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- /* Copyright 2015 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.
- *
- * Unit tests
- */
- #include <stdio.h>
- #include <stdlib.h>
- #include <string.h>
- #include <openssl/aes.h>
- #include "2sha.h"
- #include "2hmac.h"
- #include "bdb.h"
- #include "bdb_api.h"
- #include "bdb_struct.h"
- #include "host.h"
- #include "test_common.h"
- #include "vboot_register.h"
- #include "secrets.h"
- static struct bdb_header *bdb, *bdb0, *bdb1;
- static uint32_t vboot_register;
- static uint32_t vboot_register_persist;
- static char slot_selected;
- static uint8_t aprw_digest[BDB_SHA256_DIGEST_SIZE];
- static uint8_t reset_count;
- /* NVM-RW image in storage (e.g. EEPROM) */
- static uint8_t nvmrw1[NVM_RW_MAX_STRUCT_SIZE];
- static uint8_t nvmrw2[NVM_RW_MAX_STRUCT_SIZE];
- static struct bdb_secrets secrets = {
- .nvm_wp = {0x00, },
- .nvm_rw = {0x00, },
- .bdb = {0x00, },
- .boot_verified = {0x00, },
- .boot_path = {0x00, },
- .buc = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
- 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
- 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
- 0xff, 0xff},
- };
- static int vbe_write_nvm_failure = 0;
- static struct bdb_header *create_bdb(const char *key_dir,
- struct bdb_hash *hash, int num_hashes)
- {
- struct bdb_header *b;
- uint8_t oem_area_0[32] = "Some OEM area.";
- uint8_t oem_area_1[64] = "Some other OEM area.";
- char filename[1024];
- struct bdb_create_params p = {
- .bdb_load_address = 0x11223344,
- .oem_area_0 = oem_area_0,
- .oem_area_0_size = sizeof(oem_area_0),
- .oem_area_1 = oem_area_1,
- .oem_area_1_size = sizeof(oem_area_1),
- .header_sig_description = "The header sig",
- .data_sig_description = "The data sig",
- .data_description = "Test BDB data",
- .data_version = 3,
- .hash = hash,
- .num_hashes = num_hashes,
- };
- uint8_t bdbkey_digest[BDB_SHA256_DIGEST_SIZE];
- /* Load keys */
- snprintf(filename, sizeof(filename), "%s/bdbkey.keyb", key_dir);
- p.bdbkey = bdb_create_key(filename, 100, "BDB key");
- snprintf(filename, sizeof(filename), "%s/datakey.keyb", key_dir);
- p.datakey = bdb_create_key(filename, 200, "datakey");
- snprintf(filename, sizeof(filename), "%s/bdbkey.pem", key_dir);
- p.private_bdbkey = read_pem(filename);
- snprintf(filename, sizeof(filename), "%s/datakey.pem", key_dir);
- p.private_datakey = read_pem(filename);
- if (!p.bdbkey || !p.datakey || !p.private_bdbkey || !p.private_datakey) {
- fprintf(stderr, "Unable to load test keys\n");
- exit(2);
- }
- vb2_digest_buffer((uint8_t *)p.bdbkey, p.bdbkey->struct_size,
- VB2_HASH_SHA256,
- bdbkey_digest, BDB_SHA256_DIGEST_SIZE);
- b = bdb_create(&p);
- if (!b) {
- fprintf(stderr, "Unable to create test BDB\n");
- exit(2);
- }
- /* Free keys and buffers */
- free(p.bdbkey);
- free(p.datakey);
- RSA_free(p.private_bdbkey);
- RSA_free(p.private_datakey);
- return b;
- }
- static void calculate_aprw_digest(const struct bdb_hash *hash, uint8_t *digest)
- {
- /* Locate AP-RW */
- /* Calculate digest as loading AP-RW */
- memcpy(digest, aprw_digest, sizeof(aprw_digest));
- }
- static void verstage_main(void)
- {
- struct vba_context ctx;
- const struct bdb_hash *hash;
- uint8_t digest[BDB_SHA256_DIGEST_SIZE];
- int rv;
- rv = vba_bdb_init(&ctx);
- if (rv) {
- fprintf(stderr, "Initializing context failed for (%d)\n", rv);
- vba_bdb_fail(&ctx);
- /* This return is needed for unit test. vba_bdb_fail calls
- * vbe_reset, which calls verstage_main. If verstage_main
- * successfully returns, we return here as well. */
- return;
- }
- fprintf(stderr, "Initialized context. Trying slot %c\n",
- ctx.slot ? 'B' : 'A');
- /* 1. Locate BDB */
- /* 2. Get bdb_hash structure for AP-RW */
- hash = bdb_get_hash_by_type(bdb, BDB_DATA_AP_RW);
- fprintf(stderr, "Got hash of AP-RW\n");
- /* 3. Load & calculate digest of AP-RW */
- calculate_aprw_digest(hash, digest);
- fprintf(stderr, "Calculated digest\n");
- /* 4. Compare digests */
- if (memcmp(hash->digest, digest, BDB_SHA256_DIGEST_SIZE)) {
- fprintf(stderr, "Digests do not match\n");
- vba_bdb_fail(&ctx);
- /* This return is needed for unit test. vba_bdb_fail calls
- * vbe_reset, which calls verstage_main. If verstage_main
- * successfully returns, we return here as well. */
- return;
- }
- /* 5. Record selected slot. This depends on the firmware */
- slot_selected = ctx.slot ? 'B' : 'A';
- fprintf(stderr, "Selected AP-RW in slot %c\n", slot_selected);
- /* X. This should be done upon AP-RW's request after everything is
- * successful. We do it here for the unit test. */
- vba_bdb_finalize(&ctx);
- }
- uint32_t vbe_get_vboot_register(enum vboot_register type)
- {
- switch (type) {
- case VBOOT_REGISTER:
- return vboot_register;
- case VBOOT_REGISTER_PERSIST:
- return vboot_register_persist;
- default:
- fprintf(stderr, "Invalid vboot register type (%d)\n", type);
- exit(2);
- }
- }
- void vbe_set_vboot_register(enum vboot_register type, uint32_t val)
- {
- switch (type) {
- case VBOOT_REGISTER:
- vboot_register = val;
- break;
- case VBOOT_REGISTER_PERSIST:
- vboot_register_persist = val;
- break;
- default:
- fprintf(stderr, "Invalid vboot register type (%d)\n", type);
- exit(2);
- }
- }
- void vbe_reset(void)
- {
- uint32_t val = vbe_get_vboot_register(VBOOT_REGISTER_PERSIST);
- fprintf(stderr, "Booting ...\n");
- if (++reset_count > 5) {
- fprintf(stderr, "Reset counter exceeded maximum value\n");
- exit(2);
- }
- /* Emulate warm reset */
- vboot_register = 0;
- if (val & VBOOT_REGISTER_RECOVERY_REQUEST) {
- fprintf(stderr, "Recovery requested\n");
- return;
- }
- /* Selected by SP-RO */
- bdb = (val & VBOOT_REGISTER_TRY_SECONDARY_BDB) ? bdb1 : bdb0;
- verstage_main();
- }
- static void test_verify_aprw(const char *key_dir)
- {
- struct bdb_hash hash0 = {
- .offset = 0x28000,
- .size = 0x20000,
- .partition = 1,
- .type = BDB_DATA_AP_RW,
- .load_address = 0x200000,
- .digest = {0x11, 0x11, 0x11, 0x11},
- };
- struct bdb_hash hash1 = {
- .offset = 0x28000,
- .size = 0x20000,
- .partition = 1,
- .type = BDB_DATA_AP_RW,
- .load_address = 0x200000,
- .digest = {0x22, 0x22, 0x22, 0x22},
- };
- bdb0 = create_bdb(key_dir, &hash0, 1);
- bdb1 = create_bdb(key_dir, &hash1, 1);
- memset(aprw_digest, 0, BDB_SHA256_DIGEST_SIZE);
- /* (slotA, slotB) = (good, bad) */
- reset_count = 0;
- vboot_register_persist = 0;
- slot_selected = 'X';
- memcpy(aprw_digest, hash0.digest, 4);
- vbe_reset();
- TEST_EQ(reset_count, 1, NULL);
- TEST_EQ(slot_selected, 'A', NULL);
- TEST_FALSE(vboot_register_persist & VBOOT_REGISTER_FAILED_RW_PRIMARY,
- NULL);
- TEST_FALSE(vboot_register_persist & VBOOT_REGISTER_FAILED_RW_SECONDARY,
- NULL);
- /* (slotA, slotB) = (bad, good) */
- reset_count = 0;
- vboot_register_persist = 0;
- slot_selected = 'X';
- memcpy(aprw_digest, hash1.digest, 4);
- vbe_reset();
- TEST_EQ(reset_count, 3, NULL);
- TEST_EQ(slot_selected, 'B', NULL);
- TEST_TRUE(vboot_register_persist & VBOOT_REGISTER_FAILED_RW_PRIMARY,
- NULL);
- TEST_FALSE(vboot_register_persist & VBOOT_REGISTER_FAILED_RW_SECONDARY,
- NULL);
- /* (slotA, slotB) = (bad, bad) */
- reset_count = 0;
- vboot_register_persist = 0;
- slot_selected = 'X';
- memset(aprw_digest, 0, BDB_SHA256_DIGEST_SIZE);
- vbe_reset();
- TEST_EQ(reset_count, 5, NULL);
- TEST_EQ(slot_selected, 'X', NULL);
- TEST_TRUE(vboot_register_persist & VBOOT_REGISTER_FAILED_RW_PRIMARY,
- NULL);
- TEST_TRUE(vboot_register_persist & VBOOT_REGISTER_FAILED_RW_SECONDARY,
- NULL);
- TEST_TRUE(vboot_register_persist & VBOOT_REGISTER_RECOVERY_REQUEST,
- NULL);
- /* Clean up */
- free(bdb0);
- free(bdb1);
- }
- int vbe_read_nvm(enum nvm_type type, uint8_t *buf, uint32_t size)
- {
- /* Read NVM-RW contents (from EEPROM for example) */
- switch (type) {
- case NVM_TYPE_RW_PRIMARY:
- if (sizeof(nvmrw1) < size)
- return -1;
- memcpy(buf, nvmrw1, size);
- break;
- case NVM_TYPE_RW_SECONDARY:
- if (sizeof(nvmrw2) < size)
- return -1;
- memcpy(buf, nvmrw2, size);
- break;
- default:
- return -1;
- }
- return 0;
- }
- int vbe_write_nvm(enum nvm_type type, void *buf, uint32_t size)
- {
- if (vbe_write_nvm_failure > 0) {
- fprintf(stderr, "Failed to write NVM (type=%d failure=%d)\n",
- type, vbe_write_nvm_failure);
- vbe_write_nvm_failure--;
- return -1;
- }
- /* Write NVM-RW contents (to EEPROM for example) */
- switch (type) {
- case NVM_TYPE_RW_PRIMARY:
- memcpy(nvmrw1, buf, size);
- break;
- case NVM_TYPE_RW_SECONDARY:
- memcpy(nvmrw2, buf, size);
- break;
- default:
- return -1;
- }
- return 0;
- }
- static void install_nvm(enum nvm_type type,
- uint32_t min_kernel_data_key_version,
- uint32_t min_kernel_version,
- uint32_t update_count)
- {
- struct nvmrw nvm = {
- .struct_magic = NVM_RW_MAGIC,
- .struct_major_version = NVM_HEADER_VERSION_MAJOR,
- .struct_minor_version = NVM_HEADER_VERSION_MINOR,
- .struct_size = sizeof(struct nvmrw),
- .min_kernel_data_key_version = min_kernel_data_key_version,
- .min_kernel_version = min_kernel_version,
- .update_count = update_count,
- };
- /* Compute HMAC */
- hmac(VB2_HASH_SHA256, secrets.nvm_rw, BDB_SECRET_SIZE,
- &nvm, nvm.struct_size - sizeof(nvm.hmac),
- nvm.hmac, sizeof(nvm.hmac));
- /* Install NVM-RWs (in EEPROM for example) */
- switch (type) {
- case NVM_TYPE_RW_PRIMARY:
- memset(nvmrw1, 0, sizeof(nvmrw1));
- memcpy(nvmrw1, &nvm, sizeof(nvm));
- break;
- case NVM_TYPE_RW_SECONDARY:
- memset(nvmrw2, 0, sizeof(nvmrw2));
- memcpy(nvmrw2, &nvm, sizeof(nvm));
- break;
- default:
- fprintf(stderr, "Unsupported NVM type (%d)\n", type);
- exit(2);
- return;
- }
- }
- static void test_nvm_read(void)
- {
- struct vba_context ctx = {
- .bdb = NULL,
- .secrets = &secrets,
- };
- struct nvmrw *nvm;
- uint8_t nvmrw1_copy[NVM_RW_MAX_STRUCT_SIZE];
- uint8_t nvmrw2_copy[NVM_RW_MAX_STRUCT_SIZE];
- install_nvm(NVM_TYPE_RW_PRIMARY, 0, 1, 0);
- install_nvm(NVM_TYPE_RW_SECONDARY, 1, 0, 0);
- memcpy(nvmrw1_copy, nvmrw1, sizeof(nvmrw1));
- memcpy(nvmrw2_copy, nvmrw2, sizeof(nvmrw2));
- /* Test nvm_read: both good -> pick primary, no sync */
- memset(&ctx.nvmrw, 0, sizeof(ctx.nvmrw));
- TEST_SUCC(nvmrw_read(&ctx), NULL);
- TEST_SUCC(memcmp(&ctx.nvmrw, nvmrw1, sizeof(*nvm)), NULL);
- TEST_SUCC(memcmp(nvmrw1, nvmrw1_copy, sizeof(nvmrw1)), NULL);
- TEST_SUCC(memcmp(nvmrw2, nvmrw2_copy, sizeof(nvmrw2)), NULL);
- /* Test nvm_read: primary bad -> pick secondary */
- install_nvm(NVM_TYPE_RW_PRIMARY, 0, 1, 0);
- install_nvm(NVM_TYPE_RW_SECONDARY, 1, 0, 0);
- memcpy(nvmrw2_copy, nvmrw2, sizeof(*nvm));
- nvm = (struct nvmrw *)nvmrw1;
- nvm->hmac[0] ^= 0xff;
- memset(&ctx.nvmrw, 0, sizeof(ctx.nvmrw));
- TEST_SUCC(nvmrw_read(&ctx), NULL);
- TEST_SUCC(memcmp(&ctx.nvmrw, nvmrw2, sizeof(*nvm)), NULL);
- TEST_SUCC(memcmp(nvmrw1, nvmrw2_copy, sizeof(nvmrw2)), NULL);
- TEST_SUCC(memcmp(nvmrw2, nvmrw2_copy, sizeof(nvmrw2)), NULL);
- /* Test nvm_read: secondary bad -> pick primary */
- install_nvm(NVM_TYPE_RW_PRIMARY, 0, 1, 0);
- install_nvm(NVM_TYPE_RW_SECONDARY, 1, 0, 0);
- memcpy(nvmrw1_copy, nvmrw1, sizeof(*nvm));
- nvm = (struct nvmrw *)nvmrw2;
- nvm->hmac[0] ^= 0xff;
- memset(&ctx.nvmrw, 0, sizeof(ctx.nvmrw));
- TEST_SUCC(nvmrw_read(&ctx), NULL);
- TEST_SUCC(memcmp(&ctx.nvmrw, nvmrw1, sizeof(*nvm)), NULL);
- TEST_SUCC(memcmp(nvmrw1, nvmrw1_copy, sizeof(nvmrw1)), NULL);
- TEST_SUCC(memcmp(nvmrw2, nvmrw1_copy, sizeof(nvmrw1)), NULL);
- /* Test nvm_read: both bad */
- nvm = (struct nvmrw *)nvmrw1;
- nvm->hmac[0] ^= 0xff;
- nvm = (struct nvmrw *)nvmrw2;
- nvm->hmac[0] ^= 0xff;
- memset(&ctx.nvmrw, 0, sizeof(ctx.nvmrw));
- TEST_EQ(nvmrw_read(&ctx), BDB_ERROR_NVM_RW_INVALID_HMAC, NULL);
- /* Test update count: secondary new -> pick secondary */
- install_nvm(NVM_TYPE_RW_PRIMARY, 0, 1, 0);
- install_nvm(NVM_TYPE_RW_SECONDARY, 1, 0, 1);
- memcpy(nvmrw2_copy, nvmrw2, sizeof(*nvm));
- memset(&ctx.nvmrw, 0, sizeof(ctx.nvmrw));
- TEST_SUCC(nvmrw_read(&ctx), NULL);
- TEST_SUCC(memcmp(&ctx.nvmrw, nvmrw2, sizeof(*nvm)), NULL);
- TEST_SUCC(memcmp(nvmrw1, nvmrw2_copy, sizeof(nvmrw1)), NULL);
- TEST_SUCC(memcmp(nvmrw2, nvmrw2_copy, sizeof(nvmrw2)), NULL);
- /* Test old reader -> minor version downgrade */
- install_nvm(NVM_TYPE_RW_PRIMARY, 0, 1, 0);
- install_nvm(NVM_TYPE_RW_SECONDARY, 1, 0, 1);
- memset(&ctx.nvmrw, 0, sizeof(ctx.nvmrw));
- nvm = (struct nvmrw *)nvmrw1;
- nvm->struct_minor_version++;
- nvm->struct_size++;
- TEST_SUCC(nvmrw_read(&ctx), NULL);
- TEST_EQ(ctx.nvmrw.struct_minor_version, NVM_HEADER_VERSION_MINOR, NULL);
- TEST_EQ(ctx.nvmrw.struct_size, sizeof(*nvm), NULL);
- }
- static void verify_nvm_write(struct vba_context *ctx,
- int expected_result)
- {
- struct nvmrw *nvmrw;
- struct nvmrw *nvm = &ctx->nvmrw;
- TEST_EQ(nvmrw_write(ctx, NVM_TYPE_RW_PRIMARY), expected_result, NULL);
- if (expected_result != BDB_SUCCESS)
- return;
- nvmrw = (struct nvmrw *)nvmrw1;
- TEST_EQ(nvmrw->min_kernel_data_key_version,
- nvm->min_kernel_data_key_version, NULL);
- TEST_EQ(nvmrw->min_kernel_version, nvm->min_kernel_version, NULL);
- TEST_EQ(nvmrw->update_count, nvm->update_count, NULL);
- }
- static void test_nvm_write(void)
- {
- struct vba_context ctx = {
- .bdb = NULL,
- .secrets = &secrets,
- };
- struct nvmrw nvm = {
- .struct_magic = NVM_RW_MAGIC,
- .struct_major_version = NVM_HEADER_VERSION_MAJOR,
- .struct_minor_version = NVM_HEADER_VERSION_MINOR,
- .struct_size = sizeof(struct nvmrw),
- .min_kernel_data_key_version = 1,
- .min_kernel_version = 2,
- .update_count = 3,
- };
- /* Test normal case */
- memcpy(&ctx.nvmrw, &nvm, sizeof(nvm));
- vbe_write_nvm_failure = 0;
- verify_nvm_write(&ctx, BDB_SUCCESS);
- /* Test write failure: once */
- memcpy(&ctx.nvmrw, &nvm, sizeof(nvm));
- vbe_write_nvm_failure = 1;
- verify_nvm_write(&ctx, BDB_SUCCESS);
- /* Test write failure: twice */
- memcpy(&ctx.nvmrw, &nvm, sizeof(nvm));
- vbe_write_nvm_failure = 2;
- verify_nvm_write(&ctx, BDB_ERROR_NVM_WRITE);
- /* Test invalid struct magic */
- memcpy(&ctx.nvmrw, &nvm, sizeof(nvm));
- ctx.nvmrw.struct_magic ^= 0xff;
- verify_nvm_write(&ctx, BDB_ERROR_NVM_RW_MAGIC);
- /* Test struct size too small */
- memcpy(&ctx.nvmrw, &nvm, sizeof(nvm));
- ctx.nvmrw.struct_size = NVM_RW_MIN_STRUCT_SIZE - 1;
- verify_nvm_write(&ctx, BDB_ERROR_NVM_STRUCT_SIZE);
- /* Test struct size too large */
- memcpy(&ctx.nvmrw, &nvm, sizeof(nvm));
- ctx.nvmrw.struct_size = NVM_RW_MAX_STRUCT_SIZE + 1;
- verify_nvm_write(&ctx, BDB_ERROR_NVM_STRUCT_SIZE);
- /* Test invalid struct version */
- memcpy(&ctx.nvmrw, &nvm, sizeof(nvm));
- ctx.nvmrw.struct_major_version = NVM_HEADER_VERSION_MAJOR - 1;
- verify_nvm_write(&ctx, BDB_ERROR_NVM_STRUCT_VERSION);
- vbe_write_nvm_failure = 0;
- }
- static void verify_kernel_version(uint32_t min_kernel_data_key_version,
- uint32_t new_kernel_data_key_version,
- uint32_t min_kernel_version,
- uint32_t new_kernel_version,
- int expected_result)
- {
- struct vba_context ctx = {
- .bdb = NULL,
- .secrets = &secrets,
- };
- struct nvmrw *nvm = (struct nvmrw *)nvmrw1;
- uint32_t expected_kernel_data_key_version = min_kernel_data_key_version;
- uint32_t expected_kernel_version = min_kernel_version;
- int should_update = 0;
- if (min_kernel_data_key_version < new_kernel_data_key_version) {
- expected_kernel_data_key_version = new_kernel_data_key_version;
- should_update = 1;
- }
- if (min_kernel_version < new_kernel_version) {
- expected_kernel_version = new_kernel_version;
- should_update = 1;
- }
- install_nvm(NVM_TYPE_RW_PRIMARY, min_kernel_data_key_version,
- min_kernel_version, 0);
- install_nvm(NVM_TYPE_RW_SECONDARY, 0, 0, 0);
- TEST_EQ(vba_update_kernel_version(&ctx, new_kernel_data_key_version,
- new_kernel_version),
- expected_result, NULL);
- if (expected_result != BDB_SUCCESS)
- return;
- /* Check data key version */
- TEST_EQ(nvm->min_kernel_data_key_version,
- expected_kernel_data_key_version, NULL);
- /* Check kernel version */
- TEST_EQ(nvm->min_kernel_version, expected_kernel_version, NULL);
- /* Check update_count */
- TEST_EQ(nvm->update_count, 0 + should_update, NULL);
- /* Check sync if update is expected */
- if (should_update)
- TEST_SUCC(memcmp(nvmrw2, nvmrw1, sizeof(nvmrw1)), NULL);
- }
- static void test_update_kernel_version(void)
- {
- /* Test update: data key version */
- verify_kernel_version(0, 1, 0, 0, BDB_SUCCESS);
- /* Test update: kernel version */
- verify_kernel_version(0, 0, 0, 1, BDB_SUCCESS);
- /* Test no update: data key version */
- verify_kernel_version(1, 0, 0, 0, BDB_SUCCESS);
- /* Test no update: kernel version */
- verify_kernel_version(0, 0, 1, 0, BDB_SUCCESS);
- }
- int vbe_aes256_encrypt(const uint8_t *msg, uint32_t len, const uint8_t *key,
- uint8_t *out)
- {
- int i;
- for (i = 0; i < len; i++)
- out[i] = msg[i] ^ key[i % 256/8];
- return BDB_SUCCESS;
- }
- int vbe_aes256_decrypt(const uint8_t *msg, uint32_t len, const uint8_t *key,
- uint8_t *out)
- {
- int i;
- for (i = 0; i < len; i++)
- out[i] = msg[i] ^ key[i % 256/8];
- return BDB_SUCCESS;
- }
- static void test_update_buc(void)
- {
- uint8_t new_buc[BUC_ENC_DIGEST_SIZE];
- uint8_t enc_buc[BUC_ENC_DIGEST_SIZE];
- struct nvmrw *nvm = (struct nvmrw *)nvmrw1;
- struct vba_context ctx = {
- .bdb = NULL,
- .secrets = &secrets,
- };
- install_nvm(NVM_TYPE_RW_PRIMARY, 0, 1, 0);
- install_nvm(NVM_TYPE_RW_SECONDARY, 1, 0, 0);
- TEST_SUCC(vba_update_buc(&ctx, new_buc), NULL);
- vbe_aes256_encrypt(new_buc, sizeof(new_buc), ctx.secrets->buc,
- enc_buc);
- TEST_SUCC(memcmp(nvm->buc_enc_digest, enc_buc, sizeof(new_buc)), NULL);
- }
- static void test_derive_secrets(void)
- {
- uint8_t test_key[sizeof(struct bdb_key) + BDB_RSA4096_KEY_DATA_SIZE];
- struct bdb_key *key = (struct bdb_key *)test_key;
- struct vba_context ctx = {
- .bdb = NULL,
- .secrets = &secrets,
- };
- const struct bdb_secrets expected = {
- .bdb = {
- 0x75, 0xb6, 0x24, 0xaa, 0x72, 0x50, 0xf9, 0x33,
- 0x59, 0x45, 0x8d, 0xbf, 0xfa, 0x42, 0xc4, 0xb7,
- 0x1b, 0xff, 0xc6, 0x02, 0x02, 0x35, 0xc5, 0x1a,
- 0x6c, 0xdc, 0x3a, 0x63, 0xfb, 0x8b, 0xac, 0x53},
- .boot_verified = {
- 0x40, 0xf3, 0x9b, 0xdc, 0xf6, 0xb4, 0xe8, 0xdf,
- 0x48, 0xc4, 0xfe, 0x02, 0xdd, 0x34, 0x06, 0xd9,
- 0xed, 0xd9, 0x55, 0x79, 0xf4, 0x48, 0x58, 0xbf,
- 0x32, 0x55, 0xba, 0x21, 0xca, 0xcc, 0x8c, 0xd1},
- .boot_path = {
- 0xfb, 0x58, 0x89, 0x58, 0x2f, 0x54, 0xa2, 0xf7,
- 0x96, 0x5b, 0x69, 0x77, 0x9b, 0x67, 0x80, 0x39,
- 0x7a, 0xd4, 0xc5, 0x3b, 0xcf, 0x95, 0x3f, 0xec,
- 0x28, 0x49, 0x55, 0x49, 0x38, 0x27, 0x5d, 0x3c},
- .buc = {
- 0x63, 0xa5, 0x30, 0xd7, 0xca, 0xe1, 0x3e, 0x2e,
- 0x72, 0x7e, 0x29, 0xc9, 0x37, 0x66, 0x6a, 0x63,
- 0x91, 0xd4, 0x8e, 0x8b, 0xbc, 0x1a, 0x7a, 0xcf,
- 0xc3, 0x19, 0xa0, 0x87, 0xfc, 0x4d, 0xe1, 0xe8},
- };
- memset(test_key, 0, sizeof(test_key));
- key->struct_magic = BDB_KEY_MAGIC;
- key->struct_major_version = BDB_KEY_VERSION_MAJOR;
- key->struct_minor_version = BDB_KEY_VERSION_MINOR;
- key->struct_size = sizeof(test_key);
- key->hash_alg = BDB_HASH_ALG_SHA256;
- key->sig_alg = BDB_SIG_ALG_RSA4096;
- key->key_version = 1;
- TEST_SUCC(vba_derive_secret(&ctx, BDB_SECRET_TYPE_BDB, NULL,
- test_key, sizeof(test_key)), NULL);
- TEST_SUCC(memcmp(ctx.secrets->bdb, expected.bdb, BDB_SECRET_SIZE),
- NULL);
- TEST_SUCC(vba_derive_secret(&ctx, BDB_SECRET_TYPE_BOOT_VERIFIED, NULL,
- NULL, 0), NULL);
- TEST_SUCC(memcmp(ctx.secrets->boot_verified, expected.boot_verified,
- BDB_SECRET_SIZE), NULL);
- TEST_SUCC(vba_derive_secret(&ctx, BDB_SECRET_TYPE_BOOT_PATH, NULL,
- test_key, sizeof(test_key)), NULL);
- TEST_SUCC(memcmp(ctx.secrets->boot_path, expected.boot_path,
- BDB_SECRET_SIZE), NULL);
- TEST_SUCC(vba_derive_secret(&ctx, BDB_SECRET_TYPE_BUC, NULL, NULL, 0),
- NULL);
- TEST_SUCC(memcmp(ctx.secrets->buc, expected.buc,
- BDB_SECRET_SIZE), NULL);
- }
- int main(int argc, char *argv[])
- {
- if (argc != 2) {
- fprintf(stderr, "Usage: %s <keys_dir>", argv[0]);
- return -1;
- }
- printf("Running BDB SP-RW tests...\n");
- test_verify_aprw(argv[1]);
- test_nvm_read();
- test_nvm_write();
- test_update_kernel_version();
- test_update_buc();
- test_derive_secrets();
- return gTestSuccess ? 0 : 255;
- }
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