test/test_helper.h - third_party/perfetto - Git at Google

 /*
  * 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 <stdio.h>
 #include <stdlib.h>
 #include <optional>

 #include "perfetto/base/build_config.h"
 #include "perfetto/ext/base/file_utils.h"
 #include "perfetto/ext/base/scoped_file.h"
 #include "perfetto/ext/base/subprocess.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/core/tracing_service.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 "perfetto/tracing/default_socket.h"
 #include "src/base/test/test_task_runner.h"
 #include "test/fake_producer.h"

 #if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
 #include "src/tracing/ipc/shared_memory_windows.h"
 #else
 #include <signal.h>

 #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 GCE-based emulator
 // can be sensibly slower than real hw (more than 10x) and caused flakes.
 // See bugs duped against b/171771440.
 constexpr uint32_t kDefaultTestTimeoutMs = 30000;

 inline const char* GetTestProducerSockName() {
 // If we're building on Android and starting the daemons ourselves,
 // create the sockets in a world-writable location.
 #if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && \
     PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS)
   return "/data/local/tmp/traced_producer";
 #else
   return ::perfetto::GetProducerSocket();
 #endif
 }

 // Captures the values of some environment variables when constructed and
 // restores them when destroyed.
 class TestEnvCleaner {
  public:
   TestEnvCleaner() {}
   TestEnvCleaner(std::initializer_list<const char*> env_vars) {
     prev_state_.reserve(env_vars.size());
     for (const char* name : env_vars) {
       prev_state_.emplace_back();
       Var& var = prev_state_.back();
       var.name = name;
       const char* prev_value = getenv(name);
       if (prev_value) {
         var.value.emplace(prev_value);
       }
     }
   }
   ~TestEnvCleaner() { Clean(); }

   TestEnvCleaner(const TestEnvCleaner&) = delete;
   TestEnvCleaner(TestEnvCleaner&& obj) noexcept { *this = std::move(obj); }
   TestEnvCleaner& operator=(const TestEnvCleaner&) = delete;
   TestEnvCleaner& operator=(TestEnvCleaner&& obj) noexcept {
     PERFETTO_CHECK(prev_state_.empty());
     this->prev_state_ = std::move(obj.prev_state_);
     obj.prev_state_.clear();
     return *this;
   }

   void Clean() {
     for (const Var& var : prev_state_) {
       if (var.value) {
         base::SetEnv(var.name, *var.value);
       } else {
         base::UnsetEnv(var.name);
       }
     }
     prev_state_.clear();
   }

  private:
   struct Var {
     const char* name;
     std::optional<std::string> value;
   };
   std::vector<Var> prev_state_;
 };

 // This is used only in daemon starting integrations tests.
 class ServiceThread {
  public:
   ServiceThread(const std::string& producer_socket,
                 const std::string& consumer_socket,
                 bool enable_relay_endpoint = false)
       : producer_socket_(producer_socket),
         consumer_socket_(consumer_socket),
         enable_relay_endpoint_(enable_relay_endpoint) {}

   ~ServiceThread() { Stop(); }

   TestEnvCleaner Start() {
     TestEnvCleaner env_cleaner(
         {"PERFETTO_PRODUCER_SOCK_NAME", "PERFETTO_CONSUMER_SOCK_NAME"});
     runner_ = base::ThreadTaskRunner::CreateAndStart("perfetto.svc");
     runner_->PostTaskAndWaitForTesting([this]() {
       TracingService::InitOpts init_opts = {};
       if (enable_relay_endpoint_)
         init_opts.enable_relay_endpoint = true;
       svc_ = ServiceIPCHost::CreateInstance(runner_->get(), init_opts);
       auto producer_sockets = TokenizeProducerSockets(producer_socket_.c_str());
       for (const auto& producer_socket : producer_sockets) {
         // In some cases the socket is a TCP or abstract unix.
         if (!base::FileExists(producer_socket))
           continue;
         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());
       }
     });
     return env_cleaner;
   }

   void Stop() {
     if (!runner_)
       return;
     runner_->PostTaskAndWaitForTesting([this]() { svc_.reset(); });
     runner_.reset();
   }

   base::ThreadTaskRunner* runner() { return runner_ ? &*runner_ : nullptr; }

  private:
   std::optional<base::ThreadTaskRunner> runner_;  // Keep first.

   std::string producer_socket_;
   std::string consumer_socket_;
   bool enable_relay_endpoint_ = false;
   std::unique_ptr<ServiceIPCHost> 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:
   std::optional<base::ThreadTaskRunner> runner_;  // Keep first.

   std::string producer_socket_;
   std::unique_ptr<ProbesProducer> producer_;
 };
 #endif  // !OS_WIN

 class FakeProducerThread {
  public:
   FakeProducerThread(const std::string& producer_socket,
                      std::function<void()> connect_callback,
                      std::function<void()> setup_callback,
                      std::function<void()> start_callback,
                      const std::string& producer_name)
       : 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_name]() {
       producer_.reset(new FakeProducer(producer_name, 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)
     SharedMemoryWindows::Factory factory;
 #else
     PosixSharedMemory::Factory factory;
 #endif
     shm_ = factory.CreateSharedMemory(1024 * 1024);
     shm_arbiter_ = SharedMemoryArbiter::CreateUnboundInstance(
         shm_.get(), 4096, SharedMemoryABI::ShmemMode::kDefault);
   }

   void ProduceStartupEventBatch(const protos::gen::TestConfig& config,
                                 std::function<void()> callback) {
     PERFETTO_CHECK(shm_arbiter_);
     producer_->ProduceStartupEventBatch(config, shm_arbiter_.get(), callback);
   }

  private:
   std::optional<base::ThreadTaskRunner> runner_;  // Keep first.

   std::string producer_socket_;
   std::unique_ptr<FakeProducer> producer_;
   std::function<void()> connect_callback_;
   std::function<void()> setup_callback_;
   std::function<void()> start_callback_;
   std::unique_ptr<SharedMemory> shm_;
   std::unique_ptr<SharedMemoryArbiter> 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);

   explicit TestHelper(base::TestTaskRunner* task_runner,
                       Mode mode,
                       const char* producer_socket,
                       bool enable_relay_endpoint = false);

   // Consumer implementation.
   void OnConnect() override;
   void OnDisconnect() override;
   void OnTracingDisabled(const std::string& error) override;
   virtual void ReadTraceData(std::vector<TracePacket> packets);
   void OnTraceData(std::vector<TracePacket> 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;
   void OnSessionCloned(const OnSessionClonedArgs&) override;

   // Starts the tracing service if in kStartDaemons mode.
   void StartServiceIfRequired();

   // Restarts the tracing service. Only valid in kStartDaemons mode.
   void RestartService();

   // Connects the producer and waits that the service has seen the
   // RegisterDataSource() call.
   FakeProducer* ConnectFakeProducer(size_t idx = 0);

   void ConnectConsumer();
   void StartTracing(const TraceConfig& config,
                     base::ScopedFile = base::ScopedFile());
   void DisableTracing();
   void FlushAndWait(uint32_t timeout_ms, FlushFlags = FlushFlags());
   void ReadData(uint32_t read_count = 0);
   void FreeBuffers();
   void DetachConsumer(const std::string& key);
   bool AttachConsumer(const std::string& key);
   void CreateProducerProvidedSmb();
   bool IsShmemProvidedByProducer(size_t idx = 0);
   void ProduceStartupEventBatch(const protos::gen::TestConfig& config);

   void WaitFor(std::function<bool()> predicate,
                const std::string& error_msg,
                uint32_t timeout_ms = kDefaultTestTimeoutMs);
   void WaitForConsumerConnect();
   void WaitForProducerSetup(size_t idx = 0);
   void WaitForProducerEnabled(size_t idx = 0);
   void WaitForDataSourceConnected(const std::string& ds_name);
   void WaitForTracingDisabled(uint32_t timeout_ms = kDefaultTestTimeoutMs);
   void WaitForReadData(uint32_t read_count = 0,
                        uint32_t timeout_ms = kDefaultTestTimeoutMs);
   void WaitForAllDataSourceStarted(uint32_t timeout_ms = kDefaultTestTimeoutMs);
   void SyncAndWaitProducer(size_t idx = 0);
   TracingServiceState QueryServiceStateAndWait();

   std::string AddID(const std::string& checkpoint) {
     return checkpoint + "." + std::to_string(instance_num_);
   }

   std::function<void()> 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<void()> WrapTask(const std::function<void()>& function);

   base::ThreadTaskRunner* service_thread() { return service_thread_.runner(); }
   base::ThreadTaskRunner* producer_thread(size_t i = 0) {
     PERFETTO_DCHECK(i < fake_producer_threads_.size());
     return fake_producer_threads_[i]->runner();
   }

   size_t num_producers() { return fake_producer_threads_.size(); }
   const std::vector<protos::gen::TracePacket>& full_trace() {
     return full_trace_;
   }
   const std::vector<protos::gen::TracePacket>& trace() { return trace_; }

   // Some fixtures want to reuse a global TestHelper in different testcases
   // without destroying and recreating it, but they still need to avoid
   // polluting environment variables.
   //
   // This restores the previous environment variables.
   void CleanEnv() { env_cleaner_.Clean(); }

  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<void()> on_all_ds_started_callback_;
   std::function<void()> on_connect_callback_;
   std::function<void()> on_packets_finished_callback_;
   std::function<void()> on_stop_tracing_callback_;
   std::function<void()> on_detach_callback_;
   std::function<void(bool)> on_attach_callback_;

   std::vector<protos::gen::TracePacket> full_trace_;
   std::vector<protos::gen::TracePacket> trace_;

   Mode mode_;
   const char* producer_socket_;
   const char* consumer_socket_;
   ServiceThread service_thread_;
   std::vector<std::unique_ptr<FakeProducerThread>> fake_producer_threads_;

   TestEnvCleaner env_cleaner_;

   std::unique_ptr<TracingService::ConsumerEndpoint> endpoint_;  // Keep last.
 };

 #if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)

 // This class is a reference to a child process that has in essence been execv
 // to the requested binary. The process will start and then wait for Run()
 // before proceeding. We use this to fork new processes before starting any
 // additional threads in the parent process (otherwise you would risk
 // deadlocks), but pause the forked processes until remaining setup (including
 // any necessary threads) in the parent process is complete.
 class Exec {
  public:
   // Starts the forked process that was created. If not null then |stderr_out|
   // will contain the stderr of the process.
   int Run(std::string* stderr_out = nullptr) {
     // We can't be the child process.
     PERFETTO_CHECK(getpid() != subprocess_.pid());
     // Will cause the entrypoint to continue.
     PERFETTO_CHECK(write(*sync_pipe_.wr, "1", 1) == 1);
     sync_pipe_.wr.reset();
     subprocess_.Wait();

     if (stderr_out) {
       *stderr_out = std::move(subprocess_.output());
     } else {
       PERFETTO_LOG("Child proc %d exited with stderr: \"%s\"",
                    subprocess_.pid(), subprocess_.output().c_str());
     }
     return subprocess_.returncode();
   }

   Exec(const std::string& argv0,
        std::initializer_list<std::string> args,
        std::string input = "") {
     subprocess_.args.stderr_mode = base::Subprocess::OutputMode::kBuffer;
     subprocess_.args.stdout_mode = base::Subprocess::OutputMode::kDevNull;
     subprocess_.args.input = input;

 #if PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS)
     constexpr bool kUseSystemBinaries = false;
 #else
     constexpr bool kUseSystemBinaries = true;
 #endif

     auto pass_env = [](const std::string& var, base::Subprocess* proc) {
       const char* val = getenv(var.c_str());
       if (val)
         proc->args.env.push_back(var + "=" + val);
     };

     std::vector<std::string>& cmd = subprocess_.args.exec_cmd;
     if (kUseSystemBinaries) {
       PERFETTO_CHECK(TestHelper::kDefaultMode ==
                      TestHelper::Mode::kUseSystemService);
       cmd.push_back("/system/bin/" + argv0);
       cmd.insert(cmd.end(), args.begin(), args.end());
     } else {
       PERFETTO_CHECK(TestHelper::kDefaultMode ==
                      TestHelper::Mode::kStartDaemons);
       subprocess_.args.env.push_back(
           std::string("PERFETTO_PRODUCER_SOCK_NAME=") +
           TestHelper::GetDefaultModeProducerSocketName());
       subprocess_.args.env.push_back(
           std::string("PERFETTO_CONSUMER_SOCK_NAME=") +
           TestHelper::GetDefaultModeConsumerSocketName());
       pass_env("TMPDIR", &subprocess_);
       pass_env("TMP", &subprocess_);
       pass_env("TEMP", &subprocess_);
       pass_env("LD_LIBRARY_PATH", &subprocess_);
       cmd.push_back(base::GetCurExecutableDir() + "/" + argv0);
       cmd.insert(cmd.end(), args.begin(), args.end());
     }

     if (!base::FileExists(cmd[0])) {
       PERFETTO_FATAL(
           "Cannot find %s. Make sure that the target has been built and, on "
           "Android, pushed to the device.",
           cmd[0].c_str());
     }

     // This pipe blocks the execution of the child process until the main test
     // process calls Run(). There are two conflicting problems here:
     // 1) We can't fork() subprocesses too late, because the test spawns threads
     //    for hosting the service. fork+threads = bad (see aosp/1089744).
     // 2) We can't run the subprocess too early, because we need to wait that
     //    the service threads are ready before trying to connect from the child
     //    process.
     sync_pipe_ = base::Pipe::Create();
     int sync_pipe_rd = *sync_pipe_.rd;
     subprocess_.args.preserve_fds.push_back(sync_pipe_rd);

     // This lambda will be called on the forked child process after having
     // setup pipe redirection and closed all FDs, right before the exec().
     // The Subprocesss harness will take care of closing also |sync_pipe_.wr|.
     subprocess_.args.posix_entrypoint_for_testing = [sync_pipe_rd] {
       // Don't add any logging here, all file descriptors are closed and trying
       // to log will likely cause undefined behaviors.
       char ignored = 0;
       PERFETTO_CHECK(PERFETTO_EINTR(read(sync_pipe_rd, &ignored, 1)) > 0);
       PERFETTO_CHECK(close(sync_pipe_rd) == 0 || errno == EINTR);
     };

     subprocess_.Start();
     sync_pipe_.rd.reset();
   }

   void SendSigterm() {
 #ifdef SIGTERM
     kill(subprocess_.pid(), SIGTERM);
 #else
     // This code is never used on Windows tests, not bothering.
     if (subprocess_.pid())  // Always true, but avoids Wnoreturn compile errors.
       PERFETTO_FATAL("SendSigterm() not implemented on this platform");
 #endif
   }

  private:
   base::Subprocess subprocess_;
   base::Pipe sync_pipe_;
 };

 #endif  // !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)

 }  // namespace perfetto

 #endif  // TEST_TEST_HELPER_H_
	/*
	* 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 <stdio.h>
	#include <stdlib.h>
	#include <optional>

	#include "perfetto/base/build_config.h"
	#include "perfetto/ext/base/file_utils.h"
	#include "perfetto/ext/base/scoped_file.h"
	#include "perfetto/ext/base/subprocess.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/core/tracing_service.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 "perfetto/tracing/default_socket.h"
	#include "src/base/test/test_task_runner.h"
	#include "test/fake_producer.h"

	#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
	#include "src/tracing/ipc/shared_memory_windows.h"
	#else
	#include <signal.h>

	#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 GCE-based emulator
	// can be sensibly slower than real hw (more than 10x) and caused flakes.
	// See bugs duped against b/171771440.
	constexpr uint32_t kDefaultTestTimeoutMs = 30000;

	inline const char* GetTestProducerSockName() {
	// If we're building on Android and starting the daemons ourselves,
	// create the sockets in a world-writable location.
	#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && \
	PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS)
	return "/data/local/tmp/traced_producer";
	#else
	return ::perfetto::GetProducerSocket();
	#endif
	}

	// Captures the values of some environment variables when constructed and
	// restores them when destroyed.
	class TestEnvCleaner {
	public:
	TestEnvCleaner() {}
	TestEnvCleaner(std::initializer_list<const char*> env_vars) {
	prev_state_.reserve(env_vars.size());
	for (const char* name : env_vars) {
	prev_state_.emplace_back();
	Var& var = prev_state_.back();
	var.name = name;
	const char* prev_value = getenv(name);
	if (prev_value) {
	var.value.emplace(prev_value);
	}
	}
	}
	~TestEnvCleaner() { Clean(); }

	TestEnvCleaner(const TestEnvCleaner&) = delete;
	TestEnvCleaner(TestEnvCleaner&& obj) noexcept { *this = std::move(obj); }
	TestEnvCleaner& operator=(const TestEnvCleaner&) = delete;
	TestEnvCleaner& operator=(TestEnvCleaner&& obj) noexcept {
	PERFETTO_CHECK(prev_state_.empty());
	this->prev_state_ = std::move(obj.prev_state_);
	obj.prev_state_.clear();
	return *this;
	}

	void Clean() {
	for (const Var& var : prev_state_) {
	if (var.value) {
	base::SetEnv(var.name, *var.value);
	} else {
	base::UnsetEnv(var.name);
	}
	}
	prev_state_.clear();
	}

	private:
	struct Var {
	const char* name;
	std::optional<std::string> value;
	};
	std::vector<Var> prev_state_;
	};

	// This is used only in daemon starting integrations tests.
	class ServiceThread {
	public:
	ServiceThread(const std::string& producer_socket,
	const std::string& consumer_socket,
	bool enable_relay_endpoint = false)
	: producer_socket_(producer_socket),
	consumer_socket_(consumer_socket),
	enable_relay_endpoint_(enable_relay_endpoint) {}

	~ServiceThread() { Stop(); }

	TestEnvCleaner Start() {
	TestEnvCleaner env_cleaner(
	{"PERFETTO_PRODUCER_SOCK_NAME", "PERFETTO_CONSUMER_SOCK_NAME"});
	runner_ = base::ThreadTaskRunner::CreateAndStart("perfetto.svc");
	runner_->PostTaskAndWaitForTesting([this]() {
	TracingService::InitOpts init_opts = {};
	if (enable_relay_endpoint_)
	init_opts.enable_relay_endpoint = true;
	svc_ = ServiceIPCHost::CreateInstance(runner_->get(), init_opts);
	auto producer_sockets = TokenizeProducerSockets(producer_socket_.c_str());
	for (const auto& producer_socket : producer_sockets) {
	// In some cases the socket is a TCP or abstract unix.
	if (!base::FileExists(producer_socket))
	continue;
	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());
	}
	});
	return env_cleaner;
	}

	void Stop() {
	if (!runner_)
	return;
	runner_->PostTaskAndWaitForTesting([this]() { svc_.reset(); });
	runner_.reset();
	}

	base::ThreadTaskRunner* runner() { return runner_ ? &*runner_ : nullptr; }

	private:
	std::optional<base::ThreadTaskRunner> runner_; // Keep first.

	std::string producer_socket_;
	std::string consumer_socket_;
	bool enable_relay_endpoint_ = false;
	std::unique_ptr<ServiceIPCHost> 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:
	std::optional<base::ThreadTaskRunner> runner_; // Keep first.

	std::string producer_socket_;
	std::unique_ptr<ProbesProducer> producer_;
	};
	#endif // !OS_WIN

	class FakeProducerThread {
	public:
	FakeProducerThread(const std::string& producer_socket,
	std::function<void()> connect_callback,
	std::function<void()> setup_callback,
	std::function<void()> start_callback,
	const std::string& producer_name)
	: 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_name]() {
	producer_.reset(new FakeProducer(producer_name, 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)
	SharedMemoryWindows::Factory factory;
	#else
	PosixSharedMemory::Factory factory;
	#endif
	shm_ = factory.CreateSharedMemory(1024 * 1024);
	shm_arbiter_ = SharedMemoryArbiter::CreateUnboundInstance(
	shm_.get(), 4096, SharedMemoryABI::ShmemMode::kDefault);
	}

	void ProduceStartupEventBatch(const protos::gen::TestConfig& config,
	std::function<void()> callback) {
	PERFETTO_CHECK(shm_arbiter_);
	producer_->ProduceStartupEventBatch(config, shm_arbiter_.get(), callback);
	}

	private:
	std::optional<base::ThreadTaskRunner> runner_; // Keep first.

	std::string producer_socket_;
	std::unique_ptr<FakeProducer> producer_;
	std::function<void()> connect_callback_;
	std::function<void()> setup_callback_;
	std::function<void()> start_callback_;
	std::unique_ptr<SharedMemory> shm_;
	std::unique_ptr<SharedMemoryArbiter> 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);

	explicit TestHelper(base::TestTaskRunner* task_runner,
	Mode mode,
	const char* producer_socket,
	bool enable_relay_endpoint = false);

	// Consumer implementation.
	void OnConnect() override;
	void OnDisconnect() override;
	void OnTracingDisabled(const std::string& error) override;
	virtual void ReadTraceData(std::vector<TracePacket> packets);
	void OnTraceData(std::vector<TracePacket> 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;
	void OnSessionCloned(const OnSessionClonedArgs&) override;

	// Starts the tracing service if in kStartDaemons mode.
	void StartServiceIfRequired();

	// Restarts the tracing service. Only valid in kStartDaemons mode.
	void RestartService();

	// Connects the producer and waits that the service has seen the
	// RegisterDataSource() call.
	FakeProducer* ConnectFakeProducer(size_t idx = 0);

	void ConnectConsumer();
	void StartTracing(const TraceConfig& config,
	base::ScopedFile = base::ScopedFile());
	void DisableTracing();
	void FlushAndWait(uint32_t timeout_ms, FlushFlags = FlushFlags());
	void ReadData(uint32_t read_count = 0);
	void FreeBuffers();
	void DetachConsumer(const std::string& key);
	bool AttachConsumer(const std::string& key);
	void CreateProducerProvidedSmb();
	bool IsShmemProvidedByProducer(size_t idx = 0);
	void ProduceStartupEventBatch(const protos::gen::TestConfig& config);

	void WaitFor(std::function<bool()> predicate,
	const std::string& error_msg,
	uint32_t timeout_ms = kDefaultTestTimeoutMs);
	void WaitForConsumerConnect();
	void WaitForProducerSetup(size_t idx = 0);
	void WaitForProducerEnabled(size_t idx = 0);
	void WaitForDataSourceConnected(const std::string& ds_name);
	void WaitForTracingDisabled(uint32_t timeout_ms = kDefaultTestTimeoutMs);
	void WaitForReadData(uint32_t read_count = 0,
	uint32_t timeout_ms = kDefaultTestTimeoutMs);
	void WaitForAllDataSourceStarted(uint32_t timeout_ms = kDefaultTestTimeoutMs);
	void SyncAndWaitProducer(size_t idx = 0);
	TracingServiceState QueryServiceStateAndWait();

	std::string AddID(const std::string& checkpoint) {
	return checkpoint + "." + std::to_string(instance_num_);
	}

	std::function<void()> 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<void()> WrapTask(const std::function<void()>& function);

	base::ThreadTaskRunner* service_thread() { return service_thread_.runner(); }
	base::ThreadTaskRunner* producer_thread(size_t i = 0) {
	PERFETTO_DCHECK(i < fake_producer_threads_.size());
	return fake_producer_threads_[i]->runner();
	}

	size_t num_producers() { return fake_producer_threads_.size(); }
	const std::vector<protos::gen::TracePacket>& full_trace() {
	return full_trace_;
	}
	const std::vector<protos::gen::TracePacket>& trace() { return trace_; }

	// Some fixtures want to reuse a global TestHelper in different testcases
	// without destroying and recreating it, but they still need to avoid
	// polluting environment variables.
	//
	// This restores the previous environment variables.
	void CleanEnv() { env_cleaner_.Clean(); }

	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<void()> on_all_ds_started_callback_;
	std::function<void()> on_connect_callback_;
	std::function<void()> on_packets_finished_callback_;
	std::function<void()> on_stop_tracing_callback_;
	std::function<void()> on_detach_callback_;
	std::function<void(bool)> on_attach_callback_;

	std::vector<protos::gen::TracePacket> full_trace_;
	std::vector<protos::gen::TracePacket> trace_;

	Mode mode_;
	const char* producer_socket_;
	const char* consumer_socket_;
	ServiceThread service_thread_;
	std::vector<std::unique_ptr<FakeProducerThread>> fake_producer_threads_;

	TestEnvCleaner env_cleaner_;

	std::unique_ptr<TracingService::ConsumerEndpoint> endpoint_; // Keep last.
	};

	#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)

	// This class is a reference to a child process that has in essence been execv
	// to the requested binary. The process will start and then wait for Run()
	// before proceeding. We use this to fork new processes before starting any
	// additional threads in the parent process (otherwise you would risk
	// deadlocks), but pause the forked processes until remaining setup (including
	// any necessary threads) in the parent process is complete.
	class Exec {
	public:
	// Starts the forked process that was created. If not null then \|stderr_out\|
	// will contain the stderr of the process.
	int Run(std::string* stderr_out = nullptr) {
	// We can't be the child process.
	PERFETTO_CHECK(getpid() != subprocess_.pid());
	// Will cause the entrypoint to continue.
	PERFETTO_CHECK(write(*sync_pipe_.wr, "1", 1) == 1);
	sync_pipe_.wr.reset();
	subprocess_.Wait();

	if (stderr_out) {
	*stderr_out = std::move(subprocess_.output());
	} else {
	PERFETTO_LOG("Child proc %d exited with stderr: \"%s\"",
	subprocess_.pid(), subprocess_.output().c_str());
	}
	return subprocess_.returncode();
	}

	Exec(const std::string& argv0,
	std::initializer_list<std::string> args,
	std::string input = "") {
	subprocess_.args.stderr_mode = base::Subprocess::OutputMode::kBuffer;
	subprocess_.args.stdout_mode = base::Subprocess::OutputMode::kDevNull;
	subprocess_.args.input = input;

	#if PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS)
	constexpr bool kUseSystemBinaries = false;
	#else
	constexpr bool kUseSystemBinaries = true;
	#endif

	auto pass_env = [](const std::string& var, base::Subprocess* proc) {
	const char* val = getenv(var.c_str());
	if (val)
	proc->args.env.push_back(var + "=" + val);
	};

	std::vector<std::string>& cmd = subprocess_.args.exec_cmd;
	if (kUseSystemBinaries) {
	PERFETTO_CHECK(TestHelper::kDefaultMode ==
	TestHelper::Mode::kUseSystemService);
	cmd.push_back("/system/bin/" + argv0);
	cmd.insert(cmd.end(), args.begin(), args.end());
	} else {
	PERFETTO_CHECK(TestHelper::kDefaultMode ==
	TestHelper::Mode::kStartDaemons);
	subprocess_.args.env.push_back(
	std::string("PERFETTO_PRODUCER_SOCK_NAME=") +
	TestHelper::GetDefaultModeProducerSocketName());
	subprocess_.args.env.push_back(
	std::string("PERFETTO_CONSUMER_SOCK_NAME=") +
	TestHelper::GetDefaultModeConsumerSocketName());
	pass_env("TMPDIR", &subprocess_);
	pass_env("TMP", &subprocess_);
	pass_env("TEMP", &subprocess_);
	pass_env("LD_LIBRARY_PATH", &subprocess_);
	cmd.push_back(base::GetCurExecutableDir() + "/" + argv0);
	cmd.insert(cmd.end(), args.begin(), args.end());
	}

	if (!base::FileExists(cmd[0])) {
	PERFETTO_FATAL(
	"Cannot find %s. Make sure that the target has been built and, on "
	"Android, pushed to the device.",
	cmd[0].c_str());
	}

	// This pipe blocks the execution of the child process until the main test
	// process calls Run(). There are two conflicting problems here:
	// 1) We can't fork() subprocesses too late, because the test spawns threads
	// for hosting the service. fork+threads = bad (see aosp/1089744).
	// 2) We can't run the subprocess too early, because we need to wait that
	// the service threads are ready before trying to connect from the child
	// process.
	sync_pipe_ = base::Pipe::Create();
	int sync_pipe_rd = *sync_pipe_.rd;
	subprocess_.args.preserve_fds.push_back(sync_pipe_rd);

	// This lambda will be called on the forked child process after having
	// setup pipe redirection and closed all FDs, right before the exec().
	// The Subprocesss harness will take care of closing also \|sync_pipe_.wr\|.
	subprocess_.args.posix_entrypoint_for_testing = [sync_pipe_rd] {
	// Don't add any logging here, all file descriptors are closed and trying
	// to log will likely cause undefined behaviors.
	char ignored = 0;
	PERFETTO_CHECK(PERFETTO_EINTR(read(sync_pipe_rd, &ignored, 1)) > 0);
	PERFETTO_CHECK(close(sync_pipe_rd) == 0 \|\| errno == EINTR);
	};

	subprocess_.Start();
	sync_pipe_.rd.reset();
	}

	void SendSigterm() {
	#ifdef SIGTERM
	kill(subprocess_.pid(), SIGTERM);
	#else
	// This code is never used on Windows tests, not bothering.
	if (subprocess_.pid()) // Always true, but avoids Wnoreturn compile errors.
	PERFETTO_FATAL("SendSigterm() not implemented on this platform");
	#endif
	}

	private:
	base::Subprocess subprocess_;
	base::Pipe sync_pipe_;
	};

	#endif // !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)

	} // namespace perfetto

	#endif // TEST_TEST_HELPER_H_