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// Copyright (c) 2002-2009 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\dma\d_dma.cpp
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//
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//
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#include "platform.h"
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#include <kernel/kern_priv.h>
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#include <drivers/dma.h>
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#include "d_dma.h"
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_LIT(KClientPanicCat, "D_DMA");
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_LIT(KDFCThreadName,"D_DMA_DFC_THREAD");
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const TInt KDFCThreadPriority=26;
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//////////////////////////////////////////////////////////////////////////////
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//
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// Class abstracting the way DMA buffers are created and destroyed to
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// allow tests to run both on WINS and hardware.
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//
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class TBufferMgr
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{
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public:
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TInt Alloc(TInt aIdx, TInt aSize);
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void FreeAll();
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TUint8* Addr(TInt aIdx) const;
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TPhysAddr PhysAddr(TInt aIdx) const;
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TInt Size(TInt aIdx) const;
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enum { KMaxBuf = 8 };
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private:
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#ifdef __WINS__
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struct {TUint8* iPtr; TInt iSize;} iBufs[KMaxBuf];
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#else
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struct {DPlatChunkHw* iChunk; TInt iSize;} iBufs[KMaxBuf];
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#endif
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};
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#ifdef __WINS__
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TUint8* TBufferMgr::Addr(TInt aIdx) const
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{
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__ASSERT_DEBUG(0 <= aIdx && aIdx < KMaxBuf, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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__ASSERT_DEBUG(iBufs[aIdx].iPtr != NULL, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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return iBufs[aIdx].iPtr;
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}
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TInt TBufferMgr::Size(TInt aIdx) const
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{
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__ASSERT_DEBUG(0 <= aIdx && aIdx < KMaxBuf, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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__ASSERT_DEBUG(iBufs[aIdx].iPtr != NULL, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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return iBufs[aIdx].iSize;
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}
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TInt TBufferMgr::Alloc(TInt aIdx, TInt aSize)
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{
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__ASSERT_DEBUG(0 <= aIdx && aIdx < KMaxBuf, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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__ASSERT_DEBUG(iBufs[aIdx].iPtr == NULL, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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NKern::ThreadEnterCS();
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iBufs[aIdx].iPtr = new TUint8[aSize];
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NKern::ThreadLeaveCS();
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iBufs[aIdx].iSize = aSize;
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return iBufs[aIdx].iPtr ? KErrNone : KErrNoMemory;
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}
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void TBufferMgr::FreeAll()
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{
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NKern::ThreadEnterCS();
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for (TInt i=0; i<KMaxBuf; ++i)
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{
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delete iBufs[i].iPtr;
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iBufs[i].iPtr = NULL;
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}
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NKern::ThreadLeaveCS();
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}
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#else
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TUint8* TBufferMgr::Addr(TInt aIdx) const
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{
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__ASSERT_DEBUG(0 <= aIdx && aIdx < KMaxBuf, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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__ASSERT_DEBUG(iBufs[aIdx].iChunk != NULL, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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return (TUint8*)iBufs[aIdx].iChunk->LinearAddress();
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}
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TPhysAddr TBufferMgr::PhysAddr(TInt aIdx) const
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{
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__ASSERT_DEBUG(0 <= aIdx && aIdx < KMaxBuf, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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__ASSERT_DEBUG(iBufs[aIdx].iChunk != NULL, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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return iBufs[aIdx].iChunk->PhysicalAddress();
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}
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TInt TBufferMgr::Size(TInt aIdx) const
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{
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__ASSERT_DEBUG(0 <= aIdx && aIdx < KMaxBuf, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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__ASSERT_DEBUG(iBufs[aIdx].iChunk != NULL, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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return iBufs[aIdx].iSize;
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}
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TInt TBufferMgr::Alloc(TInt aIdx, TInt aSize)
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{
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__ASSERT_DEBUG(0 <= aIdx && aIdx < KMaxBuf, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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__ASSERT_DEBUG(iBufs[aIdx].iChunk == NULL, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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NKern::ThreadEnterCS();
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TPhysAddr phys;
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TInt r = Epoc::AllocPhysicalRam(aSize, phys);
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if (r == KErrNone)
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{
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r = DPlatChunkHw::New(iBufs[aIdx].iChunk, phys, aSize, EMapAttrSupRw | EMapAttrFullyBlocking);
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if (r != KErrNone)
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Epoc::FreePhysicalRam(phys, aSize);
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iBufs[aIdx].iSize = aSize;
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__KTRACE_OPT(KDMA, Kern::Printf("TBufferMgr::Alloc buffer %d linAddr=0x%08x, physAddr=0x%08x, size=%d",
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aIdx, Addr(aIdx), PhysAddr(aIdx), Size(aIdx)));
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}
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NKern::ThreadLeaveCS();
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return r;
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}
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void TBufferMgr::FreeAll()
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{
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for (TInt i=0; i<KMaxBuf; ++i)
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{
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if (iBufs[i].iChunk)
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{
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TPhysAddr base = iBufs[i].iChunk->PhysicalAddress();
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TInt size = iBufs[i].iSize;
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__ASSERT_DEBUG(iBufs[i].iChunk->AccessCount() == 1,
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Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
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NKern::ThreadEnterCS();
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iBufs[i].iChunk->Close(NULL);
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iBufs[i].iChunk = NULL;
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Epoc::FreePhysicalRam(base, size);
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NKern::ThreadLeaveCS();
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}
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}
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}
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#endif
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#ifndef DMA_APIV2
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static TInt FragmentCount(DDmaRequest* aRequest)
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{
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TInt count = 0;
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for (SDmaDesHdr* pH = aRequest->iFirstHdr; pH != NULL; pH = pH->iNext)
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count++;
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return count;
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}
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#endif
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//////////////////////////////////////////////////////////////////////////////
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class DDmaTestChannel : public DLogicalChannelBase
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{
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public:
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virtual ~DDmaTestChannel();
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protected:
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// from DLogicalChannelBase
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virtual TInt DoCreate(TInt aUnit, const TDesC8* anInfo, const TVersion& aVer);
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virtual TInt Request(TInt aFunction, TAny* a1, TAny* a2);
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virtual TInt RequestUserHandle(DThread* aThread, TOwnerType aType);
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private:
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TInt Execute(const TDesC8& aDes);
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static void Dfc(DDmaRequest::TResult aResult, TAny* aArg);
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TInt DoGetInfo(TAny* aInfo);
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private:
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TUint32 iCookie;
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TBufferMgr iBufMgr;
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TDmaChannel* iChannel;
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enum { KMaxRequests = 8 };
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DDmaRequest* iRequests[KMaxRequests];
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TClientRequest* iClientRequests[KMaxRequests];
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DDmaTestChannel* iMap[KMaxRequests];
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TUint32 iMemMemPslInfo;
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DThread* iClient;
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TDynamicDfcQue* iDfcQ;
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};
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TInt DDmaTestChannel::RequestUserHandle(DThread* aThread, TOwnerType aType)
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{
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if (aType!=EOwnerThread || aThread!=iClient)
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return KErrAccessDenied;
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return KErrNone;
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}
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TInt DDmaTestChannel::DoGetInfo(TAny* aInfo)
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{
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RTestDma::TInfo uinfo;
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const TDmaTestInfo& kinfo = DmaTestInfo();
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uinfo.iMaxTransferSize = kinfo.iMaxTransferSize;
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uinfo.iMemAlignMask = kinfo.iMemAlignMask;
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uinfo.iMaxSbChannels = kinfo.iMaxSbChannels;
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memcpy(&(uinfo.iSbChannels), kinfo.iSbChannels, 4 * kinfo.iMaxSbChannels);
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uinfo.iMaxDbChannels = kinfo.iMaxDbChannels;
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memcpy(&(uinfo.iDbChannels), kinfo.iDbChannels, 4 * kinfo.iMaxDbChannels);
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uinfo.iMaxSgChannels = kinfo.iMaxSgChannels;
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memcpy(&(uinfo.iSgChannels), kinfo.iSgChannels, 4 * kinfo.iMaxSgChannels);
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XTRAPD(r, XT_DEFAULT, kumemput(aInfo, &uinfo, sizeof(RTestDma::TInfo)));
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return r == KErrNone ? KErrDied : KErrGeneral;
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}
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// called in thread critical section
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TInt DDmaTestChannel::DoCreate(TInt /*aUnit*/, const TDesC8* aInfo, const TVersion& /*aVer*/)
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{
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TPckgBuf<RTestDma::TOpenInfo> infoBuf;
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TInt r=Kern::ThreadDesRead(&Kern::CurrentThread(), aInfo, infoBuf, 0, KChunkShiftBy0);
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if (r != KErrNone)
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return r;
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if (infoBuf().iWhat == RTestDma::TOpenInfo::EGetInfo)
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return DoGetInfo(infoBuf().U.iInfo);
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else
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{
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if (!iDfcQ)
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{
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r = Kern::DynamicDfcQCreate(iDfcQ, KDFCThreadPriority, KDFCThreadName);
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if (r != KErrNone)
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return r;
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#ifdef CPU_AFFINITY_ANY
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NKern::ThreadSetCpuAffinity((NThread*)(iDfcQ->iThread), KCpuAffinityAny);
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#endif
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}
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iMemMemPslInfo = DmaTestInfo().iMemMemPslInfo;
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iCookie = infoBuf().U.iOpen.iId;
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TDmaChannel::SCreateInfo info;
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info.iCookie = iCookie;
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info.iDfcQ = iDfcQ;
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info.iDfcPriority = 3;
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info.iDesCount = infoBuf().U.iOpen.iDesCount;
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r = TDmaChannel::Open(info, iChannel);
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if (r!= KErrNone)
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return r;
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iClient = &Kern::CurrentThread();
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for (TInt i=0; i<KMaxRequests; ++i)
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{
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r = Kern::CreateClientRequest(iClientRequests[i]);
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if (r!=KErrNone)
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return r;
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iMap[i] = this;
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TInt max = infoBuf().U.iOpen.iMaxTransferSize;
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if (max)
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{
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// Exercise request with custom limit
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iRequests[i] = new DDmaRequest(*iChannel, Dfc, iMap+i, max);
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}
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else
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{
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// Exercise request with default limit
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iRequests[i] = new DDmaRequest(*iChannel, Dfc, iMap+i);
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}
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if (! iRequests[i])
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return KErrNoMemory;
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sl@0
|
280 |
}
|
|
sl@0
|
281 |
return KErrNone;
|
|
sl@0
|
282 |
}
|
|
sl@0
|
283 |
}
|
|
sl@0
|
284 |
|
|
sl@0
|
285 |
|
|
sl@0
|
286 |
DDmaTestChannel::~DDmaTestChannel()
|
|
sl@0
|
287 |
{
|
|
sl@0
|
288 |
if (iChannel)
|
|
sl@0
|
289 |
{
|
|
sl@0
|
290 |
iChannel->CancelAll();
|
|
sl@0
|
291 |
TInt i;
|
|
sl@0
|
292 |
for (i=0; i<KMaxRequests; ++i)
|
|
sl@0
|
293 |
delete iRequests[i];
|
|
sl@0
|
294 |
iChannel->Close();
|
|
sl@0
|
295 |
for (i=0; i<KMaxRequests; ++i)
|
|
sl@0
|
296 |
Kern::DestroyClientRequest(iClientRequests[i]);
|
|
sl@0
|
297 |
}
|
|
sl@0
|
298 |
if (iDfcQ)
|
|
sl@0
|
299 |
{
|
|
sl@0
|
300 |
iDfcQ->Destroy();
|
|
sl@0
|
301 |
}
|
|
sl@0
|
302 |
iBufMgr.FreeAll();
|
|
sl@0
|
303 |
}
|
|
sl@0
|
304 |
|
|
sl@0
|
305 |
|
|
sl@0
|
306 |
TInt DDmaTestChannel::Request(TInt aFunction, TAny* a1, TAny* a2)
|
|
sl@0
|
307 |
{
|
|
sl@0
|
308 |
switch (aFunction)
|
|
sl@0
|
309 |
{
|
|
sl@0
|
310 |
case RTestDma::EAllocBuffer:
|
|
sl@0
|
311 |
return iBufMgr.Alloc((TInt)a1, (TInt)a2);
|
|
sl@0
|
312 |
case RTestDma::EFreeAllBuffers:
|
|
sl@0
|
313 |
iBufMgr.FreeAll();
|
|
sl@0
|
314 |
return KErrNone;
|
|
sl@0
|
315 |
case RTestDma::EFillBuffer:
|
|
sl@0
|
316 |
{
|
|
sl@0
|
317 |
TInt i = (TInt)a1;
|
|
sl@0
|
318 |
TUint8 val = (TUint8)(TUint)a2;
|
|
sl@0
|
319 |
memset(iBufMgr.Addr(i), val, iBufMgr.Size(i));
|
|
sl@0
|
320 |
return KErrNone;
|
|
sl@0
|
321 |
}
|
|
sl@0
|
322 |
case RTestDma::ECheckBuffer:
|
|
sl@0
|
323 |
{
|
|
sl@0
|
324 |
TInt i = (TInt)a1;
|
|
sl@0
|
325 |
TUint8 val = (TUint8)(TUint)a2;
|
|
sl@0
|
326 |
TUint8* p = iBufMgr.Addr(i);
|
|
sl@0
|
327 |
TUint8* end = p + iBufMgr.Size(i);
|
|
sl@0
|
328 |
while (p < end)
|
|
sl@0
|
329 |
if (*p++ != val)
|
|
sl@0
|
330 |
{
|
|
sl@0
|
331 |
#ifdef _DEBUG
|
|
sl@0
|
332 |
const TUint8 prevValue = *(p-1);
|
|
sl@0
|
333 |
#endif
|
|
sl@0
|
334 |
__KTRACE_OPT(KDMA, Kern::Printf("Check DMA buffer number %d failed at offset: %d value: %d(%c)",
|
|
sl@0
|
335 |
i, p-iBufMgr.Addr(i)-1, prevValue, prevValue));
|
|
sl@0
|
336 |
return EFalse;
|
|
sl@0
|
337 |
}
|
|
sl@0
|
338 |
return ETrue;
|
|
sl@0
|
339 |
}
|
|
sl@0
|
340 |
case RTestDma::EFragment:
|
|
sl@0
|
341 |
{
|
|
sl@0
|
342 |
RTestDma::TFragmentInfo info;
|
|
sl@0
|
343 |
kumemget(&info, a1, sizeof info);
|
|
sl@0
|
344 |
__ASSERT_DEBUG(iBufMgr.Size(info.iSrcBufIdx) == iBufMgr.Size(info.iDestBufIdx),
|
|
sl@0
|
345 |
Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
|
|
sl@0
|
346 |
__ASSERT_DEBUG(info.iSize <= iBufMgr.Size(info.iSrcBufIdx),
|
|
sl@0
|
347 |
Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
|
|
sl@0
|
348 |
__ASSERT_DEBUG(0 <= info.iRequestIdx && info.iRequestIdx < KMaxRequests,
|
|
sl@0
|
349 |
Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
|
|
sl@0
|
350 |
#ifdef __DMASIM__
|
|
sl@0
|
351 |
// DMASIM doesn't use physical addresses
|
|
sl@0
|
352 |
TUint32 src = (TUint32)iBufMgr.Addr(info.iSrcBufIdx);
|
|
sl@0
|
353 |
TUint32 dest = (TUint32)iBufMgr.Addr(info.iDestBufIdx);
|
|
sl@0
|
354 |
TUint KFlags = KDmaMemSrc | KDmaIncSrc | KDmaMemDest | KDmaIncDest;
|
|
sl@0
|
355 |
#else
|
|
sl@0
|
356 |
TUint32 src = iBufMgr.PhysAddr(info.iSrcBufIdx);
|
|
sl@0
|
357 |
TUint32 dest = iBufMgr.PhysAddr(info.iDestBufIdx);
|
|
sl@0
|
358 |
TUint KFlags = KDmaMemSrc | KDmaIncSrc | KDmaPhysAddrSrc |
|
|
sl@0
|
359 |
KDmaMemDest | KDmaIncDest | KDmaPhysAddrDest | KDmaAltTransferLen;
|
|
sl@0
|
360 |
#endif
|
|
sl@0
|
361 |
TInt r = iRequests[info.iRequestIdx]->Fragment(src, dest, info.iSize, KFlags, iMemMemPslInfo);
|
|
sl@0
|
362 |
if (r == KErrNone && info.iRs)
|
|
sl@0
|
363 |
r = iClientRequests[info.iRequestIdx]->SetStatus(info.iRs);
|
|
sl@0
|
364 |
return r;
|
|
sl@0
|
365 |
}
|
|
sl@0
|
366 |
case RTestDma::EExecute:
|
|
sl@0
|
367 |
return Execute(*(TDesC8*)a1);
|
|
sl@0
|
368 |
case RTestDma::EFailNext:
|
|
sl@0
|
369 |
return iChannel->FailNext((TInt)a1);
|
|
sl@0
|
370 |
case RTestDma::EFragmentCount:
|
|
sl@0
|
371 |
{
|
|
sl@0
|
372 |
TInt reqIdx = (TInt)a1;
|
|
sl@0
|
373 |
__ASSERT_DEBUG(0 <= reqIdx && reqIdx < KMaxRequests, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
|
|
sl@0
|
374 |
#ifdef DMA_APIV2
|
|
sl@0
|
375 |
return iRequests[reqIdx]->FragmentCount();
|
|
sl@0
|
376 |
#else
|
|
sl@0
|
377 |
return FragmentCount(iRequests[reqIdx]);
|
|
sl@0
|
378 |
#endif
|
|
sl@0
|
379 |
}
|
|
sl@0
|
380 |
case RTestDma::EMissInterrupts:
|
|
sl@0
|
381 |
return iChannel->MissNextInterrupts((TInt)a1);
|
|
sl@0
|
382 |
default:
|
|
sl@0
|
383 |
Kern::PanicCurrentThread(KClientPanicCat, __LINE__);
|
|
sl@0
|
384 |
return KErrNone; // work-around spurious warning
|
|
sl@0
|
385 |
}
|
|
sl@0
|
386 |
}
|
|
sl@0
|
387 |
|
|
sl@0
|
388 |
|
|
sl@0
|
389 |
TInt DDmaTestChannel::Execute(const TDesC8& aDes)
|
|
sl@0
|
390 |
{
|
|
sl@0
|
391 |
TBuf8<64> cmd;
|
|
sl@0
|
392 |
Kern::KUDesGet(cmd, aDes);
|
|
sl@0
|
393 |
__KTRACE_OPT(KDMA, Kern::Printf("DDmaTestChannel::Execute cmd=%S", &cmd));
|
|
sl@0
|
394 |
|
|
sl@0
|
395 |
const TText8* p = cmd.Ptr();
|
|
sl@0
|
396 |
const TText8* pEnd = p + cmd.Length();
|
|
sl@0
|
397 |
while (p<pEnd)
|
|
sl@0
|
398 |
{
|
|
sl@0
|
399 |
TText8 opcode = *p++;
|
|
sl@0
|
400 |
switch (opcode)
|
|
sl@0
|
401 |
{
|
|
sl@0
|
402 |
case 'Q':
|
|
sl@0
|
403 |
{
|
|
sl@0
|
404 |
TInt arg = *p++ - '0';
|
|
sl@0
|
405 |
__ASSERT_DEBUG(0 <= arg && arg < KMaxRequests, Kern::PanicCurrentThread(KClientPanicCat, __LINE__));
|
|
sl@0
|
406 |
iRequests[arg]->Queue();
|
|
sl@0
|
407 |
break;
|
|
sl@0
|
408 |
}
|
|
sl@0
|
409 |
case 'C':
|
|
sl@0
|
410 |
iChannel->CancelAll();
|
|
sl@0
|
411 |
break;
|
|
sl@0
|
412 |
default:
|
|
sl@0
|
413 |
Kern::PanicCurrentThread(KClientPanicCat, __LINE__);
|
|
sl@0
|
414 |
}
|
|
sl@0
|
415 |
}
|
|
sl@0
|
416 |
return KErrNone;
|
|
sl@0
|
417 |
}
|
|
sl@0
|
418 |
|
|
sl@0
|
419 |
|
|
sl@0
|
420 |
void DDmaTestChannel::Dfc(DDmaRequest::TResult aResult, TAny* aArg)
|
|
sl@0
|
421 |
{
|
|
sl@0
|
422 |
DDmaTestChannel** ppC = (DDmaTestChannel**)aArg;
|
|
sl@0
|
423 |
DDmaTestChannel* pC = *ppC;
|
|
sl@0
|
424 |
TInt i = ppC - pC->iMap;
|
|
sl@0
|
425 |
TClientRequest* req = pC->iClientRequests[i];
|
|
sl@0
|
426 |
TInt r = (aResult==DDmaRequest::EOk) ? KErrNone : KErrGeneral;
|
|
sl@0
|
427 |
if (req->IsReady())
|
|
sl@0
|
428 |
Kern::QueueRequestComplete(pC->iClient, req, r);
|
|
sl@0
|
429 |
}
|
|
sl@0
|
430 |
|
|
sl@0
|
431 |
//////////////////////////////////////////////////////////////////////////////
|
|
sl@0
|
432 |
|
|
sl@0
|
433 |
class DDmaTestFactory : public DLogicalDevice
|
|
sl@0
|
434 |
{
|
|
sl@0
|
435 |
public:
|
|
sl@0
|
436 |
DDmaTestFactory();
|
|
sl@0
|
437 |
// from DLogicalDevice
|
|
sl@0
|
438 |
virtual TInt Install();
|
|
sl@0
|
439 |
virtual void GetCaps(TDes8& aDes) const;
|
|
sl@0
|
440 |
virtual TInt Create(DLogicalChannelBase*& aChannel);
|
|
sl@0
|
441 |
};
|
|
sl@0
|
442 |
|
|
sl@0
|
443 |
|
|
sl@0
|
444 |
DDmaTestFactory::DDmaTestFactory()
|
|
sl@0
|
445 |
{
|
|
sl@0
|
446 |
iVersion = TestDmaLddVersion();
|
|
sl@0
|
447 |
iParseMask = KDeviceAllowUnit; // no info, no PDD
|
|
sl@0
|
448 |
// iUnitsMask = 0; // Only one thing
|
|
sl@0
|
449 |
}
|
|
sl@0
|
450 |
|
|
sl@0
|
451 |
|
|
sl@0
|
452 |
TInt DDmaTestFactory::Create(DLogicalChannelBase*& aChannel)
|
|
sl@0
|
453 |
{
|
|
sl@0
|
454 |
aChannel=new DDmaTestChannel;
|
|
sl@0
|
455 |
return aChannel ? KErrNone : KErrNoMemory;
|
|
sl@0
|
456 |
}
|
|
sl@0
|
457 |
|
|
sl@0
|
458 |
|
|
sl@0
|
459 |
TInt DDmaTestFactory::Install()
|
|
sl@0
|
460 |
{
|
|
sl@0
|
461 |
return SetName(&KTestDmaLddName);
|
|
sl@0
|
462 |
}
|
|
sl@0
|
463 |
|
|
sl@0
|
464 |
|
|
sl@0
|
465 |
void DDmaTestFactory::GetCaps(TDes8& /*aDes*/) const
|
|
sl@0
|
466 |
{
|
|
sl@0
|
467 |
}
|
|
sl@0
|
468 |
|
|
sl@0
|
469 |
//////////////////////////////////////////////////////////////////////////////
|
|
sl@0
|
470 |
|
|
sl@0
|
471 |
DECLARE_STANDARD_LDD()
|
|
sl@0
|
472 |
{
|
|
sl@0
|
473 |
return new DDmaTestFactory;
|
|
sl@0
|
474 |
}
|