components/metrics/metrics_log_unittest.cc - chromium/src - Git at Google

 // Copyright 2014 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 "components/metrics/metrics_log.h"

 #include <string>

 #include "base/base64.h"
 #include "base/basictypes.h"
 #include "base/metrics/bucket_ranges.h"
 #include "base/metrics/sample_vector.h"
 #include "base/prefs/pref_service.h"
 #include "base/prefs/testing_pref_service.h"
 #include "base/strings/string_number_conversions.h"
 #include "base/time/time.h"
 #include "components/metrics/metrics_pref_names.h"
 #include "components/metrics/metrics_state_manager.h"
 #include "components/metrics/proto/chrome_user_metrics_extension.pb.h"
 #include "components/metrics/test_metrics_service_client.h"
 #include "components/variations/active_field_trials.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace metrics {

 namespace {

 const char kClientId[] = "bogus client ID";
 const int64 kInstallDate = 1373051956;
 const int64 kInstallDateExpected = 1373050800;  // Computed from kInstallDate.
 const int64 kEnabledDate = 1373001211;
 const int64 kEnabledDateExpected = 1373000400;  // Computed from kEnabledDate.
 const int kSessionId = 127;
 const variations::ActiveGroupId kFieldTrialIds[] = {
   {37, 43},
   {13, 47},
   {23, 17}
 };
 const variations::ActiveGroupId kSyntheticTrials[] = {
   {55, 15},
   {66, 16}
 };

 class TestMetricsLog : public MetricsLog {
  public:
   TestMetricsLog(const std::string& client_id,
                  int session_id,
                  LogType log_type,
                  metrics::MetricsServiceClient* client,
                  TestingPrefServiceSimple* prefs)
       : MetricsLog(client_id, session_id, log_type, client, prefs),
         prefs_(prefs) {
     InitPrefs();
  }

   virtual ~TestMetricsLog() {}

   const metrics::ChromeUserMetricsExtension& uma_proto() const {
     return *MetricsLog::uma_proto();
   }

   const metrics::SystemProfileProto& system_profile() const {
     return uma_proto().system_profile();
   }

  private:
   void InitPrefs() {
     prefs_->SetString(metrics::prefs::kMetricsReportingEnabledTimestamp,
                       base::Int64ToString(kEnabledDate));
   }

   virtual void GetFieldTrialIds(
       std::vector<variations::ActiveGroupId>* field_trial_ids) const
       OVERRIDE {
     ASSERT_TRUE(field_trial_ids->empty());

     for (size_t i = 0; i < arraysize(kFieldTrialIds); ++i) {
       field_trial_ids->push_back(kFieldTrialIds[i]);
     }
   }

   // Weak pointer to the PrefsService used by this log.
   TestingPrefServiceSimple* prefs_;

   DISALLOW_COPY_AND_ASSIGN(TestMetricsLog);
 };

 }  // namespace

 class MetricsLogTest : public testing::Test {
  public:
   MetricsLogTest() {
     MetricsLog::RegisterPrefs(prefs_.registry());
     metrics::MetricsStateManager::RegisterPrefs(prefs_.registry());
   }

   virtual ~MetricsLogTest() {
   }

  protected:
   // Check that the values in |system_values| correspond to the test data
   // defined at the top of this file.
   void CheckSystemProfile(const metrics::SystemProfileProto& system_profile) {
     EXPECT_EQ(kInstallDateExpected, system_profile.install_date());
     EXPECT_EQ(kEnabledDateExpected, system_profile.uma_enabled_date());

     ASSERT_EQ(arraysize(kFieldTrialIds) + arraysize(kSyntheticTrials),
               static_cast<size_t>(system_profile.field_trial_size()));
     for (size_t i = 0; i < arraysize(kFieldTrialIds); ++i) {
       const metrics::SystemProfileProto::FieldTrial& field_trial =
           system_profile.field_trial(i);
       EXPECT_EQ(kFieldTrialIds[i].name, field_trial.name_id());
       EXPECT_EQ(kFieldTrialIds[i].group, field_trial.group_id());
     }
     // Verify the right data is present for the synthetic trials.
     for (size_t i = 0; i < arraysize(kSyntheticTrials); ++i) {
       const metrics::SystemProfileProto::FieldTrial& field_trial =
           system_profile.field_trial(i + arraysize(kFieldTrialIds));
       EXPECT_EQ(kSyntheticTrials[i].name, field_trial.name_id());
       EXPECT_EQ(kSyntheticTrials[i].group, field_trial.group_id());
     }

     EXPECT_EQ(metrics::TestMetricsServiceClient::kBrandForTesting,
               system_profile.brand_code());

     const metrics::SystemProfileProto::Hardware& hardware =
         system_profile.hardware();

     EXPECT_TRUE(hardware.has_cpu());
     EXPECT_TRUE(hardware.cpu().has_vendor_name());
     EXPECT_TRUE(hardware.cpu().has_signature());

     // TODO(isherman): Verify other data written into the protobuf as a result
     // of this call.
   }

  protected:
   TestingPrefServiceSimple prefs_;

  private:
   DISALLOW_COPY_AND_ASSIGN(MetricsLogTest);
 };

 TEST_F(MetricsLogTest, LogType) {
   TestMetricsServiceClient client;
   TestingPrefServiceSimple prefs;

   MetricsLog log1("id", 0, MetricsLog::ONGOING_LOG, &client, &prefs);
   EXPECT_EQ(MetricsLog::ONGOING_LOG, log1.log_type());

   MetricsLog log2("id", 0, MetricsLog::INITIAL_STABILITY_LOG, &client, &prefs);
   EXPECT_EQ(MetricsLog::INITIAL_STABILITY_LOG, log2.log_type());
 }

 TEST_F(MetricsLogTest, EmptyRecord) {
   TestMetricsServiceClient client;
   client.set_version_string("bogus version");
   TestingPrefServiceSimple prefs;
   MetricsLog log("totally bogus client ID", 137, MetricsLog::ONGOING_LOG,
                  &client, &prefs);
   log.CloseLog();

   std::string encoded;
   log.GetEncodedLog(&encoded);

   // A couple of fields are hard to mock, so these will be copied over directly
   // for the expected output.
   ChromeUserMetricsExtension parsed;
   ASSERT_TRUE(parsed.ParseFromString(encoded));

   ChromeUserMetricsExtension expected;
   expected.set_client_id(5217101509553811875);  // Hashed bogus client ID
   expected.set_session_id(137);
   expected.mutable_system_profile()->set_build_timestamp(
       parsed.system_profile().build_timestamp());
   expected.mutable_system_profile()->set_app_version("bogus version");
   expected.mutable_system_profile()->set_channel(client.GetChannel());

   EXPECT_EQ(expected.SerializeAsString(), encoded);
 }

 TEST_F(MetricsLogTest, HistogramBucketFields) {
   // Create buckets: 1-5, 5-7, 7-8, 8-9, 9-10, 10-11, 11-12.
   base::BucketRanges ranges(8);
   ranges.set_range(0, 1);
   ranges.set_range(1, 5);
   ranges.set_range(2, 7);
   ranges.set_range(3, 8);
   ranges.set_range(4, 9);
   ranges.set_range(5, 10);
   ranges.set_range(6, 11);
   ranges.set_range(7, 12);

   base::SampleVector samples(&ranges);
   samples.Accumulate(3, 1);   // Bucket 1-5.
   samples.Accumulate(6, 1);   // Bucket 5-7.
   samples.Accumulate(8, 1);   // Bucket 8-9. (7-8 skipped)
   samples.Accumulate(10, 1);  // Bucket 10-11. (9-10 skipped)
   samples.Accumulate(11, 1);  // Bucket 11-12.

   TestMetricsServiceClient client;
   TestingPrefServiceSimple prefs;
   TestMetricsLog log(
       kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
   log.RecordHistogramDelta("Test", samples);

   const ChromeUserMetricsExtension& uma_proto = log.uma_proto();
   const HistogramEventProto& histogram_proto =
       uma_proto.histogram_event(uma_proto.histogram_event_size() - 1);

   // Buckets with samples: 1-5, 5-7, 8-9, 10-11, 11-12.
   // Should become: 1-/, 5-7, /-9, 10-/, /-12.
   ASSERT_EQ(5, histogram_proto.bucket_size());

   // 1-5 becomes 1-/ (max is same as next min).
   EXPECT_TRUE(histogram_proto.bucket(0).has_min());
   EXPECT_FALSE(histogram_proto.bucket(0).has_max());
   EXPECT_EQ(1, histogram_proto.bucket(0).min());

   // 5-7 stays 5-7 (no optimization possible).
   EXPECT_TRUE(histogram_proto.bucket(1).has_min());
   EXPECT_TRUE(histogram_proto.bucket(1).has_max());
   EXPECT_EQ(5, histogram_proto.bucket(1).min());
   EXPECT_EQ(7, histogram_proto.bucket(1).max());

   // 8-9 becomes /-9 (min is same as max - 1).
   EXPECT_FALSE(histogram_proto.bucket(2).has_min());
   EXPECT_TRUE(histogram_proto.bucket(2).has_max());
   EXPECT_EQ(9, histogram_proto.bucket(2).max());

   // 10-11 becomes 10-/ (both optimizations apply, omit max is prioritized).
   EXPECT_TRUE(histogram_proto.bucket(3).has_min());
   EXPECT_FALSE(histogram_proto.bucket(3).has_max());
   EXPECT_EQ(10, histogram_proto.bucket(3).min());

   // 11-12 becomes /-12 (last record must keep max, min is same as max - 1).
   EXPECT_FALSE(histogram_proto.bucket(4).has_min());
   EXPECT_TRUE(histogram_proto.bucket(4).has_max());
   EXPECT_EQ(12, histogram_proto.bucket(4).max());
 }

 TEST_F(MetricsLogTest, RecordEnvironment) {
   TestMetricsServiceClient client;
   TestMetricsLog log(
       kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);

   std::vector<variations::ActiveGroupId> synthetic_trials;
   // Add two synthetic trials.
   synthetic_trials.push_back(kSyntheticTrials[0]);
   synthetic_trials.push_back(kSyntheticTrials[1]);

   log.RecordEnvironment(std::vector<MetricsProvider*>(),
                         synthetic_trials,
                         kInstallDate);
   // Check that the system profile on the log has the correct values set.
   CheckSystemProfile(log.system_profile());

   // Check that the system profile has also been written to prefs.
   const std::string base64_system_profile =
       prefs_.GetString(prefs::kStabilitySavedSystemProfile);
   EXPECT_FALSE(base64_system_profile.empty());
   std::string serialied_system_profile;
   EXPECT_TRUE(base::Base64Decode(base64_system_profile,
                                  &serialied_system_profile));
   SystemProfileProto decoded_system_profile;
   EXPECT_TRUE(decoded_system_profile.ParseFromString(serialied_system_profile));
   CheckSystemProfile(decoded_system_profile);
 }

 TEST_F(MetricsLogTest, LoadSavedEnvironmentFromPrefs) {
   const char* kSystemProfilePref = prefs::kStabilitySavedSystemProfile;
   const char* kSystemProfileHashPref =
       prefs::kStabilitySavedSystemProfileHash;

   TestMetricsServiceClient client;

   // The pref value is empty, so loading it from prefs should fail.
   {
     TestMetricsLog log(
         kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
     EXPECT_FALSE(log.LoadSavedEnvironmentFromPrefs());
   }

   // Do a RecordEnvironment() call and check whether the pref is recorded.
   {
     TestMetricsLog log(
         kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
     log.RecordEnvironment(std::vector<MetricsProvider*>(),
                           std::vector<variations::ActiveGroupId>(),
                           kInstallDate);
     EXPECT_FALSE(prefs_.GetString(kSystemProfilePref).empty());
     EXPECT_FALSE(prefs_.GetString(kSystemProfileHashPref).empty());
   }

   {
     TestMetricsLog log(
         kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
     EXPECT_TRUE(log.LoadSavedEnvironmentFromPrefs());
     // Check some values in the system profile.
     EXPECT_EQ(kInstallDateExpected, log.system_profile().install_date());
     EXPECT_EQ(kEnabledDateExpected, log.system_profile().uma_enabled_date());
     // Ensure that the call cleared the prefs.
     EXPECT_TRUE(prefs_.GetString(kSystemProfilePref).empty());
     EXPECT_TRUE(prefs_.GetString(kSystemProfileHashPref).empty());
   }

   // Ensure that a non-matching hash results in the pref being invalid.
   {
     TestMetricsLog log(
         kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
     // Call RecordEnvironment() to record the pref again.
     log.RecordEnvironment(std::vector<MetricsProvider*>(),
                           std::vector<variations::ActiveGroupId>(),
                           kInstallDate);
   }

   {
     // Set the hash to a bad value.
     prefs_.SetString(kSystemProfileHashPref, "deadbeef");
     TestMetricsLog log(
         kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
     EXPECT_FALSE(log.LoadSavedEnvironmentFromPrefs());
     // Ensure that the prefs are cleared, even if the call failed.
     EXPECT_TRUE(prefs_.GetString(kSystemProfilePref).empty());
     EXPECT_TRUE(prefs_.GetString(kSystemProfileHashPref).empty());
   }
 }

 TEST_F(MetricsLogTest, InitialLogStabilityMetrics) {
   TestMetricsServiceClient client;
   TestMetricsLog log(kClientId,
                      kSessionId,
                      MetricsLog::INITIAL_STABILITY_LOG,
                      &client,
                      &prefs_);
   std::vector<MetricsProvider*> metrics_providers;
   log.RecordEnvironment(metrics_providers,
                         std::vector<variations::ActiveGroupId>(),
                         kInstallDate);
   log.RecordStabilityMetrics(metrics_providers, base::TimeDelta(),
                              base::TimeDelta());
   const SystemProfileProto_Stability& stability =
       log.system_profile().stability();
   // Required metrics:
   EXPECT_TRUE(stability.has_launch_count());
   EXPECT_TRUE(stability.has_crash_count());
   // Initial log metrics:
   EXPECT_TRUE(stability.has_incomplete_shutdown_count());
   EXPECT_TRUE(stability.has_breakpad_registration_success_count());
   EXPECT_TRUE(stability.has_breakpad_registration_failure_count());
   EXPECT_TRUE(stability.has_debugger_present_count());
   EXPECT_TRUE(stability.has_debugger_not_present_count());
 }

 TEST_F(MetricsLogTest, OngoingLogStabilityMetrics) {
   TestMetricsServiceClient client;
   TestMetricsLog log(
       kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
   std::vector<MetricsProvider*> metrics_providers;
   log.RecordEnvironment(metrics_providers,
                         std::vector<variations::ActiveGroupId>(),
                         kInstallDate);
   log.RecordStabilityMetrics(metrics_providers, base::TimeDelta(),
                              base::TimeDelta());
   const SystemProfileProto_Stability& stability =
       log.system_profile().stability();
   // Required metrics:
   EXPECT_TRUE(stability.has_launch_count());
   EXPECT_TRUE(stability.has_crash_count());
   // Initial log metrics:
   EXPECT_FALSE(stability.has_incomplete_shutdown_count());
   EXPECT_FALSE(stability.has_breakpad_registration_success_count());
   EXPECT_FALSE(stability.has_breakpad_registration_failure_count());
   EXPECT_FALSE(stability.has_debugger_present_count());
   EXPECT_FALSE(stability.has_debugger_not_present_count());
 }

 TEST_F(MetricsLogTest, ChromeChannelWrittenToProtobuf) {
   TestMetricsServiceClient client;
   TestMetricsLog log(
       "user@test.com", kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
   EXPECT_TRUE(log.uma_proto().system_profile().has_channel());
 }

 }  // namespace metrics
	// Copyright 2014 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 "components/metrics/metrics_log.h"

	#include <string>

	#include "base/base64.h"
	#include "base/basictypes.h"
	#include "base/metrics/bucket_ranges.h"
	#include "base/metrics/sample_vector.h"
	#include "base/prefs/pref_service.h"
	#include "base/prefs/testing_pref_service.h"
	#include "base/strings/string_number_conversions.h"
	#include "base/time/time.h"
	#include "components/metrics/metrics_pref_names.h"
	#include "components/metrics/metrics_state_manager.h"
	#include "components/metrics/proto/chrome_user_metrics_extension.pb.h"
	#include "components/metrics/test_metrics_service_client.h"
	#include "components/variations/active_field_trials.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace metrics {

	namespace {

	const char kClientId[] = "bogus client ID";
	const int64 kInstallDate = 1373051956;
	const int64 kInstallDateExpected = 1373050800; // Computed from kInstallDate.
	const int64 kEnabledDate = 1373001211;
	const int64 kEnabledDateExpected = 1373000400; // Computed from kEnabledDate.
	const int kSessionId = 127;
	const variations::ActiveGroupId kFieldTrialIds[] = {
	{37, 43},
	{13, 47},
	{23, 17}
	};
	const variations::ActiveGroupId kSyntheticTrials[] = {
	{55, 15},
	{66, 16}
	};

	class TestMetricsLog : public MetricsLog {
	public:
	TestMetricsLog(const std::string& client_id,
	int session_id,
	LogType log_type,
	metrics::MetricsServiceClient* client,
	TestingPrefServiceSimple* prefs)
	: MetricsLog(client_id, session_id, log_type, client, prefs),
	prefs_(prefs) {
	InitPrefs();
	}

	virtual ~TestMetricsLog() {}

	const metrics::ChromeUserMetricsExtension& uma_proto() const {
	return *MetricsLog::uma_proto();
	}

	const metrics::SystemProfileProto& system_profile() const {
	return uma_proto().system_profile();
	}

	private:
	void InitPrefs() {
	prefs_->SetString(metrics::prefs::kMetricsReportingEnabledTimestamp,
	base::Int64ToString(kEnabledDate));
	}

	virtual void GetFieldTrialIds(
	std::vector<variations::ActiveGroupId>* field_trial_ids) const
	OVERRIDE {
	ASSERT_TRUE(field_trial_ids->empty());

	for (size_t i = 0; i < arraysize(kFieldTrialIds); ++i) {
	field_trial_ids->push_back(kFieldTrialIds[i]);
	}
	}

	// Weak pointer to the PrefsService used by this log.
	TestingPrefServiceSimple* prefs_;

	DISALLOW_COPY_AND_ASSIGN(TestMetricsLog);
	};

	} // namespace

	class MetricsLogTest : public testing::Test {
	public:
	MetricsLogTest() {
	MetricsLog::RegisterPrefs(prefs_.registry());
	metrics::MetricsStateManager::RegisterPrefs(prefs_.registry());
	}

	virtual ~MetricsLogTest() {
	}

	protected:
	// Check that the values in \|system_values\| correspond to the test data
	// defined at the top of this file.
	void CheckSystemProfile(const metrics::SystemProfileProto& system_profile) {
	EXPECT_EQ(kInstallDateExpected, system_profile.install_date());
	EXPECT_EQ(kEnabledDateExpected, system_profile.uma_enabled_date());

	ASSERT_EQ(arraysize(kFieldTrialIds) + arraysize(kSyntheticTrials),
	static_cast<size_t>(system_profile.field_trial_size()));
	for (size_t i = 0; i < arraysize(kFieldTrialIds); ++i) {
	const metrics::SystemProfileProto::FieldTrial& field_trial =
	system_profile.field_trial(i);
	EXPECT_EQ(kFieldTrialIds[i].name, field_trial.name_id());
	EXPECT_EQ(kFieldTrialIds[i].group, field_trial.group_id());
	}
	// Verify the right data is present for the synthetic trials.
	for (size_t i = 0; i < arraysize(kSyntheticTrials); ++i) {
	const metrics::SystemProfileProto::FieldTrial& field_trial =
	system_profile.field_trial(i + arraysize(kFieldTrialIds));
	EXPECT_EQ(kSyntheticTrials[i].name, field_trial.name_id());
	EXPECT_EQ(kSyntheticTrials[i].group, field_trial.group_id());
	}

	EXPECT_EQ(metrics::TestMetricsServiceClient::kBrandForTesting,
	system_profile.brand_code());

	const metrics::SystemProfileProto::Hardware& hardware =
	system_profile.hardware();

	EXPECT_TRUE(hardware.has_cpu());
	EXPECT_TRUE(hardware.cpu().has_vendor_name());
	EXPECT_TRUE(hardware.cpu().has_signature());

	// TODO(isherman): Verify other data written into the protobuf as a result
	// of this call.
	}

	protected:
	TestingPrefServiceSimple prefs_;

	private:
	DISALLOW_COPY_AND_ASSIGN(MetricsLogTest);
	};

	TEST_F(MetricsLogTest, LogType) {
	TestMetricsServiceClient client;
	TestingPrefServiceSimple prefs;

	MetricsLog log1("id", 0, MetricsLog::ONGOING_LOG, &client, &prefs);
	EXPECT_EQ(MetricsLog::ONGOING_LOG, log1.log_type());

	MetricsLog log2("id", 0, MetricsLog::INITIAL_STABILITY_LOG, &client, &prefs);
	EXPECT_EQ(MetricsLog::INITIAL_STABILITY_LOG, log2.log_type());
	}

	TEST_F(MetricsLogTest, EmptyRecord) {
	TestMetricsServiceClient client;
	client.set_version_string("bogus version");
	TestingPrefServiceSimple prefs;
	MetricsLog log("totally bogus client ID", 137, MetricsLog::ONGOING_LOG,
	&client, &prefs);
	log.CloseLog();

	std::string encoded;
	log.GetEncodedLog(&encoded);

	// A couple of fields are hard to mock, so these will be copied over directly
	// for the expected output.
	ChromeUserMetricsExtension parsed;
	ASSERT_TRUE(parsed.ParseFromString(encoded));

	ChromeUserMetricsExtension expected;
	expected.set_client_id(5217101509553811875); // Hashed bogus client ID
	expected.set_session_id(137);
	expected.mutable_system_profile()->set_build_timestamp(
	parsed.system_profile().build_timestamp());
	expected.mutable_system_profile()->set_app_version("bogus version");
	expected.mutable_system_profile()->set_channel(client.GetChannel());

	EXPECT_EQ(expected.SerializeAsString(), encoded);
	}

	TEST_F(MetricsLogTest, HistogramBucketFields) {
	// Create buckets: 1-5, 5-7, 7-8, 8-9, 9-10, 10-11, 11-12.
	base::BucketRanges ranges(8);
	ranges.set_range(0, 1);
	ranges.set_range(1, 5);
	ranges.set_range(2, 7);
	ranges.set_range(3, 8);
	ranges.set_range(4, 9);
	ranges.set_range(5, 10);
	ranges.set_range(6, 11);
	ranges.set_range(7, 12);

	base::SampleVector samples(&ranges);
	samples.Accumulate(3, 1); // Bucket 1-5.
	samples.Accumulate(6, 1); // Bucket 5-7.
	samples.Accumulate(8, 1); // Bucket 8-9. (7-8 skipped)
	samples.Accumulate(10, 1); // Bucket 10-11. (9-10 skipped)
	samples.Accumulate(11, 1); // Bucket 11-12.

	TestMetricsServiceClient client;
	TestingPrefServiceSimple prefs;
	TestMetricsLog log(
	kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
	log.RecordHistogramDelta("Test", samples);

	const ChromeUserMetricsExtension& uma_proto = log.uma_proto();
	const HistogramEventProto& histogram_proto =
	uma_proto.histogram_event(uma_proto.histogram_event_size() - 1);

	// Buckets with samples: 1-5, 5-7, 8-9, 10-11, 11-12.
	// Should become: 1-/, 5-7, /-9, 10-/, /-12.
	ASSERT_EQ(5, histogram_proto.bucket_size());

	// 1-5 becomes 1-/ (max is same as next min).
	EXPECT_TRUE(histogram_proto.bucket(0).has_min());
	EXPECT_FALSE(histogram_proto.bucket(0).has_max());
	EXPECT_EQ(1, histogram_proto.bucket(0).min());

	// 5-7 stays 5-7 (no optimization possible).
	EXPECT_TRUE(histogram_proto.bucket(1).has_min());
	EXPECT_TRUE(histogram_proto.bucket(1).has_max());
	EXPECT_EQ(5, histogram_proto.bucket(1).min());
	EXPECT_EQ(7, histogram_proto.bucket(1).max());

	// 8-9 becomes /-9 (min is same as max - 1).
	EXPECT_FALSE(histogram_proto.bucket(2).has_min());
	EXPECT_TRUE(histogram_proto.bucket(2).has_max());
	EXPECT_EQ(9, histogram_proto.bucket(2).max());

	// 10-11 becomes 10-/ (both optimizations apply, omit max is prioritized).
	EXPECT_TRUE(histogram_proto.bucket(3).has_min());
	EXPECT_FALSE(histogram_proto.bucket(3).has_max());
	EXPECT_EQ(10, histogram_proto.bucket(3).min());

	// 11-12 becomes /-12 (last record must keep max, min is same as max - 1).
	EXPECT_FALSE(histogram_proto.bucket(4).has_min());
	EXPECT_TRUE(histogram_proto.bucket(4).has_max());
	EXPECT_EQ(12, histogram_proto.bucket(4).max());
	}

	TEST_F(MetricsLogTest, RecordEnvironment) {
	TestMetricsServiceClient client;
	TestMetricsLog log(
	kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);

	std::vector<variations::ActiveGroupId> synthetic_trials;
	// Add two synthetic trials.
	synthetic_trials.push_back(kSyntheticTrials[0]);
	synthetic_trials.push_back(kSyntheticTrials[1]);

	log.RecordEnvironment(std::vector<MetricsProvider*>(),
	synthetic_trials,
	kInstallDate);
	// Check that the system profile on the log has the correct values set.
	CheckSystemProfile(log.system_profile());

	// Check that the system profile has also been written to prefs.
	const std::string base64_system_profile =
	prefs_.GetString(prefs::kStabilitySavedSystemProfile);
	EXPECT_FALSE(base64_system_profile.empty());
	std::string serialied_system_profile;
	EXPECT_TRUE(base::Base64Decode(base64_system_profile,
	&serialied_system_profile));
	SystemProfileProto decoded_system_profile;
	EXPECT_TRUE(decoded_system_profile.ParseFromString(serialied_system_profile));
	CheckSystemProfile(decoded_system_profile);
	}

	TEST_F(MetricsLogTest, LoadSavedEnvironmentFromPrefs) {
	const char* kSystemProfilePref = prefs::kStabilitySavedSystemProfile;
	const char* kSystemProfileHashPref =
	prefs::kStabilitySavedSystemProfileHash;

	TestMetricsServiceClient client;

	// The pref value is empty, so loading it from prefs should fail.
	{
	TestMetricsLog log(
	kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
	EXPECT_FALSE(log.LoadSavedEnvironmentFromPrefs());
	}

	// Do a RecordEnvironment() call and check whether the pref is recorded.
	{
	TestMetricsLog log(
	kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
	log.RecordEnvironment(std::vector<MetricsProvider*>(),
	std::vector<variations::ActiveGroupId>(),
	kInstallDate);
	EXPECT_FALSE(prefs_.GetString(kSystemProfilePref).empty());
	EXPECT_FALSE(prefs_.GetString(kSystemProfileHashPref).empty());
	}

	{
	TestMetricsLog log(
	kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
	EXPECT_TRUE(log.LoadSavedEnvironmentFromPrefs());
	// Check some values in the system profile.
	EXPECT_EQ(kInstallDateExpected, log.system_profile().install_date());
	EXPECT_EQ(kEnabledDateExpected, log.system_profile().uma_enabled_date());
	// Ensure that the call cleared the prefs.
	EXPECT_TRUE(prefs_.GetString(kSystemProfilePref).empty());
	EXPECT_TRUE(prefs_.GetString(kSystemProfileHashPref).empty());
	}

	// Ensure that a non-matching hash results in the pref being invalid.
	{
	TestMetricsLog log(
	kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
	// Call RecordEnvironment() to record the pref again.
	log.RecordEnvironment(std::vector<MetricsProvider*>(),
	std::vector<variations::ActiveGroupId>(),
	kInstallDate);
	}

	{
	// Set the hash to a bad value.
	prefs_.SetString(kSystemProfileHashPref, "deadbeef");
	TestMetricsLog log(
	kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
	EXPECT_FALSE(log.LoadSavedEnvironmentFromPrefs());
	// Ensure that the prefs are cleared, even if the call failed.
	EXPECT_TRUE(prefs_.GetString(kSystemProfilePref).empty());
	EXPECT_TRUE(prefs_.GetString(kSystemProfileHashPref).empty());
	}
	}

	TEST_F(MetricsLogTest, InitialLogStabilityMetrics) {
	TestMetricsServiceClient client;
	TestMetricsLog log(kClientId,
	kSessionId,
	MetricsLog::INITIAL_STABILITY_LOG,
	&client,
	&prefs_);
	std::vector<MetricsProvider*> metrics_providers;
	log.RecordEnvironment(metrics_providers,
	std::vector<variations::ActiveGroupId>(),
	kInstallDate);
	log.RecordStabilityMetrics(metrics_providers, base::TimeDelta(),
	base::TimeDelta());
	const SystemProfileProto_Stability& stability =
	log.system_profile().stability();
	// Required metrics:
	EXPECT_TRUE(stability.has_launch_count());
	EXPECT_TRUE(stability.has_crash_count());
	// Initial log metrics:
	EXPECT_TRUE(stability.has_incomplete_shutdown_count());
	EXPECT_TRUE(stability.has_breakpad_registration_success_count());
	EXPECT_TRUE(stability.has_breakpad_registration_failure_count());
	EXPECT_TRUE(stability.has_debugger_present_count());
	EXPECT_TRUE(stability.has_debugger_not_present_count());
	}

	TEST_F(MetricsLogTest, OngoingLogStabilityMetrics) {
	TestMetricsServiceClient client;
	TestMetricsLog log(
	kClientId, kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
	std::vector<MetricsProvider*> metrics_providers;
	log.RecordEnvironment(metrics_providers,
	std::vector<variations::ActiveGroupId>(),
	kInstallDate);
	log.RecordStabilityMetrics(metrics_providers, base::TimeDelta(),
	base::TimeDelta());
	const SystemProfileProto_Stability& stability =
	log.system_profile().stability();
	// Required metrics:
	EXPECT_TRUE(stability.has_launch_count());
	EXPECT_TRUE(stability.has_crash_count());
	// Initial log metrics:
	EXPECT_FALSE(stability.has_incomplete_shutdown_count());
	EXPECT_FALSE(stability.has_breakpad_registration_success_count());
	EXPECT_FALSE(stability.has_breakpad_registration_failure_count());
	EXPECT_FALSE(stability.has_debugger_present_count());
	EXPECT_FALSE(stability.has_debugger_not_present_count());
	}

	TEST_F(MetricsLogTest, ChromeChannelWrittenToProtobuf) {
	TestMetricsServiceClient client;
	TestMetricsLog log(
	"user@test.com", kSessionId, MetricsLog::ONGOING_LOG, &client, &prefs_);
	EXPECT_TRUE(log.uma_proto().system_profile().has_channel());
	}

	} // namespace metrics