path: root/chromium/components/metrics/metrics_log.cc

// 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 <stddef.h>

#include <algorithm>
#include <string>

#include "base/build_time.h"
#include "base/cpu.h"
#include "base/logging.h"
#include "base/metrics/histogram_base.h"
#include "base/metrics/histogram_flattener.h"
#include "base/metrics/histogram_functions.h"
#include "base/metrics/histogram_macros.h"
#include "base/metrics/histogram_samples.h"
#include "base/metrics/histogram_snapshot_manager.h"
#include "base/metrics/metrics_hashes.h"
#include "base/strings/string_piece.h"
#include "base/strings/stringprintf.h"
#include "base/system/sys_info.h"
#include "base/time/time.h"
#include "build/build_config.h"
#include "components/metrics/delegating_provider.h"
#include "components/metrics/environment_recorder.h"
#include "components/metrics/histogram_encoder.h"
#include "components/metrics/metrics_pref_names.h"
#include "components/metrics/metrics_provider.h"
#include "components/metrics/metrics_service_client.h"
#include "components/prefs/pref_registry_simple.h"
#include "components/prefs/pref_service.h"
#include "third_party/metrics_proto/histogram_event.pb.h"
#include "third_party/metrics_proto/system_profile.pb.h"
#include "third_party/metrics_proto/user_action_event.pb.h"

#if defined(OS_ANDROID)
#include "base/android/build_info.h"
#endif

#if defined(OS_WIN)
#include <windows.h>
#include "base/win/current_module.h"
#endif

using base::SampleCountIterator;

namespace metrics {

namespace {

// A simple class to write histogram data to a log.
class IndependentFlattener : public base::HistogramFlattener {
 public:
  explicit IndependentFlattener(MetricsLog* log) : log_(log) {}
  ~IndependentFlattener() override {}

  // base::HistogramFlattener:
  void RecordDelta(const base::HistogramBase& histogram,
                   const base::HistogramSamples& snapshot) override {
    log_->RecordHistogramDelta(histogram.histogram_name(), snapshot);
  }

 private:
  MetricsLog* const log_;

  DISALLOW_COPY_AND_ASSIGN(IndependentFlattener);
};

// Convenience function to return the given time at a resolution in seconds.
static int64_t ToMonotonicSeconds(base::TimeTicks time_ticks) {
  return (time_ticks - base::TimeTicks()).InSeconds();
}

}  // namespace

MetricsLog::IndependentMetricsLoader::IndependentMetricsLoader(
    std::unique_ptr<MetricsLog> log)
    : log_(std::move(log)),
      flattener_(new IndependentFlattener(log_.get())),
      snapshot_manager_(new base::HistogramSnapshotManager(flattener_.get())) {}

MetricsLog::IndependentMetricsLoader::~IndependentMetricsLoader() = default;

void MetricsLog::IndependentMetricsLoader::Run(
    base::OnceCallback<void(bool)> done_callback,
    MetricsProvider* metrics_provider) {
  metrics_provider->ProvideIndependentMetrics(
      std::move(done_callback), log_->uma_proto(), snapshot_manager_.get());
}

std::unique_ptr<MetricsLog> MetricsLog::IndependentMetricsLoader::ReleaseLog() {
  return std::move(log_);
}

MetricsLog::MetricsLog(const std::string& client_id,
                       int session_id,
                       LogType log_type,
                       MetricsServiceClient* client)
    : closed_(false),
      log_type_(log_type),
      client_(client),
      creation_time_(base::TimeTicks::Now()),
      has_environment_(false) {
  uma_proto_.set_client_id(Hash(client_id));
  uma_proto_.set_session_id(session_id);

  const int32_t product = client_->GetProduct();
  // Only set the product if it differs from the default value.
  if (product != uma_proto_.product())
    uma_proto_.set_product(product);

  SystemProfileProto* system_profile = uma_proto()->mutable_system_profile();
  // Record the unhashed the client_id to system profile. This is used to
  // simulate field trial assignments for the client.
  system_profile->set_client_uuid(client_id);
  RecordCoreSystemProfile(client_, system_profile);
}

MetricsLog::~MetricsLog() {
}

// static
void MetricsLog::RegisterPrefs(PrefRegistrySimple* registry) {
  EnvironmentRecorder::RegisterPrefs(registry);
}

// static
uint64_t MetricsLog::Hash(const std::string& value) {
  uint64_t hash = base::HashMetricName(value);

  // The following log is VERY helpful when folks add some named histogram into
  // the code, but forgot to update the descriptive list of histograms.  When
  // that happens, all we get to see (server side) is a hash of the histogram
  // name.  We can then use this logging to find out what histogram name was
  // being hashed to a given MD5 value by just running the version of Chromium
  // in question with --enable-logging.
  DVLOG(1) << "Metrics: Hash numeric [" << value << "]=[" << hash << "]";

  return hash;
}

// static
int64_t MetricsLog::GetBuildTime() {
  static int64_t integral_build_time = 0;
  if (!integral_build_time)
    integral_build_time = static_cast<int64_t>(base::GetBuildTime().ToTimeT());
  return integral_build_time;
}

// static
int64_t MetricsLog::GetCurrentTime() {
  return ToMonotonicSeconds(base::TimeTicks::Now());
}

void MetricsLog::RecordUserAction(const std::string& key,
                                  base::TimeTicks action_time) {
  DCHECK(!closed_);

  UserActionEventProto* user_action = uma_proto_.add_user_action_event();
  user_action->set_name_hash(Hash(key));
  user_action->set_time_sec(ToMonotonicSeconds(action_time));
}

// static
void MetricsLog::RecordCoreSystemProfile(MetricsServiceClient* client,
                                         SystemProfileProto* system_profile) {
  RecordCoreSystemProfile(client->GetVersionString(), client->GetChannel(),
                          client->GetApplicationLocale(),
                          client->GetAppPackageName(), system_profile);

  std::string brand_code;
  if (client->GetBrand(&brand_code))
    system_profile->set_brand_code(brand_code);
}

// static
void MetricsLog::RecordCoreSystemProfile(
    const std::string& version,
    metrics::SystemProfileProto::Channel channel,
    const std::string& application_locale,
    const std::string& package_name,
    SystemProfileProto* system_profile) {
  system_profile->set_build_timestamp(metrics::MetricsLog::GetBuildTime());
  system_profile->set_app_version(version);
  system_profile->set_channel(channel);
  system_profile->set_application_locale(application_locale);

#if defined(ADDRESS_SANITIZER) || DCHECK_IS_ON()
  // Set if a build is instrumented (e.g. built with ASAN, or with DCHECKs).
  system_profile->set_is_instrumented_build(true);
#endif

  metrics::SystemProfileProto::Hardware* hardware =
      system_profile->mutable_hardware();
#if !defined(OS_IOS)
  // On iOS, OperatingSystemArchitecture() returns values like iPad4,4 which is
  // not the actual CPU architecture. Don't set it until the API is fixed. See
  // crbug.com/370104 for details.
  hardware->set_cpu_architecture(base::SysInfo::OperatingSystemArchitecture());
#endif
  hardware->set_system_ram_mb(base::SysInfo::AmountOfPhysicalMemoryMB());
  hardware->set_hardware_class(base::SysInfo::HardwareModelName());
#if defined(OS_WIN)
  hardware->set_dll_base(reinterpret_cast<uint64_t>(CURRENT_MODULE()));
#endif

  metrics::SystemProfileProto::OS* os = system_profile->mutable_os();
  os->set_name(base::SysInfo::OperatingSystemName());
  os->set_version(base::SysInfo::OperatingSystemVersion());

// On ChromeOS, KernelVersion refers to the Linux kernel version and
// OperatingSystemVersion refers to the ChromeOS release version.
#if defined(OS_CHROMEOS)
  os->set_kernel_version(base::SysInfo::KernelVersion());
#elif defined(OS_LINUX)
  // Linux operating system version is copied over into kernel version to be
  // consistent.
  os->set_kernel_version(base::SysInfo::OperatingSystemVersion());
#endif

#if defined(OS_ANDROID)
  os->set_build_fingerprint(
      base::android::BuildInfo::GetInstance()->android_build_fp());
  if (!package_name.empty() && package_name != "com.android.chrome")
    system_profile->set_app_package_name(package_name);
#elif defined(OS_IOS)
  os->set_build_number(base::SysInfo::GetIOSBuildNumber());
#endif
}

void MetricsLog::RecordHistogramDelta(const std::string& histogram_name,
                                      const base::HistogramSamples& snapshot) {
  DCHECK(!closed_);
  samples_count_ += snapshot.TotalCount();
  EncodeHistogramDelta(histogram_name, snapshot, &uma_proto_);
}

void MetricsLog::RecordPreviousSessionData(
    DelegatingProvider* delegating_provider) {
  delegating_provider->ProvidePreviousSessionData(uma_proto());
}

void MetricsLog::RecordCurrentSessionData(
    DelegatingProvider* delegating_provider,
    base::TimeDelta incremental_uptime,
    base::TimeDelta uptime) {
  DCHECK(!closed_);
  DCHECK(has_environment_);

  // Record recent delta for critical stability metrics.  We can't wait for a
  // restart to gather these, as that delay biases our observation away from
  // users that run happily for a looooong time.  We send increments with each
  // uma log upload, just as we send histogram data.
  WriteRealtimeStabilityAttributes(incremental_uptime, uptime);

  delegating_provider->ProvideCurrentSessionData(uma_proto());
}

void MetricsLog::WriteMetricsEnableDefault(EnableMetricsDefault metrics_default,
                                           SystemProfileProto* system_profile) {
  if (client_->IsReportingPolicyManaged()) {
    // If it's managed, then it must be reporting, otherwise we wouldn't be
    // sending metrics.
    system_profile->set_uma_default_state(
        SystemProfileProto_UmaDefaultState_POLICY_FORCED_ENABLED);
    return;
  }

  switch (metrics_default) {
    case EnableMetricsDefault::DEFAULT_UNKNOWN:
      // Don't set the field if it's unknown.
      break;
    case EnableMetricsDefault::OPT_IN:
      system_profile->set_uma_default_state(
          SystemProfileProto_UmaDefaultState_OPT_IN);
      break;
    case EnableMetricsDefault::OPT_OUT:
      system_profile->set_uma_default_state(
          SystemProfileProto_UmaDefaultState_OPT_OUT);
  }
}

void MetricsLog::WriteRealtimeStabilityAttributes(
    base::TimeDelta incremental_uptime,
    base::TimeDelta uptime) {
  // Update the stats which are critical for real-time stability monitoring.
  // Since these are "optional," only list ones that are non-zero, as the counts
  // are aggregated (summed) server side.

  SystemProfileProto::Stability* stability =
      uma_proto()->mutable_system_profile()->mutable_stability();

  const uint64_t incremental_uptime_sec = incremental_uptime.InSeconds();
  if (incremental_uptime_sec)
    stability->set_incremental_uptime_sec(incremental_uptime_sec);
  const uint64_t uptime_sec = uptime.InSeconds();
  if (uptime_sec)
    stability->set_uptime_sec(uptime_sec);
}

const SystemProfileProto& MetricsLog::RecordEnvironment(
    DelegatingProvider* delegating_provider) {
  // If |has_environment_| is true, then the system profile in |uma_proto_| has
  // previously been fully filled in. We still want to fill it in again with
  // more up to date information (e.g. current field trials), but in order to
  // not have duplicate repeated fields, we must first clear it. Clearing it
  // will reset the information filled in by RecordCoreSystemProfile() that was
  // previously done in the constructor, so re-add that too.
  //
  // The |has_environment| case will happen on the very first log, where we
  // call RecordEnvironment() in order to persist the system profile in the
  // persistent hitograms .pma file.
  if (has_environment_) {
    uma_proto_.clear_system_profile();
    MetricsLog::RecordCoreSystemProfile(client_,
                                        uma_proto_.mutable_system_profile());
  }

  has_environment_ = true;

  SystemProfileProto* system_profile = uma_proto_.mutable_system_profile();
  WriteMetricsEnableDefault(client_->GetMetricsReportingDefaultState(),
                            system_profile);

  delegating_provider->ProvideSystemProfileMetricsWithLogCreationTime(
      creation_time_, system_profile);

  return *system_profile;
}

bool MetricsLog::LoadSavedEnvironmentFromPrefs(PrefService* local_state,
                                               std::string* app_version) {
  DCHECK(!has_environment_);
  has_environment_ = true;
  app_version->clear();

  SystemProfileProto* system_profile = uma_proto()->mutable_system_profile();
  EnvironmentRecorder recorder(local_state);
  bool success = recorder.LoadEnvironmentFromPrefs(system_profile);
  if (success)
    *app_version = system_profile->app_version();
  return success;
}

void MetricsLog::CloseLog() {
  DCHECK(!closed_);
  closed_ = true;
}

void MetricsLog::TruncateEvents() {
  DCHECK(!closed_);
  if (uma_proto_.user_action_event_size() > internal::kUserActionEventLimit) {
    UMA_HISTOGRAM_COUNTS_100000("UMA.TruncatedEvents.UserAction",
                                uma_proto_.user_action_event_size());
    for (int i = internal::kUserActionEventLimit;
         i < uma_proto_.user_action_event_size(); ++i) {
      // No histograms.xml entry is added for this histogram because it uses an
      // enum that is generated from actions.xml in our processing pipelines.
      // Instead, a histogram description will also be produced in our
      // pipelines.
      base::UmaHistogramSparse(
          "UMA.TruncatedEvents.UserAction.Type",
          // Truncate the unsigned 64-bit hash to 31 bits, to make it a suitable
          // histogram sample.
          uma_proto_.user_action_event(i).name_hash() & 0x7fffffff);
    }
    uma_proto_.mutable_user_action_event()->DeleteSubrange(
        internal::kUserActionEventLimit,
        uma_proto_.user_action_event_size() - internal::kUserActionEventLimit);
  }

  if (uma_proto_.omnibox_event_size() > internal::kOmniboxEventLimit) {
    UMA_HISTOGRAM_COUNTS_100000("UMA.TruncatedEvents.Omnibox",
                                uma_proto_.omnibox_event_size());
    uma_proto_.mutable_omnibox_event()->DeleteSubrange(
        internal::kOmniboxEventLimit,
        uma_proto_.omnibox_event_size() - internal::kOmniboxEventLimit);
  }
}

void MetricsLog::GetEncodedLog(std::string* encoded_log) {
  DCHECK(closed_);
  uma_proto_.SerializeToString(encoded_log);
}

}  // namespace metrics