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/*
* 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 <unistd.h>
#include <chrono>
#include <functional>
#include <initializer_list>
#include <random>
#include <thread>
#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/subprocess.h"
#include "perfetto/ext/base/temp_file.h"
#include "perfetto/ext/ipc/basic_types.h"
#include "perfetto/ext/traced/traced.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/ext/tracing/ipc/default_socket.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/traced/probes/ftrace/ftrace_controller.h"
#include "src/traced/probes/ftrace/ftrace_procfs.h"
#include "test/gtest_and_gmock.h"
#include "test/test_helper.h"
#include "protos/perfetto/config/power/android_power_config.pbzero.h"
#include "protos/perfetto/config/test_config.gen.h"
#include "protos/perfetto/config/trace_config.gen.h"
#include "protos/perfetto/trace/ftrace/ftrace.gen.h"
#include "protos/perfetto/trace/ftrace/ftrace_event.gen.h"
#include "protos/perfetto/trace/ftrace/ftrace_event_bundle.gen.h"
#include "protos/perfetto/trace/ftrace/ftrace_stats.gen.h"
#include "protos/perfetto/trace/perfetto/tracing_service_event.gen.h"
#include "protos/perfetto/trace/power/battery_counters.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"
#include "protos/perfetto/trace/trigger.gen.h"
#include "protos/perfetto/common/sys_stats_counters.gen.h"
#include "protos/perfetto/config/sys_stats/sys_stats_config.gen.h"
#include "protos/perfetto/trace/sys_stats/sys_stats.gen.h"
#if PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
#include "test/android_test_utils.h"
#endif
namespace perfetto {
namespace {
using ::testing::ContainsRegex;
using ::testing::ElementsAreArray;
using ::testing::HasSubstr;
std::string RandomTraceFileName() {
#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
constexpr char kSysTmpPath[] = "/data/misc/perfetto-traces";
#else
constexpr char kSysTmpPath[] = "/tmp";
#endif
static int suffix = 0;
std::string path;
path.assign(kSysTmpPath);
path.append("/trace-");
path.append(std::to_string(base::GetBootTimeNs().count()));
path.append("-");
path.append(std::to_string(suffix++));
return path;
}
// 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::kBuffer;
subprocess_.args.stdout_mode = base::Subprocess::kDevNull;
subprocess_.args.input = input;
#if PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS)
constexpr bool kUseSystemBinaries = false;
#else
constexpr bool kUseSystemBinaries = true;
#endif
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());
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();
}
private:
base::Subprocess subprocess_;
base::Pipe sync_pipe_;
};
class PerfettoTest : public ::testing::Test {
public:
void SetUp() override {
ftrace_procfs_ = FtraceProcfs::CreateGuessingMountPoint();
}
std::unique_ptr<FtraceProcfs> ftrace_procfs_;
};
class PerfettoCmdlineTest : public ::testing::Test {
public:
void SetUp() override { exec_allowed_ = true; }
void TearDown() override {}
void StartServiceIfRequiredNoNewExecsAfterThis() {
exec_allowed_ = false;
test_helper_.StartServiceIfRequired();
}
FakeProducer* ConnectFakeProducer() {
return test_helper_.ConnectFakeProducer();
}
std::function<void()> WrapTask(const std::function<void()>& function) {
return test_helper_.WrapTask(function);
}
void WaitForProducerSetup() { test_helper_.WaitForProducerSetup(); }
void WaitForProducerEnabled() { test_helper_.WaitForProducerEnabled(); }
// Creates a process that represents the perfetto binary that will
// start when Run() is called. |args| will be passed as part of
// the command line and |std_in| will be piped into std::cin.
Exec ExecPerfetto(std::initializer_list<std::string> args,
std::string std_in = "") {
// You can not fork after you've started the service due to risk of
// deadlocks.
PERFETTO_CHECK(exec_allowed_);
return Exec("perfetto", std::move(args), std::move(std_in));
}
// Creates a process that represents the trigger_perfetto binary that will
// start when Run() is called. |args| will be passed as part of
// the command line and |std_in| will be piped into std::cin.
Exec ExecTrigger(std::initializer_list<std::string> args,
std::string std_in = "") {
// You can not fork after you've started the service due to risk of
// deadlocks.
PERFETTO_CHECK(exec_allowed_);
return Exec("trigger_perfetto", std::move(args), std::move(std_in));
}
// Tests are allowed to freely use these variables.
std::string stderr_;
base::TestTaskRunner task_runner_;
private:
bool exec_allowed_;
TestHelper test_helper_{&task_runner_};
};
// For the SaveForBugreport* tests.
void SetTraceConfigForBugreportTest(TraceConfig* trace_config) {
trace_config->add_buffers()->set_size_kb(4096);
trace_config->set_duration_ms(60000); // Will never hit this.
trace_config->set_bugreport_score(10);
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(3);
ds_config->mutable_for_testing()->set_message_size(10);
ds_config->mutable_for_testing()->set_send_batch_on_register(true);
}
// For the SaveForBugreport* tests.
static void VerifyBugreportTraceContents() {
// Read the trace written in the fixed location (/data/misc/perfetto-traces/
// on Android, /tmp/ on Linux/Mac) and make sure it has the right contents.
std::string trace_str;
base::ReadFile(kBugreportTracePath, &trace_str);
ASSERT_FALSE(trace_str.empty());
protos::gen::Trace trace;
ASSERT_TRUE(trace.ParseFromString(trace_str));
int test_packets = 0;
for (const auto& p : trace.packet())
test_packets += p.has_for_testing() ? 1 : 0;
ASSERT_EQ(test_packets, 3);
}
} // namespace
// 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)
#define TEST_PRODUCER_SOCK_NAME "/data/local/tmp/traced_producer"
#else
#define TEST_PRODUCER_SOCK_NAME ::perfetto::GetProducerSocket()
#endif
#if PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
#define TreeHuggerOnly(x) x
#else
#define TreeHuggerOnly(x) DISABLED_##x
#endif
// TODO(b/73453011): reenable on more platforms (including standalone Android).
TEST_F(PerfettoTest, TreeHuggerOnly(TestFtraceProducer)) {
base::TestTaskRunner task_runner;
TestHelper helper(&task_runner);
helper.StartServiceIfRequired();
#if PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS)
ProbesProducerThread probes(TEST_PRODUCER_SOCK_NAME);
probes.Connect();
#endif
helper.ConnectConsumer();
helper.WaitForConsumerConnect();
TraceConfig trace_config;
trace_config.add_buffers()->set_size_kb(1024);
trace_config.set_duration_ms(3000);
auto* ds_config = trace_config.add_data_sources()->mutable_config();
ds_config->set_name("linux.ftrace");
ds_config->set_target_buffer(0);
protos::gen::FtraceConfig ftrace_config;
ftrace_config.add_ftrace_events("sched_switch");
ftrace_config.add_ftrace_events("bar");
ds_config->set_ftrace_config_raw(ftrace_config.SerializeAsString());
helper.StartTracing(trace_config);
helper.WaitForTracingDisabled();
helper.ReadData();
helper.WaitForReadData();
const auto& packets = helper.trace();
ASSERT_GT(packets.size(), 0u);
for (const auto& packet : packets) {
for (int ev = 0; ev < packet.ftrace_events().event_size(); ev++) {
ASSERT_TRUE(packet.ftrace_events()
.event()[static_cast<size_t>(ev)]
.has_sched_switch());
}
}
}
// TODO(b/73453011): reenable on more platforms (including standalone Android).
TEST_F(PerfettoTest, TreeHuggerOnly(TestFtraceFlush)) {
base::TestTaskRunner task_runner;
TestHelper helper(&task_runner);
helper.StartServiceIfRequired();
#if PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS)
ProbesProducerThread probes(TEST_PRODUCER_SOCK_NAME);
probes.Connect();
#endif
helper.ConnectConsumer();
helper.WaitForConsumerConnect();
const uint32_t kTestTimeoutMs = 30000;
TraceConfig trace_config;
trace_config.add_buffers()->set_size_kb(32);
trace_config.set_duration_ms(kTestTimeoutMs);
auto* ds_config = trace_config.add_data_sources()->mutable_config();
ds_config->set_name("linux.ftrace");
protos::gen::FtraceConfig ftrace_config;
ftrace_config.add_ftrace_events("print");
ds_config->set_ftrace_config_raw(ftrace_config.SerializeAsString());
helper.StartTracing(trace_config);
// Do a first flush just to synchronize with the producer. The problem here
// is that, on a Linux workstation, the producer can take several seconds just
// to get to the point where ftrace is ready. We use the flush ack as a
// synchronization point.
helper.FlushAndWait(kTestTimeoutMs);
EXPECT_TRUE(ftrace_procfs_->IsTracingEnabled());
const char kMarker[] = "just_one_event";
EXPECT_TRUE(ftrace_procfs_->WriteTraceMarker(kMarker));
// This is the real flush we are testing.
helper.FlushAndWait(kTestTimeoutMs);
helper.DisableTracing();
helper.WaitForTracingDisabled(kTestTimeoutMs);
helper.ReadData();
helper.WaitForReadData();
int marker_found = 0;
for (const auto& packet : helper.trace()) {
for (int i = 0; i < packet.ftrace_events().event_size(); i++) {
const auto& ev = packet.ftrace_events().event()[static_cast<size_t>(i)];
if (ev.has_print() && ev.print().buf().find(kMarker) != std::string::npos)
marker_found++;
}
}
ASSERT_EQ(marker_found, 1);
}
TEST_F(PerfettoTest, TreeHuggerOnly(TestKmemActivity)) {
using C = protos::gen::VmstatCounters;
base::TestTaskRunner task_runner;
TestHelper helper(&task_runner);
// Create kmem_activity trigger proc before starting service
auto kmem_activity_trigger_proc = Exec("trigger_perfetto", {"kmem_activity"});
helper.StartServiceIfRequired();
#if PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS)
ProbesProducerThread probes(TEST_PRODUCER_SOCK_NAME);
probes.Connect();
#endif
helper.ConnectConsumer();
helper.WaitForConsumerConnect();
TraceConfig trace_config;
trace_config.add_buffers()->set_size_kb(1024);
trace_config.set_unique_session_name("kmem_activity_test");
auto* ftrace_ds_config = trace_config.add_data_sources()->mutable_config();
ftrace_ds_config->set_name("linux.ftrace");
protos::gen::FtraceConfig ftrace_config = CreateFtraceConfig({
"vmscan/mm_vmscan_kswapd_wake",
"vmscan/mm_vmscan_kswapd_sleep",
"vmscan/mm_vmscan_direct_reclaim_begin",
"vmscan/mm_vmscan_direct_reclaim_end",
"compaction/mm_compaction_begin",
"compaction/mm_compaction_end",
});
ftrace_ds_config->set_ftrace_config_raw(ftrace_config.SerializeAsString());
auto* sys_stats_ds_config = trace_config.add_data_sources()->mutable_config();
sys_stats_ds_config->set_name("linux.sys_stats");
protos::gen::SysStatsConfig sys_stats_config;
sys_stats_config.set_vmstat_period_ms(50);
std::vector<C> vmstat_counters = {
C::VMSTAT_NR_FREE_PAGES,
C::VMSTAT_NR_SLAB_RECLAIMABLE,
C::VMSTAT_NR_SLAB_UNRECLAIMABLE,
C::VMSTAT_NR_ACTIVE_FILE,
C::VMSTAT_NR_INACTIVE_FILE,
C::VMSTAT_NR_ACTIVE_ANON,
C::VMSTAT_NR_INACTIVE_ANON,
C::VMSTAT_WORKINGSET_REFAULT,
C::VMSTAT_WORKINGSET_ACTIVATE,
C::VMSTAT_NR_FILE_PAGES,
C::VMSTAT_PGPGIN,
C::VMSTAT_PGPGOUT,
C::VMSTAT_PSWPIN,
C::VMSTAT_PSWPOUT,
C::VMSTAT_PGSTEAL_KSWAPD_DMA,
C::VMSTAT_PGSTEAL_KSWAPD_NORMAL,
C::VMSTAT_PGSTEAL_KSWAPD_MOVABLE,
C::VMSTAT_PGSTEAL_DIRECT_DMA,
C::VMSTAT_PGSTEAL_DIRECT_NORMAL,
C::VMSTAT_PGSTEAL_DIRECT_MOVABLE,
C::VMSTAT_PGSCAN_KSWAPD_DMA,
C::VMSTAT_PGSCAN_KSWAPD_NORMAL,
C::VMSTAT_PGSCAN_KSWAPD_MOVABLE,
C::VMSTAT_PGSCAN_DIRECT_DMA,
C::VMSTAT_PGSCAN_DIRECT_NORMAL,
C::VMSTAT_PGSCAN_DIRECT_MOVABLE,
C::VMSTAT_COMPACT_MIGRATE_SCANNED,
C::VMSTAT_COMPACT_FREE_SCANNED,
};
for (const auto& counter : vmstat_counters) {
sys_stats_config.add_vmstat_counters(counter);
}
sys_stats_ds_config->set_sys_stats_config_raw(
sys_stats_config.SerializeAsString());
auto* trigger_cfg = trace_config.mutable_trigger_config();
trigger_cfg->set_trigger_mode(
protos::gen::TraceConfig::TriggerConfig::START_TRACING);
trigger_cfg->set_trigger_timeout_ms(15000);
auto* trigger = trigger_cfg->add_triggers();
trigger->set_name("kmem_activity");
// |stop_delay_ms| must be long enough that we can write the packets in
// before the trace finishes.
trigger->set_stop_delay_ms(1000);
helper.StartTracing(trace_config);
// Generating synthetic memory pressure to trigger kmem activity is
// inherently flaky on different devices. The same goes for writing
// /proc/sys/vm/compact_memory to trigger compaction, since compaction is
// only started if needed (even if explicitly triggered from proc).
// Trigger kmem activity using perfetto trigger.
std::string stderr_str;
EXPECT_EQ(0, kmem_activity_trigger_proc.Run(&stderr_str)) << stderr_str;
helper.WaitForTracingDisabled();
helper.ReadData();
helper.WaitForReadData();
const auto& packets = helper.trace();
ASSERT_GT(packets.size(), 0u);
bool sys_stats_captured = false;
for (const auto& packet : packets) {
for (int ev = 0; ev < packet.ftrace_events().event_size(); ev++) {
auto ftrace_event =
packet.ftrace_events().event()[static_cast<size_t>(ev)];
ASSERT_TRUE(ftrace_event.has_mm_vmscan_kswapd_wake() ||
ftrace_event.has_mm_vmscan_kswapd_sleep() ||
ftrace_event.has_mm_vmscan_direct_reclaim_begin() ||
ftrace_event.has_mm_vmscan_direct_reclaim_end() ||
ftrace_event.has_mm_compaction_begin() ||
ftrace_event.has_mm_compaction_end());
}
if (packet.has_sys_stats()) {
sys_stats_captured = true;
const auto& sys_stats = packet.sys_stats();
const auto& vmstat = sys_stats.vmstat();
ASSERT_GT(vmstat.size(), 0u);
for (const auto& vmstat_value : vmstat) {
ASSERT_NE(std::find(vmstat_counters.begin(), vmstat_counters.end(),
vmstat_value.key()),
vmstat_counters.end());
}
}
}
// Don't explicitly check that ftrace events were captured, since this test
// doesn't rely on memory pressure.
ASSERT_TRUE(sys_stats_captured);
}
// Disable this test:
// 1. On cuttlefish (x86-kvm). It's too slow when running on GCE (b/171771440).
// We cannot change the length of the production code in
// CanReadKernelSymbolAddresses() to deal with it.
// 2. On user (i.e. non-userdebug) builds. As that doesn't work there by design.
// 3. On ARM builds, because they fail on our CI.
#if (PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD) && defined(__i386__)) || \
defined(__arm__)
#define MAYBE_KernelAddressSymbolization DISABLED_KernelAddressSymbolization
#else
#define MAYBE_KernelAddressSymbolization KernelAddressSymbolization
#endif
TEST_F(PerfettoTest, MAYBE_KernelAddressSymbolization) {
// On Android in-tree builds (TreeHugger): this test must always run to
// prevent selinux / property-related regressions. However it can run only on
// userdebug.
// On standalone builds and Linux, this can be optionally skipped because
// there it requires root to lower kptr_restrict.
#if PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
if (!IsDebuggableBuild())
GTEST_SKIP();
#else
if (geteuid() != 0)
GTEST_SKIP();
#endif
base::TestTaskRunner task_runner;
TestHelper helper(&task_runner);
helper.StartServiceIfRequired();
#if PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS)
ProbesProducerThread probes(TEST_PRODUCER_SOCK_NAME);
probes.Connect();
#endif
helper.ConnectConsumer();
helper.WaitForConsumerConnect();
TraceConfig trace_config;
trace_config.add_buffers()->set_size_kb(1024);
auto* ds_config = trace_config.add_data_sources()->mutable_config();
ds_config->set_name("linux.ftrace");
protos::gen::FtraceConfig ftrace_cfg;
ftrace_cfg.set_symbolize_ksyms(true);
ftrace_cfg.set_initialize_ksyms_synchronously_for_testing(true);
ds_config->set_ftrace_config_raw(ftrace_cfg.SerializeAsString());
helper.StartTracing(trace_config);
// Synchronize with the ftrace data source. The kernel symbol map is loaded
// at this point.
helper.FlushAndWait(kDefaultTestTimeoutMs);
helper.DisableTracing();
helper.WaitForTracingDisabled();
helper.ReadData();
helper.WaitForReadData();
const auto& packets = helper.trace();
ASSERT_GT(packets.size(), 0u);
int symbols_parsed = -1;
for (const auto& packet : packets) {
if (!packet.has_ftrace_stats())
continue;
if (packet.ftrace_stats().phase() != protos::gen::FtraceStats::END_OF_TRACE)
continue;
symbols_parsed =
static_cast<int>(packet.ftrace_stats().kernel_symbols_parsed());
}
ASSERT_GT(symbols_parsed, 100);
}
// TODO(b/73453011): reenable on more platforms (including standalone Android).
TEST_F(PerfettoTest, TreeHuggerOnly(TestBatteryTracing)) {
base::TestTaskRunner task_runner;
TestHelper helper(&task_runner);
helper.StartServiceIfRequired();
#if PERFETTO_BUILDFLAG(PERFETTO_START_DAEMONS)
ProbesProducerThread probes(TEST_PRODUCER_SOCK_NAME);
probes.Connect();
#else
base::ignore_result(TEST_PRODUCER_SOCK_NAME);
#endif
helper.ConnectConsumer();
helper.WaitForConsumerConnect();
TraceConfig trace_config;
trace_config.add_buffers()->set_size_kb(128);
trace_config.set_duration_ms(3000);
auto* ds_config = trace_config.add_data_sources()->mutable_config();
ds_config->set_name("android.power");
ds_config->set_target_buffer(0);
using protos::pbzero::AndroidPowerConfig;
protozero::HeapBuffered<AndroidPowerConfig> power_config;
power_config->set_battery_poll_ms(250);
power_config->add_battery_counters(
AndroidPowerConfig::BATTERY_COUNTER_CHARGE);
power_config->add_battery_counters(
AndroidPowerConfig::BATTERY_COUNTER_CAPACITY_PERCENT);
ds_config->set_android_power_config_raw(power_config.SerializeAsString());
helper.StartTracing(trace_config);
helper.WaitForTracingDisabled();
helper.ReadData();
helper.WaitForReadData();
const auto& packets = helper.trace();
ASSERT_GT(packets.size(), 0u);
bool has_battery_packet = false;
for (const auto& packet : packets) {
if (!packet.has_battery())
continue;
has_battery_packet = true;
// Unfortunately we cannot make any assertions on the charge counter.
// On some devices it can reach negative values (b/64685329).
EXPECT_GE(packet.battery().capacity_percent(), 0.f);
EXPECT_LE(packet.battery().capacity_percent(), 100.f);
}
ASSERT_TRUE(has_battery_packet);
}
TEST_F(PerfettoTest, 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 = 11;
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_F(PerfettoTest, 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_F(PerfettoTest, 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_F(PerfettoTest, 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_F(PerfettoTest, 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_F(PerfettoTest, 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_F(PerfettoTest, 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, (' ' + 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));
}
TEST_F(PerfettoTest, SaveForBugreport) {
base::TestTaskRunner task_runner;
TestHelper helper(&task_runner);
helper.StartServiceIfRequired();
helper.ConnectFakeProducer();
helper.ConnectConsumer();
helper.WaitForConsumerConnect();
TraceConfig trace_config;
SetTraceConfigForBugreportTest(&trace_config);
helper.StartTracing(trace_config);
helper.WaitForProducerEnabled();
EXPECT_TRUE(helper.SaveTraceForBugreportAndWait());
helper.WaitForTracingDisabled();
VerifyBugreportTraceContents();
// Now read the trace returned to the consumer via ReadBuffers. This should
// be always empty because --save-for-bugreport takes it over and makes the
// buffers unreadable by the consumer (by virtue of force-setting
// write_into_file, which is incompatible with ReadBuffers()). The only
// content should be the |seized_for_bugreport| flag.
helper.ReadData();
helper.WaitForReadData();
const auto& packets = helper.full_trace();
ASSERT_EQ(packets.size(), 1u);
for (const auto& p : packets) {
ASSERT_TRUE(p.has_service_event());
ASSERT_TRUE(p.service_event().seized_for_bugreport());
}
}
// Tests that the SaveForBugreport logic works also for traces with
// write_into_file = true (with a passed file descriptor).
TEST_F(PerfettoTest, SaveForBugreport_WriteIntoFile) {
base::TestTaskRunner task_runner;
TestHelper helper(&task_runner);
helper.StartServiceIfRequired();
helper.ConnectFakeProducer();
helper.ConnectConsumer();
helper.WaitForConsumerConnect();
TraceConfig trace_config;
SetTraceConfigForBugreportTest(&trace_config);
trace_config.set_file_write_period_ms(60000); // Will never hit this.
trace_config.set_write_into_file(true);
auto pipe_pair = base::Pipe::Create();
helper.StartTracing(trace_config, std::move(pipe_pair.wr));
helper.WaitForProducerEnabled();
EXPECT_TRUE(helper.SaveTraceForBugreportAndWait());
helper.WaitForTracingDisabled();
VerifyBugreportTraceContents();
// Now read the original file descriptor passed in.
std::string trace_bytes;
ASSERT_TRUE(base::ReadPlatformHandle(*pipe_pair.rd, &trace_bytes));
protos::gen::Trace trace;
ASSERT_TRUE(trace.ParseFromString(trace_bytes));
ASSERT_EQ(trace.packet().size(), 1u);
for (const auto& p : trace.packet()) {
ASSERT_TRUE(p.has_service_event());
ASSERT_TRUE(p.service_event().seized_for_bugreport());
}
}
// Disable cmdline tests on sanitizets because they use fork() and that messes
// up leak / races detections, which has been fixed only recently (see
// https://github.com/google/sanitizers/issues/836 ).
#if defined(ADDRESS_SANITIZER) || defined(THREAD_SANITIZER) || \
defined(MEMORY_SANITIZER) || defined(LEAK_SANITIZER)
#define NoSanitizers(X) DISABLED_##X
#else
#define NoSanitizers(X) X
#endif
TEST_F(PerfettoCmdlineTest, NoSanitizers(InvalidCases)) {
std::string cfg("duration_ms: 100");
auto invalid_arg = ExecPerfetto({"--invalid-arg"});
auto empty_config = ExecPerfetto({"-c", "-", "-o", "-"}, "");
// Cannot make assertions on --dropbox because on standalone builds it fails
// prematurely due to lack of dropbox.
auto missing_dropbox =
ExecPerfetto({"-c", "-", "--txt", "-o", "-", "--dropbox=foo"}, cfg);
auto either_out_or_dropbox = ExecPerfetto({"-c", "-", "--txt"}, cfg);
// Disallow mixing simple and file config.
auto simple_and_file_1 =
ExecPerfetto({"-o", "-", "-c", "-", "-t", "2s"}, cfg);
auto simple_and_file_2 =
ExecPerfetto({"-o", "-", "-c", "-", "-b", "2m"}, cfg);
auto simple_and_file_3 =
ExecPerfetto({"-o", "-", "-c", "-", "-s", "2m"}, cfg);
// Invalid --attach / --detach cases.
auto invalid_stop =
ExecPerfetto({"-c", "-", "--txt", "-o", "-", "--stop"}, cfg);
auto attach_and_config_1 =
ExecPerfetto({"-c", "-", "--txt", "-o", "-", "--attach=foo"}, cfg);
auto attach_and_config_2 =
ExecPerfetto({"-t", "2s", "-o", "-", "--attach=foo"}, cfg);
auto attach_needs_argument = ExecPerfetto({"--attach"}, cfg);
auto detach_needs_argument =
ExecPerfetto({"-t", "2s", "-o", "-", "--detach"}, cfg);
auto detach_without_out_or_dropbox =
ExecPerfetto({"-t", "2s", "--detach=foo"}, cfg);
// Cannot trace and use --query.
auto trace_and_query_1 = ExecPerfetto({"-t", "2s", "--query"}, cfg);
auto trace_and_query_2 = ExecPerfetto({"-c", "-", "--query"}, cfg);
// Ensure all Exec:: calls have been saved to prevent deadlocks.
StartServiceIfRequiredNoNewExecsAfterThis();
EXPECT_EQ(1, invalid_arg.Run(&stderr_));
EXPECT_EQ(1, empty_config.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("TraceConfig is empty"));
// Cannot make assertions on --upload because on standalone builds it fails
// prematurely due to lack of dropbox.
EXPECT_EQ(1, missing_dropbox.Run(&stderr_));
EXPECT_EQ(1, either_out_or_dropbox.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("Either --out or --upload"));
// Disallow mixing simple and file config.
EXPECT_EQ(1, simple_and_file_1.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("Cannot specify both -c"));
EXPECT_EQ(1, simple_and_file_2.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("Cannot specify both -c"));
EXPECT_EQ(1, simple_and_file_3.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("Cannot specify both -c"));
// Invalid --attach / --detach cases.
EXPECT_EQ(1, invalid_stop.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("--stop is supported only in combination"));
EXPECT_EQ(1, attach_and_config_1.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("Cannot specify a trace config"));
EXPECT_EQ(1, attach_and_config_2.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("Cannot specify a trace config"));
EXPECT_EQ(1, attach_needs_argument.Run(&stderr_));
EXPECT_THAT(stderr_, ContainsRegex("option.*--attach.*requires an argument"));
EXPECT_EQ(1, detach_needs_argument.Run(&stderr_));
EXPECT_THAT(stderr_, ContainsRegex("option.*--detach.*requires an argument"));
EXPECT_EQ(1, detach_without_out_or_dropbox.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("--out or --upload is required"));
// Cannot trace and use --query.
EXPECT_EQ(1, trace_and_query_1.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("Cannot specify a trace config"));
EXPECT_EQ(1, trace_and_query_2.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("Cannot specify a trace config"));
}
TEST_F(PerfettoCmdlineTest, NoSanitizers(TxtConfig)) {
std::string cfg("duration_ms: 100");
auto perfetto = ExecPerfetto({"-c", "-", "--txt", "-o", "-"}, cfg);
StartServiceIfRequiredNoNewExecsAfterThis();
EXPECT_EQ(0, perfetto.Run(&stderr_)) << stderr_;
}
TEST_F(PerfettoCmdlineTest, NoSanitizers(SimpleConfig)) {
auto perfetto = ExecPerfetto({"-o", "-", "-c", "-", "-t", "100ms"});
StartServiceIfRequiredNoNewExecsAfterThis();
EXPECT_EQ(0, perfetto.Run(&stderr_)) << stderr_;
}
TEST_F(PerfettoCmdlineTest, NoSanitizers(DetachAndAttach)) {
auto attach_to_not_existing = ExecPerfetto({"--attach=not_existent"});
std::string cfg("duration_ms: 10000; write_into_file: true");
auto detach_valid_stop =
ExecPerfetto({"-o", "-", "-c", "-", "--txt", "--detach=valid_stop"}, cfg);
auto stop_valid_stop = ExecPerfetto({"--attach=valid_stop", "--stop"});
StartServiceIfRequiredNoNewExecsAfterThis();
EXPECT_NE(0, attach_to_not_existing.Run(&stderr_));
EXPECT_THAT(stderr_, HasSubstr("Session re-attach failed"));
EXPECT_EQ(0, detach_valid_stop.Run(&stderr_)) << stderr_;
EXPECT_EQ(0, stop_valid_stop.Run(&stderr_));
}
TEST_F(PerfettoCmdlineTest, NoSanitizers(StartTracingTrigger)) {
// See |message_count| and |message_size| in the TraceConfig above.
constexpr size_t kMessageCount = 11;
constexpr size_t kMessageSize = 32;
protos::gen::TraceConfig trace_config;
trace_config.add_buffers()->set_size_kb(1024);
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(kMessageCount);
ds_config->mutable_for_testing()->set_message_size(kMessageSize);
auto* trigger_cfg = trace_config.mutable_trigger_config();
trigger_cfg->set_trigger_mode(
protos::gen::TraceConfig::TriggerConfig::START_TRACING);
trigger_cfg->set_trigger_timeout_ms(15000);
auto* trigger = trigger_cfg->add_triggers();
trigger->set_name("trigger_name");
// |stop_delay_ms| must be long enough that we can write the packets in
// before the trace finishes. This has to be long enough for the slowest
// emulator. But as short as possible to prevent the test running a long
// time.
trigger->set_stop_delay_ms(500);
// We have to construct all the processes we want to fork before we start the
// service with |StartServiceIfRequired()|. this is because it is unsafe
// (could deadlock) to fork after we've spawned some threads which might
// printf (and thus hold locks).
const std::string path = RandomTraceFileName();
auto perfetto_proc = ExecPerfetto(
{
"-o",
path,
"-c",
"-",
},
trace_config.SerializeAsString());
auto trigger_proc = ExecTrigger({"trigger_name"});
// Start the service and connect a simple fake producer.
StartServiceIfRequiredNoNewExecsAfterThis();
auto* fake_producer = ConnectFakeProducer();
EXPECT_TRUE(fake_producer);
// Start a background thread that will deliver the config now that we've
// started the service. See |perfetto_proc| above for the args passed.
std::thread background_trace([&perfetto_proc]() {
std::string stderr_str;
EXPECT_EQ(0, perfetto_proc.Run(&stderr_str)) << stderr_str;
});
WaitForProducerSetup();
EXPECT_EQ(0, trigger_proc.Run(&stderr_));
// Wait for the producer to start, and then write out 11 packets.
WaitForProducerEnabled();
auto on_data_written = task_runner_.CreateCheckpoint("data_written");
fake_producer->ProduceEventBatch(WrapTask(on_data_written));
task_runner_.RunUntilCheckpoint("data_written");
background_trace.join();
std::string trace_str;
base::ReadFile(path, &trace_str);
protos::gen::Trace trace;
ASSERT_TRUE(trace.ParseFromString(trace_str));
size_t for_testing_packets = 0;
size_t trigger_packets = 0;
size_t trace_config_packets = 0;
for (const auto& packet : trace.packet()) {
if (packet.has_trace_config()) {
// Ensure the trace config properly includes the trigger mode we set.
auto kStartTrig = protos::gen::TraceConfig::TriggerConfig::START_TRACING;
EXPECT_EQ(kStartTrig,
packet.trace_config().trigger_config().trigger_mode());
++trace_config_packets;
} else if (packet.has_trigger()) {
// validate that the triggers are properly added to the trace.
EXPECT_EQ("trigger_name", packet.trigger().trigger_name());
++trigger_packets;
} else if (packet.has_for_testing()) {
// Make sure that the data size is correctly set based on what we
// requested.
EXPECT_EQ(kMessageSize, packet.for_testing().str().size());
++for_testing_packets;
}
}
EXPECT_EQ(trace_config_packets, 1u);
EXPECT_EQ(trigger_packets, 1u);
EXPECT_EQ(for_testing_packets, kMessageCount);
}
TEST_F(PerfettoCmdlineTest, NoSanitizers(StopTracingTrigger)) {
// See |message_count| and |message_size| in the TraceConfig above.
constexpr size_t kMessageCount = 11;
constexpr size_t kMessageSize = 32;
protos::gen::TraceConfig trace_config;
trace_config.add_buffers()->set_size_kb(1024);
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(kMessageCount);
ds_config->mutable_for_testing()->set_message_size(kMessageSize);
auto* trigger_cfg = trace_config.mutable_trigger_config();
trigger_cfg->set_trigger_mode(
protos::gen::TraceConfig::TriggerConfig::STOP_TRACING);
trigger_cfg->set_trigger_timeout_ms(15000);
auto* trigger = trigger_cfg->add_triggers();
trigger->set_name("trigger_name");
// |stop_delay_ms| must be long enough that we can write the packets in
// before the trace finishes. This has to be long enough for the slowest
// emulator. But as short as possible to prevent the test running a long
// time.
trigger->set_stop_delay_ms(500);
trigger = trigger_cfg->add_triggers();
trigger->set_name("trigger_name_3");
trigger->set_stop_delay_ms(60000);
// We have to construct all the processes we want to fork before we start the
// service with |StartServiceIfRequired()|. this is because it is unsafe
// (could deadlock) to fork after we've spawned some threads which might
// printf (and thus hold locks).
const std::string path = RandomTraceFileName();
auto perfetto_proc = ExecPerfetto(
{
"-o",
path,
"-c",
"-",
},
trace_config.SerializeAsString());
auto trigger_proc =
ExecTrigger({"trigger_name_2", "trigger_name", "trigger_name_3"});
// Start the service and connect a simple fake producer.
StartServiceIfRequiredNoNewExecsAfterThis();
auto* fake_producer = ConnectFakeProducer();
EXPECT_TRUE(fake_producer);
// Start a background thread that will deliver the config now that we've
// started the service. See |perfetto_proc| above for the args passed.
std::thread background_trace([&perfetto_proc]() {
std::string stderr_str;
EXPECT_EQ(0, perfetto_proc.Run(&stderr_str)) << stderr_str;
});
WaitForProducerEnabled();
// Wait for the producer to start, and then write out 11 packets, before the
// trace actually starts (the trigger is seen).
auto on_data_written = task_runner_.CreateCheckpoint("data_written_1");
fake_producer->ProduceEventBatch(WrapTask(on_data_written));
task_runner_.RunUntilCheckpoint("data_written_1");
EXPECT_EQ(0, trigger_proc.Run(&stderr_)) << "stderr: " << stderr_;
background_trace.join();
std::string trace_str;
base::ReadFile(path, &trace_str);
protos::gen::Trace trace;
ASSERT_TRUE(trace.ParseFromString(trace_str));
bool seen_first_trigger = false;
size_t for_testing_packets = 0;
size_t trigger_packets = 0;
size_t trace_config_packets = 0;
for (const auto& packet : trace.packet()) {
if (packet.has_trace_config()) {
// Ensure the trace config properly includes the trigger mode we set.
auto kStopTrig = protos::gen::TraceConfig::TriggerConfig::STOP_TRACING;
EXPECT_EQ(kStopTrig,
packet.trace_config().trigger_config().trigger_mode());
++trace_config_packets;
} else if (packet.has_trigger()) {
// validate that the triggers are properly added to the trace.
if (!seen_first_trigger) {
EXPECT_EQ("trigger_name", packet.trigger().trigger_name());
seen_first_trigger = true;
} else {
EXPECT_EQ("trigger_name_3", packet.trigger().trigger_name());
}
++trigger_packets;
} else if (packet.has_for_testing()) {
// Make sure that the data size is correctly set based on what we
// requested.
EXPECT_EQ(kMessageSize, packet.for_testing().str().size());
++for_testing_packets;
}
}
EXPECT_EQ(trace_config_packets, 1u);
EXPECT_EQ(trigger_packets, 2u);
EXPECT_EQ(for_testing_packets, kMessageCount);
}
// Dropbox on the commandline client only works on android builds. So disable
// this test on all other builds.
#if PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
TEST_F(PerfettoCmdlineTest, NoSanitizers(NoDataNoFileWithoutTrigger)) {
#else
TEST_F(PerfettoCmdlineTest, DISABLED_NoDataNoFileWithoutTrigger) {
#endif
// See |message_count| and |message_size| in the TraceConfig above.
constexpr size_t kMessageCount = 11;
constexpr size_t kMessageSize = 32;
protos::gen::TraceConfig trace_config;
trace_config.add_buffers()->set_size_kb(1024);
trace_config.set_allow_user_build_tracing(true);
auto* incident_config = trace_config.mutable_incident_report_config();
incident_config->set_destination_package("foo.bar.baz");
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(kMessageCount);
ds_config->mutable_for_testing()->set_message_size(kMessageSize);
auto* trigger_cfg = trace_config.mutable_trigger_config();
trigger_cfg->set_trigger_mode(
protos::gen::TraceConfig::TriggerConfig::STOP_TRACING);
trigger_cfg->set_trigger_timeout_ms(1000);
auto* trigger = trigger_cfg->add_triggers();
trigger->set_name("trigger_name");
// |stop_delay_ms| must be long enough that we can write the packets in
// before the trace finishes. This has to be long enough for the slowest
// emulator. But as short as possible to prevent the test running a long
// time.
trigger->set_stop_delay_ms(500);
trigger = trigger_cfg->add_triggers();
// We have to construct all the processes we want to fork before we start the
// service with |StartServiceIfRequired()|. this is because it is unsafe
// (could deadlock) to fork after we've spawned some threads which might
// printf (and thus hold locks).
const std::string path = RandomTraceFileName();
auto perfetto_proc = ExecPerfetto(
{
"--dropbox",
"TAG",
"--no-guardrails",
"-c",
"-",
},
trace_config.SerializeAsString());
StartServiceIfRequiredNoNewExecsAfterThis();
auto* fake_producer = ConnectFakeProducer();
EXPECT_TRUE(fake_producer);
std::string stderr_str;
std::thread background_trace([&perfetto_proc, &stderr_str]() {
EXPECT_EQ(0, perfetto_proc.Run(&stderr_str));
});
background_trace.join();
EXPECT_THAT(stderr_str,
::testing::HasSubstr("Skipping write to incident. Empty trace."));
}
TEST_F(PerfettoCmdlineTest, NoSanitizers(StopTracingTriggerFromConfig)) {
// See |message_count| and |message_size| in the TraceConfig above.
constexpr size_t kMessageCount = 11;
constexpr size_t kMessageSize = 32;
protos::gen::TraceConfig trace_config;
trace_config.add_buffers()->set_size_kb(1024);
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(kMessageCount);
ds_config->mutable_for_testing()->set_message_size(kMessageSize);
auto* trigger_cfg = trace_config.mutable_trigger_config();
trigger_cfg->set_trigger_mode(
protos::gen::TraceConfig::TriggerConfig::STOP_TRACING);
trigger_cfg->set_trigger_timeout_ms(15000);
auto* trigger = trigger_cfg->add_triggers();
trigger->set_name("trigger_name");
// |stop_delay_ms| must be long enough that we can write the packets in
// before the trace finishes. This has to be long enough for the slowest
// emulator. But as short as possible to prevent the test running a long
// time.
trigger->set_stop_delay_ms(500);
trigger = trigger_cfg->add_triggers();
trigger->set_name("trigger_name_3");
trigger->set_stop_delay_ms(60000);
// We have to construct all the processes we want to fork before we start the
// service with |StartServiceIfRequired()|. this is because it is unsafe
// (could deadlock) to fork after we've spawned some threads which might
// printf (and thus hold locks).
const std::string path = RandomTraceFileName();
auto perfetto_proc = ExecPerfetto(
{
"-o",
path,
"-c",
"-",
},
trace_config.SerializeAsString());
std::string triggers = R"(
activate_triggers: "trigger_name_2"
activate_triggers: "trigger_name"
activate_triggers: "trigger_name_3"
)";
auto perfetto_proc_2 = ExecPerfetto(
{
"-o",
path,
"-c",
"-",
"--txt",
},
triggers);
// Start the service and connect a simple fake producer.
StartServiceIfRequiredNoNewExecsAfterThis();
auto* fake_producer = ConnectFakeProducer();
EXPECT_TRUE(fake_producer);
std::thread background_trace([&perfetto_proc]() {
std::string stderr_str;
EXPECT_EQ(0, perfetto_proc.Run(&stderr_str)) << stderr_str;
});
WaitForProducerEnabled();
// Wait for the producer to start, and then write out 11 packets, before the
// trace actually starts (the trigger is seen).
auto on_data_written = task_runner_.CreateCheckpoint("data_written_1");
fake_producer->ProduceEventBatch(WrapTask(on_data_written));
task_runner_.RunUntilCheckpoint("data_written_1");
EXPECT_EQ(0, perfetto_proc_2.Run(&stderr_)) << "stderr: " << stderr_;
background_trace.join();
std::string trace_str;
base::ReadFile(path, &trace_str);
protos::gen::Trace trace;
ASSERT_TRUE(trace.ParseFromString(trace_str));
EXPECT_LT(static_cast<int>(kMessageCount), trace.packet_size());
bool seen_first_trigger = false;
for (const auto& packet : trace.packet()) {
if (packet.has_trace_config()) {
// Ensure the trace config properly includes the trigger mode we set.
auto kStopTrig = protos::gen::TraceConfig::TriggerConfig::STOP_TRACING;
EXPECT_EQ(kStopTrig,
packet.trace_config().trigger_config().trigger_mode());
} else if (packet.has_trigger()) {
// validate that the triggers are properly added to the trace.
if (!seen_first_trigger) {
EXPECT_EQ("trigger_name", packet.trigger().trigger_name());
seen_first_trigger = true;
} else {
EXPECT_EQ("trigger_name_3", packet.trigger().trigger_name());
}
} else if (packet.has_for_testing()) {
// Make sure that the data size is correctly set based on what we
// requested.
EXPECT_EQ(kMessageSize, packet.for_testing().str().size());
}
}
}
TEST_F(PerfettoCmdlineTest, NoSanitizers(TriggerFromConfigStopsFileOpening)) {
// See |message_count| and |message_size| in the TraceConfig above.
constexpr size_t kMessageCount = 11;
constexpr size_t kMessageSize = 32;
protos::gen::TraceConfig trace_config;
trace_config.add_buffers()->set_size_kb(1024);
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(kMessageCount);
ds_config->mutable_for_testing()->set_message_size(kMessageSize);
auto* trigger_cfg = trace_config.mutable_trigger_config();
trigger_cfg->set_trigger_mode(
protos::gen::TraceConfig::TriggerConfig::STOP_TRACING);
trigger_cfg->set_trigger_timeout_ms(15000);
auto* trigger = trigger_cfg->add_triggers();
trigger->set_name("trigger_name");
// |stop_delay_ms| must be long enough that we can write the packets in
// before the trace finishes. This has to be long enough for the slowest
// emulator. But as short as possible to prevent the test running a long
// time.
trigger->set_stop_delay_ms(500);
trigger = trigger_cfg->add_triggers();
trigger->set_name("trigger_name_3");
trigger->set_stop_delay_ms(60000);
// We have to construct all the processes we want to fork before we start the
// service with |StartServiceIfRequired()|. this is because it is unsafe
// (could deadlock) to fork after we've spawned some threads which might
// printf (and thus hold locks).
const std::string path = RandomTraceFileName();
std::string triggers = R"(
activate_triggers: "trigger_name_2"
activate_triggers: "trigger_name"
activate_triggers: "trigger_name_3"
)";
auto perfetto_proc = ExecPerfetto(
{
"-o",
path,
"-c",
"-",
"--txt",
},
triggers);
// Start the service and connect a simple fake producer.
StartServiceIfRequiredNoNewExecsAfterThis();
auto* fake_producer = ConnectFakeProducer();
EXPECT_TRUE(fake_producer);
std::string trace_str;
EXPECT_FALSE(base::ReadFile(path, &trace_str));
EXPECT_EQ(0, perfetto_proc.Run(&stderr_)) << "stderr: " << stderr_;
EXPECT_FALSE(base::ReadFile(path, &trace_str));
}
TEST_F(PerfettoCmdlineTest, NoSanitizers(Query)) {
auto query = ExecPerfetto({"--query"});
auto query_raw = ExecPerfetto({"--query-raw"});
StartServiceIfRequiredNoNewExecsAfterThis();
EXPECT_EQ(0, query.Run(&stderr_)) << stderr_;
EXPECT_EQ(0, query_raw.Run(&stderr_)) << stderr_;
}
} // namespace perfetto