diff -r 000000000000 -r bde4ae8d615e os/kernelhwsrv/kernel/eka/nkern/dfcs.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/os/kernelhwsrv/kernel/eka/nkern/dfcs.cpp Fri Jun 15 03:10:57 2012 +0200 @@ -0,0 +1,468 @@ +// Copyright (c) 1998-2009 Nokia Corporation and/or its subsidiary(-ies). +// All rights reserved. +// This component and the accompanying materials are made available +// under the terms of the License "Eclipse Public License v1.0" +// which accompanies this distribution, and is available +// at the URL "http://www.eclipse.org/legal/epl-v10.html". +// +// Initial Contributors: +// Nokia Corporation - initial contribution. +// +// Contributors: +// +// Description: +// e32\nkern\dfcs.cpp +// DFCs +// +// + +// NThreadBase member data +#define __INCLUDE_NTHREADBASE_DEFINES__ + +// TDfc member data +#define __INCLUDE_TDFC_DEFINES__ + +#include "nk_priv.h" + + +/** Construct an IDFC + + @param aFunction = function to call + @param aPtr = parameter to be passed to function + */ +EXPORT_C TDfc::TDfc(TDfcFn aFunction, TAny* aPtr) + : iPtr(aPtr), iFunction(aFunction), iDfcQ(NULL) + { + iPriority=0xff; + iSpare1=0; + iOnFinalQ=FALSE; + iQueued=FALSE; + } + + +/** Construct a DFC without specifying a DFC queue. + The DFC queue must be set before the DFC may be queued. + + @param aFunction = function to call + @param aPtr = parameter to be passed to function + @param aPriority = priority of DFC within the queue (0 to 7, where 7 is highest) + */ +EXPORT_C TDfc::TDfc(TDfcFn aFunction, TAny* aPtr, TInt aPriority) + : iPtr(aPtr), iFunction(aFunction), iDfcQ(NULL) + { + __NK_ASSERT_DEBUG((TUint)aPriority<(TUint)KNumDfcPriorities); + iPriority=TUint8(aPriority); + iSpare1=0; + iOnFinalQ=FALSE; + iQueued=FALSE; + } + + +/** Construct a DFC specifying a DFC queue. + + @param aFunction = function to call + @param aPtr = parameter to be passed to function + @param aDfcQ = pointer to DFC queue which this DFC should use + @param aPriority = priority of DFC within the queue (0-7) + */ +EXPORT_C TDfc::TDfc(TDfcFn aFunction, TAny* aPtr, TDfcQue* aDfcQ, TInt aPriority) + : iPtr(aPtr), iFunction(aFunction), iDfcQ(aDfcQ) + { + __NK_ASSERT_DEBUG((TUint)aPriority<(TUint)KNumDfcPriorities); + iPriority=TUint8(aPriority); + iSpare1=0; + iOnFinalQ=FALSE; + iQueued=FALSE; + } + + +/** Construct a DFC queue + Kern::DfcQInit() should be called on the new DFC queue before it can be used. + */ +EXPORT_C TDfcQue::TDfcQue() + : iThread(NULL) + {} + + +#ifndef __DFC_MACHINE_CODED__ + +/** Queue an IDFC or a DFC from an ISR + + This function is the only way to queue an IDFC and is the only way to queue + a DFC from an ISR. To queue a DFC from an IDFC or a thread either Enque() + or DoEnque() should be used. + + This function does nothing if the IDFC/DFC is already queued. + + @pre Call only from ISR, IDFC or thread with preemption disabled. + @pre Do not call from thread with preemption enabled. + @return TRUE if DFC was actually queued by this call + FALSE if DFC was already queued on entry so this call did nothing + @see TDfc::DoEnque() + @see TDfc::Enque() + */ +EXPORT_C TBool TDfc::Add() + { + __ASSERT_WITH_MESSAGE_DEBUG( NKern::CurrentContext()!=NKern::EThread || TheScheduler.iKernCSLocked,"Do not call from thread with preemption enabled","TDfc::Add"); + __ASSERT_WITH_MESSAGE_DEBUG( IsIDFC() || iDfcQ != NULL, "DFC queue not set", "TDfc::Add"); +#ifdef __WINS__ + __NK_ASSERT_ALWAYS(Interrupt.InInterrupt() || TheScheduler.iKernCSLocked); +#endif + return RawAdd(); + } + + +/** Queue an IDFC or a DFC from an ISR + + This function is identical to TDfc::Add() but no checks are performed for correct usage, + and it contains no instrumentation code. + + @return TRUE if DFC was actually queued by this call + FALSE if DFC was already queued on entry so this call did nothing + @see TDfc::DoEnque() + @see TDfc::Enque() + @see TDfc::Add() + */ +EXPORT_C TBool TDfc::RawAdd() + { + TInt irq=NKern::DisableAllInterrupts(); + + // make sure DFC not already queued + TBool ok = !TestAndSetQueued(); + if (ok) + { + TheScheduler.iDfcs.Add(this); + TheScheduler.iDfcPendingFlag=1; + } + + NKern::RestoreInterrupts(irq); + return ok; + } + + +/** Queue a DFC (not an IDFC) from an IDFC or thread with preemption disabled. + + This function is the preferred way to queue a DFC from an IDFC. It should not + be used to queue an IDFC - use TDfc::Add() for this. + + This function does nothing if the DFC is already queued. + + @return TRUE if DFC was actually queued by this call + FALSE if DFC was already queued on entry so this call did nothing + @pre Call only from IDFC or thread with preemption disabled. + @pre Do not call from ISR or thread with preemption enabled. + + @see TDfc::Add() + @see TDfc::Enque() + */ +EXPORT_C TBool TDfc::DoEnque() + { + __ASSERT_WITH_MESSAGE_DEBUG( (NKern::CurrentContext()==NKern::EIDFC )||( NKern::CurrentContext()==NKern::EThread && TheScheduler.iKernCSLocked),"Do not call from ISR or thread with preemption enabled","TDfc::DoEnque"); + __NK_ASSERT_DEBUG(!IsIDFC()); + __ASSERT_WITH_MESSAGE_DEBUG( iDfcQ, "DFC queue not set", "TDfc::Add"); + + // Check not already queued and then mark queued to prevent ISRs touching this DFC + TBool ok = !TestAndSetQueued(); + if (ok) + DoEnqueFinal(); + return ok; + } + +void TDfc::DoEnqueFinal() +// +// Add a DFC to its final queue. Assumes DFC not currently queued. +// Enter and return with kernel locked. +// + { + iOnFinalQ=TRUE; + iDfcQ->Add(this); + NThreadBase* pT=iDfcQ->iThread; + if (pT->iNState==NThreadBase::EWaitDfc) + pT->CheckSuspendThenReady(); + } + +void TDfcQue::ThreadFunction(TAny* aDfcQ) + { + TDfcQue& q=*(TDfcQue*)aDfcQ; + NThreadBase* pC=TheScheduler.iCurrentThread; + FOREVER + { + NKern::Lock(); + if (q.IsEmpty()) + { + pC->iNState=NThreadBase::EWaitDfc; + TheScheduler.Remove(pC); + RescheduleNeeded(); + NKern::Unlock(); + } + else + { + TDfc& d=*q.First(); + q.Remove(&d); + d.iOnFinalQ=FALSE; + d.iQueued=FALSE; + NKern::Unlock(); + (*d.iFunction)(d.iPtr); + } + } + } + + +/** Cancels an IDFC or DFC. + + This function does nothing if the IDFC or DFC is not queued. + + @return TRUE if the DFC was actually dequeued by this call. In that case + it is guaranteed that the DFC will not execute until it is + queued again. + FALSE if the DFC was not queued on entry to the call, or was in + the process of being executed or cancelled. In this case + it is possible that the DFC executes after this call + returns. + + @post However in either case it is safe to delete the DFC object on + return from this call provided only that the DFC function does not + refer to the DFC object itself. + + @pre IDFC or thread context. Do not call from ISRs. + + @pre If the DFC function accesses the DFC object itself, the user must ensure that + Cancel() cannot be called while the DFC function is running. + */ +EXPORT_C TBool TDfc::Cancel() + { + CHECK_PRECONDITIONS(MASK_NOT_ISR,"TDfc::Cancel"); + NKern::Lock(); + TBool ret = iQueued; + if (iQueued) // ISRs can't affect this test since they can't de-queue a DFC or IDFC + { + if (!iOnFinalQ) // OK to check this with interrupts enabled since interrupts can't change it + { + // Must disable interrupts to protect the pending queue + TInt irq=NKern::DisableAllInterrupts(); + SDblQueLink::Deque(); + NKern::RestoreInterrupts(irq); + } + else + { + // Final queues can't be modified by interrupts + iDfcQ->Remove(this); + iOnFinalQ=FALSE; + } + iQueued=FALSE; // must be done last + } + NKern::Unlock(); + return ret; + } +#endif + +/** Queues a DFC (not an IDFC) from a thread. + + Does nothing if DFC is already queued. + + NOTE: Although this can be called in an IDFC context, it is more efficient to call + DoEnque() in this case. + + @return TRUE if DFC was actually queued by this call + FALSE if DFC was already queued on entry so this call did nothing + @pre Call either in a thread or an IDFC context. + @pre Do not call from an ISR. + */ +EXPORT_C TBool TDfc::Enque() + { + CHECK_PRECONDITIONS(MASK_NOT_ISR,"TDfc::Enque()"); + NKern::Lock(); + TBool ret = DoEnque(); + NKern::Unlock(); + return ret; + } + + +/** Queue a DFC (not an IDFC) from a thread and also signals a fast mutex. + + The DFC is unaffected if it is already queued. + + The fast mutex is signalled before preemption is reenabled to avoid potential + scheduler thrashing. + + @param aMutex = pointer to fast mutex to be signalled; + NULL means system lock mutex. + @return TRUE if DFC was actually queued by this call + FALSE if DFC was already queued on entry so this call did nothing + @pre Call in a thread context. + @pre Kernel must be unlocked. + @pre Do not call from an ISR. + @pre Do not call from an IDFC. + */ +EXPORT_C TBool TDfc::Enque(NFastMutex* aMutex) + { + CHECK_PRECONDITIONS(MASK_KERNEL_UNLOCKED|MASK_NOT_ISR|MASK_NOT_IDFC,"TDfc::Enque(NFastMutex* aMutex)"); + if (!aMutex) + aMutex=&TheScheduler.iLock; + NKern::Lock(); + TBool ret = DoEnque(); + aMutex->Signal(); + NKern::Unlock(); + return ret; + } + + +/** Returns a pointer to the thread on which a DFC runs + + @return If this is a DFC and the DFC queue has been set, a pointer to the + thread which will run the DFC. + NULL if this is an IDFC or the DFC queue has not been set. + */ +EXPORT_C NThreadBase* TDfc::Thread() + { + if (IsIDFC()) + return 0; + return iDfcQ ? iDfcQ->iThread : 0; + } + + +/****************************************************************************** + * Idle notification + ******************************************************************************/ + +/** Register an IDFC or a DFC to be called when the system goes idle + + This function does nothing if the IDFC/DFC is already queued. + + @return TRUE if DFC was actually queued by this call + FALSE if DFC was already queued on entry so this call did nothing + */ +EXPORT_C TBool TDfc::QueueOnIdle() + { + TInt irq=NKern::DisableAllInterrupts(); + + // make sure DFC not already queued + TBool ok = !TestAndSetQueued(); + if (ok) + TheScheduler.iIdleDfcs.Add(this); + + NKern::RestoreInterrupts(irq); + return ok; + } + + +TUint32 NKern::IdleGenerationCount() + { + return TheScheduler.iIdleGenerationCount; + } + + +void NKern::Idle() + { + TInt irq = NKern::DisableAllInterrupts(); +#ifdef _DEBUG + if (!TheScheduler.iIdleDfcs.IsEmpty() && TheScheduler.iDelayedQ.IsEmpty()) +#else + if (!TheScheduler.iIdleDfcs.IsEmpty()) +#endif + { + ++TheScheduler.iIdleGenerationCount; + TheScheduler.iDfcs.MoveFrom(&TheScheduler.iIdleDfcs); + TheScheduler.iDfcPendingFlag=1; + NKern::RestoreInterrupts(irq); + return; + } + NKern::RestoreInterrupts(irq); + NKIdle(0); + } + + +/****************************************************************************** + * Scheduler IDFC/DFC Processing + ******************************************************************************/ + +#ifndef __SCHEDULER_MACHINE_CODED__ +void TScheduler::QueueDfcs() +// +// Enter with interrupts off and kernel locked +// Leave with interrupts off and kernel locked +// + { + iInIDFC = TRUE; + BTrace0(BTrace::ECpuUsage,BTrace::EIDFCStart); + FOREVER + { + // remove from pending queue with interrupts disabled + TDfc* d=(TDfc*)iDfcs.GetFirst(); + if (!d) + break; + NKern::EnableAllInterrupts(); + if (d->IsIDFC()) + { + d->iQueued=FALSE; + (*d->iFunction)(d->iPtr); + } + else + d->DoEnqueFinal(); + NKern::DisableAllInterrupts(); + } + iDfcPendingFlag = FALSE; + BTrace0(BTrace::ECpuUsage,BTrace::EIDFCEnd); + iInIDFC = FALSE; + } +#endif + + +/****************************************************************************** + * Kernel-side asynchronous request DFCs + ******************************************************************************/ + +EXPORT_C TAsyncRequest::TAsyncRequest(TDfcFn aFunction, TDfcQue* aDfcQ, TInt aPriority) + : TDfc(aFunction, this, aDfcQ, aPriority), iCompletionObject(0), iCancel(0), iResult(0) + { + } + + +EXPORT_C void TAsyncRequest::Send(TDfc* aCompletionDfc) + { + __NK_ASSERT_DEBUG(!iCompletionObject); + iCancel = EFalse; + iCompletionObject = (TAny*)((TLinAddr)aCompletionDfc|1); + TDfc::Enque(); + } + + +EXPORT_C void TAsyncRequest::Send(NFastSemaphore* aCompletionSemaphore) + { + __NK_ASSERT_DEBUG(!iCompletionObject); + iCancel = EFalse; + iCompletionObject = aCompletionSemaphore; + TDfc::Enque(); + } + + +EXPORT_C TInt TAsyncRequest::SendReceive() + { + NFastSemaphore signal; + NKern::FSSetOwner(&signal, 0); + Send(&signal); + NKern::FSWait(&signal); + return iResult; + } + + +EXPORT_C void TAsyncRequest::Cancel() + { + iCancel = ETrue; + if(TDfc::Cancel()) + Complete(KErrCancel); + } + + +EXPORT_C void TAsyncRequest::Complete(TInt aResult) + { + TLinAddr signal = (TLinAddr)__e32_atomic_swp_ord_ptr(&iCompletionObject, 0); + if(signal) + { + iResult = aResult; + if(signal&1) + ((TDfc*)(signal&~1))->Enque(); + else + NKern::FSSignal((NFastSemaphore*)signal); + } + }