tests/lib/memcpy-test.c - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */

 /* Include memcpy() source code and alter its name to compare results with libc memcpy() */
 #define memcpy cb_memcpy
 #include "../lib/memcpy.c"
 #undef memcpy

 #include <stdlib.h>
 #include <tests/test.h>
 #include <commonlib/helpers.h>
 #include <types.h>

 #define MEMCPY_BUFFER_SZ (4 * KiB)

 /* Prototype of memcpy() from string.h was changed to cb_memcpy().
    It has to be defined again. */
 void *memcpy(void *dest, const void *src, size_t n);

 struct test_memcpy_data {
 	u8 *buffer_from;
 	u8 *buffer_to;
 	u8 *helper_buffer;
 };

 int setup_test(void **state)
 {
 	struct test_memcpy_data *s = malloc(sizeof(struct test_memcpy_data));

 	if (!s)
 		return -1;

 	s->buffer_from = malloc(MEMCPY_BUFFER_SZ);
 	s->buffer_to = malloc(MEMCPY_BUFFER_SZ);
 	s->helper_buffer = malloc(MEMCPY_BUFFER_SZ);

 	if (!s->buffer_from || !s->buffer_to || !s->helper_buffer) {
 		free(s->buffer_from);
 		free(s->buffer_to);
 		free(s->helper_buffer);
 		free(s);
 		return -1;
 	}

 	/* Fill buffers with different values (other than zero) to make them distinguishable.
 	   The helper buffer is often used as a backup of destination buffer so it has the
 	   same value. */
 	memset(s->buffer_from, 0xAB, MEMCPY_BUFFER_SZ);
 	memset(s->buffer_to, 0xBC, MEMCPY_BUFFER_SZ);
 	memset(s->helper_buffer, 0xBC, MEMCPY_BUFFER_SZ);

 	*state = s;

 	return 0;
 }

 int teardown_test(void **state)
 {
 	struct test_memcpy_data *s = *state;

 	free(s->buffer_from);
 	free(s->buffer_to);
 	free(s->helper_buffer);
 	free(s);

 	return 0;
 }

 /* Fill buffer with values from provided range [start; end] in circular way. */
 static void fill_buffer_data_range(u8 *buffer, size_t sz, u8 start_value, u8 end_value)
 {
 	for (size_t i = 0; i < sz; ++i)
 		buffer[i] = (start_value + i) % (end_value - start_value + 1);
 }

 static void test_memcpy_full_buffer_copy(void **state)
 {
 	struct test_memcpy_data *s = *state;
 	void *res_cb;

 	fill_buffer_data_range(s->buffer_from, MEMCPY_BUFFER_SZ, 0, 255);

 	res_cb = cb_memcpy(s->buffer_to, s->buffer_from, MEMCPY_BUFFER_SZ);

 	assert_ptr_equal(s->buffer_to, res_cb);
 	assert_memory_equal(s->buffer_from, s->buffer_to, MEMCPY_BUFFER_SZ);
 }

 static void test_memcpy_zero_size(void **state)
 {
 	struct test_memcpy_data *s = *state;
 	void *res_cb;

 	fill_buffer_data_range(s->buffer_from, MEMCPY_BUFFER_SZ, 'A', 'Z');

 	/* Expect no change in destination buffer. */
 	res_cb = cb_memcpy(s->buffer_to, s->buffer_from, 0);
 	assert_ptr_equal(s->buffer_to, res_cb);
 	assert_memory_equal(s->buffer_to, s->helper_buffer, MEMCPY_BUFFER_SZ);
 }

 static void test_memcpy_buffer_part(void **state)
 {
 	struct test_memcpy_data *s = *state;
 	void *res_cb;
 	const size_t offset = MEMCPY_BUFFER_SZ / 4;
 	const size_t sz = MEMCPY_BUFFER_SZ / 2;

 	/* Self-test for correct data ranges */
 	assert_true(offset + sz <= MEMCPY_BUFFER_SZ);

 	fill_buffer_data_range(s->buffer_from, MEMCPY_BUFFER_SZ, '0', '9');

 	/* Expect only *sz* bytes of buffer to be copied. Helper buffer is used as template. */
 	res_cb = cb_memcpy(s->buffer_to + offset, s->buffer_from, sz);
 	assert_ptr_equal(s->buffer_to + offset, res_cb);
 	assert_memory_equal(s->buffer_to, s->helper_buffer, offset);
 	assert_memory_equal(s->buffer_to + offset, s->buffer_from, sz);
 	assert_memory_equal(s->buffer_to + offset + sz, s->helper_buffer + offset + sz,
 			    MEMCPY_BUFFER_SZ - (offset + sz));
 }

 static void test_memcpy_buffer_part_unaligned(void **state)
 {
 	struct test_memcpy_data *s = *state;
 	void *res_cb;
 	const size_t dst_offset = MEMCPY_BUFFER_SZ / 8 + 3;
 	const size_t src_offset = MEMCPY_BUFFER_SZ / 4 - 3;
 	const size_t sz = MEMCPY_BUFFER_SZ / 4 + 7;

 	/* Self-test for correct data ranges */
 	assert_true(dst_offset + sz <= MEMCPY_BUFFER_SZ);
 	assert_true(src_offset + sz <= MEMCPY_BUFFER_SZ);

 	fill_buffer_data_range(s->buffer_from, MEMCPY_BUFFER_SZ, 0x13, 0xB7);

 	res_cb = cb_memcpy(s->buffer_to + dst_offset, s->buffer_from + src_offset, sz);
 	assert_ptr_equal(s->buffer_to + dst_offset, res_cb);
 	assert_memory_equal(s->buffer_to, s->helper_buffer, dst_offset);
 	assert_memory_equal(s->buffer_to + dst_offset, s->buffer_from + src_offset, sz);
 	assert_memory_equal(s->buffer_to + dst_offset + sz, s->helper_buffer + dst_offset + sz,
 			    MEMCPY_BUFFER_SZ - (dst_offset + sz));
 }

 static void test_memcpy_copy_to_itself(void **state)
 {
 	struct test_memcpy_data *s = *state;
 	void *res_cb;

 	fill_buffer_data_range(s->buffer_to, MEMCPY_BUFFER_SZ, 'G', 'X');
 	memcpy(s->buffer_to, s->helper_buffer, MEMCPY_BUFFER_SZ);

 	/* Expect no change in source/destination buffer. */
 	res_cb = cb_memcpy(s->buffer_to, s->buffer_to, MEMCPY_BUFFER_SZ);
 	assert_ptr_equal(s->buffer_to, res_cb);
 	assert_memory_equal(s->buffer_to, s->helper_buffer, MEMCPY_BUFFER_SZ);
 }

 static void test_memcpy_copy_part_of_itself_to_itself(void **state)
 {
 	struct test_memcpy_data *s = *state;
 	void *res_cb;
 	const size_t offset = MEMCPY_BUFFER_SZ / 8;
 	const size_t sz = MEMCPY_BUFFER_SZ - offset;

 	/* Self-test for correct data ranges */
 	assert_true(offset + sz <= MEMCPY_BUFFER_SZ);

 	fill_buffer_data_range(s->buffer_to, MEMCPY_BUFFER_SZ, 'd', 'v');
 	memcpy(s->helper_buffer, s->buffer_to, MEMCPY_BUFFER_SZ);

 	/* Expect only *sz* bytes to be overwritten and *offset* bytes to be left at the end. */
 	res_cb = cb_memcpy(s->buffer_to, s->buffer_to + offset, sz);
 	assert_ptr_equal(s->buffer_to, res_cb);
 	assert_memory_equal(s->buffer_to, s->helper_buffer + offset, sz);
 	assert_memory_equal(s->buffer_to + sz, s->helper_buffer + sz, offset);
 }

 int main(void)
 {
 	const struct CMUnitTest tests[] = {
 		cmocka_unit_test_setup_teardown(test_memcpy_full_buffer_copy, setup_test,
 						teardown_test),
 		cmocka_unit_test_setup_teardown(test_memcpy_zero_size, setup_test,
 						teardown_test),
 		cmocka_unit_test_setup_teardown(test_memcpy_buffer_part, setup_test,
 						teardown_test),
 		cmocka_unit_test_setup_teardown(test_memcpy_buffer_part_unaligned, setup_test,
 						teardown_test),
 		cmocka_unit_test_setup_teardown(test_memcpy_copy_to_itself, setup_test,
 						teardown_test),
 		cmocka_unit_test_setup_teardown(test_memcpy_copy_part_of_itself_to_itself,
 						setup_test, teardown_test),
 	};

 	return cb_run_group_tests(tests, NULL, NULL);
 }
	/* SPDX-License-Identifier: GPL-2.0-only */

	/* Include memcpy() source code and alter its name to compare results with libc memcpy() */
	#define memcpy cb_memcpy
	#include "../lib/memcpy.c"
	#undef memcpy

	#include <stdlib.h>
	#include <tests/test.h>
	#include <commonlib/helpers.h>
	#include <types.h>

	#define MEMCPY_BUFFER_SZ (4 * KiB)

	/* Prototype of memcpy() from string.h was changed to cb_memcpy().
	It has to be defined again. */
	void memcpy(void dest, const void *src, size_t n);

	struct test_memcpy_data {
	u8 *buffer_from;
	u8 *buffer_to;
	u8 *helper_buffer;
	};

	int setup_test(void **state)
	{
	struct test_memcpy_data *s = malloc(sizeof(struct test_memcpy_data));

	if (!s)
	return -1;

	s->buffer_from = malloc(MEMCPY_BUFFER_SZ);
	s->buffer_to = malloc(MEMCPY_BUFFER_SZ);
	s->helper_buffer = malloc(MEMCPY_BUFFER_SZ);

	if (!s->buffer_from \|\| !s->buffer_to \|\| !s->helper_buffer) {
	free(s->buffer_from);
	free(s->buffer_to);
	free(s->helper_buffer);
	free(s);
	return -1;
	}

	/* Fill buffers with different values (other than zero) to make them distinguishable.
	The helper buffer is often used as a backup of destination buffer so it has the
	same value. */
	memset(s->buffer_from, 0xAB, MEMCPY_BUFFER_SZ);
	memset(s->buffer_to, 0xBC, MEMCPY_BUFFER_SZ);
	memset(s->helper_buffer, 0xBC, MEMCPY_BUFFER_SZ);

	*state = s;

	return 0;
	}

	int teardown_test(void **state)
	{
	struct test_memcpy_data s = state;

	free(s->buffer_from);
	free(s->buffer_to);
	free(s->helper_buffer);
	free(s);

	return 0;
	}

	/* Fill buffer with values from provided range [start; end] in circular way. */
	static void fill_buffer_data_range(u8 *buffer, size_t sz, u8 start_value, u8 end_value)
	{
	for (size_t i = 0; i < sz; ++i)
	buffer[i] = (start_value + i) % (end_value - start_value + 1);
	}

	static void test_memcpy_full_buffer_copy(void **state)
	{
	struct test_memcpy_data s = state;
	void *res_cb;

	fill_buffer_data_range(s->buffer_from, MEMCPY_BUFFER_SZ, 0, 255);

	res_cb = cb_memcpy(s->buffer_to, s->buffer_from, MEMCPY_BUFFER_SZ);

	assert_ptr_equal(s->buffer_to, res_cb);
	assert_memory_equal(s->buffer_from, s->buffer_to, MEMCPY_BUFFER_SZ);
	}

	static void test_memcpy_zero_size(void **state)
	{
	struct test_memcpy_data s = state;
	void *res_cb;

	fill_buffer_data_range(s->buffer_from, MEMCPY_BUFFER_SZ, 'A', 'Z');

	/* Expect no change in destination buffer. */
	res_cb = cb_memcpy(s->buffer_to, s->buffer_from, 0);
	assert_ptr_equal(s->buffer_to, res_cb);
	assert_memory_equal(s->buffer_to, s->helper_buffer, MEMCPY_BUFFER_SZ);
	}

	static void test_memcpy_buffer_part(void **state)
	{
	struct test_memcpy_data s = state;
	void *res_cb;
	const size_t offset = MEMCPY_BUFFER_SZ / 4;
	const size_t sz = MEMCPY_BUFFER_SZ / 2;

	/* Self-test for correct data ranges */
	assert_true(offset + sz <= MEMCPY_BUFFER_SZ);

	fill_buffer_data_range(s->buffer_from, MEMCPY_BUFFER_SZ, '0', '9');

	/* Expect only sz bytes of buffer to be copied. Helper buffer is used as template. */
	res_cb = cb_memcpy(s->buffer_to + offset, s->buffer_from, sz);
	assert_ptr_equal(s->buffer_to + offset, res_cb);
	assert_memory_equal(s->buffer_to, s->helper_buffer, offset);
	assert_memory_equal(s->buffer_to + offset, s->buffer_from, sz);
	assert_memory_equal(s->buffer_to + offset + sz, s->helper_buffer + offset + sz,
	MEMCPY_BUFFER_SZ - (offset + sz));
	}

	static void test_memcpy_buffer_part_unaligned(void **state)
	{
	struct test_memcpy_data s = state;
	void *res_cb;
	const size_t dst_offset = MEMCPY_BUFFER_SZ / 8 + 3;
	const size_t src_offset = MEMCPY_BUFFER_SZ / 4 - 3;
	const size_t sz = MEMCPY_BUFFER_SZ / 4 + 7;

	/* Self-test for correct data ranges */
	assert_true(dst_offset + sz <= MEMCPY_BUFFER_SZ);
	assert_true(src_offset + sz <= MEMCPY_BUFFER_SZ);

	fill_buffer_data_range(s->buffer_from, MEMCPY_BUFFER_SZ, 0x13, 0xB7);

	res_cb = cb_memcpy(s->buffer_to + dst_offset, s->buffer_from + src_offset, sz);
	assert_ptr_equal(s->buffer_to + dst_offset, res_cb);
	assert_memory_equal(s->buffer_to, s->helper_buffer, dst_offset);
	assert_memory_equal(s->buffer_to + dst_offset, s->buffer_from + src_offset, sz);
	assert_memory_equal(s->buffer_to + dst_offset + sz, s->helper_buffer + dst_offset + sz,
	MEMCPY_BUFFER_SZ - (dst_offset + sz));
	}

	static void test_memcpy_copy_to_itself(void **state)
	{
	struct test_memcpy_data s = state;
	void *res_cb;

	fill_buffer_data_range(s->buffer_to, MEMCPY_BUFFER_SZ, 'G', 'X');
	memcpy(s->buffer_to, s->helper_buffer, MEMCPY_BUFFER_SZ);

	/* Expect no change in source/destination buffer. */
	res_cb = cb_memcpy(s->buffer_to, s->buffer_to, MEMCPY_BUFFER_SZ);
	assert_ptr_equal(s->buffer_to, res_cb);
	assert_memory_equal(s->buffer_to, s->helper_buffer, MEMCPY_BUFFER_SZ);
	}

	static void test_memcpy_copy_part_of_itself_to_itself(void **state)
	{
	struct test_memcpy_data s = state;
	void *res_cb;
	const size_t offset = MEMCPY_BUFFER_SZ / 8;
	const size_t sz = MEMCPY_BUFFER_SZ - offset;

	/* Self-test for correct data ranges */
	assert_true(offset + sz <= MEMCPY_BUFFER_SZ);

	fill_buffer_data_range(s->buffer_to, MEMCPY_BUFFER_SZ, 'd', 'v');
	memcpy(s->helper_buffer, s->buffer_to, MEMCPY_BUFFER_SZ);

	/* Expect only sz bytes to be overwritten and offset bytes to be left at the end. */
	res_cb = cb_memcpy(s->buffer_to, s->buffer_to + offset, sz);
	assert_ptr_equal(s->buffer_to, res_cb);
	assert_memory_equal(s->buffer_to, s->helper_buffer + offset, sz);
	assert_memory_equal(s->buffer_to + sz, s->helper_buffer + sz, offset);
	}

	int main(void)
	{
	const struct CMUnitTest tests[] = {
	cmocka_unit_test_setup_teardown(test_memcpy_full_buffer_copy, setup_test,
	teardown_test),
	cmocka_unit_test_setup_teardown(test_memcpy_zero_size, setup_test,
	teardown_test),
	cmocka_unit_test_setup_teardown(test_memcpy_buffer_part, setup_test,
	teardown_test),
	cmocka_unit_test_setup_teardown(test_memcpy_buffer_part_unaligned, setup_test,
	teardown_test),
	cmocka_unit_test_setup_teardown(test_memcpy_copy_to_itself, setup_test,
	teardown_test),
	cmocka_unit_test_setup_teardown(test_memcpy_copy_part_of_itself_to_itself,
	setup_test, teardown_test),
	};

	return cb_run_group_tests(tests, NULL, NULL);
	}