blocks_orig = (orig_len + digest_pad)/block_size; 76004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom blocks_data = (data_len + digest_pad)/block_size; 76104ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom /* MAC enough blocks to make up the difference between the original 76204ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * and actual lengths plus one extra block to ensure this is never a 76304ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * no op. The "data" pointer should always have enough space to 76404ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * perform this operation as it is large enough for a maximum 76504ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom * length TLS buffer. 76604ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom */ 76704ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom EVP_DigestSignUpdate(mac_ctx, data, 76804ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom (blocks_orig - blocks_data + 1) * block_size); 76904ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom } 77004ef91b390dfcc6125913e2f2af502d23d7a5112Brian Carlstrom#endif 771