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c8c2f023a4914a498c11b855210ef05d4e035d41
OpenCellular/tests/vb2_common2_tests.c
Randall Spangler c8c2f023a4 vboot2: use enum signature algorithm 
This changes the internals of vboot2 to use the enumerated type for
signature algorithm.  The conversion from crypto algorithm is done
only when unpacking the key.  This is preparation for the vboot2 data
types, which separate signature and hash algorithms into their own
fields.

There is no external change in the calling API to vboot, and no change
to the external data structures.

BUG=chromium:423882
BRANCH=none
TEST=VBOOT2=1 make runtests

Change-Id: I2e176d186d88cc7541644e001e720b4aee456be0
Signed-off-by: Randall Spangler <rspangler@chromium.org>
Reviewed-on: https://chromium-review.googlesource.com/225209
2014-10-28 20:39:31 +00:00

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/* Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*
* Tests for firmware image library.
*/
#include <stdint.h>
#include <stdio.h>
#include <string.h>
#include "file_keys.h"
#include "host_common.h"
#include "vboot_common.h"
#include "test_common.h"
#include "2common.h"
#include "2rsa.h"
static void test_unpack_key(const VbPublicKey *orig_key)
{
struct vb2_public_key rsa;
VbPublicKey *key = PublicKeyAlloc(orig_key->key_size, 0, 0);
/* vb2_packed_key and VbPublicKey are bit-identical */
struct vb2_packed_key *key2 = (struct vb2_packed_key *)key;
uint8_t *buf = (uint8_t *)key;
/*
* Key data follows the header for a newly allocated key, so we can
* calculate the buffer size by looking at how far the key data goes.
*/
uint32_t size = key2->key_offset + key2->key_size;
PublicKeyCopy(key, orig_key);
TEST_SUCC(vb2_unpack_key(&rsa, buf, size), "vb2_unpack_key() ok");
TEST_EQ(rsa.sig_alg, vb2_crypto_to_signature(key2->algorithm),
"vb2_unpack_key() sig_alg");
TEST_EQ(rsa.hash_alg, vb2_crypto_to_hash(key2->algorithm),
"vb2_unpack_key() hash_alg");
PublicKeyCopy(key, orig_key);
key2->algorithm = VB2_ALG_COUNT;
TEST_EQ(vb2_unpack_key(&rsa, buf, size),
VB2_ERROR_UNPACK_KEY_SIG_ALGORITHM,
"vb2_unpack_key() invalid algorithm");
PublicKeyCopy(key, orig_key);
key2->key_size--;
TEST_EQ(vb2_unpack_key(&rsa, buf, size),
VB2_ERROR_UNPACK_KEY_SIZE,
"vb2_unpack_key() invalid size");
key2->key_size++;
PublicKeyCopy(key, orig_key);
key2->key_offset++;
TEST_EQ(vb2_unpack_key(&rsa, buf, size + 1),
VB2_ERROR_UNPACK_KEY_ALIGN,
"vb2_unpack_key() unaligned data");
key2->key_offset--;
PublicKeyCopy(key, orig_key);
*(uint32_t *)(buf + key2->key_offset) /= 2;
TEST_EQ(vb2_unpack_key(&rsa, buf, size),
VB2_ERROR_UNPACK_KEY_ARRAY_SIZE,
"vb2_unpack_key() invalid key array size");
PublicKeyCopy(key, orig_key);
TEST_EQ(vb2_unpack_key(&rsa, buf, size - 1),
VB2_ERROR_INSIDE_DATA_OUTSIDE,
"vb2_unpack_key() buffer too small");
free(key);
}
static void test_verify_data(const VbPublicKey *public_key,
const VbPrivateKey *private_key)
{
const uint8_t test_data[] = "This is some test data to sign.";
const uint64_t test_size = sizeof(test_data);
uint8_t workbuf[VB2_VERIFY_DATA_WORKBUF_BYTES];
struct vb2_workbuf wb;
VbSignature *sig;
struct vb2_public_key rsa, rsa_orig;
struct vb2_signature *sig2;
struct vb2_packed_key *public_key2;
vb2_workbuf_init(&wb, workbuf, sizeof(workbuf));
/* Vb2 structs are bit-identical to the old ones */
public_key2 = (struct vb2_packed_key *)public_key;
uint32_t pubkey_size = public_key2->key_offset + public_key2->key_size;
/* Calculate good signature */
sig = CalculateSignature(test_data, test_size, private_key);
TEST_PTR_NEQ(sig, 0, "VerifyData() calculate signature");
if (!sig)
return;
/* Allocate signature copy for tests */
sig2 = (struct vb2_signature *)
SignatureAlloc(siglen_map[public_key2->algorithm], 0);
TEST_EQ(vb2_unpack_key(&rsa, (uint8_t *)public_key2, pubkey_size),
0, "vb2_verify_data() unpack key");
rsa_orig = rsa;
memcpy(sig2, sig, sizeof(VbSignature) + sig->sig_size);
rsa.sig_alg = VB2_SIG_INVALID;
TEST_NEQ(vb2_verify_data(test_data, test_size, sig2, &rsa, &wb),
0, "vb2_verify_data() bad sig alg");
rsa.sig_alg = rsa_orig.sig_alg;
memcpy(sig2, sig, sizeof(VbSignature) + sig->sig_size);
rsa.hash_alg = VB2_HASH_INVALID;
TEST_NEQ(vb2_verify_data(test_data, test_size, sig2, &rsa, &wb),
0, "vb2_verify_data() bad hash alg");
rsa.hash_alg = rsa_orig.hash_alg;
vb2_workbuf_init(&wb, workbuf, 4);
memcpy(sig2, sig, sizeof(VbSignature) + sig->sig_size);
TEST_NEQ(vb2_verify_data(test_data, test_size, sig2, &rsa, &wb),
0, "vb2_verify_data() workbuf too small");
vb2_workbuf_init(&wb, workbuf, sizeof(workbuf));
memcpy(sig2, sig, sizeof(VbSignature) + sig->sig_size);
TEST_EQ(vb2_verify_data(test_data, test_size, sig2, &rsa, &wb),
0, "vb2_verify_data() ok");
memcpy(sig2, sig, sizeof(VbSignature) + sig->sig_size);
sig2->sig_size -= 16;
TEST_NEQ(vb2_verify_data(test_data, test_size, sig2, &rsa, &wb),
0, "vb2_verify_data() wrong sig size");
memcpy(sig2, sig, sizeof(VbSignature) + sig->sig_size);
TEST_NEQ(vb2_verify_data(test_data, test_size - 1, sig2, &rsa, &wb),
0, "vb2_verify_data() input buffer too small");
memcpy(sig2, sig, sizeof(VbSignature) + sig->sig_size);
vb2_signature_data(sig2)[0] ^= 0x5A;
TEST_NEQ(vb2_verify_data(test_data, test_size, sig2, &rsa, &wb),
0, "vb2_verify_data() wrong sig");
free(sig);
free(sig2);
}
int test_algorithm(int key_algorithm, const char *keys_dir)
{
char filename[1024];
int rsa_len = siglen_map[key_algorithm] * 8;
VbPrivateKey *private_key = NULL;
VbPublicKey *public_key = NULL;
printf("***Testing algorithm: %s\n", algo_strings[key_algorithm]);
sprintf(filename, "%s/key_rsa%d.pem", keys_dir, rsa_len);
private_key = PrivateKeyReadPem(filename, key_algorithm);
if (!private_key) {
fprintf(stderr, "Error reading private_key: %s\n", filename);
return 1;
}
sprintf(filename, "%s/key_rsa%d.keyb", keys_dir, rsa_len);
public_key = PublicKeyReadKeyb(filename, key_algorithm, 1);
if (!public_key) {
fprintf(stderr, "Error reading public_key: %s\n", filename);
return 1;
}
test_unpack_key(public_key);
test_verify_data(public_key, private_key);
if (public_key)
free(public_key);
if (private_key)
free(private_key);
return 0;
}
/* Test only the algorithms we use */
const int key_algs[] = {
VB2_ALG_RSA2048_SHA256,
VB2_ALG_RSA4096_SHA256,
VB2_ALG_RSA8192_SHA512,
};
int main(int argc, char *argv[]) {
if (argc == 2) {
int i;
for (i = 0; i < ARRAY_SIZE(key_algs); i++) {
if (test_algorithm(key_algs[i], argv[1]))
return 1;
}
} else if (argc == 3 && !strcasecmp(argv[2], "--all")) {
/* Test all the algorithms */
int alg;
for (alg = 0; alg < kNumAlgorithms; alg++) {
if (test_algorithm(alg, argv[1]))
return 1;
}
} else {
fprintf(stderr, "Usage: %s <keys_dir> [--all]", argv[0]);
return -1;
}
return gTestSuccess ? 0 : 255;
}
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