Fix for bug 2283 (RVCT 4.0 support is missing from PDK 3.0.h)
Have multiple extension sections in the bld.inf, one for each version
of the compiler. The RVCT version building the tools will build the
runtime libraries for its version, but make sure we extract all the other
versions from zip archives. Also add the archive for RVCT4.
// Copyright (c) 2005-2009 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\drivers\trace\btrace.cpp
//
//
#include <kernel/kern_priv.h>
#include "platform.h"
#include "d_btrace.h"
class DBTraceTestFactory : public DLogicalDevice
{
public:
virtual TInt Install();
virtual void GetCaps(TDes8& aDes) const;
virtual TInt Create(DLogicalChannelBase*& aChannel);
};
class DBTraceTestChannel : public DLogicalChannelBase
{
public:
DBTraceTestChannel();
virtual ~DBTraceTestChannel();
// Inherited from DObject
virtual TInt RequestUserHandle(DThread* aThread, TOwnerType aType);
// Inherited from DLogicalChannelBase
virtual TInt DoCreate(TInt aUnit, const TDesC8* anInfo, const TVersion& aVer);
virtual TInt Request(TInt aReqNo, TAny* a1, TAny* a2);
private:
DThread* iClient;
public:
static void TestTrace(DBTraceTestChannel* aSelf);
static void TestUTrace(DBTraceTestChannel* aSelf);
private:
TUint32 iTestType;
TInt iTestDataSize;
TUint32 iTestData[KMaxBTraceRecordSize*2/4];
volatile TBool iTimerExpired;
NTimer iTraceTimer;
TDfc iTraceIDFC;
};
//
// DBTraceTestFactory
//
TInt DBTraceTestFactory::Install()
{
return SetName(&RBTraceTest::Name());
}
void DBTraceTestFactory::GetCaps(TDes8& aDes) const
{
Kern::InfoCopy(aDes,0,0);
}
TInt DBTraceTestFactory::Create(DLogicalChannelBase*& aChannel)
{
aChannel=new DBTraceTestChannel();
if(!aChannel)
return KErrNoMemory;
return KErrNone;
}
//
// DBTraceTestChannel
//
DBTraceTestChannel::DBTraceTestChannel()
: iTraceTimer((NTimerFn)TestTrace,this),
iTraceIDFC((NTimerFn)TestTrace,this)
{
}
DBTraceTestChannel::~DBTraceTestChannel()
{
iTraceTimer.Cancel();
}
TInt DBTraceTestChannel::DoCreate(TInt /*aUnit*/, const TDesC8* /*aInfo*/, const TVersion& /*aVer*/)
{
iClient = &Kern::CurrentThread();
return KErrNone;
}
TInt DBTraceTestChannel::RequestUserHandle(DThread* aThread, TOwnerType aType)
{
if (aType!=EOwnerThread || aThread!=iClient)
return KErrAccessDenied;
return KErrNone;
}
TInt DBTraceTestChannel::Request(TInt aReqNo, TAny* a1, TAny* a2)
{
switch(aReqNo)
{
// test functions
case RBTraceTest::ETestSpecialTrace:
case RBTraceTest::ETestTrace:
{
TPtr8 data((TUint8*)&iTestData,sizeof(iTestData));
Kern::KUDesGet(data,*(TDesC8*)a2);
iTestDataSize = data.Size()-4;
if(aReqNo==RBTraceTest::ETestSpecialTrace)
{
iTestType = (TUint)a1;
iTimerExpired = EFalse;
if(iTestType&RBTraceTest::EContextIsr)
iTraceTimer.OneShot(1);
else if(iTestType&RBTraceTest::EContextIDFC)
{
NKern::Lock();
iTraceIDFC.Add();
NKern::Unlock();
}
else if(iTestType&RBTraceTest::EContextIntsOff)
{
TInt irq = NKern::DisableAllInterrupts();
TestTrace(this);
NKern::RestoreInterrupts(irq);
}
else
TestTrace(this);
while(!__e32_atomic_load_acq32(&iTimerExpired)) {};
return (TInt)NKern::CurrentThread();
}
else
{
TInt delay = (TInt)a1/NKern::TickPeriod();
iTestType = 0;
if(!delay)
TestTrace(this);
else
{
iTraceTimer.Cancel();
iTraceTimer.OneShot(delay+1);
}
}
}
return KErrNone;
case RBTraceTest::ETestBenchmark:
{
TInt delay = (TInt)a2/NKern::TickPeriod();
TInt size = (TInt)a1;
iTestDataSize = -1;
// wait for next tick...
iTraceTimer.Cancel();
iTimerExpired = EFalse;
iTraceTimer.OneShot(1);
while(!__e32_atomic_load_acq32(&iTimerExpired)) {};
// do benchmark...
iTimerExpired = EFalse;
iTraceTimer.OneShot(delay+1);
TInt count = 0;
if(size)
for(;;)
{
TBool finished = __e32_atomic_load_acq32(&iTimerExpired);
BTraceContextN(BTrace::ETest1,0,0,0,&iTestData,size);
++count;
if(!finished)
continue;
break;
}
else
for(;;)
{
TBool finished = __e32_atomic_load_acq32(&iTimerExpired);
BTrace0(BTrace::ETest1,0);
++count;
if(!finished)
continue;
break;
}
return count;
}
case RBTraceTest::ETestBenchmark2:
{
TInt delay = (TInt)a2/NKern::TickPeriod();
TInt size = (TInt)a1;
iTestDataSize = -1;
// wait for next tick...
iTraceTimer.Cancel();
iTimerExpired = EFalse;
iTraceTimer.OneShot(1);
while(!__e32_atomic_load_acq32(&iTimerExpired)) {};
// do benchmark...
iTimerExpired = EFalse;
iTraceTimer.OneShot(delay+1);
TInt count = 0;
if(size)
for(;;)
{
TBool finished = __e32_atomic_load_acq32(&iTimerExpired);
BTraceFilteredContextN(BTrace::ETest1,0,KBTraceFilterTestUid1,0,&iTestData,size);
++count;
if(!finished)
continue;
break;
}
else
for(;;)
{
TBool finished = __e32_atomic_load_acq32(&iTimerExpired);
BTraceFiltered4(BTrace::ETest1,0,KBTraceFilterTestUid1);
++count;
if(!finished)
continue;
break;
}
return count;
}
case RBTraceTest::ETestBenchmarkCheckFilter:
{
TInt delay = (TInt)a2/NKern::TickPeriod();
// wait for next tick...
iTraceTimer.Cancel();
iTimerExpired = EFalse;
iTraceTimer.OneShot(1);
while(!__e32_atomic_load_acq32(&iTimerExpired)) {};
// do benchmark...
iTimerExpired = EFalse;
iTraceTimer.OneShot(delay+1);
TInt count = 0;
if(a1)
for(;;)
{
TBool finished = __e32_atomic_load_acq32(&iTimerExpired);
BTrace::CheckFilter2(BTrace::ETest1,KBTraceFilterTestUid1);
++count;
if(!finished)
continue;
break;
}
else
for(;;)
{
TBool finished = __e32_atomic_load_acq32(&iTimerExpired);
BTrace::CheckFilter(BTrace::ETest1);
++count;
if(!finished)
continue;
break;
}
return count;
}
case RBTraceTest::ETestUTrace:
{
TPtr8 data((TUint8*)&iTestData,sizeof(iTestData));
Kern::KUDesGet(data,*(TDesC8*)a2);
iTestDataSize = data.Size()-4;
TInt delay = (TInt)a1/NKern::TickPeriod();
iTestType = 0;
if(!delay)
TestUTrace(this);
else
{
iTraceTimer.Cancel();
iTraceTimer.OneShot(delay+1);
}
return KErrNone;
}
default:
break;
}
return KErrNotSupported;
}
void DBTraceTestChannel::TestTrace(DBTraceTestChannel* aSelf)
{
TInt size = aSelf->iTestDataSize;
if(size<0)
{
__e32_atomic_store_rel32(&aSelf->iTimerExpired, 1);
return;
}
TUint32* data = aSelf->iTestData;
BTrace::TCategory category = (BTrace::TCategory)((TUint8*)data)[0];
TUint subCategory = (BTrace::TCategory)((TUint8*)data)[1];
TUint type = aSelf->iTestType&0xff;
TBool bigTrace = aSelf->iTestType&RBTraceTest::EBigTrace;
TBool filter2Trace = aSelf->iTestType&RBTraceTest::EFilter2Trace;
if(!filter2Trace)
{
if(type==BTrace::EPcPresent)
{
if(bigTrace)
{
BTracePcBig(category,subCategory,data[1],data+2,size-4);
BTracePcBig(category,subCategory,data[1],data+2,size-4);
}
else if(size==0)
{
BTracePc0(category,subCategory);
BTracePc0(category,subCategory);
}
else if(size<=4)
{
BTracePc4(category,subCategory,data[1]);
BTracePc4(category,subCategory,data[1]);
}
else if(size<=8)
{
BTracePc8(category,subCategory,data[1],data[2]);
BTracePc8(category,subCategory,data[1],data[2]);
}
else
{
BTracePcN(category,subCategory,data[1],data[2],data+3,size-8);
BTracePcN(category,subCategory,data[1],data[2],data+3,size-8);
}
}
else if(type==BTrace::EContextIdPresent)
{
if(bigTrace)
{
BTraceContextBig(category,subCategory,data[1],data+2,size-4);
BTraceContextBig(category,subCategory,data[1],data+2,size-4);
}
else if(size==0)
{
BTraceContext0(category,subCategory);
BTraceContext0(category,subCategory);
}
else if(size<=4)
{
BTraceContext4(category,subCategory,data[1]);
BTraceContext4(category,subCategory,data[1]);
}
else if(size<=8)
{
BTraceContext8(category,subCategory,data[1],data[2]);
BTraceContext8(category,subCategory,data[1],data[2]);
}
else
{
BTraceContextN(category,subCategory,data[1],data[2],data+3,size-8);
BTraceContextN(category,subCategory,data[1],data[2],data+3,size-8);
}
}
else if(type==BTrace::EContextIdPresent+BTrace::EPcPresent)
{
if(bigTrace)
{
BTraceContextPcBig(category,subCategory,data[1],data+2,size-4);
BTraceContextPcBig(category,subCategory,data[1],data+2,size-4);
}
else if(size==0)
{
BTraceContextPc0(category,subCategory);
BTraceContextPc0(category,subCategory);
}
else if(size<=4)
{
BTraceContextPc4(category,subCategory,data[1]);
BTraceContextPc4(category,subCategory,data[1]);
}
else if(size<=8)
{
BTraceContextPc8(category,subCategory,data[1],data[2]);
BTraceContextPc8(category,subCategory,data[1],data[2]);
}
else
{
BTraceContextPcN(category,subCategory,data[1],data[2],data+3,size-8);
BTraceContextPcN(category,subCategory,data[1],data[2],data+3,size-8);
}
}
else
{
if(bigTrace)
BTraceBig(category,subCategory,data[1],data+2,size-4);
else if(size==0)
BTrace0(category,subCategory);
else if(size<=4)
BTrace4(category,subCategory,data[1]);
else if(size<8)
BTrace8(category,subCategory,data[1],data[2]);
else
BTraceN(category,subCategory,data[1],data[2],data+3,size-8);
}
}
else
{
if(type==BTrace::EPcPresent)
{
if(bigTrace)
{
BTraceFilteredPcBig(category,subCategory,data[1],data+2,size-4);
BTraceFilteredPcBig(category,subCategory,data[1],data+2,size-4);
}
else if(size<4)
{
// invalid
}
else if(size==4)
{
BTraceFilteredPc4(category,subCategory,data[1]);
BTraceFilteredPc4(category,subCategory,data[1]);
}
else if(size<=8)
{
BTraceFilteredPc8(category,subCategory,data[1],data[2]);
BTraceFilteredPc8(category,subCategory,data[1],data[2]);
}
else
{
BTraceFilteredPcN(category,subCategory,data[1],data[2],data+3,size-8);
BTraceFilteredPcN(category,subCategory,data[1],data[2],data+3,size-8);
}
}
else if(type==BTrace::EContextIdPresent)
{
if(bigTrace)
{
BTraceFilteredContextBig(category,subCategory,data[1],data+2,size-4);
BTraceFilteredContextBig(category,subCategory,data[1],data+2,size-4);
}
else if(size<4)
{
// invalid
}
else if(size==4)
{
BTraceFilteredContext4(category,subCategory,data[1]);
BTraceFilteredContext4(category,subCategory,data[1]);
}
else if(size<=8)
{
BTraceFilteredContext8(category,subCategory,data[1],data[2]);
BTraceFilteredContext8(category,subCategory,data[1],data[2]);
}
else
{
BTraceFilteredContextN(category,subCategory,data[1],data[2],data+3,size-8);
BTraceFilteredContextN(category,subCategory,data[1],data[2],data+3,size-8);
}
}
else if(type==BTrace::EContextIdPresent+BTrace::EPcPresent)
{
if(bigTrace)
{
BTraceFilteredContextPcBig(category,subCategory,data[1],data+2,size-4);
BTraceFilteredContextPcBig(category,subCategory,data[1],data+2,size-4);
}
else if(size<4)
{
// invalid
}
else if(size==4)
{
BTraceFilteredContextPc4(category,subCategory,data[1]);
BTraceFilteredContextPc4(category,subCategory,data[1]);
}
else if(size<=8)
{
BTraceFilteredContextPc8(category,subCategory,data[1],data[2]);
BTraceFilteredContextPc8(category,subCategory,data[1],data[2]);
}
else
{
BTraceFilteredContextPcN(category,subCategory,data[1],data[2],data+3,size-8);
BTraceFilteredContextPcN(category,subCategory,data[1],data[2],data+3,size-8);
}
}
else
{
if(bigTrace)
BTraceFilteredBig(category,subCategory,data[1],data+2,size-4);
else if(size<4)
{
// invalid
}
else if(size==4)
BTraceFiltered4(category,subCategory,data[1]);
else if(size<8)
BTraceFiltered8(category,subCategory,data[1],data[2]);
else
BTraceFilteredN(category,subCategory,data[1],data[2],data+3,size-8);
}
}
__e32_atomic_store_rel32(&aSelf->iTimerExpired, 1);
}
void DBTraceTestChannel::TestUTrace(DBTraceTestChannel* aSelf)
{
aSelf->iTimerExpired = ETrue;
TInt size = aSelf->iTestDataSize;
if(size<0)
return;
TUint32* data = aSelf->iTestData;
BTrace::TCategory category = (BTrace::TCategory)((TUint8*)data)[0];
TUint subCategory = (BTrace::TCategory)((TUint8*)data)[1];
#define T_UTRACE_HEADER(aSize,aClassification,aContext,aPc) \
((((aSize) + (aContext?4:0) + (aPc?4:0)) << BTrace::ESizeIndex*8) \
+(((aContext?BTrace::EContextIdPresent:0) | (aPc?BTrace::EPcPresent:0)) << BTrace::EFlagsIndex*8) \
+((aClassification) << BTrace::ECategoryIndex*8) \
+((subCategory) << BTrace::ESubCategoryIndex*8))
#define UTRACE_SECONDARY(aClassification,aModuleUid,aThreadIdPresent,aPcPresent,aPc,aFormatId) \
BTrace::OutFilteredPcFormatBig(T_UTRACE_HEADER(8,aClassification,aThreadIdPresent,aPcPresent),(TUint32)(aModuleUid),aPc,aFormatId,0,0)
#define UTRACE_SECONDARY_4(aClassification,aModuleUid,aThreadIdPresent,aPcPresent,aPc,aFormatId, aData1) \
BTrace::OutFilteredPcFormatBig(T_UTRACE_HEADER(8,aClassification,aThreadIdPresent,aPcPresent),(TUint32)(aModuleUid),aPc,aFormatId,&aData1,4)
#define UTRACE_SECONDARY_ANY(aClassification, aModuleUid, aThreadIdPresent, aPcPresent, aPc, aFormatId, aData, aDataSize) \
BTrace::OutFilteredPcFormatBig(T_UTRACE_HEADER(8,aClassification,aThreadIdPresent,aPcPresent),(TUint32)(aModuleUid),aPc,aFormatId,aData,(TInt)(aDataSize))
TUint32 KUtracePcValues[3]={0, 0x123456, 0x987654};
TUint16 formatId = (TUint16)data[2];
TUint type = aSelf->iTestType&0xff;
if(type == BTrace::EPcPresent)
{
if(size <= 0)
{
UTRACE_SECONDARY(category, data[1], EFalse, ETrue, KUtracePcValues[1], formatId);
UTRACE_SECONDARY(category, data[1], EFalse, ETrue, KUtracePcValues[2], formatId);
}
else if(size <= 4)
{
UTRACE_SECONDARY_4(category, data[1], EFalse, ETrue, KUtracePcValues[1], formatId, data[3]);
UTRACE_SECONDARY_4(category, data[1], EFalse, ETrue, KUtracePcValues[2], formatId, data[3]);
}
else //size > 8
{
UTRACE_SECONDARY_ANY(category, data[1], EFalse, ETrue, KUtracePcValues[1], formatId, data+3, size);
UTRACE_SECONDARY_ANY(category, data[1], EFalse, ETrue, KUtracePcValues[2], formatId, data+3, size);
}
}
else if(type==BTrace::EContextIdPresent)
{
if(size <= 0)
{
UTRACE_SECONDARY(category, data[1], ETrue, EFalse, KUtracePcValues[1], formatId);
UTRACE_SECONDARY(category, data[1], ETrue, EFalse, KUtracePcValues[2], formatId);
}
else if(size <= 4)
{
UTRACE_SECONDARY_4(category, data[1], ETrue, EFalse, KUtracePcValues[1], formatId, data[3]);
UTRACE_SECONDARY_4(category, data[1], ETrue, EFalse, KUtracePcValues[2], formatId, data[3]);
}
else //size > 8
{
UTRACE_SECONDARY_ANY(category, data[1], ETrue, EFalse, KUtracePcValues[1], formatId, data+3, size);
UTRACE_SECONDARY_ANY(category, data[1], ETrue, EFalse, KUtracePcValues[2], formatId, data+3, size);
}
}
else if(type==BTrace::EContextIdPresent+BTrace::EPcPresent)
{
if(size <= 0)
{
UTRACE_SECONDARY(category, data[1], ETrue, ETrue, KUtracePcValues[1], formatId);
UTRACE_SECONDARY(category, data[1], ETrue, ETrue, KUtracePcValues[2], formatId);
}
else if(size <= 4)
{
UTRACE_SECONDARY_4(category, data[1], ETrue, ETrue, KUtracePcValues[1], formatId, data[3]);
UTRACE_SECONDARY_4(category, data[1], ETrue, ETrue, KUtracePcValues[2], formatId, data[3]);
}
else //size > 8
{
UTRACE_SECONDARY_ANY(category, data[1], ETrue, ETrue, KUtracePcValues[1], formatId, data+3, size);
UTRACE_SECONDARY_ANY(category, data[1], ETrue, ETrue, KUtracePcValues[2], formatId, data+3, size);
}
}
else
{
if(size <= 0)
{
UTRACE_SECONDARY(category, data[1], EFalse, EFalse, KUtracePcValues[1], formatId);
UTRACE_SECONDARY(category, data[1], EFalse, EFalse, KUtracePcValues[2], formatId);
}
else if(size <= 4)
{
UTRACE_SECONDARY_4(category, data[1], EFalse, EFalse, KUtracePcValues[1], formatId, data[3]);
UTRACE_SECONDARY_4(category, data[1], EFalse, EFalse, KUtracePcValues[2], formatId, data[3]);
}
else //size > 8
{
UTRACE_SECONDARY_ANY(category, data[1], EFalse, EFalse, KUtracePcValues[1], formatId, data+3, size);
UTRACE_SECONDARY_ANY(category, data[1], EFalse, EFalse, KUtracePcValues[2], formatId, data+3, size);
}
}
}
DECLARE_STANDARD_LDD()
{
return new DBTraceTestFactory;
}