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// Copyright 2014 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "components/domain_reliability/scheduler.h"
#include <stdint.h>
#include <algorithm>
#include <memory>
#include <utility>
#include "base/metrics/field_trial.h"
#include "base/strings/string_number_conversions.h"
#include "base/values.h"
#include "components/domain_reliability/config.h"
#include "components/domain_reliability/util.h"
#include "net/base/backoff_entry.h"
namespace {
const unsigned kInvalidCollectorIndex = static_cast<unsigned>(-1);
const unsigned kDefaultMinimumUploadDelaySec = 60;
const unsigned kDefaultMaximumUploadDelaySec = 300;
const unsigned kDefaultUploadRetryIntervalSec = 60;
const char* kMinimumUploadDelayFieldTrialName = "DomRel-MinimumUploadDelay";
const char* kMaximumUploadDelayFieldTrialName = "DomRel-MaximumUploadDelay";
const char* kUploadRetryIntervalFieldTrialName = "DomRel-UploadRetryInterval";
// Fixed elements of backoff policy
const double kMultiplyFactor = 2.0;
const double kJitterFactor = 0.1;
const int64_t kMaximumBackoffMs = 60 * 1000 * 1000;
unsigned GetUnsignedFieldTrialValueOrDefault(std::string field_trial_name,
unsigned default_value) {
if (!base::FieldTrialList::TrialExists(field_trial_name))
return default_value;
std::string group_name = base::FieldTrialList::FindFullName(field_trial_name);
unsigned value;
if (!base::StringToUint(group_name, &value)) {
LOG(ERROR) << "Expected unsigned integer for field trial "
<< field_trial_name << " group name, but got \"" << group_name
<< "\".";
return default_value;
}
return value;
}
} // namespace
namespace domain_reliability {
// static
DomainReliabilityScheduler::Params
DomainReliabilityScheduler::Params::GetFromFieldTrialsOrDefaults() {
DomainReliabilityScheduler::Params params;
params.minimum_upload_delay =
base::Seconds(GetUnsignedFieldTrialValueOrDefault(
kMinimumUploadDelayFieldTrialName, kDefaultMinimumUploadDelaySec));
params.maximum_upload_delay =
base::Seconds(GetUnsignedFieldTrialValueOrDefault(
kMaximumUploadDelayFieldTrialName, kDefaultMaximumUploadDelaySec));
params.upload_retry_interval =
base::Seconds(GetUnsignedFieldTrialValueOrDefault(
kUploadRetryIntervalFieldTrialName, kDefaultUploadRetryIntervalSec));
return params;
}
DomainReliabilityScheduler::DomainReliabilityScheduler(
const MockableTime* time,
size_t num_collectors,
const Params& params,
const ScheduleUploadCallback& callback)
: time_(time),
params_(params),
callback_(callback),
upload_pending_(false),
upload_scheduled_(false),
upload_running_(false),
collector_index_(kInvalidCollectorIndex) {
backoff_policy_.num_errors_to_ignore = 0;
backoff_policy_.initial_delay_ms =
params.upload_retry_interval.InMilliseconds();
backoff_policy_.multiply_factor = kMultiplyFactor;
backoff_policy_.jitter_factor = kJitterFactor;
backoff_policy_.maximum_backoff_ms = kMaximumBackoffMs;
backoff_policy_.entry_lifetime_ms = 0;
backoff_policy_.always_use_initial_delay = false;
for (size_t i = 0; i < num_collectors; ++i) {
collectors_.push_back(std::make_unique<net::BackoffEntry>(
&backoff_policy_, time->AsTickClock()));
}
}
DomainReliabilityScheduler::~DomainReliabilityScheduler() = default;
void DomainReliabilityScheduler::OnBeaconAdded() {
if (!upload_pending_)
first_beacon_time_ = time_->NowTicks();
upload_pending_ = true;
MaybeScheduleUpload();
}
size_t DomainReliabilityScheduler::OnUploadStart() {
DCHECK(upload_scheduled_);
DCHECK_EQ(kInvalidCollectorIndex, collector_index_);
upload_pending_ = false;
upload_scheduled_ = false;
upload_running_ = true;
base::TimeTicks now = time_->NowTicks();
base::TimeTicks min_upload_time;
GetNextUploadTimeAndCollector(now, &min_upload_time, &collector_index_);
DCHECK(min_upload_time <= now);
VLOG(1) << "Starting upload to collector " << collector_index_ << ".";
return collector_index_;
}
void DomainReliabilityScheduler::OnUploadComplete(
const DomainReliabilityUploader::UploadResult& result) {
DCHECK(upload_running_);
DCHECK_NE(kInvalidCollectorIndex, collector_index_);
upload_running_ = false;
VLOG(1) << "Upload to collector " << collector_index_
<< (result.is_success() ? " succeeded." : " failed.");
net::BackoffEntry* backoff = collectors_[collector_index_].get();
collector_index_ = kInvalidCollectorIndex;
backoff->InformOfRequest(result.is_success());
if (result.is_retry_after())
backoff->SetCustomReleaseTime(time_->NowTicks() + result.retry_after);
if (!result.is_success()) {
// Restore upload_pending_ and first_beacon_time_ to pre-upload state,
// since upload failed.
upload_pending_ = true;
first_beacon_time_ = old_first_beacon_time_;
}
MaybeScheduleUpload();
}
void DomainReliabilityScheduler::MakeDeterministicForTesting() {
backoff_policy_.jitter_factor = 0.0;
}
void DomainReliabilityScheduler::MaybeScheduleUpload() {
if (!upload_pending_ || upload_scheduled_ || upload_running_)
return;
upload_scheduled_ = true;
old_first_beacon_time_ = first_beacon_time_;
base::TimeTicks now = time_->NowTicks();
base::TimeTicks min_by_deadline, max_by_deadline;
min_by_deadline = first_beacon_time_ + params_.minimum_upload_delay;
max_by_deadline = first_beacon_time_ + params_.maximum_upload_delay;
DCHECK(min_by_deadline <= max_by_deadline);
base::TimeTicks min_by_backoff;
size_t collector_index;
GetNextUploadTimeAndCollector(now, &min_by_backoff, &collector_index);
base::TimeTicks scheduled_min_time =
std::max(min_by_deadline, min_by_backoff);
base::TimeTicks scheduled_max_time =
std::max(max_by_deadline, min_by_backoff);
base::TimeDelta min_delay = scheduled_min_time - now;
base::TimeDelta max_delay = scheduled_max_time - now;
VLOG(1) << "Scheduling upload for between " << min_delay.InSeconds()
<< " and " << max_delay.InSeconds() << " seconds from now.";
callback_.Run(min_delay, max_delay);
}
// TODO(juliatuttle): Add min and max interval to config, use that instead.
// TODO(juliatuttle): Cap min and max intervals received from config.
void DomainReliabilityScheduler::GetNextUploadTimeAndCollector(
base::TimeTicks now,
base::TimeTicks* upload_time_out,
size_t* collector_index_out) {
DCHECK(upload_time_out);
DCHECK(collector_index_out);
base::TimeTicks min_time;
size_t min_index = kInvalidCollectorIndex;
for (size_t i = 0; i < collectors_.size(); ++i) {
net::BackoffEntry* backoff = collectors_[i].get();
// If a collector is usable, use the first one in the list.
if (!backoff->ShouldRejectRequest()) {
min_time = now;
min_index = i;
break;
}
// If not, keep track of which will be usable soonest:
base::TimeTicks time = backoff->GetReleaseTime();
if (min_index == kInvalidCollectorIndex || time < min_time) {
min_time = time;
min_index = i;
}
}
DCHECK_NE(kInvalidCollectorIndex, min_index);
*upload_time_out = min_time;
*collector_index_out = min_index;
}
} // namespace domain_reliability
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