android/author/authordriver.h - platform/external/opencore - Git at Google

 /*
  * Copyright (C) 2008, The Android Open Source Project
  * Copyright (C) 2008 HTC Inc.
  *
  * 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.
  */

 /* authordriver.h
  *
  * The glue between the Android MediaRecorder and PVAuthorInterface
  */

 #ifndef _AUTHORDRIVER_PRIV_H
 #define _AUTHORDRIVER_PRIV_H

 #include <utils/Log.h>
 #include <utils/threads.h>
 #include <utils/List.h>
 #include <utils/Errors.h>

 #include <camera/ICamera.h>


 #include <media/mediarecorder.h>

 #include "oscl_scheduler.h"
 #include "oscl_scheduler_ao.h"
 #include "oscl_exception.h"
 #include "pvlogger.h"
 #include "pvlogger_file_appender.h"
 #include "pvlogger_stderr_appender.h"
 #include "pvlogger_time_and_id_layout.h"
 #include "pvauthorenginefactory.h"
 #include "pvauthorengineinterface.h"
 #include "pv_engine_observer.h"
 #include "pvmf_errorinfomessage_extension.h"
 #include "oscl_mem.h"
 #include "oscl_mem_audit.h"
 #include "oscl_error.h"
 #include "oscl_utf8conv.h"
 #include "oscl_string_utils.h"
 #include "android_camera_input.h"
 #include "android_audio_input.h"
 #include "pvmf_media_input_node_factory.h"
 #include "pvmf_fileoutput_factory.h"
 #include "pvmf_node_interface.h"
 #include "pvmp4h263encextension.h"
 #include "pvmp4ffcn_clipconfig.h"
 #include "pvmf_fileoutput_config.h"
 #ifndef PVMF_FILEOUTPUT_CONFIG_H_INCLUDED
 #include "pvmf_fileoutput_config.h"
 #endif
 #ifndef PVMF_AUDIO_ENCNODE_EXTENSION_H_INCLUDED
 #include "pvmf_audio_encnode_extension.h"
 #endif

 // FIXME:
 // Platform-specic and temporal workaround to prevent video size
 // from being set too large

 #define ANDROID_MAX_ENCODED_FRAME_WIDTH            352
 #define ANDROID_MAX_ENCODED_FRAME_HEIGHT           288
 #define ANDROID_MIN_ENCODED_FRAME_WIDTH            176
 #define ANDROID_MIN_ENCODED_FRAME_HEIGHT           144

 #define ANDROID_MIN_FRAME_RATE_FPS                 5
 #define ANDROID_MAX_FRAME_RATE_FPS                 20

 static const int32 DEFAULT_VIDEO_FRAME_RATE  = 20;
 static const int32 DEFAULT_VIDEO_WIDTH       = 176;
 static const int32 DEFAULT_VIDEO_HEIGHT      = 144;

 static const int32 MIN_VIDEO_BITRATE_SETTING = 192000;
 static const int32 MAX_VIDEO_BITRATE_SETTING = 420000;
 static const int32 MAX_AUDIO_BITRATE_SETTING = 320000; // Max bitrate??
 static const int32 MIN_AUDIO_BITRATE_SETTING = 1;      // Min bitrate??
 static const int32 DEFAULT_AUDIO_BITRATE_SETTING = 64000; // Default for all the other audio
 static const PVMF_GSMAMR_Rate DEFAULT_AMR_NARROW_BAND_BITRATE_SETTING = GSM_AMR_12_2;
 static const PVMF_GSMAMR_Rate DEFAULT_AMR_WIDE_BAND_BITRATE_SETTING = GSM_AMR_23_85;

 typedef struct AMR_BITRATE_MAPPING
 {
    int32 bitrate;
    PVMF_GSMAMR_Rate actual;
 } AMR_BITRATE_MAPPING;

 static const uint32 AMR_BITRATE_MAX_NUMBER_OF_ROWS = 10;
 static const AMR_BITRATE_MAPPING AMR_BITRATE_MAPPING_ARRAY[AMR_BITRATE_MAX_NUMBER_OF_ROWS][2] = {
     {{1,DEFAULT_AMR_NARROW_BAND_BITRATE_SETTING}, {1,    DEFAULT_AMR_WIDE_BAND_BITRATE_SETTING}},  // default values
     {{4950,                        GSM_AMR_4_75}, {7725,                          GSM_AMR_6_60}},
     {{5525,                        GSM_AMR_5_15}, {10750,                         GSM_AMR_8_85}},
     {{6300,                        GSM_AMR_5_90}, {13450,                        GSM_AMR_12_65}},
     {{7050,                        GSM_AMR_6_70}, {15050,                        GSM_AMR_14_25}},
     {{7625,                        GSM_AMR_7_40}, {17050,                        GSM_AMR_15_85}},
     {{9075,                        GSM_AMR_7_95}, {19050,                        GSM_AMR_18_25}},
     {{11200,                       GSM_AMR_10_2}, {21450,                        GSM_AMR_19_85}},
    {{(MAX_AUDIO_BITRATE_SETTING+1),GSM_AMR_12_2}, {23450,                        GSM_AMR_23_05}},
    {{(MAX_AUDIO_BITRATE_SETTING+1),GSM_AMR_12_2},{(MAX_AUDIO_BITRATE_SETTING+1), GSM_AMR_23_85}}};

 namespace android {

 template<class DestructClass>
 class LogAppenderDestructDealloc : public OsclDestructDealloc
 {
 public:
     virtual void destruct_and_dealloc(OsclAny *ptr)
     {
         delete((DestructClass*)ptr);
     }
 };

 // Commands that MediaAuthor sends to the AuthorDriver.
 //
 enum author_command_type {
     AUTHOR_INIT = 1,
     AUTHOR_SET_CAMERA,
     AUTHOR_SET_VIDEO_SOURCE,
     AUTHOR_SET_AUDIO_SOURCE,
     AUTHOR_SET_OUTPUT_FORMAT,
     AUTHOR_SET_VIDEO_ENCODER,
     AUTHOR_SET_AUDIO_ENCODER,
     AUTHOR_SET_VIDEO_SIZE,
     AUTHOR_SET_VIDEO_FRAME_RATE,
     AUTHOR_SET_PREVIEW_SURFACE,
     AUTHOR_SET_OUTPUT_FILE,
     AUTHOR_SET_PARAMETERS,
     AUTHOR_PREPARE,
     AUTHOR_START,
     AUTHOR_STOP,
     AUTHOR_RESET,
     AUTHOR_CLOSE,
     AUTHOR_REMOVE_VIDEO_SOURCE,
     AUTHOR_REMOVE_AUDIO_SOURCE,
     AUTHOR_QUIT = 100
 };

 struct author_command
 {
     author_command(author_command_type which) {
         this->which = which;
     }

     virtual ~author_command() {}

     author_command_type which;
     media_completion_f comp;
     void *cookie;
 };

 struct set_audio_source_command : author_command
 {
     set_audio_source_command() : author_command(AUTHOR_SET_AUDIO_SOURCE) {};
     audio_source                 as;
 };

 struct set_video_source_command : author_command
 {
     set_video_source_command() : author_command(AUTHOR_SET_VIDEO_SOURCE) {};
     video_source                 vs;
 };

 struct set_output_format_command : author_command
 {
     set_output_format_command() : author_command(AUTHOR_SET_OUTPUT_FORMAT) {};
     output_format                 of;
 };

 struct set_audio_encoder_command : author_command
 {
     set_audio_encoder_command() : author_command(AUTHOR_SET_AUDIO_ENCODER) {};
     audio_encoder                 ae;
 };

 struct set_video_encoder_command : author_command
 {
     set_video_encoder_command() : author_command(AUTHOR_SET_VIDEO_ENCODER) {};
     video_encoder                 ve;
 };

 struct set_output_file_command : author_command
 {
     set_output_file_command() : author_command(AUTHOR_SET_OUTPUT_FILE) {};
     int                         fd;
     int64_t                     offset;
     int64_t                     length;
 };
 struct set_video_size_command : author_command
 {
     set_video_size_command() : author_command(AUTHOR_SET_VIDEO_SIZE) {};
     int                        width;
     int                        height;
 };

 struct set_video_frame_rate_command : author_command
 {
     set_video_frame_rate_command() : author_command(AUTHOR_SET_VIDEO_FRAME_RATE) {};
     int                              rate;
 };

 struct set_preview_surface_command : author_command
 {
     set_preview_surface_command() : author_command(AUTHOR_SET_PREVIEW_SURFACE) {};
     sp<ISurface>                     surface;
 };

 struct set_camera_command : author_command
 {
     set_camera_command() : author_command(AUTHOR_SET_CAMERA) {};
     sp<ICamera>                      camera;
 };

 struct set_parameters_command : author_command
 {
     set_parameters_command(const String8& params)
         : author_command(AUTHOR_SET_PARAMETERS),
           mParams(params) {
     }

     const String8& params() const { return mParams; }

 private:
     String8 mParams;

     // Disallow copying and assignment.
     set_parameters_command(const set_parameters_command&);
     set_parameters_command& operator=(const set_parameters_command&);
 };

 class MediaProfiles;

 class AuthorDriver :
 public OsclActiveObject,
 public PVCommandStatusObserver,
 public PVInformationalEventObserver,
 public PVErrorEventObserver
 {
 public:
     AuthorDriver();
     ~AuthorDriver();

     author_command *dequeueCommand();
     status_t enqueueCommand(author_command *ec, media_completion_f comp, void *cookie);

     // Dequeues a command from MediaRecorder and gives it to PVAuthorEngine.
     void Run();

     // Handlers for the various commands we can accept.
     void commandFailed(author_command *ac);
     void handleInit(author_command *ac);
     void handleSetAudioSource(set_audio_source_command *ac);
     void handleSetCamera(set_camera_command *ac);
     void handleSetVideoSource(set_video_source_command *ac);
     void handleSetOutputFormat(set_output_format_command *ac);
     void handleSetAudioEncoder(set_audio_encoder_command *ac);
     void handleSetVideoEncoder(set_video_encoder_command *ac);
     void handleSetVideoSize(set_video_size_command *ac);
     void handleSetVideoFrameRate(set_video_frame_rate_command *ac);
     void handleSetPreviewSurface(set_preview_surface_command *ac);
     void handleSetOutputFile(set_output_file_command *ac);
     void handleSetParameters(set_parameters_command *ac);
     void handlePrepare(author_command *ac);
     void handleStart(author_command *ac);
     void handleStop(author_command *ac);
     void handleReset(author_command *ac);
     void handleClose(author_command *ac);
     void handleQuit(author_command *ac);

     void endOfData();

     void CommandCompleted(const PVCmdResponse& aResponse);
     void HandleErrorEvent(const PVAsyncErrorEvent& aEvent);
     void HandleInformationalEvent(const PVAsyncInformationalEvent& aEvent);

     status_t getMaxAmplitude(int *max);
     PVAEState getAuthorEngineState();
     status_t setListener(const sp<IMediaPlayerClient>& listener);

 private:
     // Finish up a non-async command in such a way that
     // the event loop will keep running.
     void FinishNonAsyncCommand(author_command *ec);

     // remove references to configurations
     void removeConfigRefs(author_command *ac);

     // remove input video or audio source
     void handleRemoveVideoSource(author_command *ac);
     void handleRemoveAudioSource(author_command *ac);

     // Release resources acquired in a recording session
     // Can be called only in the IDLE state of the authoring engine
     void doCleanUp();

     // Starts the PV scheduler thread.
     static int startAuthorThread(void *cookie);
     int authorThread();

     static void media_track_added(status_t s, void *cookie);

     // Callback for synchronous commands.
     static void syncCompletion(status_t s, void *cookie);

     // Limit either the duration of the recording or the resulting file size
     // If "limit_is_duration" is true, "limit" holds the maximum duration in
     // milliseconds, otherwise "limit" holds the maximum filesize in bytes.
     PVMFStatus setMaxDurationOrFileSize(int64_t limit, bool limit_is_duration);

     // Used to set the sampling rate of the audio source
     PVMFStatus setParamAudioSamplingRate(int64_t aSamplingRate);

     // Used to set the number of channels of the audio source
     PVMFStatus setParamAudioNumberOfChannels(int64_t aNumberOfChannels);

     // Used for setting the audio encoding bitrate
     PVMFStatus setParamAudioEncodingBitrate(int64_t aAudioBitrate);

     PVMFStatus setParameter(const String8 &key, const String8 &value);

     // Has no effect if called after video encoder is set
     PVMFStatus setParamVideoEncodingBitrate(int64_t aVideoBitrate);

     // Clips the intended video encoding bit rate, frame rate, frame size
     // (width and height) so that it is within the supported range.
     void clipVideoBitrate();
     void clipVideoFrameRate();
     void clipVideoFrameSize();
     void clipVideoFrameWidth();
     void clipVideoFrameHeight();

     // Clips the intended AAC audio bitrate so that it is in the supported range
     void clipAACAudioBitrate();

     // Used to map the incoming bitrate to the closest AMR bitrate
     bool MapAMRBitrate(int32 aAudioBitrate, PVMF_GSMAMR_Rate &anAMRBitrate);

     PVAuthorEngineInterface    *mAuthor;

     PvmiMIOControl           *mVideoInputMIO;
     PVMFNodeInterface        *mVideoNode;
     sp<AndroidAudioInput>    mAudioInputMIO;
     PVMFNodeInterface        *mAudioNode;

     void                       *mSelectedComposer;
     PVInterface                *mComposerConfig;
     PVInterface                *mVideoEncoderConfig;
     PVInterface                *mAudioEncoderConfig;

     int                     mVideoWidth;
     int                     mVideoHeight;
     int                     mVideoFrameRate;
     //int                     mVideoBitRate;
     video_encoder           mVideoEncoder;
     output_format           mOutputFormat;

     //int                     mAudioBitRate;
     audio_encoder           mAudioEncoder;

     // Semaphore used for synchronous commands.
     OsclSemaphore           *mSyncSem;
     // Status cached by syncCompletion for synchronous commands.
     status_t                mSyncStatus;

     // Command queue and its lock.
     List<author_command *>  mCommandQueue;
     Mutex                   mQueueLock;

     sp<ICamera>             mCamera;
     sp<IMediaPlayerClient>  mListener;

     int32            mSamplingRate;
     int32            mNumberOfChannels;
     int32            mAudio_bitrate_setting;
     int32            mVideo_bitrate_setting;

     FILE*       ifpOutput;
     MediaProfiles *mMediaProfiles;
 };

 class AuthorDriverWrapper
 {
 public:
     AuthorDriverWrapper();
     ~AuthorDriverWrapper();
     status_t enqueueCommand(author_command *ec, media_completion_f comp, void *cookie);
     status_t getMaxAmplitude(int *max);
     status_t setListener(const sp<IMediaPlayerClient>& listener);

 private:
     void resetAndClose();

     AuthorDriver    *mAuthorDriver;
 };

 }; // namespace android

 #endif // _AUTHORDRIVER_PRIV_H
	/*
	* Copyright (C) 2008, The Android Open Source Project
	* Copyright (C) 2008 HTC Inc.
	*
	* 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.
	*/

	/* authordriver.h
	*
	* The glue between the Android MediaRecorder and PVAuthorInterface
	*/

	#ifndef _AUTHORDRIVER_PRIV_H
	#define _AUTHORDRIVER_PRIV_H

	#include <utils/Log.h>
	#include <utils/threads.h>
	#include <utils/List.h>
	#include <utils/Errors.h>

	#include <camera/ICamera.h>


	#include <media/mediarecorder.h>

	#include "oscl_scheduler.h"
	#include "oscl_scheduler_ao.h"
	#include "oscl_exception.h"
	#include "pvlogger.h"
	#include "pvlogger_file_appender.h"
	#include "pvlogger_stderr_appender.h"
	#include "pvlogger_time_and_id_layout.h"
	#include "pvauthorenginefactory.h"
	#include "pvauthorengineinterface.h"
	#include "pv_engine_observer.h"
	#include "pvmf_errorinfomessage_extension.h"
	#include "oscl_mem.h"
	#include "oscl_mem_audit.h"
	#include "oscl_error.h"
	#include "oscl_utf8conv.h"
	#include "oscl_string_utils.h"
	#include "android_camera_input.h"
	#include "android_audio_input.h"
	#include "pvmf_media_input_node_factory.h"
	#include "pvmf_fileoutput_factory.h"
	#include "pvmf_node_interface.h"
	#include "pvmp4h263encextension.h"
	#include "pvmp4ffcn_clipconfig.h"
	#include "pvmf_fileoutput_config.h"
	#ifndef PVMF_FILEOUTPUT_CONFIG_H_INCLUDED
	#include "pvmf_fileoutput_config.h"
	#endif
	#ifndef PVMF_AUDIO_ENCNODE_EXTENSION_H_INCLUDED
	#include "pvmf_audio_encnode_extension.h"
	#endif

	// FIXME:
	// Platform-specic and temporal workaround to prevent video size
	// from being set too large

	#define ANDROID_MAX_ENCODED_FRAME_WIDTH 352
	#define ANDROID_MAX_ENCODED_FRAME_HEIGHT 288
	#define ANDROID_MIN_ENCODED_FRAME_WIDTH 176
	#define ANDROID_MIN_ENCODED_FRAME_HEIGHT 144

	#define ANDROID_MIN_FRAME_RATE_FPS 5
	#define ANDROID_MAX_FRAME_RATE_FPS 20

	static const int32 DEFAULT_VIDEO_FRAME_RATE = 20;
	static const int32 DEFAULT_VIDEO_WIDTH = 176;
	static const int32 DEFAULT_VIDEO_HEIGHT = 144;

	static const int32 MIN_VIDEO_BITRATE_SETTING = 192000;
	static const int32 MAX_VIDEO_BITRATE_SETTING = 420000;
	static const int32 MAX_AUDIO_BITRATE_SETTING = 320000; // Max bitrate??
	static const int32 MIN_AUDIO_BITRATE_SETTING = 1; // Min bitrate??
	static const int32 DEFAULT_AUDIO_BITRATE_SETTING = 64000; // Default for all the other audio
	static const PVMF_GSMAMR_Rate DEFAULT_AMR_NARROW_BAND_BITRATE_SETTING = GSM_AMR_12_2;
	static const PVMF_GSMAMR_Rate DEFAULT_AMR_WIDE_BAND_BITRATE_SETTING = GSM_AMR_23_85;

	typedef struct AMR_BITRATE_MAPPING
	{
	int32 bitrate;
	PVMF_GSMAMR_Rate actual;
	} AMR_BITRATE_MAPPING;

	static const uint32 AMR_BITRATE_MAX_NUMBER_OF_ROWS = 10;
	static const AMR_BITRATE_MAPPING AMR_BITRATE_MAPPING_ARRAY[AMR_BITRATE_MAX_NUMBER_OF_ROWS][2] = {
	{{1,DEFAULT_AMR_NARROW_BAND_BITRATE_SETTING}, {1, DEFAULT_AMR_WIDE_BAND_BITRATE_SETTING}}, // default values
	{{4950, GSM_AMR_4_75}, {7725, GSM_AMR_6_60}},
	{{5525, GSM_AMR_5_15}, {10750, GSM_AMR_8_85}},
	{{6300, GSM_AMR_5_90}, {13450, GSM_AMR_12_65}},
	{{7050, GSM_AMR_6_70}, {15050, GSM_AMR_14_25}},
	{{7625, GSM_AMR_7_40}, {17050, GSM_AMR_15_85}},
	{{9075, GSM_AMR_7_95}, {19050, GSM_AMR_18_25}},
	{{11200, GSM_AMR_10_2}, {21450, GSM_AMR_19_85}},
	{{(MAX_AUDIO_BITRATE_SETTING+1),GSM_AMR_12_2}, {23450, GSM_AMR_23_05}},
	{{(MAX_AUDIO_BITRATE_SETTING+1),GSM_AMR_12_2},{(MAX_AUDIO_BITRATE_SETTING+1), GSM_AMR_23_85}}};

	namespace android {

	template<class DestructClass>
	class LogAppenderDestructDealloc : public OsclDestructDealloc
	{
	public:
	virtual void destruct_and_dealloc(OsclAny *ptr)
	{
	delete((DestructClass*)ptr);
	}
	};

	// Commands that MediaAuthor sends to the AuthorDriver.
	//
	enum author_command_type {
	AUTHOR_INIT = 1,
	AUTHOR_SET_CAMERA,
	AUTHOR_SET_VIDEO_SOURCE,
	AUTHOR_SET_AUDIO_SOURCE,
	AUTHOR_SET_OUTPUT_FORMAT,
	AUTHOR_SET_VIDEO_ENCODER,
	AUTHOR_SET_AUDIO_ENCODER,
	AUTHOR_SET_VIDEO_SIZE,
	AUTHOR_SET_VIDEO_FRAME_RATE,
	AUTHOR_SET_PREVIEW_SURFACE,
	AUTHOR_SET_OUTPUT_FILE,
	AUTHOR_SET_PARAMETERS,
	AUTHOR_PREPARE,
	AUTHOR_START,
	AUTHOR_STOP,
	AUTHOR_RESET,
	AUTHOR_CLOSE,
	AUTHOR_REMOVE_VIDEO_SOURCE,
	AUTHOR_REMOVE_AUDIO_SOURCE,
	AUTHOR_QUIT = 100
	};

	struct author_command
	{
	author_command(author_command_type which) {
	this->which = which;
	}

	virtual ~author_command() {}

	author_command_type which;
	media_completion_f comp;
	void *cookie;
	};

	struct set_audio_source_command : author_command
	{
	set_audio_source_command() : author_command(AUTHOR_SET_AUDIO_SOURCE) {};
	audio_source as;
	};

	struct set_video_source_command : author_command
	{
	set_video_source_command() : author_command(AUTHOR_SET_VIDEO_SOURCE) {};
	video_source vs;
	};

	struct set_output_format_command : author_command
	{
	set_output_format_command() : author_command(AUTHOR_SET_OUTPUT_FORMAT) {};
	output_format of;
	};

	struct set_audio_encoder_command : author_command
	{
	set_audio_encoder_command() : author_command(AUTHOR_SET_AUDIO_ENCODER) {};
	audio_encoder ae;
	};

	struct set_video_encoder_command : author_command
	{
	set_video_encoder_command() : author_command(AUTHOR_SET_VIDEO_ENCODER) {};
	video_encoder ve;
	};

	struct set_output_file_command : author_command
	{
	set_output_file_command() : author_command(AUTHOR_SET_OUTPUT_FILE) {};
	int fd;
	int64_t offset;
	int64_t length;
	};
	struct set_video_size_command : author_command
	{
	set_video_size_command() : author_command(AUTHOR_SET_VIDEO_SIZE) {};
	int width;
	int height;
	};

	struct set_video_frame_rate_command : author_command
	{
	set_video_frame_rate_command() : author_command(AUTHOR_SET_VIDEO_FRAME_RATE) {};
	int rate;
	};

	struct set_preview_surface_command : author_command
	{
	set_preview_surface_command() : author_command(AUTHOR_SET_PREVIEW_SURFACE) {};
	sp<ISurface> surface;
	};

	struct set_camera_command : author_command
	{
	set_camera_command() : author_command(AUTHOR_SET_CAMERA) {};
	sp<ICamera> camera;
	};

	struct set_parameters_command : author_command
	{
	set_parameters_command(const String8& params)
	: author_command(AUTHOR_SET_PARAMETERS),
	mParams(params) {
	}

	const String8& params() const { return mParams; }

	private:
	String8 mParams;

	// Disallow copying and assignment.
	set_parameters_command(const set_parameters_command&);
	set_parameters_command& operator=(const set_parameters_command&);
	};

	class MediaProfiles;

	class AuthorDriver :
	public OsclActiveObject,
	public PVCommandStatusObserver,
	public PVInformationalEventObserver,
	public PVErrorEventObserver
	{
	public:
	AuthorDriver();
	~AuthorDriver();

	author_command *dequeueCommand();
	status_t enqueueCommand(author_command ec, media_completion_f comp, void cookie);

	// Dequeues a command from MediaRecorder and gives it to PVAuthorEngine.
	void Run();

	// Handlers for the various commands we can accept.
	void commandFailed(author_command *ac);
	void handleInit(author_command *ac);
	void handleSetAudioSource(set_audio_source_command *ac);
	void handleSetCamera(set_camera_command *ac);
	void handleSetVideoSource(set_video_source_command *ac);
	void handleSetOutputFormat(set_output_format_command *ac);
	void handleSetAudioEncoder(set_audio_encoder_command *ac);
	void handleSetVideoEncoder(set_video_encoder_command *ac);
	void handleSetVideoSize(set_video_size_command *ac);
	void handleSetVideoFrameRate(set_video_frame_rate_command *ac);
	void handleSetPreviewSurface(set_preview_surface_command *ac);
	void handleSetOutputFile(set_output_file_command *ac);
	void handleSetParameters(set_parameters_command *ac);
	void handlePrepare(author_command *ac);
	void handleStart(author_command *ac);
	void handleStop(author_command *ac);
	void handleReset(author_command *ac);
	void handleClose(author_command *ac);
	void handleQuit(author_command *ac);

	void endOfData();

	void CommandCompleted(const PVCmdResponse& aResponse);
	void HandleErrorEvent(const PVAsyncErrorEvent& aEvent);
	void HandleInformationalEvent(const PVAsyncInformationalEvent& aEvent);

	status_t getMaxAmplitude(int *max);
	PVAEState getAuthorEngineState();
	status_t setListener(const sp<IMediaPlayerClient>& listener);

	private:
	// Finish up a non-async command in such a way that
	// the event loop will keep running.
	void FinishNonAsyncCommand(author_command *ec);

	// remove references to configurations
	void removeConfigRefs(author_command *ac);

	// remove input video or audio source
	void handleRemoveVideoSource(author_command *ac);
	void handleRemoveAudioSource(author_command *ac);

	// Release resources acquired in a recording session
	// Can be called only in the IDLE state of the authoring engine
	void doCleanUp();

	// Starts the PV scheduler thread.
	static int startAuthorThread(void *cookie);
	int authorThread();

	static void media_track_added(status_t s, void *cookie);

	// Callback for synchronous commands.
	static void syncCompletion(status_t s, void *cookie);

	// Limit either the duration of the recording or the resulting file size
	// If "limit_is_duration" is true, "limit" holds the maximum duration in
	// milliseconds, otherwise "limit" holds the maximum filesize in bytes.
	PVMFStatus setMaxDurationOrFileSize(int64_t limit, bool limit_is_duration);

	// Used to set the sampling rate of the audio source
	PVMFStatus setParamAudioSamplingRate(int64_t aSamplingRate);

	// Used to set the number of channels of the audio source
	PVMFStatus setParamAudioNumberOfChannels(int64_t aNumberOfChannels);

	// Used for setting the audio encoding bitrate
	PVMFStatus setParamAudioEncodingBitrate(int64_t aAudioBitrate);

	PVMFStatus setParameter(const String8 &key, const String8 &value);

	// Has no effect if called after video encoder is set
	PVMFStatus setParamVideoEncodingBitrate(int64_t aVideoBitrate);

	// Clips the intended video encoding bit rate, frame rate, frame size
	// (width and height) so that it is within the supported range.
	void clipVideoBitrate();
	void clipVideoFrameRate();
	void clipVideoFrameSize();
	void clipVideoFrameWidth();
	void clipVideoFrameHeight();

	// Clips the intended AAC audio bitrate so that it is in the supported range
	void clipAACAudioBitrate();

	// Used to map the incoming bitrate to the closest AMR bitrate
	bool MapAMRBitrate(int32 aAudioBitrate, PVMF_GSMAMR_Rate &anAMRBitrate);

	PVAuthorEngineInterface *mAuthor;

	PvmiMIOControl *mVideoInputMIO;
	PVMFNodeInterface *mVideoNode;
	sp<AndroidAudioInput> mAudioInputMIO;
	PVMFNodeInterface *mAudioNode;

	void *mSelectedComposer;
	PVInterface *mComposerConfig;
	PVInterface *mVideoEncoderConfig;
	PVInterface *mAudioEncoderConfig;

	int mVideoWidth;
	int mVideoHeight;
	int mVideoFrameRate;
	//int mVideoBitRate;
	video_encoder mVideoEncoder;
	output_format mOutputFormat;

	//int mAudioBitRate;
	audio_encoder mAudioEncoder;

	// Semaphore used for synchronous commands.
	OsclSemaphore *mSyncSem;
	// Status cached by syncCompletion for synchronous commands.
	status_t mSyncStatus;

	// Command queue and its lock.
	List<author_command *> mCommandQueue;
	Mutex mQueueLock;

	sp<ICamera> mCamera;
	sp<IMediaPlayerClient> mListener;

	int32 mSamplingRate;
	int32 mNumberOfChannels;
	int32 mAudio_bitrate_setting;
	int32 mVideo_bitrate_setting;

	FILE* ifpOutput;
	MediaProfiles *mMediaProfiles;
	};

	class AuthorDriverWrapper
	{
	public:
	AuthorDriverWrapper();
	~AuthorDriverWrapper();
	status_t enqueueCommand(author_command ec, media_completion_f comp, void cookie);
	status_t getMaxAmplitude(int *max);
	status_t setListener(const sp<IMediaPlayerClient>& listener);

	private:
	void resetAndClose();

	AuthorDriver *mAuthorDriver;
	};

	}; // namespace android

	#endif // _AUTHORDRIVER_PRIV_H