// Copyright (c) 2012 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 "base/metrics/statistics_recorder.h"
#include "base/at_exit.h"
#include "base/json/string_escape.h"
#include "base/logging.h"
#include "base/memory/scoped_ptr.h"
#include "base/metrics/histogram.h"
#include "base/metrics/metrics_hashes.h"
#include "base/stl_util.h"
#include "base/strings/stringprintf.h"
#include "base/synchronization/lock.h"
#include "base/values.h"
namespace {
// Initialize histogram statistics gathering system.
base::LazyInstance<base::StatisticsRecorder>::Leaky g_statistics_recorder_ =
LAZY_INSTANCE_INITIALIZER;
} // namespace
namespace base {
// static
void StatisticsRecorder::Initialize() {
// Ensure that an instance of the StatisticsRecorder object is created.
g_statistics_recorder_.Get();
}
// static
bool StatisticsRecorder::IsActive() {
if (lock_ == NULL)
return false;
base::AutoLock auto_lock(*lock_);
return NULL != histograms_;
}
// static
HistogramBase* StatisticsRecorder::RegisterOrDeleteDuplicate(
HistogramBase* histogram) {
// As per crbug.com/79322 the histograms are intentionally leaked.
if (lock_ == NULL) {
return histogram;
}
HistogramBase* histogram_to_delete = NULL;
HistogramBase* histogram_to_return = NULL;
{
base::AutoLock auto_lock(*lock_);
if (histograms_ == NULL) {
histogram_to_return = histogram;
} else {
const std::string& name = histogram->histogram_name();
uint64_t name_hash = histogram->name_hash();
HistogramMap::iterator it = histograms_->find(name_hash);
if (histograms_->end() == it) {
(*histograms_)[name_hash] = histogram;
// If there are callbacks for this histogram, we set the kCallbackExists
// flag.
auto callback_iterator = callbacks_->find(name);
if (callback_iterator != callbacks_->end()) {
if (!callback_iterator->second.is_null())
histogram->SetFlags(HistogramBase::kCallbackExists);
else
histogram->ClearFlags(HistogramBase::kCallbackExists);
}
histogram_to_return = histogram;
} else if (histogram == it->second) {
// The histogram was registered before.
histogram_to_return = histogram;
} else {
// We already have one histogram with this name.
DCHECK_EQ(histogram->histogram_name(),
it->second->histogram_name()) << "hash collision";
histogram_to_return = it->second;
histogram_to_delete = histogram;
}
}
}
delete histogram_to_delete;
return histogram_to_return;
}
// static
const BucketRanges* StatisticsRecorder::RegisterOrDeleteDuplicateRanges(
const BucketRanges* ranges) {
DCHECK(ranges->HasValidChecksum());
scoped_ptr<const BucketRanges> ranges_deleter;
if (lock_ == NULL) {
return ranges;
}
base::AutoLock auto_lock(*lock_);
if (ranges_ == NULL) {
return ranges;
}
std::list<const BucketRanges*>* checksum_matching_list;
RangesMap::iterator ranges_it = ranges_->find(ranges->checksum());
if (ranges_->end() == ranges_it) {
// Add a new matching list to map.
checksum_matching_list = new std::list<const BucketRanges*>();
(*ranges_)[ranges->checksum()] = checksum_matching_list;
} else {
checksum_matching_list = ranges_it->second;
}
for (const BucketRanges* existing_ranges : *checksum_matching_list) {
if (existing_ranges->Equals(ranges)) {
if (existing_ranges == ranges) {
return ranges;
} else {
ranges_deleter.reset(ranges);
return existing_ranges;
}
}
}
// We haven't found a BucketRanges which has the same ranges. Register the
// new BucketRanges.
checksum_matching_list->push_front(ranges);
return ranges;
}
// static
void StatisticsRecorder::WriteHTMLGraph(const std::string& query,
std::string* output) {
if (!IsActive())
return;
Histograms snapshot;
GetSnapshot(query, &snapshot);
for (const HistogramBase* histogram : snapshot) {
histogram->WriteHTMLGraph(output);
output->append("<br><hr><br>");
}
}
// static
void StatisticsRecorder::WriteGraph(const std::string& query,
std::string* output) {
if (!IsActive())
return;
if (query.length())
StringAppendF(output, "Collections of histograms for %s\n", query.c_str());
else
output->append("Collections of all histograms\n");
Histograms snapshot;
GetSnapshot(query, &snapshot);
for (const HistogramBase* histogram : snapshot) {
histogram->WriteAscii(output);
output->append("\n");
}
}
// static
std::string StatisticsRecorder::ToJSON(const std::string& query) {
if (!IsActive())
return std::string();
std::string output("{");
if (!query.empty()) {
output += "\"query\":";
EscapeJSONString(query, true, &output);
output += ",";
}
Histograms snapshot;
GetSnapshot(query, &snapshot);
output += "\"histograms\":[";
bool first_histogram = true;
for (const HistogramBase* histogram : snapshot) {
if (first_histogram)
first_histogram = false;
else
output += ",";
std::string json;
histogram->WriteJSON(&json);
output += json;
}
output += "]}";
return output;
}
// static
void StatisticsRecorder::GetHistograms(Histograms* output) {
if (lock_ == NULL)
return;
base::AutoLock auto_lock(*lock_);
if (histograms_ == NULL)
return;
for (const auto& entry : *histograms_) {
DCHECK_EQ(entry.first, entry.second->name_hash());
output->push_back(entry.second);
}
}
// static
void StatisticsRecorder::GetBucketRanges(
std::vector<const BucketRanges*>* output) {
if (lock_ == NULL)
return;
base::AutoLock auto_lock(*lock_);
if (ranges_ == NULL)
return;
for (const auto& entry : *ranges_) {
for (const auto& range_entry : *entry.second) {
output->push_back(range_entry);
}
}
}
// static
HistogramBase* StatisticsRecorder::FindHistogram(const std::string& name) {
if (lock_ == NULL)
return NULL;
base::AutoLock auto_lock(*lock_);
if (histograms_ == NULL)
return NULL;
HistogramMap::iterator it = histograms_->find(HashMetricName(name));
if (histograms_->end() == it)
return NULL;
DCHECK_EQ(name, it->second->histogram_name()) << "hash collision";
return it->second;
}
// static
bool StatisticsRecorder::SetCallback(
const std::string& name,
const StatisticsRecorder::OnSampleCallback& cb) {
DCHECK(!cb.is_null());
if (lock_ == NULL)
return false;
base::AutoLock auto_lock(*lock_);
if (histograms_ == NULL)
return false;
if (ContainsKey(*callbacks_, name))
return false;
callbacks_->insert(std::make_pair(name, cb));
HistogramMap::iterator it = histograms_->find(HashMetricName(name));
if (it != histograms_->end()) {
DCHECK_EQ(name, it->second->histogram_name()) << "hash collision";
it->second->SetFlags(HistogramBase::kCallbackExists);
}
return true;
}
// static
void StatisticsRecorder::ClearCallback(const std::string& name) {
if (lock_ == NULL)
return;
base::AutoLock auto_lock(*lock_);
if (histograms_ == NULL)
return;
callbacks_->erase(name);
// We also clear the flag from the histogram (if it exists).
HistogramMap::iterator it = histograms_->find(HashMetricName(name));
if (it != histograms_->end()) {
DCHECK_EQ(name, it->second->histogram_name()) << "hash collision";
it->second->ClearFlags(HistogramBase::kCallbackExists);
}
}
// static
StatisticsRecorder::OnSampleCallback StatisticsRecorder::FindCallback(
const std::string& name) {
if (lock_ == NULL)
return OnSampleCallback();
base::AutoLock auto_lock(*lock_);
if (histograms_ == NULL)
return OnSampleCallback();
auto callback_iterator = callbacks_->find(name);
return callback_iterator != callbacks_->end() ? callback_iterator->second
: OnSampleCallback();
}
// private static
void StatisticsRecorder::GetSnapshot(const std::string& query,
Histograms* snapshot) {
if (lock_ == NULL)
return;
base::AutoLock auto_lock(*lock_);
if (histograms_ == NULL)
return;
for (const auto& entry : *histograms_) {
if (entry.second->histogram_name().find(query) != std::string::npos)
snapshot->push_back(entry.second);
}
}
// This singleton instance should be started during the single threaded portion
// of main(), and hence it is not thread safe. It initializes globals to
// provide support for all future calls.
StatisticsRecorder::StatisticsRecorder() {
DCHECK(!histograms_);
if (lock_ == NULL) {
// This will leak on purpose. It's the only way to make sure we won't race
// against the static uninitialization of the module while one of our
// static methods relying on the lock get called at an inappropriate time
// during the termination phase. Since it's a static data member, we will
// leak one per process, which would be similar to the instance allocated
// during static initialization and released only on process termination.
lock_ = new base::Lock;
}
base::AutoLock auto_lock(*lock_);
histograms_ = new HistogramMap;
callbacks_ = new CallbackMap;
ranges_ = new RangesMap;
if (VLOG_IS_ON(1))
AtExitManager::RegisterCallback(&DumpHistogramsToVlog, this);
}
// static
void StatisticsRecorder::DumpHistogramsToVlog(void* /* instance */) {
std::string output;
StatisticsRecorder::WriteGraph(std::string(), &output);
VLOG(1) << output;
}
StatisticsRecorder::~StatisticsRecorder() {
DCHECK(histograms_ && ranges_ && lock_);
// Clean up.
scoped_ptr<HistogramMap> histograms_deleter;
scoped_ptr<CallbackMap> callbacks_deleter;
scoped_ptr<RangesMap> ranges_deleter;
// We don't delete lock_ on purpose to avoid having to properly protect
// against it going away after we checked for NULL in the static methods.
{
base::AutoLock auto_lock(*lock_);
histograms_deleter.reset(histograms_);
callbacks_deleter.reset(callbacks_);
ranges_deleter.reset(ranges_);
histograms_ = NULL;
callbacks_ = NULL;
ranges_ = NULL;
}
// We are going to leak the histograms and the ranges.
}
// static
StatisticsRecorder::HistogramMap* StatisticsRecorder::histograms_ = NULL;
// static
StatisticsRecorder::CallbackMap* StatisticsRecorder::callbacks_ = NULL;
// static
StatisticsRecorder::RangesMap* StatisticsRecorder::ranges_ = NULL;
// static
base::Lock* StatisticsRecorder::lock_ = NULL;
} // namespace base