/* 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 api.c */ #include #include "2api.h" #include "2common.h" #include "2misc.h" #include "2nvstorage.h" #include "2rsa.h" #include "2secdata.h" #include "2sysincludes.h" #include "test_common.h" #include "vb2_struct.h" #include "vb2_common.h" /* Common context for tests */ static uint8_t workbuf[VB2_FIRMWARE_WORKBUF_RECOMMENDED_SIZE] __attribute__ ((aligned (VB2_WORKBUF_ALIGN))); static struct vb2_context *ctx; static struct vb2_shared_data *sd; static struct vb2_gbb_header gbb; const char mock_body[320] = "Mock body"; const int mock_body_size = sizeof(mock_body); const int mock_algorithm = VB2_ALG_RSA2048_SHA256; const int mock_hash_alg = VB2_HASH_SHA256; static const uint8_t mock_hwid_digest[VB2_GBB_HWID_DIGEST_SIZE] = { 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f, }; const int mock_sig_size = 64; static uint8_t digest_result[VB2_SHA256_DIGEST_SIZE]; static const uint32_t digest_result_size = sizeof(digest_result); /* Mocked function data */ static enum { HWCRYPTO_DISABLED, HWCRYPTO_ENABLED, HWCRYPTO_FORBIDDEN, } hwcrypto_state; static int force_dev_mode; static vb2_error_t retval_vb2_fw_init_gbb; static vb2_error_t retval_vb2_check_dev_switch; static vb2_error_t retval_vb2_check_tpm_clear; static vb2_error_t retval_vb2_select_fw_slot; static vb2_error_t retval_vb2_load_fw_keyblock; static vb2_error_t retval_vb2_load_fw_preamble; static vb2_error_t retval_vb2_digest_finalize; static vb2_error_t retval_vb2_verify_digest; /* Type of test to reset for */ enum reset_type { FOR_MISC, FOR_EXTEND_HASH, FOR_CHECK_HASH, }; static void reset_common_data(enum reset_type t) { struct vb2_fw_preamble *pre; struct vb2_packed_key *k; memset(workbuf, 0xaa, sizeof(workbuf)); TEST_SUCC(vb2api_init(workbuf, sizeof(workbuf), &ctx), "vb2api_init failed"); sd = vb2_get_sd(ctx); vb2_nv_init(ctx); vb2api_secdata_firmware_create(ctx); vb2_secdata_firmware_init(ctx); force_dev_mode = 0; retval_vb2_fw_init_gbb = VB2_SUCCESS; retval_vb2_check_dev_switch = VB2_SUCCESS; retval_vb2_check_tpm_clear = VB2_SUCCESS; retval_vb2_select_fw_slot = VB2_SUCCESS; retval_vb2_load_fw_keyblock = VB2_SUCCESS; retval_vb2_load_fw_preamble = VB2_SUCCESS; retval_vb2_digest_finalize = VB2_SUCCESS; retval_vb2_verify_digest = VB2_SUCCESS; memcpy(&gbb.hwid_digest, mock_hwid_digest, sizeof(gbb.hwid_digest)); sd->preamble_offset = sd->workbuf_used; sd->preamble_size = sizeof(*pre); vb2_set_workbuf_used(ctx, sd->preamble_offset + sd->preamble_size); pre = vb2_member_of(sd, sd->preamble_offset); pre->body_signature.data_size = mock_body_size; pre->body_signature.sig_size = mock_sig_size; if (hwcrypto_state == HWCRYPTO_FORBIDDEN) pre->flags = VB2_FIRMWARE_PREAMBLE_DISALLOW_HWCRYPTO; else pre->flags = 0; sd->data_key_offset = sd->workbuf_used; sd->data_key_size = sizeof(*k) + 8; vb2_set_workbuf_used(ctx, sd->data_key_offset + sd->data_key_size); k = vb2_member_of(sd, sd->data_key_offset); k->algorithm = mock_algorithm; if (t == FOR_EXTEND_HASH || t == FOR_CHECK_HASH) vb2api_init_hash(ctx, VB2_HASH_TAG_FW_BODY, NULL); if (t == FOR_CHECK_HASH) vb2api_extend_hash(ctx, mock_body, mock_body_size); /* Always clear out the digest result. */ memset(digest_result, 0, digest_result_size); }; /* Mocked functions */ struct vb2_gbb_header *vb2_get_gbb(struct vb2_context *c) { return &gbb; } vb2_error_t vb2_fw_init_gbb(struct vb2_context *c) { return retval_vb2_fw_init_gbb; } vb2_error_t vb2_check_dev_switch(struct vb2_context *c) { if (force_dev_mode) sd->flags |= VB2_SD_FLAG_DEV_MODE_ENABLED; return retval_vb2_check_dev_switch; } vb2_error_t vb2_check_tpm_clear(struct vb2_context *c) { return retval_vb2_check_tpm_clear; } vb2_error_t vb2_select_fw_slot(struct vb2_context *c) { return retval_vb2_select_fw_slot; } vb2_error_t vb2_load_fw_keyblock(struct vb2_context *c) { return retval_vb2_load_fw_keyblock; } vb2_error_t vb2_load_fw_preamble(struct vb2_context *c) { return retval_vb2_load_fw_preamble; } vb2_error_t vb2_unpack_key_buffer(struct vb2_public_key *key, const uint8_t *buf, uint32_t size) { struct vb2_packed_key *k = (struct vb2_packed_key *)buf; if (size != sizeof(*k) + 8) return VB2_ERROR_UNPACK_KEY_SIZE; key->sig_alg = vb2_crypto_to_signature(k->algorithm); key->hash_alg = vb2_crypto_to_hash(k->algorithm); return VB2_SUCCESS; } vb2_error_t vb2ex_hwcrypto_digest_init(enum vb2_hash_algorithm hash_alg, uint32_t data_size) { switch (hwcrypto_state) { case HWCRYPTO_DISABLED: return VB2_ERROR_EX_HWCRYPTO_UNSUPPORTED; case HWCRYPTO_ENABLED: if (hash_alg != mock_hash_alg) return VB2_ERROR_SHA_INIT_ALGORITHM; else return VB2_SUCCESS; case HWCRYPTO_FORBIDDEN: default: return VB2_ERROR_UNKNOWN; } } vb2_error_t vb2ex_hwcrypto_digest_extend(const uint8_t *buf, uint32_t size) { if (hwcrypto_state != HWCRYPTO_ENABLED) return VB2_ERROR_UNKNOWN; return VB2_SUCCESS; } static void fill_digest(uint8_t *digest, uint32_t digest_size) { /* Set the result to a known value. */ memset(digest, 0x0a, digest_size); } vb2_error_t vb2ex_hwcrypto_digest_finalize(uint8_t *digest, uint32_t digest_size) { if (hwcrypto_state != HWCRYPTO_ENABLED) return VB2_ERROR_UNKNOWN; if (retval_vb2_digest_finalize == VB2_SUCCESS) fill_digest(digest, digest_size); return retval_vb2_digest_finalize; } vb2_error_t vb2_digest_init(struct vb2_digest_context *dc, enum vb2_hash_algorithm hash_alg) { if (hwcrypto_state == HWCRYPTO_ENABLED) return VB2_ERROR_UNKNOWN; if (hash_alg != mock_hash_alg) return VB2_ERROR_SHA_INIT_ALGORITHM; dc->hash_alg = hash_alg; dc->using_hwcrypto = 0; return VB2_SUCCESS; } vb2_error_t vb2_digest_extend(struct vb2_digest_context *dc, const uint8_t *buf, uint32_t size) { if (hwcrypto_state == HWCRYPTO_ENABLED) return VB2_ERROR_UNKNOWN; if (dc->hash_alg != mock_hash_alg) return VB2_ERROR_SHA_EXTEND_ALGORITHM; return VB2_SUCCESS; } vb2_error_t vb2_digest_finalize(struct vb2_digest_context *dc, uint8_t *digest, uint32_t digest_size) { if (hwcrypto_state == HWCRYPTO_ENABLED) return VB2_ERROR_UNKNOWN; if (retval_vb2_digest_finalize == VB2_SUCCESS) fill_digest(digest, digest_size); return retval_vb2_digest_finalize; } uint32_t vb2_rsa_sig_size(enum vb2_signature_algorithm sig_alg) { return mock_sig_size; } vb2_error_t vb2_rsa_verify_digest(const struct vb2_public_key *key, uint8_t *sig, const uint8_t *digest, const struct vb2_workbuf *wb) { return retval_vb2_verify_digest; } /* Tests */ static void misc_tests(void) { /* Test secdata_firmware passthru functions */ reset_common_data(FOR_MISC); /* Corrupt secdata_firmware so initial check will fail */ ctx->secdata_firmware[0] ^= 0x42; TEST_EQ(vb2api_secdata_firmware_check(ctx), VB2_ERROR_SECDATA_FIRMWARE_CRC, "secdata_firmware check"); TEST_EQ(vb2api_secdata_firmware_create(ctx), VB2_SECDATA_FIRMWARE_SIZE, "secdata_firmware create"); TEST_SUCC(vb2api_secdata_firmware_check(ctx), "secdata_firmware check 2"); /* Test fail passthru */ reset_common_data(FOR_MISC); vb2api_fail(ctx, 12, 34); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), 12, "vb2api_fail request"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_SUBCODE), 34, "vb2api_fail subcode"); } static void phase1_tests(void) { reset_common_data(FOR_MISC); TEST_SUCC(vb2api_fw_phase1(ctx), "phase1 good"); TEST_EQ(sd->recovery_reason, 0, " not recovery"); TEST_EQ(ctx->flags & VB2_CONTEXT_RECOVERY_MODE, 0, " recovery flag"); TEST_EQ(ctx->flags & VB2_CONTEXT_CLEAR_RAM, 0, " clear ram flag"); TEST_EQ(ctx->flags & VB2_CONTEXT_DISPLAY_INIT, 0, " display init context flag"); TEST_EQ(sd->flags & VB2_SD_FLAG_DISPLAY_AVAILABLE, 0, " display available SD flag"); reset_common_data(FOR_MISC); retval_vb2_fw_init_gbb = VB2_ERROR_GBB_MAGIC; TEST_EQ(vb2api_fw_phase1(ctx), VB2_ERROR_API_PHASE1_RECOVERY, "phase1 gbb"); TEST_EQ(sd->recovery_reason, VB2_RECOVERY_GBB_HEADER, " recovery reason"); TEST_NEQ(ctx->flags & VB2_CONTEXT_RECOVERY_MODE, 0, " recovery flag"); TEST_NEQ(ctx->flags & VB2_CONTEXT_CLEAR_RAM, 0, " clear ram flag"); /* Dev switch error in normal mode reboots to recovery */ reset_common_data(FOR_MISC); retval_vb2_check_dev_switch = VB2_ERROR_MOCK; TEST_EQ(vb2api_fw_phase1(ctx), VB2_ERROR_MOCK, "phase1 dev switch"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), VB2_RECOVERY_DEV_SWITCH, " recovery request"); /* Dev switch error already in recovery mode just proceeds */ reset_common_data(FOR_MISC); vb2_nv_set(ctx, VB2_NV_RECOVERY_REQUEST, VB2_RECOVERY_RO_UNSPECIFIED); retval_vb2_check_dev_switch = VB2_ERROR_MOCK; TEST_EQ(vb2api_fw_phase1(ctx), VB2_ERROR_API_PHASE1_RECOVERY, "phase1 dev switch error in recovery"); TEST_EQ(sd->recovery_reason, VB2_RECOVERY_RO_UNSPECIFIED, " recovery reason"); /* Check that DISPLAY_AVAILABLE gets set on recovery mode. */ TEST_NEQ(ctx->flags & VB2_CONTEXT_DISPLAY_INIT, 0, " display init context flag"); TEST_NEQ(sd->flags & VB2_SD_FLAG_DISPLAY_AVAILABLE, 0, " display available SD flag"); reset_common_data(FOR_MISC); ctx->secdata_firmware[0] ^= 0x42; TEST_EQ(vb2api_fw_phase1(ctx), VB2_ERROR_API_PHASE1_RECOVERY, "phase1 secdata_firmware"); TEST_EQ(sd->recovery_reason, VB2_RECOVERY_SECDATA_FIRMWARE_INIT, " recovery reason"); TEST_NEQ(ctx->flags & VB2_CONTEXT_RECOVERY_MODE, 0, " recovery flag"); TEST_NEQ(ctx->flags & VB2_CONTEXT_CLEAR_RAM, 0, " clear ram flag"); /* Test secdata_firmware-requested reboot */ reset_common_data(FOR_MISC); ctx->flags |= VB2_CONTEXT_SECDATA_WANTS_REBOOT; TEST_EQ(vb2api_fw_phase1(ctx), VB2_ERROR_API_PHASE1_SECDATA_REBOOT, "phase1 secdata_firmware reboot normal"); TEST_EQ(sd->recovery_reason, 0, " recovery reason"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_TPM_REQUESTED_REBOOT), 1, " tpm reboot request"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), 0, " recovery request"); reset_common_data(FOR_MISC); vb2_nv_set(ctx, VB2_NV_TPM_REQUESTED_REBOOT, 1); TEST_SUCC(vb2api_fw_phase1(ctx), "phase1 secdata_firmware reboot back normal"); TEST_EQ(sd->recovery_reason, 0, " recovery reason"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_TPM_REQUESTED_REBOOT), 0, " tpm reboot request"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), 0, " recovery request"); reset_common_data(FOR_MISC); ctx->flags |= VB2_CONTEXT_SECDATA_WANTS_REBOOT; memset(ctx->secdata_firmware, 0, sizeof(ctx->secdata_firmware)); TEST_EQ(vb2api_fw_phase1(ctx), VB2_ERROR_API_PHASE1_SECDATA_REBOOT, "phase1 secdata_firmware reboot normal, " "secdata_firmware blank"); TEST_EQ(sd->recovery_reason, 0, " recovery reason"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_TPM_REQUESTED_REBOOT), 1, " tpm reboot request"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), 0, " recovery request"); reset_common_data(FOR_MISC); ctx->flags |= VB2_CONTEXT_SECDATA_WANTS_REBOOT; vb2_nv_set(ctx, VB2_NV_TPM_REQUESTED_REBOOT, 1); TEST_EQ(vb2api_fw_phase1(ctx), VB2_ERROR_API_PHASE1_RECOVERY, "phase1 secdata_firmware reboot normal again"); TEST_EQ(sd->recovery_reason, VB2_RECOVERY_RO_TPM_REBOOT, " recovery reason"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_TPM_REQUESTED_REBOOT), 1, " tpm reboot request"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), 0, " recovery request"); reset_common_data(FOR_MISC); ctx->flags |= VB2_CONTEXT_SECDATA_WANTS_REBOOT; vb2_nv_set(ctx, VB2_NV_RECOVERY_REQUEST, VB2_RECOVERY_RO_UNSPECIFIED); TEST_EQ(vb2api_fw_phase1(ctx), VB2_ERROR_API_PHASE1_SECDATA_REBOOT, "phase1 secdata_firmware reboot recovery"); /* Recovery reason isn't set this boot because we're rebooting first */ TEST_EQ(sd->recovery_reason, 0, " recovery reason not set THIS boot"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_TPM_REQUESTED_REBOOT), 1, " tpm reboot request"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), VB2_RECOVERY_RO_UNSPECIFIED, " recovery request not cleared"); reset_common_data(FOR_MISC); vb2_nv_set(ctx, VB2_NV_TPM_REQUESTED_REBOOT, 1); vb2_nv_set(ctx, VB2_NV_RECOVERY_REQUEST, VB2_RECOVERY_RO_UNSPECIFIED); TEST_EQ(vb2api_fw_phase1(ctx), VB2_ERROR_API_PHASE1_RECOVERY, "phase1 secdata_firmware reboot back recovery"); TEST_EQ(sd->recovery_reason, VB2_RECOVERY_RO_UNSPECIFIED, " recovery reason"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_TPM_REQUESTED_REBOOT), 0, " tpm reboot request"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), 0, " recovery request cleared"); reset_common_data(FOR_MISC); ctx->flags |= VB2_CONTEXT_SECDATA_WANTS_REBOOT; vb2_nv_set(ctx, VB2_NV_TPM_REQUESTED_REBOOT, 1); vb2_nv_set(ctx, VB2_NV_RECOVERY_REQUEST, VB2_RECOVERY_RO_UNSPECIFIED); TEST_EQ(vb2api_fw_phase1(ctx), VB2_ERROR_API_PHASE1_RECOVERY, "phase1 secdata_firmware reboot recovery again"); TEST_EQ(sd->recovery_reason, VB2_RECOVERY_RO_UNSPECIFIED, " recovery reason"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_TPM_REQUESTED_REBOOT), 1, " tpm reboot request"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), 0, " recovery request cleared"); /* Cases for checking DISPLAY_INIT and DISPLAY_AVAILABLE. */ reset_common_data(FOR_MISC); ctx->flags |= VB2_CONTEXT_DISPLAY_INIT; TEST_SUCC(vb2api_fw_phase1(ctx), "phase1 with DISPLAY_INIT"); TEST_NEQ(ctx->flags & VB2_CONTEXT_DISPLAY_INIT, 0, " display init context flag"); TEST_NEQ(sd->flags & VB2_SD_FLAG_DISPLAY_AVAILABLE, 0, " display available SD flag"); reset_common_data(FOR_MISC); vb2_nv_set(ctx, VB2_NV_DISPLAY_REQUEST, 1); TEST_SUCC(vb2api_fw_phase1(ctx), "phase1 with DISPLAY_REQUEST"); TEST_NEQ(ctx->flags & VB2_CONTEXT_DISPLAY_INIT, 0, " display init context flag"); TEST_NEQ(sd->flags & VB2_SD_FLAG_DISPLAY_AVAILABLE, 0, " display available SD flag"); reset_common_data(FOR_MISC); force_dev_mode = 1; TEST_SUCC(vb2api_fw_phase1(ctx), "phase1 in dev mode"); TEST_NEQ(ctx->flags & VB2_CONTEXT_DISPLAY_INIT, 0, " display init context flag"); TEST_NEQ(sd->flags & VB2_SD_FLAG_DISPLAY_AVAILABLE, 0, " display available SD flag"); } static void phase2_tests(void) { reset_common_data(FOR_MISC); TEST_SUCC(vb2api_fw_phase2(ctx), "phase2 good"); TEST_EQ(ctx->flags & VB2_CONTEXT_CLEAR_RAM, 0, " clear ram flag"); TEST_EQ(ctx->flags & VB2_CONTEXT_FW_SLOT_B, 0, " slot b flag"); reset_common_data(FOR_MISC); ctx->flags |= VB2_CONTEXT_DEVELOPER_MODE; TEST_SUCC(vb2api_fw_phase2(ctx), "phase2 dev"); TEST_NEQ(ctx->flags & VB2_CONTEXT_CLEAR_RAM, 0, " clear ram flag"); reset_common_data(FOR_MISC); retval_vb2_check_tpm_clear = VB2_ERROR_MOCK; TEST_EQ(vb2api_fw_phase2(ctx), VB2_ERROR_MOCK, "phase2 tpm clear"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), VB2_RECOVERY_TPM_CLEAR_OWNER, " recovery reason"); reset_common_data(FOR_MISC); retval_vb2_select_fw_slot = VB2_ERROR_MOCK; TEST_EQ(vb2api_fw_phase2(ctx), VB2_ERROR_MOCK, "phase2 slot"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), VB2_RECOVERY_FW_SLOT, " recovery reason"); /* S3 resume exits before clearing RAM */ reset_common_data(FOR_MISC); ctx->flags |= VB2_CONTEXT_S3_RESUME; ctx->flags |= VB2_CONTEXT_DEVELOPER_MODE; TEST_SUCC(vb2api_fw_phase2(ctx), "phase2 s3 dev"); TEST_EQ(ctx->flags & VB2_CONTEXT_CLEAR_RAM, 0, " clear ram flag"); TEST_EQ(ctx->flags & VB2_CONTEXT_FW_SLOT_B, 0, " slot b flag"); reset_common_data(FOR_MISC); ctx->flags |= VB2_CONTEXT_S3_RESUME; vb2_nv_set(ctx, VB2_NV_FW_TRIED, 1); TEST_SUCC(vb2api_fw_phase2(ctx), "phase2 s3"); TEST_NEQ(ctx->flags & VB2_CONTEXT_FW_SLOT_B, 0, " slot b flag"); } static void get_pcr_digest_tests(void) { uint8_t digest[VB2_PCR_DIGEST_RECOMMENDED_SIZE]; uint8_t digest_org[VB2_PCR_DIGEST_RECOMMENDED_SIZE]; uint32_t digest_size; reset_common_data(FOR_MISC); memset(digest_org, 0, sizeof(digest_org)); digest_size = sizeof(digest); memset(digest, 0, sizeof(digest)); TEST_SUCC(vb2api_get_pcr_digest( ctx, BOOT_MODE_PCR, digest, &digest_size), "BOOT_MODE_PCR"); TEST_EQ(digest_size, VB2_SHA1_DIGEST_SIZE, "BOOT_MODE_PCR digest size"); TEST_TRUE(memcmp(digest, digest_org, digest_size), "BOOT_MODE_PCR digest"); digest_size = sizeof(digest); memset(digest, 0, sizeof(digest)); TEST_SUCC(vb2api_get_pcr_digest( ctx, HWID_DIGEST_PCR, digest, &digest_size), "HWID_DIGEST_PCR"); TEST_EQ(digest_size, VB2_GBB_HWID_DIGEST_SIZE, "HWID_DIGEST_PCR digest size"); TEST_FALSE(memcmp(digest, mock_hwid_digest, digest_size), "HWID_DIGEST_PCR digest"); digest_size = 1; TEST_EQ(vb2api_get_pcr_digest(ctx, BOOT_MODE_PCR, digest, &digest_size), VB2_ERROR_API_PCR_DIGEST_BUF, "BOOT_MODE_PCR buffer too small"); TEST_EQ(vb2api_get_pcr_digest( ctx, HWID_DIGEST_PCR + 1, digest, &digest_size), VB2_ERROR_API_PCR_DIGEST, "invalid enum vb2_pcr_digest"); } static void phase3_tests(void) { reset_common_data(FOR_MISC); TEST_SUCC(vb2api_fw_phase3(ctx), "phase3 good"); reset_common_data(FOR_MISC); retval_vb2_load_fw_keyblock = VB2_ERROR_MOCK; TEST_EQ(vb2api_fw_phase3(ctx), VB2_ERROR_MOCK, "phase3 keyblock"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), VB2_RECOVERY_RO_INVALID_RW, " recovery reason"); reset_common_data(FOR_MISC); retval_vb2_load_fw_preamble = VB2_ERROR_MOCK; TEST_EQ(vb2api_fw_phase3(ctx), VB2_ERROR_MOCK, "phase3 keyblock"); TEST_EQ(vb2_nv_get(ctx, VB2_NV_RECOVERY_REQUEST), VB2_RECOVERY_RO_INVALID_RW, " recovery reason"); } static void init_hash_tests(void) { struct vb2_packed_key *k; int wb_used_before; uint32_t size; /* For now, all we support is body signature hash */ reset_common_data(FOR_MISC); wb_used_before = sd->workbuf_used; TEST_SUCC(vb2api_init_hash(ctx, VB2_HASH_TAG_FW_BODY, &size), "init hash good"); TEST_EQ(sd->hash_offset, wb_used_before, "hash context offset"); TEST_EQ(sd->hash_size, sizeof(struct vb2_digest_context), "hash context size"); TEST_EQ(sd->workbuf_used, vb2_wb_round_up(sd->hash_offset + sd->hash_size), "hash uses workbuf"); TEST_EQ(sd->hash_tag, VB2_HASH_TAG_FW_BODY, "hash tag"); TEST_EQ(sd->hash_remaining_size, mock_body_size, "hash remaining"); wb_used_before = sd->workbuf_used; TEST_SUCC(vb2api_init_hash(ctx, VB2_HASH_TAG_FW_BODY, NULL), "init hash again"); TEST_EQ(sd->workbuf_used, wb_used_before, "init hash reuses context"); reset_common_data(FOR_MISC); TEST_EQ(vb2api_init_hash(ctx, VB2_HASH_TAG_INVALID, &size), VB2_ERROR_API_INIT_HASH_TAG, "init hash invalid tag"); reset_common_data(FOR_MISC); sd->preamble_size = 0; TEST_EQ(vb2api_init_hash(ctx, VB2_HASH_TAG_FW_BODY, &size), VB2_ERROR_API_INIT_HASH_PREAMBLE, "init hash preamble"); reset_common_data(FOR_MISC); TEST_EQ(vb2api_init_hash(ctx, VB2_HASH_TAG_FW_BODY + 1, &size), VB2_ERROR_API_INIT_HASH_TAG, "init hash unknown tag"); reset_common_data(FOR_MISC); sd->workbuf_used = sd->workbuf_size + VB2_WORKBUF_ALIGN - vb2_wb_round_up(sizeof(struct vb2_digest_context)); TEST_EQ(vb2api_init_hash(ctx, VB2_HASH_TAG_FW_BODY, &size), VB2_ERROR_API_INIT_HASH_WORKBUF, "init hash workbuf"); reset_common_data(FOR_MISC); sd->data_key_size = 0; TEST_EQ(vb2api_init_hash(ctx, VB2_HASH_TAG_FW_BODY, &size), VB2_ERROR_API_INIT_HASH_DATA_KEY, "init hash data key"); reset_common_data(FOR_MISC); sd->data_key_size--; TEST_EQ(vb2api_init_hash(ctx, VB2_HASH_TAG_FW_BODY, &size), VB2_ERROR_UNPACK_KEY_SIZE, "init hash data key size"); reset_common_data(FOR_MISC); k = vb2_member_of(sd, sd->data_key_offset); k->algorithm--; TEST_EQ(vb2api_init_hash(ctx, VB2_HASH_TAG_FW_BODY, &size), VB2_ERROR_SHA_INIT_ALGORITHM, "init hash algorithm"); } static void extend_hash_tests(void) { struct vb2_digest_context *dc; reset_common_data(FOR_EXTEND_HASH); TEST_SUCC(vb2api_extend_hash(ctx, mock_body, 32), "hash extend good"); TEST_EQ(sd->hash_remaining_size, mock_body_size - 32, "hash extend remaining"); TEST_SUCC(vb2api_extend_hash(ctx, mock_body, mock_body_size - 32), "hash extend again"); TEST_EQ(sd->hash_remaining_size, 0, "hash extend remaining 2"); reset_common_data(FOR_EXTEND_HASH); sd->hash_size = 0; TEST_EQ(vb2api_extend_hash(ctx, mock_body, mock_body_size), VB2_ERROR_API_EXTEND_HASH_WORKBUF, "hash extend no workbuf"); reset_common_data(FOR_EXTEND_HASH); TEST_EQ(vb2api_extend_hash(ctx, mock_body, mock_body_size + 1), VB2_ERROR_API_EXTEND_HASH_SIZE, "hash extend too much"); reset_common_data(FOR_EXTEND_HASH); TEST_EQ(vb2api_extend_hash(ctx, mock_body, 0), VB2_ERROR_API_EXTEND_HASH_SIZE, "hash extend empty"); if (hwcrypto_state != HWCRYPTO_ENABLED) { reset_common_data(FOR_EXTEND_HASH); dc = (struct vb2_digest_context *) vb2_member_of(sd, sd->hash_offset); dc->hash_alg = mock_hash_alg + 1; TEST_EQ(vb2api_extend_hash(ctx, mock_body, mock_body_size), VB2_ERROR_SHA_EXTEND_ALGORITHM, "hash extend fail"); } } static void check_hash_tests(void) { struct vb2_fw_preamble *pre; const uint32_t digest_value = 0x0a0a0a0a; reset_common_data(FOR_CHECK_HASH); TEST_SUCC(vb2api_check_hash(ctx), "check hash good"); reset_common_data(FOR_CHECK_HASH); TEST_SUCC(vb2api_check_hash_get_digest(ctx, digest_result, digest_result_size), "check hash good with result"); /* Check the first 4 bytes to ensure it was copied over. */ TEST_SUCC(memcmp(digest_result, &digest_value, sizeof(digest_value)), "check digest value"); reset_common_data(FOR_CHECK_HASH); TEST_EQ(vb2api_check_hash_get_digest(ctx, digest_result, digest_result_size - 1), VB2_ERROR_API_CHECK_DIGEST_SIZE, "check digest size"); TEST_NEQ(memcmp(digest_result, &digest_value, sizeof(digest_value)), 0, "check digest wrong size"); reset_common_data(FOR_CHECK_HASH); sd->preamble_size = 0; TEST_EQ(vb2api_check_hash(ctx), VB2_ERROR_API_CHECK_HASH_PREAMBLE, "check hash preamble"); reset_common_data(FOR_CHECK_HASH); sd->hash_size = 0; TEST_EQ(vb2api_check_hash(ctx), VB2_ERROR_API_CHECK_HASH_WORKBUF, "check hash no workbuf"); reset_common_data(FOR_CHECK_HASH); sd->hash_remaining_size = 1; TEST_EQ(vb2api_check_hash(ctx), VB2_ERROR_API_CHECK_HASH_SIZE, "check hash size"); reset_common_data(FOR_CHECK_HASH); sd->workbuf_used = sd->workbuf_size; TEST_EQ(vb2api_check_hash(ctx), VB2_ERROR_API_CHECK_HASH_WORKBUF_DIGEST, "check hash workbuf"); reset_common_data(FOR_CHECK_HASH); retval_vb2_digest_finalize = VB2_ERROR_MOCK; TEST_EQ(vb2api_check_hash(ctx), VB2_ERROR_MOCK, "check hash finalize"); reset_common_data(FOR_CHECK_HASH); sd->hash_tag = VB2_HASH_TAG_INVALID; TEST_EQ(vb2api_check_hash(ctx), VB2_ERROR_API_CHECK_HASH_TAG, "check hash tag"); reset_common_data(FOR_CHECK_HASH); sd->data_key_size = 0; TEST_EQ(vb2api_check_hash(ctx), VB2_ERROR_API_CHECK_HASH_DATA_KEY, "check hash data key"); reset_common_data(FOR_CHECK_HASH); sd->data_key_size--; TEST_EQ(vb2api_check_hash(ctx), VB2_ERROR_UNPACK_KEY_SIZE, "check hash data key size"); reset_common_data(FOR_CHECK_HASH); pre = vb2_member_of(sd, sd->preamble_offset); pre->body_signature.sig_size++; TEST_EQ(vb2api_check_hash(ctx), VB2_ERROR_VDATA_SIG_SIZE, "check hash sig size"); reset_common_data(FOR_CHECK_HASH); retval_vb2_digest_finalize = VB2_ERROR_RSA_VERIFY_DIGEST; TEST_EQ(vb2api_check_hash(ctx), VB2_ERROR_RSA_VERIFY_DIGEST, "check hash finalize"); } int main(int argc, char* argv[]) { misc_tests(); phase1_tests(); phase2_tests(); phase3_tests(); fprintf(stderr, "Running hash API tests without hwcrypto support...\n"); hwcrypto_state = HWCRYPTO_DISABLED; init_hash_tests(); extend_hash_tests(); check_hash_tests(); fprintf(stderr, "Running hash API tests with hwcrypto support...\n"); hwcrypto_state = HWCRYPTO_ENABLED; init_hash_tests(); extend_hash_tests(); check_hash_tests(); fprintf(stderr, "Running hash API tests with forbidden hwcrypto...\n"); hwcrypto_state = HWCRYPTO_FORBIDDEN; init_hash_tests(); extend_hash_tests(); check_hash_tests(); get_pcr_digest_tests(); return gTestSuccess ? 0 : 255; }