third_party/perfetto/test/traced_integrationtest.cc - cobalt - Git at Google

 /*
  * Copyright (C) 2022 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 "perfetto/base/build_config.h"
 #include "perfetto/base/logging.h"
 #include "perfetto/ext/base/file_utils.h"
 #include "perfetto/ext/base/pipe.h"
 #include "perfetto/ext/base/scoped_file.h"
 #include "perfetto/ext/base/string_utils.h"
 #include "perfetto/ext/base/temp_file.h"
 #include "perfetto/ext/base/utils.h"
 #include "perfetto/ext/tracing/core/commit_data_request.h"
 #include "perfetto/ext/tracing/core/trace_packet.h"
 #include "perfetto/ext/tracing/core/tracing_service.h"
 #include "perfetto/protozero/scattered_heap_buffer.h"
 #include "perfetto/tracing/core/tracing_service_state.h"
 #include "src/base/test/test_task_runner.h"
 #include "src/base/test/utils.h"
 #include "src/protozero/filtering/filter_bytecode_generator.h"
 #include "test/gtest_and_gmock.h"
 #include "test/test_helper.h"

 #include "protos/perfetto/config/test_config.gen.h"
 #include "protos/perfetto/config/trace_config.gen.h"
 #include "protos/perfetto/trace/perfetto/tracing_service_event.gen.h"
 #include "protos/perfetto/trace/test_event.gen.h"
 #include "protos/perfetto/trace/trace.gen.h"
 #include "protos/perfetto/trace/trace_packet.gen.h"
 #include "protos/perfetto/trace/trace_packet.pbzero.h"

 namespace perfetto {

 namespace {

 using ::testing::ContainsRegex;
 using ::testing::Each;
 using ::testing::ElementsAreArray;
 using ::testing::HasSubstr;
 using ::testing::Property;
 using ::testing::SizeIs;

 }  // namespace

 TEST(PerfettoTracedIntegrationTest, TestFakeProducer) {
   base::TestTaskRunner task_runner;

   TestHelper helper(&task_runner);
   helper.StartServiceIfRequired();
   helper.ConnectFakeProducer();
   helper.ConnectConsumer();
   helper.WaitForConsumerConnect();

   TraceConfig trace_config;
   trace_config.add_buffers()->set_size_kb(1024);
   trace_config.set_duration_ms(200);

   auto* ds_config = trace_config.add_data_sources()->mutable_config();
   ds_config->set_name("android.perfetto.FakeProducer");
   ds_config->set_target_buffer(0);

   static constexpr size_t kNumPackets = 12;
   static constexpr uint32_t kRandomSeed = 42;
   static constexpr uint32_t kMsgSize = 1024;
   ds_config->mutable_for_testing()->set_seed(kRandomSeed);
   ds_config->mutable_for_testing()->set_message_count(kNumPackets);
   ds_config->mutable_for_testing()->set_message_size(kMsgSize);
   ds_config->mutable_for_testing()->set_send_batch_on_register(true);

   helper.StartTracing(trace_config);
   helper.WaitForTracingDisabled();

   helper.ReadData();
   helper.WaitForReadData();

   const auto& packets = helper.trace();
   ASSERT_EQ(packets.size(), kNumPackets);

   std::minstd_rand0 rnd_engine(kRandomSeed);
   for (const auto& packet : packets) {
     ASSERT_TRUE(packet.has_for_testing());
     ASSERT_EQ(packet.for_testing().seq_value(), rnd_engine());
   }
 }

 TEST(PerfettoTracedIntegrationTest, VeryLargePackets) {
   base::TestTaskRunner task_runner;

   TestHelper helper(&task_runner);
   helper.StartServiceIfRequired();
   helper.ConnectFakeProducer();
   helper.ConnectConsumer();
   helper.WaitForConsumerConnect();

   TraceConfig trace_config;
   trace_config.add_buffers()->set_size_kb(4096 * 10);
   trace_config.set_duration_ms(500);

   auto* ds_config = trace_config.add_data_sources()->mutable_config();
   ds_config->set_name("android.perfetto.FakeProducer");
   ds_config->set_target_buffer(0);

   static constexpr size_t kNumPackets = 7;
   static constexpr uint32_t kRandomSeed = 42;
   static constexpr uint32_t kMsgSize = 1024 * 1024 - 42;
   ds_config->mutable_for_testing()->set_seed(kRandomSeed);
   ds_config->mutable_for_testing()->set_message_count(kNumPackets);
   ds_config->mutable_for_testing()->set_message_size(kMsgSize);
   ds_config->mutable_for_testing()->set_send_batch_on_register(true);

   helper.StartTracing(trace_config);
   helper.WaitForTracingDisabled();

   helper.ReadData();
   helper.WaitForReadData(/* read_count */ 0, /* timeout_ms */ 10000);

   const auto& packets = helper.trace();
   ASSERT_EQ(packets.size(), kNumPackets);

   std::minstd_rand0 rnd_engine(kRandomSeed);
   for (const auto& packet : packets) {
     ASSERT_TRUE(packet.has_for_testing());
     ASSERT_EQ(packet.for_testing().seq_value(), rnd_engine());
     size_t msg_size = packet.for_testing().str().size();
     ASSERT_EQ(kMsgSize, msg_size);
     for (size_t i = 0; i < msg_size; i++)
       ASSERT_EQ(i < msg_size - 1 ? '.' : 0, packet.for_testing().str()[i]);
   }
 }

 // This is a regression test see b/169051440 for context.
 //
 // In this test we ensure that traced will not crash if a Producer stops
 // responding or draining the socket (i.e. after we fill up the IPC buffer
 // traced doesn't block on trying to write to the IPC buffer and watchdog
 // doesn't kill it).
 TEST(PerfettoTracedIntegrationTest, UnresponsiveProducer) {
   base::TestTaskRunner task_runner;

   TestHelper helper(&task_runner);
   helper.StartServiceIfRequired();
   auto* producer = helper.ConnectFakeProducer();
   helper.ConnectConsumer();
   helper.WaitForConsumerConnect();

   TraceConfig trace_config;
   trace_config.add_buffers()->set_size_kb(4096 * 10);
   trace_config.set_duration_ms(100);
   trace_config.set_flush_timeout_ms(1);
   trace_config.set_data_source_stop_timeout_ms(1);

   auto* ds_config = trace_config.add_data_sources()->mutable_config();
   ds_config->set_name("android.perfetto.FakeProducer");

   static constexpr size_t kNumPackets = 1;
   static constexpr uint32_t kRandomSeed = 42;
   static constexpr uint32_t kMsgSize = 1024 * 1024 - 42;
   ds_config->mutable_for_testing()->set_seed(kRandomSeed);
   ds_config->mutable_for_testing()->set_message_count(kNumPackets);
   ds_config->mutable_for_testing()->set_message_size(kMsgSize);
   ds_config->mutable_for_testing()->set_send_batch_on_register(true);

   // This string is just used to make the StartDataSource IPC larger.
   ds_config->set_legacy_config(std::string(8192, '.'));
   ds_config->set_target_buffer(0);

   // Run one legit trace, this ensures that the producer above is
   // valid and correct and mirrors real life producers.
   helper.StartTracing(trace_config);
   helper.WaitForProducerEnabled();
   helper.WaitForTracingDisabled();

   helper.ReadData();
   helper.WaitForReadData(/* read_count */ 0, /* timeout_ms */ 10000);

   const auto& packets = helper.trace();
   ASSERT_EQ(packets.size(), 1u);
   ASSERT_TRUE(packets[0].has_for_testing());
   ASSERT_FALSE(packets[0].for_testing().str().empty());
   helper.FreeBuffers();

   // Switch the producer to ignoring the IPC socket. On a pixel 4 it took 13
   // traces to fill up the IPC buffer and cause traced to block (and eventually
   // watchdog to kill it).
   helper.producer_thread()->get()->RemoveFileDescriptorWatch(
       producer->unix_socket_fd());

   trace_config.set_duration_ms(1);
   for (uint32_t i = 0u; i < 15u; i++) {
     helper.StartTracing(trace_config, base::ScopedFile());
     helper.WaitForTracingDisabled(/* timeout_ms = */ 20000);
     helper.FreeBuffers();
   }
   // We need to readd the FileDescriptor (otherwise when the UnixSocket attempts
   // to remove it a the FakeProducer is destroyed will hit a CHECK failure.
   helper.producer_thread()->get()->AddFileDescriptorWatch(
       producer->unix_socket_fd(), []() {});
 }

 TEST(PerfettoTracedIntegrationTest, DetachAndReattach) {
   base::TestTaskRunner task_runner;

   TraceConfig trace_config;
   trace_config.add_buffers()->set_size_kb(1024);
   trace_config.set_duration_ms(10000);  // Max timeout, session is ended before.
   auto* ds_config = trace_config.add_data_sources()->mutable_config();
   ds_config->set_name("android.perfetto.FakeProducer");
   static constexpr size_t kNumPackets = 11;
   ds_config->mutable_for_testing()->set_message_count(kNumPackets);
   ds_config->mutable_for_testing()->set_message_size(32);

   // Enable tracing and detach as soon as it gets started.
   TestHelper helper(&task_runner);
   helper.StartServiceIfRequired();
   auto* fake_producer = helper.ConnectFakeProducer();
   helper.ConnectConsumer();
   helper.WaitForConsumerConnect();
   helper.StartTracing(trace_config);

   // Detach.
   helper.DetachConsumer("key");

   // Write data while detached.
   helper.WaitForProducerEnabled();
   auto on_data_written = task_runner.CreateCheckpoint("data_written");
   fake_producer->ProduceEventBatch(helper.WrapTask(on_data_written));
   task_runner.RunUntilCheckpoint("data_written");

   // Then reattach the consumer.
   helper.ConnectConsumer();
   helper.WaitForConsumerConnect();
   helper.AttachConsumer("key");

   helper.DisableTracing();
   helper.WaitForTracingDisabled();

   helper.ReadData();
   helper.WaitForReadData();
   const auto& packets = helper.trace();
   ASSERT_EQ(packets.size(), kNumPackets);
 }

 // Tests that a detached trace session is automatically cleaned up if the
 // consumer doesn't re-attach before its expiration time.
 TEST(PerfettoTracedIntegrationTest, ReattachFailsAfterTimeout) {
   base::TestTaskRunner task_runner;

   TraceConfig trace_config;
   trace_config.add_buffers()->set_size_kb(1024);
   trace_config.set_duration_ms(250);
   trace_config.set_write_into_file(true);
   trace_config.set_file_write_period_ms(100000);
   auto* ds_config = trace_config.add_data_sources()->mutable_config();
   ds_config->set_name("android.perfetto.FakeProducer");
   ds_config->mutable_for_testing()->set_message_count(1);
   ds_config->mutable_for_testing()->set_message_size(32);
   ds_config->mutable_for_testing()->set_send_batch_on_register(true);

   // Enable tracing and detach as soon as it gets started.
   TestHelper helper(&task_runner);
   helper.StartServiceIfRequired();
   helper.ConnectFakeProducer();
   helper.ConnectConsumer();
   helper.WaitForConsumerConnect();

   auto pipe_pair = base::Pipe::Create();
   helper.StartTracing(trace_config, std::move(pipe_pair.wr));

   // Detach.
   helper.DetachConsumer("key");

   // Use the file EOF (write end closed) as a way to detect when the trace
   // session is ended.
   char buf[1024];
   while (PERFETTO_EINTR(read(*pipe_pair.rd, buf, sizeof(buf))) > 0) {
   }

   // Give some margin for the tracing service to destroy the session.
   usleep(250000);

   // Reconnect and find out that it's too late and the session is gone.
   helper.ConnectConsumer();
   helper.WaitForConsumerConnect();
   EXPECT_FALSE(helper.AttachConsumer("key"));
 }

 TEST(PerfettoTracedIntegrationTest, TestProducerProvidedSMB) {
   base::TestTaskRunner task_runner;

   TestHelper helper(&task_runner);
   helper.CreateProducerProvidedSmb();

   protos::gen::TestConfig test_config;
   test_config.set_seed(42);
   test_config.set_message_count(1);
   test_config.set_message_size(1024);
   test_config.set_send_batch_on_register(true);

   // Write a first batch before connection.
   helper.ProduceStartupEventBatch(test_config);

   helper.StartServiceIfRequired();
   helper.ConnectFakeProducer();
   helper.ConnectConsumer();
   helper.WaitForConsumerConnect();

   TraceConfig trace_config;
   trace_config.add_buffers()->set_size_kb(1024);
   trace_config.set_duration_ms(200);

   auto* ds_config = trace_config.add_data_sources()->mutable_config();
   ds_config->set_name("android.perfetto.FakeProducer");
   ds_config->set_target_buffer(0);
   *ds_config->mutable_for_testing() = test_config;

   // The data source is configured to emit another batch when it is started via
   // send_batch_on_register in the TestConfig.
   helper.StartTracing(trace_config);
   helper.WaitForTracingDisabled();

   EXPECT_TRUE(helper.IsShmemProvidedByProducer());

   helper.ReadData();
   helper.WaitForReadData();

   const auto& packets = helper.trace();
   // We should have produced two batches, one before the producer connected and
   // another one when the data source was started.
   ASSERT_EQ(packets.size(), 2u);
   ASSERT_TRUE(packets[0].has_for_testing());
   ASSERT_TRUE(packets[1].has_for_testing());
 }

 // Regression test for b/153142114.
 TEST(PerfettoTracedIntegrationTest, QueryServiceStateLargeResponse) {
   base::TestTaskRunner task_runner;

   TestHelper helper(&task_runner);
   helper.StartServiceIfRequired();
   helper.ConnectConsumer();
   helper.WaitForConsumerConnect();

   FakeProducer* producer = helper.ConnectFakeProducer();

   // Register 5 data sources with very large descriptors. Each descriptor will
   // max out the IPC message size, so that the service has no other choice
   // than chunking them.
   std::map<std::string, std::string> ds_expected;
   for (int i = 0; i < 5; i++) {
     DataSourceDescriptor dsd;
     std::string name = "big_ds_" + std::to_string(i);
     dsd.set_name(name);
     std::string descriptor(ipc::kIPCBufferSize - 64,
                            static_cast<char>((' ' + i) % 64));
     dsd.set_track_event_descriptor_raw(descriptor);
     ds_expected[name] = std::move(descriptor);
     producer->RegisterDataSource(dsd);
   }

   // Linearize the producer with the service. We need to make sure that all the
   // RegisterDataSource() calls above have been seen by the service before
   // continuing.
   helper.SyncAndWaitProducer();

   // Now invoke QueryServiceState() and wait for the reply. The service will
   // send 6 (1 + 5) IPCs which will be merged together in
   // producer_ipc_client_impl.cc.
   auto svc_state = helper.QueryServiceStateAndWait();

   ASSERT_GE(svc_state.producers().size(), 1u);

   std::map<std::string, std::string> ds_found;
   for (const auto& ds : svc_state.data_sources()) {
     if (!base::StartsWith(ds.ds_descriptor().name(), "big_ds_"))
       continue;
     ds_found[ds.ds_descriptor().name()] =
         ds.ds_descriptor().track_event_descriptor_raw();
   }
   EXPECT_THAT(ds_found, ElementsAreArray(ds_expected));
 }

 // Regression test for b/195065199. Check that trace filtering works when a
 // packet size exceeds the IPC limit. This tests that the tracing service, when
 // reassembling packets after filtering, doesn't "overglue" them. They still
 // need to be slice-able to fit into the ReadBuffers ipc.
 TEST(PerfettoTracedIntegrationTest, TraceFilterLargePackets) {
   base::TestTaskRunner task_runner;
   TestHelper helper(&task_runner);

   helper.StartServiceIfRequired();
   helper.ConnectFakeProducer();
   helper.ConnectConsumer();
   helper.WaitForConsumerConnect();

   TraceConfig trace_config;
   trace_config.add_buffers()->set_size_kb(1024 * 16);
   trace_config.set_duration_ms(500);
   auto* prod_config = trace_config.add_producers();
   prod_config->set_producer_name("android.perfetto.FakeProducer");
   prod_config->set_shm_size_kb(1024 * 16);
   prod_config->set_page_size_kb(32);

   static constexpr size_t kNumPackets = 3;
   static constexpr uint32_t kRandomSeed = 42;
   static constexpr uint32_t kMsgSize = 8 * ipc::kIPCBufferSize;
   auto* ds_config = trace_config.add_data_sources()->mutable_config();
   ds_config->set_name("android.perfetto.FakeProducer");
   auto* test_config = ds_config->mutable_for_testing();
   test_config->set_seed(kRandomSeed);
   test_config->set_message_count(kNumPackets);
   test_config->set_message_size(kMsgSize);
   test_config->set_send_batch_on_register(true);

   protozero::FilterBytecodeGenerator filt;
   // Message 0: root Trace proto.
   filt.AddNestedField(1 /* root trace.packet*/, 1);
   filt.EndMessage();

   // Message 1: TracePacket proto. Allow all fields.
   filt.AddSimpleFieldRange(1, 1000);
   filt.EndMessage();

   trace_config.mutable_trace_filter()->set_bytecode(filt.Serialize());

   // The data source is configured to emit another batch when it is started via
   // send_batch_on_register in the TestConfig.
   helper.StartTracing(trace_config);
   helper.WaitForTracingDisabled();

   helper.ReadData();
   helper.WaitForReadData(/* read_count */ 0, /* timeout_ms */ 10000);

   const std::vector<protos::gen::TracePacket>& packets = helper.trace();
   EXPECT_EQ(packets.size(), kNumPackets);
   EXPECT_THAT(packets,
               Each(Property(&protos::gen::TracePacket::has_for_testing, true)));
   EXPECT_THAT(
       packets,
       Each(Property(&protos::gen::TracePacket::for_testing,
                     Property(&protos::gen::TestEvent::str, SizeIs(kMsgSize)))));
 }

 }  // namespace perfetto
	/*
	* Copyright (C) 2022 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 "perfetto/base/build_config.h"
	#include "perfetto/base/logging.h"
	#include "perfetto/ext/base/file_utils.h"
	#include "perfetto/ext/base/pipe.h"
	#include "perfetto/ext/base/scoped_file.h"
	#include "perfetto/ext/base/string_utils.h"
	#include "perfetto/ext/base/temp_file.h"
	#include "perfetto/ext/base/utils.h"
	#include "perfetto/ext/tracing/core/commit_data_request.h"
	#include "perfetto/ext/tracing/core/trace_packet.h"
	#include "perfetto/ext/tracing/core/tracing_service.h"
	#include "perfetto/protozero/scattered_heap_buffer.h"
	#include "perfetto/tracing/core/tracing_service_state.h"
	#include "src/base/test/test_task_runner.h"
	#include "src/base/test/utils.h"
	#include "src/protozero/filtering/filter_bytecode_generator.h"
	#include "test/gtest_and_gmock.h"
	#include "test/test_helper.h"

	#include "protos/perfetto/config/test_config.gen.h"
	#include "protos/perfetto/config/trace_config.gen.h"
	#include "protos/perfetto/trace/perfetto/tracing_service_event.gen.h"
	#include "protos/perfetto/trace/test_event.gen.h"
	#include "protos/perfetto/trace/trace.gen.h"
	#include "protos/perfetto/trace/trace_packet.gen.h"
	#include "protos/perfetto/trace/trace_packet.pbzero.h"

	namespace perfetto {

	namespace {

	using ::testing::ContainsRegex;
	using ::testing::Each;
	using ::testing::ElementsAreArray;
	using ::testing::HasSubstr;
	using ::testing::Property;
	using ::testing::SizeIs;

	} // namespace

	TEST(PerfettoTracedIntegrationTest, TestFakeProducer) {
	base::TestTaskRunner task_runner;

	TestHelper helper(&task_runner);
	helper.StartServiceIfRequired();
	helper.ConnectFakeProducer();
	helper.ConnectConsumer();
	helper.WaitForConsumerConnect();

	TraceConfig trace_config;
	trace_config.add_buffers()->set_size_kb(1024);
	trace_config.set_duration_ms(200);

	auto* ds_config = trace_config.add_data_sources()->mutable_config();
	ds_config->set_name("android.perfetto.FakeProducer");
	ds_config->set_target_buffer(0);

	static constexpr size_t kNumPackets = 12;
	static constexpr uint32_t kRandomSeed = 42;
	static constexpr uint32_t kMsgSize = 1024;
	ds_config->mutable_for_testing()->set_seed(kRandomSeed);
	ds_config->mutable_for_testing()->set_message_count(kNumPackets);
	ds_config->mutable_for_testing()->set_message_size(kMsgSize);
	ds_config->mutable_for_testing()->set_send_batch_on_register(true);

	helper.StartTracing(trace_config);
	helper.WaitForTracingDisabled();

	helper.ReadData();
	helper.WaitForReadData();

	const auto& packets = helper.trace();
	ASSERT_EQ(packets.size(), kNumPackets);

	std::minstd_rand0 rnd_engine(kRandomSeed);
	for (const auto& packet : packets) {
	ASSERT_TRUE(packet.has_for_testing());
	ASSERT_EQ(packet.for_testing().seq_value(), rnd_engine());
	}
	}

	TEST(PerfettoTracedIntegrationTest, VeryLargePackets) {
	base::TestTaskRunner task_runner;

	TestHelper helper(&task_runner);
	helper.StartServiceIfRequired();
	helper.ConnectFakeProducer();
	helper.ConnectConsumer();
	helper.WaitForConsumerConnect();

	TraceConfig trace_config;
	trace_config.add_buffers()->set_size_kb(4096 * 10);
	trace_config.set_duration_ms(500);

	auto* ds_config = trace_config.add_data_sources()->mutable_config();
	ds_config->set_name("android.perfetto.FakeProducer");
	ds_config->set_target_buffer(0);

	static constexpr size_t kNumPackets = 7;
	static constexpr uint32_t kRandomSeed = 42;
	static constexpr uint32_t kMsgSize = 1024 * 1024 - 42;
	ds_config->mutable_for_testing()->set_seed(kRandomSeed);
	ds_config->mutable_for_testing()->set_message_count(kNumPackets);
	ds_config->mutable_for_testing()->set_message_size(kMsgSize);
	ds_config->mutable_for_testing()->set_send_batch_on_register(true);

	helper.StartTracing(trace_config);
	helper.WaitForTracingDisabled();

	helper.ReadData();
	helper.WaitForReadData(/* read_count / 0, / timeout_ms */ 10000);

	const auto& packets = helper.trace();
	ASSERT_EQ(packets.size(), kNumPackets);

	std::minstd_rand0 rnd_engine(kRandomSeed);
	for (const auto& packet : packets) {
	ASSERT_TRUE(packet.has_for_testing());
	ASSERT_EQ(packet.for_testing().seq_value(), rnd_engine());
	size_t msg_size = packet.for_testing().str().size();
	ASSERT_EQ(kMsgSize, msg_size);
	for (size_t i = 0; i < msg_size; i++)
	ASSERT_EQ(i < msg_size - 1 ? '.' : 0, packet.for_testing().str()[i]);
	}
	}

	// This is a regression test see b/169051440 for context.
	//
	// In this test we ensure that traced will not crash if a Producer stops
	// responding or draining the socket (i.e. after we fill up the IPC buffer
	// traced doesn't block on trying to write to the IPC buffer and watchdog
	// doesn't kill it).
	TEST(PerfettoTracedIntegrationTest, UnresponsiveProducer) {
	base::TestTaskRunner task_runner;

	TestHelper helper(&task_runner);
	helper.StartServiceIfRequired();
	auto* producer = helper.ConnectFakeProducer();
	helper.ConnectConsumer();
	helper.WaitForConsumerConnect();

	TraceConfig trace_config;
	trace_config.add_buffers()->set_size_kb(4096 * 10);
	trace_config.set_duration_ms(100);
	trace_config.set_flush_timeout_ms(1);
	trace_config.set_data_source_stop_timeout_ms(1);

	auto* ds_config = trace_config.add_data_sources()->mutable_config();
	ds_config->set_name("android.perfetto.FakeProducer");

	static constexpr size_t kNumPackets = 1;
	static constexpr uint32_t kRandomSeed = 42;
	static constexpr uint32_t kMsgSize = 1024 * 1024 - 42;
	ds_config->mutable_for_testing()->set_seed(kRandomSeed);
	ds_config->mutable_for_testing()->set_message_count(kNumPackets);
	ds_config->mutable_for_testing()->set_message_size(kMsgSize);
	ds_config->mutable_for_testing()->set_send_batch_on_register(true);

	// This string is just used to make the StartDataSource IPC larger.
	ds_config->set_legacy_config(std::string(8192, '.'));
	ds_config->set_target_buffer(0);

	// Run one legit trace, this ensures that the producer above is
	// valid and correct and mirrors real life producers.
	helper.StartTracing(trace_config);
	helper.WaitForProducerEnabled();
	helper.WaitForTracingDisabled();

	helper.ReadData();
	helper.WaitForReadData(/* read_count / 0, / timeout_ms */ 10000);

	const auto& packets = helper.trace();
	ASSERT_EQ(packets.size(), 1u);
	ASSERT_TRUE(packets[0].has_for_testing());
	ASSERT_FALSE(packets[0].for_testing().str().empty());
	helper.FreeBuffers();

	// Switch the producer to ignoring the IPC socket. On a pixel 4 it took 13
	// traces to fill up the IPC buffer and cause traced to block (and eventually
	// watchdog to kill it).
	helper.producer_thread()->get()->RemoveFileDescriptorWatch(
	producer->unix_socket_fd());

	trace_config.set_duration_ms(1);
	for (uint32_t i = 0u; i < 15u; i++) {
	helper.StartTracing(trace_config, base::ScopedFile());
	helper.WaitForTracingDisabled(/* timeout_ms = */ 20000);
	helper.FreeBuffers();
	}
	// We need to readd the FileDescriptor (otherwise when the UnixSocket attempts
	// to remove it a the FakeProducer is destroyed will hit a CHECK failure.
	helper.producer_thread()->get()->AddFileDescriptorWatch(
	producer->unix_socket_fd(), []() {});
	}

	TEST(PerfettoTracedIntegrationTest, DetachAndReattach) {
	base::TestTaskRunner task_runner;

	TraceConfig trace_config;
	trace_config.add_buffers()->set_size_kb(1024);
	trace_config.set_duration_ms(10000); // Max timeout, session is ended before.
	auto* ds_config = trace_config.add_data_sources()->mutable_config();
	ds_config->set_name("android.perfetto.FakeProducer");
	static constexpr size_t kNumPackets = 11;
	ds_config->mutable_for_testing()->set_message_count(kNumPackets);
	ds_config->mutable_for_testing()->set_message_size(32);

	// Enable tracing and detach as soon as it gets started.
	TestHelper helper(&task_runner);
	helper.StartServiceIfRequired();
	auto* fake_producer = helper.ConnectFakeProducer();
	helper.ConnectConsumer();
	helper.WaitForConsumerConnect();
	helper.StartTracing(trace_config);

	// Detach.
	helper.DetachConsumer("key");

	// Write data while detached.
	helper.WaitForProducerEnabled();
	auto on_data_written = task_runner.CreateCheckpoint("data_written");
	fake_producer->ProduceEventBatch(helper.WrapTask(on_data_written));
	task_runner.RunUntilCheckpoint("data_written");

	// Then reattach the consumer.
	helper.ConnectConsumer();
	helper.WaitForConsumerConnect();
	helper.AttachConsumer("key");

	helper.DisableTracing();
	helper.WaitForTracingDisabled();

	helper.ReadData();
	helper.WaitForReadData();
	const auto& packets = helper.trace();
	ASSERT_EQ(packets.size(), kNumPackets);
	}

	// Tests that a detached trace session is automatically cleaned up if the
	// consumer doesn't re-attach before its expiration time.
	TEST(PerfettoTracedIntegrationTest, ReattachFailsAfterTimeout) {
	base::TestTaskRunner task_runner;

	TraceConfig trace_config;
	trace_config.add_buffers()->set_size_kb(1024);
	trace_config.set_duration_ms(250);
	trace_config.set_write_into_file(true);
	trace_config.set_file_write_period_ms(100000);
	auto* ds_config = trace_config.add_data_sources()->mutable_config();
	ds_config->set_name("android.perfetto.FakeProducer");
	ds_config->mutable_for_testing()->set_message_count(1);
	ds_config->mutable_for_testing()->set_message_size(32);
	ds_config->mutable_for_testing()->set_send_batch_on_register(true);

	// Enable tracing and detach as soon as it gets started.
	TestHelper helper(&task_runner);
	helper.StartServiceIfRequired();
	helper.ConnectFakeProducer();
	helper.ConnectConsumer();
	helper.WaitForConsumerConnect();

	auto pipe_pair = base::Pipe::Create();
	helper.StartTracing(trace_config, std::move(pipe_pair.wr));

	// Detach.
	helper.DetachConsumer("key");

	// Use the file EOF (write end closed) as a way to detect when the trace
	// session is ended.
	char buf[1024];
	while (PERFETTO_EINTR(read(*pipe_pair.rd, buf, sizeof(buf))) > 0) {
	}

	// Give some margin for the tracing service to destroy the session.
	usleep(250000);

	// Reconnect and find out that it's too late and the session is gone.
	helper.ConnectConsumer();
	helper.WaitForConsumerConnect();
	EXPECT_FALSE(helper.AttachConsumer("key"));
	}

	TEST(PerfettoTracedIntegrationTest, TestProducerProvidedSMB) {
	base::TestTaskRunner task_runner;

	TestHelper helper(&task_runner);
	helper.CreateProducerProvidedSmb();

	protos::gen::TestConfig test_config;
	test_config.set_seed(42);
	test_config.set_message_count(1);
	test_config.set_message_size(1024);
	test_config.set_send_batch_on_register(true);

	// Write a first batch before connection.
	helper.ProduceStartupEventBatch(test_config);

	helper.StartServiceIfRequired();
	helper.ConnectFakeProducer();
	helper.ConnectConsumer();
	helper.WaitForConsumerConnect();

	TraceConfig trace_config;
	trace_config.add_buffers()->set_size_kb(1024);
	trace_config.set_duration_ms(200);

	auto* ds_config = trace_config.add_data_sources()->mutable_config();
	ds_config->set_name("android.perfetto.FakeProducer");
	ds_config->set_target_buffer(0);
	*ds_config->mutable_for_testing() = test_config;

	// The data source is configured to emit another batch when it is started via
	// send_batch_on_register in the TestConfig.
	helper.StartTracing(trace_config);
	helper.WaitForTracingDisabled();

	EXPECT_TRUE(helper.IsShmemProvidedByProducer());

	helper.ReadData();
	helper.WaitForReadData();

	const auto& packets = helper.trace();
	// We should have produced two batches, one before the producer connected and
	// another one when the data source was started.
	ASSERT_EQ(packets.size(), 2u);
	ASSERT_TRUE(packets[0].has_for_testing());
	ASSERT_TRUE(packets[1].has_for_testing());
	}

	// Regression test for b/153142114.
	TEST(PerfettoTracedIntegrationTest, QueryServiceStateLargeResponse) {
	base::TestTaskRunner task_runner;

	TestHelper helper(&task_runner);
	helper.StartServiceIfRequired();
	helper.ConnectConsumer();
	helper.WaitForConsumerConnect();

	FakeProducer* producer = helper.ConnectFakeProducer();

	// Register 5 data sources with very large descriptors. Each descriptor will
	// max out the IPC message size, so that the service has no other choice
	// than chunking them.
	std::map<std::string, std::string> ds_expected;
	for (int i = 0; i < 5; i++) {
	DataSourceDescriptor dsd;
	std::string name = "big_ds_" + std::to_string(i);
	dsd.set_name(name);
	std::string descriptor(ipc::kIPCBufferSize - 64,
	static_cast<char>((' ' + i) % 64));
	dsd.set_track_event_descriptor_raw(descriptor);
	ds_expected[name] = std::move(descriptor);
	producer->RegisterDataSource(dsd);
	}

	// Linearize the producer with the service. We need to make sure that all the
	// RegisterDataSource() calls above have been seen by the service before
	// continuing.
	helper.SyncAndWaitProducer();

	// Now invoke QueryServiceState() and wait for the reply. The service will
	// send 6 (1 + 5) IPCs which will be merged together in
	// producer_ipc_client_impl.cc.
	auto svc_state = helper.QueryServiceStateAndWait();

	ASSERT_GE(svc_state.producers().size(), 1u);

	std::map<std::string, std::string> ds_found;
	for (const auto& ds : svc_state.data_sources()) {
	if (!base::StartsWith(ds.ds_descriptor().name(), "big_ds_"))
	continue;
	ds_found[ds.ds_descriptor().name()] =
	ds.ds_descriptor().track_event_descriptor_raw();
	}
	EXPECT_THAT(ds_found, ElementsAreArray(ds_expected));
	}

	// Regression test for b/195065199. Check that trace filtering works when a
	// packet size exceeds the IPC limit. This tests that the tracing service, when
	// reassembling packets after filtering, doesn't "overglue" them. They still
	// need to be slice-able to fit into the ReadBuffers ipc.
	TEST(PerfettoTracedIntegrationTest, TraceFilterLargePackets) {
	base::TestTaskRunner task_runner;
	TestHelper helper(&task_runner);

	helper.StartServiceIfRequired();
	helper.ConnectFakeProducer();
	helper.ConnectConsumer();
	helper.WaitForConsumerConnect();

	TraceConfig trace_config;
	trace_config.add_buffers()->set_size_kb(1024 * 16);
	trace_config.set_duration_ms(500);
	auto* prod_config = trace_config.add_producers();
	prod_config->set_producer_name("android.perfetto.FakeProducer");
	prod_config->set_shm_size_kb(1024 * 16);
	prod_config->set_page_size_kb(32);

	static constexpr size_t kNumPackets = 3;
	static constexpr uint32_t kRandomSeed = 42;
	static constexpr uint32_t kMsgSize = 8 * ipc::kIPCBufferSize;
	auto* ds_config = trace_config.add_data_sources()->mutable_config();
	ds_config->set_name("android.perfetto.FakeProducer");
	auto* test_config = ds_config->mutable_for_testing();
	test_config->set_seed(kRandomSeed);
	test_config->set_message_count(kNumPackets);
	test_config->set_message_size(kMsgSize);
	test_config->set_send_batch_on_register(true);

	protozero::FilterBytecodeGenerator filt;
	// Message 0: root Trace proto.
	filt.AddNestedField(1 /* root trace.packet*/, 1);
	filt.EndMessage();

	// Message 1: TracePacket proto. Allow all fields.
	filt.AddSimpleFieldRange(1, 1000);
	filt.EndMessage();

	trace_config.mutable_trace_filter()->set_bytecode(filt.Serialize());

	// The data source is configured to emit another batch when it is started via
	// send_batch_on_register in the TestConfig.
	helper.StartTracing(trace_config);
	helper.WaitForTracingDisabled();

	helper.ReadData();
	helper.WaitForReadData(/* read_count / 0, / timeout_ms */ 10000);

	const std::vector<protos::gen::TracePacket>& packets = helper.trace();
	EXPECT_EQ(packets.size(), kNumPackets);
	EXPECT_THAT(packets,
	Each(Property(&protos::gen::TracePacket::has_for_testing, true)));
	EXPECT_THAT(
	packets,
	Each(Property(&protos::gen::TracePacket::for_testing,
	Property(&protos::gen::TestEvent::str, SizeIs(kMsgSize)))));
	}

	} // namespace perfetto