| /* Copyright (c) 2010 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 <stdio.h> |
| #include <stdlib.h> |
| |
| #include "cryptolib.h" |
| #include "file_keys.h" |
| #include "host_common.h" |
| #include "test_common.h" |
| #include "utility.h" |
| #include "vboot_common.h" |
| |
| |
| static void ReChecksumKeyBlock(VbKeyBlockHeader *h) { |
| uint8_t* newchk = DigestBuf((const uint8_t*)h, |
| h->key_block_checksum.data_size, |
| SHA512_DIGEST_ALGORITHM); |
| Memcpy(GetSignatureData(&h->key_block_checksum), newchk, SHA512_DIGEST_SIZE); |
| Free(newchk); |
| } |
| |
| |
| static void KeyBlockVerifyTest(const VbPublicKey* public_key, |
| const VbPrivateKey* private_key, |
| const VbPublicKey* data_key) { |
| |
| VbKeyBlockHeader *hdr; |
| VbKeyBlockHeader *h; |
| unsigned hsize; |
| |
| hdr = KeyBlockCreate(data_key, private_key, 0x1234); |
| TEST_NEQ((size_t)hdr, 0, "KeyBlockVerify() prerequisites"); |
| if (!hdr) |
| return; |
| hsize = (unsigned) hdr->key_block_size; |
| h = (VbKeyBlockHeader*)Malloc(hsize + 1024); |
| |
| TEST_EQ(KeyBlockVerify(hdr, hsize, NULL, 1), 0, |
| "KeyBlockVerify() ok using checksum"); |
| TEST_EQ(KeyBlockVerify(hdr, hsize, public_key, 0), 0, |
| "KeyBlockVerify() ok using key"); |
| TEST_NEQ(KeyBlockVerify(hdr, hsize, NULL, 0), 0, |
| "KeyBlockVerify() missing key"); |
| |
| TEST_NEQ(KeyBlockVerify(hdr, hsize - 1, NULL, 1), 0, |
| "KeyBlockVerify() size--"); |
| TEST_EQ(KeyBlockVerify(hdr, hsize + 1, NULL, 1), 0, |
| "KeyBlockVerify() size++"); |
| |
| Memcpy(h, hdr, hsize); |
| h->magic[0] &= 0x12; |
| TEST_NEQ(KeyBlockVerify(h, hsize, NULL, 1), 0, "KeyBlockVerify() magic"); |
| |
| /* Care about major version but not minor */ |
| Memcpy(h, hdr, hsize); |
| h->header_version_major++; |
| ReChecksumKeyBlock(h); |
| TEST_NEQ(KeyBlockVerify(h, hsize, NULL, 1), 0, "KeyBlockVerify() major++"); |
| |
| Memcpy(h, hdr, hsize); |
| h->header_version_major--; |
| ReChecksumKeyBlock(h); |
| TEST_NEQ(KeyBlockVerify(h, hsize, NULL, 1), 0, "KeyBlockVerify() major--"); |
| |
| Memcpy(h, hdr, hsize); |
| h->header_version_minor++; |
| ReChecksumKeyBlock(h); |
| TEST_EQ(KeyBlockVerify(h, hsize, NULL, 1), 0, "KeyBlockVerify() minor++"); |
| |
| Memcpy(h, hdr, hsize); |
| h->header_version_minor--; |
| ReChecksumKeyBlock(h); |
| TEST_EQ(KeyBlockVerify(h, hsize, NULL, 1), 0, "KeyBlockVerify() minor--"); |
| |
| /* Check hash */ |
| Memcpy(h, hdr, hsize); |
| h->key_block_checksum.sig_offset = hsize; |
| ReChecksumKeyBlock(h); |
| TEST_NEQ(KeyBlockVerify(h, hsize, NULL, 1), 0, |
| "KeyBlockVerify() checksum off end"); |
| |
| Memcpy(h, hdr, hsize); |
| h->key_block_checksum.sig_size /= 2; |
| ReChecksumKeyBlock(h); |
| TEST_NEQ(KeyBlockVerify(h, hsize, NULL, 1), 0, |
| "KeyBlockVerify() checksum too small"); |
| |
| Memcpy(h, hdr, hsize); |
| GetPublicKeyData(&h->data_key)[0] ^= 0x34; |
| TEST_NEQ(KeyBlockVerify(h, hsize, NULL, 1), 0, |
| "KeyBlockVerify() checksum mismatch"); |
| |
| /* Check signature */ |
| Memcpy(h, hdr, hsize); |
| h->key_block_signature.sig_offset = hsize; |
| ReChecksumKeyBlock(h); |
| TEST_NEQ(KeyBlockVerify(h, hsize, public_key, 0), 0, |
| "KeyBlockVerify() sig off end"); |
| |
| Memcpy(h, hdr, hsize); |
| h->key_block_signature.sig_size--; |
| ReChecksumKeyBlock(h); |
| TEST_NEQ(KeyBlockVerify(h, hsize, public_key, 0), 0, |
| "KeyBlockVerify() sig too small"); |
| |
| Memcpy(h, hdr, hsize); |
| GetPublicKeyData(&h->data_key)[0] ^= 0x34; |
| TEST_NEQ(KeyBlockVerify(h, hsize, public_key, 0), 0, |
| "KeyBlockVerify() sig mismatch"); |
| |
| /* Check that we signed header and data key */ |
| Memcpy(h, hdr, hsize); |
| h->key_block_checksum.data_size = 4; |
| h->data_key.key_offset = 0; |
| h->data_key.key_size = 0; |
| ReChecksumKeyBlock(h); |
| TEST_NEQ(KeyBlockVerify(h, hsize, NULL, 1), 0, |
| "KeyBlockVerify() didn't sign header"); |
| |
| Memcpy(h, hdr, hsize); |
| h->data_key.key_offset = hsize; |
| ReChecksumKeyBlock(h); |
| TEST_NEQ(KeyBlockVerify(h, hsize, NULL, 1), 0, |
| "KeyBlockVerify() data key off end"); |
| |
| /* TODO: verify parser can support a bigger header (i.e., one where |
| * data_key.key_offset is bigger than expected). */ |
| |
| Free(h); |
| Free(hdr); |
| } |
| |
| |
| static void ReSignFirmwarePreamble(VbFirmwarePreambleHeader *h, |
| const VbPrivateKey *key) { |
| VbSignature *sig = CalculateSignature((const uint8_t*)h, |
| h->preamble_signature.data_size, key); |
| |
| SignatureCopy(&h->preamble_signature, sig); |
| Free(sig); |
| } |
| |
| |
| static void VerifyFirmwarePreambleTest(const VbPublicKey* public_key, |
| const VbPrivateKey* private_key, |
| const VbPublicKey* kernel_subkey) { |
| |
| VbFirmwarePreambleHeader *hdr; |
| VbFirmwarePreambleHeader *h; |
| RSAPublicKey* rsa; |
| unsigned hsize; |
| |
| /* Create a dummy signature */ |
| VbSignature *body_sig = SignatureAlloc(56, 78); |
| |
| rsa = PublicKeyToRSA(public_key); |
| hdr = CreateFirmwarePreamble(0x1234, kernel_subkey, body_sig, private_key); |
| TEST_NEQ(hdr && rsa, 0, "VerifyFirmwarePreamble() prerequisites"); |
| if (!hdr) |
| return; |
| hsize = (unsigned) hdr->preamble_size; |
| h = (VbFirmwarePreambleHeader*)Malloc(hsize + 16384); |
| |
| TEST_EQ(VerifyFirmwarePreamble(hdr, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() ok using key"); |
| TEST_NEQ(VerifyFirmwarePreamble(hdr, hsize - 1, rsa), 0, |
| "VerifyFirmwarePreamble() size--"); |
| TEST_EQ(VerifyFirmwarePreamble(hdr, hsize + 1, rsa), 0, |
| "VerifyFirmwarePreamble() size++"); |
| |
| /* Care about major version but not minor */ |
| Memcpy(h, hdr, hsize); |
| h->header_version_major++; |
| ReSignFirmwarePreamble(h, private_key); |
| TEST_NEQ(VerifyFirmwarePreamble(h, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() major++"); |
| |
| Memcpy(h, hdr, hsize); |
| h->header_version_major--; |
| ReSignFirmwarePreamble(h, private_key); |
| TEST_NEQ(VerifyFirmwarePreamble(h, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() major--"); |
| |
| Memcpy(h, hdr, hsize); |
| h->header_version_minor++; |
| ReSignFirmwarePreamble(h, private_key); |
| TEST_EQ(VerifyFirmwarePreamble(h, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() minor++"); |
| |
| Memcpy(h, hdr, hsize); |
| h->header_version_minor--; |
| ReSignFirmwarePreamble(h, private_key); |
| TEST_EQ(VerifyFirmwarePreamble(h, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() minor--"); |
| |
| /* Check signature */ |
| Memcpy(h, hdr, hsize); |
| h->preamble_signature.sig_offset = hsize; |
| ReSignFirmwarePreamble(h, private_key); |
| TEST_NEQ(VerifyFirmwarePreamble(h, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() sig off end"); |
| |
| Memcpy(h, hdr, hsize); |
| h->preamble_signature.sig_size--; |
| ReSignFirmwarePreamble(h, private_key); |
| TEST_NEQ(VerifyFirmwarePreamble(h, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() sig too small"); |
| |
| Memcpy(h, hdr, hsize); |
| GetPublicKeyData(&h->kernel_subkey)[0] ^= 0x34; |
| TEST_NEQ(VerifyFirmwarePreamble(h, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() sig mismatch"); |
| |
| /* Check that we signed header, kernel subkey, and body sig */ |
| Memcpy(h, hdr, hsize); |
| h->preamble_signature.data_size = 4; |
| h->kernel_subkey.key_offset = 0; |
| h->kernel_subkey.key_size = 0; |
| h->body_signature.sig_offset = 0; |
| h->body_signature.sig_size = 0; |
| ReSignFirmwarePreamble(h, private_key); |
| TEST_NEQ(VerifyFirmwarePreamble(h, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() didn't sign header"); |
| |
| Memcpy(h, hdr, hsize); |
| h->kernel_subkey.key_offset = hsize; |
| ReSignFirmwarePreamble(h, private_key); |
| TEST_NEQ(VerifyFirmwarePreamble(h, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() kernel subkey off end"); |
| |
| Memcpy(h, hdr, hsize); |
| h->body_signature.sig_offset = hsize; |
| ReSignFirmwarePreamble(h, private_key); |
| TEST_NEQ(VerifyFirmwarePreamble(h, hsize, rsa), 0, |
| "VerifyFirmwarePreamble() body sig off end"); |
| |
| /* TODO: verify parser can support a bigger header. */ |
| |
| Free(h); |
| RSAPublicKeyFree(rsa); |
| Free(hdr); |
| } |
| |
| |
| int main(int argc, char* argv[]) { |
| VbPrivateKey* signing_private_key = NULL; |
| VbPublicKey* signing_public_key = NULL; |
| int signing_key_algorithm; |
| |
| VbPublicKey* data_public_key = NULL; |
| int data_key_algorithm; |
| |
| int error_code = 0; |
| |
| if(argc != 7) { |
| fprintf(stderr, "Usage: %s <signing_key_algorithm> <data_key_algorithm>" |
| " <signing key> <processed signing pubkey>" |
| " <data key> <processed data pubkey>\n", argv[0]); |
| return -1; |
| } |
| |
| /* Read verification keys and create a test image. */ |
| signing_key_algorithm = atoi(argv[1]); |
| data_key_algorithm = atoi(argv[2]); |
| |
| signing_private_key = PrivateKeyReadPem(argv[3], signing_key_algorithm); |
| if (!signing_private_key) { |
| fprintf(stderr, "Error reading signing_private_key"); |
| return 1; |
| } |
| |
| signing_public_key = PublicKeyReadKeyb(argv[4], signing_key_algorithm, 1); |
| if (!signing_public_key) { |
| fprintf(stderr, "Error reading signing_public_key"); |
| return 1; |
| } |
| |
| data_public_key = PublicKeyReadKeyb(argv[6], data_key_algorithm, 1); |
| if (!data_public_key) { |
| fprintf(stderr, "Error reading data_public_key"); |
| return 1; |
| } |
| |
| KeyBlockVerifyTest(signing_public_key, signing_private_key, data_public_key); |
| VerifyFirmwarePreambleTest(signing_public_key, signing_private_key, |
| data_public_key); |
| |
| if (signing_public_key) |
| Free(signing_public_key); |
| if (signing_private_key) |
| Free(signing_private_key); |
| if (data_public_key) |
| Free(data_public_key); |
| |
| return error_code; |
| } |
