Merge further Compiler Compatibility fixes onto RCL_3 branch.
// Copyright (c) 2003-2009 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:
// e32test\personality\example\init.cpp
// Test code for example RTOS personality.
//
//
#include <kernel/kern_priv.h>
#include <personality/example/personality.h>
#include <personality/example/personality_int.h>
#include "ifcldd.h"
#define OC_TASK 0
#define MSG_ID_INIT 1
#define MSG_ID_RUN 2
#define MSG_ID_RUN_P 3
#define MSG_ID_RND_ISR 4
#define MSG_ID_DONE 5
#define MSG_ID_DATA 6
#define MSG_ID_FLUSH 7
#define MSG_ID_SEM_RPT 8
#define MSG_ID_RCV_RPT 9
#define MSG_ID_TM_RPT 10
typedef struct _random_isr_msg
{
msghdr header;
unsigned random_isr_number;
unsigned extra;
} random_isr_msg;
typedef struct _data_msg
{
msghdr header;
int length;
unsigned char checksum;
unsigned char data[1];
} data_msg;
typedef struct _report_msg
{
msghdr header;
int pad;
unsigned count;
unsigned ok_count;
unsigned bad_count;
} report_msg;
const TInt KMajorVersionNumber=0;
const TInt KMinorVersionNumber=1;
const TInt KBuildVersionNumber=1;
void RxMsg(TAny* aPtr);
TPMsgQ ThePMsgQ(&RxMsg, 0, Kern::DfcQue0(), 7);
NONSHARABLE_CLASS(DRtosIfcFactory) : public DLogicalDevice
{
public:
DRtosIfcFactory();
virtual TInt Install(); //overriding pure virtual
virtual void GetCaps(TDes8& aDes) const; //overriding pure virtual
virtual TInt Create(DLogicalChannelBase*& aChannel); //overriding pure virtual
};
class TRxQ
{
public:
TRxQ(DThread* aThread) : iFirst(0), iLast(0), iStatus(0), iPtr(0), iThread(aThread) {}
TInt QueueReq(TRequestStatus* aStatus, TAny* aPtr);
void AddMsg(msghdr* aM);
inline TBool MsgPresent() {return iFirst!=NULL;}
void CompleteReq();
void CancelReq();
void Close();
public:
msghdr* iFirst;
msghdr* iLast;
TRequestStatus* iStatus;
TAny* iPtr;
DThread* iThread;
};
TInt TRxQ::QueueReq(TRequestStatus* aStatus, TAny* aPtr)
{
if (iStatus)
return KErrInUse;
iStatus = aStatus;
iPtr = aPtr;
if (iFirst)
CompleteReq();
return KErrNone;
}
void TRxQ::AddMsg(msghdr* aM)
{
aM->next = NULL;
if (iLast)
iLast->next = aM;
else
iFirst = aM;
iLast = aM;
if (iStatus)
CompleteReq();
}
void TRxQ::CompleteReq()
{
msghdr* m = iFirst;
iFirst = m->next;
if (!iFirst)
iLast = NULL;
TInt r = KErrNone;
switch (m->msg_id)
{
case MSG_ID_DATA:
{
data_msg* dm = (data_msg*)m;
r = Kern::ThreadRawWrite(iThread, iPtr, &dm->length, dm->length + 5, iThread);
break;
}
case MSG_ID_SEM_RPT:
case MSG_ID_RCV_RPT:
case MSG_ID_TM_RPT:
{
report_msg* rpt = (report_msg*)m;
rpt->pad = m->msg_id;
r = Kern::ThreadRawWrite(iThread, iPtr, &rpt->pad, sizeof(SReport), iThread);
break;
}
default:
break;
}
free_mem_block(m);
Kern::RequestComplete(iThread, iStatus, r);
iStatus = NULL;
}
void TRxQ::CancelReq()
{
if (iStatus)
Kern::RequestComplete(iThread, iStatus, KErrCancel);
iStatus = NULL;
}
void TRxQ::Close()
{
CancelReq();
while (iFirst)
{
msghdr* m = iFirst;
iFirst = m->next;
free_mem_block(m);
}
iFirst = NULL;
iLast = NULL;
}
NONSHARABLE_CLASS(DRtosIfc) : public DLogicalChannel
{
public:
DRtosIfc();
virtual ~DRtosIfc();
protected:
virtual TInt DoCreate(TInt aUnit, const TDesC8* anInfo, const TVersion& aVer);
virtual void HandleMsg(TMessageBase* aMsg);
public:
TInt DoControl(TInt aFunc, TAny* a1, TAny* a2);
TInt DoRequest(TInt aFunc, TRequestStatus* aStatus, TAny* a1, TAny* a2);
void DoCancel(TInt aMask);
void HandleRtosMsg(msghdr* aMsg);
public:
DThread* iThread;
TRequestStatus* iDoneStatus;
TRxQ iRxQ;
TRxQ iRptQ;
};
void RxMsg(TAny* aPtr)
{
msghdr* m = ThePMsgQ.Get();
((DRtosIfc*)aPtr)->HandleRtosMsg(m);
}
TInt EntryPoint()
{
TPMsgQ::ThePMsgQ = &::ThePMsgQ;
init_personality();
assert(current_task_id() == TASK_ID_UNKNOWN);
kprintf("Entry point exit");
return 0;
}
void SendInitMsg()
{
kprintf("Send init msg");
msghdr* m = (msghdr*)alloc_mem_block(sizeof(msghdr));
m->msg_id = MSG_ID_INIT;
int r = send_msg(OC_TASK, m);
assert(r == OK);
}
void SendFlushMsg()
{
msghdr* m = (msghdr*)alloc_mem_block(sizeof(msghdr));
m->msg_id = MSG_ID_FLUSH;
int r = send_msg(OC_TASK, m);
assert(r == OK);
}
void SendFinishMsg()
{
msghdr* m = (msghdr*)alloc_mem_block(sizeof(msghdr));
m->msg_id = MSG_ID_DONE;
int r = send_msg(OC_TASK, m);
assert(r == OK);
}
DRtosIfcFactory::DRtosIfcFactory()
{
iVersion=TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber);
//iParseMask=0;//No units, no info, no PDD
//iUnitsMask=0;//Only one thing
}
TInt DRtosIfcFactory::Create(DLogicalChannelBase*& aChannel)
{
aChannel = new DRtosIfc;
return aChannel ? KErrNone : KErrNoMemory;
}
TInt DRtosIfcFactory::Install()
{
TInt r = SetName(&KRtosIfcLddName);
#ifndef __EPOC32__
if (r == KErrNone)
r = EntryPoint();
#endif
return r;
}
void DRtosIfcFactory::GetCaps(TDes8& aDes) const
{
TCapsRtosIfcV01 b;
b.iVersion=TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber);
Kern::InfoCopy(aDes,(TUint8*)&b,sizeof(b));
}
DRtosIfc::DRtosIfc()
: iRxQ(&Kern::CurrentThread()),
iRptQ(&Kern::CurrentThread())
{
iThread=&Kern::CurrentThread();
iThread->Open();
}
DRtosIfc::~DRtosIfc()
{
iRxQ.Close();
iRptQ.Close();
Kern::SafeClose((DObject*&)iThread, NULL);
}
TInt DRtosIfc::DoCreate(TInt /*aUnit*/, const TDesC8* /*anInfo*/, const TVersion& aVer)
//
// Create channel
//
{
if (!Kern::QueryVersionSupported(TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber),aVer))
return KErrNotSupported;
if (ThePMsgQ.iPtr)
return KErrInUse;
SetDfcQ(Kern::DfcQue0());
iMsgQ.Receive();
ThePMsgQ.iPtr = this;
ThePMsgQ.Receive();
return KErrNone;
}
void DRtosIfc::HandleMsg(TMessageBase* aMsg)
{
TThreadMessage& m=*(TThreadMessage*)aMsg;
TInt id=m.iValue;
if (id==(TInt)ECloseMsg)
{
ThePMsgQ.CancelReceive();
ThePMsgQ.iPtr = NULL;
m.Complete(KErrNone,EFalse);
iMsgQ.CompleteAll(KErrServerTerminated);
return;
}
else if (id==KMaxTInt)
{
// DoCancel
DoCancel(m.Int0());
m.Complete(KErrNone,ETrue);
return;
}
if (id<0)
{
// DoRequest
TRequestStatus* pS=(TRequestStatus*)m.Ptr0();
TInt r=DoRequest(~id,pS,m.Ptr1(),m.Ptr2());
if (r!=KErrNone)
Kern::RequestComplete(iThread,pS,r);
m.Complete(KErrNone,ETrue);
}
else
{
// DoControl
TInt r=DoControl(id,m.Ptr0(),m.Ptr1());
m.Complete(r,ETrue);
}
}
TInt DRtosIfc::DoControl(TInt aFunc, TAny* a1, TAny* a2)
{
(void)a1;
(void)a2;
TInt r = KErrNone;
switch (aFunc)
{
case RRtosIfc::EControlInit:
SendInitMsg();
break;
case RRtosIfc::EControlFlush:
SendFlushMsg();
break;
case RRtosIfc::EControlFinish:
SendFinishMsg();
break;
case RRtosIfc::EControlSend:
{
data_msg* dm = (data_msg*)alloc_mem_block(512);
TPtr8 lptr(dm->data, 0, 516-sizeof(data_msg));
r = Kern::ThreadDesRead(iThread, a1, lptr, 0, 0);
if (r == KErrNone)
{
dm->header.msg_id = MSG_ID_DATA;
dm->length = lptr.Length();
dm->checksum = 0;
send_msg(OC_TASK, &dm->header);
}
else
free_mem_block(dm);
break;
}
default:
r = KErrNotSupported;
break;
}
return r;
}
TInt DRtosIfc::DoRequest(TInt aFunc, TRequestStatus* aStatus, TAny* a1, TAny* a2)
{
(void)a1;
(void)a2;
switch (aFunc)
{
case RRtosIfc::ERequestWaitInitialTests:
iDoneStatus = aStatus;
return KErrNone;
case RRtosIfc::ERequestReceive:
return iRxQ.QueueReq(aStatus, a1);
case RRtosIfc::ERequestReport:
return iRptQ.QueueReq(aStatus, a1);
default:
return KErrNotSupported;
}
}
void DRtosIfc::DoCancel(TInt aMask)
{
if (aMask & RRtosIfc::ECancelWaitInitialTests)
{
Kern::RequestComplete(iThread, iDoneStatus, KErrCancel), iDoneStatus=NULL;
}
if (aMask & RRtosIfc::ECancelReceive)
iRxQ.CancelReq();
if (aMask & RRtosIfc::ECancelReport)
iRptQ.CancelReq();
}
void DRtosIfc::HandleRtosMsg(msghdr* aM)
{
switch (aM->msg_id)
{
case MSG_ID_DONE:
if (iDoneStatus)
Kern::RequestComplete(iThread, iDoneStatus, KErrNone), iDoneStatus=NULL;
break;
case MSG_ID_DATA:
iRxQ.AddMsg(aM);
aM = NULL;
break;
case MSG_ID_SEM_RPT:
case MSG_ID_RCV_RPT:
case MSG_ID_TM_RPT:
iRptQ.AddMsg(aM);
aM = NULL;
break;
default:
break;
}
if (aM)
free_mem_block(aM);
ThePMsgQ.Receive();
}
#ifdef __EPOC32__
DECLARE_STANDARD_EXTENSION()
{
return EntryPoint();
}
DECLARE_EXTENSION_LDD()
{
return new DRtosIfcFactory;
}
#else
DECLARE_STANDARD_LDD()
{
return new DRtosIfcFactory;
}
#endif