include/media/nbaio/MonoPipe.h - third_party/android/platform/frameworks/av - Git at Google

 /*
  * 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_MONO_PIPE_H
 #define ANDROID_AUDIO_MONO_PIPE_H

 #include <time.h>
 #include "NBAIO.h"
 #include <media/SingleStateQueue.h>

 namespace android {

 typedef SingleStateQueue<ExtendedTimestamp> ExtendedTimestampSingleStateQueue;

 // MonoPipe is similar to Pipe except:
 //  - supports only a single reader, called MonoPipeReader
 //  - write() cannot overrun; instead it will return a short actual count if insufficient space
 //  - write() can optionally block if the pipe is full
 // Like Pipe, it is not multi-thread safe for either writer or reader
 // but writer and reader can be different threads.
 class MonoPipe : public NBAIO_Sink {

     friend class MonoPipeReader;

 public:
     // reqFrames will be rounded up to a power of 2, and all slots are available. Must be >= 2.
     // Note: whatever shares this object with another thread needs to do so in an SMP-safe way (like
     // creating it the object before creating the other thread, or storing the object with a
     // release_store). Otherwise the other thread could see a partially-constructed object.
     MonoPipe(size_t reqFrames, const NBAIO_Format& format, bool writeCanBlock = false);
     virtual ~MonoPipe();

     // NBAIO_Port interface

     //virtual ssize_t negotiate(const NBAIO_Format offers[], size_t numOffers,
     //                          NBAIO_Format counterOffers[], size_t& numCounterOffers);
     //virtual NBAIO_Format format() const;

     // NBAIO_Sink interface

     //virtual int64_t framesWritten() const;
     //virtual int64_t framesUnderrun() const;
     //virtual int64_t underruns() const;

     virtual ssize_t availableToWrite() const;
     virtual ssize_t write(const void *buffer, size_t count);
     //virtual ssize_t writeVia(writeVia_t via, size_t total, void *user, size_t block);

             // average number of frames present in the pipe under normal conditions.
             // See throttling mechanism in MonoPipe::write()
             size_t  getAvgFrames() const { return mSetpoint; }
             void    setAvgFrames(size_t setpoint);
             size_t  maxFrames() const { return mMaxFrames; }

             // Set the shutdown state for the write side of a pipe.
             // This may be called by an unrelated thread.  When shutdown state is 'true',
             // a write that would otherwise block instead returns a short transfer count.
             // There is no guarantee how long it will take for the shutdown to be recognized,
             // but it will not be an unbounded amount of time.
             // The state can be restored to normal by calling shutdown(false).
             void    shutdown(bool newState = true);

             // Return true if the write side of a pipe is currently shutdown.
             bool    isShutdown();

             // Return NO_ERROR if there is a timestamp available
             status_t getTimestamp(ExtendedTimestamp &timestamp);

 private:
     const size_t    mReqFrames;     // as requested in constructor, unrounded
     const size_t    mMaxFrames;     // always a power of 2
     void * const    mBuffer;
     // mFront and mRear will never be separated by more than mMaxFrames.
     // 32-bit overflow is possible if the pipe is active for a long time, but if that happens it's
     // safe because we "&" with (mMaxFrames-1) at end of computations to calculate a buffer index.
     volatile int32_t mFront;        // written by reader with android_atomic_release_store,
                                     // read by writer with android_atomic_acquire_load
     volatile int32_t mRear;         // written by writer with android_atomic_release_store,
                                     // read by reader with android_atomic_acquire_load
     bool            mWriteTsValid;  // whether mWriteTs is valid
     struct timespec mWriteTs;       // time that the previous write() completed
     size_t          mSetpoint;      // target value for pipe fill depth
     const bool      mWriteCanBlock; // whether write() should block if the pipe is full

     bool            mIsShutdown;    // whether shutdown(true) was called, no barriers are needed

     ExtendedTimestampSingleStateQueue::Shared      mTimestampShared;
     ExtendedTimestampSingleStateQueue::Mutator     mTimestampMutator;
     ExtendedTimestampSingleStateQueue::Observer    mTimestampObserver;
 };

 }   // namespace android

 #endif  // ANDROID_AUDIO_MONO_PIPE_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_MONO_PIPE_H
	#define ANDROID_AUDIO_MONO_PIPE_H

	#include <time.h>
	#include "NBAIO.h"
	#include <media/SingleStateQueue.h>

	namespace android {

	typedef SingleStateQueue<ExtendedTimestamp> ExtendedTimestampSingleStateQueue;

	// MonoPipe is similar to Pipe except:
	// - supports only a single reader, called MonoPipeReader
	// - write() cannot overrun; instead it will return a short actual count if insufficient space
	// - write() can optionally block if the pipe is full
	// Like Pipe, it is not multi-thread safe for either writer or reader
	// but writer and reader can be different threads.
	class MonoPipe : public NBAIO_Sink {

	friend class MonoPipeReader;

	public:
	// reqFrames will be rounded up to a power of 2, and all slots are available. Must be >= 2.
	// Note: whatever shares this object with another thread needs to do so in an SMP-safe way (like
	// creating it the object before creating the other thread, or storing the object with a
	// release_store). Otherwise the other thread could see a partially-constructed object.
	MonoPipe(size_t reqFrames, const NBAIO_Format& format, bool writeCanBlock = false);
	virtual ~MonoPipe();

	// NBAIO_Port interface

	//virtual ssize_t negotiate(const NBAIO_Format offers[], size_t numOffers,
	// NBAIO_Format counterOffers[], size_t& numCounterOffers);
	//virtual NBAIO_Format format() const;

	// NBAIO_Sink interface

	//virtual int64_t framesWritten() const;
	//virtual int64_t framesUnderrun() const;
	//virtual int64_t underruns() const;

	virtual ssize_t availableToWrite() const;
	virtual ssize_t write(const void *buffer, size_t count);
	//virtual ssize_t writeVia(writeVia_t via, size_t total, void *user, size_t block);

	// average number of frames present in the pipe under normal conditions.
	// See throttling mechanism in MonoPipe::write()
	size_t getAvgFrames() const { return mSetpoint; }
	void setAvgFrames(size_t setpoint);
	size_t maxFrames() const { return mMaxFrames; }

	// Set the shutdown state for the write side of a pipe.
	// This may be called by an unrelated thread. When shutdown state is 'true',
	// a write that would otherwise block instead returns a short transfer count.
	// There is no guarantee how long it will take for the shutdown to be recognized,
	// but it will not be an unbounded amount of time.
	// The state can be restored to normal by calling shutdown(false).
	void shutdown(bool newState = true);

	// Return true if the write side of a pipe is currently shutdown.
	bool isShutdown();

	// Return NO_ERROR if there is a timestamp available
	status_t getTimestamp(ExtendedTimestamp &timestamp);

	private:
	const size_t mReqFrames; // as requested in constructor, unrounded
	const size_t mMaxFrames; // always a power of 2
	void * const mBuffer;
	// mFront and mRear will never be separated by more than mMaxFrames.
	// 32-bit overflow is possible if the pipe is active for a long time, but if that happens it's
	// safe because we "&" with (mMaxFrames-1) at end of computations to calculate a buffer index.
	volatile int32_t mFront; // written by reader with android_atomic_release_store,
	// read by writer with android_atomic_acquire_load
	volatile int32_t mRear; // written by writer with android_atomic_release_store,
	// read by reader with android_atomic_acquire_load
	bool mWriteTsValid; // whether mWriteTs is valid
	struct timespec mWriteTs; // time that the previous write() completed
	size_t mSetpoint; // target value for pipe fill depth
	const bool mWriteCanBlock; // whether write() should block if the pipe is full

	bool mIsShutdown; // whether shutdown(true) was called, no barriers are needed

	ExtendedTimestampSingleStateQueue::Shared mTimestampShared;
	ExtendedTimestampSingleStateQueue::Mutator mTimestampMutator;
	ExtendedTimestampSingleStateQueue::Observer mTimestampObserver;
	};

	} // namespace android

	#endif // ANDROID_AUDIO_MONO_PIPE_H