Automatic SBS_HOME detection for util making and installer.
It's a little more user-friendly for anyone who wants to build a linux install packager.
/*
* Copyright (c) 1995-2009 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:
*
*/
#define __REFERENCE_CAPABILITY_NAMES__
#include "e32image.h"
#include <e32std.h>
#include <e32std_private.h>
#include <e32ver.h>
#include <e32rom.h>
#include <stdlib.h>
#include <u32std.h>
#include "r_rom.h"
#include "r_global.h"
#include "r_obey.h"
#include "h_utl.h"
inline char* RomToActualAddress(TLinAddr aRomAddr)
{ return (char*)(aRomAddr+TheRomMem-TheRomLinearAddress); }
//
void TRomLoaderHeader::SetUp(CObeyFile *aObey)
//
// Fill in the TRomLoaderHeader - this is used by the ROM loader / programmer.
//
{
if (CPU==ECpuX86)
_snprintf((char *)r.name,24,"%-16.16s%2x%2x%4x","EPOC486 ROM",aObey->iVersion.iMajor,aObey->iVersion.iMinor,aObey->iVersion.iBuild);
else if (CPU==ECpuArmV4)
_snprintf((char *)r.name,24,"%-16.16s%2x%2x%4x","EPOCARM4ROM",aObey->iVersion.iMajor,aObey->iVersion.iMinor,aObey->iVersion.iBuild);
else if (CPU==ECpuArmV5)
_snprintf((char *)r.name,24,"%-16.16s%2x%2x%4x","EPOCARM5ROM",aObey->iVersion.iMajor,aObey->iVersion.iMinor,aObey->iVersion.iBuild);
else if (CPU==ECpuMCore)
_snprintf((char *)r.name,24,"%-16.16s%2x%2x%4x","EPOCMCORROM",aObey->iVersion.iMajor,aObey->iVersion.iMinor,aObey->iVersion.iBuild);
else
_snprintf((char *)r.name,24,"%-16.16s%2x%2x%4x","EPOCUNKNOWN",aObey->iVersion.iMajor,aObey->iVersion.iMinor,aObey->iVersion.iBuild);
r.romSize = aObey->iRomSize;
r.wrapSize = KRomWrapperSize;
for (TUint i=0; i<KFillSize; i++)
filler[i] = 0;
}
//
void ImpTRomHeader::SetUp(CObeyFile *aObey)
//
// Fill in the TRomHeader - this is used by the bootstrap and kernel.
//
{
iVersion = aObey->iVersion;
iTime = aObey->iTime;
iTimeHi = (TUint32)(aObey->iTime>>32);
iRomBase = aObey->iRomLinearBase;
iRomSize = aObey->iRomSize;
iKernDataAddress = aObey->iKernDataRunAddress;
iKernelLimit = aObey->iKernelLimit;
iPrimaryFile = TheRomHeader->iPrimaryFile;
iSecondaryFile = TheRomHeader->iSecondaryFile;
iLanguage=aObey->iLanguage;
iHardware=aObey->iHardware;
iRomHeaderSize=KRomHeaderSize;
iRomSectionHeader=aObey->iSectionStart;
TUint j;
for (j=0; j<(TUint)KNumTraceMaskWords; j++)
iTraceMask[j]=aObey->iTraceMask[j];
for (j=0; j<sizeof(iInitialBTraceFilter)/sizeof(TUint32); j++)
iInitialBTraceFilter[j]=aObey->iInitialBTraceFilter[j];
iInitialBTraceMode = aObey->iInitialBTraceMode;
iInitialBTraceBuffer = aObey->iInitialBTraceBuffer;
iDebugPort=aObey->iDebugPort;
iKernelConfigFlags=aObey->iKernelConfigFlags;
for(TInt i=0; i<SCapabilitySet::ENCapW; i++)
iDisabledCapabilities[i]=aObey->iPlatSecDisabledCaps[i];
}
void ImpTRomHeader::CheckSum(TUint32 aTargetValue)
{
iCheckSum=0;
iCheckSum=aTargetValue-(HMem::CheckSum((TUint *)(TRomHeader *)this, iRomSize));
}
void DisplayExceptionTable(TLinAddr aRomExcTab)
{
Print(ELog,"Rom Exception Search Table Address: %08x\n",aRomExcTab);
TRomExceptionSearchTable* pT=(TRomExceptionSearchTable*)RomToActualAddress(aRomExcTab);
Print(ELog,"Rom Exception Search Table contains %d entries:\n",pT->iNumEntries);
Print(ELog,"CodeAddr\tCd + Data\tidx size\tNum Ents\t Shorts \n");
Print(ELog,"========\t=========\t========\t========\t========\n");
TInt i;
for (i=0; i<pT->iNumEntries; i++)
{
TRomImageHeader* pE = (TRomImageHeader *)RomToActualAddress(pT->iEntries[i]);
TRomImageHeader* pH = pE - 1;
const TExceptionDescriptor* pX = (const TExceptionDescriptor*)RomToActualAddress(pH->iExceptionDescriptor);
if (!pX)
continue;
TUint32 indexTableSize = (char *)pX->iExIdxLimit - (char *)pX->iExIdxBase;
struct IndexTableEntry { TUint32 aPc; TInt aVal; };
struct IndexTableEntry* aExIdxBase = (struct IndexTableEntry *)RomToActualAddress(pX->iExIdxBase);
struct IndexTableEntry* aExIdxLimit = (struct IndexTableEntry *)RomToActualAddress(pX->iExIdxLimit);
TUint32 numIndexTableEntries = aExIdxLimit - aExIdxBase;
TUint32 numShortEntries = 0;
// Short entries have top bit set.
for(; aExIdxBase < aExIdxLimit; aExIdxBase++)
if (aExIdxBase->aVal == 1 || aExIdxBase->aVal < 0)
numShortEntries++;
Print(ELog,"%08x\t%08d\t%08d\t%08d\t%08d\n",
pT->iEntries[i],
pH->iCodeSize+pH->iDataSize,
indexTableSize,
numIndexTableEntries,
numShortEntries);
}
Print(ELog,"\nROM EST fencepost = %08x\n", pT->iEntries[pT->iNumEntries]);
}
//
void ImpTRomHeader::Display()
//
// Display info from ROM header
//
{
TInt i;
Print(ELog,"\n\nDevelopment configuration settings:\n");
TUint j;
for (j=0; j<(TUint)KNumTraceMaskWords; j++)
Print(ELog,"TraceMask[%d]: %08x\n",j, iTraceMask[j]);
for (j=0; j<sizeof(iInitialBTraceFilter)/sizeof(TUint32); j++)
Print(ELog,"BTrace[%d]: %08x\n",j, iInitialBTraceFilter[j]);
Print(ELog,"BTraceMode: %08x\n",iInitialBTraceMode);
Print(ELog,"BTraceBuffer: %08x\n",iInitialBTraceBuffer);
Print(ELog,"DebugPort: %08x\n",iDebugPort);
Print(ELog,"KernelConfigFlags: %08x\n",iKernelConfigFlags);
Print(ELog,"PlatSecDiagnostics: %s\n",iKernelConfigFlags&EKernelConfigPlatSecDiagnostics ? "ON":"OFF");
Print(ELog,"PlatSecEnforcement: %s\n",iKernelConfigFlags&EKernelConfigPlatSecEnforcement ? "ON":"OFF");
Print(ELog,"PlatSecProcessIsolation: %s\n",iKernelConfigFlags&EKernelConfigPlatSecProcessIsolation ? "ON":"OFF");
Print(ELog,"PlatSecEnforceSysBin: %s\n",iKernelConfigFlags&EKernelConfigPlatSecEnforceSysBin ? "ON":"OFF");
const char* pagingPolicy =0;
switch(iKernelConfigFlags&EKernelConfigCodePagingPolicyMask)
{
case EKernelConfigCodePagingPolicyNoPaging:
pagingPolicy = "NoPaging";
break;
case EKernelConfigCodePagingPolicyAlwaysPage:
pagingPolicy = "AlwaysPage";
break;
case EKernelConfigCodePagingPolicyDefaultUnpaged:
pagingPolicy = "DefaultUnpaged";
break;
case EKernelConfigCodePagingPolicyDefaultPaged:
pagingPolicy = "DefaultPaged";
break;
}
Print(ELog,"CodePagingPolicy: %s\n",pagingPolicy);
switch(iKernelConfigFlags&EKernelConfigDataPagingPolicyMask)
{
case EKernelConfigDataPagingPolicyNoPaging:
pagingPolicy = "NoPaging";
break;
case EKernelConfigDataPagingPolicyAlwaysPage:
pagingPolicy = "AlwaysPage";
break;
case EKernelConfigDataPagingPolicyDefaultUnpaged:
pagingPolicy = "DefaultUnpaged";
break;
case EKernelConfigDataPagingPolicyDefaultPaged:
pagingPolicy = "DefaultPaged";
break;
}
Print(ELog,"DataPagingPolicy: %s\n",pagingPolicy);
Print(ELog,"PlatSecDisabledCaps: ");
TBool all=ETrue;
TBool none=ETrue;
for(i=0; i<ECapability_Limit; i++)
if(CapabilityNames[i])
{
if(iDisabledCapabilities[i>>5] & (1<<(i&31)))
none = EFalse;
else
all = EFalse;
}
if(none)
Print(ELog,"NONE");
else if(all)
Print(ELog,"ALL");
else
for(i=0; i<ECapability_Limit; i++)
if(iDisabledCapabilities[i>>5] & (1<<(i&31)))
Print(ELog,"%s ",CapabilityNames[i]);
Print(ELog,"\n");
Print(ELog,"\n\nRom details:\n");
Print(ELog,"Version %d.%02d(%03d)\n", iVersion.iMajor, iVersion.iMinor, iVersion.iBuild);
Print(ELog,"Hardware version: %08x\n",iHardware);
Print(ELog,"Language Support: %08x%08x\n",TUint32(iLanguage>>32),TUint32(iLanguage));
Print(ELog,"Linear base address: %08x\n",iRomBase);
Print(ELog,"Size: %08x\n",iRomSize);
Print(ELog,"Root directory list: %08x\n",iRomRootDirectoryList);
Print(ELog,"Kernel data address: %08x\n",iKernDataAddress);
Print(ELog,"Kernel limit: %08x\n",iKernelLimit);
Print(ELog,"Primary file address: %08x\n",iPrimaryFile);
Print(ELog,"Secondary file address: %08x\n",iSecondaryFile);
Print(ELog,"First variant address: %08x\n",iVariantFile);
Print(ELog,"First extension address: %08x\n",iExtensionFile);
Print(ELog,"Pageable ROM offset: %08x\n",iPageableRomStart);
Print(ELog,"Pageable ROM size: %08x\n",iPageableRomSize);
Print(ELog,"ROM page index offset: %08x\n",iRomPageIndex);
Print(ELog,"Demand Paging Config: minPages=%d maxPages=%d ageRatio=%d spare[0..2]=%d,%d,%d \n",iDemandPagingConfig.iMinPages,iDemandPagingConfig.iMaxPages,iDemandPagingConfig.iYoungOldRatio,iDemandPagingConfig.iSpare[0],iDemandPagingConfig.iSpare[1],iDemandPagingConfig.iSpare[2]);
Print(ELog,"Checksum word: %08x\n",iCheckSum);
Print(ELog,"TotalSvDataSize: %08x\n",iTotalSvDataSize);
Print(ELog,"User data address: %08x\n",iUserDataAddress);
Print(ELog,"TotalUserDataSize: %08x\n",iTotalUserDataSize);
Print(ELog,"Relocation Info Address: %08x\n",iRelocInfo);
if(iRelocInfo)
{
TReloc* reloc=(TReloc*)RomToActualAddress(iRelocInfo);
while(reloc->iLength)
{
Print(ELog," Src %08x Dest %08x Length %08x\n",
reloc->iSrc, reloc->iDest, reloc->iLength);
reloc++;
}
}
TRomRootDirectoryList* pR=(TRomRootDirectoryList*)RomToActualAddress(iRomRootDirectoryList);
Print(ELog,"\nRoot directories:\n");
for (i=0; i<pR->iNumRootDirs; i++)
{
Print(ELog,"Directory %2d %08x %08x\n",i,pR->iRootDir[i].iHardwareVariant,pR->iRootDir[i].iAddressLin);
}
if (iRomExceptionSearchTable)
{
if(!iPageableRomSize) // Don't do this for Paged ROMs because of page compression
DisplayExceptionTable(iRomExceptionSearchTable);
}
}
//
void E32Rom::FinaliseSectionHeader()
//
// Fill in the section header
//
{
if (iHeader->iRomSectionHeader)
{
// Set up the section header
TRomSectionHeader *header=(TRomSectionHeader *)RomToActualAddress(iHeader->iRomSectionHeader);
header->iVersion=iHeader->iVersion;
header->iTime=iHeader->iTime;
header->iLanguage=iHeader->iLanguage;
header->iCheckSum=0;
header->iCheckSum=0-HMem::CheckSum((TUint *)header, iHeader->iRomSize-(iHeader->iRomSectionHeader-iHeader->iRomBase));
}
}
//
void E32Rom::FinaliseExtensionHeader(MRomImage* aKernelRom)
{
TExtensionRomHeader* header = (TExtensionRomHeader*)iHeader;
header->iVersion = iObey->iVersion;
header->iTime = iObey->iTime;
header->iRomBase = iObey->iRomLinearBase;
header->iRomSize = iObey->iRomSize;
header->iKernelVersion = aKernelRom->Version();
header->iKernelTime = aKernelRom->Time();
header->iKernelCheckSum = aKernelRom->CheckSum();
header->iCheckSum=0;
header->iCheckSum=0-HMem::CheckSum((TUint *)header, iObey->iRomSize);
}
void E32Rom::DisplayExtensionHeader()
//
// Display info from extension ROM header
//
{
TExtensionRomHeader* header = (TExtensionRomHeader*)iHeader;
TVersion version = header->iVersion;
Print(ELog,"\n\nExtension Rom details:\n");
Print(ELog,"Version %d.%02d(%03d) ", version.iMajor, version.iMinor, version.iBuild);
version = header->iKernelVersion;
Print(ELog,"(Kernel %d.%02d(%03d))\n", version.iMajor, version.iMinor, version.iBuild);
Print(ELog,"Linear base address: %08x\n",header->iRomBase);
Print(ELog,"Size: %08x\n",header->iRomSize);
Print(ELog,"Root directory list: %08x\n",header->iRomRootDirectoryList);
Print(ELog,"Checksum word: %08x (Kernel %08x)\n",header->iCheckSum, header->iKernelCheckSum);
Print(ELog,"Exception Search Table: %08x\n", header->iRomExceptionSearchTable);
if (header->iRomExceptionSearchTable)
{
DisplayExceptionTable(header->iRomExceptionSearchTable);
}
TRomRootDirectoryList* pR=(TRomRootDirectoryList*)RomToActualAddress(header->iRomRootDirectoryList);
Print(ELog,"\nRoot directories:\n");
TInt i;
for (i=0; i<pR->iNumRootDirs; i++)
{
Print(ELog,"Directory %2d %08x %08x\n",i,pR->iRootDir[i].iHardwareVariant,pR->iRootDir[i].iAddressLin);
}
Print(ELog, "\n");
}