os/security/contentmgmt/referencedrmagent/tcaf/source/SupplierStep.cpp
author sl@SLION-WIN7.fritz.box
Fri, 15 Jun 2012 03:10:57 +0200
changeset 0 bde4ae8d615e
permissions -rw-r--r--
First public contribution.
     1 /*
     2 * Copyright (c) 2003-2009 Nokia Corporation and/or its subsidiary(-ies).
     3 * All rights reserved.
     4 * This component and the accompanying materials are made available
     5 * under the terms of the License "Eclipse Public License v1.0"
     6 * which accompanies this distribution, and is available
     7 * at the URL "http://www.eclipse.org/legal/epl-v10.html".
     8 *
     9 * Initial Contributors:
    10 * Nokia Corporation - initial contribution.
    11 *
    12 * Contributors:
    13 *
    14 * Description: 
    15 *
    16 */
    17 
    18 
    19 #include <test/testexecutelog.h>
    20 #include <s32mem.h>
    21 #include "cafserver.h"
    22 #include "SupplierStep.h"
    23 #include "supplier.h"
    24 #include "cafmimeheader.h"
    25 #include "caferr.h"
    26 #include "metadataarray.h"
    27 #include "supplieroutputfile.h"
    28 #include "attribute.h"
    29 #include "bitset.h"
    30 
    31 #include <uri8.h>
    32 #ifdef INTERNALLY_ENABLE_UPWARD_DEPENDENCY
    33 #include <http.h>
    34 #include <http/rhttpsession.h>
    35 #include <http/rhttptransaction.h>
    36 #include <http/rhttpheaders.h>
    37 #endif
    38 
    39 using namespace ContentAccess;
    40 
    41 
    42 /* 
    43  * This step imports a DCF file into CAF 
    44  *
    45  */
    46 CCafSupplierStep::~CCafSupplierStep()
    47 	{
    48 	}
    49 
    50 CCafSupplierStep::CCafSupplierStep(CCAFServer& aParent) : iParent(aParent)
    51 	{
    52 	SetTestStepName(KCAFSupplierStep);
    53 	}
    54 
    55 
    56 TVerdict CCafSupplierStep::doTestStepL()
    57 	{
    58 	SetTestStepResult(EInconclusive);
    59 
    60 	RFs fs;
    61 	RFile file;
    62 	TBuf8 <128> readBuffer;
    63 	
    64 	INFO_PRINTF1(_L("Supplier Test - Agent provides output files"));
    65 	
    66 	TPtrC outputDirectory, sourceFileName, suggestedFileName, mimeType;
    67 	TInt expectedLeave;
    68 
    69 	// Get parameters from INI file
    70 	GetStringFromConfig(ConfigSection(),_L("OutputPath"),outputDirectory);
    71 	GetStringFromConfig(ConfigSection(),_L("SourceFileName"),sourceFileName);
    72 	GetStringFromConfig(ConfigSection(),_L("SuggestedFileName"),suggestedFileName);
    73 	GetStringFromConfig(ConfigSection(),_L("MimeType"),mimeType);
    74 	GetIntFromConfig(ConfigSection(),_L("LeaveResult"),expectedLeave);
    75 	
    76 	StartApparcServerL();
    77 
    78 	__UHEAP_MARK;
    79 	
    80 	HBufC8 *mime = ConvertDes16toHBufC8LC(mimeType);
    81 
    82 	CCafMimeHeader *header = CCafMimeHeader::NewL(mime->Des());
    83 	CleanupStack::PushL(header);
    84 
    85 	CSupplier *mySupplier = CSupplier::NewLC();
    86 	mySupplier->SetOutputDirectoryL(outputDirectory);
    87 	
    88 	// ignore return value, just exercises code for CCover
    89 	mySupplier->IsImportSupported(header->StandardMimeData(EContentType));
    90 
    91 	CImportFile *import = NULL;
    92 	TRAPD(leaveResult, import = mySupplier->ImportFileL(*header, suggestedFileName));
    93 	if(leaveResult != expectedLeave)
    94 		{
    95 		SetTestStepResult(EFail);
    96 		}
    97 	if(leaveResult == KErrNone)
    98 		{
    99 		CleanupStack::PushL(import);
   100 
   101 		// read the input file and pass it to the CAF
   102 		fs.Connect();
   103 		CleanupClosePushL(fs);
   104 	
   105 		TInt result = file.Open(fs, sourceFileName, EFileRead | EFileStream | EFileShareAny);
   106 		CleanupClosePushL(file);
   107 		while(result == KErrNone)
   108 			{
   109 			result = file.Read(readBuffer);
   110 			if(readBuffer.Length() == 0)
   111 				break;
   112 			User::LeaveIfError(import->WriteData(readBuffer));
   113 			}
   114 		CleanupStack::PopAndDestroy(&file); 
   115 		User::LeaveIfError(import->WriteDataComplete());
   116 
   117 		TInt n = import->OutputFileCountL();
   118 		for(TInt i = 0; i < n; i++)
   119 			{
   120 			// get output file name
   121 			TPtrC OutputFileName = import->OutputFileL(i).FileName();
   122 			INFO_PRINTF2(_L("Output File Created: %S"),&OutputFileName);
   123 
   124 			// get output file type (content or receipt)
   125 			TOutputType outputType = import->OutputFileL(i).OutputType();
   126 
   127 			if(outputType == EReceipt)
   128 				{
   129 				INFO_PRINTF1(_L("Output File is a receipt"));
   130 				}
   131 			else
   132 				{
   133 				INFO_PRINTF1(_L("Output File is content"));
   134 				}
   135 
   136 			// get output file mime type
   137 			TPtrC8 OutputMimeType = import->OutputFileL(i).MimeTypeL();
   138 			HBufC *mime = ConvertDes8toHBufC16LC(OutputMimeType );
   139 			INFO_PRINTF2(_L("Output File Mime Type: %S"),mime);
   140 			CleanupStack::PopAndDestroy(mime); 
   141 			}
   142 		CleanupStack::PopAndDestroy(&fs); 
   143 		CleanupStack::PopAndDestroy(import); 
   144 		}
   145 	CleanupStack::PopAndDestroy(mySupplier); 
   146 	CleanupStack::PopAndDestroy(header); 
   147 	CleanupStack::PopAndDestroy(mime); 
   148 	__UHEAP_MARKEND;
   149 
   150 	if (TestStepResult() != EFail)
   151 		{
   152 		SetTestStepResult(EPass);
   153 		}
   154 
   155 	return TestStepResult();
   156 	}
   157 
   158 
   159 
   160 /* 
   161  * This step imports a DCF file into CAF 
   162  *
   163  */
   164 CCafSupplierAsyncStep::~CCafSupplierAsyncStep()
   165 	{
   166 	}
   167 
   168 CCafSupplierAsyncStep::CCafSupplierAsyncStep(CCAFServer& aParent) : iParent(aParent)
   169 	{
   170 	SetTestStepName(KCAFSupplierAsyncStep);
   171 	}
   172 
   173 
   174 TVerdict CCafSupplierAsyncStep::doTestStepL()
   175 	{
   176 	SetTestStepResult(EInconclusive);
   177 
   178 	RFs fs;
   179 	RFile file;
   180 	TBuf8 <128> readBuffer;
   181 	TRequestStatus status;
   182 
   183 	INFO_PRINTF1(_L("Asynchronous Supplier Test - Agent provides output files"));
   184 	
   185 	TPtrC outputDirectory, sourceFileName, suggestedFileName, mimeType;
   186 	TInt expectedLeave;
   187 	
   188 	// Get parameters from INI file
   189 	GetStringFromConfig(ConfigSection(),_L("OutputPath"),outputDirectory);
   190 	GetStringFromConfig(ConfigSection(),_L("SourceFileName"),sourceFileName);
   191 	GetStringFromConfig(ConfigSection(),_L("SuggestedFileName"),suggestedFileName);
   192 	GetStringFromConfig(ConfigSection(),_L("MimeType"),mimeType);
   193 	GetIntFromConfig(ConfigSection(),_L("LeaveResult"),expectedLeave);
   194 
   195 	StartApparcServerL();
   196 
   197 
   198 	__UHEAP_MARK;
   199 	
   200 	HBufC8 *mime = ConvertDes16toHBufC8LC(mimeType);
   201 
   202 	CCafMimeHeader *header = CCafMimeHeader::NewL(mime->Des());
   203 	CleanupStack::PushL(header);
   204 
   205 	CSupplier *mySupplier = CSupplier::NewLC();
   206 	mySupplier->SetOutputDirectoryL(outputDirectory);
   207 
   208 	// ignore return value, just exercises code for CCover
   209 	mySupplier->IsImportSupported(header->StandardMimeData(EContentType));
   210 
   211 	CImportFile *import = NULL;
   212 	TRAPD(leaveResult, import = mySupplier->ImportFileL(*header, suggestedFileName));
   213 	if(leaveResult != expectedLeave)
   214 		{
   215 		SetTestStepResult(EFail);
   216 		}
   217 	if(leaveResult == KErrNone)
   218 		{
   219 		CleanupStack::PushL(import);
   220 
   221 		// read the input file and pass it to the CAF
   222 		fs.Connect();
   223 		CleanupClosePushL(fs);
   224 	
   225 		TInt result = file.Open(fs, sourceFileName, EFileRead | EFileStream | EFileShareAny);
   226 		CleanupClosePushL(file);
   227 		while(result == KErrNone)
   228 			{
   229 			result = file.Read(readBuffer);
   230 			if(readBuffer.Length() == 0)
   231 				break;
   232 			status = KRequestPending;
   233 			import->WriteData(readBuffer,status);
   234 			User::WaitForRequest(status);
   235 			}
   236 		CleanupStack::PopAndDestroy(&file); 
   237 		status = KRequestPending;
   238 		import->WriteDataComplete(status);
   239 		User::WaitForRequest(status);
   240 
   241 		TInt n = import->OutputFileCountL();
   242 		for(TInt i = 0; i < n; i++)
   243 			{
   244 			// get output file name
   245 			TPtrC OutputFileName = import->OutputFileL(i).FileName();
   246 			INFO_PRINTF2(_L("Output File Created: %S"),&OutputFileName);
   247 
   248 			// get output file type (content or receipt)
   249 			TOutputType outputType = import->OutputFileL(i).OutputType();
   250 
   251 			if(outputType == EReceipt)
   252 				{
   253 				INFO_PRINTF1(_L("Output File is a receipt"));
   254 				}
   255 			else
   256 				{
   257 				INFO_PRINTF1(_L("Output File is content"));
   258 				}
   259 
   260 			// get output file mime type
   261 			TPtrC8 OutputMimeType = import->OutputFileL(i).MimeTypeL();
   262 			HBufC *mime = ConvertDes8toHBufC16LC(OutputMimeType );
   263 			INFO_PRINTF2(_L("Output File Mime Type: %S"),mime);
   264 			CleanupStack::PopAndDestroy(mime); 
   265 			}
   266 
   267 		CleanupStack::PopAndDestroy(&fs); 
   268 		CleanupStack::PopAndDestroy(import); 
   269 		}
   270 	CleanupStack::PopAndDestroy(mySupplier); 
   271 	CleanupStack::PopAndDestroy(header); 
   272 	CleanupStack::PopAndDestroy(mime); 
   273 	__UHEAP_MARKEND;
   274 		
   275 	if (TestStepResult() != EFail)
   276 		{
   277 		SetTestStepResult(EPass);
   278 		}
   279 
   280 	return TestStepResult();
   281 	}
   282 
   283 
   284 
   285 /* 
   286  * This step imports a DCF file into CAF 
   287  *
   288  */
   289 CCafClientOutputSupplierStep::~CCafClientOutputSupplierStep()
   290 	{
   291 	}
   292 
   293 CCafClientOutputSupplierStep::CCafClientOutputSupplierStep(CCAFServer& aParent) : iParent(aParent)
   294 	{
   295 	SetTestStepName(KCAFClientOutputSupplierStep);
   296 	}
   297 
   298 void CCafClientOutputSupplierStep::CheckContentMimeL(CImportFile* aImport, TDes8& aContentMime, TDesC8& aExpectedContentMime)
   299 	{
   300 	if(!aImport->ContentMimeTypeL(aContentMime))
   301 		{
   302 		//Agent can't determine the content MIME type with available data at the moment
   303 						
   304 		INFO_PRINTF1(_L("Content MIME Type can't be determined"));
   305 		SetTestStepResult(EFail);
   306 		return;
   307 		}
   308 	
   309 									    
   310 	//If we reach here, we are expecting a correct Content MIME type 
   311 	HBufC *mime = ConvertDes8toHBufC16LC(aContentMime);
   312 	INFO_PRINTF2(_L("Content MIME Type: %S"), mime);
   313 	CleanupStack::PopAndDestroy(mime);
   314 										    					    				    					    	
   315 	if(aContentMime.CompareF(aExpectedContentMime) == 0)
   316 		{
   317 		SetTestStepResult(EPass);
   318 		}
   319 	else
   320 		{
   321 		ERR_PRINTF1(_L("Content MIME Type doesn't match expected"));
   322 		SetTestStepResult(EFail);
   323 		}
   324 			
   325 	}
   326 
   327 
   328 TVerdict CCafClientOutputSupplierStep::doTestStepL()
   329 	{
   330 	SetTestStepResult(EInconclusive);
   331 
   332 	RFs fs;
   333 	RFile file;
   334 	TBuf8 <128> readBuffer;
   335 	TBuf8 <255> mimetype8;
   336 	TFileName outputFileName;
   337 	RFile outputFile;
   338 	CImportFile *import = NULL;
   339 	
   340 	// first output file will be a.txt
   341 	_LIT(KOutputFileName, "C:\\something.drm");
   342 	outputFileName.Copy(KOutputFileName);
   343 	
   344 	INFO_PRINTF1(_L("Supplier Test - Client provides output files"));
   345 	
   346 	TPtrC outputDirectory, sourceFileName, suggestedFileName, mimeType, expectedContentMime;
   347 	TInt expectedLeave;
   348 	TBool checkContentMime = EFalse;
   349 	TBuf8<KMaxDataTypeLength> contentMimeType;	
   350 	
   351 	// Get parameters from INI file
   352 	GetStringFromConfig(ConfigSection(),_L("OutputPath"),outputDirectory);
   353 	GetStringFromConfig(ConfigSection(),_L("SourceFileName"),sourceFileName);
   354 	GetStringFromConfig(ConfigSection(),_L("SuggestedFileName"),suggestedFileName);
   355 	GetStringFromConfig(ConfigSection(),_L("MimeType"),mimeType);
   356 	GetIntFromConfig(ConfigSection(),_L("LeaveResult"),expectedLeave);
   357 	GetStringFromConfig(ConfigSection(),_L("ExpectedContentMime"),expectedContentMime);
   358 	GetBoolFromConfig(ConfigSection(),_L("CheckContentMime"),checkContentMime);
   359 	
   360 	
   361 	StartApparcServerL();
   362 
   363 	__UHEAP_MARK;
   364 	
   365 	mimetype8.Copy(mimeType);
   366 
   367 	// fill in meta data - just the mime type really
   368 	CMetaDataArray *array = CMetaDataArray::NewL();
   369 	CleanupStack::PushL(array);
   370 	_LIT8(KContentType,"content-type");
   371 	array->AddL(KContentType(), mimetype8);
   372 
   373 	// create a supplier session
   374 	CSupplier *mySupplier = CSupplier::NewL();
   375 	CleanupStack::PushL(mySupplier);
   376 	
   377 	// check import is supported, ignore return value, just exercises code for CCover
   378 	mySupplier->IsImportSupported(array->SearchL(KContentType()));
   379 
   380 	// create import session
   381 	TRAPD(leaveResult, import = mySupplier->ImportFileL(mimetype8, *array));
   382 	if(leaveResult != expectedLeave)
   383 		{
   384 		SetTestStepResult(EFail);
   385 		}
   386 	if(leaveResult == KErrNone)
   387 		{
   388 		CleanupStack::PushL(import);
   389 
   390 		// read the input file and pass it to the CAF
   391 		fs.Connect();
   392 		CleanupClosePushL(fs);
   393 		TInt result = file.Open(fs, sourceFileName, EFileRead | EFileStream | EFileShareAny);
   394 		CleanupClosePushL(file);
   395 		
   396 		TParsePtrC parse(suggestedFileName);
   397 		TPtrC desiredOutFileName( parse.Name() );
   398 		
   399 		while(result == KErrNone)
   400 			{
   401 			result = file.Read(readBuffer);
   402 			if(readBuffer.Length() == 0)
   403 				break;
   404 			result = import->WriteData(readBuffer);
   405 			while(result == KErrCANewFileHandleRequired)
   406 				{
   407 				
   408 				if(checkContentMime)
   409 					{
   410 					
   411 					//If CheckContentMimeL failed, Client code should assume content MIME type wouldn't
   412 					//be available until after the supply session has finished. The imported data could be
   413 					//output to default location
   414 					//In this test step, data are always output to default location regardless of content MIME
   415 					//type
   416 					TBuf8<KMaxDataTypeLength> expectedContentMime8bit;
   417 					expectedContentMime8bit.Copy(expectedContentMime);
   418 					CheckContentMimeL(import, contentMimeType, expectedContentMime8bit);
   419 					//no more check needed in following iterations
   420 					checkContentMime = EFalse;
   421 						
   422 					//At this point client should decide where to save the file based on content mime
   423 					
   424 					}
   425 				
   426 				const TInt KMaxExtLen = 28;
   427 				TBuf<KMaxExtLen> suggestedExt;
   428 				User::LeaveIfError(import->GetSuggestedOutputFileExtension(suggestedExt));
   429 				outputFileName.Copy(outputDirectory);
   430 				outputFileName.Append(desiredOutFileName);
   431 				outputFileName.Append(suggestedExt);
   432 				// create a new outputfile
   433 				fs.Delete(outputFileName);
   434 				User::LeaveIfError(outputFile.Create(fs,outputFileName, EFileShareAny  | EFileStream | EFileWrite));
   435 				result = import->ContinueWithNewOutputFile(outputFile,outputFileName);
   436 				outputFile.Close();
   437 				}
   438 			User::LeaveIfError(result);
   439 			}
   440 		CleanupStack::PopAndDestroy(&file); 
   441 		result = import->WriteDataComplete();
   442 		while(result == KErrCANewFileHandleRequired)
   443 				{
   444 				TFileName suggestedName;
   445 				User::LeaveIfError(import->GetSuggestedOutputFileName(suggestedName));
   446 				outputFileName.Copy(outputDirectory);
   447 				outputFileName.Append(suggestedName);
   448 
   449 				// create a new outputfile
   450 				fs.Delete(outputFileName);
   451 				User::LeaveIfError(outputFile.Create(fs,outputFileName, EFileShareAny  | EFileStream | EFileWrite));
   452 				result = import->ContinueWithNewOutputFile(outputFile,outputFileName);
   453 				outputFile.Close();
   454 				}
   455 	
   456 
   457 		TInt n = import->OutputFileCountL();
   458 		for(TInt i = 0; i < n; i++)
   459 			{
   460 			// get output file name
   461 			TPtrC OutputFileName = import->OutputFileL(i).FileName();
   462 			INFO_PRINTF2(_L("Output File Created: %S"),&OutputFileName);
   463 
   464 			// get output file type (content or receipt)
   465 			TOutputType outputType = import->OutputFileL(i).OutputType();
   466 
   467 			if(outputType == EReceipt)
   468 				{
   469 				INFO_PRINTF1(_L("Output File is a receipt"));
   470 				}
   471 			else
   472 				{
   473 				INFO_PRINTF1(_L("Output File is content"));
   474 				}
   475 
   476 			// get output file mime type
   477 			TPtrC8 OutputMimeType = import->OutputFileL(i).MimeTypeL();
   478 			HBufC *mime = ConvertDes8toHBufC16LC(OutputMimeType );
   479 			INFO_PRINTF2(_L("Output File Mime Type: %S"),mime);
   480 			CleanupStack::PopAndDestroy(mime); 
   481 			}
   482 		CleanupStack::PopAndDestroy(&fs); 
   483 		CleanupStack::PopAndDestroy(import); 
   484 		}
   485 	CleanupStack::PopAndDestroy(mySupplier); 
   486 	CleanupStack::PopAndDestroy(array); 
   487 	__UHEAP_MARKEND;
   488 
   489 	if (TestStepResult() != EFail)
   490 		{
   491 		SetTestStepResult(EPass);
   492 		}
   493 
   494 	return TestStepResult();
   495 	}
   496 
   497 
   498 /* 
   499  * This step tests the ExternalizeL() and InternalizeL() functions for
   500  * CCafMimeHeader
   501  */
   502 CCAFSupplierSerializeStep::~CCAFSupplierSerializeStep()
   503 	{
   504 	}
   505 
   506 CCAFSupplierSerializeStep::CCAFSupplierSerializeStep(CCAFServer& aParent) : iParent(aParent)
   507 	{
   508 	SetTestStepName(KCAFSupplierSerializeStep);
   509 	}
   510 
   511 
   512 TVerdict CCAFSupplierSerializeStep::doTestStepL()
   513 	{	
   514 	_LIT8(KDrmMime,"application/testagent.drm");
   515 	_LIT8(KBinaryEncoding,"Binary");
   516 	_LIT8(KOmaRightsPending, "X-Oma-Drm-Separate-Delivery");
   517 	_LIT8(KOmaRightsPendingValue, "12");
   518 	
   519 	SetTestStepResult(EInconclusive); // Default result to EInconclusive
   520 
   521 	__UHEAP_MARK;
   522 	
   523 	// create a CafMimeHeader with "content type:" application/testagent.drm
   524 	CCafMimeHeader *header = CCafMimeHeader::NewL(KDrmMime());
   525 	CleanupStack::PushL(header);
   526 	
   527 	// Add some information to the header
   528 	header->SetStandardMimeDataL(EContentTransferEncoding, KBinaryEncoding());
   529 	header->AddNonStandardMimeL(KOmaRightsPending(), KOmaRightsPendingValue());
   530 
   531 	// Create a buffer stream
   532 	CBufFlat* buf = CBufFlat::NewL(50);
   533 	CleanupStack::PushL(buf);
   534 	RBufWriteStream stream(*buf);
   535 	CleanupClosePushL(stream);
   536 
   537 	// call the stream function
   538 	stream << *header;
   539 	CleanupStack::PopAndDestroy(&stream);
   540 
   541 	// Now, create an HBufC8 from the stream buf's length, and copy 
   542 	// the stream buffer into this descriptor
   543 	HBufC8* des = HBufC8::NewL(buf->Size());
   544 	TPtr8 ptr(des->Des());
   545 	buf->Read(0, ptr, buf->Size());
   546 
   547 	// destroy the buffer
   548 	CleanupStack::PopAndDestroy(buf);
   549 	CleanupStack::PushL(des);
   550 
   551 	// Now, stream a new CCafMimeHeader from the descriptor
   552 	CCafMimeHeader* newHeader = CCafMimeHeader::NewL(KNullDesC8());
   553 	CleanupStack::PushL(newHeader);
   554 	RDesReadStream readstream(*des);
   555 	CleanupClosePushL(readstream);
   556 	readstream >> *newHeader;
   557 	CleanupStack::PopAndDestroy(&readstream);
   558 
   559 	// Now check that the new bitset equals the old one
   560 	TInt result = newHeader->StandardMimeData(EContentType).Compare(KDrmMime());
   561 	if (result != 0)
   562 		{
   563 		INFO_PRINTF1(_L("Content type was not copied properly during seriaization"));
   564 		SetTestStepResult(EFail);
   565 		}
   566 	result = newHeader->StandardMimeData(EContentTransferEncoding).Compare(KBinaryEncoding());
   567 	if (result != 0)
   568 		{
   569 		INFO_PRINTF1(_L("Content Length was not copied properly during seriaization"));
   570 		SetTestStepResult(EFail);
   571 		}
   572 	
   573 	if (newHeader->NonStandardMimeCount() != 1)
   574 		{
   575 		INFO_PRINTF1(_L("Non standard field array not copied properly during seriaization"));
   576 		SetTestStepResult(EFail);
   577 		}
   578 
   579 	result = newHeader->NonStandardMimeField(0).Compare(KOmaRightsPending());
   580 	if (result != 0)
   581 		{
   582 		INFO_PRINTF1(_L("Non standard field not copied properly during seriaization"));
   583 		SetTestStepResult(EFail);
   584 		}
   585 
   586 	result = newHeader->NonStandardMimeData(0).Compare(KOmaRightsPendingValue());
   587 	if (result != 0)
   588 		{
   589 		INFO_PRINTF1(_L("Non standard field data was not copied properly during seriaization"));
   590 		SetTestStepResult(EFail);
   591 		}
   592 
   593 	CleanupStack::PopAndDestroy(3, header);
   594 
   595 	__UHEAP_MARKEND;
   596 	
   597 	if (TestStepResult() != EFail)
   598 		{
   599 		SetTestStepResult(EPass);
   600 		}
   601 
   602 	return TestStepResult();
   603 	}
   604 
   605 #ifdef INTERNALLY_ENABLE_UPWARD_DEPENDENCY
   606 
   607 /* 
   608  * Check that applications can retrieve the HTTP request headers
   609  */
   610 CCAFHTTPRequestHeadersStep::~CCAFHTTPRequestHeadersStep()
   611 	{
   612 	}
   613 
   614 CCAFHTTPRequestHeadersStep::CCAFHTTPRequestHeadersStep(CCAFServer& aParent) : iParent(aParent)
   615 	{
   616 	SetTestStepName(KCAFHTTPRequestHeadersStep);
   617 	}
   618 
   619 
   620 void CCAFHTTPRequestHeadersStep::MHFRunL(RHTTPTransaction, const THTTPEvent&)
   621 	{
   622 	
   623 	}
   624 	
   625 TInt CCAFHTTPRequestHeadersStep::MHFRunError(TInt, RHTTPTransaction, const THTTPEvent&)
   626 	{
   627 	return 0;
   628 	}
   629 
   630 
   631 TVerdict CCAFHTTPRequestHeadersStep::doTestStepL()
   632 	{	
   633 	_LIT8(Kuri, "http://www.symbian.com/");
   634 	TPtrC8 acceptHeader;
   635 	TInt i = 0;
   636 	TInt result = 0;
   637 	
   638 	SetTestStepResult(EInconclusive); // Default result to EInconclusive
   639 	THTTPHdrVal aValue;
   640 	
   641 	__UHEAP_MARK;
   642 
   643 	CSupplier* supplier = CSupplier::NewLC();
   644 	
   645 	// Create an HTTP session 
   646 	RHTTPSession session;
   647 	session.OpenL();
   648 	RStringPool pool = session.StringPool();
   649 	
   650 	
   651 	// Convert the URI string into a TUri8
   652 	TUriParser8 parser;
   653 	parser.Parse(Kuri());
   654 	
   655 	// create an HTTP transaction
   656 	RHTTPTransaction transaction = session.OpenTransactionL(parser, *this, pool.StringF(HTTP::EGET,RHTTPSession::GetTable()));
   657 	RHTTPHeaders hdr = transaction.Request().GetHeaderCollection();
   658 
   659 	// Get the request headers from the agent
   660 	supplier->PrepareHTTPRequestHeaders(pool, hdr);
   661 	
   662 	TInt fieldParts = hdr.FieldPartsL(pool.StringF(HTTP::EAccept, RHTTPSession::GetTable()));
   663 	if(fieldParts == 3)
   664 		{
   665 		for(i = 0; i < fieldParts; i++)
   666 			{
   667 			// loop over all accept headers make sure we find the three we expect
   668 			User::LeaveIfError(hdr.GetField(pool.StringF(HTTP::EAccept, RHTTPSession::GetTable()), i, aValue));
   669 	
   670 			RStringF header = (RStringF) aValue;
   671 			acceptHeader.Set(header.DesC()); 
   672 		
   673 			// Reference Test Agent - content MIME type
   674 			if(acceptHeader.Compare(_L8("application/x-rta.drm.content")) == 0)
   675 				{
   676 				result |= 1;
   677 				}
   678 			// Reference Test Agent - content + rights MIME type
   679 			else if(acceptHeader.Compare(_L8("application/x-rta.drm.contentrights")) == 0)
   680 				{
   681 				result |= 2;
   682 				}
   683 			// Test Agent - MIME type
   684 			else if(acceptHeader.Compare(_L8("APPLICATION/TESTAGENT.DRM")) == 0)
   685 				{
   686 				result |= 4;
   687 				}
   688 			}
   689 		if(result != 7)
   690 			{
   691 			// not all three headers were found
   692 			INFO_PRINTF1(_L("Not all expected HTTP Accept headers were present"));
   693 			SetTestStepResult(EFail);		
   694 			}
   695 		}
   696 	else
   697 		{
   698 		// We were expecting three accept headers to be set
   699 		// two from the Reference Test Agent and one from Test Agent
   700 		INFO_PRINTF2(_L("ERROR: Only %d HTTP Accept headers were returned, expected 3"), fieldParts);
   701 		SetTestStepResult(EFail);	
   702 		}
   703 		
   704 	transaction.Close();
   705 	session.Close();
   706 	CleanupStack::PopAndDestroy(supplier);
   707 	__UHEAP_MARKEND;
   708 	
   709 	if (TestStepResult() != EFail)
   710 		{
   711 		SetTestStepResult(EPass);
   712 		}
   713 
   714 	return TestStepResult();
   715 	}
   716 
   717 #endif
   718 
   719