services/audioflinger/FastMixer.h - android_frameworks_av - Gitiles

 /*
  * Copyright (C) 2012 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.
  */

 #ifndef ANDROID_AUDIO_FAST_MIXER_H
 #define ANDROID_AUDIO_FAST_MIXER_H

 #include <utils/Thread.h>
 extern "C" {
 #include "../private/bionic_futex.h"
 }
 #include "StateQueue.h"
 #include "FastMixerState.h"

 namespace android {

 typedef StateQueue<FastMixerState> FastMixerStateQueue;

 class FastMixer : public Thread {

 public:
             FastMixer() : Thread(false /*canCallJava*/) { }
     virtual ~FastMixer() { }

             FastMixerStateQueue* sq() { return &mSQ; }

 private:
     virtual bool                threadLoop();
             FastMixerStateQueue mSQ;

 };  // class FastMixer

 // Represents the dump state of a fast track
 struct FastTrackDump {
     FastTrackDump() : mUnderruns(0) { }
     /*virtual*/ ~FastTrackDump() { }
     uint32_t mUnderruns;        // Underrun status, represented as follows:
                                 //   bit 0 == 0 means not currently in underrun
                                 //   bit 0 == 1 means currently in underrun
                                 //   bits 1 to 31 == total number of underruns
                                 // Not reset to zero for new tracks or if track generation changes.
                                 // This representation is used to keep the information atomic.
 };

 // The FastMixerDumpState keeps a cache of FastMixer statistics that can be logged by dumpsys.
 // Each individual native word-sized field is accessed atomically.  But the
 // overall structure is non-atomic, that is there may be an inconsistency between fields.
 // No barriers or locks are used for either writing or reading.
 // Only POD types are permitted, and the contents shouldn't be trusted (i.e. do range checks).
 // It has a different lifetime than the FastMixer, and so it can't be a member of FastMixer.
 struct FastMixerDumpState {
     FastMixerDumpState();
     /*virtual*/ ~FastMixerDumpState();

     void dump(int fd);          // should only be called on a stable copy, not the original

     FastMixerState::Command mCommand;   // current command
     uint32_t mWriteSequence;    // incremented before and after each write()
     uint32_t mFramesWritten;    // total number of frames written successfully
     uint32_t mNumTracks;        // total number of active fast tracks
     uint32_t mWriteErrors;      // total number of write() errors
     uint32_t mUnderruns;        // total number of underruns
     uint32_t mOverruns;         // total number of overruns
     uint32_t mSampleRate;
     size_t   mFrameCount;
     struct timespec mMeasuredWarmupTs;  // measured warmup time
     uint32_t mWarmupCycles;     // number of loop cycles required to warmup
     FastTrackDump   mTracks[FastMixerState::kMaxFastTracks];

 #ifdef FAST_MIXER_STATISTICS
     // Recently collected samples of per-cycle monotonic time, thread CPU time, and CPU frequency.
     // kSamplingN is the size of the sampling frame, and must be a power of 2 <= 0x8000.
     static const uint32_t kSamplingN = 0x1000;
     // The bounds define the interval of valid samples, and are represented as follows:
     //      newest open (excluded) endpoint   = lower 16 bits of bounds, modulo N
     //      oldest closed (included) endpoint = upper 16 bits of bounds, modulo N
     // Number of valid samples is newest - oldest.
     uint32_t mBounds;                   // bounds for mMonotonicNs, mThreadCpuNs, and mCpukHz
     // The elements in the *Ns arrays are in units of nanoseconds <= 3999999999.
     uint32_t mMonotonicNs[kSamplingN];  // delta monotonic (wall clock) time
     uint32_t mLoadNs[kSamplingN];       // delta CPU load in time
     uint32_t mCpukHz[kSamplingN];       // absolute CPU clock frequency in kHz, bits 0-3 are CPU#
 #endif
 };

 }   // namespace android

 #endif  // ANDROID_AUDIO_FAST_MIXER_H
	/*
	* Copyright (C) 2012 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.
	*/

	#ifndef ANDROID_AUDIO_FAST_MIXER_H
	#define ANDROID_AUDIO_FAST_MIXER_H

	#include <utils/Thread.h>
	extern "C" {
	#include "../private/bionic_futex.h"
	}
	#include "StateQueue.h"
	#include "FastMixerState.h"

	namespace android {

	typedef StateQueue<FastMixerState> FastMixerStateQueue;

	class FastMixer : public Thread {

	public:
	FastMixer() : Thread(false /canCallJava/) { }
	virtual ~FastMixer() { }

	FastMixerStateQueue* sq() { return &mSQ; }

	private:
	virtual bool threadLoop();
	FastMixerStateQueue mSQ;

	}; // class FastMixer

	// Represents the dump state of a fast track
	struct FastTrackDump {
	FastTrackDump() : mUnderruns(0) { }
	/virtual/ ~FastTrackDump() { }
	uint32_t mUnderruns; // Underrun status, represented as follows:
	// bit 0 == 0 means not currently in underrun
	// bit 0 == 1 means currently in underrun
	// bits 1 to 31 == total number of underruns
	// Not reset to zero for new tracks or if track generation changes.
	// This representation is used to keep the information atomic.
	};

	// The FastMixerDumpState keeps a cache of FastMixer statistics that can be logged by dumpsys.
	// Each individual native word-sized field is accessed atomically. But the
	// overall structure is non-atomic, that is there may be an inconsistency between fields.
	// No barriers or locks are used for either writing or reading.
	// Only POD types are permitted, and the contents shouldn't be trusted (i.e. do range checks).
	// It has a different lifetime than the FastMixer, and so it can't be a member of FastMixer.
	struct FastMixerDumpState {
	FastMixerDumpState();
	/virtual/ ~FastMixerDumpState();

	void dump(int fd); // should only be called on a stable copy, not the original

	FastMixerState::Command mCommand; // current command
	uint32_t mWriteSequence; // incremented before and after each write()
	uint32_t mFramesWritten; // total number of frames written successfully
	uint32_t mNumTracks; // total number of active fast tracks
	uint32_t mWriteErrors; // total number of write() errors
	uint32_t mUnderruns; // total number of underruns
	uint32_t mOverruns; // total number of overruns
	uint32_t mSampleRate;
	size_t mFrameCount;
	struct timespec mMeasuredWarmupTs; // measured warmup time
	uint32_t mWarmupCycles; // number of loop cycles required to warmup
	FastTrackDump mTracks[FastMixerState::kMaxFastTracks];

	#ifdef FAST_MIXER_STATISTICS
	// Recently collected samples of per-cycle monotonic time, thread CPU time, and CPU frequency.
	// kSamplingN is the size of the sampling frame, and must be a power of 2 <= 0x8000.
	static const uint32_t kSamplingN = 0x1000;
	// The bounds define the interval of valid samples, and are represented as follows:
	// newest open (excluded) endpoint = lower 16 bits of bounds, modulo N
	// oldest closed (included) endpoint = upper 16 bits of bounds, modulo N
	// Number of valid samples is newest - oldest.
	uint32_t mBounds; // bounds for mMonotonicNs, mThreadCpuNs, and mCpukHz
	// The elements in the *Ns arrays are in units of nanoseconds <= 3999999999.
	uint32_t mMonotonicNs[kSamplingN]; // delta monotonic (wall clock) time
	uint32_t mLoadNs[kSamplingN]; // delta CPU load in time
	uint32_t mCpukHz[kSamplingN]; // absolute CPU clock frequency in kHz, bits 0-3 are CPU#
	#endif
	};

	} // namespace android

	#endif // ANDROID_AUDIO_FAST_MIXER_H