/* Copyright (c) 2013 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 vboot_api_kernel.c */ #include #include #include #include #include "gbb_header.h" #include "host_common.h" #include "load_kernel_fw.h" #include "test_common.h" #include "vboot_api.h" #include "vboot_common.h" #include "vboot_kernel.h" #include "vboot_nvstorage.h" #include "vboot_struct.h" /* Mock data */ static VbCommonParams cparams; static VbSelectAndLoadKernelParams kparams; static uint8_t shared_data[VB_SHARED_DATA_MIN_SIZE]; static VbSharedDataHeader *shared = (VbSharedDataHeader *)shared_data; static GoogleBinaryBlockHeader gbb; static uint8_t kernel_buffer[80000]; static int key_block_verify_fail; /* 0=ok, 1=sig, 2=hash */ static int preamble_verify_fail; static int verify_data_fail; static RSAPublicKey *mock_data_key; static int mock_data_key_allocated; static VbNvContext vnc; static VbKeyBlockHeader kbh; static VbKernelPreambleHeader kph; static int hash_only_check; /** * Reset mock data (for use before each test) */ static void ResetMocks(void) { Memset(&cparams, 0, sizeof(cparams)); cparams.shared_data_size = sizeof(shared_data); cparams.shared_data_blob = shared_data; cparams.gbb_data = &gbb; cparams.gbb_size = sizeof(gbb); Memset(&kparams, 0, sizeof(kparams)); Memset(&gbb, 0, sizeof(gbb)); gbb.major_version = GBB_MAJOR_VER; gbb.minor_version = GBB_MINOR_VER; gbb.flags = 0; memset(&vnc, 0, sizeof(vnc)); VbNvSetup(&vnc); VbNvTeardown(&vnc); /* So CRC gets generated */ memset(&shared_data, 0, sizeof(shared_data)); VbSharedDataInit(shared, sizeof(shared_data)); key_block_verify_fail = 0; preamble_verify_fail = 0; verify_data_fail = 0; mock_data_key = (RSAPublicKey *)"TestDataKey"; mock_data_key_allocated = 0; memset(&kbh, 0, sizeof(kbh)); kbh.data_key.key_version = 2; kbh.key_block_flags = -1; kbh.key_block_size = sizeof(kbh); memset(&kph, 0, sizeof(kph)); kph.kernel_version = 1; kph.preamble_size = 4096 - kbh.key_block_size; kph.body_signature.data_size = 70144; kph.bootloader_address = 0xbeadd008; kph.bootloader_size = 0x1234; memcpy(kernel_buffer, &kbh, sizeof(kbh)); memcpy((kernel_buffer + kbh.key_block_size), &kph, sizeof(kph)); hash_only_check = -1; } static void copy_kbh(void) { memcpy(kernel_buffer, &kbh, sizeof(kbh)); } /* Mocks */ int KeyBlockVerify(const VbKeyBlockHeader *block, uint64_t size, const VbPublicKey *key, int hash_only) { hash_only_check = hash_only; if (key_block_verify_fail) return VBERROR_SIMULATED; /* Use this as an opportunity to override the key block */ memcpy((void *)block, &kbh, sizeof(kbh)); return VBERROR_SUCCESS; } RSAPublicKey *PublicKeyToRSA(const VbPublicKey *key) { TEST_EQ(mock_data_key_allocated, 0, " mock data key not allocated"); if (mock_data_key) mock_data_key_allocated++; return mock_data_key; } void RSAPublicKeyFree(RSAPublicKey* key) { TEST_EQ(mock_data_key_allocated, 1, " mock data key allocated"); TEST_PTR_EQ(key, mock_data_key, " data key ptr"); mock_data_key_allocated--; } int VerifyKernelPreamble(const VbKernelPreambleHeader *preamble, uint64_t size, const RSAPublicKey *key) { if (preamble_verify_fail) return VBERROR_SIMULATED; /* Use this as an opportunity to override the preamble */ memcpy((void *)preamble, &kph, sizeof(kph)); return VBERROR_SUCCESS; } int VerifyData(const uint8_t *data, uint64_t size, const VbSignature *sig, const RSAPublicKey *key) { if (verify_data_fail) return VBERROR_SIMULATED; return VBERROR_SUCCESS; } VbError_t VbExNvStorageRead(uint8_t *buf) { Memcpy(buf, vnc.raw, sizeof(vnc.raw)); return VBERROR_SUCCESS; } static void VerifyMemoryBootImageTest(void) { uint32_t u; int kernel_body_offset; int kernel_body_size; uintptr_t kernel_body_start; size_t kernel_buffer_size = sizeof(kernel_buffer); ResetMocks(); kernel_body_offset = kbh.key_block_size + kph.preamble_size; kernel_body_size = sizeof(kernel_buffer) - kernel_body_offset; kernel_body_start = (uintptr_t)kernel_buffer + kernel_body_offset; u = VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size); TEST_EQ(u, 0, "Image good"); TEST_EQ(kparams.partition_number, 0, " part num"); TEST_EQ(kparams.bootloader_address, 0xbeadd008, " bootloader addr"); TEST_EQ(kparams.bootloader_size, 0x1234, " bootloader size"); TEST_PTR_EQ(kparams.kernel_buffer, (void *)(kernel_body_start), " kernel buffer"); TEST_EQ(kparams.kernel_buffer_size, kernel_body_size, " kernel buffer size"); /* Empty image buffer. */ ResetMocks(); TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, NULL, kernel_buffer_size), VBERROR_INVALID_PARAMETER, "Empty image"); /* Illegal image size. */ ResetMocks(); TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, 0), VBERROR_INVALID_PARAMETER, "Illegal image size"); /* Key Block Verification Failure */ ResetMocks(); key_block_verify_fail = 1; TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size), VBERROR_INVALID_KERNEL_FOUND, "Key verify failed"); TEST_EQ(hash_only_check, 0, " hash check"); /* Key Block Hash Failure */ ResetMocks(); shared->flags = VBSD_BOOT_DEV_SWITCH_ON; gbb.flags = GBB_FLAG_FORCE_DEV_BOOT_FASTBOOT_FULL_CAP; key_block_verify_fail = 1; TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size), VBERROR_INVALID_KERNEL_FOUND, "Key verify failed"); TEST_EQ(hash_only_check, 1, " hash check"); /* Key Block Hash Failure -- VBNV */ ResetMocks(); shared->flags = VBSD_BOOT_DEV_SWITCH_ON; key_block_verify_fail = 1; VbNvSet(&vnc, VBNV_DEV_BOOT_FASTBOOT_FULL_CAP, 1); VbNvTeardown(&vnc); TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size), VBERROR_INVALID_KERNEL_FOUND, "Key verify failed"); TEST_EQ(hash_only_check, 1, " hash check -- VBNV flag"); /* Developer flag mismatch - dev switch on */ ResetMocks(); kbh.key_block_flags = KEY_BLOCK_FLAG_DEVELOPER_0 | KEY_BLOCK_FLAG_RECOVERY_1; copy_kbh(); shared->flags = VBSD_BOOT_DEV_SWITCH_ON; TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size), VBERROR_INVALID_KERNEL_FOUND, "Developer flag mismatch - dev switch on"); /* Developer flag mismatch - dev switch on with GBB override */ ResetMocks(); kbh.key_block_flags = KEY_BLOCK_FLAG_DEVELOPER_0 | KEY_BLOCK_FLAG_RECOVERY_1; copy_kbh(); gbb.flags = GBB_FLAG_FORCE_DEV_BOOT_FASTBOOT_FULL_CAP; shared->flags = VBSD_BOOT_DEV_SWITCH_ON; TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size), VBERROR_SUCCESS, "Developer flag mismatch - dev switch on(gbb override)"); /* Recovery flag mismatch - dev switch on with GBB override */ ResetMocks(); kbh.key_block_flags = KEY_BLOCK_FLAG_DEVELOPER_0 | KEY_BLOCK_FLAG_RECOVERY_0; copy_kbh(); shared->flags = VBSD_BOOT_DEV_SWITCH_ON; gbb.flags = GBB_FLAG_FORCE_DEV_BOOT_FASTBOOT_FULL_CAP; TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size), VBERROR_SUCCESS, "Recovery flag mismatch - dev switch on(gbb override)"); /* Developer flag mismatch - dev switch off */ ResetMocks(); kbh.key_block_flags = KEY_BLOCK_FLAG_DEVELOPER_1 | KEY_BLOCK_FLAG_RECOVERY_1; copy_kbh(); TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size), VBERROR_INVALID_KERNEL_FOUND, "Developer flag mismatch - dev switch off"); /* Recovery flag mismatch */ ResetMocks(); kbh.key_block_flags = KEY_BLOCK_FLAG_DEVELOPER_0 | KEY_BLOCK_FLAG_RECOVERY_0; shared->flags = 0; copy_kbh(); TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size), VBERROR_INVALID_KERNEL_FOUND, "Recovery flag mismatch"); /* Preamble verification */ ResetMocks(); preamble_verify_fail = 1; TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size), VBERROR_INVALID_KERNEL_FOUND, "Preamble verification"); /* Data verification */ ResetMocks(); verify_data_fail = 1; TEST_EQ(VbVerifyMemoryBootImage(&cparams, &kparams, kernel_buffer, kernel_buffer_size), VBERROR_INVALID_KERNEL_FOUND, "Data verification"); } int main(void) { VerifyMemoryBootImageTest(); if (vboot_api_stub_check_memory()) return 255; return gTestSuccess ? 0 : 255; }