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) 2001-2009 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:
* Area-related classes implementation
*
*/
#include "r_areaset.h"
#include "r_global.h"
#include "r_rom.h"
extern TBool gGenDepGraph;
extern char* gDepInfoFile;
using namespace std;
////////////////////////////////////////////////////////////////////////
Area::Area(const char* aName, TLinAddr aDestBaseAddr, TUint aMaxSize, Area* aNext)
: iFirstPagedCode(0),
iName(strdup(aName)),
iDestBaseAddr(aDestBaseAddr),
iSrcBaseAddr(0),
iSrcLimitAddr(0),
iMaxSize(aMaxSize),
iIsDefault(strcmp(aName, AreaSet::KDefaultAreaName) == 0),
iFiles(0),
iNextFilePtrPtr(&iFiles),
iNextArea(aNext)
{
}
Area::~Area()
{
ReleaseAllFiles();
free(const_cast<char*>(iName)); // allocated with strdup()
}
/**
Increase the size of the area.
The reallocation must not exceed the area maximum size.
@param aSrcLimitAddr New source top address
@param aOverflow Number of overflow bytes if failure.
@return success indication
*/
TBool Area::ExtendSrcLimitAddr(TLinAddr aSrcLimitAddr, TUint& aOverflow)
{
// must have been set before
assert(iSrcBaseAddr != 0);
// can only allocate more
assert(aSrcLimitAddr > iSrcBaseAddr);
if (aSrcLimitAddr-iSrcBaseAddr > iMaxSize)
{
aOverflow = aSrcLimitAddr-iSrcBaseAddr-iMaxSize;
return EFalse;
}
iSrcLimitAddr = aSrcLimitAddr;
return ETrue;
}
/**
Add a file at end of the list of files contained in this area.
@param aFile File to add. Must be allocated on the heap. Ownership
is transfered from the caller to the callee.
*/
void Area::AddFile(TRomBuilderEntry* aFile)
{
assert(aFile != 0);
*iNextFilePtrPtr = aFile;
iNextFilePtrPtr = &(aFile->iNextInArea);
}
void Area::ReleaseAllFiles()
{
for (TRomBuilderEntry *next = 0, *current = iFiles;
current != 0;
current = next)
{
next = current->iNextInArea;
delete current;
}
iFiles = 0;
iNextFilePtrPtr = &iFiles;
}
////////////////////////////////////////////////////////////////////////
void FilesInAreaIterator::GoToNext()
{
assert(iCurrentFile!=0);
iCurrentFile = iCurrentFile->iNextInArea;
}
////////////////////////////////////////////////////////////////////////
const char AreaSet::KDefaultAreaName[] = "DEFAULT AREA";
AreaSet::AreaSet()
: iNonDefaultAreas(0),
iDefaultArea(0),
iAreaCount(0)
{
}
AreaSet::~AreaSet()
{
ReleaseAllAreas();
}
inline TBool IsInRange(TLinAddr aAddr, TLinAddr aDestBaseAddr, TLinAddr aEndAddr)
{
return aDestBaseAddr <= aAddr && aAddr <= aEndAddr;
}
/**
Add a new area.
Areas must have unique name, not overlap one another and not overflow
the 32-bit address range.
@param aOverlappingArea On return ptr to name of overlapping area if
any, 0 otherwise.
@return EAdded if success, an error code otherwise.
*/
AreaSet::TAddResult AreaSet::AddArea(const char* aNewName,
TLinAddr aNewDestBaseAddr,
TUint aNewMaxSize,
const char*& aOverlappingArea)
{
assert(aNewName != 0 && strlen(aNewName) > 0);
assert(aNewMaxSize > 0);
aOverlappingArea = 0;
//
// Checking new area validity
//
if (aNewDestBaseAddr+aNewMaxSize <= aNewDestBaseAddr)
return EOverflow;
TLinAddr newEndAddr = aNewDestBaseAddr+aNewMaxSize-1;
// iterate non default areas first, then the default one if any
Area* area=iNonDefaultAreas;
while (area != 0)
{
if (strcmp(area->Name(), aNewName) == 0)
return EDuplicateName;
TLinAddr curDestBaseAddr = area->DestBaseAddr();
TLinAddr curEndAddr = area->DestBaseAddr()+area->MaxSize()-1;
if (IsInRange(newEndAddr, curDestBaseAddr, curEndAddr) ||
IsInRange(aNewDestBaseAddr, curDestBaseAddr, curEndAddr) ||
IsInRange(curDestBaseAddr, aNewDestBaseAddr, newEndAddr))
{
aOverlappingArea = area->Name();
return EOverlap;
}
if (area->iNextArea == 0 && area != iDefaultArea)
area = iDefaultArea;
else
area = area->iNextArea;
}
//
// Adding new area
//
if (strcmp(KDefaultAreaName, aNewName) == 0)
iDefaultArea = new Area(aNewName, aNewDestBaseAddr, aNewMaxSize);
else
iNonDefaultAreas = new Area(aNewName, aNewDestBaseAddr, aNewMaxSize, iNonDefaultAreas);
++iAreaCount;
return EAdded;
}
/**
Remove every area added to the set.
As a side-effect every file added to the areas is deleted.
*/
void AreaSet::ReleaseAllAreas()
{
for (Area *next = 0, *current = iNonDefaultAreas; current != 0; current = next)
{
next = current->iNextArea;
delete current;
}
iNonDefaultAreas = 0;
delete iDefaultArea;
iDefaultArea = 0;
}
/**
Find an area from its name.
@return A pointer to the area or 0 if the name is unknown. The
returned pointer becomes invalid when "this" is destructed.
*/
Area* AreaSet::FindByName(const char* aName) const
{
assert(aName != 0 && strlen(aName) > 0);
if (iDefaultArea && strcmp(iDefaultArea->Name(), aName) == 0)
return iDefaultArea;
for (Area* area=iNonDefaultAreas; area != 0; area = area->iNextArea)
{
if (strcmp(area->Name(), aName) == 0)
return area;
}
return 0;
}
////////////////////////////////////////////////////////////////////////
void NonDefaultAreasIterator::GoToNext()
{
assert(iCurrentArea!=0);
iCurrentArea = iCurrentArea->iNextArea;
}
TInt Area::SortFilesForPagedRom()
{
Print(ELog,"Sorting files to paged/unpaged.\n");
TRomBuilderEntry* extention[2] = {0,0};
TRomBuilderEntry* unpaged[2] = {0,0};
TRomBuilderEntry* normal[2] = {0,0};
TRomBuilderEntry* current = iFiles;
while(current)
{
TRomBuilderEntry** list;
if((current->iRomImageFlags & (KRomImageFlagPrimary|KRomImageFlagVariant|KRomImageFlagExtension|KRomImageFlagDevice)) ||
current->HCRDataFile())
list = extention;
else if(current->iRomImageFlags&(KRomImageFlagCodeUnpaged))
list = unpaged;
else if(current->iResource && (current->iOverrideFlags&KOverrideCodeUnpaged) && gPagedRom)
list = unpaged;
else
list = normal;
if(list!=normal)
{
Print(ELog, "Unpaged file %s\n",current->iRomNode->BareName());
}
if(!list[0])
list[0] = current;
else
list[1]->iNextInArea = current;
list[1] = current;
current = current->iNext;
}
if(extention[1])
{
if(unpaged[0])
{
extention[1]->iNextInArea = unpaged[0];
unpaged[1]->iNextInArea = normal[0];
}
else
extention[1]->iNextInArea = normal[0];
if (normal[1])
normal[1]->iNextInArea = 0;
iFiles = extention[0];
}
else{
Print(EError,"No primary files.\n");
return KErrGeneral;
}
iFirstPagedCode = normal[0];
Print(ELog,"\n");
if(gGenDepGraph)
WriteDependenceGraph();
return KErrNone;
}
void Area::WriteDependenceGraph()
{
TDepInfoList::iterator infoIt;
TStringList::iterator strIt;
TDepInfoList myDepInfoList;
TRomBuilderEntry* e = iFirstPagedCode;
char buffer[255];
TInt count = 0;
TStringList nameList;
while(e)
{
DepInfo tmpDepInfo;
TRomNode* rn = e->iRomNode;
TInt ll = rn->FullNameLength();
char* mm = (char*) malloc(ll+1);
rn->GetFullName(mm);
sprintf(buffer, "f%d", count);
tmpDepInfo.portName = buffer;
tmpDepInfo.index = count;
myDepInfoList[mm] = tmpDepInfo;
nameList.push_back(mm);
free(mm);
e = e->iNextInArea;
count++;
}
e = iFirstPagedCode;
count = 0;
while(e)
{
TRomNode* rn = e->iRomNode;
TRomFile* rf = rn->iRomFile;
TInt j;
TStringList depFiles;
for(j=0; j < rf->iNumDeps; ++j)
{
TRomFile* f=rf->iDeps[j];
TRomBuilderEntry* start = iFiles;
while(start && start->iRomNode->iRomFile != f)
start = start->iNextInArea;
if(start && (start->iRomNode->iRomFile == f))
{
TRomNode* target = start->iRomNode;
TInt l = target->FullNameLength();
char* fname = (char *) malloc(l+1);
target->GetFullName(fname);
if(myDepInfoList.find(fname) != myDepInfoList.end())
{
depFiles.push_back(fname);
myDepInfoList[fname].beenDepended = ETrue;
}
free(fname);
}
}
if(depFiles.size() > 0)
{
myDepInfoList[nameList[count]].depFilesList=depFiles;
myDepInfoList[nameList[count]].dependOthers = ETrue;
}
count++;
e=e->iNextInArea;
}
ofstream os;
string filename(gDepInfoFile, strlen(gDepInfoFile) - 3);
filename = filename + "dot";
os.open(filename.c_str());
os << "digraph ROM {\n";
os << "rankdir = LR;\n";
os << "fontsize = 10;\n";
os << "fontname = \"Courier New\";\n";
os << "label = \"ROM DEPENDENCE GRAPH DOT FILE\";\n";
os << "node[shape = plaintext];\n";
os << "dependence[label=<<FONT FACE=\"Courier new\" POINT-SIZE=\"10pt\">\n";
os << "<TABLE BORDER=\"0\" CELLBORDER=\"1\" CELLSPACING=\"0\">\n";
//for(infoIt = myDepInfoList.begin(); infoIt != myDepInfoList.end(); infoIt++)
for(strIt = nameList.begin(); strIt != nameList.end(); strIt++)
{
string tmp = *strIt;
string::iterator charIt;
for(charIt=tmp.begin(); charIt != tmp.end(); charIt++)
{
if(*charIt == '\\')
*charIt = '/';
}
if(myDepInfoList[*strIt].beenDepended && myDepInfoList[*strIt].dependOthers)
{
os << "\t<TR><TD PORT=\"" << myDepInfoList[*strIt].portName << "\" ALIGN=\"LEFT\" BGCOLOR=\"yellow\">\n";
os << "\t<FONT COLOR=\"red\">" << tmp << "</FONT>\n";
os << "\t</TD></TR>\n";
}
else if(myDepInfoList[*strIt].beenDepended)
{
os << "\t<TR><TD PORT=\"" << myDepInfoList[*strIt].portName << "\" ALIGN=\"LEFT\" BGCOLOR=\"gray\">\n";
os << "\t<FONT COLOR=\"red\">" << tmp << "</FONT>\n";
os << "\t</TD></TR>\n";
}
else if(myDepInfoList[*strIt].dependOthers)
{
os << "\t<TR><TD PORT=\"" << myDepInfoList[*strIt].portName << "\" ALIGN=\"LEFT\" BGCOLOR=\"cyan\">\n";
os << "\t<FONT COLOR=\"blue\">" << tmp << "</FONT>\n";
os << "\t</TD></TR>\n";
}
else
{
os << "\t<TR><TD PORT=\"" << myDepInfoList[*strIt].portName << "\" ALIGN=\"LEFT\">";
os << tmp;
os << "</TD></TR>\n";
}
}
os << "</TABLE>\n";
os << "</FONT>>]\n";
TBool lastEdge = ETrue;
TBool first = ETrue;
for(infoIt = myDepInfoList.begin(); infoIt != myDepInfoList.end(); infoIt++)
{
if(!infoIt->second.dependOthers)
{
continue;
}
for(strIt = infoIt->second.depFilesList.begin(); strIt != infoIt->second.depFilesList.end(); strIt++)
{
TBool tmpEdge = ETrue;
if(infoIt->second.index < myDepInfoList[*strIt].index)
{
tmpEdge = EFalse;
}
if(first)
{
lastEdge = tmpEdge;
first = EFalse;
if(lastEdge)
{
os << "edge[color=forestgreen];\n";
}
else
{
os << "edge[color=red];\n";
}
}
else
{
if(lastEdge != tmpEdge)
{
lastEdge = tmpEdge;
if(lastEdge)
{
os << "edge[color=forestgreen];\n";
}
else
{
os << "edge[color=red];\n";
}
}
}
os << "dependence: " << infoIt->second.portName << " -> dependence: " << myDepInfoList[*strIt].portName << ";\n";
}
}
os << "}\n";
os.close();
filename = filename.substr(0, filename.size()-4);
filename = filename + ".backwarddep.dot";
os.open(filename.c_str());
os << "digraph ROM {\n";
os << "rankdir = LR;\n";
os << "fontsize = 10;\n";
os << "fontname = \"Courier New\";\n";
os << "label = \"ROM FORWARD DEPENDENCE GRAPH DOT FILE\";\n";
os << "node[shape = plaintext];\n";
os << "dependence[label=<<FONT FACE=\"Courier new\" POINT-SIZE=\"10pt\">\n";
os << "<TABLE BORDER=\"0\" CELLBORDER=\"1\" CELLSPACING=\"0\">\n";
//for(infoIt = myDepInfoList.begin(); infoIt != myDepInfoList.end(); infoIt++)
for(strIt = nameList.begin(); strIt != nameList.end(); strIt++)
{
string tmp = *strIt;
string::iterator charIt;
for(charIt=tmp.begin(); charIt != tmp.end(); charIt++)
{
if(*charIt == '\\')
*charIt = '/';
}
if(myDepInfoList[*strIt].beenDepended && myDepInfoList[*strIt].dependOthers)
{
os << "\t<TR><TD PORT=\"" << myDepInfoList[*strIt].portName << "\" ALIGN=\"LEFT\" BGCOLOR=\"yellow\">\n";
os << "\t<FONT COLOR=\"red\">" << tmp << "</FONT>\n";
os << "\t</TD></TR>\n";
}
else if(myDepInfoList[*strIt].beenDepended)
{
os << "\t<TR><TD PORT=\"" << myDepInfoList[*strIt].portName << "\" ALIGN=\"LEFT\" BGCOLOR=\"gray\">\n";
os << "\t<FONT COLOR=\"red\">" << tmp << "</FONT>\n";
os << "\t</TD></TR>\n";
}
else if(myDepInfoList[*strIt].dependOthers)
{
os << "\t<TR><TD PORT=\"" << myDepInfoList[*strIt].portName << "\" ALIGN=\"LEFT\" BGCOLOR=\"cyan\">\n";
os << "\t<FONT COLOR=\"blue\">" << tmp << "</FONT>\n";
os << "\t</TD></TR>\n";
}
else
{
os << "\t<TR><TD PORT=\"" << myDepInfoList[*strIt].portName << "\" ALIGN=\"LEFT\">";
os << tmp;
os << "</TD></TR>\n";
}
}
os << "</TABLE>\n";
os << "</FONT>>]\n";
os << "edge[color=red];\n";
for(infoIt = myDepInfoList.begin(); infoIt != myDepInfoList.end(); infoIt++)
{
if(!infoIt->second.dependOthers)
{
continue;
}
for(strIt = infoIt->second.depFilesList.begin(); strIt != infoIt->second.depFilesList.end(); strIt++)
{
if(infoIt->second.index < myDepInfoList[*strIt].index)
{
os << "dependence: " << infoIt->second.portName << " -> dependence: " << myDepInfoList[*strIt].portName << ";\n";
}
}
}
os << "}\n";
os.close();
}