tests: Add lib/region_file-test test case

Signed-off-by: Jakub Czapiga <jacz@semihalf.com>
Change-Id: Ic48e52a97b18d55fd983315f25dc972f472cc473
Reviewed-on: https://review.coreboot.org/c/coreboot/+/49669
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Patrick Georgi <pgeorgi@google.com>
This commit is contained in:
Jakub Czapiga 2021-01-07 09:24:33 +01:00 committed by Patrick Georgi
parent 5ff17ed393
commit eb6f80d049
3 changed files with 1424 additions and 0 deletions

File diff suppressed because it is too large Load Diff

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@ -12,6 +12,7 @@ tests-y += list-test
tests-y += fmap-test
tests-y += imd_cbmem-romstage-test
tests-y += imd_cbmem-ramstage-test
tests-y += region_file-test
string-test-srcs += tests/lib/string-test.c
string-test-srcs += src/lib/string.c
@ -67,3 +68,6 @@ imd_cbmem-romstage-test-srcs += tests/stubs/console.c
imd_cbmem-romstage-test-srcs += src/lib/imd.c
imd_cbmem-romstage-test-mocks += cbmem_top_chipset
region_file-test-srcs += tests/lib/region_file-test.c
region_file-test-srcs += src/commonlib/region.c
region_file-test-srcs += tests/stubs/console.c

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@ -0,0 +1,342 @@
/* SPDX-License-Identifier: GPL-2.0-only */
#include "../lib/region_file.c"
#include <tests/test.h>
#include <stdlib.h>
#include <string.h>
#include <commonlib/region.h>
#include <tests/lib/region_file_data.h>
static void clear_region_file(struct mem_region_device *mrdev)
{
uint8_t *mem_buffer = (uint8_t *)mrdev->base;
memset(mem_buffer, 0xff, REGION_FILE_BUFFER_SIZE);
}
static int setup_region_file_test_group(void **state)
{
void *mem_buffer = malloc(REGION_FILE_BUFFER_SIZE);
struct mem_region_device *dev = malloc(sizeof(struct mem_region_device));
if (mem_buffer == NULL || dev == NULL) {
free(mem_buffer);
free(dev);
return -1;
}
*dev = (struct mem_region_device)
MEM_REGION_DEV_RW_INIT(mem_buffer, REGION_FILE_BUFFER_SIZE);
*state = dev;
clear_region_file(dev);
return 0;
}
static int teardown_region_file_test_group(void **state)
{
struct mem_region_device *dev = *state;
void *mem_buffer = dev->base;
free(mem_buffer);
free(dev);
return 0;
}
/* This function clears buffer associated with used region_device, so tests will be in clear
state at the beginning and leave no trace after successful execution. The cost of memsetting
everything twice is known, but acceptable as it grants safety and makes tests independent. */
static int setup_teardown_region_file_test(void **state)
{
struct mem_region_device *dev = *state;
clear_region_file(dev);
return 0;
}
static void test_region_file_init_empty(void **state)
{
struct mem_region_device *mdev = *state;
struct region_device *mrdev = &mdev->rdev;
struct region_file regf;
/* Test general approach using valid mem_region_device with buffer filled with 0xff.
Parameters cannot be NULL. */
assert_int_equal(0, region_file_init(&regf, mrdev));
assert_int_equal(RF_EMPTY, regf.slot);
}
static void test_region_file_init_invalid_metadata(void **state)
{
struct mem_region_device *mdev = *state;
struct region_device *mrdev = &mdev->rdev;
uint16_t *mem_buffer16 = (uint16_t *)mdev->base;
struct region_file regf;
/* Set number of metadata blocks to 0 */
mem_buffer16[0] = 0;
assert_int_equal(0, region_file_init(&regf, mrdev));
assert_int_equal(RF_NEED_TO_EMPTY, regf.slot);
}
static void test_region_file_init_valid_no_data(void **state)
{
struct mem_region_device *mdev = *state;
struct region_device *mrdev = &mdev->rdev;
uint16_t *mem_buffer16 = (uint16_t *)mdev->base;
struct region_file regf;
/* Manually allocate 4 metadata blocks and no data. */
mem_buffer16[0] = 4;
assert_int_equal(0, region_file_init(&regf, mrdev));
assert_int_equal(0, regf.slot);
}
static void test_region_file_init_invalid_data_offset(void **state)
{
struct mem_region_device *mdev = *state;
struct region_device *mrdev = &mdev->rdev;
uint16_t *mem_buffer16 = (uint16_t *)mdev->base;
struct region_file regf;
/* Manually allocate 4 metadata blocks and no data. */
mem_buffer16[0] = 4;
mem_buffer16[1] = 4;
assert_int_equal(0, region_file_init(&regf, mrdev));
assert_int_equal(RF_NEED_TO_EMPTY, regf.slot);
/* Set data size to be larger than region */
mem_buffer16[0] = 4;
mem_buffer16[1] = 4 + 4096;
assert_int_equal(0, region_file_init(&regf, mrdev));
assert_int_equal(RF_NEED_TO_EMPTY, regf.slot);
}
static void test_region_file_init_correct_data_offset(void **state)
{
struct mem_region_device *mdev = *state;
struct region_device *mrdev = &mdev->rdev;
uint16_t *mem_buffer16 = (uint16_t *)mdev->base;
struct region_file regf;
/* Set data size to 8 blocks which is correct value. */
mem_buffer16[0] = 4;
mem_buffer16[1] = 4 + 8;
assert_int_equal(0, region_file_init(&regf, mrdev));
assert_int_equal(1, regf.slot);
}
static void test_region_file_init_real_data(void **state)
{
struct mem_region_device dev = MEM_REGION_DEV_RW_INIT(region_file_data_buffer1,
REGION_FILE_BUFFER_SIZE);
struct region_device *rdev = &dev.rdev;
struct region_file regf;
/* Check on real example with one update */
assert_int_equal(0, region_file_init(&regf, rdev));
/* There is one update available */
assert_int_equal(1, regf.slot);
/* Check on real example with multiple updates */
dev = (struct mem_region_device) MEM_REGION_DEV_RW_INIT(region_file_data_buffer2,
REGION_FILE_BUFFER_SIZE);
rdev = &dev.rdev;
assert_int_equal(0, region_file_init(&regf, rdev));
/* There are three update available */
assert_int_equal(3, regf.slot);
}
static void test_region_file_init_invalid_region_device(void **state)
{
struct mem_region_device bad_dev = MEM_REGION_DEV_RW_INIT(NULL, 0);
struct region_file regf;
/* Expect fail when passing invalid region_device. */
assert_int_equal(-1, region_file_init(&regf, &bad_dev.rdev));
}
static void test_region_file_data(void **state)
{
/* region_device with empty data buffer */
struct mem_region_device *mdev = *state;
struct region_device *mrdev = &mdev->rdev;
/* region_device with prepared data buffer */
struct mem_region_device dev = MEM_REGION_DEV_RW_INIT(region_file_data_buffer1,
REGION_FILE_BUFFER_SIZE);
struct region_device *rdev = &dev.rdev;
struct region_file regf;
struct region_device read_rdev;
int ret;
/* Check if region_file_data() fails to return region_device for empty region_file */
ret = region_file_init(&regf, mrdev);
assert_int_equal(0, ret);
ret = region_file_data(&regf, &read_rdev);
assert_int_equal(-1, ret);
/* Check if region_file_data() correctly returns region_device for hardcoded
region_file data with update of 256 bytes */
ret = region_file_init(&regf, rdev);
assert_int_equal(0, ret);
ret = region_file_data(&regf, &read_rdev);
assert_int_equal(0, ret);
assert_int_equal(region_device_sz(&read_rdev),
ALIGN_UP(region_file_data_buffer1_update_sz, 16));
}
static void test_region_file_update_data(void **state)
{
struct mem_region_device *dev = *state;
struct region_device *rdev = &dev->rdev;
struct region_file regf;
struct region_device read_rdev;
const size_t dummy_data_size = 256;
uint8_t dummy_data[dummy_data_size];
uint8_t output_buffer[dummy_data_size];
int ret;
for (int i = 0; i < dummy_data_size; ++i)
dummy_data[i] = 'A' + i % ('Z' - 'A');
ret = region_file_init(&regf, rdev);
assert_int_equal(0, ret);
/* Write half of buffer, read it and check, if it is the same.
region_file_update_data() should be able to deal with empty region_file. */
ret = region_file_update_data(&regf, dummy_data, dummy_data_size / 2);
assert_int_equal(0, ret);
region_file_data(&regf, &read_rdev);
assert_int_equal(ALIGN_UP(dummy_data_size / 2, 16), region_device_sz(&read_rdev));
rdev_readat(&read_rdev, output_buffer, 0, dummy_data_size / 2);
assert_memory_equal(dummy_data, output_buffer, dummy_data_size / 2);
/* Update data to a bigger size */
ret = region_file_update_data(&regf, dummy_data, dummy_data_size);
assert_int_equal(0, ret);
region_file_data(&regf, &read_rdev);
assert_int_equal(ALIGN_UP(dummy_data_size, 16), region_device_sz(&read_rdev));
rdev_readat(&read_rdev, output_buffer, 0, dummy_data_size);
assert_memory_equal(dummy_data, output_buffer, dummy_data_size);
/* Update data to smaller size and check if it was properly stored */
ret = region_file_update_data(&regf, dummy_data, dummy_data_size / 2 + 3);
assert_int_equal(0, ret);
region_file_data(&regf, &read_rdev);
assert_int_equal(ALIGN_UP(dummy_data_size / 2 + 3, 16), region_device_sz(&read_rdev));
rdev_readat(&read_rdev, output_buffer, 0, dummy_data_size / 2 + 3);
assert_memory_equal(dummy_data, output_buffer, dummy_data_size / 2 + 3);
}
static void test_region_file_update_data_arr(void **state)
{
struct mem_region_device *dev = *state;
struct region_device *rdev = &dev->rdev;
struct region_file regf;
struct region_device read_rdev;
const size_t dummy_data_size = 256;
uint8_t dummy_data[dummy_data_size];
uint8_t output_buffer[dummy_data_size * 4];
struct update_region_file_entry update_entries[3];
const size_t data1_size = dummy_data_size;
const size_t data2_size = dummy_data_size / 2;
const size_t data3_size = dummy_data_size / 4 + 3;
const size_t data1_offset = 0;
const size_t data2_offset = dummy_data_size / 4 + 2;
const size_t data3_offset = dummy_data_size / 8 + 5;
int ret;
for (int i = 0; i < dummy_data_size; ++i)
dummy_data[i] = 'A' + i % ('Z' - 'A');
update_entries[0] = (struct update_region_file_entry)
{ .size = data1_size, .data = &dummy_data[data1_offset] };
update_entries[1] = (struct update_region_file_entry)
{ .size = data2_size, .data = &dummy_data[data2_offset] };
update_entries[2] = (struct update_region_file_entry)
{ .size = data3_size, .data = &dummy_data[data3_offset] };
ret = region_file_init(&regf, rdev);
assert_int_equal(0, ret);
/* Write two update blocks as first data state. region_file_update_data_arr() should
be able to deal with empty region_file. */
ret = region_file_update_data_arr(&regf, update_entries, 2);
assert_int_equal(0, ret);
region_file_data(&regf, &read_rdev);
assert_int_equal(ALIGN_UP(data1_size + data2_size, 16), region_device_sz(&read_rdev));
ret = rdev_readat(&read_rdev, output_buffer, 0, data1_size + data2_size);
assert_int_equal(data1_size + data2_size, ret);
assert_memory_equal(&dummy_data[data1_offset], output_buffer, data1_size);
assert_memory_equal(&dummy_data[data1_offset + data2_offset],
&output_buffer[data1_size], data2_size);
/* Check if new block of data is added correctly */
ret = region_file_update_data_arr(&regf, update_entries, 3);
assert_int_equal(0, ret);
region_file_data(&regf, &read_rdev);
assert_int_equal(ALIGN_UP(data1_size + data2_size + data3_size, 16),
region_device_sz(&read_rdev));
ret = rdev_readat(&read_rdev, output_buffer, 0, data1_size + data2_size + data3_size);
assert_int_equal(data1_size + data2_size + data3_size, ret);
assert_memory_equal(&dummy_data[data1_offset], output_buffer, data1_size);
assert_memory_equal(&dummy_data[data2_offset],
&output_buffer[data1_size], data2_size);
assert_memory_equal(&dummy_data[data3_offset],
&output_buffer[data1_size + data2_size], data3_size);
/* Check if data is correctly shrunk down to smaller size and different content */
ret = region_file_update_data_arr(&regf, &update_entries[1], 2);
assert_int_equal(0, ret);
region_file_data(&regf, &read_rdev);
assert_int_equal(ALIGN_UP(data2_size + data3_size, 16), region_device_sz(&read_rdev));
ret = rdev_readat(&read_rdev, output_buffer, 0, data2_size + data3_size);
assert_int_equal(data2_size + data3_size, ret);
assert_memory_equal(&dummy_data[data2_offset], &output_buffer[0], data2_size);
assert_memory_equal(&dummy_data[data3_offset], &output_buffer[data2_size], data3_size);
}
int main(void)
{
const struct CMUnitTest tests[] = {
cmocka_unit_test_setup_teardown(test_region_file_init_empty,
setup_teardown_region_file_test,
setup_teardown_region_file_test),
cmocka_unit_test_setup_teardown(test_region_file_init_invalid_metadata,
setup_teardown_region_file_test,
setup_teardown_region_file_test),
cmocka_unit_test_setup_teardown(test_region_file_init_valid_no_data,
setup_teardown_region_file_test,
setup_teardown_region_file_test),
cmocka_unit_test_setup_teardown(test_region_file_init_invalid_data_offset,
setup_teardown_region_file_test,
setup_teardown_region_file_test),
cmocka_unit_test_setup_teardown(test_region_file_init_correct_data_offset,
setup_teardown_region_file_test,
setup_teardown_region_file_test),
cmocka_unit_test_setup_teardown(test_region_file_init_real_data,
setup_teardown_region_file_test,
setup_teardown_region_file_test),
cmocka_unit_test_setup_teardown(test_region_file_init_invalid_region_device,
setup_teardown_region_file_test,
setup_teardown_region_file_test),
cmocka_unit_test_setup_teardown(test_region_file_data,
setup_teardown_region_file_test,
setup_teardown_region_file_test),
cmocka_unit_test_setup_teardown(test_region_file_update_data,
setup_teardown_region_file_test,
setup_teardown_region_file_test),
cmocka_unit_test_setup_teardown(test_region_file_update_data_arr,
setup_teardown_region_file_test,
setup_teardown_region_file_test),
};
return cmocka_run_group_tests(tests,
setup_region_file_test_group,
teardown_region_file_test_group);
}