/* * Copyright (C) 2018 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 "test/test_helper.h" #include "perfetto/base/compiler.h" #include "perfetto/ext/tracing/core/trace_packet.h" #include "perfetto/ext/tracing/ipc/default_socket.h" #include "perfetto/tracing/core/tracing_service_state.h" #include "protos/perfetto/trace/trace_packet.pbzero.h" namespace perfetto { namespace { const char* ProducerSocketForMode(TestHelper::Mode mode) { #if !PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) base::ignore_result(mode); return ::perfetto::GetProducerSocket(); #else switch (mode) { case TestHelper::Mode::kStartDaemons: return "/data/local/tmp/traced_producer"; case TestHelper::Mode::kUseSystemService: return ::perfetto::GetProducerSocket(); } #endif } const char* ConsumerSocketForMode(TestHelper::Mode mode) { #if !PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) base::ignore_result(mode); return ::perfetto::GetConsumerSocket(); #else switch (mode) { case TestHelper::Mode::kStartDaemons: return "/data/local/tmp/traced_consumer"; case TestHelper::Mode::kUseSystemService: return ::perfetto::GetConsumerSocket(); } #endif } } // namespace uint64_t TestHelper::next_instance_num_ = 0; #if PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS) TestHelper::Mode TestHelper::kDefaultMode = Mode::kStartDaemons; #else TestHelper::Mode TestHelper::kDefaultMode = Mode::kUseSystemService; #endif TestHelper::TestHelper(base::TestTaskRunner* task_runner, Mode mode) : instance_num_(next_instance_num_++), task_runner_(task_runner), mode_(mode), producer_socket_(ProducerSocketForMode(mode)), consumer_socket_(ConsumerSocketForMode(mode)), service_thread_(producer_socket_, consumer_socket_), fake_producer_thread_(producer_socket_, WrapTask(CreateCheckpoint("producer.connect")), WrapTask(CreateCheckpoint("producer.setup")), WrapTask(CreateCheckpoint("producer.enabled"))) {} void TestHelper::OnConnect() { std::move(on_connect_callback_)(); } void TestHelper::OnDisconnect() { PERFETTO_FATAL("Consumer unexpectedly disconnected from the service"); } void TestHelper::OnTracingDisabled(const std::string& /*error*/) { std::move(on_stop_tracing_callback_)(); on_stop_tracing_callback_ = nullptr; } void TestHelper::ReadTraceData(std::vector packets) { for (auto& encoded_packet : packets) { protos::gen::TracePacket packet; PERFETTO_CHECK( packet.ParseFromString(encoded_packet.GetRawBytesForTesting())); full_trace_.push_back(packet); if (packet.has_clock_snapshot() || packet.has_trace_config() || packet.has_trace_stats() || !packet.synchronization_marker().empty() || packet.has_system_info() || packet.has_service_event()) { continue; } PERFETTO_CHECK(packet.has_trusted_uid()); trace_.push_back(std::move(packet)); } } void TestHelper::OnTraceData(std::vector packets, bool has_more) { ReadTraceData(std::move(packets)); if (!has_more) { std::move(on_packets_finished_callback_)(); } } void TestHelper::StartServiceIfRequired() { if (mode_ == Mode::kStartDaemons) service_thread_.Start(); } FakeProducer* TestHelper::ConnectFakeProducer() { fake_producer_thread_.Connect(); // This will wait until the service has seen the RegisterDataSource() call // (because of the Sync() in FakeProducer::OnConnect()). RunUntilCheckpoint("producer.connect"); return fake_producer_thread_.producer(); } void TestHelper::ConnectConsumer() { cur_consumer_num_++; on_connect_callback_ = CreateCheckpoint("consumer.connected." + std::to_string(cur_consumer_num_)); endpoint_ = ConsumerIPCClient::Connect(consumer_socket_, this, task_runner_); } void TestHelper::DetachConsumer(const std::string& key) { on_detach_callback_ = CreateCheckpoint("detach." + key); endpoint_->Detach(key); RunUntilCheckpoint("detach." + key); endpoint_.reset(); } bool TestHelper::AttachConsumer(const std::string& key) { bool success = false; auto checkpoint = CreateCheckpoint("attach." + key); on_attach_callback_ = [&success, checkpoint](bool s) { success = s; checkpoint(); }; endpoint_->Attach(key); RunUntilCheckpoint("attach." + key); return success; } bool TestHelper::SaveTraceForBugreportAndWait() { bool success = false; auto checkpoint = CreateCheckpoint("bugreport"); auto callback = [&success, checkpoint](bool s, const std::string&) { success = s; checkpoint(); }; endpoint_->SaveTraceForBugreport(callback); RunUntilCheckpoint("bugreport"); return success; } void TestHelper::CreateProducerProvidedSmb() { fake_producer_thread_.CreateProducerProvidedSmb(); } bool TestHelper::IsShmemProvidedByProducer() { return fake_producer_thread_.producer()->IsShmemProvidedByProducer(); } void TestHelper::ProduceStartupEventBatch( const protos::gen::TestConfig& config) { auto on_data_written = CreateCheckpoint("startup_data_written"); fake_producer_thread_.ProduceStartupEventBatch(config, WrapTask(on_data_written)); RunUntilCheckpoint("startup_data_written"); } void TestHelper::StartTracing(const TraceConfig& config, base::ScopedFile file) { PERFETTO_CHECK(!on_stop_tracing_callback_); trace_.clear(); on_stop_tracing_callback_ = CreateCheckpoint("stop.tracing" + std::to_string(++trace_count_)); endpoint_->EnableTracing(config, std::move(file)); } void TestHelper::DisableTracing() { endpoint_->DisableTracing(); } void TestHelper::FlushAndWait(uint32_t timeout_ms) { static int flush_num = 0; std::string checkpoint_name = "flush." + std::to_string(flush_num++); auto checkpoint = CreateCheckpoint(checkpoint_name); endpoint_->Flush(timeout_ms, [checkpoint](bool) { checkpoint(); }); RunUntilCheckpoint(checkpoint_name, timeout_ms + 1000); } void TestHelper::ReadData(uint32_t read_count) { on_packets_finished_callback_ = CreateCheckpoint("readback.complete." + std::to_string(read_count)); endpoint_->ReadBuffers(); } void TestHelper::FreeBuffers() { endpoint_->FreeBuffers(); } void TestHelper::WaitForConsumerConnect() { RunUntilCheckpoint("consumer.connected." + std::to_string(cur_consumer_num_)); } void TestHelper::WaitForProducerSetup() { RunUntilCheckpoint("producer.setup"); } void TestHelper::WaitForProducerEnabled() { RunUntilCheckpoint("producer.enabled"); } void TestHelper::WaitForTracingDisabled(uint32_t timeout_ms) { RunUntilCheckpoint(std::string("stop.tracing") + std::to_string(trace_count_), timeout_ms); } void TestHelper::WaitForReadData(uint32_t read_count, uint32_t timeout_ms) { RunUntilCheckpoint("readback.complete." + std::to_string(read_count), timeout_ms); } void TestHelper::SyncAndWaitProducer() { static int sync_id = 0; std::string checkpoint_name = "producer_sync_" + std::to_string(++sync_id); auto checkpoint = CreateCheckpoint(checkpoint_name); fake_producer_thread_.producer()->Sync( [this, &checkpoint] { task_runner_->PostTask(checkpoint); }); RunUntilCheckpoint(checkpoint_name); } TracingServiceState TestHelper::QueryServiceStateAndWait() { TracingServiceState res; auto checkpoint = CreateCheckpoint("query_svc_state"); auto callback = [&checkpoint, &res](bool, const TracingServiceState& tss) { res = tss; checkpoint(); }; endpoint_->QueryServiceState(callback); RunUntilCheckpoint("query_svc_state"); return res; } std::function TestHelper::WrapTask( const std::function& function) { return [this, function] { task_runner_->PostTask(function); }; } void TestHelper::OnDetach(bool) { if (on_detach_callback_) std::move(on_detach_callback_)(); } void TestHelper::OnAttach(bool success, const TraceConfig&) { if (on_attach_callback_) std::move(on_attach_callback_)(success); } void TestHelper::OnTraceStats(bool, const TraceStats&) {} void TestHelper::OnObservableEvents(const ObservableEvents&) {} // static const char* TestHelper::GetDefaultModeConsumerSocketName() { return ConsumerSocketForMode(TestHelper::kDefaultMode); } // static const char* TestHelper::GetDefaultModeProducerSocketName() { return ProducerSocketForMode(TestHelper::kDefaultMode); } } // namespace perfetto