/* * Copyright (C) 2019 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 #include #include #include #include #include "perfetto/base/logging.h" #include "perfetto/tracing/core/data_source_config.h" #include "src/base/test/test_task_runner.h" #include "test/android_test_utils.h" #include "test/gtest_and_gmock.h" #include "test/test_helper.h" #include "protos/perfetto/config/profiling/heapprofd_config.gen.h" #include "protos/perfetto/trace/profiling/profile_common.gen.h" #include "protos/perfetto/trace/profiling/profile_packet.gen.h" #include "protos/perfetto/trace/trace_packet.gen.h" namespace perfetto { namespace { // Size of individual (repeated) allocations done by the test apps (must be kept // in sync with their sources). constexpr uint64_t kTestSamplingInterval = 4096; constexpr uint64_t kExpectedIndividualAllocSz = 4153; // Tests rely on the sampling behaviour where allocations larger than the // sampling interval are recorded at their actual size. static_assert(kExpectedIndividualAllocSz > kTestSamplingInterval, "kTestSamplingInterval invalid"); // Activity that runs a JNI thread that repeatedly calls // malloc(kExpectedIndividualAllocSz). static char kMallocActivity[] = "MainActivity"; // Activity that runs a java thread that repeatedly constructs small java // objects. static char kJavaAllocActivity[] = "JavaAllocActivity"; std::string RandomSessionName() { std::random_device rd; std::default_random_engine generator(rd()); std::uniform_int_distribution<> distribution('a', 'z'); constexpr size_t kSessionNameLen = 20; std::string result(kSessionNameLen, '\0'); for (size_t i = 0; i < kSessionNameLen; ++i) result[i] = static_cast(distribution(generator)); return result; } // Starts the activity `activity` of the app `app_name` and later starts // recording a trace with the allocations in `heap_names`. // // `heap_names` is a list of the heap names whose allocations will be recorded. // An empty list means that only the allocations in the default malloc heap // ("libc.malloc") are recorded. // // Returns the recorded trace. std::vector ProfileRuntime( const std::string& app_name, const std::string& activity, const std::vector& heap_names) { base::TestTaskRunner task_runner; // (re)start the target app's main activity if (IsAppRunning(app_name)) { StopApp(app_name, "old.app.stopped", &task_runner); task_runner.RunUntilCheckpoint("old.app.stopped", 10000 /*ms*/); } StartAppActivity(app_name, activity, "target.app.running", &task_runner, /*delay_ms=*/100); task_runner.RunUntilCheckpoint("target.app.running", 10000 /*ms*/); // set up tracing TestHelper helper(&task_runner); helper.ConnectConsumer(); helper.WaitForConsumerConnect(); TraceConfig trace_config; trace_config.add_buffers()->set_size_kb(10 * 1024); trace_config.set_duration_ms(4000); trace_config.set_unique_session_name(RandomSessionName().c_str()); auto* ds_config = trace_config.add_data_sources()->mutable_config(); ds_config->set_name("android.heapprofd"); ds_config->set_target_buffer(0); protos::gen::HeapprofdConfig heapprofd_config; heapprofd_config.set_sampling_interval_bytes(kTestSamplingInterval); heapprofd_config.add_process_cmdline(app_name.c_str()); heapprofd_config.set_block_client(true); heapprofd_config.set_all(false); for (const std::string& heap_name : heap_names) { heapprofd_config.add_heaps(heap_name); } ds_config->set_heapprofd_config_raw(heapprofd_config.SerializeAsString()); // start tracing helper.StartTracing(trace_config); helper.WaitForTracingDisabled(); helper.ReadData(); helper.WaitForReadData(); return helper.trace(); } // Starts recording a trace with the allocations in `heap_names` and later // starts the activity `activity` of the app `app_name` // // `heap_names` is a list of the heap names whose allocations will be recorded. // An empty list means that only the allocation in the default malloc heap // ("libc.malloc") are recorded. // // Returns the recorded trace. std::vector ProfileStartup( const std::string& app_name, const std::string& activity, const std::vector& heap_names, const bool enable_extra_guardrails = false) { base::TestTaskRunner task_runner; if (IsAppRunning(app_name)) { StopApp(app_name, "old.app.stopped", &task_runner); task_runner.RunUntilCheckpoint("old.app.stopped", 10000 /*ms*/); } // set up tracing TestHelper helper(&task_runner); helper.ConnectConsumer(); helper.WaitForConsumerConnect(); TraceConfig trace_config; trace_config.add_buffers()->set_size_kb(10 * 1024); trace_config.set_duration_ms(4000); trace_config.set_enable_extra_guardrails(enable_extra_guardrails); trace_config.set_unique_session_name(RandomSessionName().c_str()); auto* ds_config = trace_config.add_data_sources()->mutable_config(); ds_config->set_name("android.heapprofd"); ds_config->set_target_buffer(0); protos::gen::HeapprofdConfig heapprofd_config; heapprofd_config.set_sampling_interval_bytes(kTestSamplingInterval); heapprofd_config.add_process_cmdline(app_name.c_str()); heapprofd_config.set_block_client(true); heapprofd_config.set_all(false); for (const std::string& heap_name : heap_names) { heapprofd_config.add_heaps(heap_name); } ds_config->set_heapprofd_config_raw(heapprofd_config.SerializeAsString()); // start tracing helper.StartTracing(trace_config); // start app StartAppActivity(app_name, activity, "target.app.running", &task_runner, /*delay_ms=*/100); task_runner.RunUntilCheckpoint("target.app.running", 10000 /*ms*/); helper.WaitForTracingDisabled(); helper.ReadData(); helper.WaitForReadData(); return helper.trace(); } // Check that `packets` contain some allocations performed by kMallocActivity. void AssertExpectedMallocsPresent( const std::vector& packets) { ASSERT_GT(packets.size(), 0u); // TODO(rsavitski): assert particular stack frames once we clarify the // expected behaviour of unwinding native libs within an apk. // Until then, look for an allocation that is a multiple of the expected // allocation size. bool found_alloc = false; bool found_proc_dump = false; for (const auto& packet : packets) { for (const auto& proc_dump : packet.profile_packet().process_dumps()) { found_proc_dump = true; for (const auto& sample : proc_dump.samples()) { if (sample.self_allocated() > 0 && sample.self_allocated() % kExpectedIndividualAllocSz == 0) { found_alloc = true; EXPECT_TRUE(sample.self_freed() > 0 && sample.self_freed() % kExpectedIndividualAllocSz == 0) << "self_freed: " << sample.self_freed(); } } } } ASSERT_TRUE(found_proc_dump); ASSERT_TRUE(found_alloc); } // Check that `packets` contain some allocations performed by // kJavaAllocActivity. void AssertExpectedArtAllocsPresent( const std::vector& packets) { ASSERT_GT(packets.size(), 0u); bool found_alloc = false; bool found_proc_dump = false; for (const auto& packet : packets) { for (const auto& proc_dump : packet.profile_packet().process_dumps()) { found_proc_dump = true; for (const auto& sample : proc_dump.samples()) { if (sample.self_allocated() > 0) { found_alloc = true; } } } } ASSERT_TRUE(found_proc_dump); ASSERT_TRUE(found_alloc); } void AssertNoProfileContents( const std::vector& packets) { // If profile packets are present, they must be empty. for (const auto& packet : packets) { ASSERT_EQ(packet.profile_packet().process_dumps_size(), 0); } } TEST(HeapprofdCtsTest, DebuggableAppRuntime) { std::string app_name = "android.perfetto.cts.app.debuggable"; const auto& packets = ProfileRuntime(app_name, kMallocActivity, /*heap_names=*/{}); AssertExpectedMallocsPresent(packets); StopApp(app_name); } TEST(HeapprofdCtsTest, DebuggableAppStartup) { std::string app_name = "android.perfetto.cts.app.debuggable"; const auto& packets = ProfileStartup(app_name, kMallocActivity, /*heap_names=*/{}); AssertExpectedMallocsPresent(packets); StopApp(app_name); } TEST(HeapprofdCtsTest, ProfileableAppRuntime) { std::string app_name = "android.perfetto.cts.app.profileable"; const auto& packets = ProfileRuntime(app_name, kMallocActivity, /*heap_names=*/{}); AssertExpectedMallocsPresent(packets); StopApp(app_name); } TEST(HeapprofdCtsTest, ProfileableAppStartup) { std::string app_name = "android.perfetto.cts.app.profileable"; const auto& packets = ProfileStartup(app_name, kMallocActivity, /*heap_names=*/{}); AssertExpectedMallocsPresent(packets); StopApp(app_name); } TEST(HeapprofdCtsTest, ReleaseAppRuntime) { std::string app_name = "android.perfetto.cts.app.release"; const auto& packets = ProfileRuntime(app_name, kMallocActivity, /*heap_names=*/{}); if (IsUserBuild()) AssertNoProfileContents(packets); else AssertExpectedMallocsPresent(packets); StopApp(app_name); } TEST(HeapprofdCtsTest, ReleaseAppStartup) { std::string app_name = "android.perfetto.cts.app.release"; const auto& packets = ProfileStartup(app_name, kMallocActivity, /*heap_names=*/{}); if (IsUserBuild()) AssertNoProfileContents(packets); else AssertExpectedMallocsPresent(packets); StopApp(app_name); } TEST(HeapprofdCtsTest, NonProfileableAppRuntime) { std::string app_name = "android.perfetto.cts.app.nonprofileable"; const auto& packets = ProfileRuntime(app_name, kMallocActivity, /*heap_names=*/{}); if (IsUserBuild()) AssertNoProfileContents(packets); else AssertExpectedMallocsPresent(packets); StopApp(app_name); } TEST(HeapprofdCtsTest, NonProfileableAppStartup) { std::string app_name = "android.perfetto.cts.app.nonprofileable"; const auto& packets = ProfileStartup(app_name, kMallocActivity, /*heap_names=*/{}); if (IsUserBuild()) AssertNoProfileContents(packets); else AssertExpectedMallocsPresent(packets); StopApp(app_name); } TEST(HeapprofdCtsTest, JavaHeapRuntime) { std::string app_name = "android.perfetto.cts.app.debuggable"; const auto& packets = ProfileRuntime(app_name, kJavaAllocActivity, /*heap_names=*/{"com.android.art"}); AssertExpectedArtAllocsPresent(packets); StopApp(app_name); } TEST(HeapprofdCtsTest, JavaHeapStartup) { std::string app_name = "android.perfetto.cts.app.debuggable"; const auto& packets = ProfileStartup(app_name, kJavaAllocActivity, /*heap_names=*/{"com.android.art"}); AssertExpectedArtAllocsPresent(packets); StopApp(app_name); } } // namespace } // namespace perfetto