media/libnbaio/MonoPipe.cpp - 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.
  */

 #include <inttypes.h>

 #define LOG_TAG "MonoPipe"
 //#define LOG_NDEBUG 0

 #include <cutils/atomic.h>
 #include <cutils/compiler.h>
 #include <utils/Log.h>
 #include <utils/Trace.h>
 #include <media/AudioBufferProvider.h>
 #include <media/nbaio/MonoPipe.h>
 #include <audio_utils/roundup.h>


 namespace android {

 MonoPipe::MonoPipe(size_t reqFrames, const NBAIO_Format& format, bool writeCanBlock) :
         NBAIO_Sink(format),
         mReqFrames(reqFrames),
         mMaxFrames(roundup(reqFrames)),
         mBuffer(malloc(mMaxFrames * Format_frameSize(format))),
         mFront(0),
         mRear(0),
         mWriteTsValid(false),
         // mWriteTs
         mSetpoint((reqFrames * 11) / 16),
         mWriteCanBlock(writeCanBlock),
         mIsShutdown(false),
         // mTimestampShared
         mTimestampMutator(&mTimestampShared),
         mTimestampObserver(&mTimestampShared)
 {
 }

 MonoPipe::~MonoPipe()
 {
     free(mBuffer);
 }

 ssize_t MonoPipe::availableToWrite() const
 {
     if (CC_UNLIKELY(!mNegotiated)) {
         return NEGOTIATE;
     }
     // uses mMaxFrames not mReqFrames, so allows "over-filling" the pipe beyond requested limit
     ssize_t ret = mMaxFrames - (mRear - android_atomic_acquire_load(&mFront));
     ALOG_ASSERT((0 <= ret) && (ret <= mMaxFrames));
     return ret;
 }

 ssize_t MonoPipe::write(const void *buffer, size_t count)
 {
     if (CC_UNLIKELY(!mNegotiated)) {
         return NEGOTIATE;
     }
     size_t totalFramesWritten = 0;
     while (count > 0) {
         // can't return a negative value, as we already checked for !mNegotiated
         size_t avail = availableToWrite();
         size_t written = avail;
         if (CC_LIKELY(written > count)) {
             written = count;
         }
         size_t rear = mRear & (mMaxFrames - 1);
         size_t part1 = mMaxFrames - rear;
         if (part1 > written) {
             part1 = written;
         }
         if (CC_LIKELY(part1 > 0)) {
             memcpy((char *) mBuffer + (rear * mFrameSize), buffer, part1 * mFrameSize);
             if (CC_UNLIKELY(rear + part1 == mMaxFrames)) {
                 size_t part2 = written - part1;
                 if (CC_LIKELY(part2 > 0)) {
                     memcpy(mBuffer, (char *) buffer + (part1 * mFrameSize), part2 * mFrameSize);
                 }
             }
             android_atomic_release_store(written + mRear, &mRear);
             totalFramesWritten += written;
         }
         if (!mWriteCanBlock || mIsShutdown) {
             break;
         }
         count -= written;
         buffer = (char *) buffer + (written * mFrameSize);
         // Simulate blocking I/O by sleeping at different rates, depending on a throttle.
         // The throttle tries to keep the mean pipe depth near the setpoint, with a slight jitter.
         uint32_t ns;
         if (written > 0) {
             size_t filled = (mMaxFrames - avail) + written;
             // FIXME cache these values to avoid re-computation
             if (filled <= mSetpoint / 2) {
                 // pipe is (nearly) empty, fill quickly
                 ns = written * ( 500000000 / Format_sampleRate(mFormat));
             } else if (filled <= (mSetpoint * 3) / 4) {
                 // pipe is below setpoint, fill at slightly faster rate
                 ns = written * ( 750000000 / Format_sampleRate(mFormat));
             } else if (filled <= (mSetpoint * 5) / 4) {
                 // pipe is at setpoint, fill at nominal rate
                 ns = written * (1000000000 / Format_sampleRate(mFormat));
             } else if (filled <= (mSetpoint * 3) / 2) {
                 // pipe is above setpoint, fill at slightly slower rate
                 ns = written * (1150000000 / Format_sampleRate(mFormat));
             } else if (filled <= (mSetpoint * 7) / 4) {
                 // pipe is overflowing, fill slowly
                 ns = written * (1350000000 / Format_sampleRate(mFormat));
             } else {
                 // pipe is severely overflowing
                 ns = written * (1750000000 / Format_sampleRate(mFormat));
             }
         } else {
             ns = count * (1350000000 / Format_sampleRate(mFormat));
         }
         if (ns > 999999999) {
             ns = 999999999;
         }
         struct timespec nowTs;
         bool nowTsValid = !clock_gettime(CLOCK_MONOTONIC, &nowTs);
         // deduct the elapsed time since previous write() completed
         if (nowTsValid && mWriteTsValid) {
             time_t sec = nowTs.tv_sec - mWriteTs.tv_sec;
             long nsec = nowTs.tv_nsec - mWriteTs.tv_nsec;
             ALOGE_IF(sec < 0 || (sec == 0 && nsec < 0),
                     "clock_gettime(CLOCK_MONOTONIC) failed: was %ld.%09ld but now %ld.%09ld",
                     mWriteTs.tv_sec, mWriteTs.tv_nsec, nowTs.tv_sec, nowTs.tv_nsec);
             if (nsec < 0) {
                 --sec;
                 nsec += 1000000000;
             }
             if (sec == 0) {
                 if ((long) ns > nsec) {
                     ns -= nsec;
                 } else {
                     ns = 0;
                 }
             }
         }
         if (ns > 0) {
             const struct timespec req = {0, static_cast<long>(ns)};
             nanosleep(&req, NULL);
         }
         // record the time that this write() completed
         if (nowTsValid) {
             mWriteTs = nowTs;
             if ((mWriteTs.tv_nsec += ns) >= 1000000000) {
                 mWriteTs.tv_nsec -= 1000000000;
                 ++mWriteTs.tv_sec;
             }
         }
         mWriteTsValid = nowTsValid;
     }
     mFramesWritten += totalFramesWritten;
     return totalFramesWritten;
 }

 void MonoPipe::setAvgFrames(size_t setpoint)
 {
     mSetpoint = setpoint;
 }

 void MonoPipe::shutdown(bool newState)
 {
     mIsShutdown = newState;
 }

 bool MonoPipe::isShutdown()
 {
     return mIsShutdown;
 }

 status_t MonoPipe::getTimestamp(ExtendedTimestamp &timestamp)
 {
     ExtendedTimestamp ets;
     if (mTimestampObserver.poll(ets)) {
         timestamp.mPosition[ExtendedTimestamp::LOCATION_KERNEL] =
                 ets.mPosition[ExtendedTimestamp::LOCATION_KERNEL];
         timestamp.mTimeNs[ExtendedTimestamp::LOCATION_KERNEL] =
                 ets.mTimeNs[ExtendedTimestamp::LOCATION_KERNEL];
         return OK;
     }
     return INVALID_OPERATION;
 }

 }   // namespace android
	/*
	* 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.
	*/

	#include <inttypes.h>

	#define LOG_TAG "MonoPipe"
	//#define LOG_NDEBUG 0

	#include <cutils/atomic.h>
	#include <cutils/compiler.h>
	#include <utils/Log.h>
	#include <utils/Trace.h>
	#include <media/AudioBufferProvider.h>
	#include <media/nbaio/MonoPipe.h>
	#include <audio_utils/roundup.h>


	namespace android {

	MonoPipe::MonoPipe(size_t reqFrames, const NBAIO_Format& format, bool writeCanBlock) :
	NBAIO_Sink(format),
	mReqFrames(reqFrames),
	mMaxFrames(roundup(reqFrames)),
	mBuffer(malloc(mMaxFrames * Format_frameSize(format))),
	mFront(0),
	mRear(0),
	mWriteTsValid(false),
	// mWriteTs
	mSetpoint((reqFrames * 11) / 16),
	mWriteCanBlock(writeCanBlock),
	mIsShutdown(false),
	// mTimestampShared
	mTimestampMutator(&mTimestampShared),
	mTimestampObserver(&mTimestampShared)
	{
	}

	MonoPipe::~MonoPipe()
	{
	free(mBuffer);
	}

	ssize_t MonoPipe::availableToWrite() const
	{
	if (CC_UNLIKELY(!mNegotiated)) {
	return NEGOTIATE;
	}
	// uses mMaxFrames not mReqFrames, so allows "over-filling" the pipe beyond requested limit
	ssize_t ret = mMaxFrames - (mRear - android_atomic_acquire_load(&mFront));
	ALOG_ASSERT((0 <= ret) && (ret <= mMaxFrames));
	return ret;
	}

	ssize_t MonoPipe::write(const void *buffer, size_t count)
	{
	if (CC_UNLIKELY(!mNegotiated)) {
	return NEGOTIATE;
	}
	size_t totalFramesWritten = 0;
	while (count > 0) {
	// can't return a negative value, as we already checked for !mNegotiated
	size_t avail = availableToWrite();
	size_t written = avail;
	if (CC_LIKELY(written > count)) {
	written = count;
	}
	size_t rear = mRear & (mMaxFrames - 1);
	size_t part1 = mMaxFrames - rear;
	if (part1 > written) {
	part1 = written;
	}
	if (CC_LIKELY(part1 > 0)) {
	memcpy((char ) mBuffer + (rear mFrameSize), buffer, part1 * mFrameSize);
	if (CC_UNLIKELY(rear + part1 == mMaxFrames)) {
	size_t part2 = written - part1;
	if (CC_LIKELY(part2 > 0)) {
	memcpy(mBuffer, (char ) buffer + (part1 mFrameSize), part2 * mFrameSize);
	}
	}
	android_atomic_release_store(written + mRear, &mRear);
	totalFramesWritten += written;
	}
	if (!mWriteCanBlock \|\| mIsShutdown) {
	break;
	}
	count -= written;
	buffer = (char ) buffer + (written mFrameSize);
	// Simulate blocking I/O by sleeping at different rates, depending on a throttle.
	// The throttle tries to keep the mean pipe depth near the setpoint, with a slight jitter.
	uint32_t ns;
	if (written > 0) {
	size_t filled = (mMaxFrames - avail) + written;
	// FIXME cache these values to avoid re-computation
	if (filled <= mSetpoint / 2) {
	// pipe is (nearly) empty, fill quickly
	ns = written * ( 500000000 / Format_sampleRate(mFormat));
	} else if (filled <= (mSetpoint * 3) / 4) {
	// pipe is below setpoint, fill at slightly faster rate
	ns = written * ( 750000000 / Format_sampleRate(mFormat));
	} else if (filled <= (mSetpoint * 5) / 4) {
	// pipe is at setpoint, fill at nominal rate
	ns = written * (1000000000 / Format_sampleRate(mFormat));
	} else if (filled <= (mSetpoint * 3) / 2) {
	// pipe is above setpoint, fill at slightly slower rate
	ns = written * (1150000000 / Format_sampleRate(mFormat));
	} else if (filled <= (mSetpoint * 7) / 4) {
	// pipe is overflowing, fill slowly
	ns = written * (1350000000 / Format_sampleRate(mFormat));
	} else {
	// pipe is severely overflowing
	ns = written * (1750000000 / Format_sampleRate(mFormat));
	}
	} else {
	ns = count * (1350000000 / Format_sampleRate(mFormat));
	}
	if (ns > 999999999) {
	ns = 999999999;
	}
	struct timespec nowTs;
	bool nowTsValid = !clock_gettime(CLOCK_MONOTONIC, &nowTs);
	// deduct the elapsed time since previous write() completed
	if (nowTsValid && mWriteTsValid) {
	time_t sec = nowTs.tv_sec - mWriteTs.tv_sec;
	long nsec = nowTs.tv_nsec - mWriteTs.tv_nsec;
	ALOGE_IF(sec < 0 \|\| (sec == 0 && nsec < 0),
	"clock_gettime(CLOCK_MONOTONIC) failed: was %ld.%09ld but now %ld.%09ld",
	mWriteTs.tv_sec, mWriteTs.tv_nsec, nowTs.tv_sec, nowTs.tv_nsec);
	if (nsec < 0) {
	--sec;
	nsec += 1000000000;
	}
	if (sec == 0) {
	if ((long) ns > nsec) {
	ns -= nsec;
	} else {
	ns = 0;
	}
	}
	}
	if (ns > 0) {
	const struct timespec req = {0, static_cast<long>(ns)};
	nanosleep(&req, NULL);
	}
	// record the time that this write() completed
	if (nowTsValid) {
	mWriteTs = nowTs;
	if ((mWriteTs.tv_nsec += ns) >= 1000000000) {
	mWriteTs.tv_nsec -= 1000000000;
	++mWriteTs.tv_sec;
	}
	}
	mWriteTsValid = nowTsValid;
	}
	mFramesWritten += totalFramesWritten;
	return totalFramesWritten;
	}

	void MonoPipe::setAvgFrames(size_t setpoint)
	{
	mSetpoint = setpoint;
	}

	void MonoPipe::shutdown(bool newState)
	{
	mIsShutdown = newState;
	}

	bool MonoPipe::isShutdown()
	{
	return mIsShutdown;
	}

	status_t MonoPipe::getTimestamp(ExtendedTimestamp &timestamp)
	{
	ExtendedTimestamp ets;
	if (mTimestampObserver.poll(ets)) {
	timestamp.mPosition[ExtendedTimestamp::LOCATION_KERNEL] =
	ets.mPosition[ExtendedTimestamp::LOCATION_KERNEL];
	timestamp.mTimeNs[ExtendedTimestamp::LOCATION_KERNEL] =
	ets.mTimeNs[ExtendedTimestamp::LOCATION_KERNEL];
	return OK;
	}
	return INVALID_OPERATION;
	}

	} // namespace android