metrics: Add dbus interface for GetRandomPerfOutput

chrome/browser/metrics/perf_provider_chromeos_unittest.cc

Index: chrome/browser/metrics/perf_provider_chromeos_unittest.cc
diff --git a/chrome/browser/metrics/perf_provider_chromeos_unittest.cc b/chrome/browser/metrics/perf_provider_chromeos_unittest.cc
new file mode 100644
index 0000000000000000000000000000000000000000..12828a318d1b231ce87a3a557a63c3a9450824ec
--- /dev/null
+++ b/chrome/browser/metrics/perf_provider_chromeos_unittest.cc
@@ -0,0 +1,462 @@
+// Copyright 2015 The Chromium Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style license that can be
+// found in the LICENSE file.
+
+#include "chrome/browser/metrics/perf_provider_chromeos.h"
+
+#include <string>
+#include <vector>
+
+#include "base/basictypes.h"
+#include "base/memory/scoped_ptr.h"
+#include "base/test/test_simple_task_runner.h"
+#include "base/thread_task_runner_handle.h"
+#include "chrome/browser/metrics/windowed_incognito_observer.h"
+#include "chromeos/dbus/dbus_thread_manager.h"
+#include "chromeos/login/login_state.h"
+#include "components/metrics/proto/sampled_profile.pb.h"
+#include "testing/gtest/include/gtest/gtest.h"
+
+namespace metrics {
+
+namespace {
+
+// Return values for perf.
+const int kPerfSuccess = 0;
+const int kPerfFailure = 1;
+
+// Converts a protobuf to serialized format as a byte vector.
+std::vector<uint8_t> SerializeMessageToVector(
+    const google::protobuf::MessageLite& message) {
+  std::vector<uint8_t> result(message.ByteSize());
+  message.SerializeToArray(result.data(), result.size());
+  return result;
+}
+
+// Returns an example PerfDataProto. The contents don't have to make sense. They
+// just need to constitute a semantically valid protobuf.
+// |proto| is an output parameter that will contain the created protobuf.
+PerfDataProto GetExamplePerfDataProto() {
+  PerfDataProto proto;
+  proto.set_timestamp_sec(1435604013);  // Time since epoch in seconds->
+
+  PerfDataProto_PerfFileAttr* file_attr = proto.add_file_attrs();
+  file_attr->add_ids(61);
+  file_attr->add_ids(62);
+  file_attr->add_ids(63);
+
+  PerfDataProto_PerfEventAttr* attr = file_attr->mutable_attr();
+  attr->set_type(1);
+  attr->set_size(2);
+  attr->set_config(3);
+  attr->set_sample_period(4);
+  attr->set_sample_freq(5);
+
+  PerfDataProto_PerfEventStats* stats = proto.mutable_stats();
+  stats->set_num_events_read(100);
+  stats->set_num_sample_events(200);
+  stats->set_num_mmap_events(300);
+  stats->set_num_fork_events(400);
+  stats->set_num_exit_events(500);
+
+  return proto;
+}
+
+// Returns an example PerfStatProto. The contents don't have to make sense. They
+// just need to constitute a semantically valid protobuf.
+// |result| is an output parameter that will contain the created protobuf.
+PerfStatProto GetExamplePerfStatProto() {
+  PerfStatProto proto;
+  proto.set_command_line(
+      "perf stat -a -e cycles -e instructions -e branches -- sleep 2");
+
+  PerfStatProto_PerfStatLine* line1 = proto.add_line();
+  line1->set_time_ms(1000);
+  line1->set_count(2000);
+  line1->set_event("cycles");
+
+  PerfStatProto_PerfStatLine* line2 = proto.add_line();
+  line2->set_time_ms(2000);
+  line2->set_count(5678);
+  line2->set_event("instructions");
+
+  PerfStatProto_PerfStatLine* line3 = proto.add_line();
+  line3->set_time_ms(3000);
+  line3->set_count(9999);
+  line3->set_event("branches");
+
+  return proto;
+}
+
+// Allows testing of PerfProvider behavior when an incognito window is opened.
+class TestIncognitoObserver : public WindowedIncognitoObserver {
+ public:
+  // Factory function to create a TestIncognitoObserver object contained in a
+  // scoped_ptr<WindowedIncognitoObserver> object. |incognito_launched|
+  // simulates the presence of an open incognito window, or the lack thereof.
+  // Used for passing observers to ParseOutputProtoIfValid().
+  static scoped_ptr<WindowedIncognitoObserver> CreateWithIncognitoLaunched(
+      bool incognito_launched) {
+    scoped_ptr<TestIncognitoObserver> observer(new TestIncognitoObserver);
+    observer->set_incognito_launched(incognito_launched);
+    return observer.Pass();
+  }
+
+ private:
+  TestIncognitoObserver() {}
+
+  DISALLOW_COPY_AND_ASSIGN(TestIncognitoObserver);
+};
+
+// Allows access to PerfProvider::ParseOutputProtoIfValid() for testing.
+class TestPerfProvider : public PerfProvider {
+ public:
+  TestPerfProvider() {}
+
+  using PerfProvider::ParseOutputProtoIfValid;
+
+ private:
+  std::vector<SampledProfile> stored_profiles_;
+
+  DISALLOW_COPY_AND_ASSIGN(TestPerfProvider);
+};
+
+}  // namespace
+
+class PerfProviderTest : public testing::Test {
+ public:
+  PerfProviderTest() : task_runner_(new base::TestSimpleTaskRunner),
+                       task_runner_handle_(task_runner_),
+                       perf_data_proto_(GetExamplePerfDataProto()),
+                       perf_stat_proto_(GetExamplePerfStatProto()) {}
+
+  void SetUp() override {
+    // PerfProvider requires chromeos::LoginState and
+    // chromeos::DBusThreadManagerto be initialized.
+    chromeos::LoginState::Initialize();
+    chromeos::DBusThreadManager::Initialize();
+
+    perf_provider_.reset(new TestPerfProvider);
+
+    // PerfProvider requires the user to be logged in.
+    chromeos::LoginState::Get()->SetLoggedInState(
+        chromeos::LoginState::LOGGED_IN_ACTIVE,
+        chromeos::LoginState::LOGGED_IN_USER_REGULAR);
+  }
+
+  void TearDown() override {
+    perf_provider_.reset();
+    chromeos::DBusThreadManager::Shutdown();
+    chromeos::LoginState::Shutdown();
+  }
+
+ protected:
+  scoped_ptr<TestPerfProvider> perf_provider_;
+
+  scoped_refptr<base::TestSimpleTaskRunner> task_runner_;
+  base::ThreadTaskRunnerHandle task_runner_handle_;
+
+  // These store example perf data/stat protobufs for testing.
+  PerfDataProto perf_data_proto_;
+  PerfStatProto perf_stat_proto_;
+
+  DISALLOW_COPY_AND_ASSIGN(PerfProviderTest);
+};
+
+TEST_F(PerfProviderTest, CheckSetup) {
+  EXPECT_GT(perf_data_proto_.ByteSize(), 0);
+  EXPECT_GT(perf_stat_proto_.ByteSize(), 0);
+
+  std::vector<SampledProfile> stored_profiles;
+  EXPECT_FALSE(perf_provider_->GetSampledProfiles(&stored_profiles));
+  EXPECT_TRUE(stored_profiles.empty());
+
+  EXPECT_FALSE(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false)->
+          incognito_launched());
+  EXPECT_TRUE(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(true)->
+          incognito_launched());
+}
+
+TEST_F(PerfProviderTest, NoPerfData) {
+  scoped_ptr<SampledProfile> sampled_profile(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::PERIODIC_COLLECTION);
+
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      std::vector<uint8_t>(),
+      std::vector<uint8_t>());
+
+  std::vector<SampledProfile> stored_profiles;
+  EXPECT_FALSE(perf_provider_->GetSampledProfiles(&stored_profiles));
+}
+
+TEST_F(PerfProviderTest, PerfDataProtoOnly) {
+  scoped_ptr<SampledProfile> sampled_profile(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::PERIODIC_COLLECTION);
+
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      SerializeMessageToVector(perf_data_proto_),
+      std::vector<uint8_t>());
+
+  std::vector<SampledProfile> stored_profiles;
+  EXPECT_TRUE(perf_provider_->GetSampledProfiles(&stored_profiles));
+  ASSERT_EQ(1U, stored_profiles.size());
+
+  const SampledProfile& profile = stored_profiles[0];
+  EXPECT_EQ(SampledProfile::PERIODIC_COLLECTION, profile.trigger_event());
+  EXPECT_TRUE(profile.has_ms_after_login());
+
+  ASSERT_TRUE(profile.has_perf_data());
+  EXPECT_FALSE(profile.has_perf_stat());
+  EXPECT_EQ(SerializeMessageToVector(perf_data_proto_),
+            SerializeMessageToVector(profile.perf_data()));
+}
+
+TEST_F(PerfProviderTest, PerfStatProtoOnly) {
+  scoped_ptr<SampledProfile> sampled_profile(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::PERIODIC_COLLECTION);
+
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      std::vector<uint8_t>(),
+      SerializeMessageToVector(perf_stat_proto_));
+
+  std::vector<SampledProfile> stored_profiles;
+  EXPECT_TRUE(perf_provider_->GetSampledProfiles(&stored_profiles));
+  ASSERT_EQ(1U, stored_profiles.size());
+
+  const SampledProfile& profile = stored_profiles[0];
+  EXPECT_EQ(SampledProfile::PERIODIC_COLLECTION, profile.trigger_event());
+  EXPECT_TRUE(profile.has_ms_after_login());
+
+  EXPECT_FALSE(profile.has_perf_data());
+  ASSERT_TRUE(profile.has_perf_stat());
+  EXPECT_EQ(SerializeMessageToVector(perf_stat_proto_),
+            SerializeMessageToVector(profile.perf_stat()));
+}
+
+TEST_F(PerfProviderTest, BothPerfDataProtoAndPerfStatProto) {
+  scoped_ptr<SampledProfile> sampled_profile(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::PERIODIC_COLLECTION);
+
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      SerializeMessageToVector(perf_data_proto_),
+      SerializeMessageToVector(perf_stat_proto_));
+
+  std::vector<SampledProfile> stored_profiles;
+  EXPECT_FALSE(perf_provider_->GetSampledProfiles(&stored_profiles));
+  EXPECT_TRUE(stored_profiles.empty());
+}
+
+TEST_F(PerfProviderTest, InvalidPerfOutputResult) {
+  scoped_ptr<SampledProfile> sampled_profile(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::PERIODIC_COLLECTION);
+
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfFailure,
+      SerializeMessageToVector(perf_data_proto_),
+      std::vector<uint8_t>());
+
+  // Should not have been stored.
+  std::vector<SampledProfile> stored_profiles;
+  EXPECT_FALSE(perf_provider_->GetSampledProfiles(&stored_profiles));
+  EXPECT_TRUE(stored_profiles.empty());
+}
+
+// Change |sampled_profile| between calls to ParseOutputProtoIfValid().
+TEST_F(PerfProviderTest, MultipleCalls) {
+  scoped_ptr<SampledProfile> sampled_profile(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::PERIODIC_COLLECTION);
+
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      SerializeMessageToVector(perf_data_proto_),
+      std::vector<uint8_t>());
+
+  sampled_profile.reset(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::RESTORE_SESSION);
+  sampled_profile->set_ms_after_restore(3000);
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      std::vector<uint8_t>(),
+      SerializeMessageToVector(perf_stat_proto_));
+
+  sampled_profile.reset(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::RESUME_FROM_SUSPEND);
+  sampled_profile->set_suspend_duration_ms(60000);
+  sampled_profile->set_ms_after_resume(1500);
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      SerializeMessageToVector(perf_data_proto_),
+      std::vector<uint8_t>());
+
+  sampled_profile.reset(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::PERIODIC_COLLECTION);
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      std::vector<uint8_t>(),
+      SerializeMessageToVector(perf_stat_proto_));
+
+  std::vector<SampledProfile> stored_profiles;
+  EXPECT_TRUE(perf_provider_->GetSampledProfiles(&stored_profiles));
+  ASSERT_EQ(4U, stored_profiles.size());
+
+  const SampledProfile& profile1 = stored_profiles[0];
+  EXPECT_EQ(SampledProfile::PERIODIC_COLLECTION, profile1.trigger_event());
+  EXPECT_TRUE(profile1.has_ms_after_login());
+  ASSERT_TRUE(profile1.has_perf_data());
+  EXPECT_FALSE(profile1.has_perf_stat());
+  EXPECT_EQ(SerializeMessageToVector(perf_data_proto_),
+            SerializeMessageToVector(profile1.perf_data()));
+
+  const SampledProfile& profile2 = stored_profiles[1];
+  EXPECT_EQ(SampledProfile::RESTORE_SESSION, profile2.trigger_event());
+  EXPECT_TRUE(profile2.has_ms_after_login());
+  EXPECT_EQ(3000, profile2.ms_after_restore());
+  EXPECT_FALSE(profile2.has_perf_data());
+  ASSERT_TRUE(profile2.has_perf_stat());
+  EXPECT_EQ(SerializeMessageToVector(perf_stat_proto_),
+            SerializeMessageToVector(profile2.perf_stat()));
+
+  const SampledProfile& profile3 = stored_profiles[2];
+  EXPECT_EQ(SampledProfile::RESUME_FROM_SUSPEND, profile3.trigger_event());
+  EXPECT_TRUE(profile3.has_ms_after_login());
+  EXPECT_EQ(60000, profile3.suspend_duration_ms());
+  EXPECT_EQ(1500, profile3.ms_after_resume());
+  ASSERT_TRUE(profile3.has_perf_data());
+  EXPECT_FALSE(profile3.has_perf_stat());
+  EXPECT_EQ(SerializeMessageToVector(perf_data_proto_),
+            SerializeMessageToVector(profile3.perf_data()));
+
+  const SampledProfile& profile4 = stored_profiles[3];
+  EXPECT_EQ(SampledProfile::PERIODIC_COLLECTION, profile4.trigger_event());
+  EXPECT_TRUE(profile4.has_ms_after_login());
+  EXPECT_FALSE(profile4.has_perf_data());
+  ASSERT_TRUE(profile4.has_perf_stat());
+  EXPECT_EQ(SerializeMessageToVector(perf_stat_proto_),
+            SerializeMessageToVector(profile4.perf_stat()));
+}
+
+// Simulate opening and closing of incognito window in between calls to
+// ParseOutputProtoIfValid().
+TEST_F(PerfProviderTest, IncognitoWindowOpened) {
+  scoped_ptr<SampledProfile> sampled_profile(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::PERIODIC_COLLECTION);
+
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      SerializeMessageToVector(perf_data_proto_),
+      std::vector<uint8_t>());
+
+  std::vector<SampledProfile> stored_profiles1;
+  EXPECT_TRUE(perf_provider_->GetSampledProfiles(&stored_profiles1));
+  ASSERT_EQ(1U, stored_profiles1.size());
+
+  const SampledProfile& profile1 = stored_profiles1[0];
+  EXPECT_EQ(SampledProfile::PERIODIC_COLLECTION, profile1.trigger_event());
+  EXPECT_TRUE(profile1.has_ms_after_login());
+  ASSERT_TRUE(profile1.has_perf_data());
+  EXPECT_FALSE(profile1.has_perf_stat());
+  EXPECT_EQ(SerializeMessageToVector(perf_data_proto_),
+            SerializeMessageToVector(profile1.perf_data()));
+
+  sampled_profile.reset(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::RESTORE_SESSION);
+  sampled_profile->set_ms_after_restore(3000);
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      std::vector<uint8_t>(),
+      SerializeMessageToVector(perf_stat_proto_));
+
+  std::vector<SampledProfile> stored_profiles2;
+  EXPECT_TRUE(perf_provider_->GetSampledProfiles(&stored_profiles2));
+  ASSERT_EQ(1U, stored_profiles2.size());
+
+  const SampledProfile& profile2 = stored_profiles2[0];
+  EXPECT_EQ(SampledProfile::RESTORE_SESSION, profile2.trigger_event());
+  EXPECT_TRUE(profile2.has_ms_after_login());
+  EXPECT_EQ(3000, profile2.ms_after_restore());
+  EXPECT_FALSE(profile2.has_perf_data());
+  ASSERT_TRUE(profile2.has_perf_stat());
+  EXPECT_EQ(SerializeMessageToVector(perf_stat_proto_),
+            SerializeMessageToVector(profile2.perf_stat()));
+
+  sampled_profile.reset(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::RESUME_FROM_SUSPEND);
+  // An incognito window opens.
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(true),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      SerializeMessageToVector(perf_data_proto_),
+      std::vector<uint8_t>());
+
+  std::vector<SampledProfile> stored_profiles_empty;
+  EXPECT_FALSE(perf_provider_->GetSampledProfiles(&stored_profiles_empty));
+
+  sampled_profile.reset(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::PERIODIC_COLLECTION);
+  // Incognito window is still open.
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(true),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      std::vector<uint8_t>(),
+      SerializeMessageToVector(perf_stat_proto_));
+
+  EXPECT_FALSE(perf_provider_->GetSampledProfiles(&stored_profiles_empty));
+
+  sampled_profile.reset(new SampledProfile);
+  sampled_profile->set_trigger_event(SampledProfile::RESUME_FROM_SUSPEND);
+  sampled_profile->set_suspend_duration_ms(60000);
+  sampled_profile->set_ms_after_resume(1500);
+  // Incognito window closes.
+  perf_provider_->ParseOutputProtoIfValid(
+      TestIncognitoObserver::CreateWithIncognitoLaunched(false),
+      sampled_profile.Pass(),
+      kPerfSuccess,
+      SerializeMessageToVector(perf_data_proto_),
+      std::vector<uint8_t>());
+
+  std::vector<SampledProfile> stored_profiles3;
+  EXPECT_TRUE(perf_provider_->GetSampledProfiles(&stored_profiles3));
+  ASSERT_EQ(1U, stored_profiles3.size());
+
+  const SampledProfile& profile3 = stored_profiles3[0];
+  EXPECT_EQ(SampledProfile::RESUME_FROM_SUSPEND, profile3.trigger_event());
+  EXPECT_TRUE(profile3.has_ms_after_login());
+  EXPECT_EQ(60000, profile3.suspend_duration_ms());
+  EXPECT_EQ(1500, profile3.ms_after_resume());
+  ASSERT_TRUE(profile3.has_perf_data());
+  EXPECT_FALSE(profile3.has_perf_stat());
+  EXPECT_EQ(SerializeMessageToVector(perf_data_proto_),
+            SerializeMessageToVector(profile3.perf_data()));
+}
+
+}  // namespace metrics