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android / platform / external / opencore / c5359cc44c582cd0acf6281b10404fe596b60213 / . / android / android_audio_mio.h
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/*
**
** Copyright 2008, 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_MIO_H
#define ANDROID_AUDIO_MIO_H
#ifndef PVMI_MIO_CONTROL_H_INCLUDED
#include "pvmi_mio_control.h"
#endif
#ifndef PVMI_MEDIA_TRANSFER_H_INCLUDED
#include "pvmi_media_transfer.h"
#endif
#ifndef OSCL_SCHEDULER_AO_H_INCLUDED
#include "oscl_scheduler_ao.h"
#endif
#ifndef PVMI_MEDIA_IO_OBSERVER_H_INCLUDED
#include "pvmi_media_io_observer.h"
#endif
#ifndef OSCL_FILE_IO_H_INCLUDED
#include "oscl_file_io.h"
#endif
#ifndef PVMI_CONFIG_AND_CAPABILITY_H_INCLUDED
#include "pvmi_config_and_capability.h"
#endif
#ifndef OSCL_STRING_CONTAINERS_H_INCLUDED
#include "oscl_string_containers.h"
#endif
#ifndef PVMI_MEDIA_IO_CLOCK_EXTENSION_H_INCLUDED
#include "pvmi_media_io_clock_extension.h"
#endif
#ifndef ANDROID_AUDIO_OUTPUT_THREADSAFE_CALLBACK_AO_H_INCLUDED
#include "android_audio_output_threadsafe_callbacks.h"
#endif
#ifndef PVMF_MEDIA_CLOCK_H_INCLUDED
#include "pvmf_media_clock.h"
#endif
#ifdef PERFORMANCE_MEASUREMENTS_ENABLED
#ifndef _PVPROFILE_H
#include "pvprofile.h"
#endif
#endif
#include <media/MediaPlayerInterface.h>
class PVLogger;
class PVMFMediaClock;
using namespace android;
// Write command handling
// the audio output thread queues the responses, this mio dequeues and processes them
class WriteResponse
{
public:
WriteResponse(PVMFStatus s, PVMFCommandId id, const OsclAny* ctx, const PVMFTimestamp& ts) :
iStatus(s), iCmdId(id), iContext(ctx), iTimestamp(ts)
{}
PVMFStatus iStatus;
PVMFCommandId iCmdId;
const OsclAny* iContext;
PVMFTimestamp iTimestamp;
};
// Active timing support
class AndroidAudioMIOActiveTimingSupport :
public PvmiClockExtensionInterface, public PVMFMediaClockStateObserver
{
public:
AndroidAudioMIOActiveTimingSupport(int32 minCorrection=0, int32 maxCorrection=0) :
iClock(NULL),
iClockNotificationsInf(NULL),
iClockState(PVMFMediaClock::STOPPED),
iAudioThreadSem(0),
iStartTime(0),
iFrameCount(0),
iMsecsPerFrame(25),
iDriverLatency(0),
iUpdateClock(true),
iMinCorrection(minCorrection),
iMaxCorrection(maxCorrection)
{
}
~AndroidAudioMIOActiveTimingSupport()
{
if (iClock && iClockNotificationsInf)
{
iClockNotificationsInf->RemoveClockStateObserver(*this);
iClock->DestroyMediaClockNotificationsInterface(iClockNotificationsInf);
iClockNotificationsInf = NULL;
}
}
//from PvmiClockExtensionInterface
OSCL_IMPORT_REF PVMFStatus SetClock(PVMFMediaClock* clockVal);
// from PVMFMediaClockStateObserver
void ClockStateUpdated();
//from PVInterface
OSCL_IMPORT_REF void addRef() {}
OSCL_IMPORT_REF void removeRef() {}
OSCL_IMPORT_REF bool queryInterface(const PVUuid& uuid, PVInterface*& iface);
void NotificationsInterfaceDestroyed();
void queryUuid(PVUuid& uuid);
void ForceClockUpdate() { iUpdateClock = true; }
void UpdateClock();
PVMFMediaClock::PVMFMediaClockState clockState() { return iClockState; }
void setThreadSemaphore(OsclSemaphore* s) { iAudioThreadSem = s; }
void setDriverLatency(uint32 latency);
void incFrameCount(uint32_t numFrames) { iFrameCount += numFrames; }
void setFrameRate(float msecsPerFrame) { iMsecsPerFrame = msecsPerFrame; }
float msecsPerFrame() { return iMsecsPerFrame; }
private:
PVMFMediaClock* iClock;
PVMFMediaClockNotificationsInterface *iClockNotificationsInf;
PVMFMediaClock::PVMFMediaClockState iClockState;
OsclSemaphore* iAudioThreadSem;
uint32 iStartTime;
uint32 iFrameCount;
float iMsecsPerFrame;
uint32 iDriverLatency;
bool iUpdateClock;
int32 iMinCorrection;
int32 iMaxCorrection;
};
// Audio MIO component
class AndroidAudioMIO : public OsclTimerObject,
public PvmiMIOControl,
public PvmiMediaTransfer,
public PvmiCapabilityAndConfig
{
public:
OSCL_IMPORT_REF AndroidAudioMIO(const char* name);
OSCL_IMPORT_REF ~AndroidAudioMIO();
// APIs from PvmiMIOControl
PVMFStatus connect(PvmiMIOSession& aSession, PvmiMIOObserver* aObserver);
PVMFStatus disconnect(PvmiMIOSession aSession);
virtual PVMFCommandId QueryUUID(const PvmfMimeString& aMimeType,
Oscl_Vector<PVUuid, OsclMemAllocator>& aUuids,
bool aExactUuidsOnly=false, const OsclAny* aContext=NULL);
virtual PVMFCommandId QueryInterface(const PVUuid& aUuid, PVInterface*& aInterfacePtr, const OsclAny* aContext=NULL);
PvmiMediaTransfer* createMediaTransfer(PvmiMIOSession& aSession, PvmiKvp* read_formats=NULL, int32 read_flags=0,
PvmiKvp* write_formats=NULL, int32 write_flags=0);
void deleteMediaTransfer(PvmiMIOSession& aSession, PvmiMediaTransfer* media_transfer) {}
PVMFCommandId Init(const OsclAny* aContext=NULL);
PVMFCommandId Reset(const OsclAny* aContext=NULL);
PVMFCommandId Start(const OsclAny* aContext=NULL);
PVMFCommandId Pause(const OsclAny* aContext=NULL);
PVMFCommandId Flush(const OsclAny* aContext=NULL);
virtual PVMFCommandId DiscardData(const OsclAny* aContext=NULL);
virtual PVMFCommandId DiscardData(PVMFTimestamp aTimestamp=0, const OsclAny* aContext=NULL);
virtual PVMFCommandId Stop(const OsclAny* aContext=NULL);
virtual PVMFCommandId CancelAllCommands(const OsclAny* aContext=NULL);
virtual PVMFCommandId CancelCommand(PVMFCommandId aCmdId, const OsclAny* aContext=NULL);
virtual void cancelCommand(PVMFCommandId aCmdId) {}
void ThreadLogon();
void ThreadLogoff();
// APIs from PvmiMediaTransfer
void setPeer(PvmiMediaTransfer* aPeer);
void useMemoryAllocators(OsclMemAllocator* write_alloc=NULL) {}
PVMFCommandId writeAsync(uint8 format_type, int32 format_index,
uint8* data, uint32 data_len,
const PvmiMediaXferHeader& data_header_info,
OsclAny* aContext=NULL);
void writeComplete(PVMFStatus aStatus, PVMFCommandId write_cmd_id, OsclAny* aContext) {}
PVMFCommandId readAsync(uint8* data, uint32 max_data_len, OsclAny* aContext=NULL,
int32* formats=NULL, uint16 num_formats=0) {
OsclError::Leave(OsclErrNotSupported);
return -1;
}
void readComplete(PVMFStatus aStatus, PVMFCommandId read_cmd_id, int32 format_index,
const PvmiMediaXferHeader& data_header_info, OsclAny* aContext) {}
void statusUpdate(uint32 status_flags) {}
virtual void cancelAllCommands() { returnAllBuffers(); }
// Pure virtuals from PvmiCapabilityAndConfig
void setObserver (PvmiConfigAndCapabilityCmdObserver* aObserver) { OSCL_UNUSED_ARG(aObserver); }
PVMFStatus getParametersSync(PvmiMIOSession aSession, PvmiKeyType aIdentifier,
PvmiKvp*& aParameters, int& num_parameter_elements, PvmiCapabilityContext aContext);
PVMFStatus releaseParameters(PvmiMIOSession aSession, PvmiKvp* aParameters, int num_elements);
void createContext(PvmiMIOSession aSession, PvmiCapabilityContext& aContext) {
OsclError::Leave(OsclErrNotSupported);
}
void setContextParameters(PvmiMIOSession aSession, PvmiCapabilityContext& aContext,
PvmiKvp* aParameters, int num_parameter_elements) {
OsclError::Leave(OsclErrNotSupported);
}
void DeleteContext(PvmiMIOSession aSession, PvmiCapabilityContext& aContext) {
OsclError::Leave(OsclErrNotSupported);
}
virtual void setParametersSync(PvmiMIOSession aSession, PvmiKvp* aParameters,
int num_elements, PvmiKvp * & aRet_kvp);
PVMFCommandId setParametersAsync(PvmiMIOSession aSession, PvmiKvp* aParameters,
int num_elements, PvmiKvp*& aRet_kvp, OsclAny* context=NULL) {
OsclError::Leave(OsclErrNotSupported);
return -1;
}
uint32 getCapabilityMetric (PvmiMIOSession aSession) { return 0; }
PVMFStatus verifyParametersSync (PvmiMIOSession aSession, PvmiKvp* aParameters, int num_elements);
// Functions specific to this MIO
void setAudioSink(const sp<MediaPlayerInterface::AudioSink>& audioSink);
virtual void writeAudioBuffer(uint8* aData, uint32 aDataLen, PVMFCommandId cmdId,
OsclAny* aContext, PVMFTimestamp aTimestamp) {}
protected:
// From OsclTimerObject
void Run();
void sendResponse(PVMFCommandId cmdid, const OsclAny* context, PVMFTimestamp timestamp);
// Specific to this MIO
void initData();
void Cleanup();
virtual void returnAllBuffers() {}
void ResetData();
// request active object which the audio output thread uses to schedule this timer object to run
AndroidAudioOutputThreadSafeCallbackAO *iWriteCompleteAO;
// write response queue, needs to use lock mechanism to access
Oscl_Vector<WriteResponse,OsclMemAllocator> iWriteResponseQueue;
// lock used to access the write response queue
OsclMutex iWriteResponseQueueLock;
// From setPeer
PvmiMediaTransfer* iPeer;
// The PvmiMIOControl class observer.
PvmiMIOObserver* iObserver;
// for generating command IDs
uint32 iCommandCounter;
//State
enum PVAudioMIOState
{
STATE_MIO_IDLE
,STATE_MIO_LOGGED_ON
,STATE_MIO_INITIALIZED
,STATE_MIO_STARTED
,STATE_MIO_PAUSED
};
PVAudioMIOState iState;
// Control command handling.
class CommandResponse
{
public:
CommandResponse(PVMFStatus s,PVMFCommandId id,const OsclAny* ctx)
:iStatus(s),iCmdId(id),iContext(ctx)
{}
PVMFStatus iStatus;
PVMFCommandId iCmdId;
const OsclAny* iContext;
};
Oscl_Vector<CommandResponse,OsclMemAllocator> iCommandResponseQueue;
PVMFCommandId QueueCmdResponse(PVMFStatus status, const OsclAny* aContext);
void ProcessWriteResponseQueue();
// Audio parameters.
PVMFFormatType iAudioFormat;
int32 iAudioNumChannels;
bool iAudioNumChannelsValid;
int32 iAudioSamplingRate;
bool iAudioSamplingRateValid;
bool iAudioThreadCreatedAndMIOConfigured;
// For logging
PVLogger* iLogger;
// For implementing the write flow control
bool iWriteBusy;
bool CheckWriteBusy(uint32);
bool iFlushPending;
uint32 iDataQueued;
sp<MediaPlayerInterface::AudioSink> mAudioSink;
};
#endif // ANDROID_AUDIO_MIO_H