services/surfaceflinger/Scheduler/VSyncDispatchTimerQueue.h - third_party/android/platform/frameworks/native - Git at Google

 /*
  * Copyright 2019 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #pragma once

 #include <android-base/thread_annotations.h>
 #include <array>
 #include <functional>
 #include <memory>
 #include <mutex>
 #include <string>
 #include <string_view>
 #include <unordered_map>

 #include "SchedulerUtils.h"
 #include "VSyncDispatch.h"

 namespace android::scheduler {

 // VSyncDispatchTimerQueueEntry is a helper class representing internal state for each entry in
 // VSyncDispatchTimerQueue hoisted to public for unit testing.
 class VSyncDispatchTimerQueueEntry {
 public:
     // This is the state of the entry. There are 3 states, armed, running, disarmed.
     // Valid transition: disarmed -> armed ( when scheduled )
     // Valid transition: armed -> running -> disarmed ( when timer is called)
     // Valid transition: armed -> disarmed ( when cancelled )
     VSyncDispatchTimerQueueEntry(std::string const& name, VSyncDispatch::Callback const& fn,
                                  nsecs_t minVsyncDistance);
     std::string_view name() const;

     // Start: functions that are not threadsafe.
     // Return the last vsync time this callback was invoked.
     std::optional<nsecs_t> lastExecutedVsyncTarget() const;

     // This moves the state from disarmed->armed and will calculate the wakeupTime.
     ScheduleResult schedule(nsecs_t workDuration, nsecs_t earliestVsync, VSyncTracker& tracker,
                             nsecs_t now);
     // This will update armed entries with the latest vsync information. Entry remains armed.
     void update(VSyncTracker& tracker, nsecs_t now);

     // This will return empty if not armed, or the next calculated wakeup time if armed.
     // It will not update the wakeupTime.
     std::optional<nsecs_t> wakeupTime() const;

     std::optional<nsecs_t> targetVsync() const;

     // This moves state from armed->disarmed.
     void disarm();

     // This moves the state from armed->running.
     // Store the timestamp that this was intended for as the last called timestamp.
     nsecs_t executing();

     // Adds a pending upload of the earliestVSync and workDuration that will be applied on the next
     // call to update()
     void addPendingWorkloadUpdate(nsecs_t workDuration, nsecs_t earliestVsync);

     // Checks if there is a pending update to the workload, returning true if so.
     bool hasPendingWorkloadUpdate() const;
     // End: functions that are not threadsafe.

     // Invoke the callback with the two given timestamps, moving the state from running->disarmed.
     void callback(nsecs_t vsyncTimestamp, nsecs_t wakeupTimestamp);
     // Block calling thread while the callback is executing.
     void ensureNotRunning();

     void dump(std::string& result) const;

 private:
     std::string const mName;
     VSyncDispatch::Callback const mCallback;

     nsecs_t mWorkDuration;
     nsecs_t mEarliestVsync;
     nsecs_t const mMinVsyncDistance;

     struct ArmingInfo {
         nsecs_t mActualWakeupTime;
         nsecs_t mActualVsyncTime;
     };
     std::optional<ArmingInfo> mArmedInfo;
     std::optional<nsecs_t> mLastDispatchTime;

     struct WorkloadUpdateInfo {
         nsecs_t duration;
         nsecs_t earliestVsync;
     };
     std::optional<WorkloadUpdateInfo> mWorkloadUpdateInfo;

     mutable std::mutex mRunningMutex;
     std::condition_variable mCv;
     bool mRunning GUARDED_BY(mRunningMutex) = false;
 };

 /*
  * VSyncDispatchTimerQueue is a class that will dispatch callbacks as per VSyncDispatch interface
  * using a single timer queue.
  */
 class VSyncDispatchTimerQueue : public VSyncDispatch {
 public:
     // Constructs a VSyncDispatchTimerQueue.
     // \param[in] tk                    A timekeeper.
     // \param[in] tracker               A tracker.
     // \param[in] timerSlack            The threshold at which different similarly timed callbacks
     //                                  should be grouped into one wakeup.
     // \param[in] minVsyncDistance      The minimum distance between two vsync estimates before the
     //                                  vsyncs are considered the same vsync event.
     explicit VSyncDispatchTimerQueue(std::unique_ptr<TimeKeeper> tk, VSyncTracker& tracker,
                                      nsecs_t timerSlack, nsecs_t minVsyncDistance);
     ~VSyncDispatchTimerQueue();

     CallbackToken registerCallback(Callback const& callbackFn, std::string callbackName) final;
     void unregisterCallback(CallbackToken token) final;
     ScheduleResult schedule(CallbackToken token, nsecs_t workDuration, nsecs_t earliestVsync) final;
     CancelResult cancel(CallbackToken token) final;
     void dump(std::string& result) const final;

 private:
     VSyncDispatchTimerQueue(VSyncDispatchTimerQueue const&) = delete;
     VSyncDispatchTimerQueue& operator=(VSyncDispatchTimerQueue const&) = delete;

     using CallbackMap =
             std::unordered_map<CallbackToken, std::shared_ptr<VSyncDispatchTimerQueueEntry>>;

     void timerCallback();
     void setTimer(nsecs_t, nsecs_t) REQUIRES(mMutex);
     void rearmTimer(nsecs_t now) REQUIRES(mMutex);
     void rearmTimerSkippingUpdateFor(nsecs_t now, CallbackMap::iterator const& skipUpdate)
             REQUIRES(mMutex);
     void cancelTimer() REQUIRES(mMutex);

     static constexpr nsecs_t kInvalidTime = std::numeric_limits<int64_t>::max();
     std::unique_ptr<TimeKeeper> const mTimeKeeper;
     VSyncTracker& mTracker;
     nsecs_t const mTimerSlack;
     nsecs_t const mMinVsyncDistance;

     std::mutex mutable mMutex;
     size_t mCallbackToken GUARDED_BY(mMutex) = 0;

     CallbackMap mCallbacks GUARDED_BY(mMutex);
     nsecs_t mIntendedWakeupTime GUARDED_BY(mMutex) = kInvalidTime;

     struct TraceBuffer {
         static constexpr char const kTraceNamePrefix[] = "-alarm in:";
         static constexpr char const kTraceNameSeparator[] = " for vs:";
         static constexpr size_t kMaxNamePrint = 4;
         static constexpr size_t kNumTsPrinted = 2;
         static constexpr size_t maxlen = kMaxNamePrint + arrayLen(kTraceNamePrefix) +
                 arrayLen(kTraceNameSeparator) - 1 + (kNumTsPrinted * max64print);
         std::array<char, maxlen> str_buffer;
         void note(std::string_view name, nsecs_t in, nsecs_t vs);
     } mTraceBuffer GUARDED_BY(mMutex);

     // For debugging purposes
     nsecs_t mLastTimerCallback GUARDED_BY(mMutex) = kInvalidTime;
     nsecs_t mLastTimerSchedule GUARDED_BY(mMutex) = kInvalidTime;
 };

 } // namespace android::scheduler
	/*
	* Copyright 2019 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#pragma once

	#include <android-base/thread_annotations.h>
	#include <array>
	#include <functional>
	#include <memory>
	#include <mutex>
	#include <string>
	#include <string_view>
	#include <unordered_map>

	#include "SchedulerUtils.h"
	#include "VSyncDispatch.h"

	namespace android::scheduler {

	// VSyncDispatchTimerQueueEntry is a helper class representing internal state for each entry in
	// VSyncDispatchTimerQueue hoisted to public for unit testing.
	class VSyncDispatchTimerQueueEntry {
	public:
	// This is the state of the entry. There are 3 states, armed, running, disarmed.
	// Valid transition: disarmed -> armed ( when scheduled )
	// Valid transition: armed -> running -> disarmed ( when timer is called)
	// Valid transition: armed -> disarmed ( when cancelled )
	VSyncDispatchTimerQueueEntry(std::string const& name, VSyncDispatch::Callback const& fn,
	nsecs_t minVsyncDistance);
	std::string_view name() const;

	// Start: functions that are not threadsafe.
	// Return the last vsync time this callback was invoked.
	std::optional<nsecs_t> lastExecutedVsyncTarget() const;

	// This moves the state from disarmed->armed and will calculate the wakeupTime.
	ScheduleResult schedule(nsecs_t workDuration, nsecs_t earliestVsync, VSyncTracker& tracker,
	nsecs_t now);
	// This will update armed entries with the latest vsync information. Entry remains armed.
	void update(VSyncTracker& tracker, nsecs_t now);

	// This will return empty if not armed, or the next calculated wakeup time if armed.
	// It will not update the wakeupTime.
	std::optional<nsecs_t> wakeupTime() const;

	std::optional<nsecs_t> targetVsync() const;

	// This moves state from armed->disarmed.
	void disarm();

	// This moves the state from armed->running.
	// Store the timestamp that this was intended for as the last called timestamp.
	nsecs_t executing();

	// Adds a pending upload of the earliestVSync and workDuration that will be applied on the next
	// call to update()
	void addPendingWorkloadUpdate(nsecs_t workDuration, nsecs_t earliestVsync);

	// Checks if there is a pending update to the workload, returning true if so.
	bool hasPendingWorkloadUpdate() const;
	// End: functions that are not threadsafe.

	// Invoke the callback with the two given timestamps, moving the state from running->disarmed.
	void callback(nsecs_t vsyncTimestamp, nsecs_t wakeupTimestamp);
	// Block calling thread while the callback is executing.
	void ensureNotRunning();

	void dump(std::string& result) const;

	private:
	std::string const mName;
	VSyncDispatch::Callback const mCallback;

	nsecs_t mWorkDuration;
	nsecs_t mEarliestVsync;
	nsecs_t const mMinVsyncDistance;

	struct ArmingInfo {
	nsecs_t mActualWakeupTime;
	nsecs_t mActualVsyncTime;
	};
	std::optional<ArmingInfo> mArmedInfo;
	std::optional<nsecs_t> mLastDispatchTime;

	struct WorkloadUpdateInfo {
	nsecs_t duration;
	nsecs_t earliestVsync;
	};
	std::optional<WorkloadUpdateInfo> mWorkloadUpdateInfo;

	mutable std::mutex mRunningMutex;
	std::condition_variable mCv;
	bool mRunning GUARDED_BY(mRunningMutex) = false;
	};

	/*
	* VSyncDispatchTimerQueue is a class that will dispatch callbacks as per VSyncDispatch interface
	* using a single timer queue.
	*/
	class VSyncDispatchTimerQueue : public VSyncDispatch {
	public:
	// Constructs a VSyncDispatchTimerQueue.
	// \param[in] tk A timekeeper.
	// \param[in] tracker A tracker.
	// \param[in] timerSlack The threshold at which different similarly timed callbacks
	// should be grouped into one wakeup.
	// \param[in] minVsyncDistance The minimum distance between two vsync estimates before the
	// vsyncs are considered the same vsync event.
	explicit VSyncDispatchTimerQueue(std::unique_ptr<TimeKeeper> tk, VSyncTracker& tracker,
	nsecs_t timerSlack, nsecs_t minVsyncDistance);
	~VSyncDispatchTimerQueue();

	CallbackToken registerCallback(Callback const& callbackFn, std::string callbackName) final;
	void unregisterCallback(CallbackToken token) final;
	ScheduleResult schedule(CallbackToken token, nsecs_t workDuration, nsecs_t earliestVsync) final;
	CancelResult cancel(CallbackToken token) final;
	void dump(std::string& result) const final;

	private:
	VSyncDispatchTimerQueue(VSyncDispatchTimerQueue const&) = delete;
	VSyncDispatchTimerQueue& operator=(VSyncDispatchTimerQueue const&) = delete;

	using CallbackMap =
	std::unordered_map<CallbackToken, std::shared_ptr<VSyncDispatchTimerQueueEntry>>;

	void timerCallback();
	void setTimer(nsecs_t, nsecs_t) REQUIRES(mMutex);
	void rearmTimer(nsecs_t now) REQUIRES(mMutex);
	void rearmTimerSkippingUpdateFor(nsecs_t now, CallbackMap::iterator const& skipUpdate)
	REQUIRES(mMutex);
	void cancelTimer() REQUIRES(mMutex);

	static constexpr nsecs_t kInvalidTime = std::numeric_limits<int64_t>::max();
	std::unique_ptr<TimeKeeper> const mTimeKeeper;
	VSyncTracker& mTracker;
	nsecs_t const mTimerSlack;
	nsecs_t const mMinVsyncDistance;

	std::mutex mutable mMutex;
	size_t mCallbackToken GUARDED_BY(mMutex) = 0;

	CallbackMap mCallbacks GUARDED_BY(mMutex);
	nsecs_t mIntendedWakeupTime GUARDED_BY(mMutex) = kInvalidTime;

	struct TraceBuffer {
	static constexpr char const kTraceNamePrefix[] = "-alarm in:";
	static constexpr char const kTraceNameSeparator[] = " for vs:";
	static constexpr size_t kMaxNamePrint = 4;
	static constexpr size_t kNumTsPrinted = 2;
	static constexpr size_t maxlen = kMaxNamePrint + arrayLen(kTraceNamePrefix) +
	arrayLen(kTraceNameSeparator) - 1 + (kNumTsPrinted * max64print);
	std::array<char, maxlen> str_buffer;
	void note(std::string_view name, nsecs_t in, nsecs_t vs);
	} mTraceBuffer GUARDED_BY(mMutex);

	// For debugging purposes
	nsecs_t mLastTimerCallback GUARDED_BY(mMutex) = kInvalidTime;
	nsecs_t mLastTimerSchedule GUARDED_BY(mMutex) = kInvalidTime;
	};

	} // namespace android::scheduler