1 // Copyright (c) 2001-2009 Nokia Corporation and/or its subsidiary(-ies).

     2 // All rights reserved.

     3 // This component and the accompanying materials are made available

     4 // under the terms of "Eclipse Public License v1.0"

     5 // which accompanies this distribution, and is available

     6 // at the URL "http://www.eclipse.org/legal/epl-v10.html".

     7 //

     8 // Initial Contributors:

     9 // Nokia Corporation - initial contribution.

    10 //

    11 // Contributors:

    12 //

    13 // Description:

    14 // include\mmf\Server\mmfdatasource.h

    15 // 

    16 //

    17 

    18 #ifndef __MMF_SERVER_DATASOURCE_H__

    19 #define __MMF_SERVER_DATASOURCE_H__

    20 

    21 #include <e32base.h>

    22 #include <mmf/server/mmfdatasourcesink.hrh>

    23 #include <mmf/common/mmfutilities.h>

    24 #include <ecom/ecom.h>

    25 #include <mmf/common/mmfbase.h>

    26 #include <mmf/common/mmfcontrollerframework.h>

    27 

    28 //

    29 // MDataSource mixim

    30 //

    31 

    32 class CMMFBuffer;

    33 class MDataSink;

    34 class MAsyncEventHandler;

    35 

    36 /**

    37 @publishedAll

    38 @released

    39 

    40 Abstract class representing a data source.

    41 */

    42 class MDataSource

    43 	{

    44 public:

    45 	static inline MDataSource* NewSourceL( TUid aImplementationUid,  const TDesC8& aInitData ) ;

    46 

    47 	/**

    48 	Destructor.

    49 	*/

    50 	virtual ~MDataSource() {REComSession::DestroyedImplementation(iDtor_ID_Key);};

    51 

    52 	/**

    53 	Returns the UID identifying the type of data source.

    54 

    55 	@return	The UID identifying the type of data source.

    56 	*/

    57 	virtual TUid DataSourceType() const {return iDataSourceType;};

    58 

    59 	/**

    60 	Returns the data type as a fourCC code of the data source.

    61 

    62 	This is a pure virtual function that each derrived class must implement.

    63 

    64 	@param  aMediaId

    65 	        This identifies the type of media eg. audio or video and the stream ID.

    66 	        This parameter is required in cases where the source can supply data

    67 	        of more than one media type and/or multiple streams of data.

    68 

    69 	@return The fourCC code identifying the source datatype for the specified aMediaId.

    70 	*/

    71 	virtual TFourCC SourceDataTypeCode(TMediaId aMediaId) = 0;

    72 

    73 	inline virtual TInt SetSourceDataTypeCode(TFourCC aSourceFourCC, TMediaId aMediaId);

    74 

    75 	/**

    76 	Function called by a MDataSink to request the data source to fill aBuffer with data.

    77 

    78 	This is a pure virtual function that each derived class must implement.

    79 	This method is used when a data source is passively waiting for requests from a consumer ie. a data sink

    80 	to fill a buffer. The data source must call the BufferFilledL member on aConsumer when it has filled

    81 	the buffer with data. The data source can either make this callback synchronously or asynchronously.

    82 

    83 	The format should read the frame number of the buffer via the buffer's CMMFBuffer::FrameNumber()

    84 	function. From this, the format should be able to determine the actual position of the data on

    85 	the data source. The technique here depends on the nature of the format. For a linear audio

    86 	format, the position can be obtained by a simple calculation of the frame size, the header size

    87 	and where appropriate the datatype.

    88 

    89 	For non-linear formats, either an index table of frame number and location will need to be

    90 	created in the NewL() or some form of approximating algorithm will be required. Some formats

    91 	have an index table as part of the format eg. AVI. If no random access is required then no index

    92 	table is required, the format can keep track of the current read position and increment it on

    93 	each access, and reset it if the frame number is reset to 0 or 1. Given that for non-linear

    94 	ie. variable bit rate formats, the size of the data read may vary from frame to frame, then the

    95 	format should either set the request size of the buffer for the required frame or call the

    96 	source's ReadBufferL() (either CMMFClip::ReadBufferL(), CMMFDescriptor ::ReadBufferL() or

    97 	CMMFFile::ReadBufferL()) function that takes the aLength parameter.

    98 

    99 	It is the responsibility of the format decode to determine the size and position of the source

   100 	data for each frame. For linear audio formats, the format decode should fill the buffer up to

   101 	its maximum length. For multimedia formats e.g. mp4, AVI etc, the format decode is effectively

   102 	acting as a demultiplexor, and must obtain the appropriate data from the source depending on

   103 	the aMediaId.

   104 

   105 	@param  aBuffer

   106 	        The buffer that needs filling with data.

   107 	@param  aConsumer

   108 	        The data sink that consumes the data. The data source needs this to make the BufferFilledL

   109 	        callback on aConsumer when the data source has completed filling the aBuffer.

   110 	@param  aMediaId

   111 	        This identifies the type of media eg. audio or video and the stream ID.

   112 	        This parameter is required in cases where the source can supply data

   113 	        of more than one media type and/or multiple strams of data eg. a multimedia file.

   114 	*/

   115 	virtual void FillBufferL(CMMFBuffer* aBuffer, MDataSink* aConsumer,TMediaId aMediaId)=0;

   116 

   117 	/**

   118 	Function called by a data sink to pass back an emptied buffer to the source.

   119 

   120 	This is a pure virtual function that each derived class must implement.

   121 	This method is used as the callback when the data source actively requests a consumer ie. a data

   122 	sink to empty a buffer by calling the data sinks EmptyBufferL.

   123 	When the data source gets this callback it knows that the buffer has been emptied and can be

   124 	reused.

   125 

   126 	@param  aBuffer

   127 	        The buffer that has been emptied by a data sink and is now available for reuse.

   128 	*/

   129 	virtual void BufferEmptiedL(CMMFBuffer* aBuffer)=0;

   130 

   131 	/**

   132 	@deprecated

   133 

   134 	Function to indicate whether the data source can create a buffer.

   135 

   136 	This is a pure virtual function that each derived class must implement.

   137 

   138 	@return	A boolean indicating if the data source can create a buffer. ETrue if it can otherwise

   139 	        EFalse.

   140 	*/

   141 	virtual TBool CanCreateSourceBuffer()=0;

   142 

   143 	/**

   144 	@deprecated

   145 

   146 	Returns a buffer created by the data source

   147 

   148 	This is a pure virtual function that each derived class must implement.

   149 

   150 	@param	aMediaId

   151 	        This identifies the type of media eg. audio or video and the stream ID.

   152 	        This parameter is required in cases where the source can supply data

   153 	        of more than one media type and/or multiple strams of data eg a multimedia file.

   154 	@param  aReference

   155 	        This must be written to by the method to indicate whether the created buffer is

   156 	        a 'reference' buffer.  A 'reference' buffer is a buffer that is owned by the source

   157 	        and should be used in preference to the sink buffer provided the sink buffer

   158 	        is also not a reference buffer.

   159 

   160 	@return	A pointer to the created buffer.

   161 	*/

   162 	virtual CMMFBuffer* CreateSourceBufferL(TMediaId aMediaId, TBool &aReference) = 0;

   163 

   164 	inline virtual CMMFBuffer* CreateSourceBufferL(TMediaId aMediaId, CMMFBuffer& aSinkBuffer, TBool &aReference);

   165 

   166 	inline virtual TInt SourceThreadLogon(MAsyncEventHandler& aEventHandler);

   167 

   168 	/**

   169 	Function to 'logoff' the data source from the same thread that source supplies data in.

   170 

   171 	This method may be required as the thread that the data source is deleted in may not be

   172 	the same thread that the data transfer took place in.  Therefore any thread specific

   173 	releasing of resources needs to be performed in the SourceThreadLogoff rather than in the

   174 	destructor.

   175 

   176 	This is a virtual function that a derrived data source can implement if any thread specific

   177 	releasing of resources is required.

   178 	*/

   179 	virtual void SourceThreadLogoff() {};

   180 

   181 	inline virtual void NegotiateSourceL(MDataSink& aDataSink); //called if source setup depends on sink

   182 

   183 	/**

   184 	Indicates whether the data source supports sample rate conversion.

   185 

   186 	This is a virtual function that a derived class can implement.

   187 

   188 	@return	A boolean indicating if the data source can perform a sample rate conversion. ETrue if 

   189 	        it can otherwise EFalse.

   190 	*/

   191 	virtual TBool SourceSampleConvert() {return EFalse;};

   192 	

   193 	/**

   194 	Function to 'prime' the data source.

   195 	

   196 	This is a virtual function that a derrived data source can implement if

   197 	any data source specific 'priming' is required.

   198 	*/

   199 	virtual void SourcePrimeL() {};

   200 	

   201 	/**

   202 	Function to 'play' the data source.

   203 

   204 	This is a virtual function that a derrived data source can implement if

   205 	any data source specific action is required prior to 'playing' ie. the start of data transfer.

   206 	*/

   207 	virtual void SourcePlayL() {};

   208 

   209 	/**

   210 	Function to 'pause' the data source.

   211 

   212 	This is a virtual function that a derrived data source can implement if

   213 	any data source specific action is required to 'pause'

   214 	*/

   215 	virtual void SourcePauseL() {};

   216 

   217 	/**

   218 	Function to 'stop' the data source.

   219 

   220 	This is a virtual function that a derrived data source can implement if

   221 	any data source specific action is required to 'stop'.

   222 	*/

   223 	virtual void SourceStopL() {};

   224 

   225 	inline virtual void SetSourcePrioritySettings(const TMMFPrioritySettings& aPrioritySettings);

   226 

   227 	/**

   228 	Function to call a source specific custom command.

   229 

   230 	This is a virtual function that a derrived data source can implement if

   231 	it implements any custom commands.

   232 

   233 	@param  aMessage

   234 	        The message specifying the custom command.

   235 	*/

   236 	virtual void SourceCustomCommand(TMMFMessage& aMessage) {aMessage.Complete(KErrNotSupported);};

   237 protected:

   238 

   239 	/**

   240 	Performs any source construction dependant on the source construction

   241 	initialisation data aInitData.

   242 

   243 	This is a pure virtual function that a derrived data source must implement

   244 

   245 	@param  aInitData

   246 	        The source specific initialisation data required for source construction.

   247 	*/

   248 	virtual void ConstructSourceL(  const TDesC8& aInitData ) = 0 ;

   249 

   250 	/**

   251 	Protected constructor.

   252 	*/

   253 	MDataSource(TUid aType): iDataSourceType(aType) {}

   254 private:

   255 	TUid iDataSourceType;

   256 	TUid iDtor_ID_Key;

   257 

   258 	};

   259 

   260 /**

   261 Instantiates a data source.

   262 

   263 @param  aImplementationUid

   264         The UID identifying the data source to be instantiated.

   265 @param  aInitData

   266         The source specific initialisation data required for source construction.

   267 

   268 @return	The instantiated data source.

   269 */

   270 inline MDataSource* MDataSource::NewSourceL( TUid aImplementationUid, const TDesC8& aInitData )

   271 	{

   272 	MDataSource* retPtr = REINTERPRET_CAST( MDataSource*, REComSession::CreateImplementationL( aImplementationUid,

   273 																			_FOFF(MDataSource, iDtor_ID_Key) ) ) ;

   274 	CleanupDeletePushL(retPtr);

   275 	retPtr->ConstructSourceL( aInitData ) ;

   276 

   277 	CleanupStack::Pop(retPtr);

   278 	return retPtr ;

   279 	}

   280 

   281 /**

   282 Sets the data type as a fourCC code for the data source.

   283 

   284 This is a virtual function that each derived class can implement if the data source supports

   285 the ability to have its data type set.

   286 

   287 @param  aSourceFourCC

   288         This specifies the data type as a fourCC code to set the source to.

   289 @param  aMediaId

   290         This identifies the type of media eg. audio or video and the stream ID.

   291         This parameter is required in cases where the source can supply data

   292         of more than one media type and/or multiple strams of data eg a multimedia file.

   293 

   294 @return	KErrNone if successful, KErrNotSupported if the source does not support having

   295         it's data type set, otherwise a system wide error code.

   296 */

   297 inline TInt MDataSource::SetSourceDataTypeCode(TFourCC /*aSourceFourCC*/, TMediaId /*aMediaId*/)

   298 {

   299 	return KErrNotSupported;

   300 }

   301 

   302 /**

   303 @deprecated

   304 

   305 Returns a buffer created by the data source.

   306 

   307 This is a virtual function that a derived class can implement.

   308 This can be used in preference to the above CreateSourceBufferL method in cases where

   309 the source buffer creation has a dependancy on the sink buffer.

   310 

   311 @param  aMediaId

   312         This identifies the type of media eg. audio or video and the stream ID.

   313         This parameter is required in cases where the source can supply data

   314         of more than one media type and/or multiple strams of data eg a multimedia file

   315 @param  aSinkBuffer

   316         The sink buffer the nature of which may influence the creation of the source buffer.

   317 @param  aReference

   318         This must be written to by the method to indicate whether the created buffer is

   319         a 'reference' buffer.  A 'reference' buffer is a buffer that is owned by the source

   320         and should be used in preference to the sink buffer provided the sink buffer is not a

   321         reference buffer.

   322 

   323 @return A pointer to the created buffer.

   324 */

   325 inline CMMFBuffer* MDataSource::CreateSourceBufferL(TMediaId aMediaId, CMMFBuffer& /*aSinkBuffer*/, TBool &aReference)

   326 {

   327 	return CreateSourceBufferL(aMediaId, aReference);

   328 }

   329 

   330 /**

   331 Function to 'logon' the data source to the same thread that source will be supplying data in.

   332 

   333 This method may be required as the thread that the data source was created in is not always

   334 the same thread that the data transfer will take place in.  Therefore any thread specific

   335 initialisation needs to be performed in the SourceThreadLogon rather than in the creation

   336 of the data source.

   337 

   338 This is a virtual function that a derrived data source can implement if any thread specific

   339 initialisation is required and/or the data source can create any asynchronous events.

   340 

   341 @param  aEventHandler

   342         This is an MAsyncEventHandler to handle asynchronous events that occur during the

   343         transfer of multimedia data.  The event handler must be in the same thread as the data transfer

   344         thread. Hence the reason it is passed in the SourceThreadLogon as opposed to say the constructor.

   345 

   346 @return An error code indicating if the function call was successful. KErrNone on success, otherwise

   347         another of the system-wide error codes.

   348 */

   349 inline TInt MDataSource::SourceThreadLogon(MAsyncEventHandler& /*aEventHandler*/)

   350 {

   351 	return KErrNone;

   352 }

   353 

   354 /**

   355 Function to allow the data source to negotiate with a data sink

   356 

   357 This method is required in cases where the settings of data source are dependant on those of a

   358 data sink. This is a virtual function that a derrived data source can implement.

   359 

   360 @param  aDataSink

   361         The data sink whose settings can affect the data source.

   362 */

   363 inline void MDataSource::NegotiateSourceL(MDataSink& /*aDataSink*/)

   364 {

   365 }

   366 

   367 /**

   368 Function to set the source priority settings.

   369 

   370 This is a virtual function that a derrived data source can implement if

   371 a priority mechanism is required to arbitrate between multiple clients

   372 trying to access the same resource.

   373 

   374 @param  aPrioritySettings

   375         The source priority settings.

   376 

   377 */

   378 inline void MDataSource::SetSourcePrioritySettings(const TMMFPrioritySettings& /*aPrioritySettings*/)

   379 {

   380 }

   381 

   382 /**

   383 This function is used by TCleanupItem objects to perform

   384 a SourceStopL() when leaving functions exist, ususally between SourcePrimeL-SourceStopL pairs.

   385 

   386 @param  aSource

   387         The data source to be stopped.

   388 */

   389 inline static void DoDataSourceStop(TAny* aSource)

   390 	{

   391 	MDataSource* source = STATIC_CAST(MDataSource*, aSource);

   392 	// we don't want this function to leave because no leaving functions are supposed

   393 	// to be used as argument to the TCleanupItem objects. Hence we catch the error but

   394 	// we do nothing with it.

   395 	TRAP_IGNORE(source->SourceStopL());

   396 	}

   397 

   398 /**

   399 This method is used by TCleanupItem objects to perform a SourceThreadLogoff().

   400 

   401 @param  aSource

   402         The data source to be logged off.

   403 */

   404 inline static void DoDataSourceThreadLogoff(TAny* aSource)

   405 	{

   406 	MDataSource* source = STATIC_CAST(MDataSource*, aSource);

   407 	source->SourceThreadLogoff();

   408 	}

   409 

   410 #endif