/* * 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. */ #ifndef TEST_TEST_HELPER_H_ #define TEST_TEST_HELPER_H_ #include #include #include "perfetto/ext/base/optional.h" #include "perfetto/ext/base/scoped_file.h" #include "perfetto/ext/base/thread_task_runner.h" #include "perfetto/ext/base/utils.h" #include "perfetto/ext/tracing/core/consumer.h" #include "perfetto/ext/tracing/core/shared_memory_arbiter.h" #include "perfetto/ext/tracing/core/trace_packet.h" #include "perfetto/ext/tracing/ipc/consumer_ipc_client.h" #include "perfetto/ext/tracing/ipc/service_ipc_host.h" #include "perfetto/tracing/core/trace_config.h" #include "src/base/test/test_task_runner.h" #include "test/fake_producer.h" #if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) // TODO(primiano): uncomment in next CL. // #include "src/tracing/ipc/shared_memory_windows.h" #else #include "src/traced/probes/probes_producer.h" #include "src/tracing/ipc/posix_shared_memory.h" #endif #include "protos/perfetto/trace/trace_packet.gen.h" namespace perfetto { // This value has been bumped to 10s in Oct 2020 because the x86 cuttlefish // emulator is sensibly slower (up to 10x) than real hw and caused flakes. // See bugs duped against b/171771440. constexpr uint32_t kDefaultTestTimeoutMs = 10000; // This is used only in daemon starting integrations tests. class ServiceThread { public: ServiceThread(const std::string& producer_socket, const std::string& consumer_socket) : producer_socket_(producer_socket), consumer_socket_(consumer_socket) {} ~ServiceThread() { if (!runner_) return; runner_->PostTaskAndWaitForTesting([this]() { svc_.reset(); }); } void Start() { runner_ = base::ThreadTaskRunner::CreateAndStart("perfetto.svc"); runner_->PostTaskAndWaitForTesting([this]() { svc_ = ServiceIPCHost::CreateInstance(runner_->get()); if (remove(producer_socket_.c_str()) == -1) { if (errno != ENOENT) PERFETTO_FATAL("Failed to remove %s", producer_socket_.c_str()); } if (remove(consumer_socket_.c_str()) == -1) { if (errno != ENOENT) PERFETTO_FATAL("Failed to remove %s", consumer_socket_.c_str()); } base::SetEnv("PERFETTO_PRODUCER_SOCK_NAME", producer_socket_); base::SetEnv("PERFETTO_CONSUMER_SOCK_NAME", consumer_socket_); bool res = svc_->Start(producer_socket_.c_str(), consumer_socket_.c_str()); if (!res) { PERFETTO_FATAL("Failed to start service listening on %s and %s", producer_socket_.c_str(), consumer_socket_.c_str()); } }); } base::ThreadTaskRunner* runner() { return runner_ ? &*runner_ : nullptr; } private: base::Optional runner_; // Keep first. std::string producer_socket_; std::string consumer_socket_; std::unique_ptr svc_; }; // This is used only in daemon starting integrations tests. #if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) // On Windows we don't have any traced_probes, make this a no-op to avoid // propagating #ifdefs to the outer test. class ProbesProducerThread { public: ProbesProducerThread(const std::string& /*producer_socket*/) {} void Connect() {} }; #else class ProbesProducerThread { public: ProbesProducerThread(const std::string& producer_socket) : producer_socket_(producer_socket) {} ~ProbesProducerThread() { if (!runner_) return; runner_->PostTaskAndWaitForTesting([this]() { producer_.reset(); }); } void Connect() { runner_ = base::ThreadTaskRunner::CreateAndStart("perfetto.prd.probes"); runner_->PostTaskAndWaitForTesting([this]() { producer_.reset(new ProbesProducer()); producer_->ConnectWithRetries(producer_socket_.c_str(), runner_->get()); }); } private: base::Optional runner_; // Keep first. std::string producer_socket_; std::unique_ptr producer_; }; #endif // !OS_WIN class FakeProducerThread { public: FakeProducerThread(const std::string& producer_socket, std::function connect_callback, std::function setup_callback, std::function start_callback) : producer_socket_(producer_socket), connect_callback_(std::move(connect_callback)), setup_callback_(std::move(setup_callback)), start_callback_(std::move(start_callback)) { runner_ = base::ThreadTaskRunner::CreateAndStart("perfetto.prd.fake"); runner_->PostTaskAndWaitForTesting([this]() { producer_.reset( new FakeProducer("android.perfetto.FakeProducer", runner_->get())); }); } ~FakeProducerThread() { runner_->PostTaskAndWaitForTesting([this]() { producer_.reset(); }); } void Connect() { runner_->PostTaskAndWaitForTesting([this]() { producer_->Connect(producer_socket_.c_str(), std::move(connect_callback_), std::move(setup_callback_), std::move(start_callback_), std::move(shm_), std::move(shm_arbiter_)); }); } base::ThreadTaskRunner* runner() { return runner_ ? &*runner_ : nullptr; } FakeProducer* producer() { return producer_.get(); } void CreateProducerProvidedSmb() { #if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) // TODO(primiano): in next CLs introduce SharedMemoryWindows. #else PosixSharedMemory::Factory factory; shm_ = factory.CreateSharedMemory(1024 * 1024); shm_arbiter_ = SharedMemoryArbiter::CreateUnboundInstance(shm_.get(), 4096); #endif } void ProduceStartupEventBatch(const protos::gen::TestConfig& config, std::function callback) { PERFETTO_CHECK(shm_arbiter_); producer_->ProduceStartupEventBatch(config, shm_arbiter_.get(), callback); } private: base::Optional runner_; // Keep first. std::string producer_socket_; std::unique_ptr producer_; std::function connect_callback_; std::function setup_callback_; std::function start_callback_; std::unique_ptr shm_; std::unique_ptr shm_arbiter_; }; class TestHelper : public Consumer { public: enum class Mode { kStartDaemons, kUseSystemService, }; static Mode kDefaultMode; static const char* GetDefaultModeConsumerSocketName(); static const char* GetDefaultModeProducerSocketName(); explicit TestHelper(base::TestTaskRunner* task_runner) : TestHelper(task_runner, kDefaultMode) {} explicit TestHelper(base::TestTaskRunner* task_runner, Mode mode); // Consumer implementation. void OnConnect() override; void OnDisconnect() override; void OnTracingDisabled(const std::string& error) override; virtual void ReadTraceData(std::vector packets); void OnTraceData(std::vector packets, bool has_more) override; void OnDetach(bool) override; void OnAttach(bool, const TraceConfig&) override; void OnTraceStats(bool, const TraceStats&) override; void OnObservableEvents(const ObservableEvents&) override; // Starts the tracing service if in kStartDaemons mode. void StartServiceIfRequired(); // Connects the producer and waits that the service has seen the // RegisterDataSource() call. FakeProducer* ConnectFakeProducer(); void ConnectConsumer(); void StartTracing(const TraceConfig& config, base::ScopedFile = base::ScopedFile()); void DisableTracing(); void FlushAndWait(uint32_t timeout_ms); void ReadData(uint32_t read_count = 0); void FreeBuffers(); void DetachConsumer(const std::string& key); bool AttachConsumer(const std::string& key); bool SaveTraceForBugreportAndWait(); void CreateProducerProvidedSmb(); bool IsShmemProvidedByProducer(); void ProduceStartupEventBatch(const protos::gen::TestConfig& config); void WaitForConsumerConnect(); void WaitForProducerSetup(); void WaitForProducerEnabled(); void WaitForTracingDisabled(uint32_t timeout_ms = kDefaultTestTimeoutMs); void WaitForReadData(uint32_t read_count = 0, uint32_t timeout_ms = kDefaultTestTimeoutMs); void SyncAndWaitProducer(); TracingServiceState QueryServiceStateAndWait(); std::string AddID(const std::string& checkpoint) { return checkpoint + "." + std::to_string(instance_num_); } std::function CreateCheckpoint(const std::string& checkpoint) { return task_runner_->CreateCheckpoint(AddID(checkpoint)); } void RunUntilCheckpoint(const std::string& checkpoint, uint32_t timeout_ms = kDefaultTestTimeoutMs) { return task_runner_->RunUntilCheckpoint(AddID(checkpoint), timeout_ms); } std::function WrapTask(const std::function& function); base::ThreadTaskRunner* service_thread() { return service_thread_.runner(); } base::ThreadTaskRunner* producer_thread() { return fake_producer_thread_.runner(); } const std::vector& full_trace() { return full_trace_; } const std::vector& trace() { return trace_; } private: static uint64_t next_instance_num_; uint64_t instance_num_; base::TestTaskRunner* task_runner_ = nullptr; int cur_consumer_num_ = 0; uint64_t trace_count_ = 0; std::function on_connect_callback_; std::function on_packets_finished_callback_; std::function on_stop_tracing_callback_; std::function on_detach_callback_; std::function on_attach_callback_; std::vector full_trace_; std::vector trace_; Mode mode_; const char* producer_socket_; const char* consumer_socket_; ServiceThread service_thread_; FakeProducerThread fake_producer_thread_; std::unique_ptr endpoint_; // Keep last. }; } // namespace perfetto #endif // TEST_TEST_HELPER_H_