// Copyright 2010 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Tests of profiles generator and utilities. #include "include/v8-profiler.h" #include "src/api/api-inl.h" #include "src/base/strings.h" #include "src/init/v8.h" #include "src/logging/log.h" #include "src/objects/objects-inl.h" #include "src/profiler/cpu-profiler.h" #include "src/profiler/profile-generator-inl.h" #include "src/profiler/symbolizer.h" #include "test/cctest/cctest.h" #include "test/cctest/profiler-extension.h" namespace v8 { namespace internal { namespace test_profile_generator { TEST(ProfileNodeFindOrAddChild) { CcTest::InitializeVM(); ProfileTree tree(CcTest::i_isolate()); ProfileNode* node = tree.root(); CodeEntry entry1(i::CodeEventListener::FUNCTION_TAG, "aaa"); ProfileNode* childNode1 = node->FindOrAddChild(&entry1); CHECK(childNode1); CHECK_EQ(childNode1, node->FindOrAddChild(&entry1)); CodeEntry entry2(i::CodeEventListener::FUNCTION_TAG, "bbb"); ProfileNode* childNode2 = node->FindOrAddChild(&entry2); CHECK(childNode2); CHECK_NE(childNode1, childNode2); CHECK_EQ(childNode1, node->FindOrAddChild(&entry1)); CHECK_EQ(childNode2, node->FindOrAddChild(&entry2)); CodeEntry entry3(i::CodeEventListener::FUNCTION_TAG, "ccc"); ProfileNode* childNode3 = node->FindOrAddChild(&entry3); CHECK(childNode3); CHECK_NE(childNode1, childNode3); CHECK_NE(childNode2, childNode3); CHECK_EQ(childNode1, node->FindOrAddChild(&entry1)); CHECK_EQ(childNode2, node->FindOrAddChild(&entry2)); CHECK_EQ(childNode3, node->FindOrAddChild(&entry3)); } TEST(ProfileNodeFindOrAddChildWithLineNumber) { CcTest::InitializeVM(); ProfileTree tree(CcTest::i_isolate()); ProfileNode* root = tree.root(); CodeEntry a(i::CodeEventListener::FUNCTION_TAG, "a"); ProfileNode* a_node = root->FindOrAddChild(&a, -1); // a --(22)--> child1 // --(23)--> child1 CodeEntry child1(i::CodeEventListener::FUNCTION_TAG, "child1"); ProfileNode* child1_node = a_node->FindOrAddChild(&child1, 22); CHECK(child1_node); CHECK_EQ(child1_node, a_node->FindOrAddChild(&child1, 22)); ProfileNode* child2_node = a_node->FindOrAddChild(&child1, 23); CHECK(child2_node); CHECK_NE(child1_node, child2_node); } TEST(ProfileNodeFindOrAddChildForSameFunction) { CcTest::InitializeVM(); const char* aaa = "aaa"; ProfileTree tree(CcTest::i_isolate()); ProfileNode* node = tree.root(); CodeEntry entry1(i::CodeEventListener::FUNCTION_TAG, aaa); ProfileNode* childNode1 = node->FindOrAddChild(&entry1); CHECK(childNode1); CHECK_EQ(childNode1, node->FindOrAddChild(&entry1)); // The same function again. CodeEntry entry2(i::CodeEventListener::FUNCTION_TAG, aaa); CHECK_EQ(childNode1, node->FindOrAddChild(&entry2)); // Now with a different security token. CodeEntry entry3(i::CodeEventListener::FUNCTION_TAG, aaa); CHECK_EQ(childNode1, node->FindOrAddChild(&entry3)); } namespace { class ProfileTreeTestHelper { public: explicit ProfileTreeTestHelper(const ProfileTree* tree) : tree_(tree) { } ProfileNode* Walk(CodeEntry* entry1, CodeEntry* entry2 = nullptr, CodeEntry* entry3 = nullptr) { ProfileNode* node = tree_->root(); node = node->FindChild(entry1); if (node == nullptr) return nullptr; if (entry2 != nullptr) { node = node->FindChild(entry2); if (node == nullptr) return nullptr; } if (entry3 != nullptr) { node = node->FindChild(entry3); } return node; } private: const ProfileTree* tree_; }; } // namespace TEST(ProfileTreeAddPathFromEnd) { CcTest::InitializeVM(); CodeEntry entry1(i::CodeEventListener::FUNCTION_TAG, "aaa"); CodeEntry entry2(i::CodeEventListener::FUNCTION_TAG, "bbb"); CodeEntry entry3(i::CodeEventListener::FUNCTION_TAG, "ccc"); ProfileTree tree(CcTest::i_isolate()); ProfileTreeTestHelper helper(&tree); CHECK(!helper.Walk(&entry1)); CHECK(!helper.Walk(&entry2)); CHECK(!helper.Walk(&entry3)); CodeEntry* path[] = {nullptr, &entry3, nullptr, &entry2, nullptr, nullptr, &entry1, nullptr}; std::vector path_vec(path, path + arraysize(path)); tree.AddPathFromEnd(path_vec); CHECK(!helper.Walk(&entry2)); CHECK(!helper.Walk(&entry3)); ProfileNode* node1 = helper.Walk(&entry1); CHECK(node1); CHECK_EQ(0u, node1->self_ticks()); CHECK(!helper.Walk(&entry1, &entry1)); CHECK(!helper.Walk(&entry1, &entry3)); ProfileNode* node2 = helper.Walk(&entry1, &entry2); CHECK(node2); CHECK_NE(node1, node2); CHECK_EQ(0u, node2->self_ticks()); CHECK(!helper.Walk(&entry1, &entry2, &entry1)); CHECK(!helper.Walk(&entry1, &entry2, &entry2)); ProfileNode* node3 = helper.Walk(&entry1, &entry2, &entry3); CHECK(node3); CHECK_NE(node1, node3); CHECK_NE(node2, node3); CHECK_EQ(1u, node3->self_ticks()); tree.AddPathFromEnd(path_vec); CHECK_EQ(node1, helper.Walk(&entry1)); CHECK_EQ(node2, helper.Walk(&entry1, &entry2)); CHECK_EQ(node3, helper.Walk(&entry1, &entry2, &entry3)); CHECK_EQ(0u, node1->self_ticks()); CHECK_EQ(0u, node2->self_ticks()); CHECK_EQ(2u, node3->self_ticks()); CodeEntry* path2[] = {&entry2, &entry2, &entry1}; std::vector path2_vec(path2, path2 + arraysize(path2)); tree.AddPathFromEnd(path2_vec); CHECK(!helper.Walk(&entry2)); CHECK(!helper.Walk(&entry3)); CHECK_EQ(node1, helper.Walk(&entry1)); CHECK(!helper.Walk(&entry1, &entry1)); CHECK(!helper.Walk(&entry1, &entry3)); CHECK_EQ(node2, helper.Walk(&entry1, &entry2)); CHECK(!helper.Walk(&entry1, &entry2, &entry1)); CHECK_EQ(node3, helper.Walk(&entry1, &entry2, &entry3)); CHECK_EQ(2u, node3->self_ticks()); ProfileNode* node4 = helper.Walk(&entry1, &entry2, &entry2); CHECK(node4); CHECK_NE(node3, node4); CHECK_EQ(1u, node4->self_ticks()); } TEST(ProfileTreeAddPathFromEndWithLineNumbers) { CcTest::InitializeVM(); CodeEntry a(i::CodeEventListener::FUNCTION_TAG, "a"); CodeEntry b(i::CodeEventListener::FUNCTION_TAG, "b"); CodeEntry c(i::CodeEventListener::FUNCTION_TAG, "c"); ProfileTree tree(CcTest::i_isolate()); ProfileTreeTestHelper helper(&tree); ProfileStackTrace path = {{&c, 5}, {&b, 3}, {&a, 1}}; tree.AddPathFromEnd(path, v8::CpuProfileNode::kNoLineNumberInfo, true, v8::CpuProfilingMode::kCallerLineNumbers); ProfileNode* a_node = tree.root()->FindChild(&a, v8::CpuProfileNode::kNoLineNumberInfo); tree.Print(); CHECK(a_node); ProfileNode* b_node = a_node->FindChild(&b, 1); CHECK(b_node); ProfileNode* c_node = b_node->FindChild(&c, 3); CHECK(c_node); } TEST(ProfileTreeCalculateTotalTicks) { CcTest::InitializeVM(); ProfileTree empty_tree(CcTest::i_isolate()); CHECK_EQ(0u, empty_tree.root()->self_ticks()); empty_tree.root()->IncrementSelfTicks(); CHECK_EQ(1u, empty_tree.root()->self_ticks()); CodeEntry entry1(i::CodeEventListener::FUNCTION_TAG, "aaa"); CodeEntry* e1_path[] = {&entry1}; std::vector e1_path_vec(e1_path, e1_path + arraysize(e1_path)); ProfileTree single_child_tree(CcTest::i_isolate()); single_child_tree.AddPathFromEnd(e1_path_vec); single_child_tree.root()->IncrementSelfTicks(); CHECK_EQ(1u, single_child_tree.root()->self_ticks()); ProfileTreeTestHelper single_child_helper(&single_child_tree); ProfileNode* node1 = single_child_helper.Walk(&entry1); CHECK(node1); CHECK_EQ(1u, single_child_tree.root()->self_ticks()); CHECK_EQ(1u, node1->self_ticks()); CodeEntry entry2(i::CodeEventListener::FUNCTION_TAG, "bbb"); CodeEntry* e2_e1_path[] = {&entry2, &entry1}; std::vector e2_e1_path_vec(e2_e1_path, e2_e1_path + arraysize(e2_e1_path)); ProfileTree flat_tree(CcTest::i_isolate()); ProfileTreeTestHelper flat_helper(&flat_tree); flat_tree.AddPathFromEnd(e1_path_vec); flat_tree.AddPathFromEnd(e1_path_vec); flat_tree.AddPathFromEnd(e2_e1_path_vec); flat_tree.AddPathFromEnd(e2_e1_path_vec); flat_tree.AddPathFromEnd(e2_e1_path_vec); // Results in {root,0,0} -> {entry1,0,2} -> {entry2,0,3} CHECK_EQ(0u, flat_tree.root()->self_ticks()); node1 = flat_helper.Walk(&entry1); CHECK(node1); CHECK_EQ(2u, node1->self_ticks()); ProfileNode* node2 = flat_helper.Walk(&entry1, &entry2); CHECK(node2); CHECK_EQ(3u, node2->self_ticks()); // Must calculate {root,5,0} -> {entry1,5,2} -> {entry2,3,3} CHECK_EQ(0u, flat_tree.root()->self_ticks()); CHECK_EQ(2u, node1->self_ticks()); CodeEntry* e2_path[] = {&entry2}; std::vector e2_path_vec(e2_path, e2_path + arraysize(e2_path)); CodeEntry entry3(i::CodeEventListener::FUNCTION_TAG, "ccc"); CodeEntry* e3_path[] = {&entry3}; std::vector e3_path_vec(e3_path, e3_path + arraysize(e3_path)); ProfileTree wide_tree(CcTest::i_isolate()); ProfileTreeTestHelper wide_helper(&wide_tree); wide_tree.AddPathFromEnd(e1_path_vec); wide_tree.AddPathFromEnd(e1_path_vec); wide_tree.AddPathFromEnd(e2_e1_path_vec); wide_tree.AddPathFromEnd(e2_path_vec); wide_tree.AddPathFromEnd(e2_path_vec); wide_tree.AddPathFromEnd(e2_path_vec); wide_tree.AddPathFromEnd(e3_path_vec); wide_tree.AddPathFromEnd(e3_path_vec); wide_tree.AddPathFromEnd(e3_path_vec); wide_tree.AddPathFromEnd(e3_path_vec); // Results in -> {entry1,0,2} -> {entry2,0,1} // {root,0,0} -> {entry2,0,3} // -> {entry3,0,4} CHECK_EQ(0u, wide_tree.root()->self_ticks()); node1 = wide_helper.Walk(&entry1); CHECK(node1); CHECK_EQ(2u, node1->self_ticks()); ProfileNode* node1_2 = wide_helper.Walk(&entry1, &entry2); CHECK(node1_2); CHECK_EQ(1u, node1_2->self_ticks()); node2 = wide_helper.Walk(&entry2); CHECK(node2); CHECK_EQ(3u, node2->self_ticks()); ProfileNode* node3 = wide_helper.Walk(&entry3); CHECK(node3); CHECK_EQ(4u, node3->self_ticks()); // Calculates -> {entry1,3,2} -> {entry2,1,1} // {root,10,0} -> {entry2,3,3} // -> {entry3,4,4} CHECK_EQ(0u, wide_tree.root()->self_ticks()); CHECK_EQ(2u, node1->self_ticks()); CHECK_EQ(1u, node1_2->self_ticks()); CHECK_EQ(3u, node2->self_ticks()); CHECK_EQ(4u, node3->self_ticks()); } static inline i::Address ToAddress(int n) { return static_cast(n); } static inline void* ToPointer(int n) { return reinterpret_cast(n); } TEST(CodeMapAddCode) { CodeEntryStorage storage; CodeMap code_map(storage); CodeEntry* entry1 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "aaa"); CodeEntry* entry2 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "bbb"); CodeEntry* entry3 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "ccc"); CodeEntry* entry4 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "ddd"); code_map.AddCode(ToAddress(0x1500), entry1, 0x200); code_map.AddCode(ToAddress(0x1700), entry2, 0x100); code_map.AddCode(ToAddress(0x1900), entry3, 0x50); code_map.AddCode(ToAddress(0x1950), entry4, 0x10); CHECK(!code_map.FindEntry(0)); CHECK(!code_map.FindEntry(ToAddress(0x1500 - 1))); CHECK_EQ(entry1, code_map.FindEntry(ToAddress(0x1500))); CHECK_EQ(entry1, code_map.FindEntry(ToAddress(0x1500 + 0x100))); CHECK_EQ(entry1, code_map.FindEntry(ToAddress(0x1500 + 0x200 - 1))); CHECK_EQ(entry2, code_map.FindEntry(ToAddress(0x1700))); CHECK_EQ(entry2, code_map.FindEntry(ToAddress(0x1700 + 0x50))); CHECK_EQ(entry2, code_map.FindEntry(ToAddress(0x1700 + 0x100 - 1))); CHECK(!code_map.FindEntry(ToAddress(0x1700 + 0x100))); CHECK(!code_map.FindEntry(ToAddress(0x1900 - 1))); CHECK_EQ(entry3, code_map.FindEntry(ToAddress(0x1900))); CHECK_EQ(entry3, code_map.FindEntry(ToAddress(0x1900 + 0x28))); CHECK_EQ(entry4, code_map.FindEntry(ToAddress(0x1950))); CHECK_EQ(entry4, code_map.FindEntry(ToAddress(0x1950 + 0x7))); CHECK_EQ(entry4, code_map.FindEntry(ToAddress(0x1950 + 0x10 - 1))); CHECK(!code_map.FindEntry(ToAddress(0x1950 + 0x10))); CHECK(!code_map.FindEntry(ToAddress(0xFFFFFFFF))); } TEST(CodeMapMoveAndDeleteCode) { CodeEntryStorage storage; CodeMap code_map(storage); CodeEntry* entry1 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "aaa"); CodeEntry* entry2 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "bbb"); code_map.AddCode(ToAddress(0x1500), entry1, 0x200); code_map.AddCode(ToAddress(0x1700), entry2, 0x100); CHECK_EQ(entry1, code_map.FindEntry(ToAddress(0x1500))); CHECK_EQ(entry2, code_map.FindEntry(ToAddress(0x1700))); code_map.MoveCode(ToAddress(0x1500), ToAddress(0x1700)); // Deprecate bbb. CHECK(!code_map.FindEntry(ToAddress(0x1500))); CHECK_EQ(entry1, code_map.FindEntry(ToAddress(0x1700))); } TEST(CodeMapClear) { CodeEntryStorage storage; CodeMap code_map(storage); CodeEntry* entry1 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "aaa"); CodeEntry* entry2 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "bbb"); code_map.AddCode(ToAddress(0x1500), entry1, 0x200); code_map.AddCode(ToAddress(0x1700), entry2, 0x100); code_map.Clear(); CHECK(!code_map.FindEntry(ToAddress(0x1500))); CHECK(!code_map.FindEntry(ToAddress(0x1700))); // Check that Clear() doesn't cause issues if called twice. code_map.Clear(); } namespace { class TestSetup { public: TestSetup() : old_flag_prof_browser_mode_(i::FLAG_prof_browser_mode) { i::FLAG_prof_browser_mode = false; } ~TestSetup() { i::FLAG_prof_browser_mode = old_flag_prof_browser_mode_; } private: bool old_flag_prof_browser_mode_; }; } // namespace TEST(SymbolizeTickSample) { TestSetup test_setup; CodeEntryStorage storage; CodeMap code_map(storage); Symbolizer symbolizer(&code_map); CodeEntry* entry1 = storage.Create(i::Logger::FUNCTION_TAG, "aaa"); CodeEntry* entry2 = storage.Create(i::Logger::FUNCTION_TAG, "bbb"); CodeEntry* entry3 = storage.Create(i::Logger::FUNCTION_TAG, "ccc"); symbolizer.code_map()->AddCode(ToAddress(0x1500), entry1, 0x200); symbolizer.code_map()->AddCode(ToAddress(0x1700), entry2, 0x100); symbolizer.code_map()->AddCode(ToAddress(0x1900), entry3, 0x50); // We are building the following calls tree: // -> aaa - sample1 // aaa -> bbb -> ccc - sample2 // -> ccc -> aaa - sample3 TickSample sample1; sample1.pc = ToPointer(0x1600); sample1.tos = ToPointer(0x1500); sample1.stack[0] = ToPointer(0x1510); sample1.frames_count = 1; Symbolizer::SymbolizedSample symbolized = symbolizer.SymbolizeTickSample(sample1); ProfileStackTrace& stack_trace = symbolized.stack_trace; CHECK_EQ(2, stack_trace.size()); CHECK_EQ(entry1, stack_trace[0].code_entry); CHECK_EQ(entry1, stack_trace[1].code_entry); TickSample sample2; sample2.pc = ToPointer(0x1925); sample2.tos = ToPointer(0x1900); sample2.stack[0] = ToPointer(0x1780); sample2.stack[1] = ToPointer(0x10000); // non-existent. sample2.stack[2] = ToPointer(0x1620); sample2.frames_count = 3; symbolized = symbolizer.SymbolizeTickSample(sample2); stack_trace = symbolized.stack_trace; CHECK_EQ(4, stack_trace.size()); CHECK_EQ(entry3, stack_trace[0].code_entry); CHECK_EQ(entry2, stack_trace[1].code_entry); CHECK_EQ(nullptr, stack_trace[2].code_entry); CHECK_EQ(entry1, stack_trace[3].code_entry); TickSample sample3; sample3.pc = ToPointer(0x1510); sample3.tos = ToPointer(0x1500); sample3.stack[0] = ToPointer(0x1910); sample3.stack[1] = ToPointer(0x1610); sample3.frames_count = 2; symbolized = symbolizer.SymbolizeTickSample(sample3); stack_trace = symbolized.stack_trace; CHECK_EQ(3, stack_trace.size()); CHECK_EQ(entry1, stack_trace[0].code_entry); CHECK_EQ(entry3, stack_trace[1].code_entry); CHECK_EQ(entry1, stack_trace[2].code_entry); } static void CheckNodeIds(const ProfileNode* node, unsigned* expectedId) { CHECK_EQ((*expectedId)++, node->id()); for (const ProfileNode* child : *node->children()) { CheckNodeIds(child, expectedId); } } TEST(SampleIds) { TestSetup test_setup; i::Isolate* isolate = CcTest::i_isolate(); CpuProfiler profiler(isolate); CpuProfilesCollection profiles(isolate); profiles.set_cpu_profiler(&profiler); profiles.StartProfiling("", {CpuProfilingMode::kLeafNodeLineNumbers}); CodeEntryStorage storage; CodeMap code_map(storage); Symbolizer symbolizer(&code_map); CodeEntry* entry1 = storage.Create(i::Logger::FUNCTION_TAG, "aaa"); CodeEntry* entry2 = storage.Create(i::Logger::FUNCTION_TAG, "bbb"); CodeEntry* entry3 = storage.Create(i::Logger::FUNCTION_TAG, "ccc"); symbolizer.code_map()->AddCode(ToAddress(0x1500), entry1, 0x200); symbolizer.code_map()->AddCode(ToAddress(0x1700), entry2, 0x100); symbolizer.code_map()->AddCode(ToAddress(0x1900), entry3, 0x50); // We are building the following calls tree: // -> aaa #3 - sample1 // (root)#1 -> aaa #2 -> bbb #4 -> ccc #5 - sample2 // -> ccc #6 -> aaa #7 - sample3 TickSample sample1; sample1.timestamp = v8::base::TimeTicks::HighResolutionNow(); sample1.pc = ToPointer(0x1600); sample1.stack[0] = ToPointer(0x1510); sample1.frames_count = 1; auto symbolized = symbolizer.SymbolizeTickSample(sample1); profiles.AddPathToCurrentProfiles(sample1.timestamp, symbolized.stack_trace, symbolized.src_line, true, base::TimeDelta()); TickSample sample2; sample2.timestamp = v8::base::TimeTicks::HighResolutionNow(); sample2.pc = ToPointer(0x1925); sample2.stack[0] = ToPointer(0x1780); sample2.stack[1] = ToPointer(0x10000); // non-existent. sample2.stack[2] = ToPointer(0x1620); sample2.frames_count = 3; symbolized = symbolizer.SymbolizeTickSample(sample2); profiles.AddPathToCurrentProfiles(sample2.timestamp, symbolized.stack_trace, symbolized.src_line, true, base::TimeDelta()); TickSample sample3; sample3.timestamp = v8::base::TimeTicks::HighResolutionNow(); sample3.pc = ToPointer(0x1510); sample3.stack[0] = ToPointer(0x1910); sample3.stack[1] = ToPointer(0x1610); sample3.frames_count = 2; symbolized = symbolizer.SymbolizeTickSample(sample3); profiles.AddPathToCurrentProfiles(sample3.timestamp, symbolized.stack_trace, symbolized.src_line, true, base::TimeDelta()); CpuProfile* profile = profiles.StopProfiling(""); unsigned nodeId = 1; CheckNodeIds(profile->top_down()->root(), &nodeId); CHECK_EQ(7u, nodeId - 1); CHECK_EQ(3, profile->samples_count()); unsigned expected_id[] = {3, 5, 7}; for (int i = 0; i < 3; i++) { CHECK_EQ(expected_id[i], profile->sample(i).node->id()); } } namespace { class DiscardedSamplesDelegateImpl : public v8::DiscardedSamplesDelegate { public: DiscardedSamplesDelegateImpl() : DiscardedSamplesDelegate() {} void Notify() override {} }; class MockPlatform : public TestPlatform { public: MockPlatform() : old_platform_(i::V8::GetCurrentPlatform()), mock_task_runner_(new MockTaskRunner()) { // Now that it's completely constructed, make this the current platform. i::V8::SetPlatformForTesting(this); } // When done, explicitly revert to old_platform_. ~MockPlatform() override { i::V8::SetPlatformForTesting(old_platform_); } std::shared_ptr GetForegroundTaskRunner( v8::Isolate*) override { return mock_task_runner_; } int posted_count() { return mock_task_runner_->posted_count(); } private: class MockTaskRunner : public v8::TaskRunner { public: void PostTask(std::unique_ptr task) override { task->Run(); posted_count_++; } void PostDelayedTask(std::unique_ptr task, double delay_in_seconds) override { task_ = std::move(task); delay_ = delay_in_seconds; } void PostIdleTask(std::unique_ptr task) override { UNREACHABLE(); } bool IdleTasksEnabled() override { return false; } int posted_count() { return posted_count_; } private: int posted_count_ = 0; double delay_ = -1; std::unique_ptr task_; }; v8::Platform* old_platform_; std::shared_ptr mock_task_runner_; }; } // namespace TEST(MaxSamplesCallback) { i::Isolate* isolate = CcTest::i_isolate(); CpuProfilesCollection profiles(isolate); CpuProfiler profiler(isolate); profiles.set_cpu_profiler(&profiler); MockPlatform* mock_platform = new MockPlatform(); std::unique_ptr impl = std::make_unique( DiscardedSamplesDelegateImpl()); profiles.StartProfiling("", {v8::CpuProfilingMode::kLeafNodeLineNumbers, 1, 1, MaybeLocal()}, std::move(impl)); CodeEntryStorage storage; CodeMap code_map(storage); Symbolizer symbolizer(&code_map); TickSample sample1; sample1.timestamp = v8::base::TimeTicks::HighResolutionNow(); sample1.pc = ToPointer(0x1600); sample1.stack[0] = ToPointer(0x1510); sample1.frames_count = 1; auto symbolized = symbolizer.SymbolizeTickSample(sample1); profiles.AddPathToCurrentProfiles(sample1.timestamp, symbolized.stack_trace, symbolized.src_line, true, base::TimeDelta()); CHECK_EQ(0, mock_platform->posted_count()); TickSample sample2; sample2.timestamp = v8::base::TimeTicks::HighResolutionNow(); sample2.pc = ToPointer(0x1925); sample2.stack[0] = ToPointer(0x1780); sample2.frames_count = 2; symbolized = symbolizer.SymbolizeTickSample(sample2); profiles.AddPathToCurrentProfiles(sample2.timestamp, symbolized.stack_trace, symbolized.src_line, true, base::TimeDelta()); CHECK_EQ(1, mock_platform->posted_count()); TickSample sample3; sample3.timestamp = v8::base::TimeTicks::HighResolutionNow(); sample3.pc = ToPointer(0x1510); sample3.frames_count = 3; symbolized = symbolizer.SymbolizeTickSample(sample3); profiles.AddPathToCurrentProfiles(sample3.timestamp, symbolized.stack_trace, symbolized.src_line, true, base::TimeDelta()); CHECK_EQ(1, mock_platform->posted_count()); // Teardown profiles.StopProfiling(""); delete mock_platform; } TEST(NoSamples) { TestSetup test_setup; i::Isolate* isolate = CcTest::i_isolate(); CpuProfiler profiler(isolate); CpuProfilesCollection profiles(isolate); profiles.set_cpu_profiler(&profiler); profiles.StartProfiling(""); CodeEntryStorage storage; CodeMap code_map(storage); Symbolizer symbolizer(&code_map); CodeEntry* entry1 = storage.Create(i::Logger::FUNCTION_TAG, "aaa"); symbolizer.code_map()->AddCode(ToAddress(0x1500), entry1, 0x200); // We are building the following calls tree: // (root)#1 -> aaa #2 -> aaa #3 - sample1 TickSample sample1; sample1.pc = ToPointer(0x1600); sample1.stack[0] = ToPointer(0x1510); sample1.frames_count = 1; auto symbolized = symbolizer.SymbolizeTickSample(sample1); profiles.AddPathToCurrentProfiles(v8::base::TimeTicks::HighResolutionNow(), symbolized.stack_trace, symbolized.src_line, true, base::TimeDelta()); CpuProfile* profile = profiles.StopProfiling(""); unsigned nodeId = 1; CheckNodeIds(profile->top_down()->root(), &nodeId); CHECK_EQ(3u, nodeId - 1); CHECK_EQ(1, profile->samples_count()); } static const ProfileNode* PickChild(const ProfileNode* parent, const char* name) { for (const ProfileNode* child : *parent->children()) { if (strcmp(child->entry()->name(), name) == 0) return child; } return nullptr; } TEST(RecordStackTraceAtStartProfiling) { // This test does not pass with inlining enabled since inlined functions // don't appear in the stack trace. i::FLAG_turbo_inlining = false; v8::HandleScope scope(CcTest::isolate()); v8::Local env = CcTest::NewContext({PROFILER_EXTENSION_ID}); v8::Context::Scope context_scope(env); std::unique_ptr iprofiler( new i::CpuProfiler(CcTest::i_isolate())); i::ProfilerExtension::set_profiler(iprofiler.get()); CompileRun( "function c() { startProfiling(); }\n" "function b() { c(); }\n" "function a() { b(); }\n" "a();\n" "stopProfiling();"); CHECK_EQ(1, iprofiler->GetProfilesCount()); CpuProfile* profile = iprofiler->GetProfile(0); const ProfileTree* topDown = profile->top_down(); const ProfileNode* current = topDown->root(); const_cast(current)->Print(0); // The tree should look like this: // (root) // "" // a // b // c // There can also be: // startProfiling // if the sampler managed to get a tick. current = PickChild(current, ""); CHECK(const_cast(current)); current = PickChild(current, "a"); CHECK(const_cast(current)); current = PickChild(current, "b"); CHECK(const_cast(current)); current = PickChild(current, "c"); CHECK(const_cast(current)); CHECK(current->children()->empty() || current->children()->size() == 1); if (current->children()->size() == 1) { current = PickChild(current, "startProfiling"); CHECK(current->children()->empty()); } } TEST(Issue51919) { CpuProfilesCollection collection(CcTest::i_isolate()); CpuProfiler profiler(CcTest::i_isolate()); collection.set_cpu_profiler(&profiler); base::EmbeddedVector titles; for (int i = 0; i < CpuProfilesCollection::kMaxSimultaneousProfiles; ++i) { base::Vector title = v8::base::Vector::New(16); base::SNPrintF(title, "%d", i); CHECK_EQ(CpuProfilingStatus::kStarted, collection.StartProfiling(title.begin())); titles[i] = title.begin(); } CHECK_EQ(CpuProfilingStatus::kErrorTooManyProfilers, collection.StartProfiling("maximum")); for (int i = 0; i < CpuProfilesCollection::kMaxSimultaneousProfiles; ++i) i::DeleteArray(titles[i]); } static const v8::CpuProfileNode* PickChild(const v8::CpuProfileNode* parent, const char* name) { for (int i = 0; i < parent->GetChildrenCount(); ++i) { const v8::CpuProfileNode* child = parent->GetChild(i); v8::String::Utf8Value function_name(CcTest::isolate(), child->GetFunctionName()); if (strcmp(*function_name, name) == 0) return child; } return nullptr; } TEST(ProfileNodeScriptId) { // This test does not pass with inlining enabled since inlined functions // don't appear in the stack trace. i::FLAG_turbo_inlining = false; v8::HandleScope scope(CcTest::isolate()); v8::Local env = CcTest::NewContext({PROFILER_EXTENSION_ID}); v8::Context::Scope context_scope(env); std::unique_ptr iprofiler(new CpuProfiler(CcTest::i_isolate())); i::ProfilerExtension::set_profiler(iprofiler.get()); v8::Local script_a = v8_compile(v8_str("function a() { startProfiling(); }\n")); script_a->Run(env).ToLocalChecked(); v8::Local script_b = v8_compile(v8_str("function b() { a(); }\n" "b();\n" "stopProfiling();\n")); script_b->Run(env).ToLocalChecked(); CHECK_EQ(1, iprofiler->GetProfilesCount()); const v8::CpuProfile* profile = i::ProfilerExtension::last_profile; const v8::CpuProfileNode* current = profile->GetTopDownRoot(); reinterpret_cast( const_cast(current))->Print(0); // The tree should look like this: // (root) // "" // b // a // There can also be: // startProfiling // if the sampler managed to get a tick. current = PickChild(current, ""); CHECK(const_cast(current)); current = PickChild(current, "b"); CHECK(const_cast(current)); CHECK_EQ(script_b->GetUnboundScript()->GetId(), current->GetScriptId()); current = PickChild(current, "a"); CHECK(const_cast(current)); CHECK_EQ(script_a->GetUnboundScript()->GetId(), current->GetScriptId()); } static const char* line_number_test_source_existing_functions = "function foo_at_the_first_line() {\n" "}\n" "foo_at_the_first_line();\n" "function lazy_func_at_forth_line() {}\n"; static const char* line_number_test_source_profile_time_functions = "// Empty first line\n" "function bar_at_the_second_line() {\n" " foo_at_the_first_line();\n" "}\n" "bar_at_the_second_line();\n" "function lazy_func_at_6th_line() {}"; int GetFunctionLineNumber(CpuProfiler* profiler, LocalContext* env, i::Isolate* isolate, const char* name) { CodeMap* code_map = profiler->symbolizer()->code_map(); i::Handle func = i::Handle::cast( v8::Utils::OpenHandle(*v8::Local::Cast( (*env)->Global()->Get(env->local(), v8_str(name)).ToLocalChecked()))); CodeEntry* func_entry = code_map->FindEntry(func->abstract_code(isolate).InstructionStart()); if (!func_entry) FATAL("%s", name); return func_entry->line_number(); } TEST(LineNumber) { CcTest::InitializeVM(); LocalContext env; i::Isolate* isolate = CcTest::i_isolate(); TestSetup test_setup; i::HandleScope scope(isolate); CompileRun(line_number_test_source_existing_functions); CpuProfiler profiler(isolate); profiler.StartProfiling("LineNumber"); CompileRun(line_number_test_source_profile_time_functions); profiler.processor()->StopSynchronously(); bool is_lazy = i::FLAG_lazy; CHECK_EQ(1, GetFunctionLineNumber(&profiler, &env, isolate, "foo_at_the_first_line")); CHECK_EQ(is_lazy ? 0 : 4, GetFunctionLineNumber(&profiler, &env, isolate, "lazy_func_at_forth_line")); CHECK_EQ(2, GetFunctionLineNumber(&profiler, &env, isolate, "bar_at_the_second_line")); CHECK_EQ(is_lazy ? 0 : 6, GetFunctionLineNumber(&profiler, &env, isolate, "lazy_func_at_6th_line")); profiler.StopProfiling("LineNumber"); } TEST(BailoutReason) { #ifndef V8_LITE_MODE i::FLAG_allow_natives_syntax = true; i::FLAG_always_opt = false; i::FLAG_opt = true; v8::HandleScope scope(CcTest::isolate()); v8::Local env = CcTest::NewContext({PROFILER_EXTENSION_ID}); v8::Context::Scope context_scope(env); std::unique_ptr iprofiler(new CpuProfiler(CcTest::i_isolate())); i::ProfilerExtension::set_profiler(iprofiler.get()); CHECK_EQ(0, iprofiler->GetProfilesCount()); v8::Local function = CompileRun( "function Debugger() {\n" " startProfiling();\n" "}" "Debugger") .As(); i::Handle i_function = i::Handle::cast(v8::Utils::OpenHandle(*function)); USE(i_function); CompileRun( "%PrepareFunctionForOptimization(Debugger);" "%OptimizeFunctionOnNextCall(Debugger);" "%NeverOptimizeFunction(Debugger);" "Debugger();" "stopProfiling()"); CHECK_EQ(1, iprofiler->GetProfilesCount()); const v8::CpuProfile* profile = i::ProfilerExtension::last_profile; CHECK(profile); const v8::CpuProfileNode* current = profile->GetTopDownRoot(); reinterpret_cast( const_cast(current))->Print(0); // The tree should look like this: // (root) // "" // kOptimizationDisabledForTest current = PickChild(current, ""); CHECK(const_cast(current)); current = PickChild(current, "Debugger"); CHECK(const_cast(current)); CHECK( !strcmp("Optimization is always disabled", current->GetBailoutReason())); #endif // V8_LITE_MODE } TEST(NodeSourceTypes) { ProfileTree tree(CcTest::i_isolate()); CodeEntry function_entry(CodeEventListener::FUNCTION_TAG, "function"); tree.AddPathFromEnd({&function_entry}); CodeEntry builtin_entry(CodeEventListener::BUILTIN_TAG, "builtin"); tree.AddPathFromEnd({&builtin_entry}); CodeEntry callback_entry(CodeEventListener::CALLBACK_TAG, "callback"); tree.AddPathFromEnd({&callback_entry}); CodeEntry regex_entry(CodeEventListener::REG_EXP_TAG, "regex"); tree.AddPathFromEnd({®ex_entry}); CodeEntry stub_entry(CodeEventListener::STUB_TAG, "stub"); tree.AddPathFromEnd({&stub_entry}); tree.AddPathFromEnd({CodeEntry::gc_entry()}); tree.AddPathFromEnd({CodeEntry::idle_entry()}); tree.AddPathFromEnd({CodeEntry::program_entry()}); tree.AddPathFromEnd({CodeEntry::unresolved_entry()}); auto* root = tree.root(); CHECK(root); CHECK_EQ(root->source_type(), v8::CpuProfileNode::kInternal); auto* function_node = PickChild(root, "function"); CHECK(function_node); CHECK_EQ(function_node->source_type(), v8::CpuProfileNode::kScript); auto* builtin_node = PickChild(root, "builtin"); CHECK(builtin_node); CHECK_EQ(builtin_node->source_type(), v8::CpuProfileNode::kBuiltin); auto* callback_node = PickChild(root, "callback"); CHECK(callback_node); CHECK_EQ(callback_node->source_type(), v8::CpuProfileNode::kCallback); auto* regex_node = PickChild(root, "regex"); CHECK(regex_node); CHECK_EQ(regex_node->source_type(), v8::CpuProfileNode::kInternal); auto* stub_node = PickChild(root, "stub"); CHECK(stub_node); CHECK_EQ(stub_node->source_type(), v8::CpuProfileNode::kInternal); auto* gc_node = PickChild(root, "(garbage collector)"); CHECK(gc_node); CHECK_EQ(gc_node->source_type(), v8::CpuProfileNode::kInternal); auto* idle_node = PickChild(root, "(idle)"); CHECK(idle_node); CHECK_EQ(idle_node->source_type(), v8::CpuProfileNode::kInternal); auto* program_node = PickChild(root, "(program)"); CHECK(program_node); CHECK_EQ(program_node->source_type(), v8::CpuProfileNode::kInternal); auto* unresolved_node = PickChild(root, "(unresolved function)"); CHECK(unresolved_node); CHECK_EQ(unresolved_node->source_type(), v8::CpuProfileNode::kUnresolved); } TEST(CodeMapRemoveCode) { CodeEntryStorage storage; CodeMap code_map(storage); CodeEntry* entry = storage.Create(i::CodeEventListener::FUNCTION_TAG, "aaa"); code_map.AddCode(ToAddress(0x1000), entry, 0x100); CHECK(code_map.RemoveCode(entry)); CHECK(!code_map.FindEntry(ToAddress(0x1000))); // Test that when two entries share the same address, we remove only the // entry that we desired to. CodeEntry* colliding_entry1 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "aaa"); CodeEntry* colliding_entry2 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "aaa"); code_map.AddCode(ToAddress(0x1000), colliding_entry1, 0x100); code_map.AddCode(ToAddress(0x1000), colliding_entry2, 0x100); CHECK(code_map.RemoveCode(colliding_entry1)); CHECK_EQ(code_map.FindEntry(ToAddress(0x1000)), colliding_entry2); CHECK(code_map.RemoveCode(colliding_entry2)); CHECK(!code_map.FindEntry(ToAddress(0x1000))); } TEST(CodeMapMoveOverlappingCode) { CodeEntryStorage storage; CodeMap code_map(storage); CodeEntry* colliding_entry1 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "aaa"); CodeEntry* colliding_entry2 = storage.Create(i::CodeEventListener::FUNCTION_TAG, "bbb"); CodeEntry* after_entry = storage.Create(i::CodeEventListener::FUNCTION_TAG, "ccc"); code_map.AddCode(ToAddress(0x1400), colliding_entry1, 0x200); code_map.AddCode(ToAddress(0x1400), colliding_entry2, 0x200); code_map.AddCode(ToAddress(0x1800), after_entry, 0x200); CHECK_EQ(colliding_entry1->instruction_start(), ToAddress(0x1400)); CHECK_EQ(colliding_entry2->instruction_start(), ToAddress(0x1400)); CHECK_EQ(after_entry->instruction_start(), ToAddress(0x1800)); CHECK(code_map.FindEntry(ToAddress(0x1400))); CHECK_EQ(code_map.FindEntry(ToAddress(0x1800)), after_entry); code_map.MoveCode(ToAddress(0x1400), ToAddress(0x1600)); CHECK(!code_map.FindEntry(ToAddress(0x1400))); CHECK(code_map.FindEntry(ToAddress(0x1600))); CHECK_EQ(code_map.FindEntry(ToAddress(0x1800)), after_entry); CHECK_EQ(colliding_entry1->instruction_start(), ToAddress(0x1600)); CHECK_EQ(colliding_entry2->instruction_start(), ToAddress(0x1600)); CHECK_EQ(after_entry->instruction_start(), ToAddress(0x1800)); } } // namespace test_profile_generator } // namespace internal } // namespace v8