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// Copyright (c) 2007-2009 Nokia Corporation and/or its subsidiary(-ies).
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// All rights reserved.
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// This component and the accompanying materials are made available
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// under the terms of the License "Eclipse Public License v1.0"
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// which accompanies this distribution, and is available
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// at the URL "http://www.eclipse.org/legal/epl-v10.html".
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//
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// Initial Contributors:
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// Nokia Corporation - initial contribution.
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//
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// Contributors:
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//
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// Description:
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// e32test\nkernsa\fastbuf.cpp
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//
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//
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#include <nktest/nkutils.h>
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template <class T>
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class WaitFreePipe
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{
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public:
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static WaitFreePipe<T>* New(TInt aSize);
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~WaitFreePipe();
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void InitReader();
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void InitWriter();
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void Read(T& aOut);
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TInt Write(const T& aIn);
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inline TUint32 Waits() {return iWaits;}
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inline void ResetWaits() {iWaits = 0;}
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private:
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WaitFreePipe();
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private:
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T* volatile iWrite;
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T* volatile iRead;
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T* iBase;
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T* iEnd;
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NRequestStatus* volatile iStat;
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NThread* iReader;
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volatile TUint32 iWaits;
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};
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template <class T>
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WaitFreePipe<T>::WaitFreePipe()
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: iStat(0),
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iReader(0),
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iWaits(0)
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{
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}
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template <class T>
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WaitFreePipe<T>::~WaitFreePipe()
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{
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free(iBase);
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}
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template <class T>
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WaitFreePipe<T>* WaitFreePipe<T>::New(TInt aSize)
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{
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WaitFreePipe<T>* p = new WaitFreePipe<T>;
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if (!p)
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return 0;
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p->iBase = (T*)malloc(aSize * sizeof(T));
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if (!p->iBase)
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{
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delete p;
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return 0;
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}
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p->iEnd = p->iBase + aSize;
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p->iWrite = p->iBase;
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p->iRead = p->iBase;
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return p;
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}
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template <class T>
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void WaitFreePipe<T>::InitWriter()
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{
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}
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template <class T>
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void WaitFreePipe<T>::InitReader()
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{
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iReader = NKern::CurrentThread();
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}
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template <class T>
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void WaitFreePipe<T>::Read(T& aOut)
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{
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while (iRead == iWrite)
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{
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NRequestStatus s;
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s = KRequestPending;
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// make sure set to KRequestPending is seen before iStat write
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__e32_atomic_store_ord_ptr(&iStat, &s);
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// make sure writer sees our request status before we check for buffer empty again
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if (iRead != iWrite)
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RequestComplete(iReader, (NRequestStatus*&)iStat, 0);
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WaitForRequest(s);
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++iWaits;
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}
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aOut = *iRead;
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T* new_read = iRead + 1;
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if (new_read == iEnd)
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new_read = iBase;
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// make sure read of data value is observed before update of read pointer
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__e32_atomic_store_rel_ptr(&iRead, new_read);
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}
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template <class T>
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TInt WaitFreePipe<T>::Write(const T& aIn)
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{
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T* new_write = iWrite + 1;
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if (new_write == iEnd)
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new_write = iBase;
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if (new_write == iRead)
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return KErrOverflow; // buffer full
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*iWrite = aIn;
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// make sure data is seen before updated write pointer
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__e32_atomic_store_ord_ptr(&iWrite, new_write);
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if (iStat)
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RequestComplete(iReader, (NRequestStatus*&)iStat, 0);
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return KErrNone;
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}
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struct SPipeTest
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{
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WaitFreePipe<TUint32>* iPipe;
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TUint64 iTotalWrites;
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TUint64 iTotalReads;
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volatile TUint32 iWrites;
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volatile TUint32 iReads;
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TUint32 iMeasure;
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volatile TUint32 iReadTime;
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volatile TUint32 iWriteTime;
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volatile TBool iStop;
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};
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void PipeWriterThread(TAny* aPtr)
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{
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SPipeTest& a = *(SPipeTest*)aPtr;
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a.iPipe->InitWriter();
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TUint32 seed[2] = {1,0};
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TUint32 seqs[2] = {3,0};
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TInt r;
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while (!a.iStop)
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{
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TUint32 x = random(seqs);
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do {
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r = a.iPipe->Write(x);
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if (r != KErrNone)
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fcfspin(2*a.iWriteTime);
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} while (r != KErrNone);
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++a.iTotalWrites;
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++a.iWrites;
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while (a.iWrites>=a.iMeasure)
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{}
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TUint32 time = random(seed) % a.iWriteTime;
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fcfspin(time);
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}
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}
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void PipeReaderThread(TAny* aPtr)
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{
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SPipeTest& a = *(SPipeTest*)aPtr;
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TUint32 seed[2] = {2,0};
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TUint32 seqs[2] = {3,0};
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a.iPipe->InitReader();
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a.iPipe->ResetWaits();
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while (!a.iStop)
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{
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TUint32 x = random(seqs);
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TUint32 y;
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a.iPipe->Read(y);
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TEST_RESULT(x==y, "Wrong value");
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++a.iTotalReads;
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++a.iReads;
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if (a.iReads < a.iMeasure)
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{
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TUint32 time = random(seed) % a.iReadTime;
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fcfspin(time);
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continue;
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}
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TUint32 w = a.iPipe->Waits();
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TUint32 wr = (w<<4)/a.iMeasure;
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TEST_PRINT3("%d waits out of %d (wr=%d)", w, a.iMeasure, wr);
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TUint32 rt = a.iReadTime;
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TUint32 wt = a.iWriteTime;
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switch (wr)
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{
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case 0:
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a.iReadTime = rt>>1;
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a.iWriteTime = wt<<1;
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break;
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case 1:
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case 2:
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case 3:
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a.iReadTime = rt - (rt>>2);
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a.iWriteTime = wt + (wt>>2);
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break;
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case 4:
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case 5:
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case 6:
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a.iReadTime = rt - (rt>>3);
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a.iWriteTime = wt + (wt>>3);
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break;
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case 7:
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case 8:
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// ok
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break;
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case 9:
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case 10:
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case 11:
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a.iReadTime = rt - (rt>>3);
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a.iWriteTime = wt + (wt>>3);
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break;
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case 12:
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case 13:
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case 14:
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a.iReadTime = rt + (rt>>2);
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a.iWriteTime = wt - (wt>>2);
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break;
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case 15:
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case 16:
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a.iReadTime = rt<<1;
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a.iWriteTime = wt>>1;
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break;
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}
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TEST_PRINT4("RT: %d->%d WT: %d->%d", rt, a.iReadTime, wt, a.iWriteTime);
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a.iPipe->ResetWaits();
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a.iReads = 0;
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a.iWrites = 0;
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}
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}
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void DoPipeTest()
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{
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SPipeTest a;
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memclr(&a, sizeof(a));
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a.iPipe = WaitFreePipe<TUint32>::New(1024);
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TEST_OOM(a.iPipe);
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a.iMeasure = 131072;
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a.iReadTime = 1024;
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a.iWriteTime = 1024;
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NFastSemaphore exitSem(0);
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NThread* reader = CreateThreadSignalOnExit("Reader", &PipeReaderThread, 11, &a, 0, -1, &exitSem, 0);
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TEST_OOM(reader);
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NThread* writer = CreateThreadSignalOnExit("Writer", &PipeWriterThread, 11, &a, 0, -1, &exitSem, 1);
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TEST_OOM(writer);
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while (a.iTotalWrites < 0x01000000u)
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NKern::Sleep(1000);
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a.iStop = TRUE;
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NKern::FSWait(&exitSem);
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NKern::FSWait(&exitSem);
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}
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void TestWaitFreePipe()
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{
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DoPipeTest();
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}
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