/* Copyright 2022 The ChromiumOS Authors * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. * * Tests for using vb2api_inject_kernel_subkey with vb2api_load_kernel. */ #include "2api.h" #include "2common.h" #include "2misc.h" #include "2nvstorage.h" #include "2secdata.h" #include "2secdata_struct.h" #include "cgptlib.h" #include "cgptlib_internal.h" #include "common/tests.h" #include "gpt.h" #include "vboot_api.h" /* Mock kernel partition */ struct mock_part { uint32_t start; uint32_t size; }; /* Partition list; ends with a 0-size partition. */ #define MOCK_PART_COUNT 8 static struct mock_part mock_parts[MOCK_PART_COUNT]; static int mock_part_next; /* Mock data */ static uint8_t kernel_buffer[80000]; static int disk_read_to_fail; static int keyblock_verify_fail; /* 0=ok, 1=sig, 2=hash */ static int preamble_verify_fail; static int verify_data_fail; static int unpack_key_fail; static int gpt_flag_external; static struct vb2_kernel_params lkp; static struct vb2_disk_info disk_info; static struct vb2_keyblock kbh; static struct vb2_kernel_preamble kph; static uint8_t workbuf[VB2_KERNEL_WORKBUF_RECOMMENDED_SIZE] __attribute__((aligned(VB2_WORKBUF_ALIGN))); static struct vb2_context *ctx; static struct vb2_shared_data *sd; static uint8_t kernel_packed_key_data[sizeof(struct vb2_packed_key) + 32]; /** * Reset mock data (for use before each test) */ static void ResetMocks(void) { struct vb2_packed_key *kernel_packed_key; disk_read_to_fail = -1; keyblock_verify_fail = 0; preamble_verify_fail = 0; verify_data_fail = 0; unpack_key_fail = 0; gpt_flag_external = 0; memset(&lkp, 0, sizeof(lkp)); lkp.kernel_buffer = kernel_buffer; lkp.kernel_buffer_size = sizeof(kernel_buffer); memset(&disk_info, 0, sizeof(disk_info)); disk_info.bytes_per_lba = 512; disk_info.streaming_lba_count = 1024; disk_info.lba_count = 1024; disk_info.handle = (vb2ex_disk_handle_t)1; memset(&kbh, 0, sizeof(kbh)); kbh.data_key.key_version = 2; kbh.keyblock_flags = -1; kbh.keyblock_size = sizeof(kbh); memset(&kph, 0, sizeof(kph)); kph.kernel_version = 1; kph.preamble_size = 4096 - kbh.keyblock_size; kph.body_signature.data_size = 70144; kph.bootloader_address = 0xbeadd008; kph.bootloader_size = 0x1234; memset(mock_parts, 0, sizeof(mock_parts)); mock_parts[0].start = 100; mock_parts[0].size = 150; /* 75 KB */ mock_part_next = 0; memset(&kernel_packed_key_data, 0, sizeof(kernel_packed_key_data)); kernel_packed_key = (struct vb2_packed_key *)kernel_packed_key_data; kernel_packed_key->key_offset = sizeof(struct vb2_packed_key); kernel_packed_key->key_size = sizeof(kernel_packed_key_data) - sizeof(struct vb2_packed_key); kernel_packed_key->algorithm = VB2_ALG_RSA4096_SHA256; kernel_packed_key->key_version = 0; TEST_SUCC(vb2api_init(workbuf, sizeof(workbuf), &ctx), "vb2api_init failed"); sd = vb2_get_sd(ctx); } /* Mocks */ vb2_error_t VbExDiskRead(vb2ex_disk_handle_t h, uint64_t lba_start, uint64_t lba_count, void *buffer) { if ((int)lba_start == disk_read_to_fail) return VB2_ERROR_MOCK; return VB2_SUCCESS; } int AllocAndReadGptData(vb2ex_disk_handle_t disk_handle, GptData *gptdata) { return GPT_SUCCESS; } int GptInit(GptData *gpt) { return GPT_SUCCESS; } int GptNextKernelEntry(GptData *gpt, uint64_t *start_sector, uint64_t *size) { struct mock_part *p = mock_parts + mock_part_next; if (!p->size) return GPT_ERROR_NO_VALID_KERNEL; if (gpt->flags & GPT_FLAG_EXTERNAL) gpt_flag_external++; gpt->current_kernel = mock_part_next; *start_sector = p->start; *size = p->size; mock_part_next++; return GPT_SUCCESS; } int GptUpdateKernelEntry(GptData *gpt, uint32_t update_type) { return GPT_SUCCESS; } int WriteAndFreeGptData(vb2ex_disk_handle_t disk_handle, GptData *gptdata) { return GPT_SUCCESS; } void GetCurrentKernelUniqueGuid(GptData *gpt, void *dest) { static const char fake_guid[] = "FakeGuid"; memcpy(dest, fake_guid, sizeof(fake_guid)); } vb2_error_t vb2_unpack_key_buffer(struct vb2_public_key *key, const uint8_t *buf, uint32_t size) { if (--unpack_key_fail == 0) return VB2_ERROR_MOCK; return VB2_SUCCESS; } vb2_error_t vb2_verify_keyblock(struct vb2_keyblock *block, uint32_t size, const struct vb2_public_key *key, const struct vb2_workbuf *wb) { if (keyblock_verify_fail >= 1) return VB2_ERROR_MOCK; /* Use this as an opportunity to override the keyblock */ memcpy((void *)block, &kbh, sizeof(kbh)); return VB2_SUCCESS; } vb2_error_t vb2_verify_keyblock_hash(const struct vb2_keyblock *block, uint32_t size, const struct vb2_workbuf *wb) { if (keyblock_verify_fail >= 2) return VB2_ERROR_MOCK; /* Use this as an opportunity to override the keyblock */ memcpy((void *)block, &kbh, sizeof(kbh)); return VB2_SUCCESS; } vb2_error_t vb2_verify_kernel_preamble(struct vb2_kernel_preamble *preamble, uint32_t size, const struct vb2_public_key *key, const struct vb2_workbuf *wb) { if (preamble_verify_fail) return VB2_ERROR_MOCK; /* Use this as an opportunity to override the preamble */ memcpy((void *)preamble, &kph, sizeof(kph)); return VB2_SUCCESS; } vb2_error_t vb2_verify_data(const uint8_t *data, uint32_t size, struct vb2_signature *sig, const struct vb2_public_key *key, const struct vb2_workbuf *wb) { if (verify_data_fail) return VB2_ERROR_MOCK; return VB2_SUCCESS; } /* Make sure nothing tested here ever calls this directly. */ void vb2api_fail(struct vb2_context *c, uint8_t reason, uint8_t subcode) { TEST_TRUE(0, " called vb2api fail"); } static void test_load_kernel(vb2_error_t expect_retval, const char *test_name) { TEST_SUCC(vb2api_inject_kernel_subkey(ctx, kernel_packed_key_data, sizeof(kernel_packed_key_data)), "vb2api_inject_kernel_subkey failed"); TEST_EQ(vb2api_load_kernel(ctx, &lkp, &disk_info), expect_retval, test_name); if (expect_retval == VB2_SUCCESS) TEST_PTR_EQ(lkp.disk_handle, disk_info.handle, " fill disk_handle when success"); } /* These tests are copied from tests/vb2_load_kernel_tests.c, but with * tests that rely on vb2_secdata_fwmp excluded. */ static void load_kernel_tests(void) { ResetMocks(); test_load_kernel(VB2_SUCCESS, "First kernel good"); TEST_EQ(lkp.partition_number, 1, " part num"); TEST_EQ(lkp.bootloader_offset, 0xbeadd008, " bootloader offset"); TEST_EQ(lkp.bootloader_size, 0x1234, " bootloader size"); TEST_STR_EQ((char *)lkp.partition_guid, "FakeGuid", " guid"); TEST_EQ(gpt_flag_external, 0, "GPT was internal"); TEST_NEQ(sd->flags & VB2_SD_FLAG_KERNEL_SIGNED, 0, " use signature"); ResetMocks(); /* Make the version match kernel_version_secdata so that the search stops at the first valid partition. */ kbh.data_key.key_version = 0; kph.kernel_version = 0; mock_parts[1].start = 300; mock_parts[1].size = 150; test_load_kernel(VB2_SUCCESS, "Two good kernels"); TEST_EQ(lkp.partition_number, 1, " part num"); TEST_EQ(mock_part_next, 1, " didn't read second one"); /* Fail if no kernels found */ ResetMocks(); mock_parts[0].size = 0; test_load_kernel(VB2_ERROR_LK_NO_KERNEL_FOUND, "No kernels"); /* Skip kernels which are too small */ ResetMocks(); mock_parts[0].size = 10; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Too small"); ResetMocks(); disk_read_to_fail = 100; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Fail reading kernel start"); ResetMocks(); keyblock_verify_fail = 1; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Fail key block sig"); /* Check keyblock flags */ ResetMocks(); kbh.keyblock_flags = VB2_KEYBLOCK_FLAG_RECOVERY_0 | VB2_KEYBLOCK_FLAG_DEVELOPER_1 | VB2_KEYBLOCK_FLAG_MINIOS_0; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Keyblock dev flag mismatch"); ResetMocks(); kbh.keyblock_flags = VB2_KEYBLOCK_FLAG_RECOVERY_1 | VB2_KEYBLOCK_FLAG_DEVELOPER_0 | VB2_KEYBLOCK_FLAG_MINIOS_0; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Keyblock rec flag mismatch"); ResetMocks(); kbh.keyblock_flags = VB2_KEYBLOCK_FLAG_RECOVERY_0 | VB2_KEYBLOCK_FLAG_DEVELOPER_0 | VB2_KEYBLOCK_FLAG_MINIOS_1; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Keyblock minios flag mismatch"); ResetMocks(); kbh.data_key.key_version = 0x10000; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Keyblock kernel key version too big"); ResetMocks(); kbh.data_key.key_version = 3; test_load_kernel(VB2_SUCCESS, "Keyblock version roll forward"); TEST_EQ(sd->kernel_version, 0x30001, " SD version"); ResetMocks(); kbh.data_key.key_version = 3; mock_parts[1].start = 300; mock_parts[1].size = 150; test_load_kernel(VB2_SUCCESS, "Two kernels roll forward"); TEST_EQ(mock_part_next, 2, " read both"); TEST_EQ(sd->kernel_version, 0x30001, " SD version"); ResetMocks(); unpack_key_fail = 2; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Bad data key"); ResetMocks(); preamble_verify_fail = 1; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Bad preamble"); ResetMocks(); kph.preamble_size |= 0x07; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Kernel body offset"); ResetMocks(); kph.preamble_size += 65536; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Kernel body offset huge"); /* Check getting kernel load address from header */ ResetMocks(); kph.body_load_address = (size_t)kernel_buffer; lkp.kernel_buffer = NULL; test_load_kernel(VB2_SUCCESS, "Get load address from preamble"); TEST_PTR_EQ(lkp.kernel_buffer, kernel_buffer, " address"); /* Size is rounded up to nearest sector */ TEST_EQ(lkp.kernel_buffer_size, 70144, " size"); ResetMocks(); lkp.kernel_buffer_size = 8192; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Kernel too big for buffer"); ResetMocks(); mock_parts[0].size = 130; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Kernel too big for partition"); ResetMocks(); kph.body_signature.data_size = 8192; test_load_kernel(VB2_SUCCESS, "Kernel tiny"); ResetMocks(); disk_read_to_fail = 228; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Fail reading kernel data"); ResetMocks(); verify_data_fail = 1; test_load_kernel(VB2_ERROR_LK_INVALID_KERNEL_FOUND, "Bad data"); /* Check that EXTERNAL_GPT flag makes it down */ ResetMocks(); disk_info.flags |= VB2_DISK_FLAG_EXTERNAL_GPT; test_load_kernel(VB2_SUCCESS, "Succeed external GPT"); TEST_EQ(gpt_flag_external, 1, "GPT was external"); /* Check recovery from unreadble primary GPT */ ResetMocks(); disk_read_to_fail = 1; test_load_kernel(VB2_SUCCESS, "Can't read disk"); } int main(void) { load_kernel_tests(); return gTestSuccess ? 0 : 255; }