/* * Copyright (C) 2016 The Android Open Source Project * * 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 "HeapWalker.h" #include "LeakFolding.h" #include #include #include "Allocator.h" class LeakFoldingTest : public ::testing::Test { public: LeakFoldingTest() : disable_malloc_(), heap_() {} void TearDown() { ASSERT_TRUE(heap_.empty()); if (!HasFailure()) { ASSERT_FALSE(disable_malloc_.timed_out()); } } protected: ScopedDisableMallocTimeout disable_malloc_; Heap heap_; }; #define buffer_begin(buffer) reinterpret_cast(&(buffer)[0]) #define buffer_end(buffer) (reinterpret_cast(&(buffer)[0]) + sizeof(buffer)) #define ALLOCATION(heap_walker, buffer) \ ASSERT_EQ(true, (heap_walker).Allocation(buffer_begin(buffer), buffer_end(buffer))) TEST_F(LeakFoldingTest, one) { void* buffer1[1] = {nullptr}; HeapWalker heap_walker(heap_); ALLOCATION(heap_walker, buffer1); LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(1U, num_leaks); EXPECT_EQ(sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(1U, leaked.size()); EXPECT_EQ(0U, leaked[0].referenced_count); EXPECT_EQ(0U, leaked[0].referenced_size); } TEST_F(LeakFoldingTest, two) { void* buffer1[1] = {nullptr}; void* buffer2[1] = {nullptr}; HeapWalker heap_walker(heap_); ALLOCATION(heap_walker, buffer1); ALLOCATION(heap_walker, buffer2); LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(2U, num_leaks); EXPECT_EQ(2*sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(2U, leaked.size()); EXPECT_EQ(0U, leaked[0].referenced_count); EXPECT_EQ(0U, leaked[0].referenced_size); EXPECT_EQ(0U, leaked[1].referenced_count); EXPECT_EQ(0U, leaked[1].referenced_size); } TEST_F(LeakFoldingTest, dominator) { void* buffer1[1]; void* buffer2[1] = {nullptr}; buffer1[0] = buffer2; HeapWalker heap_walker(heap_); ALLOCATION(heap_walker, buffer1); ALLOCATION(heap_walker, buffer2); LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(2U, num_leaks); EXPECT_EQ(2*sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(1U, leaked.size()); EXPECT_EQ(1U, leaked[0].referenced_count); EXPECT_EQ(sizeof(uintptr_t), leaked[0].referenced_size); } TEST_F(LeakFoldingTest, cycle) { void* buffer1[1]; void* buffer2[1]; void* buffer3[1]; buffer1[0] = buffer2; buffer2[0] = buffer3; buffer3[0] = buffer2; HeapWalker heap_walker(heap_); ALLOCATION(heap_walker, buffer1); ALLOCATION(heap_walker, buffer2); ALLOCATION(heap_walker, buffer3); LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(3U, num_leaks); EXPECT_EQ(3*sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(1U, leaked.size()); EXPECT_EQ(2U, leaked[0].referenced_count); EXPECT_EQ(2*sizeof(uintptr_t), leaked[0].referenced_size); } TEST_F(LeakFoldingTest, dominator_cycle) { void* buffer1[2] = {nullptr, nullptr}; void* buffer2[2]; void* buffer3[1] = {nullptr}; buffer1[0] = &buffer2; buffer2[0] = &buffer1; buffer2[1] = &buffer3; HeapWalker heap_walker(heap_); ALLOCATION(heap_walker, buffer1); ALLOCATION(heap_walker, buffer2); ALLOCATION(heap_walker, buffer3); LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(3U, num_leaks); EXPECT_EQ(5*sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(2U, leaked.size()); EXPECT_EQ(2U, leaked[0].referenced_count); EXPECT_EQ(3*sizeof(uintptr_t), leaked[0].referenced_size); EXPECT_EQ(2U, leaked[1].referenced_count); EXPECT_EQ(3*sizeof(uintptr_t), leaked[1].referenced_size); } TEST_F(LeakFoldingTest, two_cycles) { void* buffer1[1]; void* buffer2[1]; void* buffer3[1]; void* buffer4[1]; void* buffer5[1]; void* buffer6[1]; buffer1[0] = buffer3; buffer2[0] = buffer5; buffer3[0] = buffer4; buffer4[0] = buffer3; buffer5[0] = buffer6; buffer6[0] = buffer5; HeapWalker heap_walker(heap_); ALLOCATION(heap_walker, buffer1); ALLOCATION(heap_walker, buffer2); ALLOCATION(heap_walker, buffer3); ALLOCATION(heap_walker, buffer4); ALLOCATION(heap_walker, buffer5); ALLOCATION(heap_walker, buffer6); LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(6U, num_leaks); EXPECT_EQ(6*sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(2U, leaked.size()); EXPECT_EQ(2U, leaked[0].referenced_count); EXPECT_EQ(2*sizeof(uintptr_t), leaked[0].referenced_size); EXPECT_EQ(2U, leaked[1].referenced_count); EXPECT_EQ(2*sizeof(uintptr_t), leaked[1].referenced_size); } TEST_F(LeakFoldingTest, two_dominator_cycles) { void* buffer1[1]; void* buffer2[1]; void* buffer3[1]; void* buffer4[1]; buffer1[0] = buffer2; buffer2[0] = buffer1; buffer3[0] = buffer4; buffer4[0] = buffer3; HeapWalker heap_walker(heap_); ALLOCATION(heap_walker, buffer1); ALLOCATION(heap_walker, buffer2); ALLOCATION(heap_walker, buffer3); ALLOCATION(heap_walker, buffer4); LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(4U, num_leaks); EXPECT_EQ(4*sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(4U, leaked.size()); EXPECT_EQ(1U, leaked[0].referenced_count); EXPECT_EQ(sizeof(uintptr_t), leaked[0].referenced_size); EXPECT_EQ(1U, leaked[1].referenced_count); EXPECT_EQ(sizeof(uintptr_t), leaked[1].referenced_size); EXPECT_EQ(1U, leaked[2].referenced_count); EXPECT_EQ(sizeof(uintptr_t), leaked[2].referenced_size); EXPECT_EQ(1U, leaked[3].referenced_count); EXPECT_EQ(sizeof(uintptr_t), leaked[3].referenced_size); } TEST_F(LeakFoldingTest, giant_dominator_cycle) { const size_t n = 1000; void* buffer[n]; HeapWalker heap_walker(heap_); for (size_t i = 0; i < n; i ++) { ASSERT_TRUE(heap_walker.Allocation(reinterpret_cast(&buffer[i]), reinterpret_cast(&buffer[i+1]))); } for (size_t i = 0; i < n - 1; i++) { buffer[i] = &buffer[i+1]; } buffer[n - 1] = &buffer[0]; LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(n, num_leaks); EXPECT_EQ(n * sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(1000U, leaked.size()); EXPECT_EQ(n - 1, leaked[0].referenced_count); EXPECT_EQ((n - 1) * sizeof(uintptr_t), leaked[0].referenced_size); } TEST_F(LeakFoldingTest, giant_cycle) { const size_t n = 1000; void* buffer[n]; void* buffer1[1]; HeapWalker heap_walker(heap_); for (size_t i = 0; i < n - 1; i++) { buffer[i] = &buffer[i+1]; } buffer[n - 1] = &buffer[0]; buffer1[0] = &buffer[0]; for (size_t i = 0; i < n; i ++) { ASSERT_TRUE(heap_walker.Allocation(reinterpret_cast(&buffer[i]), reinterpret_cast(&buffer[i+1]))); } ALLOCATION(heap_walker, buffer1); LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(n + 1, num_leaks); EXPECT_EQ((n + 1) * sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(1U, leaked.size()); EXPECT_EQ(n, leaked[0].referenced_count); EXPECT_EQ(n * sizeof(uintptr_t), leaked[0].referenced_size); } TEST_F(LeakFoldingTest, multipath) { void* buffer1[2]; void* buffer2[1]; void* buffer3[1]; void* buffer4[1] = {nullptr}; // 1 // / \ // v v // 2 3 // \ / // v // 4 buffer1[0] = &buffer2; buffer1[1] = &buffer3; buffer2[0] = &buffer4; buffer3[0] = &buffer4; HeapWalker heap_walker(heap_); ALLOCATION(heap_walker, buffer1); ALLOCATION(heap_walker, buffer2); ALLOCATION(heap_walker, buffer3); ALLOCATION(heap_walker, buffer4); LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(4U, num_leaks); EXPECT_EQ(5 * sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(1U, leaked.size()); EXPECT_EQ(3U, leaked[0].referenced_count); EXPECT_EQ(3 * sizeof(uintptr_t), leaked[0].referenced_size); } TEST_F(LeakFoldingTest, multicycle) { void* buffer1[2]{}; void* buffer2[2]{}; void* buffer3[2]{}; void* buffer4[2]{}; // 1 // / ^ // v \ // 2 -> 3 // \ ^ // v / // 4 buffer1[0] = &buffer2; buffer2[0] = &buffer3; buffer2[1] = &buffer4; buffer3[0] = &buffer1; buffer4[0] = &buffer3; HeapWalker heap_walker(heap_); ALLOCATION(heap_walker, buffer1); ALLOCATION(heap_walker, buffer2); ALLOCATION(heap_walker, buffer3); ALLOCATION(heap_walker, buffer4); LeakFolding folding(heap_, heap_walker); ASSERT_TRUE(folding.FoldLeaks()); allocator::vector leaked(heap_); size_t num_leaks = 0; size_t leaked_bytes = 0; ASSERT_EQ(true, folding.Leaked(leaked, &num_leaks, &leaked_bytes)); EXPECT_EQ(4U, num_leaks); EXPECT_EQ(8 * sizeof(uintptr_t), leaked_bytes); ASSERT_EQ(4U, leaked.size()); EXPECT_EQ(3U, leaked[0].referenced_count); EXPECT_EQ(6 * sizeof(uintptr_t), leaked[0].referenced_size); EXPECT_EQ(3U, leaked[1].referenced_count); EXPECT_EQ(6 * sizeof(uintptr_t), leaked[1].referenced_size); EXPECT_EQ(3U, leaked[2].referenced_count); EXPECT_EQ(6 * sizeof(uintptr_t), leaked[2].referenced_size); EXPECT_EQ(3U, leaked[3].referenced_count); EXPECT_EQ(6 * sizeof(uintptr_t), leaked[3].referenced_size); }