2017-04-07 19:46:13 +01:00
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/* Copyright (c) 2017, Google Inc.
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*
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* Permission to use, copy, modify, and/or distribute this software for any
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* purpose with or without fee is hereby granted, provided that the above
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* copyright notice and this permission notice appear in all copies.
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*
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* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
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* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
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* SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
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* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
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* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */
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#include <openssl/aead.h>
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#include <openssl/cipher.h>
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#include <openssl/crypto.h>
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#include <openssl/err.h>
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#include <openssl/sha.h>
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2017-05-03 21:23:37 +01:00
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#include "../fipsmodule/cipher/internal.h"
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2017-04-07 19:46:13 +01:00
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#define EVP_AEAD_AES_CTR_HMAC_SHA256_TAG_LEN SHA256_DIGEST_LENGTH
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#define EVP_AEAD_AES_CTR_HMAC_SHA256_NONCE_LEN 12
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struct aead_aes_ctr_hmac_sha256_ctx {
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union {
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double align;
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AES_KEY ks;
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} ks;
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ctr128_f ctr;
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block128_f block;
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SHA256_CTX inner_init_state;
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SHA256_CTX outer_init_state;
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};
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static void hmac_init(SHA256_CTX *out_inner, SHA256_CTX *out_outer,
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const uint8_t hmac_key[32]) {
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static const size_t hmac_key_len = 32;
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uint8_t block[SHA256_CBLOCK];
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OPENSSL_memcpy(block, hmac_key, hmac_key_len);
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OPENSSL_memset(block + hmac_key_len, 0x36, sizeof(block) - hmac_key_len);
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unsigned i;
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for (i = 0; i < hmac_key_len; i++) {
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block[i] ^= 0x36;
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}
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SHA256_Init(out_inner);
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SHA256_Update(out_inner, block, sizeof(block));
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OPENSSL_memset(block + hmac_key_len, 0x5c, sizeof(block) - hmac_key_len);
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for (i = 0; i < hmac_key_len; i++) {
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block[i] ^= (0x36 ^ 0x5c);
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}
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SHA256_Init(out_outer);
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SHA256_Update(out_outer, block, sizeof(block));
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}
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static int aead_aes_ctr_hmac_sha256_init(EVP_AEAD_CTX *ctx, const uint8_t *key,
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size_t key_len, size_t tag_len) {
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struct aead_aes_ctr_hmac_sha256_ctx *aes_ctx;
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static const size_t hmac_key_len = 32;
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if (key_len < hmac_key_len) {
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OPENSSL_PUT_ERROR(CIPHER, CIPHER_R_BAD_KEY_LENGTH);
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2017-08-18 19:06:02 +01:00
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return 0; // EVP_AEAD_CTX_init should catch this.
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2017-04-07 19:46:13 +01:00
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}
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const size_t aes_key_len = key_len - hmac_key_len;
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if (aes_key_len != 16 && aes_key_len != 32) {
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OPENSSL_PUT_ERROR(CIPHER, CIPHER_R_BAD_KEY_LENGTH);
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2017-08-18 19:06:02 +01:00
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return 0; // EVP_AEAD_CTX_init should catch this.
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2017-04-07 19:46:13 +01:00
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}
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if (tag_len == EVP_AEAD_DEFAULT_TAG_LENGTH) {
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tag_len = EVP_AEAD_AES_CTR_HMAC_SHA256_TAG_LEN;
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}
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if (tag_len > EVP_AEAD_AES_CTR_HMAC_SHA256_TAG_LEN) {
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OPENSSL_PUT_ERROR(CIPHER, CIPHER_R_TAG_TOO_LARGE);
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return 0;
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}
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aes_ctx = OPENSSL_malloc(sizeof(struct aead_aes_ctr_hmac_sha256_ctx));
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if (aes_ctx == NULL) {
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OPENSSL_PUT_ERROR(CIPHER, ERR_R_MALLOC_FAILURE);
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return 0;
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}
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aes_ctx->ctr =
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aes_ctr_set_key(&aes_ctx->ks.ks, NULL, &aes_ctx->block, key, aes_key_len);
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2017-06-06 20:29:48 +01:00
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ctx->tag_len = tag_len;
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2017-04-07 19:46:13 +01:00
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hmac_init(&aes_ctx->inner_init_state, &aes_ctx->outer_init_state,
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key + aes_key_len);
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ctx->aead_state = aes_ctx;
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return 1;
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}
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static void aead_aes_ctr_hmac_sha256_cleanup(EVP_AEAD_CTX *ctx) {
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2017-08-30 18:49:05 +01:00
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OPENSSL_free(ctx->aead_state);
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2017-04-07 19:46:13 +01:00
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}
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static void hmac_update_uint64(SHA256_CTX *sha256, uint64_t value) {
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unsigned i;
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uint8_t bytes[8];
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for (i = 0; i < sizeof(bytes); i++) {
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bytes[i] = value & 0xff;
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value >>= 8;
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}
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SHA256_Update(sha256, bytes, sizeof(bytes));
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}
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static void hmac_calculate(uint8_t out[SHA256_DIGEST_LENGTH],
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const SHA256_CTX *inner_init_state,
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const SHA256_CTX *outer_init_state,
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const uint8_t *ad, size_t ad_len,
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const uint8_t *nonce, const uint8_t *ciphertext,
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size_t ciphertext_len) {
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SHA256_CTX sha256;
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OPENSSL_memcpy(&sha256, inner_init_state, sizeof(sha256));
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hmac_update_uint64(&sha256, ad_len);
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hmac_update_uint64(&sha256, ciphertext_len);
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SHA256_Update(&sha256, nonce, EVP_AEAD_AES_CTR_HMAC_SHA256_NONCE_LEN);
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SHA256_Update(&sha256, ad, ad_len);
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2017-08-18 19:06:02 +01:00
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// Pad with zeros to the end of the SHA-256 block.
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2017-04-07 19:46:13 +01:00
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const unsigned num_padding =
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(SHA256_CBLOCK - ((sizeof(uint64_t)*2 +
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EVP_AEAD_AES_CTR_HMAC_SHA256_NONCE_LEN + ad_len) %
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SHA256_CBLOCK)) %
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SHA256_CBLOCK;
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uint8_t padding[SHA256_CBLOCK];
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OPENSSL_memset(padding, 0, num_padding);
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SHA256_Update(&sha256, padding, num_padding);
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SHA256_Update(&sha256, ciphertext, ciphertext_len);
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uint8_t inner_digest[SHA256_DIGEST_LENGTH];
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SHA256_Final(inner_digest, &sha256);
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OPENSSL_memcpy(&sha256, outer_init_state, sizeof(sha256));
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SHA256_Update(&sha256, inner_digest, sizeof(inner_digest));
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SHA256_Final(out, &sha256);
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}
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static void aead_aes_ctr_hmac_sha256_crypt(
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const struct aead_aes_ctr_hmac_sha256_ctx *aes_ctx, uint8_t *out,
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const uint8_t *in, size_t len, const uint8_t *nonce) {
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2017-08-18 19:06:02 +01:00
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// Since the AEAD operation is one-shot, keeping a buffer of unused keystream
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// bytes is pointless. However, |CRYPTO_ctr128_encrypt| requires it.
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2017-04-07 19:46:13 +01:00
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uint8_t partial_block_buffer[AES_BLOCK_SIZE];
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unsigned partial_block_offset = 0;
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OPENSSL_memset(partial_block_buffer, 0, sizeof(partial_block_buffer));
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uint8_t counter[AES_BLOCK_SIZE];
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OPENSSL_memcpy(counter, nonce, EVP_AEAD_AES_CTR_HMAC_SHA256_NONCE_LEN);
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OPENSSL_memset(counter + EVP_AEAD_AES_CTR_HMAC_SHA256_NONCE_LEN, 0, 4);
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if (aes_ctx->ctr) {
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CRYPTO_ctr128_encrypt_ctr32(in, out, len, &aes_ctx->ks.ks, counter,
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partial_block_buffer, &partial_block_offset,
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aes_ctx->ctr);
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} else {
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CRYPTO_ctr128_encrypt(in, out, len, &aes_ctx->ks.ks, counter,
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partial_block_buffer, &partial_block_offset,
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aes_ctx->block);
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}
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}
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2017-06-06 20:29:48 +01:00
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static int aead_aes_ctr_hmac_sha256_seal_scatter(
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const EVP_AEAD_CTX *ctx, uint8_t *out, uint8_t *out_tag,
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size_t *out_tag_len, size_t max_out_tag_len, const uint8_t *nonce,
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2017-06-23 22:49:22 +01:00
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size_t nonce_len, const uint8_t *in, size_t in_len, const uint8_t *extra_in,
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size_t extra_in_len, const uint8_t *ad, size_t ad_len) {
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2017-04-07 19:46:13 +01:00
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const struct aead_aes_ctr_hmac_sha256_ctx *aes_ctx = ctx->aead_state;
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const uint64_t in_len_64 = in_len;
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2017-06-06 20:29:48 +01:00
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if (in_len_64 >= (UINT64_C(1) << 32) * AES_BLOCK_SIZE) {
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2017-08-18 19:06:02 +01:00
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// This input is so large it would overflow the 32-bit block counter.
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2017-04-07 19:46:13 +01:00
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OPENSSL_PUT_ERROR(CIPHER, CIPHER_R_TOO_LARGE);
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return 0;
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}
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2017-06-06 20:29:48 +01:00
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if (max_out_tag_len < ctx->tag_len) {
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2017-04-07 19:46:13 +01:00
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OPENSSL_PUT_ERROR(CIPHER, CIPHER_R_BUFFER_TOO_SMALL);
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return 0;
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}
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if (nonce_len != EVP_AEAD_AES_CTR_HMAC_SHA256_NONCE_LEN) {
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OPENSSL_PUT_ERROR(CIPHER, CIPHER_R_UNSUPPORTED_NONCE_SIZE);
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return 0;
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}
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aead_aes_ctr_hmac_sha256_crypt(aes_ctx, out, in, in_len, nonce);
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uint8_t hmac_result[SHA256_DIGEST_LENGTH];
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hmac_calculate(hmac_result, &aes_ctx->inner_init_state,
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&aes_ctx->outer_init_state, ad, ad_len, nonce, out, in_len);
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2017-06-06 20:29:48 +01:00
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OPENSSL_memcpy(out_tag, hmac_result, ctx->tag_len);
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*out_tag_len = ctx->tag_len;
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2017-04-07 19:46:13 +01:00
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return 1;
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}
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2017-06-06 20:29:48 +01:00
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static int aead_aes_ctr_hmac_sha256_open_gather(
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const EVP_AEAD_CTX *ctx, uint8_t *out, const uint8_t *nonce,
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size_t nonce_len, const uint8_t *in, size_t in_len, const uint8_t *in_tag,
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size_t in_tag_len, const uint8_t *ad, size_t ad_len) {
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2017-04-07 19:46:13 +01:00
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const struct aead_aes_ctr_hmac_sha256_ctx *aes_ctx = ctx->aead_state;
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2017-06-06 20:29:48 +01:00
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if (in_tag_len != ctx->tag_len) {
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2017-04-07 19:46:13 +01:00
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OPENSSL_PUT_ERROR(CIPHER, CIPHER_R_BAD_DECRYPT);
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return 0;
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}
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if (nonce_len != EVP_AEAD_AES_CTR_HMAC_SHA256_NONCE_LEN) {
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OPENSSL_PUT_ERROR(CIPHER, CIPHER_R_UNSUPPORTED_NONCE_SIZE);
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return 0;
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}
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uint8_t hmac_result[SHA256_DIGEST_LENGTH];
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hmac_calculate(hmac_result, &aes_ctx->inner_init_state,
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&aes_ctx->outer_init_state, ad, ad_len, nonce, in,
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2017-06-06 20:29:48 +01:00
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in_len);
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if (CRYPTO_memcmp(hmac_result, in_tag, ctx->tag_len) != 0) {
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2017-04-07 19:46:13 +01:00
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OPENSSL_PUT_ERROR(CIPHER, CIPHER_R_BAD_DECRYPT);
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return 0;
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}
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2017-06-06 20:29:48 +01:00
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aead_aes_ctr_hmac_sha256_crypt(aes_ctx, out, in, in_len, nonce);
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2017-04-07 19:46:13 +01:00
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return 1;
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}
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static const EVP_AEAD aead_aes_128_ctr_hmac_sha256 = {
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16 /* AES key */ + 32 /* HMAC key */,
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2017-08-18 19:06:02 +01:00
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12, // nonce length
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EVP_AEAD_AES_CTR_HMAC_SHA256_TAG_LEN, // overhead
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EVP_AEAD_AES_CTR_HMAC_SHA256_TAG_LEN, // max tag length
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0, // seal_scatter_supports_extra_in
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2017-04-07 19:46:13 +01:00
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aead_aes_ctr_hmac_sha256_init,
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NULL /* init_with_direction */,
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aead_aes_ctr_hmac_sha256_cleanup,
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2017-06-06 20:29:48 +01:00
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NULL /* open */,
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aead_aes_ctr_hmac_sha256_seal_scatter,
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aead_aes_ctr_hmac_sha256_open_gather,
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2017-04-07 19:46:13 +01:00
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NULL /* get_iv */,
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2017-07-22 00:27:54 +01:00
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NULL /* tag_len */,
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2017-04-07 19:46:13 +01:00
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};
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static const EVP_AEAD aead_aes_256_ctr_hmac_sha256 = {
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32 /* AES key */ + 32 /* HMAC key */,
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2017-08-18 19:06:02 +01:00
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12, // nonce length
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EVP_AEAD_AES_CTR_HMAC_SHA256_TAG_LEN, // overhead
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EVP_AEAD_AES_CTR_HMAC_SHA256_TAG_LEN, // max tag length
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0, // seal_scatter_supports_extra_in
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2017-04-07 19:46:13 +01:00
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aead_aes_ctr_hmac_sha256_init,
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NULL /* init_with_direction */,
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aead_aes_ctr_hmac_sha256_cleanup,
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2017-06-06 20:29:48 +01:00
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NULL /* open */,
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aead_aes_ctr_hmac_sha256_seal_scatter,
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aead_aes_ctr_hmac_sha256_open_gather,
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2017-04-07 19:46:13 +01:00
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NULL /* get_iv */,
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2017-07-22 00:27:54 +01:00
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NULL /* tag_len */,
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2017-04-07 19:46:13 +01:00
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};
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const EVP_AEAD *EVP_aead_aes_128_ctr_hmac_sha256(void) {
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return &aead_aes_128_ctr_hmac_sha256;
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}
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const EVP_AEAD *EVP_aead_aes_256_ctr_hmac_sha256(void) {
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return &aead_aes_256_ctr_hmac_sha256;
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}
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