/* Copyright 2020 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 crossystem flashrom-based nvdata functions. */ #include #include #include #include #include #include #include "2api.h" #include "2common.h" #include "2constants.h" #include "2nvstorage.h" #include "2return_codes.h" #include "crossystem_vbnv.h" #include "flashrom.h" #include "test_common.h" /* Mocked flashrom only supports host programmer, and RW_NVRAM region. */ static void assert_mock_params(const char *programmer, const char *region) { TEST_STR_EQ(programmer, FLASHROM_PROGRAMMER_INTERNAL_AP, "Using internal AP programmer"); TEST_STR_EQ(region, "RW_NVRAM", "Using NVRAM region"); } static bool mock_flashrom_fail; /* To support both 16-byte and 64-byte nvdata with the same fake eeprom, we can size the flash chip to be 16x64. So, for 16-byte nvdata, this is a flash chip with 64 entries, and for 64-byte nvdata, this is a flash chip with 16 entries. */ static uint8_t fake_flash_region[VB2_NVDATA_SIZE * VB2_NVDATA_SIZE_V2]; static int fake_flash_entry_count; static const uint8_t test_nvdata_16b[] = { 0x60, 0x10, 0x00, 0x00, 0x00, 0x02, 0x00, 0x4e, 0x00, 0xfe, 0xff, 0x00, 0x00, 0xff, 0xff, 0x5e, }; static const uint8_t test_nvdata2_16b[] = { 0x60, 0x10, 0x00, 0x00, 0x00, 0x02, 0x00, 0x4c, 0x00, 0xfe, 0xff, 0x00, 0x00, 0xff, 0xff, 0x78, }; static void reset_test_data(struct vb2_context *ctx, int nvdata_size) { /* Initialize the context value. */ ctx->flags = 0; switch (nvdata_size) { case VB2_NVDATA_SIZE: fake_flash_entry_count = VB2_NVDATA_SIZE_V2; memcpy(ctx->nvdata, test_nvdata_16b, sizeof(test_nvdata_16b)); break; case VB2_NVDATA_SIZE_V2: ctx->flags |= VB2_CONTEXT_NVDATA_V2; fake_flash_entry_count = VB2_NVDATA_SIZE; /* TODO: create some test data for 64-byte nvdata and put it here. Right now, this only tests 16-byte nvdata. */ break; default: /* This is not valid. */ TEST_TRUE(false, "Test failed, invalid nvdata size"); fake_flash_entry_count = 0; break; } /* Clear the fake flash chip. */ memset(fake_flash_region, 0xff, sizeof(fake_flash_region)); /* Flashrom succeeds unless the test says otherwise. */ mock_flashrom_fail = false; } /* Mocked flashrom_read for tests. */ vb2_error_t flashrom_read(const char *programmer, const char *region, uint8_t **data_out, uint32_t *size_out) { if (mock_flashrom_fail) { *data_out = NULL; *size_out = 0; return VB2_ERROR_FLASHROM; } assert_mock_params(programmer, region); *data_out = malloc(sizeof(fake_flash_region)); *size_out = sizeof(fake_flash_region); memcpy(*data_out, fake_flash_region, sizeof(fake_flash_region)); return VB2_SUCCESS; } /* Mocked flashrom_write for tests. */ vb2_error_t flashrom_write(const char *programmer, const char *region, uint8_t *data, uint32_t data_size) { if (mock_flashrom_fail) return VB2_ERROR_FLASHROM; assert_mock_params(programmer, region); TEST_EQ(data_size, sizeof(fake_flash_region), "The flash size is correct"); memcpy(fake_flash_region, data, data_size); return VB2_SUCCESS; } static void test_read_ok_beginning(void) { struct vb2_context ctx; reset_test_data(&ctx, sizeof(test_nvdata_16b)); memcpy(fake_flash_region, test_nvdata2_16b, sizeof(test_nvdata2_16b)); TEST_EQ(vb2_read_nv_storage_flashrom(&ctx), 0, "Reading storage succeeds"); TEST_EQ(memcmp(ctx.nvdata, test_nvdata2_16b, sizeof(test_nvdata2_16b)), 0, "The nvdata in the vb2_context was updated from flash"); } static void test_read_ok_2ndentry(void) { struct vb2_context ctx; reset_test_data(&ctx, sizeof(test_nvdata_16b)); memcpy(fake_flash_region, test_nvdata_16b, sizeof(test_nvdata_16b)); memcpy(fake_flash_region + VB2_NVDATA_SIZE, test_nvdata2_16b, sizeof(test_nvdata2_16b)); TEST_EQ(vb2_read_nv_storage_flashrom(&ctx), 0, "Reading storage succeeds"); TEST_EQ(memcmp(ctx.nvdata, test_nvdata2_16b, sizeof(test_nvdata2_16b)), 0, "The nvdata in the vb2_context was updated from flash"); } static void test_read_ok_full(void) { struct vb2_context ctx; reset_test_data(&ctx, sizeof(test_nvdata_16b)); for (int entry = 0; entry < fake_flash_entry_count - 1; entry++) memcpy(fake_flash_region + (entry * VB2_NVDATA_SIZE), test_nvdata_16b, sizeof(test_nvdata_16b)); memcpy(fake_flash_region + ((fake_flash_entry_count - 1) * VB2_NVDATA_SIZE), test_nvdata2_16b, sizeof(test_nvdata2_16b)); TEST_EQ(vb2_read_nv_storage_flashrom(&ctx), 0, "Reading storage succeeds"); TEST_EQ(memcmp(ctx.nvdata, test_nvdata2_16b, sizeof(test_nvdata2_16b)), 0, "The nvdata in the vb2_context was updated from flash"); } static void test_read_fail_uninitialized(void) { struct vb2_context ctx; reset_test_data(&ctx, sizeof(test_nvdata_16b)); TEST_NEQ(vb2_read_nv_storage_flashrom(&ctx), 0, "Reading storage fails when flash is erased"); } static void test_read_fail_flashrom(void) { struct vb2_context ctx; reset_test_data(&ctx, sizeof(test_nvdata_16b)); memcpy(fake_flash_region, test_nvdata_16b, sizeof(test_nvdata_16b)); mock_flashrom_fail = true; TEST_NEQ(vb2_read_nv_storage_flashrom(&ctx), 0, "Reading storage fails when flashrom fails"); } static void test_write_ok_beginning(void) { struct vb2_context ctx; reset_test_data(&ctx, sizeof(test_nvdata_16b)); memcpy(fake_flash_region, test_nvdata_16b, sizeof(test_nvdata_16b)); memcpy(ctx.nvdata, test_nvdata2_16b, sizeof(test_nvdata2_16b)); TEST_EQ(vb2_write_nv_storage_flashrom(&ctx), 0, "Writing storage succeeds"); TEST_EQ(memcmp(fake_flash_region + VB2_NVDATA_SIZE, test_nvdata2_16b, sizeof(test_nvdata2_16b)), 0, "The flash was updated with a new entry"); } static void test_write_ok_2ndentry(void) { struct vb2_context ctx; reset_test_data(&ctx, sizeof(test_nvdata_16b)); memcpy(fake_flash_region, test_nvdata_16b, sizeof(test_nvdata_16b)); memcpy(fake_flash_region + VB2_NVDATA_SIZE, test_nvdata_16b, sizeof(test_nvdata_16b)); memcpy(ctx.nvdata, test_nvdata2_16b, sizeof(test_nvdata2_16b)); TEST_EQ(vb2_write_nv_storage_flashrom(&ctx), 0, "Writing storage succeeds"); TEST_EQ(memcmp(fake_flash_region + (2 * VB2_NVDATA_SIZE), test_nvdata2_16b, sizeof(test_nvdata2_16b)), 0, "The flash was updated with a new entry"); } static void test_write_ok_full(void) { struct vb2_context ctx; uint8_t expected_flash[sizeof(fake_flash_region)]; reset_test_data(&ctx, sizeof(test_nvdata_16b)); for (int entry = 0; entry < fake_flash_entry_count; entry++) memcpy(fake_flash_region + (entry * VB2_NVDATA_SIZE), test_nvdata_16b, sizeof(test_nvdata_16b)); memcpy(expected_flash, test_nvdata2_16b, sizeof(test_nvdata2_16b)); memset(expected_flash + VB2_NVDATA_SIZE, 0xff, sizeof(expected_flash) - VB2_NVDATA_SIZE); memcpy(ctx.nvdata, test_nvdata2_16b, sizeof(test_nvdata2_16b)); TEST_EQ(vb2_write_nv_storage_flashrom(&ctx), 0, "Writing storage succeeds"); TEST_EQ(memcmp(fake_flash_region, expected_flash, sizeof(expected_flash)), 0, "The flash was erased and the new entry was placed at " "the beginning"); } static void test_write_fail_uninitialized(void) { struct vb2_context ctx; reset_test_data(&ctx, sizeof(test_nvdata_16b)); TEST_NEQ(vb2_write_nv_storage_flashrom(&ctx), 0, "Writing storage fails when the flash is erased"); } static void test_write_fail_flashrom(void) { struct vb2_context ctx; reset_test_data(&ctx, sizeof(test_nvdata_16b)); memcpy(fake_flash_region, test_nvdata_16b, sizeof(test_nvdata_16b)); mock_flashrom_fail = true; TEST_NEQ(vb2_write_nv_storage_flashrom(&ctx), 0, "Writing storage fails when flashrom fails"); } int main(int argc, char *argv[]) { test_read_ok_beginning(); test_read_ok_2ndentry(); test_read_ok_full(); test_read_fail_uninitialized(); test_read_fail_flashrom(); test_write_ok_beginning(); test_write_ok_2ndentry(); test_write_ok_full(); test_write_fail_uninitialized(); test_write_fail_flashrom(); return gTestSuccess ? 0 : 255; }