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153 lines
6.7 KiB
C++
153 lines
6.7 KiB
C++
// Copyright 2016 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef NET_BASE_NETWORK_THROTTLE_MANAGER_IMPL_H_
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#define NET_BASE_NETWORK_THROTTLE_MANAGER_IMPL_H_
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#include <list>
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#include <memory>
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#include <set>
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#include "base/memory/weak_ptr.h"
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#include "base/time/tick_clock.h"
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#include "base/time/time.h"
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#include "base/timer/timer.h"
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#include "net/base/network_throttle_manager.h"
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#include "net/base/percentile_estimator.h"
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namespace net {
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// The NetworkThrottleManagerImpl implements the following semantics:
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// * All throttles of priority above THROTTLED are created unblocked.
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// * Throttles of priority THROTTLED are created unblocked, unless
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// there are |kActiveRequestThrottlingLimit| or more throttles active,
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// in which case they are created blocked.
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// When that condition is no longer true, throttles of priority
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// THROTTLED are unblocked, in FIFO order.
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// * Throttles that have been alive for more than |kMedianLifetimeMultiple|
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// times the current estimate of the throttle median lifetime do
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// not count against the |kActiveRequestThrottlingLimit| limit.
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class NET_EXPORT NetworkThrottleManagerImpl : public NetworkThrottleManager {
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public:
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// Maximum number of active requests before new THROTTLED throttles
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// are created blocked. Throttles are unblocked as the active requests
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// fall below this limit.
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static const size_t kActiveRequestThrottlingLimit;
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// Note that the following constants are implementation details exposed in the
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// header file only for testing, and should not be relied on by consumers.
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// Constants used for the running estimate of the median lifetime
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// for throttles created by this class. That estimate is used to detect
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// throttles that are "unusually old" and hence may represent hanging GETs
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// or long-running streams. Such throttles should not be considered
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// "active" for the purposes of determining whether THROTTLED throttles
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// should be created in a blocked state.
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// Note that the precise details of this algorithm aren't very important;
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// specifically, if it takes a while for the median estimate to reach the
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// "actual" median of a request stream, the consequence is either a bit more
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// of a delay in unblocking THROTTLED requests or more THROTTLED requests
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// being unblocked than would be ideal (i.e. performance tweaks at
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// the margins).
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// Multiple of the current median lifetime beyond which a throttle is
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// considered "unusually old" and not considered in counting active
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// requests. This is used instead of a percentile estimate because the goal
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// is eliminating requests that are qualitatively different
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// (e.g. hanging gets, streams), and the percentage of all requests
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// that are in that category can vary greatly.
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static const int kMedianLifetimeMultiple;
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// The median lifetime estimate starts at class creation at
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// |kInitialMedianInMs|.
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static const int kInitialMedianInMs;
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NetworkThrottleManagerImpl();
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~NetworkThrottleManagerImpl() override;
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// NetworkThrottleManager:
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std::unique_ptr<Throttle> CreateThrottle(ThrottleDelegate* delegate,
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RequestPriority priority,
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bool ignore_limits) override;
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void SetTickClockForTesting(const base::TickClock* tick_clock);
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// If the |NowTicks()| value of |tick_clock_| is greater than the
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// time the outstanding_recomputation_timer_ has set to go off, Stop()
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// the timer and manually run the associated user task. This is to allow
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// "fast-forwarding" of the clock for testing by working around
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// base::Timer's direct use of base::TimeTicks rather than a base::TickClock.
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//
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// Note specifically that base::Timer::Start takes a time delta into the
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// future and adds it to base::TimeTicks::Now() to get
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// base::Timer::desired_run_time(), which is what this method compares
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// |tick_clock_->NowTicks()| against. So tests should be written so that
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// the timer Start() routine whose callback should be run is called
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// with |tick_clock_| in accord with wallclock time. This routine can then
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// be called with |tick_clock_| set into the future.
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//
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// Returns true if there was a timer running and it was triggerred
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// (|tick_clock_->NowTicks() >
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// outstanding_recomputation_timer_.desired_run_time()|).
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bool ConditionallyTriggerTimerForTesting();
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private:
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class ThrottleImpl;
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using ThrottleList = std::list<ThrottleImpl*>;
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void OnThrottlePriorityChanged(ThrottleImpl* throttle,
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RequestPriority old_priority,
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RequestPriority new_priority);
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void OnThrottleDestroyed(ThrottleImpl* throttle);
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// Recompute how many requests count as outstanding (i.e.
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// are not older than kMedianLifetimeMultiple * MedianThrottleLifetime()).
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// If outstanding_recomputation_timer_ is not set, it will be set
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// to the earliest a throttle might "age out" of the outstanding list.
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void RecomputeOutstanding();
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// Unblock the specified throttle. May result in re-entrant calls
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// into NetworkThrottleManagerImpl.
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void UnblockThrottle(ThrottleImpl* throttle);
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// Recomputes how many requests count as outstanding, checks to see
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// if any currently blocked throttles should be unblocked,
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// and unblock them if so. Note that unblocking may result in
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// re-entrant calls to this class, so no assumptions about state persistence
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// should be made across this call.
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void MaybeUnblockThrottles();
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PercentileEstimator lifetime_median_estimate_;
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// base::Timer controlling outstanding request recomputation.
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//
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// This is started whenever it is not running and a new throttle is
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// added to |outstanding_throttles_|, and is never cleared except by
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// execution, which re-starts it if there are any
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// outstanding_throttles_. So it should always be running if any
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// throttles are outstanding. This guarantees that the class will
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// eventually detect aging out of outstanding throttles and unblock
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// throttles blocked on those outstanding throttles.
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std::unique_ptr<base::OneShotTimer> outstanding_recomputation_timer_;
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// FIFO of OUTSTANDING throttles (ordered by time of entry into the
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// OUTSTANDING state).
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ThrottleList outstanding_throttles_;
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// FIFO list of BLOCKED throttles. This is a list so that the
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// throttles can store iterators to themselves.
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ThrottleList blocked_throttles_;
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// For testing.
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const base::TickClock* tick_clock_;
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base::WeakPtrFactory<NetworkThrottleManagerImpl> weak_ptr_factory_;
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DISALLOW_COPY_AND_ASSIGN(NetworkThrottleManagerImpl);
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};
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} // namespace net
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#endif // NET_BASE_NETWORK_THROTTLE_MANAGER_IMPL_H_
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