android_frameworks_base/include/private/media/AudioTrackShared.h

/*
 * Copyright (C) 2007 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_TRACK_SHARED_H
#define ANDROID_AUDIO_TRACK_SHARED_H

#include <stdint.h>
#include <sys/types.h>

#include <utils/threads.h>

namespace android {

// ----------------------------------------------------------------------------

#define THREAD_PRIORITY_AUDIO_CLIENT (ANDROID_PRIORITY_AUDIO)
// Maximum cumulated timeout milliseconds before restarting audioflinger thread
#define MAX_STARTUP_TIMEOUT_MS  3000    // Longer timeout period at startup to cope with A2DP init time
#define MAX_RUN_TIMEOUT_MS      1000
#define WAIT_PERIOD_MS          10

#define CBLK_UNDERRUN_MSK       0x0001
#define CBLK_UNDERRUN_ON        0x0001  // underrun (out) or overrrun (in) indication
#define CBLK_UNDERRUN_OFF       0x0000  // no underrun
#define CBLK_DIRECTION_MSK      0x0002
#define CBLK_DIRECTION_OUT      0x0002  // this cblk is for an AudioTrack
#define CBLK_DIRECTION_IN       0x0000  // this cblk is for an AudioRecord
#define CBLK_FORCEREADY_MSK     0x0004
#define CBLK_FORCEREADY_ON      0x0004  // track is considered ready immediately by AudioFlinger
#define CBLK_FORCEREADY_OFF     0x0000  // track is ready when buffer full
#define CBLK_INVALID_MSK        0x0008
#define CBLK_INVALID_ON         0x0008  // track buffer is invalidated by AudioFlinger: must be re-created
#define CBLK_INVALID_OFF        0x0000

struct audio_track_cblk_t
{

    // The data members are grouped so that members accessed frequently and in the same context
    // are in the same line of data cache.
                Mutex       lock;
                Condition   cv;
    volatile    uint32_t    user;
    volatile    uint32_t    server;
                uint32_t    userBase;
                uint32_t    serverBase;
                void*       buffers;
                uint32_t    frameCount;
                // Cache line boundary
                uint32_t    loopStart;
                uint32_t    loopEnd;
                int         loopCount;
    volatile    union {
                    uint16_t    volume[2];
                    uint32_t    volumeLR;
                };
                uint32_t    sampleRate;
                // NOTE: audio_track_cblk_t::frameSize is not equal to AudioTrack::frameSize() for
                // 8 bit PCM data: in this case,  mCblk->frameSize is based on a sample size of
                // 16 bit because data is converted to 16 bit before being stored in buffer

                uint8_t     frameSize;
                uint8_t     channelCount;
                uint16_t    flags;

                uint16_t    bufferTimeoutMs; // Maximum cumulated timeout before restarting audioflinger
                uint16_t    waitTimeMs;      // Cumulated wait time

                uint32_t    reserved;
                // Cache line boundary (32 bytes)
                            audio_track_cblk_t();
                uint32_t    stepUser(uint32_t frameCount);
                bool        stepServer(uint32_t frameCount);
                void*       buffer(uint32_t offset) const;
                uint32_t    framesAvailable();
                uint32_t    framesAvailable_l();
                uint32_t    framesReady();
};


// ----------------------------------------------------------------------------

}; // namespace android

#endif // ANDROID_AUDIO_TRACK_SHARED_H
auto import from //depot/cupcake/@135843 2009-03-03 19:31:44 -08:00			`/*`
			`* Copyright (C) 2007 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_TRACK_SHARED_H`
			`#define ANDROID_AUDIO_TRACK_SHARED_H`

			`#include <stdint.h>`
			`#include <sys/types.h>`

			`#include <utils/threads.h>`

			`namespace android {`

			`// ----------------------------------------------------------------------------`

			`#define THREAD_PRIORITY_AUDIO_CLIENT (ANDROID_PRIORITY_AUDIO)`
			`// Maximum cumulated timeout milliseconds before restarting audioflinger thread`
			`#define MAX_STARTUP_TIMEOUT_MS 3000 // Longer timeout period at startup to cope with A2DP init time`
			`#define MAX_RUN_TIMEOUT_MS 1000`
			`#define WAIT_PERIOD_MS 10`

Fix issue 2553359: Pandora does not work well with Passion deskdock / Cardock. The problem is due to a too big difference between the buffer size used at the hardware interface and at the A2DP interface. When no resampling occurs we don't notice problems but the timing is very tight. As soon as resampling is activated, the AudioTrack underruns. This is because the AudioTrack buffers are not resized when moving the AudioTrack from hardware to A2DP output. The AudioTrack buffers are calculated based on a hardware output buffer size of 3072 bytes. Which is much less than the A2DP output buffer size (10240). The solution consists in creating new tracks with new buffers in AudioFlinger when the A2DP output is opened instead of just transfering active tracks from hardware output mixer thread to the new A2DP output mixer thread. To avoid synchronization issues between mixer threads and client processes, this is done by invalidating tracks by setting a flag in their control block and having AudioTrack release the handle on this track (IAudioTrack) and create a new IAudioTrack when this flag is detected next time obtainBuffer() or start() is executed. AudioFlinger modifications: - invalidate the tracks when setStreamOutput() is called - make sure that notifications of output opening/closing and change of stream type to output mapping are sent synchronously to client process. This is necessary so that AudioSystem has the new stream to output mapping when the AudioTrack detects the invalidate flag in the client process. Previously their were sent when the corresponding thread loop was executed. AudioTrack modifications: - move frame count calculation and verification from set() to createTrack() so that is is updated every time a new IAudioTrack is created. - detect track invalidate flag in obtainBuffer() and start() and create a new IAudioTrack. AudioTrackShared modifications - group all flags (out, flowControlFlag, forceReady...) into a single bit filed to save space. Change-Id: I9ac26b6192230627d35084e1449640caaf7d56ee 2010-05-14 03:26:45 -07:00			`#define CBLK_UNDERRUN_MSK 0x0001`
			`#define CBLK_UNDERRUN_ON 0x0001 // underrun (out) or overrrun (in) indication`
			`#define CBLK_UNDERRUN_OFF 0x0000 // no underrun`
			`#define CBLK_DIRECTION_MSK 0x0002`
			`#define CBLK_DIRECTION_OUT 0x0002 // this cblk is for an AudioTrack`
			`#define CBLK_DIRECTION_IN 0x0000 // this cblk is for an AudioRecord`
			`#define CBLK_FORCEREADY_MSK 0x0004`
			`#define CBLK_FORCEREADY_ON 0x0004 // track is considered ready immediately by AudioFlinger`
			`#define CBLK_FORCEREADY_OFF 0x0000 // track is ready when buffer full`
			`#define CBLK_INVALID_MSK 0x0008`
			`#define CBLK_INVALID_ON 0x0008 // track buffer is invalidated by AudioFlinger: must be re-created`
			`#define CBLK_INVALID_OFF 0x0000`
auto import from //depot/cupcake/@135843 2009-03-03 19:31:44 -08:00
			`struct audio_track_cblk_t`
			`{`

			`// The data members are grouped so that members accessed frequently and in the same context`
			`// are in the same line of data cache.`
			`Mutex lock;`
			`Condition cv;`
			`volatile uint32_t user;`
			`volatile uint32_t server;`
			`uint32_t userBase;`
			`uint32_t serverBase;`
Fix issue 2553359: Pandora does not work well with Passion deskdock / Cardock. The problem is due to a too big difference between the buffer size used at the hardware interface and at the A2DP interface. When no resampling occurs we don't notice problems but the timing is very tight. As soon as resampling is activated, the AudioTrack underruns. This is because the AudioTrack buffers are not resized when moving the AudioTrack from hardware to A2DP output. The AudioTrack buffers are calculated based on a hardware output buffer size of 3072 bytes. Which is much less than the A2DP output buffer size (10240). The solution consists in creating new tracks with new buffers in AudioFlinger when the A2DP output is opened instead of just transfering active tracks from hardware output mixer thread to the new A2DP output mixer thread. To avoid synchronization issues between mixer threads and client processes, this is done by invalidating tracks by setting a flag in their control block and having AudioTrack release the handle on this track (IAudioTrack) and create a new IAudioTrack when this flag is detected next time obtainBuffer() or start() is executed. AudioFlinger modifications: - invalidate the tracks when setStreamOutput() is called - make sure that notifications of output opening/closing and change of stream type to output mapping are sent synchronously to client process. This is necessary so that AudioSystem has the new stream to output mapping when the AudioTrack detects the invalidate flag in the client process. Previously their were sent when the corresponding thread loop was executed. AudioTrack modifications: - move frame count calculation and verification from set() to createTrack() so that is is updated every time a new IAudioTrack is created. - detect track invalidate flag in obtainBuffer() and start() and create a new IAudioTrack. AudioTrackShared modifications - group all flags (out, flowControlFlag, forceReady...) into a single bit filed to save space. Change-Id: I9ac26b6192230627d35084e1449640caaf7d56ee 2010-05-14 03:26:45 -07:00			`void* buffers;`
			`uint32_t frameCount;`
			`// Cache line boundary`
			`uint32_t loopStart;`
			`uint32_t loopEnd;`
			`int loopCount;`
auto import from //depot/cupcake/@135843 2009-03-03 19:31:44 -08:00			`volatile union {`
			`uint16_t volume[2];`
			`uint32_t volumeLR;`
			`};`
Fix issue 1743700: AudioTrack: setPlaybackRate can not set the playback rate to twice of the ouputSR Store sample rate on 32 bits instead of 16 bits in audio_track_cblk_t. Removed sampleRate() methods from AudioTrack and AudioRecord: replaced by getSampleRate(). AudioTrack::setSampleRate() no returns a status. 2009-07-07 07:10:45 -07:00			`uint32_t sampleRate;`
Fix issue 1795088 Improve audio routing code Initial commit for review. Integrated comments after patch set 1 review. Fixed lockup in AudioFlinger::ThreadBase::exit() Fixed lockup when playing tone with AudioPlocyService startTone() 2009-07-17 12:17:14 -07:00			`// NOTE: audio_track_cblk_t::frameSize is not equal to AudioTrack::frameSize() for`
			`// 8 bit PCM data: in this case, mCblk->frameSize is based on a sample size of`
			`// 16 bit because data is converted to 16 bit before being stored in buffer`
Fix issue 2553359: Pandora does not work well with Passion deskdock / Cardock. The problem is due to a too big difference between the buffer size used at the hardware interface and at the A2DP interface. When no resampling occurs we don't notice problems but the timing is very tight. As soon as resampling is activated, the AudioTrack underruns. This is because the AudioTrack buffers are not resized when moving the AudioTrack from hardware to A2DP output. The AudioTrack buffers are calculated based on a hardware output buffer size of 3072 bytes. Which is much less than the A2DP output buffer size (10240). The solution consists in creating new tracks with new buffers in AudioFlinger when the A2DP output is opened instead of just transfering active tracks from hardware output mixer thread to the new A2DP output mixer thread. To avoid synchronization issues between mixer threads and client processes, this is done by invalidating tracks by setting a flag in their control block and having AudioTrack release the handle on this track (IAudioTrack) and create a new IAudioTrack when this flag is detected next time obtainBuffer() or start() is executed. AudioFlinger modifications: - invalidate the tracks when setStreamOutput() is called - make sure that notifications of output opening/closing and change of stream type to output mapping are sent synchronously to client process. This is necessary so that AudioSystem has the new stream to output mapping when the AudioTrack detects the invalidate flag in the client process. Previously their were sent when the corresponding thread loop was executed. AudioTrack modifications: - move frame count calculation and verification from set() to createTrack() so that is is updated every time a new IAudioTrack is created. - detect track invalidate flag in obtainBuffer() and start() and create a new IAudioTrack. AudioTrackShared modifications - group all flags (out, flowControlFlag, forceReady...) into a single bit filed to save space. Change-Id: I9ac26b6192230627d35084e1449640caaf7d56ee 2010-05-14 03:26:45 -07:00
			`uint8_t frameSize;`
AudioFlinger: rename variables to clarify reference to track channel count or channel mask Some variables and structure members should be renamed to reflect the fact that they contain the number of channels in a track (channel count) or the actual channels used by a track (channel mask). Especially member "channels" of track control block (struct audio_track_cblk_t) is actually the number of channels (channels count). Change-Id: I220c8dede9fc00c8a5693389e790073b6ed307b8 2010-05-14 05:45:46 -07:00			`uint8_t channelCount;`
Fix issue 2553359: Pandora does not work well with Passion deskdock / Cardock. The problem is due to a too big difference between the buffer size used at the hardware interface and at the A2DP interface. When no resampling occurs we don't notice problems but the timing is very tight. As soon as resampling is activated, the AudioTrack underruns. This is because the AudioTrack buffers are not resized when moving the AudioTrack from hardware to A2DP output. The AudioTrack buffers are calculated based on a hardware output buffer size of 3072 bytes. Which is much less than the A2DP output buffer size (10240). The solution consists in creating new tracks with new buffers in AudioFlinger when the A2DP output is opened instead of just transfering active tracks from hardware output mixer thread to the new A2DP output mixer thread. To avoid synchronization issues between mixer threads and client processes, this is done by invalidating tracks by setting a flag in their control block and having AudioTrack release the handle on this track (IAudioTrack) and create a new IAudioTrack when this flag is detected next time obtainBuffer() or start() is executed. AudioFlinger modifications: - invalidate the tracks when setStreamOutput() is called - make sure that notifications of output opening/closing and change of stream type to output mapping are sent synchronously to client process. This is necessary so that AudioSystem has the new stream to output mapping when the AudioTrack detects the invalidate flag in the client process. Previously their were sent when the corresponding thread loop was executed. AudioTrack modifications: - move frame count calculation and verification from set() to createTrack() so that is is updated every time a new IAudioTrack is created. - detect track invalidate flag in obtainBuffer() and start() and create a new IAudioTrack. AudioTrackShared modifications - group all flags (out, flowControlFlag, forceReady...) into a single bit filed to save space. Change-Id: I9ac26b6192230627d35084e1449640caaf7d56ee 2010-05-14 03:26:45 -07:00			`uint16_t flags;`

auto import from //depot/cupcake/@135843 2009-03-03 19:31:44 -08:00			`uint16_t bufferTimeoutMs; // Maximum cumulated timeout before restarting audioflinger`
			`uint16_t waitTimeMs; // Cumulated wait time`
Fix issue 1795088 Improve audio routing code Initial commit for review. Integrated comments after patch set 1 review. Fixed lockup in AudioFlinger::ThreadBase::exit() Fixed lockup when playing tone with AudioPlocyService startTone() 2009-07-17 12:17:14 -07:00
Fix issue 2553359: Pandora does not work well with Passion deskdock / Cardock. The problem is due to a too big difference between the buffer size used at the hardware interface and at the A2DP interface. When no resampling occurs we don't notice problems but the timing is very tight. As soon as resampling is activated, the AudioTrack underruns. This is because the AudioTrack buffers are not resized when moving the AudioTrack from hardware to A2DP output. The AudioTrack buffers are calculated based on a hardware output buffer size of 3072 bytes. Which is much less than the A2DP output buffer size (10240). The solution consists in creating new tracks with new buffers in AudioFlinger when the A2DP output is opened instead of just transfering active tracks from hardware output mixer thread to the new A2DP output mixer thread. To avoid synchronization issues between mixer threads and client processes, this is done by invalidating tracks by setting a flag in their control block and having AudioTrack release the handle on this track (IAudioTrack) and create a new IAudioTrack when this flag is detected next time obtainBuffer() or start() is executed. AudioFlinger modifications: - invalidate the tracks when setStreamOutput() is called - make sure that notifications of output opening/closing and change of stream type to output mapping are sent synchronously to client process. This is necessary so that AudioSystem has the new stream to output mapping when the AudioTrack detects the invalidate flag in the client process. Previously their were sent when the corresponding thread loop was executed. AudioTrack modifications: - move frame count calculation and verification from set() to createTrack() so that is is updated every time a new IAudioTrack is created. - detect track invalidate flag in obtainBuffer() and start() and create a new IAudioTrack. AudioTrackShared modifications - group all flags (out, flowControlFlag, forceReady...) into a single bit filed to save space. Change-Id: I9ac26b6192230627d35084e1449640caaf7d56ee 2010-05-14 03:26:45 -07:00			`uint32_t reserved;`
			`// Cache line boundary (32 bytes)`
auto import from //depot/cupcake/@135843 2009-03-03 19:31:44 -08:00			`audio_track_cblk_t();`
			`uint32_t stepUser(uint32_t frameCount);`
			`bool stepServer(uint32_t frameCount);`
			`void* buffer(uint32_t offset) const;`
			`uint32_t framesAvailable();`
			`uint32_t framesAvailable_l();`
			`uint32_t framesReady();`
			`};`


			`// ----------------------------------------------------------------------------`

			`}; // namespace android`

			`#endif // ANDROID_AUDIO_TRACK_SHARED_H`