/* * Copyright (c) 2015 ARM Limited. All rights reserved. * SPDX-License-Identifier: Apache-2.0 * Licensed under the Apache License, Version 2.0 (the License); you may * not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an AS IS BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "CppUTest/TestHarness.h" #include "nsdynmemLIB.h" #include #include #include "error_callback.h" TEST_GROUP(dynmem) { void setup() { reset_heap_error(); } void teardown() { } }; TEST(dynmem, init) { uint16_t size = 1000; uint8_t *heap = (uint8_t*)malloc(size); CHECK(NULL != heap); mem_stat_t info; reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(info.heap_sector_size >= (size-64)); CHECK(!heap_have_failed()); CHECK(ns_dyn_mem_get_mem_stat() == &info); free(heap); } TEST(dynmem, different_sizes) { reset_heap_error(); for (uint16_t size = 1000; size<32768; size++) { mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(info.heap_sector_size >= (size-64)); CHECK(!heap_have_failed()); CHECK(ns_dyn_mem_alloc(10)); free(heap); } } TEST(dynmem, diff_alignment) { uint16_t size = 1000; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); uint8_t *ptr = heap; CHECK(NULL != heap); reset_heap_error(); for (int i=0; i<16; i++) { ptr++; size--; ns_dyn_mem_init(ptr, size, &heap_fail_callback, &info); CHECK(info.heap_sector_size >= (size-64)); CHECK(!heap_have_failed()); } free(heap); } TEST(dynmem, ns_dyn_mem_alloc) { uint16_t size = 1000; mem_stat_t info; void *p[size]; uint8_t *heap = (uint8_t*)malloc(size); CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); int block = 1; int i; for (i=0; i=0; i--) { ns_dyn_mem_free(p[i]); } CHECK(!heap_have_failed()); CHECK(info.heap_sector_alloc_cnt == 0); free(heap); } TEST(dynmem, ns_dyn_mem_temporary_alloc) { uint16_t size = 1000; mem_stat_t info; void *p[size]; uint8_t *heap = (uint8_t*)malloc(size); CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); int block = 1; int i; for (i=0; i=0; i--) { ns_dyn_mem_free(p[i]); } CHECK(!heap_have_failed()); CHECK(info.heap_sector_alloc_cnt == 0); free(heap); } TEST(dynmem, test_both_allocs_with_hole_usage) { uint16_t size = 112; mem_stat_t info; void *p[size]; uint8_t *heap = (uint8_t*)malloc(size); CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); void *ptr = ns_dyn_mem_alloc(15); void *ptr2 = ns_dyn_mem_alloc(4); ns_dyn_mem_free(ptr); ns_dyn_mem_free(ptr2); CHECK(info.heap_sector_allocated_bytes == 0); void *ptr3 = ns_dyn_mem_temporary_alloc(15); void *ptr4 = ns_dyn_mem_temporary_alloc(5); ns_dyn_mem_free(ptr3); ns_dyn_mem_free(ptr4); CHECK(info.heap_sector_allocated_bytes == 0); free(heap); } TEST(dynmem, test_temp_alloc_with_skipping_hole) { uint16_t size = 1000; mem_stat_t info; void *p[size]; uint8_t *heap = (uint8_t*)malloc(size); CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); void *ptr1 = ns_dyn_mem_temporary_alloc(15); void *ptr2 = ns_dyn_mem_temporary_alloc(5); ns_dyn_mem_free(ptr1); void *ptr3 = ns_dyn_mem_temporary_alloc(35); ns_dyn_mem_free(ptr2); ns_dyn_mem_free(ptr3); CHECK(info.heap_sector_allocated_bytes == 0); free(heap); } TEST(dynmem, zero_allocate) { uint16_t size = 1000; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); uint8_t *ptr = heap; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); ns_dyn_mem_alloc(0); CHECK(heap_have_failed()); CHECK(NS_DYN_MEM_ALLOCATE_SIZE_NOT_VALID == current_heap_error); free(heap); } TEST(dynmem, too_big) { uint16_t size = 1000; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); uint8_t *ptr = heap; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); ns_dyn_mem_alloc(size); CHECK(heap_have_failed()); CHECK(NS_DYN_MEM_ALLOCATE_SIZE_NOT_VALID == current_heap_error); free(heap); } TEST(dynmem, corrupted_memory) { uint16_t size = 1000; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); uint8_t *ptr = heap; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); int *pt = (int *)ns_dyn_mem_alloc(8); CHECK(!heap_have_failed()); pt -= 2; *pt = 0; ns_dyn_mem_alloc(8); CHECK(NS_DYN_MEM_HEAP_SECTOR_CORRUPTED == current_heap_error); free(heap); } TEST(dynmem, no_big_enough_sector) { uint16_t size = 112; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); uint8_t *ptr = heap; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); int *pt = (int *)ns_dyn_mem_alloc(8); pt = (int *)ns_dyn_mem_alloc(8); ns_dyn_mem_alloc(8); ns_dyn_mem_temporary_alloc(8); ns_dyn_mem_temporary_alloc(8); ns_dyn_mem_free(pt); pt = (int *)ns_dyn_mem_temporary_alloc(32); CHECK(NULL == pt); free(heap); } TEST(dynmem, diff_sizes) { uint16_t size = 1000; mem_stat_t info; void *p; uint8_t *heap = (uint8_t*)malloc(size); CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); int i; for (i=1; i<(size-64); i++) { p = ns_dyn_mem_temporary_alloc(i); CHECK(p); ns_dyn_mem_free(p); CHECK(!heap_have_failed()); } CHECK(!heap_have_failed()); CHECK(info.heap_sector_alloc_cnt == 0); free(heap); } TEST(dynmem, double_free) { uint16_t size = 1000; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); void *p; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); p = ns_dyn_mem_alloc(100); CHECK(p); ns_dyn_mem_free(p); CHECK(!heap_have_failed()); ns_dyn_mem_free(p); CHECK(heap_have_failed()); CHECK(NS_DYN_MEM_DOUBLE_FREE == current_heap_error); free(heap); } TEST(dynmem, middle_free) { uint16_t size = 1000; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); void *p[3]; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); for (int i=0; i<3; i++) { p[i] = ns_dyn_mem_temporary_alloc(100); CHECK(p); } ns_dyn_mem_free(p[1]); CHECK(!heap_have_failed()); ns_dyn_mem_free(p[0]); CHECK(!heap_have_failed()); ns_dyn_mem_free(p[2]); CHECK(!heap_have_failed()); free(heap); } TEST(dynmem, over_by_one) { uint16_t size = 1000; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); uint8_t *p; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); p = (uint8_t *)ns_dyn_mem_alloc(100); CHECK(p); p[100] = 0xff; ns_dyn_mem_free(p); CHECK(heap_have_failed()); CHECK(NS_DYN_MEM_HEAP_SECTOR_CORRUPTED == current_heap_error); free(heap); } TEST(dynmem, not_from_this_heap) { uint16_t size = 1000; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); uint8_t *p; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); p = (uint8_t *)ns_dyn_mem_alloc(100); CHECK(p); ns_dyn_mem_free(&heap[-1]); CHECK(heap_have_failed()); CHECK(NS_DYN_MEM_POINTER_NOT_VALID == current_heap_error); reset_heap_error(); ns_dyn_mem_free(&heap[1001]); CHECK(heap_have_failed()); CHECK(NS_DYN_MEM_POINTER_NOT_VALID == current_heap_error); free(heap); } TEST(dynmem, free_on_empty_heap) { uint16_t size = 1000; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); uint8_t *p; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); ns_dyn_mem_free(&heap[1]); CHECK(heap_have_failed()); CHECK(NS_DYN_MEM_POINTER_NOT_VALID == current_heap_error); free(heap); } TEST(dynmem, not_negative_stats) { uint16_t size = 1000; mem_stat_t info; uint8_t *heap = (uint8_t*)malloc(size); void *p; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, &info); CHECK(!heap_have_failed()); CHECK(info.heap_sector_allocated_bytes == 0); ns_dyn_mem_alloc(8); p = ns_dyn_mem_alloc(8); ns_dyn_mem_alloc(8); CHECK(info.heap_sector_allocated_bytes >= 24); int16_t last_value = info.heap_sector_allocated_bytes; ns_dyn_mem_free(p); CHECK(info.heap_sector_allocated_bytes >= 16); CHECK(info.heap_sector_allocated_bytes < last_value); last_value = info.heap_sector_allocated_bytes; for (int i=0; i<10; i++) { p = ns_dyn_mem_alloc(1); ns_dyn_mem_free(p); } CHECK(info.heap_sector_allocated_bytes == last_value); free(heap); } TEST(dynmem, test_invalid_pointer_freed) { uint16_t size = 92; uint8_t *heap = (uint8_t*)malloc(size); CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, NULL); int *ptr = (int *)ns_dyn_mem_alloc(4); ptr--; *ptr = 16; ptr++; ns_dyn_mem_free(ptr); CHECK(NS_DYN_MEM_POINTER_NOT_VALID == current_heap_error); free(heap); } TEST(dynmem, test_merge_corrupted_previous_block) { uint16_t size = 1000; uint8_t *heap = (uint8_t*)malloc(size); uint8_t *p; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, NULL); CHECK(!heap_have_failed()); int *ptr = (int *)ns_dyn_mem_alloc(4); int *ptr2 = (int *)ns_dyn_mem_alloc(4); ns_dyn_mem_free(ptr); ptr = ptr2 - 2; *ptr = -2; ns_dyn_mem_free(ptr2); CHECK(NS_DYN_MEM_HEAP_SECTOR_CORRUPTED == current_heap_error); free(heap); } TEST(dynmem, test_free_corrupted_next_block) { uint16_t size = 1000; uint8_t *heap = (uint8_t*)malloc(size); uint8_t *p; CHECK(NULL != heap); reset_heap_error(); ns_dyn_mem_init(heap, size, &heap_fail_callback, NULL); CHECK(!heap_have_failed()); int *ptr = (int *)ns_dyn_mem_temporary_alloc(4); int *ptr2 = (int *)ns_dyn_mem_temporary_alloc(4); ns_dyn_mem_free(ptr); ptr = ptr2 + 2; *ptr = -2; ns_dyn_mem_free(ptr2); CHECK(NS_DYN_MEM_HEAP_SECTOR_CORRUPTED == current_heap_error); free(heap); } //NOTE! This test must be last! TEST(dynmem, uninitialized_test){ void *p = ns_dyn_mem_alloc(4); ns_dyn_mem_free(p); CHECK(p == NULL); }