guest/hals/hwcomposer/legacy/stats_keeper.h - device/google/cuttlefish_common - Git at Google

 #pragma once
 /*
  * Copyright (C) 2016 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.
  */

 #include <deque>
 #include <set>

 #include <android-base/thread_annotations.h>

 #include "common/libs/threads/cuttlefish_thread.h"
 #include "common/libs/time/monotonic_time.h"
 #include "common/vsoc/lib/screen_region_view.h"

 #include "hwcomposer_common.h"

 namespace cvd {

 class CompositionData {
  public:
   CompositionData(cvd::time::MonotonicTimePoint time_point, int num_prepares,
                   int num_layers, int num_hwcomposited_layers,
                   cvd::time::Nanoseconds prepare_time,
                   cvd::time::Nanoseconds set_calls_time)
       : time_point_(time_point),
         num_prepare_calls_(num_prepares),
         num_layers_(num_layers),
         num_hwcomposited_layers_(num_hwcomposited_layers),
         prepare_time_(prepare_time),
         set_calls_time_(set_calls_time) {}

   cvd::time::MonotonicTimePoint time_point() const { return time_point_; }

   int num_prepare_calls() const { return num_prepare_calls_; }

   int num_layers() const { return num_layers_; }

   int num_hwcomposited_layers() const { return num_hwcomposited_layers_; }

   cvd::time::Nanoseconds prepare_time() const { return prepare_time_; }

   cvd::time::Nanoseconds set_calls_time() const { return set_calls_time_; }

  private:
   cvd::time::MonotonicTimePoint time_point_;
   int num_prepare_calls_;
   int num_layers_;
   int num_hwcomposited_layers_;
   cvd::time::Nanoseconds prepare_time_;
   cvd::time::Nanoseconds set_calls_time_;
 };

 struct HWCCompositionStats {
   cvd::time::MonotonicTimePoint prepare_start;
   cvd::time::MonotonicTimePoint prepare_end;
   cvd::time::MonotonicTimePoint set_start;
   cvd::time::MonotonicTimePoint set_end;
   cvd::time::MonotonicTimePoint last_vsync;
   // There may be more than one call to prepare, the timestamps are with regards
   // to the last one (the one that precedes the set call)
   int num_prepare_calls;
   int num_layers;
   // The number of layers composed by the hwcomposer
   int num_hwc_layers;
 };

 class StatsKeeper {
  public:
   // The timespan parameter indicates for how long we keep stats about the past
   // compositions.
   StatsKeeper(cvd::time::TimeDifference timespan, int64_t vsync_base,
               int32_t vsync_period);
   StatsKeeper();
   ~StatsKeeper();

   // Record the time at which a call to prepare was made, takes the number of
   // layers received (excluding the framebuffer) as a parameter.
   void RecordPrepareStart(int num_layers);
   // Record the time at which a call to prepare (was about to) returned, takes
   // the number of layers marked for hardware composition as a parameter.
   void RecordPrepareEnd(int num_hwcomposited_layers);
   void RecordSetStart();
   void RecordSetEnd() EXCLUDES(mutex_);

   void GetLastCompositionStats(vsoc::layout::screen::CompositionStats* stats_p);

   // Calls to this function are synchronized with calls to 'RecordSetEnd' with a
   // mutex. The other Record* functions do not need such synchronization because
   // they access last_* variables only, which are not read by 'Dump'.
   void SynchronizedDump(char* buffer, int buffer_size) const EXCLUDES(mutex_);

  private:
   cvd::time::TimeDifference period_length_;

   // Base and period of the VSYNC signal, allows to accurately calculate the
   // time of the last vsync broadcast.
   int64_t vsync_base_;
   int32_t vsync_period_;
   // Data collected about ongoing composition. These variables are not accessed
   // from Dump(), so they don't need to be guarded by a mutex.
   HWCCompositionStats last_composition_stats_;

   // Aggregated performance data collected from past compositions. These
   // variables are modified when a composition is completed and when old
   // compositions need to be discarded in RecordSetEnd(), and is accessed from
   // Dump(). Non-aggregated data is kept in the raw_composition_data_ deque to
   // be able to discard old values from the aggregated data.
   int num_layers_ GUARDED_BY(mutex_);
   int num_hwcomposited_layers_ GUARDED_BY(mutex_);
   int num_prepare_calls_ GUARDED_BY(mutex_);
   int num_set_calls_ GUARDED_BY(mutex_);
   cvd::time::Nanoseconds prepare_call_total_time_ GUARDED_BY(mutex_);
   cvd::time::Nanoseconds set_call_total_time_ GUARDED_BY(mutex_);
   // These are kept in multisets to be able to calculate mins and maxs of
   // changing sets of (not necessarily different) values.
   std::multiset<int> prepare_calls_per_set_calls_ GUARDED_BY(mutex_);
   std::multiset<int> layers_per_compositions_ GUARDED_BY(mutex_);
   std::multiset<cvd::time::Nanoseconds> prepare_call_times_ GUARDED_BY(mutex_);
   std::multiset<cvd::time::Nanoseconds> set_call_times_ GUARDED_BY(mutex_);
   std::multiset<int64_t> set_call_times_per_hwcomposited_layer_ns_
       GUARDED_BY(mutex_);

   // Time-ordered list of compositions, used to update the global aggregated
   // performance data when old compositions fall out of the period of interest.
   std::deque<CompositionData> raw_composition_data_ GUARDED_BY(mutex_);

   // TODO(jemoreira): Add min/max/average composition times per layer area units

   std::deque<std::pair<int64_t, int64_t> > composition_areas GUARDED_BY(mutex_);
   int64_t total_layers_area GUARDED_BY(mutex_);
   int64_t total_invisible_area GUARDED_BY(mutex_);

   // Controls access to data from past compositions.
   mutable cvd::Mutex mutex_;
 };

 template <class Composer>
 class StatsKeepingComposer {
  public:
   // Keep stats from the last 10 seconds.
   StatsKeepingComposer(int64_t vsync_base_timestamp, int32_t vsync_period_ns)
       : stats_keeper_(cvd::time::TimeDifference(cvd::time::Seconds(10), 1),
                       vsync_base_timestamp, vsync_period_ns),
         composer_(vsync_base_timestamp, vsync_period_ns) {
     // Don't let the composer broadcast by itself, allow it to return to collect
     // the timings and broadcast then.
     composer_.ReplaceFbBroadcaster([this](int buffer_index){
         BroadcastWithStats(buffer_index);
       });
   }
   ~StatsKeepingComposer() = default;

   int PrepareLayers(size_t num_layers, vsoc_hwc_layer* layers) {
     stats_keeper_.RecordPrepareStart(num_layers);
     int num_hwc_layers = composer_.PrepareLayers(num_layers, layers);
     stats_keeper_.RecordPrepareEnd(num_hwc_layers);
     return num_hwc_layers;
   }

   void BroadcastWithStats(int buffer_idx) {
     stats_keeper_.RecordSetEnd();
     vsoc::layout::screen::CompositionStats stats;
     stats_keeper_.GetLastCompositionStats(&stats);
     vsoc::screen::ScreenRegionView::GetInstance()
       ->BroadcastNewFrame(static_cast<uint32_t>(buffer_idx), &stats);
   }

   int SetLayers(size_t num_layers, vsoc_hwc_layer* layers) {
     stats_keeper_.RecordSetStart();
     return composer_.SetLayers(num_layers, layers);
   }

   void Dump(char* buff, int buff_len) {
     stats_keeper_.SynchronizedDump(buff, buff_len);
   }

  private:
   StatsKeeper stats_keeper_;
   Composer composer_;
 };

 }  // namespace cvd
	#pragma once
	/*
	* Copyright (C) 2016 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.
	*/

	#include <deque>
	#include <set>

	#include <android-base/thread_annotations.h>

	#include "common/libs/threads/cuttlefish_thread.h"
	#include "common/libs/time/monotonic_time.h"
	#include "common/vsoc/lib/screen_region_view.h"

	#include "hwcomposer_common.h"

	namespace cvd {

	class CompositionData {
	public:
	CompositionData(cvd::time::MonotonicTimePoint time_point, int num_prepares,
	int num_layers, int num_hwcomposited_layers,
	cvd::time::Nanoseconds prepare_time,
	cvd::time::Nanoseconds set_calls_time)
	: time_point_(time_point),
	num_prepare_calls_(num_prepares),
	num_layers_(num_layers),
	num_hwcomposited_layers_(num_hwcomposited_layers),
	prepare_time_(prepare_time),
	set_calls_time_(set_calls_time) {}

	cvd::time::MonotonicTimePoint time_point() const { return time_point_; }

	int num_prepare_calls() const { return num_prepare_calls_; }

	int num_layers() const { return num_layers_; }

	int num_hwcomposited_layers() const { return num_hwcomposited_layers_; }

	cvd::time::Nanoseconds prepare_time() const { return prepare_time_; }

	cvd::time::Nanoseconds set_calls_time() const { return set_calls_time_; }

	private:
	cvd::time::MonotonicTimePoint time_point_;
	int num_prepare_calls_;
	int num_layers_;
	int num_hwcomposited_layers_;
	cvd::time::Nanoseconds prepare_time_;
	cvd::time::Nanoseconds set_calls_time_;
	};

	struct HWCCompositionStats {
	cvd::time::MonotonicTimePoint prepare_start;
	cvd::time::MonotonicTimePoint prepare_end;
	cvd::time::MonotonicTimePoint set_start;
	cvd::time::MonotonicTimePoint set_end;
	cvd::time::MonotonicTimePoint last_vsync;
	// There may be more than one call to prepare, the timestamps are with regards
	// to the last one (the one that precedes the set call)
	int num_prepare_calls;
	int num_layers;
	// The number of layers composed by the hwcomposer
	int num_hwc_layers;
	};

	class StatsKeeper {
	public:
	// The timespan parameter indicates for how long we keep stats about the past
	// compositions.
	StatsKeeper(cvd::time::TimeDifference timespan, int64_t vsync_base,
	int32_t vsync_period);
	StatsKeeper();
	~StatsKeeper();

	// Record the time at which a call to prepare was made, takes the number of
	// layers received (excluding the framebuffer) as a parameter.
	void RecordPrepareStart(int num_layers);
	// Record the time at which a call to prepare (was about to) returned, takes
	// the number of layers marked for hardware composition as a parameter.
	void RecordPrepareEnd(int num_hwcomposited_layers);
	void RecordSetStart();
	void RecordSetEnd() EXCLUDES(mutex_);

	void GetLastCompositionStats(vsoc::layout::screen::CompositionStats* stats_p);

	// Calls to this function are synchronized with calls to 'RecordSetEnd' with a
	// mutex. The other Record* functions do not need such synchronization because
	// they access last_* variables only, which are not read by 'Dump'.
	void SynchronizedDump(char* buffer, int buffer_size) const EXCLUDES(mutex_);

	private:
	cvd::time::TimeDifference period_length_;

	// Base and period of the VSYNC signal, allows to accurately calculate the
	// time of the last vsync broadcast.
	int64_t vsync_base_;
	int32_t vsync_period_;
	// Data collected about ongoing composition. These variables are not accessed
	// from Dump(), so they don't need to be guarded by a mutex.
	HWCCompositionStats last_composition_stats_;

	// Aggregated performance data collected from past compositions. These
	// variables are modified when a composition is completed and when old
	// compositions need to be discarded in RecordSetEnd(), and is accessed from
	// Dump(). Non-aggregated data is kept in the raw_composition_data_ deque to
	// be able to discard old values from the aggregated data.
	int num_layers_ GUARDED_BY(mutex_);
	int num_hwcomposited_layers_ GUARDED_BY(mutex_);
	int num_prepare_calls_ GUARDED_BY(mutex_);
	int num_set_calls_ GUARDED_BY(mutex_);
	cvd::time::Nanoseconds prepare_call_total_time_ GUARDED_BY(mutex_);
	cvd::time::Nanoseconds set_call_total_time_ GUARDED_BY(mutex_);
	// These are kept in multisets to be able to calculate mins and maxs of
	// changing sets of (not necessarily different) values.
	std::multiset<int> prepare_calls_per_set_calls_ GUARDED_BY(mutex_);
	std::multiset<int> layers_per_compositions_ GUARDED_BY(mutex_);
	std::multiset<cvd::time::Nanoseconds> prepare_call_times_ GUARDED_BY(mutex_);
	std::multiset<cvd::time::Nanoseconds> set_call_times_ GUARDED_BY(mutex_);
	std::multiset<int64_t> set_call_times_per_hwcomposited_layer_ns_
	GUARDED_BY(mutex_);

	// Time-ordered list of compositions, used to update the global aggregated
	// performance data when old compositions fall out of the period of interest.
	std::deque<CompositionData> raw_composition_data_ GUARDED_BY(mutex_);

	// TODO(jemoreira): Add min/max/average composition times per layer area units

	std::deque<std::pair<int64_t, int64_t> > composition_areas GUARDED_BY(mutex_);
	int64_t total_layers_area GUARDED_BY(mutex_);
	int64_t total_invisible_area GUARDED_BY(mutex_);

	// Controls access to data from past compositions.
	mutable cvd::Mutex mutex_;
	};

	template <class Composer>
	class StatsKeepingComposer {
	public:
	// Keep stats from the last 10 seconds.
	StatsKeepingComposer(int64_t vsync_base_timestamp, int32_t vsync_period_ns)
	: stats_keeper_(cvd::time::TimeDifference(cvd::time::Seconds(10), 1),
	vsync_base_timestamp, vsync_period_ns),
	composer_(vsync_base_timestamp, vsync_period_ns) {
	// Don't let the composer broadcast by itself, allow it to return to collect
	// the timings and broadcast then.
	composer_.ReplaceFbBroadcaster([this](int buffer_index){
	BroadcastWithStats(buffer_index);
	});
	}
	~StatsKeepingComposer() = default;

	int PrepareLayers(size_t num_layers, vsoc_hwc_layer* layers) {
	stats_keeper_.RecordPrepareStart(num_layers);
	int num_hwc_layers = composer_.PrepareLayers(num_layers, layers);
	stats_keeper_.RecordPrepareEnd(num_hwc_layers);
	return num_hwc_layers;
	}

	void BroadcastWithStats(int buffer_idx) {
	stats_keeper_.RecordSetEnd();
	vsoc::layout::screen::CompositionStats stats;
	stats_keeper_.GetLastCompositionStats(&stats);
	vsoc::screen::ScreenRegionView::GetInstance()
	->BroadcastNewFrame(static_cast<uint32_t>(buffer_idx), &stats);
	}

	int SetLayers(size_t num_layers, vsoc_hwc_layer* layers) {
	stats_keeper_.RecordSetStart();
	return composer_.SetLayers(num_layers, layers);
	}

	void Dump(char* buff, int buff_len) {
	stats_keeper_.SynchronizedDump(buff, buff_len);
	}

	private:
	StatsKeeper stats_keeper_;
	Composer composer_;
	};

	} // namespace cvd