// 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_manager.h"
#include <algorithm>
#include "base/metrics/histogram.h"
#include "base/strings/string_util.h"
#include "base/timer/elapsed_timer.h"
#include "components/metrics/metrics_log.h"
#include "components/metrics/metrics_pref_names.h"
namespace metrics {
namespace {
// The number of "initial" logs to save, and hope to send during a future Chrome
// session. Initial logs contain crash stats, and are pretty small.
const size_t kInitialLogsPersistLimit = 20;
// The number of ongoing logs to save persistently, and hope to
// send during a this or future sessions. Note that each log may be pretty
// large, as presumably the related "initial" log wasn't sent (probably nothing
// was, as the user was probably off-line). As a result, the log probably kept
// accumulating while the "initial" log was stalled, and couldn't be sent. As a
// result, we don't want to save too many of these mega-logs.
// A "standard shutdown" will create a small log, including just the data that
// was not yet been transmitted, and that is normal (to have exactly one
// ongoing_log_ at startup).
const size_t kOngoingLogsPersistLimit = 8;
// The number of bytes each of initial and ongoing logs that must be stored.
// This ensures that a reasonable amount of history will be stored even if there
// is a long series of very small logs.
const size_t kStorageByteLimitPerLogType = 300000;
} // namespace
MetricsLogManager::MetricsLogManager(PrefService* local_state,
size_t max_ongoing_log_size)
: unsent_logs_loaded_(false),
initial_log_queue_(local_state,
prefs::kMetricsInitialLogs,
kInitialLogsPersistLimit,
kStorageByteLimitPerLogType,
0),
ongoing_log_queue_(local_state,
prefs::kMetricsOngoingLogs,
kOngoingLogsPersistLimit,
kStorageByteLimitPerLogType,
max_ongoing_log_size) {}
MetricsLogManager::~MetricsLogManager() {}
void MetricsLogManager::BeginLoggingWithLog(scoped_ptr<MetricsLog> log) {
DCHECK(!current_log_);
current_log_ = log.Pass();
}
void MetricsLogManager::FinishCurrentLog() {
DCHECK(current_log_.get());
current_log_->CloseLog();
std::string log_data;
current_log_->GetEncodedLog(&log_data);
if (!log_data.empty())
StoreLog(log_data, current_log_->log_type());
current_log_.reset();
}
void MetricsLogManager::StageNextLogForUpload() {
DCHECK(!has_staged_log());
if (!initial_log_queue_.empty())
initial_log_queue_.StageLog();
else
ongoing_log_queue_.StageLog();
}
void MetricsLogManager::DiscardStagedLog() {
DCHECK(has_staged_log());
if (initial_log_queue_.has_staged_log())
initial_log_queue_.DiscardStagedLog();
else
ongoing_log_queue_.DiscardStagedLog();
DCHECK(!has_staged_log());
}
void MetricsLogManager::DiscardCurrentLog() {
current_log_->CloseLog();
current_log_.reset();
}
void MetricsLogManager::PauseCurrentLog() {
DCHECK(!paused_log_.get());
paused_log_.reset(current_log_.release());
}
void MetricsLogManager::ResumePausedLog() {
DCHECK(!current_log_.get());
current_log_.reset(paused_log_.release());
}
void MetricsLogManager::StoreLog(const std::string& log_data,
MetricsLog::LogType log_type) {
switch (log_type) {
case MetricsLog::INITIAL_STABILITY_LOG:
initial_log_queue_.StoreLog(log_data);
break;
case MetricsLog::ONGOING_LOG:
ongoing_log_queue_.StoreLog(log_data);
break;
}
}
void MetricsLogManager::PersistUnsentLogs() {
DCHECK(unsent_logs_loaded_);
if (!unsent_logs_loaded_)
return;
base::ElapsedTimer timer;
initial_log_queue_.SerializeLogs();
ongoing_log_queue_.SerializeLogs();
UMA_HISTOGRAM_TIMES("UMA.StoreLogsTime", timer.Elapsed());
}
void MetricsLogManager::LoadPersistedUnsentLogs() {
base::ElapsedTimer timer;
initial_log_queue_.DeserializeLogs();
ongoing_log_queue_.DeserializeLogs();
UMA_HISTOGRAM_TIMES("UMA.LoadLogsTime", timer.Elapsed());
unsent_logs_loaded_ = true;
}
} // namespace metrics