naiveproxy/net/base/network_throttle_manager_impl.cc

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2018-08-11 08:35:24 +03:00
// Copyright 2016 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 "net/base/network_throttle_manager_impl.h"
#include "base/logging.h"
#include "base/stl_util.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/time/default_tick_clock.h"
namespace net {
const size_t NetworkThrottleManagerImpl::kActiveRequestThrottlingLimit = 2;
const int NetworkThrottleManagerImpl::kMedianLifetimeMultiple = 5;
// Initial estimate based on the median in the
// Net.RequestTime2.Success histogram, excluding cached results by eye.
const int NetworkThrottleManagerImpl::kInitialMedianInMs = 400;
// Set timers slightly further into the future than they need to be set, so
// that the algorithm isn't vulnerable to timer round off errors triggering
// the callback before the throttle would be considered aged out of the set.
// Set to 17 to hanlde systems with |!base::TimeTicks::IsHighResolution()|.
// Note that even if the timer goes off before it should, all that should cost
// is a second task; this class does not rely on timer accuracy for its
// correctness.
const int kTimerFudgeInMs = 17;
class NetworkThrottleManagerImpl::ThrottleImpl
: public NetworkThrottleManager::Throttle {
public:
// Allowed state transitions are BLOCKED -> OUTSTANDING -> AGED.
// Throttles may be created in the BLOCKED or OUTSTANDING states.
enum class State {
// Not allowed to proceed by manager.
BLOCKED,
// Allowed to proceed, counts as an "outstanding" request for
// manager accounting purposes.
OUTSTANDING,
// Old enough to not count as "outstanding" anymore for
// manager accounting purposes.
AGED
};
using ThrottleListQueuePointer =
NetworkThrottleManagerImpl::ThrottleList::iterator;
// Caller must arrange that |*delegate| and |*manager| outlive
// the ThrottleImpl class.
ThrottleImpl(bool blocked,
RequestPriority priority,
ThrottleDelegate* delegate,
NetworkThrottleManagerImpl* manager,
ThrottleListQueuePointer queue_pointer);
~ThrottleImpl() override;
// Throttle:
bool IsBlocked() const override;
RequestPriority Priority() const override;
void SetPriority(RequestPriority priority) override;
State state() const { return state_; }
ThrottleListQueuePointer queue_pointer() const { return queue_pointer_; }
void set_queue_pointer(const ThrottleListQueuePointer& pointer) {
if (state_ != State::AGED)
DCHECK_EQ(this, *pointer);
queue_pointer_ = pointer;
}
void set_start_time(base::TimeTicks start_time) { start_time_ = start_time; }
base::TimeTicks start_time() const { return start_time_; }
// Change the throttle's state to AGED. The previous
// state must be OUTSTANDING.
void SetAged();
// Note that this call calls the delegate, and hence may result in
// re-entrant calls into the manager or ThrottleImpl. The manager should
// not rely on any state other than its own existence being persistent
// across this call.
void NotifyUnblocked();
private:
State state_;
RequestPriority priority_;
ThrottleDelegate* const delegate_;
NetworkThrottleManagerImpl* const manager_;
base::TimeTicks start_time_;
// To allow deletion from the blocked queue (when the throttle is in the
// blocked queue).
ThrottleListQueuePointer queue_pointer_;
DISALLOW_COPY_AND_ASSIGN(ThrottleImpl);
};
NetworkThrottleManagerImpl::ThrottleImpl::ThrottleImpl(
bool blocked,
RequestPriority priority,
NetworkThrottleManager::ThrottleDelegate* delegate,
NetworkThrottleManagerImpl* manager,
ThrottleListQueuePointer queue_pointer)
: state_(blocked ? State::BLOCKED : State::OUTSTANDING),
priority_(priority),
delegate_(delegate),
manager_(manager),
queue_pointer_(queue_pointer) {
DCHECK(delegate);
if (!blocked)
start_time_ = manager->tick_clock_->NowTicks();
}
NetworkThrottleManagerImpl::ThrottleImpl::~ThrottleImpl() {
manager_->OnThrottleDestroyed(this);
}
bool NetworkThrottleManagerImpl::ThrottleImpl::IsBlocked() const {
return state_ == State::BLOCKED;
}
RequestPriority NetworkThrottleManagerImpl::ThrottleImpl::Priority() const {
return priority_;
}
void NetworkThrottleManagerImpl::ThrottleImpl::SetPriority(
RequestPriority new_priority) {
RequestPriority old_priority(priority_);
if (old_priority == new_priority)
return;
priority_ = new_priority;
manager_->OnThrottlePriorityChanged(this, old_priority, new_priority);
}
void NetworkThrottleManagerImpl::ThrottleImpl::SetAged() {
DCHECK_EQ(State::OUTSTANDING, state_);
state_ = State::AGED;
}
void NetworkThrottleManagerImpl::ThrottleImpl::NotifyUnblocked() {
// This method should only be called once, and only if the
// current state is blocked.
DCHECK_EQ(State::BLOCKED, state_);
state_ = State::OUTSTANDING;
delegate_->OnThrottleUnblocked(this);
}
NetworkThrottleManagerImpl::NetworkThrottleManagerImpl()
: lifetime_median_estimate_(PercentileEstimator::kMedianPercentile,
kInitialMedianInMs),
outstanding_recomputation_timer_(
std::make_unique<base::Timer>(false /* retain_user_task */,
false /* is_repeating */)),
tick_clock_(base::DefaultTickClock::GetInstance()),
weak_ptr_factory_(this) {}
NetworkThrottleManagerImpl::~NetworkThrottleManagerImpl() = default;
std::unique_ptr<NetworkThrottleManager::Throttle>
NetworkThrottleManagerImpl::CreateThrottle(
NetworkThrottleManager::ThrottleDelegate* delegate,
RequestPriority priority,
bool ignore_limits) {
bool blocked =
(!ignore_limits && priority == THROTTLED &&
outstanding_throttles_.size() >= kActiveRequestThrottlingLimit);
std::unique_ptr<NetworkThrottleManagerImpl::ThrottleImpl> throttle(
new ThrottleImpl(blocked, priority, delegate, this,
blocked_throttles_.end()));
ThrottleList& insert_list(blocked ? blocked_throttles_
: outstanding_throttles_);
throttle->set_queue_pointer(
insert_list.insert(insert_list.end(), throttle.get()));
// In case oustanding_throttles_ was empty, set up timer.
if (!blocked)
RecomputeOutstanding();
return std::move(throttle);
}
void NetworkThrottleManagerImpl::SetTickClockForTesting(
const base::TickClock* tick_clock) {
tick_clock_ = tick_clock;
DCHECK(!outstanding_recomputation_timer_->IsRunning());
outstanding_recomputation_timer_ = std::make_unique<base::Timer>(
false /* retain_user_task */, false /* is_repeating */, tick_clock_);
}
bool NetworkThrottleManagerImpl::ConditionallyTriggerTimerForTesting() {
if (!outstanding_recomputation_timer_->IsRunning() ||
(tick_clock_->NowTicks() <
outstanding_recomputation_timer_->desired_run_time())) {
return false;
}
base::Closure timer_callback(outstanding_recomputation_timer_->user_task());
outstanding_recomputation_timer_->Stop();
timer_callback.Run();
return true;
}
void NetworkThrottleManagerImpl::OnThrottlePriorityChanged(
NetworkThrottleManagerImpl::ThrottleImpl* throttle,
RequestPriority old_priority,
RequestPriority new_priority) {
// The only case requiring a state change is if the priority change
// implies unblocking, which can only happen on a transition from blocked
// (implies THROTTLED) to non-THROTTLED.
if (throttle->IsBlocked() && new_priority != THROTTLED) {
// May result in re-entrant calls into this class.
UnblockThrottle(throttle);
}
}
void NetworkThrottleManagerImpl::OnThrottleDestroyed(ThrottleImpl* throttle) {
switch (throttle->state()) {
case ThrottleImpl::State::BLOCKED:
DCHECK(throttle->queue_pointer() != blocked_throttles_.end());
DCHECK_EQ(throttle, *(throttle->queue_pointer()));
blocked_throttles_.erase(throttle->queue_pointer());
break;
case ThrottleImpl::State::OUTSTANDING:
DCHECK(throttle->queue_pointer() != outstanding_throttles_.end());
DCHECK_EQ(throttle, *(throttle->queue_pointer()));
outstanding_throttles_.erase(throttle->queue_pointer());
FALLTHROUGH;
case ThrottleImpl::State::AGED:
DCHECK(!throttle->start_time().is_null());
lifetime_median_estimate_.AddSample(
(tick_clock_->NowTicks() - throttle->start_time())
.InMillisecondsRoundedUp());
break;
}
DCHECK(!base::ContainsValue(blocked_throttles_, throttle));
DCHECK(!base::ContainsValue(outstanding_throttles_, throttle));
// Unblock the throttles if there's some chance there's a throttle to
// unblock.
if (outstanding_throttles_.size() < kActiveRequestThrottlingLimit &&
!blocked_throttles_.empty()) {
// Via PostTask so there aren't upcalls from within destructors.
base::ThreadTaskRunnerHandle::Get()->PostTask(
FROM_HERE,
base::Bind(&NetworkThrottleManagerImpl::MaybeUnblockThrottles,
weak_ptr_factory_.GetWeakPtr()));
}
}
void NetworkThrottleManagerImpl::RecomputeOutstanding() {
// Remove all throttles that have aged out of the outstanding set.
base::TimeTicks now(tick_clock_->NowTicks());
base::TimeDelta age_horizon(base::TimeDelta::FromMilliseconds((
kMedianLifetimeMultiple * lifetime_median_estimate_.current_estimate())));
while (!outstanding_throttles_.empty()) {
ThrottleImpl* throttle = *outstanding_throttles_.begin();
if (throttle->start_time() + age_horizon >= now)
break;
outstanding_throttles_.erase(outstanding_throttles_.begin());
throttle->SetAged();
throttle->set_queue_pointer(outstanding_throttles_.end());
}
if (outstanding_throttles_.empty())
return;
// If the timer is already running, be conservative and leave it alone;
// the time for which it would be set will only be later than when it's
// currently set.
// This addresses, e.g., situations where a RecomputeOutstanding() races
// with a running timer which would unblock blocked throttles.
if (outstanding_recomputation_timer_->IsRunning())
return;
ThrottleImpl* first_throttle(*outstanding_throttles_.begin());
DCHECK_GE(first_throttle->start_time() + age_horizon, now);
outstanding_recomputation_timer_->Start(
FROM_HERE,
((first_throttle->start_time() + age_horizon) - now +
base::TimeDelta::FromMilliseconds(kTimerFudgeInMs)),
// Unretained use of |this| is safe because the timer is
// owned by this object, and will be torn down if this object
// is destroyed.
base::Bind(&NetworkThrottleManagerImpl::MaybeUnblockThrottles,
base::Unretained(this)));
}
void NetworkThrottleManagerImpl::UnblockThrottle(ThrottleImpl* throttle) {
DCHECK(throttle->IsBlocked());
blocked_throttles_.erase(throttle->queue_pointer());
throttle->set_start_time(tick_clock_->NowTicks());
throttle->set_queue_pointer(
outstanding_throttles_.insert(outstanding_throttles_.end(), throttle));
// Called in case |*throttle| was added to a null set.
RecomputeOutstanding();
// May result in re-entrant calls into this class.
throttle->NotifyUnblocked();
}
void NetworkThrottleManagerImpl::MaybeUnblockThrottles() {
RecomputeOutstanding();
while (outstanding_throttles_.size() < kActiveRequestThrottlingLimit &&
!blocked_throttles_.empty()) {
// NOTE: This call may result in reentrant calls into
// NetworkThrottleManagerImpl; no state should be assumed to be
// persistent across this call.
UnblockThrottle(blocked_throttles_.front());
}
}
} // namespace net