1 // Copyright (c) 2007-2009 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\nkernsa\fastsem.cpp

    15 // 

    16 //

    17 

    18 #define __INCLUDE_NTHREADBASE_DEFINES__

    19 

    20 #include <nktest/nkutils.h>

    21 

    22 void CheckSemaphoreCount(NFastSemaphore* aS, TInt aExpected)

    23 	{

    24 	TInt w = 0;

    25 	TInt r;

    26 	do	{

    27 		r = WaitWithTimeout(aS, KMinTimeout);

    28 		TEST_RESULT1(r==KErrNone || r==KErrTimedOut, "Invalid return code %d", r);

    29 		if (r == KErrNone)

    30 			++w;

    31 		} while(r == KErrNone);

    32 	TEST_RESULT2(w==aExpected, "Signalled %d, Waited %d", aExpected, w);

    33 	}

    34 

    35 void FSTest1(TAny* a)

    36 	{

    37 	TInt n = (TInt)a;

    38 	NFastSemaphore s(0);

    39 

    40 	TInt i;

    41 	for (i=0; i<n; ++i) NKern::FSSignal(&s);

    42 	CheckSemaphoreCount(&s, n);

    43 	NKern::FSSignalN(&s, n);

    44 	CheckSemaphoreCount(&s, n);

    45 	}

    46 

    47 #define DO_FS_TEST1(n,a)	CreateThreadAndWaitForExit("FSTest1", &FSTest1, 12, (TAny*)(n), 0, -1, (a))

    48 

    49 struct SFSTest2Info

    50 	{

    51 	NFastSemaphore iSem;

    52 	volatile TInt iBlockCount;

    53 	volatile TInt iSignals;

    54 	volatile TInt iWaits;

    55 	volatile TBool iStart;

    56 	volatile TBool iStop;

    57 	};

    58 

    59 void FSTest2Signaller0(TAny* a)

    60 	{

    61 	SFSTest2Info& info = *(SFSTest2Info*)a;

    62 	while (!info.iStart)

    63 		{

    64 		}

    65 //	NThreadBase* t = info.iSem.iOwningThread;

    66 	while (!info.iStop)

    67 		{

    68 		++info.iBlockCount;

    69 		__e32_atomic_add_ord32(&info.iSignals, 1);

    70 		NKern::FSSignal(&info.iSem);

    71 		}

    72 	TEST_PRINT1("Ran %d times", info.iBlockCount);

    73 	}

    74 

    75 #ifdef __SMP__

    76 class NKTest

    77 	{

    78 public:

    79 	static TBool ThreadIsBlocked(NThreadBase* aT)

    80 		{ return aT->iWaitState.ThreadIsBlocked(); }

    81 	};

    82 #endif

    83 

    84 void FSTest2Signaller(TAny* a)

    85 	{

    86 	SFSTest2Info& info = *(SFSTest2Info*)a;

    87 	while (!info.iStart)

    88 		{

    89 		}

    90 	NThreadBase* t = info.iSem.iOwningThread;

    91 	TInt count0=0;

    92 	TInt countneg=0;

    93 	TInt blocked=0;

    94 	TInt prev_block_count = info.iBlockCount;

    95 	TInt tries = 1;

    96 	TUint32 seed[2];

    97 	seed[0] = NKern::CurrentCpu()+1;

    98 	seed[1] = 0;

    99 	while (!info.iStop)

   100 		{

   101 		TInt c = info.iSem.iCount;

   102 		if (c>=1)

   103 			continue;

   104 		if (--tries==0)

   105 			{

   106 			TInt bc;

   107 			do	{

   108 				bc = info.iBlockCount;

   109 				} while (bc<=prev_block_count);

   110 			prev_block_count = bc;

   111 			tries = random(seed) & 127;

   112 			tries += 71;

   113 			}

   114 		TUint32 x = random(seed) & 63;

   115 		while (x)

   116 			--x;

   117 		c = info.iSem.iCount;

   118 		NKern::FSSignal(&info.iSem);

   119 		__e32_atomic_add_ord32(&info.iSignals, 1);

   120 		if (c==0) ++count0;

   121 		if (c<0) ++countneg;

   122 #ifdef __SMP__

   123 		if (NKTest::ThreadIsBlocked(t)) ++blocked;

   124 #else

   125 		if (t->iNState == NThread::EWaitFastSemaphore) ++blocked;

   126 #endif

   127 		}

   128 	TEST_PRINT1("Count =0 %d times", count0);

   129 	TEST_PRINT1("Count <0 %d times", countneg);

   130 	TEST_PRINT1("Blocked  %d times", blocked);

   131 	}

   132 

   133 void FSTest2(TAny* a)

   134 	{

   135 	SFSTest2Info& info = *(SFSTest2Info*)a;

   136 	NFastSemaphore exitSem(0);

   137 	NKern::FSSetOwner(&info.iSem, 0);

   138 	info.iBlockCount = 0;

   139 	info.iWaits = 0;

   140 	info.iSignals = 0;

   141 	info.iStart = FALSE;

   142 	info.iStop = FALSE;

   143 	TInt cpu;

   144 	TInt threads = 0;

   145 	TInt this_cpu = NKern::CurrentCpu();

   146 	for_each_cpu(cpu)

   147 		{

   148 		if (cpu==this_cpu)

   149 			CreateThreadSignalOnExit("FSTest2Sig0", &FSTest2Signaller0, 11, a, 0, KSmallTimeslice, &exitSem, cpu);

   150 		else

   151 			CreateThreadSignalOnExit("FSTest2Sig", &FSTest2Signaller, 12, a, 0, KSmallTimeslice, &exitSem, cpu);

   152 		++threads;

   153 		}

   154 

   155 	info.iStart = TRUE;

   156 	while(info.iWaits < 1048576)

   157 		{

   158 		NKern::FSWait(&info.iSem);

   159 		++info.iWaits;

   160 		}

   161 

   162 	info.iStop = TRUE;

   163 	while (threads--)

   164 		NKern::FSWait(&exitSem);

   165 	TEST_PRINT1("Leftover signals %d", info.iSignals-info.iWaits);

   166 	TInt r;

   167 	do	{

   168 		r = WaitWithTimeout(&info.iSem, KMinTimeout);

   169 		TEST_RESULT1(r==KErrNone || r==KErrTimedOut, "Invalid return code %d", r);

   170 		if (r == KErrNone)

   171 			++info.iWaits;

   172 		} while(r == KErrNone);

   173 	TEST_PRINT2("Signalled %d, Waited %d", info.iSignals, info.iWaits);

   174 	TEST_RESULT(info.iWaits==info.iSignals, "MISMATCH!");

   175 	}

   176 

   177 void DoFsTest2()

   178 	{

   179 	SFSTest2Info info;

   180 	CreateThreadAndWaitForExit("FSTest2", &FSTest2, 12, (TAny*)&info, 0, KSmallTimeslice, 0);

   181 	}

   182 

   183 

   184 void TestFastSemaphore()

   185 	{

   186 	TEST_PRINT("Testing Fast Semaphores...");

   187 

   188 	TInt cpu;

   189 	for_each_cpu(cpu)

   190 		{

   191 		DO_FS_TEST1(0,cpu);

   192 		DO_FS_TEST1(1,cpu);

   193 		DO_FS_TEST1(2,cpu);

   194 		DO_FS_TEST1(13,cpu);

   195 		}

   196 

   197 	DoFsTest2();

   198 	}