7c6081e02b
When running multiple tests, e.g. by using unit-tests target, it is hard to differentiate, which output comes from which file and/or configuration. This patch makes the output easier to analyze and understand by using new wrapper macro cb_run_group_tests(). This macro uses __TEST_NAME__ value (containing test path and Makefile test name) as a group name when calling cmocka group runner. Example: Test path: tests/lib/ Makefile test name: cbmem_stage_cache-test Test group array name: tests Result: tests/lib/cbmem_stage_cache-test(tests) Signed-off-by: Jakub Czapiga <jacz@semihalf.com> Change-Id: I4fd936d00d77cbe2637b857ba03b4a208428ea0d Reviewed-on: https://review.coreboot.org/c/coreboot/+/57144 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Paul Fagerburg <pfagerburg@chromium.org> Reviewed-by: Julius Werner <jwerner@chromium.org>
168 lines
4.3 KiB
C
168 lines
4.3 KiB
C
/* SPDX-License-Identifier: GPL-2.0-only */
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/* Include malloc() and memalign() source code and alter its name to indicate the functions
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source origin. */
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#define calloc cb_calloc
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#define malloc cb_malloc
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#define free cb_free
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#define memalign cb_memalign
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#undef __noreturn
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#define __noreturn
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#include "../lib/malloc.c"
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#undef calloc
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#undef malloc
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#undef free
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#undef memalign
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#undef __noreturn
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#define __noreturn __attribute__((noreturn))
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#include <stdlib.h>
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#include <tests/test.h>
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#include <commonlib/helpers.h>
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#include <types.h>
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#include <symbols.h>
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/* 4 MiB */
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#define TEST_HEAP_SZ 0x400000
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/* Heap region setup */
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__weak extern uint8_t _test_heap[];
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__weak extern uint8_t _etest_heap[];
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TEST_REGION(test_heap, TEST_HEAP_SZ);
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TEST_SYMBOL(_heap, _test_heap);
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TEST_SYMBOL(_eheap, _etest_heap);
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void die(const char *msg, ...)
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{
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function_called();
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}
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static int setup_test(void **state)
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{
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free_mem_ptr = &_heap;
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free_mem_end_ptr = &_eheap;
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free_last_alloc_ptr = &_heap;
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return 0;
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}
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static int setup_calloc_test(void **state)
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{
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memset(_test_heap, 0xFF, TEST_HEAP_SZ);
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return setup_test(state);
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}
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static void test_malloc_out_of_memory(void **state)
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{
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/* Expect die() call if out of memory */
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expect_function_call(die);
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cb_malloc(TEST_HEAP_SZ);
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}
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static void test_malloc_zero(void **state)
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{
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void *ptr1 = cb_malloc(0);
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void *ptr2 = cb_malloc(0);
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void *ptr3 = cb_malloc(0);
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/* Expect malloc(0) to return the same pointer as there are no bytes
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to be added to the heap */
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assert_ptr_equal(ptr1, ptr2);
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assert_ptr_equal(ptr2, ptr3);
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}
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static void test_malloc_multiple_small_allocations(void **state)
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{
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/* Make multiple small allocations (smaller than alignment)
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Expect no call to die(), as this allocations should be small
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enough to fit in provided memory */
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void *prev;
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void *curr = cb_malloc(3);
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assert_non_null(curr);
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for (int i = 0; i < 1000; ++i) {
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prev = curr;
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curr = cb_malloc(3);
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assert_non_null(curr);
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assert_true(prev < curr);
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}
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}
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static void test_memalign_different_alignments(void **state)
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{
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void *ptr1 = cb_memalign(4, 30);
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void *ptr2 = cb_memalign(16, 22);
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void *ptr3 = cb_memalign(8, 64);
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assert_true((uintptr_t)ptr1 % 4 == 0);
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assert_true((uintptr_t)ptr2 % 16 == 0);
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assert_true((uintptr_t)ptr3 % 8 == 0);
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}
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static void test_memalign_out_of_memory(void **state)
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{
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expect_function_call(die);
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cb_memalign(16, TEST_HEAP_SZ);
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}
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static void test_memalign_zero(void **state)
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{
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void *ptr1 = cb_memalign(16, 0);
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void *ptr2 = cb_memalign(7, 0);
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void *ptr3 = cb_memalign(11, 0);
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/* Expect memalign(x, 0) to return the same pointer as there are no bytes
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to be added to the heap */
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assert_ptr_equal(ptr1, ptr2);
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assert_ptr_equal(ptr2, ptr3);
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}
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static void test_memalign_multiple_small_allocations(void **state)
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{
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/* Make multiple small allocations (smaller than alignment)
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Expect no call to die(), as this allocations should be small
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enough to fit in provided memory. There should also be no error
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when allocating memory with different align values. */
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void *prev;
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void *curr = cb_memalign(3, 3);
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assert_non_null(curr);
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for (int i = 0; i < 1000; ++i) {
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/* Expect new pointer larger than previously allocated and aligned to provided
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value. Alignment has to be power of 2 to be applied correctly. */
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prev = curr;
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curr = cb_memalign(2u << (i % 6), 3);
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assert_non_null(curr);
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assert_true(prev < curr);
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assert_true((uintptr_t)curr % (2u << (i % 6)) == 0);
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}
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}
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static void test_calloc_memory_is_zeroed(void **state)
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{
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const size_t nitems = 42;
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const size_t size = sizeof(uint32_t);
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void *ptr = cb_calloc(nitems, size);
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assert_non_null(ptr);
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for (size_t i = 0; i < nitems; i++) {
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const uint32_t *p = (const uint32_t *)ptr + i;
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assert_int_equal(*p, 0);
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}
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}
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int main(void)
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{
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const struct CMUnitTest tests[] = {
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cmocka_unit_test_setup(test_malloc_out_of_memory, setup_test),
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cmocka_unit_test_setup(test_malloc_zero, setup_test),
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cmocka_unit_test_setup(test_malloc_multiple_small_allocations, setup_test),
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cmocka_unit_test_setup(test_memalign_different_alignments, setup_test),
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cmocka_unit_test_setup(test_memalign_out_of_memory, setup_test),
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cmocka_unit_test_setup(test_memalign_zero, setup_test),
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cmocka_unit_test_setup(test_memalign_multiple_small_allocations, setup_test),
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cmocka_unit_test_setup(test_calloc_memory_is_zeroed, setup_calloc_test),
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};
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return cb_run_group_tests(tests, NULL, NULL);
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}
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