// Copyright (c) 1999-2009 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 <e32std.h>
#include <e32svr.h>
#include <f32file.h>
_LIT(KBlankLine, "\r");
class TDll
{
public:
TDll(const TDesC& aName, TUint8* aBase, TInt aSize)
: iName(aName), iBase((TUint)aBase), iSize((TUint)aSize)
{}
TFullName iName;
TUint iBase;
TUint iSize;
};
class TDllList
{
public:
static void FindDlls();
static void ResetAndDestroy();
static void ListDlls(TFileText& aTextFile);
static TInt Match(TUint anAddr, const TDll*& aDll);
private:
static RPointerArray<TDll> iList;
};
RPointerArray<TDll> TDllList::iList(10);
void TDllList::ResetAndDestroy()
{
iList.ResetAndDestroy();
}
void TDllList::ListDlls(TFileText& aTextFile)
{
TBuf<0x100> line;
_LIT(KDllFormat, "%08x-%08x %S\r");
aTextFile.Write(KBlankLine);
for (TInt i=0; i<iList.Count(); i++)
{
const TDll& dll=*(iList[i]);
line.Format(KDllFormat, dll.iBase, dll.iBase+dll.iSize-1, &dll.iName);
aTextFile.Write(line);
}
}
TInt TDllList::Match(TUint anAddr, const TDll*& aDll)
{
for (TInt i=0; i<iList.Count(); i++)
{
aDll=iList[i];
if (aDll->iBase<=anAddr && aDll->iBase+aDll->iSize > anAddr)
return KErrNone;
}
return KErrNotFound;
}
void TDllList::FindDlls()
//
// For each library known to the system, look for a chunk of the same name
//
{
TFindLibrary findLib;
TFullName libName;
while (findLib.Next(libName)==KErrNone)
{
TFindChunk findChunk(libName);
TFullName chunkName;
if (findChunk.Next(chunkName)!=KErrNone)
continue;
RChunk chunk;
if (chunk.Open(findChunk)!=KErrNone)
continue;
TUint8* base=chunk.Base();
TInt size=chunk.Size();
chunk.Close();
TDll* dllptr=new TDll(libName,base,size);
if (dllptr!=0)
iList.Append(dllptr);
}
}
_LIT(KFormatStackInfo,"Stack %08x-%08x (? %d?), sp=%08x\r");
HBufC8* GrabStack(const TDesC& /*aLine1*/, TThreadId aId, TUint aSp, TInt& aStackBase, TInt& aStackSize)
{
TInt err=KErrNone;
#if 0
// Defect in E32 162 which means that RThread::GetRamSizes will always reset the machine!
RThread thread;
if (thread.Open(aId)!=KErrNone)
return 0;
TInt heapsize=0;
err=thread.GetRamSizes(heapsize,aStackSize);
thread.Close();
if (err!=KErrNone)
return 0;
// Sanity check
aStackBase = aSp & ~((1024*1024)-1);
if (aStackSize<0 || aStackSize>=1024*1024 || aSp>(TUint)(aStackBase+aStackSize))
{
aStackBase=0; // indicates a daft stack pointer
return 0;
}
#else
// Sanity check & guess at stack size
aStackBase = aSp & ~((1024*1024)-1);
aStackSize = (aSp - aStackBase + 4096) & ~4095; // round up to a multiple of the page size
if (aStackBase+aStackSize-aSp < 200)
aStackSize += 4096; // seems too small - risk another page!
if (aStackSize<0 || aStackSize>=1024*1024)
{
aStackBase=0; // indicates a daft stack pointer
return 0;
}
aStackSize-=4; // a clue to the wise that this is a guess...
#endif
// Ask the user if we want to risk grabbing the stack...
TBuf<0x100> line2;
line2.Format(KFormatStackInfo, aStackBase, aStackBase+aStackSize-1, aStackSize, aSp);
// OK - let stack grabbing commence
HBufC8* stackbuf = HBufC8::New(aStackSize);
if (stackbuf==0)
return 0;
TPtr8 stackdes(stackbuf->Des());
err=RDebug::ReadMemory(aId,aStackBase,stackdes,aStackSize);
if (err!=KErrNone)
{
delete stackbuf;
stackbuf=0;
}
return stackbuf;
}
GLDEF_C TInt E32Main()
//
// Reporting more detail of KERN-EXEC 3 errors
//
// Warning: This code uses fragile assumptions which may not be true
// in future releases of EPOC
//
// 1) EXEs are located at 0x20000000
// 2) the map file for an EXE puts the start of text at 400010
// 3) the map file for a DLL puts the start of text at 10000010
// 4) the EPOC ROM lives at address 0x50000000
// 5) EPOC stacks start at a megabyte boundary
//
{
TBuf<0x100> line1;
TBuf<0x100> line2;
SDebugInfo info;
struct SRegisterInfo reginfo;
TUint pc = 0;
TUint regs[16];
const TDll* faultDll = NULL;
_LIT(KInfo1, "D_EXC started");
User::InfoPrint(KInfo1);
TRequestStatus stat(0);
// FOREVER
for (TInt rep=0; rep<2; rep++) // die after two exceptions
{
TInt err = KErrNone;
// wait for any thread to panic...
err=RDebug::GetException(info,stat);
if (err!=KErrNone)
{
_LIT(KInfo2, "RDebug failure");
User::Panic(KInfo2, err);
}
User::WaitForRequest(stat);
_LIT(KFormatPanic, "%S panic %S %d\r");
_LIT(KFormatException, "%S exception type %d\r");
_LIT(KFormatBreakpoint, "%S has breakpoint %d\r");
switch (info.iDebugType)
{
case EPanic:
line1.Format(KFormatPanic,&info.iName,&info.iCategory, info.iPanicType);
break;
case EException:
line1.Format(KFormatException,&info.iName,info.iPanicType);
break;
case EBreakPoint:
line1.Format(KFormatBreakpoint,&info.iName,info.iPanicType);
break;
default:
continue;
}
// assume that it's KERN-EXEC 3 and try to use the
// full RDebug support to locate the faulting instruction
HBufC8* stack = NULL;
TInt stackbase=0;
TInt stacksize=0;
const TInt KStackPointerReg = 13;
pc = 0x00000001; // illegal value
err = RDebug::Open();
if (err==KErrNone)
{
err = RDebug::RegisterInfo(reginfo);
if (!err)
{
RDebug::GetRegister(info.iId,reginfo.iNumberOfPcRegister, pc);
for (int i=0; i<16; i++)
{
RDebug::GetRegister(info.iId, i, regs[i]);
}
}
TDllList::FindDlls();
stack=GrabStack(line1, info.iId, regs[KStackPointerReg], stackbase, stacksize);
RDebug::Close();
}
_LIT(KFormatEXE, "pc=%08x, .map equivalent %08x\r");
_LIT(KFormatROM, "pc=%08x, in ROM\r");
_LIT(KFormatDll, "pc=%08x, in DLL %S, .map equivalent %08x\r");
_LIT(KFormatOther, "pc=%08x, iCodeAddr=%08x\r");
_LIT(KFormatError, "(Unable to determine pc)\r");
if ((pc&3) == 0)
{
if (pc >= 0x20000000 && pc < 0x30000000)
{
line2.Format(KFormatEXE, pc, pc-0x20000000+0x400010);
}
else if (pc >= 0x50000000 && pc < 0x60000000)
{
line2.Format(KFormatROM, pc);
}
else if (TDllList::Match(pc, faultDll)==KErrNone)
{
line2.Format(KFormatDll, pc, &faultDll->iName, pc-(faultDll->iBase)+0x10000010);
}
else
{
line2.Format(KFormatOther, pc, info.iCodeAddr);
}
}
else
{
line2.Copy(KFormatError);
}
RFs fs;
err = fs.Connect();
if (err!=KErrNone)
{
break;
}
_LIT(KFormatFilename,"d:\\d_exc_%d.txt");
_LIT(KFormatStackname,"d:\\d_exc_%d.stk");
// Report the basic information about registers, DLLs etc
TFileName name;
name.Format(KFormatFilename, *(TUint*)&info.iId);
RFile file;
err=file.Replace(fs, name, EFileWrite+EFileShareAny+EFileStreamText);
if (err!=KErrNone)
{
fs.Close();
break;
}
TFileText textfile;
textfile.Set(file);
textfile.Write(line1);
textfile.Write(line2);
textfile.Write(KBlankLine);
_LIT(KFormatRegisters,"r%02d=%08x %08x %08x %08x\r");
line2.Format(KFormatRegisters, 0, regs[0], regs[1], regs[2], regs[3]);
textfile.Write(line2);
line2.Format(KFormatRegisters, 4, regs[4], regs[5], regs[6], regs[7]);
textfile.Write(line2);
line2.Format(KFormatRegisters, 8, regs[8], regs[9], regs[10], regs[11]);
textfile.Write(line2);
line2.Format(KFormatRegisters, 12,regs[12], regs[13], regs[14], regs[15]);
textfile.Write(line2);
if (stackbase!=0)
{
line2.Format(KFormatStackInfo, stackbase, stackbase+stacksize-1, stacksize, regs[KStackPointerReg]);
textfile.Write(line2);
}
TDllList::ListDlls(textfile);
TDllList::ResetAndDestroy();
file.Close();
// Dump the stack as binary data
if (stack)
{
name.Format(KFormatStackname, *(TUint*)&info.iId);
err=file.Replace(fs, name, EFileWrite+EFileShareAny+EFileStreamText);
if (err==KErrNone)
{
file.Write(*stack);
file.Close();
}
}
delete stack;
fs.Close();
}
return stat.Int();
}