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boringssl/crypto/cipher/aead_test.cc
David Benjamin 97227dc52d Replace keywrap AEADs with upstream's APIs. 
This finally removes the last Android hack. Both Chromium and Android
end up needing this thing (Chromium needs it for WebCrypto but currently
uses the EVP_AEAD version and Android needs it by way of
wpa_supplicant).

On the Android side, the alternative is we finish upstream's
NEED_INTERNAL_AES_WRAP patch, but then it just uses its own key-wrap
implementation. This seems a little silly, considering we have a version
of key-wrap under a different API anyway.

It also doesn't make much sense to leave the EVP_AEAD API around if we
don't want people to use it and Chromium's the only consumer. Remove it
and I'll switch Chromium to the new---er, old--- APIs next roll.

Change-Id: I23a89cda25bddb6ac1033e4cd408165f393d1e6c
Reviewed-on: https://boringssl-review.googlesource.com/11410
Commit-Queue: David Benjamin <davidben@google.com>
Reviewed-by: Adam Langley <agl@google.com>
2016-10-04 01:37:31 +00:00

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/* Copyright (c) 2014, Google Inc.
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */
#include <stdint.h>
#include <string.h>
#include <vector>
#include <openssl/aead.h>
#include <openssl/crypto.h>
#include <openssl/err.h>
#include "../test/file_test.h"
namespace bssl {
// This program tests an AEAD against a series of test vectors from a file,
// using the FileTest format. As an example, here's a valid test case:
//
// KEY: 5a19f3173586b4c42f8412f4d5a786531b3231753e9e00998aec12fda8df10e4
// NONCE: 978105dfce667bf4
// IN: 6a4583908d
// AD: b654574932
// CT: 5294265a60
// TAG: 1d45758621762e061368e68868e2f929
static bool TestAEAD(FileTest *t, void *arg) {
const EVP_AEAD *aead = reinterpret_cast<const EVP_AEAD*>(arg);
std::vector<uint8_t> key, nonce, in, ad, ct, tag;
if (!t->GetBytes(&key, "KEY") ||
!t->GetBytes(&nonce, "NONCE") ||
!t->GetBytes(&in, "IN") ||
!t->GetBytes(&ad, "AD") ||
!t->GetBytes(&ct, "CT") ||
!t->GetBytes(&tag, "TAG")) {
return false;
}
ScopedEVP_AEAD_CTX ctx;
if (!EVP_AEAD_CTX_init_with_direction(ctx.get(), aead, key.data(), key.size(),
tag.size(), evp_aead_seal)) {
t->PrintLine("Failed to init AEAD.");
return false;
}
std::vector<uint8_t> out(in.size() + EVP_AEAD_max_overhead(aead));
if (!t->HasAttribute("NO_SEAL")) {
size_t out_len;
if (!EVP_AEAD_CTX_seal(ctx.get(), out.data(), &out_len, out.size(),
nonce.data(), nonce.size(), in.data(), in.size(),
ad.data(), ad.size())) {
t->PrintLine("Failed to run AEAD.");
return false;
}
out.resize(out_len);
if (out.size() != ct.size() + tag.size()) {
t->PrintLine("Bad output length: %u vs %u.", (unsigned)out_len,
(unsigned)(ct.size() + tag.size()));
return false;
}
if (!t->ExpectBytesEqual(ct.data(), ct.size(), out.data(), ct.size()) ||
!t->ExpectBytesEqual(tag.data(), tag.size(), out.data() + ct.size(),
tag.size())) {
return false;
}
} else {
out.resize(ct.size() + tag.size());
memcpy(out.data(), ct.data(), ct.size());
memcpy(out.data() + ct.size(), tag.data(), tag.size());
}
// The "stateful" AEADs for implementing pre-AEAD cipher suites need to be
// reset after each operation.
ctx.Reset();
if (!EVP_AEAD_CTX_init_with_direction(ctx.get(), aead, key.data(), key.size(),
tag.size(), evp_aead_open)) {
t->PrintLine("Failed to init AEAD.");
return false;
}
std::vector<uint8_t> out2(out.size());
size_t out2_len;
int ret = EVP_AEAD_CTX_open(ctx.get(), out2.data(), &out2_len, out2.size(),
nonce.data(), nonce.size(), out.data(),
out.size(), ad.data(), ad.size());
if (t->HasAttribute("FAILS")) {
if (ret) {
t->PrintLine("Decrypted bad data.");
return false;
}
ERR_clear_error();
return true;
}
if (!ret) {
t->PrintLine("Failed to decrypt.");
return false;
}
out2.resize(out2_len);
if (!t->ExpectBytesEqual(in.data(), in.size(), out2.data(), out2.size())) {
return false;
}
// The "stateful" AEADs for implementing pre-AEAD cipher suites need to be
// reset after each operation.
ctx.Reset();
if (!EVP_AEAD_CTX_init_with_direction(ctx.get(), aead, key.data(), key.size(),
tag.size(), evp_aead_open)) {
t->PrintLine("Failed to init AEAD.");
return false;
}
// Garbage at the end isn't ignored.
out.push_back(0);
out2.resize(out.size());
if (EVP_AEAD_CTX_open(ctx.get(), out2.data(), &out2_len, out2.size(),
nonce.data(), nonce.size(), out.data(), out.size(),
ad.data(), ad.size())) {
t->PrintLine("Decrypted bad data with trailing garbage.");
return false;
}
ERR_clear_error();
// The "stateful" AEADs for implementing pre-AEAD cipher suites need to be
// reset after each operation.
ctx.Reset();
if (!EVP_AEAD_CTX_init_with_direction(ctx.get(), aead, key.data(), key.size(),
tag.size(), evp_aead_open)) {
t->PrintLine("Failed to init AEAD.");
return false;
}
// Verify integrity is checked.
out[0] ^= 0x80;
out.resize(out.size() - 1);
out2.resize(out.size());
if (EVP_AEAD_CTX_open(ctx.get(), out2.data(), &out2_len, out2.size(),
nonce.data(), nonce.size(), out.data(), out.size(),
ad.data(), ad.size())) {
t->PrintLine("Decrypted bad data with corrupted byte.");
return false;
}
ERR_clear_error();
return true;
}
static int TestCleanupAfterInitFailure(const EVP_AEAD *aead) {
EVP_AEAD_CTX ctx;
uint8_t key[128];
memset(key, 0, sizeof(key));
const size_t key_len = EVP_AEAD_key_length(aead);
if (key_len > sizeof(key)) {
fprintf(stderr, "Key length of AEAD too long.\n");
return 0;
}
if (EVP_AEAD_CTX_init(&ctx, aead, key, key_len,
9999 /* a silly tag length to trigger an error */,
NULL /* ENGINE */) != 0) {
fprintf(stderr, "A silly tag length didn't trigger an error!\n");
return 0;
}
ERR_clear_error();
/* Running a second, failed _init should not cause a memory leak. */
if (EVP_AEAD_CTX_init(&ctx, aead, key, key_len,
9999 /* a silly tag length to trigger an error */,
NULL /* ENGINE */) != 0) {
fprintf(stderr, "A silly tag length didn't trigger an error!\n");
return 0;
}
ERR_clear_error();
/* Calling _cleanup on an |EVP_AEAD_CTX| after a failed _init should be a
* no-op. */
EVP_AEAD_CTX_cleanup(&ctx);
return 1;
}
static bool TestWithAliasedBuffers(const EVP_AEAD *aead) {
const size_t key_len = EVP_AEAD_key_length(aead);
const size_t nonce_len = EVP_AEAD_nonce_length(aead);
const size_t max_overhead = EVP_AEAD_max_overhead(aead);
std::vector<uint8_t> key(key_len, 'a');
ScopedEVP_AEAD_CTX ctx;
if (!EVP_AEAD_CTX_init(ctx.get(), aead, key.data(), key_len,
EVP_AEAD_DEFAULT_TAG_LENGTH, nullptr)) {
return false;
}
static const uint8_t kPlaintext[260] =
"testing123456testing123456testing123456testing123456testing123456testing"
"123456testing123456testing123456testing123456testing123456testing123456t"
"esting123456testing123456testing123456testing123456testing123456testing1"
"23456testing123456testing123456testing12345";
const std::vector<size_t> offsets = {
0, 1, 2, 8, 15, 16, 17, 31, 32, 33, 63,
64, 65, 95, 96, 97, 127, 128, 129, 255, 256, 257,
};
std::vector<uint8_t> nonce(nonce_len, 'b');
std::vector<uint8_t> valid_encryption(sizeof(kPlaintext) + max_overhead);
size_t valid_encryption_len;
if (!EVP_AEAD_CTX_seal(
ctx.get(), valid_encryption.data(), &valid_encryption_len,
sizeof(kPlaintext) + max_overhead, nonce.data(), nonce_len,
kPlaintext, sizeof(kPlaintext), nullptr, 0)) {
fprintf(stderr, "EVP_AEAD_CTX_seal failed with disjoint buffers.\n");
return false;
}
// Test with out != in which we expect to fail.
std::vector<uint8_t> buffer(2 + valid_encryption_len);
uint8_t *in = buffer.data() + 1;
uint8_t *out1 = buffer.data();
uint8_t *out2 = buffer.data() + 2;
memcpy(in, kPlaintext, sizeof(kPlaintext));
size_t out_len;
if (EVP_AEAD_CTX_seal(ctx.get(), out1, &out_len,
sizeof(kPlaintext) + max_overhead, nonce.data(),
nonce_len, in, sizeof(kPlaintext), nullptr, 0) ||
EVP_AEAD_CTX_seal(ctx.get(), out2, &out_len,
sizeof(kPlaintext) + max_overhead, nonce.data(),
nonce_len, in, sizeof(kPlaintext), nullptr, 0)) {
fprintf(stderr, "EVP_AEAD_CTX_seal unexpectedly succeeded.\n");
return false;
}
ERR_clear_error();
memcpy(in, valid_encryption.data(), valid_encryption_len);
if (EVP_AEAD_CTX_open(ctx.get(), out1, &out_len, valid_encryption_len,
nonce.data(), nonce_len, in, valid_encryption_len,
nullptr, 0) ||
EVP_AEAD_CTX_open(ctx.get(), out2, &out_len, valid_encryption_len,
nonce.data(), nonce_len, in, valid_encryption_len,
nullptr, 0)) {
fprintf(stderr, "EVP_AEAD_CTX_open unexpectedly succeeded.\n");
return false;
}
ERR_clear_error();
// Test with out == in, which we expect to work.
memcpy(in, kPlaintext, sizeof(kPlaintext));
if (!EVP_AEAD_CTX_seal(ctx.get(), in, &out_len,
sizeof(kPlaintext) + max_overhead, nonce.data(),
nonce_len, in, sizeof(kPlaintext), nullptr, 0)) {
fprintf(stderr, "EVP_AEAD_CTX_seal failed in-place.\n");
return false;
}
if (out_len != valid_encryption_len ||
memcmp(in, valid_encryption.data(), out_len) != 0) {
fprintf(stderr, "EVP_AEAD_CTX_seal produced bad output in-place.\n");
return false;
}
memcpy(in, valid_encryption.data(), valid_encryption_len);
if (!EVP_AEAD_CTX_open(ctx.get(), in, &out_len, valid_encryption_len,
nonce.data(), nonce_len, in, valid_encryption_len,
nullptr, 0)) {
fprintf(stderr, "EVP_AEAD_CTX_open failed in-place.\n");
return false;
}
if (out_len != sizeof(kPlaintext) ||
memcmp(in, kPlaintext, out_len) != 0) {
fprintf(stderr, "EVP_AEAD_CTX_open produced bad output in-place.\n");
return false;
}
return true;
}
struct KnownAEAD {
const char name[40];
const EVP_AEAD *(*func)(void);
// limited_implementation indicates that tests that assume a generic AEAD
// interface should not be performed. For example, the key-wrap AEADs only
// handle inputs that are a multiple of eight bytes in length and the
// SSLv3/TLS AEADs have the concept of “direction”.
bool limited_implementation;
};
static const struct KnownAEAD kAEADs[] = {
{ "aes-128-gcm", EVP_aead_aes_128_gcm, false },
{ "aes-256-gcm", EVP_aead_aes_256_gcm, false },
{ "chacha20-poly1305", EVP_aead_chacha20_poly1305, false },
{ "chacha20-poly1305-old", EVP_aead_chacha20_poly1305_old, false },
{ "aes-128-cbc-sha1-tls", EVP_aead_aes_128_cbc_sha1_tls, true },
{ "aes-128-cbc-sha1-tls-implicit-iv", EVP_aead_aes_128_cbc_sha1_tls_implicit_iv, true },
{ "aes-128-cbc-sha256-tls", EVP_aead_aes_128_cbc_sha256_tls, true },
{ "aes-256-cbc-sha1-tls", EVP_aead_aes_256_cbc_sha1_tls, true },
{ "aes-256-cbc-sha1-tls-implicit-iv", EVP_aead_aes_256_cbc_sha1_tls_implicit_iv, true },
{ "aes-256-cbc-sha256-tls", EVP_aead_aes_256_cbc_sha256_tls, true },
{ "aes-256-cbc-sha384-tls", EVP_aead_aes_256_cbc_sha384_tls, true },
{ "des-ede3-cbc-sha1-tls", EVP_aead_des_ede3_cbc_sha1_tls, true },
{ "des-ede3-cbc-sha1-tls-implicit-iv", EVP_aead_des_ede3_cbc_sha1_tls_implicit_iv, true },
{ "aes-128-cbc-sha1-ssl3", EVP_aead_aes_128_cbc_sha1_ssl3, true },
{ "aes-256-cbc-sha1-ssl3", EVP_aead_aes_256_cbc_sha1_ssl3, true },
{ "des-ede3-cbc-sha1-ssl3", EVP_aead_des_ede3_cbc_sha1_ssl3, true },
{ "aes-128-ctr-hmac-sha256", EVP_aead_aes_128_ctr_hmac_sha256, false },
{ "aes-256-ctr-hmac-sha256", EVP_aead_aes_256_ctr_hmac_sha256, false },
{ "", NULL, false },
};
static int Main(int argc, char **argv) {
CRYPTO_library_init();
if (argc != 3) {
fprintf(stderr, "%s <aead> <test file.txt>\n", argv[0]);
return 1;
}
const struct KnownAEAD *known_aead;
for (unsigned i = 0;; i++) {
known_aead = &kAEADs[i];
if (known_aead->func == NULL) {
fprintf(stderr, "Unknown AEAD: %s\n", argv[1]);
return 2;
}
if (strcmp(known_aead->name, argv[1]) == 0) {
break;
}
}
const EVP_AEAD *const aead = known_aead->func();
if (!TestCleanupAfterInitFailure(aead)) {
return 1;
}
if (!known_aead->limited_implementation && !TestWithAliasedBuffers(aead)) {
fprintf(stderr, "Aliased buffers test failed for %s.\n", known_aead->name);
return 1;
}
return FileTestMain(TestAEAD, const_cast<EVP_AEAD*>(aead), argv[2]);
}
} // namespace bssl
int main(int argc, char **argv) {
return bssl::Main(argc, argv);
}
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