Fix for Bug 2984 - [GCCE] Illegal inline assembler in kernel/eka/debug/utrace/src/e32utrace.cpp
/*
* Copyright (c) 2010 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "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:
*
*/
#include <kern_priv.h>
#include <kernel.h>
#include "d_timestamp.h"
#include "d_timestamp_dev.h"
// time stamp test defaults
static const TInt KTimerDurationS = 5; // time interval for NTimer
static const TInt KNErrPercent = 1; // percent error acceptable
static const TInt KIterations = 5; // required number of valid runs (with LPM entry)
static const TInt KRetries = 4; // retries are reset on every succesful run
//
// DTimestampTestFactory
//
/**
Standard export function for LDDs. This creates a DLogicalDevice derived object,
in this case, our DTimestampTestFactory
*/
DECLARE_STANDARD_LDD()
{
return new DTimestampTestFactory;
}
/**
Constructor
*/
DTimestampTestFactory::DTimestampTestFactory()
{
// Set version number for this device
iVersion=RTimestampTest::VersionRequired();
// Indicate that we work with a PDD
iParseMask=KDeviceAllowPhysicalDevice;
}
/**
Second stage constructor for DTimestampTestFactory.
This must at least set a name for the driver object.
@return KErrNone if successful, otherwise one of the other system wide error codes.
*/
TInt DTimestampTestFactory::Install()
{
return SetName(&RTimestampTest::Name());
}
/**
Destructor
*/
DTimestampTestFactory::~DTimestampTestFactory()
{
}
/**
Return the drivers capabilities.
Called in the response to an RDevice::GetCaps() request.
@param aDes User-side descriptor to write capabilities information into
*/
void DTimestampTestFactory::GetCaps(TDes8& aDes) const
{
// Create a capabilities object
RTimestampTest::TCaps caps;
caps.iVersion = iVersion;
// Write it back to user memory
Kern::InfoCopy(aDes,(TUint8*)&caps,sizeof(caps));
}
/**
Called by the kernel's device driver framework to create a Logical Channel.
This is called in the context of the user thread (client) which requested the creation of a Logical Channel
(E.g. through a call to RBusLogicalChannel::DoCreate)
The thread is in a critical section.
@param aChannel Set to point to the created Logical Channel
@return KErrNone if successful, otherwise one of the other system wide error codes.
*/
TInt DTimestampTestFactory::Create(DLogicalChannelBase*& aChannel)
{
aChannel=new DTimestampTestChannel;
if(!aChannel)
{
return KErrNoMemory;
}
return KErrNone;
}
//
// Logical Channel
//
/**
Constructor
*/
DTimestampTestChannel::DTimestampTestChannel()
:iTimer(timerExpire,this),iDfc(dfcFn,this,7),iStarted(EFalse)
{
// Get pointer to client threads DThread object
iClient=&Kern::CurrentThread();
// Open a reference on client thread so it's control block can't dissapear until
// this driver has finished with it.
// Note, this call to Open can't fail since its the thread we are currently running in
iClient->Open();
}
/**
Second stage constructor called by the kernel's device driver framework.
This is called in the context of the user thread (client) which requested the creation of a Logical Channel
(E.g. through a call to RBusLogicalChannel::DoCreate)
The thread is in a critical section.
@param aUnit The unit argument supplied by the client to RBusLogicalChannel::DoCreate
@param aInfo The info argument supplied by the client to RBusLogicalChannel::DoCreate
@param aVer The version argument supplied by the client to RBusLogicalChannel::DoCreate
@return KErrNone if successful, otherwise one of the other system wide error codes.
*/
TInt DTimestampTestChannel::DoCreate(TInt /*aUnit*/, const TDesC8* /*aInfo*/, const TVersion& aVer)
{
// Check version
if (!Kern::QueryVersionSupported(RTimestampTest::VersionRequired(),aVer))
return KErrNotSupported;
// Setup LDD for receiving client messages
TInt r = Kern::CreateClientRequest(iStartRequest);
if (r != KErrNone) return r;
r = Kern::CreateClientDataRequest(iWaitOnTimerRequest);
if (r != KErrNone) return r;
r = Kern::DynamicDfcQCreate(iQue,Kern::DfcQue0()->iThread->iPriority,RTimestampTest::Name());
if (KErrNone!=r) return r;
iDfc.SetDfcQ(iQue);
SetDfcQ(iQue);
iMsgQ.Receive();
// Done
return KErrNone;
}
/**
Destructor
*/
DTimestampTestChannel::~DTimestampTestChannel()
{
// Cancel all processing that we may be doing
DoCancel(TUint(RTimestampTest::EAllRequests));
Kern::DestroyClientRequest(iWaitOnTimerRequest);
Kern::DestroyClientRequest(iStartRequest);
iQue->Destroy();
// Close our reference on the client thread
Kern::SafeClose((DObject*&)iClient,NULL);
}
/**
Called when a user thread requests a handle to this channel.
*/
TInt DTimestampTestChannel::RequestUserHandle(DThread* aThread, TOwnerType aType)
{
// Make sure that only our client can get a handle
if (aType!=EOwnerThread || aThread!=iClient)
return KErrAccessDenied;
return KErrNone;
}
/**
override SendMsg method to allow pinning data in the context of the client thread
*/
TInt DTimestampTestChannel::SendMsg(TMessageBase* aMsg)
{
TThreadMessage& m=*(TThreadMessage*)aMsg;
TInt id = m.iValue;
// we only support one client
if (id != (TInt)ECloseMsg && m.Client() != iClient)
return KErrAccessDenied;
TInt r = KErrNone;
if (id != (TInt)ECloseMsg && id != KMaxTInt)
{
if (id<0)
{
TRequestStatus* pS=(TRequestStatus*)m.Ptr0();
r = SendRequest(aMsg);
if (r != KErrNone)
Kern::RequestComplete(pS,r);
}
else
r = SendControl(aMsg);
}
else
r = DLogicalChannel::SendMsg(aMsg);
return r;
}
/**
Process a message for this logical channel.
This function is called in the context of a DFC thread.
@param aMessage The message to process.
The iValue member of this distinguishes the message type:
iValue==ECloseMsg, channel close message
iValue==KMaxTInt, a 'DoCancel' message
iValue>=0, a 'DoControl' message with function number equal to iValue
iValue<0, a 'DoRequest' message with function number equal to ~iValue
*/
void DTimestampTestChannel::HandleMsg(TMessageBase* aMsg)
{
TThreadMessage& m=*(TThreadMessage*)aMsg;
// Get message type
TInt id=m.iValue;
// Decode the message type and dispatch it to the relevent handler function...
if (id==(TInt)ECloseMsg)
{
// Channel Close
DoCancel(TUint(RTimestampTest::EAllRequests));
iMsgQ.CompleteAll(KErrServerTerminated);
m.Complete(KErrNone, EFalse);
return;
}
if (id==KMaxTInt)
{
// DoCancel
DoCancel(m.Int0());
m.Complete(KErrNone,ETrue);
return;
}
if (id<0)
{
// DoRequest
TRequestStatus* pS=(TRequestStatus*)m.Ptr0();
DoRequest(~id,pS,m.Ptr1(),m.Ptr2());
m.Complete(KErrNone,ETrue);
}
else
{
// DoControl
TInt r=DoControl(id,m.Ptr0(),m.Ptr1());
m.Complete(r,ETrue);
}
}
/**
Preprocess synchronous 'control' requests
*/
TInt DTimestampTestChannel::SendControl(TMessageBase* aMsg)
{
TThreadMessage& m=*(TThreadMessage*)aMsg;
TInt id=m.iValue;
switch (id)
{
case RTimestampTest::EConfig:
{
STimestampTestConfig info;
#ifdef __SMP__
info.iFreq = NKern::TimestampFrequency();
#else
info.iFreq = NKern::FastCounterFrequency();
#endif
info.iIterations = KIterations;
info.iRetries = KRetries;
info.iTimerDurationS = KTimerDurationS;
info.iErrorPercent = KNErrPercent;
// Allow PDD to override defaults
Pdd().TestConfig(info);
kumemput(m.Ptr0(),&info,sizeof(STimestampTestConfig));
return KErrNone;
}
}
TInt r = DLogicalChannel::SendMsg(aMsg);
if (r != KErrNone)
return r;
// switch (id)
// {
// }
return r;
}
/**
Process synchronous 'control' requests
*/
TInt DTimestampTestChannel::DoControl(TInt aFunction, TAny* a1, TAny* a2)
{
(void)a2;
(void)a1;
(void) aFunction;
// TInt r = KErrNone;
// switch (aFunction)
// {
// default:
// r = KErrNotSupported;
// }
return KErrNotSupported;
}
/**
Preprocess asynchronous requests.
*/
TInt DTimestampTestChannel::SendRequest(TMessageBase* aMsg)
{
TThreadMessage& m=*(TThreadMessage*)aMsg;
TInt function = ~m.iValue;
TRequestStatus* pS=(TRequestStatus*)m.Ptr0();
TInt r = KErrNotSupported;
switch (function)
{
case RTimestampTest::EStart:
if (!iStarted)
{
r = iStartRequest->SetStatus(pS);
}
else
{
r = KErrInUse;
}
break;
case RTimestampTest::EWaitOnTimer:
if (iStarted)
{
iWaitOnTimerRequest->SetDestPtr(m.Ptr1());
r = iWaitOnTimerRequest->SetStatus(pS);
}
else
{
r = KErrNotReady;
}
break;
default:
r = KErrNotSupported;
}
if (r == KErrNone)
r = DLogicalChannel::SendMsg(aMsg);
return r;
}
/**
Process asynchronous requests.
*/
void DTimestampTestChannel::DoRequest(TInt aReqNo, TRequestStatus* aStatus, TAny* a1, TAny* a2)
{
(void)a2;
(void)a1;
(void)aStatus;
TInt r = KErrNone;
switch(aReqNo)
{
case RTimestampTest::EStart:
iNTicks = (TInt) a1;
r = iTimer.OneShot(0);
if (KErrNone!=r) Kern::QueueRequestComplete(iClient,iStartRequest,r);
break;
case RTimestampTest::EWaitOnTimer:
Pdd().StartLPMEntryCheck(); // PDD will start checking if we have entered LPM
r = iTimer.Again(iNTicks);
if (KErrNone!=r) Kern::QueueRequestComplete(iClient,iWaitOnTimerRequest,r);
break;
}
}
/**
Process cancelling of asynchronous requests.
*/
void DTimestampTestChannel::DoCancel(TUint aMask)
{
(void)aMask;
iTimer.Cancel(); // no real guarantees on SMP systems
iDfc.Cancel();
}
/**
* process timer expiry
*/
void DTimestampTestChannel::DoTimerExpire()
{
#ifdef __SMP__
TUint64 ts = NKern::Timestamp();
#else
TUint64 ts = NKern::FastCounter();
#endif
iTimestampDelta = ts-iLastTimestamp;
iLastTimestamp = ts;
iDfc.Add();
}
void DTimestampTestChannel::timerExpire(TAny* aParam)
{
DTimestampTestChannel* pD = (DTimestampTestChannel*) aParam;
pD->DoTimerExpire();
}
void DTimestampTestChannel::DoDfcFn()
{
if (!iStarted)
{
iStarted = ETrue;
Kern::QueueRequestComplete(iClient,iStartRequest,KErrNone);
}
else
{
iWaitOnTimerRequest->Data().iDelta = iTimestampDelta;
// PDD will return ETrue here if we have entered LPM
iWaitOnTimerRequest->Data().iLPMEntered = Pdd().EndLPMEntryCheck();
Kern::QueueRequestComplete(iClient,iWaitOnTimerRequest,KErrNone);
}
}
void DTimestampTestChannel::dfcFn(TAny* aParam)
{
DTimestampTestChannel* pD = (DTimestampTestChannel*) aParam;
pD->DoDfcFn();
}