1 // Copyright (c) 2008-2009 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 the License "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 // e32test\misc\t_svrstress.cpp

    15 // This is a stress test for client server session connect and disconnect

    16 //

    17 

    18 #include <e32base.h>

    19 #include <e32base_private.h>

    20 #define __E32TEST_EXTENSION__

    21 #include <e32test.h>

    22 #include <e32svr.h>

    23 #include "u32std.h"

    24 #include <e32atomics.h>

    25 #include <e32panic.h>

    26 #include <e32def.h>

    27 #include <e32def_private.h>

    28 

    29 RTest test(_L("T_SVRSTRESS"));

    30 

    31 RSemaphore SyncSemaphore;

    32 TUint32 WaitABit;

    33 

    34 TInt NumMessageSlots;

    35 TInt UseGlobalMessagePool;

    36 

    37 const TInt BigDesLength = 256 * 1024;

    38 

    39 #if 1

    40 #define TRACE(t) RDebug::RawPrint(_L8(t))

    41 #else

    42 #define TRACE(t)

    43 #endif

    44 

    45 //

    46 // utility functions...

    47 //

    48 

    49 void WaitForRequest()

    50 	{

    51 	User::WaitForAnyRequest();

    52 	RThread().RequestSignal(); // put request semaphore count back

    53 	}

    54 

    55 

    56 TInt WaitForRequest(TRequestStatus& aStatus,TTimeIntervalMicroSeconds32 aTimeout=2*1000000)

    57 	{

    58 	RTimer timer;

    59 	test_Equal(KErrNone,timer.CreateLocal());

    60 

    61 	TRequestStatus timeoutStatus;

    62 	timer.After(timeoutStatus,aTimeout);

    63 

    64 	User::WaitForRequest(aStatus,timeoutStatus);

    65 

    66 	TInt r;

    67 	if(aStatus.Int()==KRequestPending)

    68 		{

    69 		r = KErrTimedOut;

    70 		}

    71 	else

    72 		{

    73 		r = KErrNone;

    74 		timer.Cancel();

    75 		User::WaitForRequest(timeoutStatus);

    76 		}

    77 

    78 	CLOSE_AND_WAIT(timer);

    79 

    80 	return r;

    81 	}

    82 

    83 

    84 //

    85 // CMyServer

    86 //

    87 

    88 _LIT(KMyServerName,"StressSvr");

    89 

    90 class CMyServer : public CServer2

    91 	{

    92 public:

    93 	CMyServer(TInt aPriority);

    94 	static CMyServer* New(TInt aPriority);

    95 	virtual CSession2* NewSessionL(const TVersion&, const RMessage2&) const;

    96 	};

    97 

    98 

    99 class CMySession : public CSession2

   100 	{

   101 public:

   102 	virtual void ServiceL(const RMessage2& aMessage);

   103 	};

   104 

   105 

   106 CMyServer* CMyServer::New(TInt aPriority)

   107 	{

   108 	return new CMyServer(aPriority);

   109 	}

   110 

   111 

   112 CMyServer::CMyServer(TInt aPriority)

   113 	: CServer2(aPriority, ESharableSessions)

   114 	{}

   115 

   116 

   117 CSession2* CMyServer::NewSessionL(const TVersion&, const RMessage2&) const

   118 	{

   119 	TRACE("O");

   120 	return new(ELeave) CMySession;

   121 	}

   122 

   123 

   124 TBool RestartServer;

   125 

   126 TInt MyServerThread(TAny*)

   127 	{

   128 	CActiveScheduler* pR=new CActiveScheduler;

   129 	if(!pR)

   130 		return KErrNoMemory;

   131 	CActiveScheduler::Install(pR);

   132 	RestartServer = ETrue;

   133 

   134 	while(RestartServer)

   135 		{

   136 		__UHEAP_MARK;

   137 		CMyServer* pS=CMyServer::New(0);

   138 		if(!pS)

   139 			return KErrNoMemory;

   140 		TInt r = pS->Start(KMyServerName);

   141 		if(r!=KErrNone)

   142 			return r;

   143 

   144 		TRACE("S");

   145 		RThread::Rendezvous(KErrNone);

   146 

   147 		CActiveScheduler::Start();

   148 

   149 		delete pS;

   150 		__UHEAP_MARKEND;

   151 		}

   152 

   153 	delete pR;

   154 	return KErrNone;

   155 	}

   156 

   157 

   158 //

   159 // RMyServer

   160 //

   161 

   162 class RMyServer : public RSessionBase

   163 	{

   164 public:

   165 	enum TFunction

   166 		{

   167 		EStop,

   168 		ESync,

   169 		EPing,

   170 		EShutdown,

   171 		ECompleteWhileCopying

   172 		};

   173 public:

   174 	TInt Connect();

   175 

   176 	inline TInt Send(TFunction aFunction) const

   177 		{ return SendReceive(aFunction); }

   178 

   179 	inline TInt Send(TFunction aFunction, const TIpcArgs& aArgs) const

   180 		{ return SendReceive(aFunction, aArgs); }

   181 

   182 	inline void Send(TFunction aFunction, TRequestStatus& aStatus) const

   183 		{ SendReceive(aFunction, aStatus); }

   184 

   185 	inline void Send(TFunction aFunction, const TIpcArgs& aArgs, TRequestStatus& aStatus) const

   186 		{ SendReceive(aFunction, aArgs, aStatus); }

   187 	};

   188 

   189 

   190 TInt RMyServer::Connect()

   191 	{

   192 	RMyServer temp;

   193 	TInt r = temp.CreateSession(KMyServerName, TVersion(), UseGlobalMessagePool ? -1 : NumMessageSlots);

   194 	if(r!=KErrNone)

   195 		return r;

   196 

   197 	// turn handle into process owned...

   198 	RMyServer temp2(temp);

   199 	r = temp2.Duplicate(RThread());

   200 	temp.Close();

   201 

   202 	*this = temp2;

   203 	return r;

   204 	}

   205 

   206 

   207 

   208 //

   209 // CMySession

   210 //

   211 

   212 TInt CopierThread(TAny* aPtr)

   213 	{

   214 	RMessage2& msg = *(RMessage2*)aPtr;

   215 	HBufC* bigdes = HBufC::NewMax(BigDesLength);

   216 	if (bigdes == NULL)

   217 		return KErrNoMemory;

   218 	TPtr ptr = bigdes->Des();

   219 	RThread().Rendezvous(KErrNone);

   220 	RDebug::Print(_L("START\n"));

   221 	TInt r = msg.Read(2, ptr);

   222 	RDebug::Print(_L("DONE\n"));

   223 	delete bigdes;

   224 	return r;

   225 	}

   226 

   227 void CMySession::ServiceL(const RMessage2& aMessage)

   228 	{

   229 	RThread client;

   230 	RThread copier;

   231 	aMessage.Client(client);

   232 	TRequestStatus* s;

   233 	TRequestStatus* s2;

   234 	TRequestStatus logon, rendez;

   235 	TInt r;

   236 	s = (TRequestStatus*)aMessage.Ptr0();

   237 

   238 	switch(aMessage.Function())

   239 		{

   240 	case RMyServer::EStop:

   241 		TRACE("E");

   242 		CActiveScheduler::Stop();

   243 		break;

   244 

   245 	case RMyServer::ESync:

   246 		TRACE("Y");

   247 		client.RequestComplete(s,KErrNone);		// let client know we've received the message

   248 		SyncSemaphore.Wait();					// wait for signal from client

   249 		s = (TRequestStatus*)aMessage.Ptr1();	// use second status for later end signal

   250 		aMessage.Complete(KErrNone);			// complete the message

   251 		break;

   252 

   253 	case RMyServer::EPing:

   254 		TRACE("P");

   255 		aMessage.Complete(KErrNone);

   256 		break;

   257 

   258 	case RMyServer::EShutdown:

   259 		TRACE("D");

   260 		RestartServer = EFalse;

   261 		CActiveScheduler::Stop();

   262 		break;

   263 

   264 	case RMyServer::ECompleteWhileCopying:

   265 		s2 = (TRequestStatus*)aMessage.Ptr1();

   266 		r = copier.Create(_L("Copier"),CopierThread,KDefaultStackSize,&User::Allocator(),(TAny*)&aMessage);

   267 		if (r == KErrNone)

   268 			{

   269 			copier.Logon(logon);

   270 			copier.Rendezvous(rendez);

   271 			copier.SetPriority(EPriorityLess);

   272 			copier.Resume();

   273 			User::WaitForRequest(rendez);

   274 			User::AfterHighRes(5000); // 5ms delay to let copy actually start

   275 			RDebug::Print(_L("COMPLETING\n"));

   276 			aMessage.Complete(KErrNone);

   277 			User::WaitForRequest(logon);

   278 			copier.Close();

   279 			}

   280 		client.RequestComplete(s,r);

   281 		s = s2;

   282 		break;

   283 

   284 	default:

   285 		TRACE("?");

   286 		aMessage.Complete(KErrNotSupported);

   287 		break;

   288 		}

   289 

   290 	// let client know we've completed the message...

   291 	TRACE("X");

   292 	client.RequestComplete(s,KErrNone);

   293 

   294 	client.Close();

   295 	}

   296 

   297 

   298 

   299 //

   300 // RStressThread

   301 //

   302 

   303 class RStressThread

   304 	{

   305 public:

   306 	RStressThread(TThreadFunction aThreadFunction, const char* aName, TInt aDelay=-1);

   307 	~RStressThread();

   308 	void Start();

   309 	void Restart();

   310 	void Stop();

   311 	// for use by thread...

   312 	static RStressThread& Begin(TAny* aInfo);

   313 	TBool Loop();

   314 private:

   315 	TThreadFunction iThreadFunction;

   316 	const char* iName;

   317 	RThread iThread;

   318 	TRequestStatus iLogon;

   319 	TUint iCount;

   320 	TBool iStop;

   321 	TInt iDelay;

   322 

   323 private:

   324 	static TInt iInstanceCounter;

   325 	};

   326 

   327 

   328 TInt RStressThread::iInstanceCounter = 0;

   329 

   330 

   331 RStressThread::RStressThread(TThreadFunction aThreadFunction, const char* aName, TInt aDelay)

   332 	: iThreadFunction(aThreadFunction), iName(aName), iLogon(KErrNone), iDelay(aDelay)

   333 	{

   334 	iThread.SetHandle(0);

   335 	}

   336 

   337 

   338 RStressThread::~RStressThread()

   339 	{

   340 	Stop();

   341 	}

   342 

   343 

   344 void RStressThread::Start()

   345 	{

   346 	iStop = false;

   347 	iCount = 0;

   348 

   349 	TBuf<KMaxKernelName> name;

   350 	name.Copy(TPtrC8((const TUint8*)iName));

   351 	name.Append((TText)'-');

   352 	name.AppendNum(iInstanceCounter++);

   353 	test_Equal(KErrNone,iThread.Create(name,iThreadFunction,KDefaultStackSize,&User::Allocator(),this));

   354 

   355 	iThread.Logon(iLogon);

   356 	test_Equal(KRequestPending,iLogon.Int());

   357 

   358 	TRequestStatus rendezvous;

   359 	iThread.Rendezvous(rendezvous);

   360 

   361 	iThread.Resume();

   362 

   363 	User::WaitForRequest(rendezvous);

   364 	test_Equal(KErrNone,rendezvous.Int());

   365 	}

   366 

   367 

   368 void RStressThread::Stop()

   369 	{

   370 	if(!iThread.Handle())

   371 		return; // thread not running

   372 

   373 	iStop = true;

   374 	RDebug::Printf("RStressThread::Stop %s (count=%d)",iName,iCount);

   375 	if(WaitForRequest(iLogon,10*1000000)!=KErrNone)

   376 		test(0);

   377 	CLOSE_AND_WAIT(iThread);

   378 	}

   379 

   380 

   381 void RStressThread::Restart()

   382 	{

   383 	if(iThread.Handle())

   384 		{

   385 		if(iLogon==KRequestPending)

   386 			return; // thread still running

   387 

   388 		User::WaitForRequest(iLogon);

   389 		CLOSE_AND_WAIT(iThread);

   390 		}

   391 

   392 	Start();

   393 	}

   394 

   395 

   396 TBool RStressThread::Loop()

   397 	{

   398 	if(iDelay>=0)

   399 		User::AfterHighRes(iDelay);

   400 	++iCount;

   401 	return !iStop;

   402 	}

   403 

   404 

   405 RStressThread& RStressThread::Begin(TAny* aInfo)

   406 	{

   407 	RStressThread& t = *(RStressThread*)aInfo;

   408 	if(t.iDelay>=0)

   409 		RThread().SetPriority(EPriorityMore); // so this preempts threads after delay

   410 	RThread::Rendezvous(KErrNone);

   411 	return t;

   412 	}

   413 

   414 //

   415 //

   416 //

   417 

   418 

   419 RMyServer Session;

   420 RThread ServerThread;

   421 

   422 

   423 void NewSession()

   424 	{

   425 	RMyServer newSession;

   426 	TRACE("o");

   427 	test_Equal(KErrNone,newSession.Connect());

   428 

   429 	RMyServer oldSession(Session);

   430 	Session = newSession;

   431 

   432 	TRACE("c");

   433 	if(oldSession.Handle())

   434 		CLOSE_AND_WAIT(oldSession);

   435 	}

   436 

   437 

   438 TInt SessionCloserThread(TAny* aInfo)

   439 	{

   440 	RStressThread& t = RStressThread::Begin(aInfo);

   441 	do

   442 		{

   443 		NewSession();

   444 		}

   445 	while(t.Loop());

   446 	return KErrNone;

   447 	}

   448 

   449 

   450 TInt ServerStopperThread(TAny* aInfo)

   451 	{

   452 	RStressThread& t = RStressThread::Begin(aInfo);

   453 	do

   454 		{

   455 		TRACE("s");

   456 		TRequestStatus rendezvous;

   457 		ServerThread.Rendezvous(rendezvous);

   458 

   459 		TRequestStatus s1 = KRequestPending;

   460 		TRequestStatus s2;

   461 		Session.Send(RMyServer::EStop,TIpcArgs(&s1),s2);

   462 		User::WaitForRequest(s1,s2);

   463 		if(s2!=KRequestPending)

   464 			{

   465 			test_Equal(KErrServerTerminated,s2.Int());

   466 			User::WaitForRequest(s1);

   467 			}

   468 

   469 		User::WaitForRequest(rendezvous);

   470 		NewSession();

   471 		}

   472 	while(t.Loop());

   473 	return KErrNone;

   474 	}

   475 

   476 

   477 TInt SessionPingerThread(TAny* aInfo)

   478 	{

   479 	RStressThread& t = RStressThread::Begin(aInfo);

   480 	do

   481 		{

   482 		TRACE("p");

   483 		TRequestStatus s1 = KRequestPending;

   484 		TRequestStatus s2;

   485 		Session.Send(RMyServer::EPing,TIpcArgs(&s1),s2);

   486 		User::WaitForRequest(s1,s2);

   487 		if(s2.Int()==KErrNone)

   488 			{

   489 			// message completed OK, wait for servers extra signal

   490 			User::WaitForRequest(s1);

   491 			}

   492 		else if(s2.Int()==KErrServerTerminated)

   493 			{

   494 			// server died before message processed, there shouldn't be an extra signal

   495 			test_Equal(KRequestPending,s1.Int());

   496 			}

   497 		else

   498 			{

   499 			// assume message was completed by server, but we didn't get signalled because session was closed

   500 			test_Equal(KRequestPending,s2.Int());

   501 			test_Equal(KErrNone,s1.Int());

   502 			}

   503 		}

   504 	while(t.Loop());

   505 	return KErrNone;

   506 	}

   507 

   508 

   509 void TestInit()

   510 	{

   511 	RThread().SetPriority(EPriorityMuchMore); // so this main thread is higher priority than workers

   512 

   513 	test_Equal(KErrNone,SyncSemaphore.CreateLocal(0,EOwnerProcess));

   514 

   515 	// calculate async cleanup timeout value...

   516 	TInt factor = UserSvr::HalFunction(EHalGroupVariant, EVariantHalTimeoutExpansion, 0, 0);

   517 	if (factor<=0)

   518 		factor = 1;

   519 	if (factor>1024)

   520 		factor = 1024;

   521 	WaitABit = 200000 * (TUint32)factor;

   522 	}

   523 

   524 

   525 void StartServer()

   526 	{

   527 	// start test server...

   528 	test_Equal(KErrNone,ServerThread.Create(_L("Server"),MyServerThread,KDefaultStackSize,1<<12,1<<20,0));

   529 	TRequestStatus rendezvous;

   530 	ServerThread.Rendezvous(rendezvous);

   531 	ServerThread.Resume();

   532 	User::WaitForRequest(rendezvous);

   533 	test_Equal(KErrNone,rendezvous.Int());

   534 	test_Equal(EExitPending,ServerThread.ExitType());

   535 	}

   536 

   537 

   538 void StopServer()

   539 	{

   540 	TRequestStatus logon;

   541 	NewSession();

   542 	TRequestStatus s1 = KRequestPending;

   543 	TRequestStatus s2;

   544 	ServerThread.Logon(logon);

   545 	Session.Send(RMyServer::EShutdown,TIpcArgs(&s1),s2);

   546 	User::WaitForRequest(s1,s2);

   547 	if(s2!=KRequestPending)

   548 		{

   549 		test_Equal(KErrServerTerminated,s2.Int());

   550 		User::WaitForRequest(s1);

   551 		}

   552 	CLOSE_AND_WAIT(Session);

   553 	User::WaitForRequest(logon);

   554 	test_KErrNone(logon.Int());

   555 	test_Equal(EExitKill, ServerThread.ExitType());

   556 	CLOSE_AND_WAIT(ServerThread);

   557 	}

   558 

   559 

   560 void TestMessageCompleteOnClosedSession()

   561 	{

   562 	__KHEAP_MARK;

   563 

   564 	test.Start(_L("Start server"));

   565 	StartServer();

   566 

   567 	test.Next(_L("Connect"));

   568 	test_Equal(KErrNone,Session.Connect());

   569 

   570 	test.Next(_L("Send message"));

   571 	TRequestStatus s1 = KRequestPending;

   572 	TRequestStatus s2 = KRequestPending;

   573 	TRequestStatus s3;

   574 	Session.Send(RMyServer::ESync,TIpcArgs(&s1,&s2),s3);

   575 	test_Equal(KRequestPending,s3.Int());

   576 

   577 	test.Next(_L("Wait for s1"));

   578 	test_Equal(KErrNone,WaitForRequest(s1));

   579 	test_Equal(KErrNone,s1.Int());

   580 	test_Equal(KRequestPending,s2.Int());

   581 	test_Equal(KRequestPending,s3.Int());

   582 

   583 	test.Next(_L("Close session"));

   584 	Session.Close();

   585 	test_Equal(KRequestPending,s2.Int());

   586 	test_Equal(KRequestPending,s3.Int());

   587 

   588 	test.Next(_L("Trigger message completion"));

   589 	SyncSemaphore.Signal();

   590 

   591 	test.Next(_L("Wait for s2"));

   592 	test_Equal(KErrNone,WaitForRequest(s2));

   593 	test_Equal(KErrNone,s2.Int());

   594 	test_Equal(KRequestPending,s3.Int());

   595 

   596 	test.Next(_L("Stop server"));

   597 	StopServer();

   598 

   599 	test.End();

   600 

   601 	User::After(WaitABit);	// allow asynchronous cleanup to happen

   602 

   603 	__KHEAP_MARKEND;

   604 	}

   605 

   606 

   607 void TestMessageCompleteWhileCopying()

   608 	{

   609 	__KHEAP_MARK;

   610 

   611 	test.Start(_L("Start server"));

   612 	StartServer();

   613 

   614 	test.Next(_L("Connect"));

   615 	test_Equal(KErrNone,Session.Connect());

   616 

   617 	test.Next(_L("Create large descriptor"));

   618 	HBufC* bigdes = HBufC::NewMax(BigDesLength);

   619 	test_NotNull(bigdes);

   620 	TPtr ptr = bigdes->Des();

   621 

   622 	test.Next(_L("Send message"));

   623 	TRequestStatus s1 = KRequestPending;

   624 	TRequestStatus s2 = KRequestPending;

   625 	TRequestStatus s3;

   626 	Session.Send(RMyServer::ECompleteWhileCopying,TIpcArgs(&s1,&s2,&ptr),s3);

   627 

   628 	test.Next(_L("Wait for s3"));

   629 	test_Equal(KErrNone,WaitForRequest(s3,10*1000000));

   630 	test_Equal(KErrNone,s3.Int());

   631 

   632 	test.Next(_L("Wait for s2"));

   633 	test_Equal(KErrNone,WaitForRequest(s2,10*1000000));

   634 	test_Equal(KErrNone,s2.Int());

   635 

   636 	test.Next(_L("Wait for s1"));

   637 	test_Equal(KErrNone,WaitForRequest(s1,10*1000000));

   638 	test_Equal(KErrNone,s1.Int());

   639 

   640 	test.Next(_L("Close session"));

   641 	Session.Close();

   642 

   643 	test.Next(_L("Stop server"));

   644 	StopServer();

   645 

   646 	test.End();

   647 

   648 	User::After(WaitABit);	// allow asynchronous cleanup to happen

   649 

   650 	__KHEAP_MARKEND;

   651 	}

   652 

   653 

   654 void RunStressThreads(RStressThread& aThread1, RStressThread& aThread2, TInt aTimeout=1000000)

   655 	{

   656 	__KHEAP_MARK;

   657 

   658 	StartServer();

   659 

   660 	NewSession();

   661 

   662 	aThread1.Start();

   663 	aThread2.Start();

   664 

   665 	RTimer timer;

   666 	test_Equal(KErrNone,timer.CreateLocal());

   667 	TRequestStatus timeoutStatus;

   668 	timer.After(timeoutStatus,aTimeout);

   669 	do

   670 		{

   671 		aThread1.Restart();

   672 		aThread2.Restart();

   673 		WaitForRequest();

   674 		}

   675 	while(timeoutStatus==KRequestPending);

   676 	User::WaitForRequest(timeoutStatus);

   677 	CLOSE_AND_WAIT(timer);

   678 

   679 	aThread2.Stop();

   680 	aThread1.Stop();

   681 

   682 	CLOSE_AND_WAIT(Session);

   683 	StopServer();

   684 

   685 	User::After(WaitABit);	// allow asynchronous cleanup to happen

   686 	__KHEAP_MARKEND;

   687 	}

   688 

   689 

   690 GLDEF_C TInt E32Main()

   691 	{

   692 	TInt i;

   693 

   694 	test.Title();

   695 

   696 	test.Start(_L("Initialise"));

   697 	TestInit();

   698 

   699 	for(UseGlobalMessagePool=0; UseGlobalMessagePool<2; ++UseGlobalMessagePool)

   700 		{

   701 		if(UseGlobalMessagePool)

   702 			test.Next(_L("Tests using global message pool"));

   703 		else

   704 			test.Next(_L("Tests using local message pool"));

   705 

   706 		NumMessageSlots = 1;

   707 

   708 		test.Start(_L("Check completing messages on dead session"));

   709 		TestMessageCompleteOnClosedSession();

   710 

   711 		for (i=0; i<10; i++)

   712 			{

   713 			test.Next(_L("Check completing message while IPC copying"));

   714 			TestMessageCompleteWhileCopying();

   715 			}

   716 

   717 		test.Next(_L("Stress closing session whilst in use"));

   718 		RStressThread closer(SessionCloserThread,"SessionCloser",0);

   719 		RStressThread pinger1(SessionPingerThread,"Pinger");

   720 		RunStressThreads(closer, pinger1);

   721 

   722 		NumMessageSlots = 2;

   723 

   724 		test.Next(_L("Stress stopping server whilst in use"));

   725 		RStressThread stopper(ServerStopperThread,"ServerStopper",0);

   726 		RStressThread pinger2(SessionPingerThread,"Pinger");

   727 		RunStressThreads(stopper, pinger2);

   728 

   729 		test.End();

   730 		}

   731 

   732 	test.End();

   733 	return(0);

   734 	}

   735