diff --git a/zephyr/test/vmh.c b/zephyr/test/vmh.c index 0ac6311f3d88..6d747474e7be 100644 --- a/zephyr/test/vmh.c +++ b/zephyr/test/vmh.c @@ -7,6 +7,7 @@ #include #include +#include #include #include @@ -17,8 +18,269 @@ LOG_MODULE_DECLARE(sof_boot_test, CONFIG_SOF_LOG_LEVEL); +/* Test creating and freeing a virtual memory heap */ +static void test_vmh_init_and_free_heap(int memory_region_attribute, + struct vmh_heap_config *config, + int core_id, + bool allocating_continuously, + bool expect_success) +{ + struct vmh_heap *heap = vmh_init_heap(config, memory_region_attribute, + core_id, allocating_continuously); + if (expect_success) { + zassert_not_null(heap, + "Heap initialization expected to succeed but failed"); + } + else + zassert_is_null(heap, "Heap initialization expected to fail but succeeded"); + + if (heap) { + int ret = vmh_free_heap(heap); + + zassert_equal(ret, 0, "Failed to free heap"); + } +} + +/* Test for vmh_alloc and vmh_free */ +static void test_vmh_alloc_free_no_check(struct vmh_heap *heap, + uint32_t alloc_size, + bool expect_success) +{ + void *ptr = vmh_alloc(heap, alloc_size); + + if (expect_success) + zassert_not_null(ptr, "Allocation expected to succeed but failed"); + else + zassert_is_null(ptr, "Allocation expected to fail but succeeded"); + + if (ptr) { + int ret = vmh_free(heap, ptr); + + zassert_equal(ret, 0, "Failed to free allocated memory"); + } +} + +/* Test function for vmh_alloc and vmh_free with memory read/write */ +static void test_vmh_alloc_free_check(struct vmh_heap *heap, + uint32_t alloc_size, + bool expect_success) +{ + void *ptr = vmh_alloc(heap, alloc_size); + + if (expect_success) + zassert_not_null(ptr, "Allocation expected to succeed but failed"); + else { + zassert_is_null(ptr, "Allocation expected to fail but succeeded"); + return; + } + + if (ptr) { + /* Write test pattern to the allocated memory and verify it */ + memset(ptr, 0xAA, alloc_size); + + uint8_t start_val = *((uint8_t *)ptr); + + zassert_equal(start_val, 0xAA, + "Memory content verification failed at the start"); + + uint8_t end_val = *((uint8_t *)ptr + alloc_size - 1); + + zassert_equal(end_val, 0xAA, + "Memory content verification failed at the end"); + + if (alloc_size > 2) { + uint32_t middle_pos = alloc_size / 2; + uint8_t middle_val = *((uint8_t *)ptr + middle_pos); + + zassert_equal(middle_val, 0xAA, + "Memory content verification failed in the middle"); + } + + int ret = vmh_free(heap, ptr); + + zassert_equal(ret, 0, "Failed to free allocated memory"); + } +} + +/* Test function for multiple allocations on the same heap with read/write */ +static void test_vmh_multiple_allocs(struct vmh_heap *heap, int num_allocs, + uint32_t min_alloc_size, + uint32_t max_alloc_size) +{ + void *ptrs[num_allocs]; + uint32_t alloc_size; + bool success; + int ret; + + /* Perform multiple allocations */ + for (int i = 0; i < num_allocs; i++) { + /* Generate a random allocation size between min_alloc_size and max_alloc_size */ + alloc_size = min_alloc_size + + k_cycle_get_32() % (max_alloc_size - min_alloc_size + 1); + + ptrs[i] = vmh_alloc(heap, alloc_size); + + zassert_true(ptrs[i] != NULL, + "Allocation of size %u expected to succeed but failed", + alloc_size); + + if (ptrs[i] != NULL) { + LOG_INF("Test allocation size: %d", alloc_size); + + memset(ptrs[i], 0xAA, alloc_size); + + uint8_t *byte_ptr = (uint8_t *)ptrs[i]; + + for (uint32_t j = 0; j < alloc_size; j++) { + zassert_equal(byte_ptr[j], 0xAA, + "Memory content verification failed at position %u", j); + } + } + } + + for (int i = 0; i < num_allocs; i++) { + if (ptrs[i]) { + ret = vmh_free(heap, ptrs[i]); + zassert_equal(ret, 0, "Failed to free allocated memory"); + } + } +} + +/* Test case for multiple allocations */ +static void test_vmh_alloc_multiple_times(bool allocating_continuously) +{ + struct vmh_heap *heap = + vmh_init_heap(NULL, MEM_REG_ATTR_CORE_HEAP, 0, allocating_continuously); + + zassert_not_null(heap, "Heap initialization failed"); + + /* Test multiple allocations with small sizes */ + test_vmh_multiple_allocs(heap, 16, 4, 8); + test_vmh_multiple_allocs(heap, 64, 4, 8); + test_vmh_multiple_allocs(heap, 16, 4, 1024); + test_vmh_multiple_allocs(heap, 64, 4, 1024); + if (allocating_continuously) { + test_vmh_multiple_allocs(heap, 16, 1024, 4096); + test_vmh_multiple_allocs(heap, 16, 4096, 8192); + test_vmh_multiple_allocs(heap, 64, 1024, 4096); + test_vmh_multiple_allocs(heap, 64, 4096, 8192); + } + + /* Clean up the heap after testing */ + int ret = vmh_free_heap(heap); + + zassert_equal(ret, 0, "Failed to free heap after multiple allocations"); +} + +/* Test case for vmh_alloc and vmh_free */ +static void test_vmh_alloc_free(bool allocating_continuously) +{ + struct vmh_heap *heap = + vmh_init_heap(NULL, MEM_REG_ATTR_CORE_HEAP, 0, allocating_continuously); + + zassert_not_null(heap, "Heap initialization failed"); + + test_vmh_alloc_free_no_check(heap, 512, true); + test_vmh_alloc_free_no_check(heap, 1024, true); + test_vmh_alloc_free_no_check(heap, sizeof(int), true); + test_vmh_alloc_free_no_check(heap, 0, false); + + test_vmh_alloc_free_check(heap, 512, true); + test_vmh_alloc_free_check(heap, 1024, true); + test_vmh_alloc_free_check(heap, sizeof(int), true); + test_vmh_alloc_free_check(heap, 0, false); + + int ret = vmh_free_heap(heap); + + zassert_equal(ret, 0, "Failed to free heap"); + + /* Could add tests with configs for heaps*/ +} + +/* Test case for vmh_alloc and vmh_free with and without config */ +static void test_heap_creation(void) +{ + test_vmh_init_and_free_heap(MEM_REG_ATTR_CORE_HEAP, NULL, 0, false, true); + + /* Try to setup with pre defined heap config */ + struct vmh_heap_config config = {0}; + + config.block_bundles_table[0].block_size = 8; + + config.block_bundles_table[0].number_of_blocks = 1024; + + config.block_bundles_table[1].block_size = 16; + + config.block_bundles_table[1].number_of_blocks = 512; + + test_vmh_init_and_free_heap(MEM_REG_ATTR_CORE_HEAP, &config, 0, false, true); +} + +/* Test case for alloc/free on configured heap */ +static void test_alloc_on_configured_heap(bool allocating_continuously) +{ + + /* Try to setup with pre defined heap config */ + struct vmh_heap_config config = {0}; + + config.block_bundles_table[0].block_size = 32; + + config.block_bundles_table[0].number_of_blocks = 256; + + /* Create continuous allocation heap for success test */ + struct vmh_heap *heap = + vmh_init_heap(NULL, MEM_REG_ATTR_CORE_HEAP, 0, allocating_continuously); + + /* Will succeed on continuous and fail with single block alloc */ + test_vmh_alloc_free_check(heap, 512, allocating_continuously); + + int ret = vmh_free_heap(heap); + + zassert_equal(ret, 0, "Failed to free heap"); +} + +/* Test cases for initializing heaps on all available regions */ +static void test_vmh_init_all_heaps(void) +{ + int num_regions = CONFIG_MP_MAX_NUM_CPUS + VIRTUAL_REGION_COUNT; + int i; + const struct sys_mm_drv_region *virtual_memory_region = + sys_mm_drv_query_memory_regions(); + + /* Test initializing all types of heaps */ + for (i = 0; i < num_regions; i++) { + + /* Zeroed size symbolizes end of regions table */ + if (!virtual_memory_region[i].size) + break; + + struct vmh_heap *heap = vmh_init_heap(NULL, virtual_memory_region[i].attr, + i, true); + + zassert_not_null(heap, "Heap initialization expected to succeed but failed"); + + /* Test if it fails when heap already exists */ + test_vmh_init_and_free_heap(virtual_memory_region[i].attr, NULL, i, true, + false); + + if (heap) { + int ret = vmh_free_heap(heap); + + zassert_equal(ret, 0, "Failed to free heap"); + } + } +} ZTEST(sof_boot, virtual_memory_heap) { + test_heap_creation(); + test_vmh_init_all_heaps(); + test_alloc_on_configured_heap(true); + test_alloc_on_configured_heap(false); + test_vmh_alloc_free(true); + test_vmh_alloc_free(false); + test_vmh_alloc_multiple_times(true); + test_vmh_alloc_multiple_times(false); + TEST_CHECK_RET(true, "virtual_memory_heap"); }