Trying to figure out how to implement my WINC like compatibility layer. Going the emulation way is probably not so smart. We should not use the kernel but rather hook native functions in the Exec calls.
// Copyright (c) 2008-2009 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\nkernsmp\arm\ncmonitor.cpp
// Kernel crash debugger - NKERNSMP ARM specific portion
//
//
#define __INCLUDE_NTHREADBASE_DEFINES__
#include <kernel/monitor.h>
#include "nk_priv.h"
#include <arm.h>
SFullArmRegSet& RegSet(TInt aCpu)
{
TScheduler* pS = TScheduler::Ptr();
TSubScheduler& ss = *pS->iSub[aCpu];
return *(SFullArmRegSet*)ss.i_AbtStackTop;
}
void Monitor::DisplaySpinLock(const char* aTitle, TSpinLock* aLock)
{
volatile TUint32* p = (volatile TUint32*)aLock;
Printf("%s %08x %08x\r\n", aTitle, p[0], p[1]);
}
EXPORT_C void Monitor::DisplayNThreadInfo(NThread* aT)
{
DisplayNSchedulableInfo(aT);
}
void Monitor::DisplayNSchedulableInfo(NSchedulable* aS)
{
NThread* t = aS->iParent ? (NThread*)aS : 0;
NThreadGroup* g = aS->iParent ? 0 : (NThreadGroup*)aS;
if (t && aS->iParent==aS)
Printf("NThread @%08x Pri %d\r\n",aS,aS->iPriority);
else if (t)
Printf("NThread @%08x (G:%08x) Pri %d\r\n",aS,aS->iParent,aS->iPriority);
else
Printf("NThreadGroup @%08x Pri %d\r\n",aS,aS->iPriority);
Printf("Rdy=%02x Curr=%02x LastCpu=%d CpuChg=%02x FrzCpu=%d\r\n", aS->iReady, aS->iCurrent, aS->iLastCpu, aS->iCpuChange, aS->iFreezeCpu);
Printf("Next=%08x Prev=%08x Parent=%08x CPUaff=%08x\r\n", aS->iNext, aS->iPrev, aS->iParent, aS->iCpuAffinity);
Printf("PauseCount %02x Susp %1x\r\n", aS->iPauseCount, aS->iSuspended);
DisplaySpinLock("SpinLock", &aS->iSSpinLock);
Printf("Stopping %02x Events %08x %08x EventState %08x\r\n", aS->iStopping, aS->iEvents.iA.iNext, aS->iEvents.iA.iPrev, aS->iEventState);
Printf("TotalCpuTime %08x %08x RunCount %08x %08x\r\n", aS->iTotalCpuTime32[1], aS->iTotalCpuTime32[0], aS->iRunCount32[1], aS->iRunCount32[0]);
if (g)
{
// Thread group
return;
}
Printf("WaitState %02x %02x [%02x %02x] (%08x)\r\n", t->iWaitState.iWtC.iWtStFlags, t->iWaitState.iWtC.iWtObjType,
t->iWaitState.iWtC.iWtStSpare1, t->iWaitState.iWtC.iWtStSpare2, t->iWaitState.iWtC.iWtObj);
Printf("BasePri %d MutexPri %d Att=%02x\r\n", t->iBasePri, t->iMutexPri, t->i_ThrdAttr);
Printf("HeldFM=%08x FMDef=%02x AddrSp=%08x\r\n", t->iHeldFastMutex, t->iFastMutexDefer, t->iAddressSpace);
Printf("Time=%d Timeslice=%d ReqCount=%08x\r\n", t->iTime, t->iTimeslice, t->iRequestSemaphore.iCount);
Printf("SuspendCount=%d CsCount=%d CsFunction=%08x\r\n", t->iSuspendCount, t->iCsCount, t->iCsFunction);
Printf("LinkedObjType %02x LinkedObj %08x\r\n", t->iLinkedObjType, t->iLinkedObj);
Printf("SavedSP=%08x WaitLink:%08x %08x %d\r\n", t->iSavedSP, t->iWaitLink.iNext, t->iWaitLink.iPrev, t->iWaitLink.iPriority);
Printf("iNewParent=%08x iExtraContext=%08x, iExtraContextSize=%08x\r\n", t->iNewParent, t->iExtraContext, t->iExtraContextSize);
Printf("iUserModeCallbacks=%08x iNThreadBaseSpare6=%08x\r\n", t->iUserModeCallbacks, t->iNThreadBaseSpare6);
Printf("iNThreadBaseSpare7=%08x iNThreadBaseSpare8=%08x iNThreadBaseSpare9=%08x\r\n", t->iNThreadBaseSpare7, t->iNThreadBaseSpare8, t->iNThreadBaseSpare9);
if (!aS->iCurrent)
{
TUint32* pS=(TUint32*)t->iSavedSP;
SThreadReschedStack reg;
MTRAPD(r,wordmove(®,pS,sizeof(SThreadReschedStack)));
if (r==KErrNone)
{
Printf("TEEHBR %08x UROTID %08x URWTID %08x FPEXC %08x\r\n", reg.iTEEHBR, reg.iRWROTID, reg.iRWRWTID, reg.iFpExc);
Printf(" CAR %08x DACR %08x\r\n", reg.iCar, reg.iDacr);
Printf(" SPARE %08x SPSR %08x SPRSCH %08x R15 %08x\r\n", reg.iSpare, reg.iSpsrSvc, reg.iSPRschdFlg, reg.iR15);
}
}
NewLine();
}
void Monitor::DisplayNFastSemInfo(NFastSemaphore* pS)
{
if (pS->iCount >= 0)
Printf("NFastSemaphore @ %08x Count %d OwningThread %08x\r\n",pS,pS->iCount,pS->iOwningThread);
else
Printf("NFastSemaphore @ %08x Count %08x (%08x) OwningThread %08x\r\n",pS,pS->iCount,pS->iCount<<2,pS->iOwningThread);
}
void Monitor::DisplayNFastMutexInfo(NFastMutex* aM)
{
Printf("NFastMutex @ %08x HoldingThread %08x iWaitQ Pri Mask %08x %08x\r\n", aM, aM->iHoldingThread, aM->iWaitQ.iPresent[1], aM->iWaitQ.iPresent[0]);
DisplaySpinLock("SpinLock", &aM->iMutexLock);
}
void DisplaySubSchedulerInfo(Monitor& m, TSubScheduler& ss)
{
m.Printf("\r\nSUBSCHEDULER %d @%08x:\r\n", ss.iCpuNum, &ss);
m.Printf("CurrentThread=%08x\r\n", ss.iCurrentThread);
m.Printf("IDFCs %08x %08x CPU# %08x CPUmask %08x\r\n", ss.iDfcs.iA.iNext, ss.iDfcs.iA.iPrev, ss.iCpuNum, ss.iCpuMask);
m.Printf("ExIDFCs %08x %08x CurIDFC %08x PendFlg %08x\r\n", ss.iExIDfcs.iA.iNext, ss.iExIDfcs.iA.iPrev, ss.iCurrentIDFC, *(TUint32*)&ss.iRescheduleNeededFlag);
m.DisplaySpinLock("ExIDfcLock", &ss.iExIDfcLock);
m.Printf("KLCount %d InIDFC %02x EvPend %02x\r\n", ss.iKernLockCount, ss.iInIDFC, ss.iEventHandlersPending);
m.Printf("AddrSp %08x RschdIPIs %08x iNextIPI %08x\r\n", ss.iAddressSpace, ss.iReschedIPIs, ss.iNextIPI);
m.DisplaySpinLock("ReadyListLock", &ss.iReadyListLock);
m.Printf("EvtHand %08x %08x InitThrd %08x SLOC %08x %08x\r\n", ss.iEventHandlers.iA.iNext, ss.iEventHandlers.iA.iPrev,
ss.iInitialThread, I64HIGH(ss.iSpinLockOrderCheck), I64LOW(ss.iSpinLockOrderCheck));
m.DisplaySpinLock("EventHandlerLock", &ss.iEventHandlerLock);
m.Printf("Extras[ 0] %08x Extras[ 1] %08x Extras[ 2] %08x Extras[ 3] %08x\r\n", ss.iExtras[0], ss.iExtras[1], ss.iExtras[2], ss.iExtras[3]);
m.Printf("i_ScuAddr %08x i_GicDist %08x i_GicCpuIf %08x i_LocTmrA %08x\r\n", ss.i_ScuAddr, ss.i_GicDistAddr, ss.i_GicCpuIfcAddr, ss.i_LocalTimerAddr);
m.Printf("i_IrqCount %08x i_IrqNest %08x i_ExcInfo %08x i_CrashSt %08x\r\n", ss.i_IrqCount, ss.i_IrqNestCount, ss.i_ExcInfo, ss.i_CrashState);
m.Printf("i_AbtStkTp %08x i_UndSktTp %08x i_FiqStkTp %08x i_IrqStkTp %08x\r\n", ss.i_AbtStackTop, ss.i_UndStackTop, ss.i_FiqStackTop, ss.i_IrqStackTop);
m.Printf("i_TmrMultF %08x i_TmrMultI %08x i_CpuMult %08x Extras[13] %08x\r\n", ss.i_TimerMultF, ss.i_TimerMultI, ss.i_CpuMult, ss.iExtras[19]);
m.Printf("i_LstTmrSt %08x i_TstmpErr %08x i_MaxCorr %08x i_TimerGap %08x\r\n", ss.iExtras[20], ss.iExtras[21], ss.iExtras[22], ss.iExtras[23]);
m.Printf("iLastTimestamp %08x %08x iReschedCount %08x %08x\r\n", ss.iLastTimestamp32[1], ss.iLastTimestamp32[0], ss.iReschedCount32[1], ss.iReschedCount32[0]);
}
void Monitor::DisplaySchedulerInfo()
{
TScheduler* pS=TScheduler::Ptr();
Printf("SCHEDULER @%08x:\r\n",pS);
Printf("ProcessHandler=%08x MonitorExceptionHandler=%08x RescheduleHook=%08x\r\n",pS->iProcessHandler,pS->iMonitorExceptionHandler,pS->iRescheduleHook);
Printf("iActiveCpus1=%08x, iActiveCpus2=%08x, iNumCpus=%d\r\n",pS->iActiveCpus1,pS->iActiveCpus2,pS->iNumCpus);
Printf("SYSLOCK @ %08x\r\n",&pS->iLock);
DisplayNFastMutexInfo(&pS->iLock);
DisplaySpinLock("IdleSpinLock", &pS->iIdleSpinLock);
Printf("IdleDfcs %08x %08x CpusNotIdle %08x IdleGeneration %02x IdleSpillCpu %02x\r\n",
pS->iIdleDfcs.iA.iNext, pS->iIdleDfcs.iA.iPrev, pS->iCpusNotIdle, pS->iIdleGeneration, pS->iIdleSpillCpu);
Printf("Extras 0: %08x 1: %08x 2: %08x 3: %08x\r\n",pS->iExtras[0],pS->iExtras[1],pS->iExtras[2],pS->iExtras[3]);
Printf("Extras 4: %08x 5: %08x 6: %08x 7: %08x\r\n",pS->iExtras[4],pS->iExtras[5],pS->iExtras[6],pS->iExtras[7]);
Printf("Extras 8: %08x 9: %08x A: %08x B: %08x\r\n",pS->iExtras[8],pS->iExtras[9],pS->iExtras[10],pS->iExtras[11]);
Printf("Extras C: %08x D: %08x E: %08x F: %08x\r\n",pS->iExtras[12],pS->iExtras[13],pS->iExtras[14],pS->iExtras[15]);
Printf("Extras 10: %08x 11: %08x 12: %08x 13: %08x\r\n",pS->iExtras[16],pS->iExtras[17],pS->iExtras[18],pS->iExtras[19]);
Printf("Extras 14: %08x 15: %08x 16: %08x 17: %08x\r\n",pS->iExtras[20],pS->iExtras[21],pS->iExtras[22],pS->iExtras[23]);
TInt i;
for (i=0; i<KMaxCpus; ++i)
{
TSubScheduler& ss = *pS->iSub[i];
DisplaySubSchedulerInfo(*this,ss);
}
}
void DumpRegisters(Monitor& m, SFullArmRegSet& a)
{
SNormalRegs& r = a.iN;
m.Printf("MODE_USR:\r\n");
m.Printf(" R0=%08x R1=%08x R2=%08x R3=%08x\r\n", r.iR0, r.iR1, r.iR2, r.iR3);
m.Printf(" R4=%08x R5=%08x R6=%08x R7=%08x\r\n", r.iR4, r.iR5, r.iR6, r.iR7);
m.Printf(" R8=%08x R9=%08x R10=%08x R11=%08x\r\n", r.iR8, r.iR9, r.iR10, r.iR11);
m.Printf("R12=%08x R13=%08x R14=%08x R15=%08x\r\n", r.iR12, r.iR13, r.iR14, r.iR15);
m.Printf("CPSR=%08x\r\n", r.iFlags);
m.Printf("MODE_FIQ:\r\n");
m.Printf(" R8=%08x R9=%08x R10=%08x R11=%08x\r\n", r.iR8Fiq, r.iR9Fiq, r.iR10Fiq, r.iR11Fiq);
m.Printf("R12=%08x R13=%08x R14=%08x SPSR=%08x\r\n", r.iR12Fiq, r.iR13Fiq, r.iR14Fiq, r.iSpsrFiq);
m.Printf("MODE_IRQ:\r\n");
m.Printf("R13=%08x R14=%08x SPSR=%08x\r\n", r.iR13Irq, r.iR14Irq, r.iSpsrIrq);
m.Printf("MODE_SVC:\r\n");
m.Printf("R13=%08x R14=%08x SPSR=%08x\r\n", r.iR13Svc, r.iR14Svc, r.iSpsrSvc);
m.Printf("MODE_ABT:\r\n");
m.Printf("R13=%08x R14=%08x SPSR=%08x\r\n", r.iR13Abt, r.iR14Abt, r.iSpsrAbt);
m.Printf("MODE_UND:\r\n");
m.Printf("R13=%08x R14=%08x SPSR=%08x\r\n", r.iR13Und, r.iR14Und, r.iSpsrUnd);
// m.Printf("MODE_MON:\r\n");
// m.Printf("R13=%08x R14=%08x SPSR=%08x\r\n", r.iR13Mon, r.iR14Mon, r.iSpsrMon);
SAuxiliaryRegs& aux = a.iA;
m.Printf("TEEHBR=%08x CPACR=%08x\r\n", aux.iTEEHBR, aux.iCPACR);
SBankedRegs& b = a.iB[0];
m.Printf(" SCTLR=%08x ACTLR=%08x PRRR=%08x NMRR=%08x\r\n", b.iSCTLR, b.iACTLR, b.iPRRR, b.iNMRR);
m.Printf(" DACR=%08x TTBR0=%08x TTBR1=%08x TTBCR=%08x\r\n", b.iDACR, b.iTTBR0, b.iTTBR1, b.iTTBCR);
m.Printf(" VBAR=%08x FCSEID=%08x CTXIDR=%08x\r\n", b.iVBAR, b.iFCSEIDR, b.iCTXIDR);
m.Printf("Thread ID RWRW=%08x RWRO=%08x RWNO=%08x\r\n", b.iRWRWTID, b.iRWROTID, b.iRWNOTID);
#ifdef __CPU_HAS_MMU
extern TUint32 GetMMUID();
m.Printf(" MMUID %08x\r\n", GetMMUID());
#endif
#ifdef __CPU_HAS_VFP
m.Printf("FPEXC %08x\r\n", a.iMore[0]);
#endif
#ifdef __CPU_HAS_CACHE_TYPE_REGISTER
extern TUint32 GetCacheType();
m.Printf("CTYPE %08x\r\n", GetCacheType());
#endif
m.NewLine();
}
EXPORT_C void Monitor::DumpCpuRegisters()
{
TInt i;
for (i=0; i<KMaxCpus; ++i)
{
Printf("CPU %d\r\n--------------------------------------------------------------------------------\r\n", i);
SFullArmRegSet& r = RegSet(i);
DumpRegisters(*this, r);
NewLine();
}
}
EXPORT_C void Monitor::DisplayCpuFaultInfo()
{
TScheduler* pS=TScheduler::Ptr();
TInt i;
for (i=0; i<KMaxCpus; ++i)
{
Printf("CPU %d:\r\n", i);
TSubScheduler& ss = *pS->iSub[i];
if (!ss.i_Regs)
continue;
SFullArmRegSet& r = *(SFullArmRegSet*)ss.i_Regs;
Printf("Exc %1d Cpsr=%08x FAR=%08x FSR=%08x\r\n", r.iExcCode, r.iN.iFlags, r.iB[0].iDFAR, r.iB[0].iDFSR);
Printf(" R0=%08x R1=%08x R2=%08x R3=%08x\r\n", r.iN.iR0, r.iN.iR1, r.iN.iR2, r.iN.iR3);
Printf(" R4=%08x R5=%08x R6=%08x R7=%08x\r\n", r.iN.iR4, r.iN.iR5, r.iN.iR6, r.iN.iR7);
Printf(" R8=%08x R9=%08x R10=%08x R11=%08x\r\n", r.iN.iR8, r.iN.iR9, r.iN.iR10, r.iN.iR11);
Printf("R12=%08x R13=%08x R14=%08x R15=%08x\r\n", r.iN.iR12, r.iN.iR13, r.iN.iR14, r.iN.iR15);
Printf("R13Svc=%08x R14Svc=%08x SpsrSvc=%08x\r\n", r.iN.iR13Svc, r.iN.iR14Svc, r.iN.iSpsrSvc);
NewLine();
}
}
EXPORT_C void Monitor::GetStackPointers(NThread* aThread, TUint& aSupSP, TUint& aUsrSP)
{
// TScheduler* pS = TScheduler::Ptr();
if (aThread->iCurrent)
{
TInt i = aThread->iLastCpu;
aSupSP = RegSet(i).iN.iR13Svc;
aUsrSP = RegSet(i).iN.iR13;
}
else
{
aSupSP = (TUint)aThread->iSavedSP;
SThreadExcStack* txs = (SThreadExcStack*)((TLinAddr)aThread->iStackBase + (TLinAddr)aThread->iStackSize);
--txs;
if (txs->iExcCode != SThreadExcStack::EInit && txs->iExcCode != SThreadExcStack::EStub)
aUsrSP = txs->iR13usr;
else
aUsrSP = 0;
}
}