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chromium / chromium / src / 9358aa09f286a8855a27f3cb5591e11801df3717 / . / components / metrics / call_stack_profile_metrics_provider.cc
blob: 63160d1ee1b6726aaeaf982ec8b899cfa1acc35b [file] [log] [blame]
// 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 "components/metrics/call_stack_profile_metrics_provider.h"
#include <utility>
#include <vector>
#include "base/bind.h"
#include "base/macros.h"
#include "base/memory/singleton.h"
#include "base/synchronization/lock.h"
#include "base/time/time.h"
#include "third_party/metrics_proto/chrome_user_metrics_extension.pb.h"
namespace metrics {
namespace {
// Cap the number of pending profiles to avoid excessive memory usage when
// profile uploads are delayed (e.g. due to being offline). 1250 profiles
// corresponds to 80MB of storage. Capping at this threshold loses approximately
// 0.5% of profiles on canary and dev.
// TODO(chengx): Remove this threshold after moving to a more memory-efficient
// profile representation.
const size_t kMaxPendingProfiles = 1250;
// ProfileState --------------------------------------------------------------
// A set of profiles and the start time of the collection associated with them.
struct ProfileState {
ProfileState(base::TimeTicks start_timestamp, SampledProfile profile);
ProfileState(ProfileState&&);
ProfileState& operator=(ProfileState&&);
// The time at which the profile collection was started.
base::TimeTicks start_timestamp;
// The call stack profile message collected by the profiler.
SampledProfile profile;
private:
DISALLOW_COPY_AND_ASSIGN(ProfileState);
};
ProfileState::ProfileState(base::TimeTicks start_timestamp,
SampledProfile profile)
: start_timestamp(start_timestamp), profile(std::move(profile)) {}
ProfileState::ProfileState(ProfileState&&) = default;
// Some versions of GCC need this for push_back to work with std::move.
ProfileState& ProfileState::operator=(ProfileState&&) = default;
// PendingProfiles ------------------------------------------------------------
// Singleton class responsible for retaining profiles received from
// CallStackProfileBuilder. These are then sent to UMA on the invocation of
// CallStackProfileMetricsProvider::ProvideCurrentSessionData(). We need to
// store the profiles outside of a CallStackProfileMetricsProvider instance
// since callers may start profiling before the CallStackProfileMetricsProvider
// is created.
//
// Member functions on this class may be called on any thread.
class PendingProfiles {
public:
static PendingProfiles* GetInstance();
void Swap(std::vector<ProfileState>* profiles);
// Enables the collection of profiles by CollectProfilesIfCollectionEnabled if
// |enabled| is true. Otherwise, clears current profiles and ignores profiles
// provided to future invocations of CollectProfilesIfCollectionEnabled.
void SetCollectionEnabled(bool enabled);
// True if profiles are being collected.
bool IsCollectionEnabled() const;
// Adds |profile| to the list of profiles if collection is enabled; it is
// not const& because it must be passed with std::move.
void CollectProfilesIfCollectionEnabled(ProfileState profile);
// Allows testing against the initial state multiple times.
void ResetToDefaultStateForTesting();
private:
friend struct base::DefaultSingletonTraits<PendingProfiles>;
PendingProfiles();
~PendingProfiles() = default;
mutable base::Lock lock_;
// If true, profiles provided to CollectProfilesIfCollectionEnabled should be
// collected. Otherwise they will be ignored.
bool collection_enabled_;
// The last time collection was disabled. Used to determine if collection was
// disabled at any point since a profile was started.
base::TimeTicks last_collection_disable_time_;
// The last time collection was enabled. Used to determine if collection was
// enabled at any point since a profile was started.
base::TimeTicks last_collection_enable_time_;
// The set of completed profiles that should be reported.
std::vector<ProfileState> profiles_;
DISALLOW_COPY_AND_ASSIGN(PendingProfiles);
};
// static
PendingProfiles* PendingProfiles::GetInstance() {
// Leaky for performance rather than correctness reasons.
return base::Singleton<PendingProfiles,
base::LeakySingletonTraits<PendingProfiles>>::get();
}
void PendingProfiles::Swap(std::vector<ProfileState>* profiles) {
base::AutoLock scoped_lock(lock_);
profiles_.swap(*profiles);
}
void PendingProfiles::SetCollectionEnabled(bool enabled) {
base::AutoLock scoped_lock(lock_);
collection_enabled_ = enabled;
if (!collection_enabled_) {
profiles_.clear();
last_collection_disable_time_ = base::TimeTicks::Now();
} else {
last_collection_enable_time_ = base::TimeTicks::Now();
}
}
bool PendingProfiles::IsCollectionEnabled() const {
base::AutoLock scoped_lock(lock_);
return collection_enabled_;
}
void PendingProfiles::CollectProfilesIfCollectionEnabled(ProfileState profile) {
base::AutoLock scoped_lock(lock_);
// Scenario 1: stop collection if it is disabled.
if (!collection_enabled_)
return;
// Scenario 2: stop collection if it is disabled after the start of collection
// for this profile.
if (!last_collection_disable_time_.is_null() &&
last_collection_disable_time_ >= profile.start_timestamp) {
return;
}
// Scenario 3: stop collection if it is disabled before the start of
// collection and re-enabled after the start. Note that this is different from
// scenario 1 where re-enabling never happens.
if (!last_collection_disable_time_.is_null() &&
!last_collection_enable_time_.is_null() &&
last_collection_enable_time_ >= profile.start_timestamp) {
return;
}
if (profiles_.size() < kMaxPendingProfiles)
profiles_.push_back(std::move(profile));
}
void PendingProfiles::ResetToDefaultStateForTesting() {
base::AutoLock scoped_lock(lock_);
collection_enabled_ = true;
last_collection_disable_time_ = base::TimeTicks();
last_collection_enable_time_ = base::TimeTicks();
profiles_.clear();
}
// |collection_enabled_| is initialized to true to collect any profiles that are
// generated prior to creation of the CallStackProfileMetricsProvider. The
// ultimate disposition of these pre-creation collected profiles will be
// determined by the initial recording state provided to
// CallStackProfileMetricsProvider.
PendingProfiles::PendingProfiles() : collection_enabled_(true) {}
} // namespace
// CallStackProfileMetricsProvider --------------------------------------------
const base::Feature CallStackProfileMetricsProvider::kEnableReporting = {
"SamplingProfilerReporting", base::FEATURE_DISABLED_BY_DEFAULT};
CallStackProfileMetricsProvider::CallStackProfileMetricsProvider() {}
CallStackProfileMetricsProvider::~CallStackProfileMetricsProvider() {}
// static
void CallStackProfileMetricsProvider::ReceiveCompletedProfile(
base::TimeTicks profile_start_time,
SampledProfile profile) {
PendingProfiles::GetInstance()->CollectProfilesIfCollectionEnabled(
ProfileState(profile_start_time, std::move(profile)));
}
void CallStackProfileMetricsProvider::OnRecordingEnabled() {
PendingProfiles::GetInstance()->SetCollectionEnabled(
base::FeatureList::IsEnabled(kEnableReporting));
}
void CallStackProfileMetricsProvider::OnRecordingDisabled() {
PendingProfiles::GetInstance()->SetCollectionEnabled(false);
}
void CallStackProfileMetricsProvider::ProvideCurrentSessionData(
ChromeUserMetricsExtension* uma_proto) {
std::vector<ProfileState> pending_profiles;
PendingProfiles::GetInstance()->Swap(&pending_profiles);
DCHECK(base::FeatureList::IsEnabled(kEnableReporting) ||
pending_profiles.empty());
for (const auto& profile_state : pending_profiles) {
SampledProfile* sampled_profile = uma_proto->add_sampled_profile();
*sampled_profile = std::move(profile_state.profile);
}
}
// static
void CallStackProfileMetricsProvider::ResetStaticStateForTesting() {
PendingProfiles::GetInstance()->ResetToDefaultStateForTesting();
}
} // namespace metrics