fix ou1cimx1#651819 rofsbiuld fails to generate correct log info when using multi-thread
/*
* Copyright (c) 2010 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:
*
*/
#include <vector>
#include <boost/regex.hpp>
#define MAX_LINE 65535
#include "symbolgenerator.h"
#include "e32image.h"
#include "h_utl.h"
#if defined(__LINUX__)
#define PATH_SEPARATOR '/'
#else
#define PATH_SEPARATOR '\\'
#endif
extern TInt gThreadNum;
extern TBool gGenBsymbols;
boost::mutex SymbolGenerator::iMutexSingleton;
SymbolGenerator* SymbolGenerator::iInst = NULL;
SymbolGenerator* SymbolGenerator::GetInstance(){
iMutexSingleton.lock();
if(iInst == NULL) {
iInst = new SymbolGenerator();
}
iMutexSingleton.unlock();
return iInst;
}
void SymbolGenerator::Release() {
if(iInst != NULL) {
iInst->join();
}
iMutexSingleton.lock();
if(iInst != NULL) {
delete iInst;
iInst = NULL;
}
iMutexSingleton.unlock();
}
void SymbolGenerator::SetSymbolFileName( const string& fileName ){
if(iSymFile.is_open())
iSymFile.close();
if(gGenBsymbols)
{
string s = fileName.substr(0,fileName.rfind('.'))+".bsym";
if(iImageType == ERofsImage)
{
printf("* Writing %s - ROFS BSymbol file\n", s.c_str());
}
else
{
printf("* Writing %s - ROM BSymbol file\n", s.c_str());
}
iSymFile.open(s.c_str(), ios_base::binary);
}
else
{
string s = fileName.substr(0,fileName.rfind('.'))+".symbol";
if(iImageType == ERofsImage)
{
printf("* Writing %s - ROFS Symbol file\n", s.c_str());
}
else
{
printf("* Writing %s - ROM Symbol file\n", s.c_str());
}
iSymFile.open(s.c_str());
}
}
void SymbolGenerator::AddFile( const string& fileName, bool isExecutable ){
iMutex.lock();
iQueueFiles.push(TPlacedEntry(fileName, "" , isExecutable));
iMutex.unlock();
iCond.notify_all();
}
void SymbolGenerator::AddEntry(const TPlacedEntry& aEntry)
{
iMutex.lock();
iQueueFiles.push(aEntry);
iMutex.unlock();
iCond.notify_all();
}
void SymbolGenerator::SetFinished()
{
iFinished = true;
iCond.notify_all();
}
TPlacedEntry SymbolGenerator::GetNextPlacedEntry()
{
TPlacedEntry pe("", "", false);
if(1)
{
boost::mutex::scoped_lock lock(iMutex);
while(!iFinished && iQueueFiles.empty())
iCond.wait(lock);
if(!iQueueFiles.empty())
{
pe = iQueueFiles.front();
iQueueFiles.pop();
}
}
return pe;
}
void SymbolGenerator::thrd_func(){
boost::thread_group threads;
SymbolWorker worker;
for(int i=0; i < gThreadNum; i++)
{
threads.create_thread(worker);
}
threads.join_all();
SymbolGenerator::GetInstance()->FlushSymbolFileContent();
}
SymbolGenerator::SymbolGenerator() : boost::thread(thrd_func),iFinished(false) {
if(gGenBsymbols)
{
iSymbolType = ESymBsym;
}
else
{
iSymbolType = ESymCommon;
}
}
SymbolGenerator::~SymbolGenerator(){
if(joinable())
join();
iSymFile.flush();
iSymFile.close();
}
void SymbolGenerator::FlushSymbolFileContent()
{
if(iSymbolType == ESymCommon)
{
return;
}
TBsymHeader tmpBsymHeader;
memset(&tmpBsymHeader, 0, sizeof(tmpBsymHeader));
tmpBsymHeader.iMagic[0] = 'B';
tmpBsymHeader.iMagic[1] = 'S';
tmpBsymHeader.iMagic[2] = 'Y';
tmpBsymHeader.iMagic[3] = 'M';
tmpBsymHeader.iMajorVer[0] = BsymMajorVer >> 8;
tmpBsymHeader.iMajorVer[1] = BsymMajorVer & 0xff;
tmpBsymHeader.iMinorVer[0] = BsymMinorVer >> 8;
tmpBsymHeader.iMinorVer[1] = BsymMinorVer & 0xff;
if(ByteOrderUtil::IsLittleEndian())
{
tmpBsymHeader.iEndiannessFlag = 0;
}
else
{
tmpBsymHeader.iEndiannessFlag = 1;
}
tmpBsymHeader.iCompressionFlag = 1;
//count the space for TDbgUnitEntries and TSymbolEntries
int fileCount = iMapFileInfoSet.size();
TUint32 sizeNeeded = fileCount * sizeof(TDbgUnitEntry);
for(int i = 0; i < fileCount; i++)
{
sizeNeeded += iMapFileInfoSet[i].iSymbolPCEntrySet.size() * sizeof(TSymbolEntry);
}
//write string to the temporary memory area
MemoryWriter mWriter;
mWriter.SetOffset(sizeNeeded);
mWriter.SetStringTableStart(sizeNeeded);
mWriter.AddEmptyString();
//first to prepare the file info entries TDbgUnitEntry
TUint32 startSymbolIndex = 0;
for(int i = 0; i < fileCount; i++)
{
iMapFileInfoSet[i].iDbgUnitPCEntry.iDbgUnitEntry.iStartSymbolIndex = startSymbolIndex;
iMapFileInfoSet[i].iDbgUnitPCEntry.iDbgUnitEntry.iPCNameOffset = mWriter.AddString(iMapFileInfoSet[i].iDbgUnitPCEntry.iPCName);
iMapFileInfoSet[i].iDbgUnitPCEntry.iDbgUnitEntry.iDevNameOffset = mWriter.AddString(iMapFileInfoSet[i].iDbgUnitPCEntry.iDevName);
startSymbolIndex += iMapFileInfoSet[i].iSymbolPCEntrySet.size();
}
//second to layout the symbols unit for the mapfile
for(int i = 0; i < fileCount; i++)
{
int symbolcount = iMapFileInfoSet[i].iSymbolPCEntrySet.size();
for(int j =0; j< symbolcount; j++)
{
iMapFileInfoSet[i].iSymbolPCEntrySet[j].iSymbolEntry.iScopeNameOffset = mWriter.AddScopeName(iMapFileInfoSet[i].iSymbolPCEntrySet[j].iScopeName);
iMapFileInfoSet[i].iSymbolPCEntrySet[j].iSymbolEntry.iNameOffset = mWriter.AddString(iMapFileInfoSet[i].iSymbolPCEntrySet[j].iName);
iMapFileInfoSet[i].iSymbolPCEntrySet[j].iSymbolEntry.iSecNameOffset = mWriter.AddString(iMapFileInfoSet[i].iSymbolPCEntrySet[j].iSecName);
}
}
//write out the BSym file content
char* pstart = mWriter.GetDataPointer();
//write out the map file info
int unitlen = sizeof(TDbgUnitEntry);
for(int i = 0; i < fileCount; i++)
{
memcpy(pstart, &iMapFileInfoSet[i].iDbgUnitPCEntry.iDbgUnitEntry, unitlen);
pstart += unitlen;
}
//wirte out the symbol unit info
unitlen = sizeof(TSymbolEntry);
for(int i = 0; i < fileCount; i++)
{
int symbolcount = iMapFileInfoSet[i].iSymbolPCEntrySet.size();
for(int j =0; j < symbolcount; j++)
{
memcpy(pstart, &iMapFileInfoSet[i].iSymbolPCEntrySet[j].iSymbolEntry, unitlen);
pstart += unitlen;
}
}
//write out the memory out to the symbol file
int totalPages = (mWriter.GetOffset() + ( BSYM_PAGE_SIZE -1)) / 4096;
TUint32 compressInfoLength = sizeof(TCompressedHeaderInfo) + sizeof(TPageInfo)*(totalPages -1);
char* tmpBuffer = new char[compressInfoLength];
TCompressedHeaderInfo * pCompressedHeaderInfo = (TCompressedHeaderInfo *) tmpBuffer;
pCompressedHeaderInfo->iPageSize = BSYM_PAGE_SIZE;
pCompressedHeaderInfo->iTotalPageNumber = totalPages;
TPageInfo* tmpPage = &pCompressedHeaderInfo->iPages[0];
for(int i = 0; i < totalPages; i++)
{
tmpPage->iPageStartOffset = i * BSYM_PAGE_SIZE;
if(tmpPage->iPageStartOffset + BSYM_PAGE_SIZE < mWriter.GetOffset())
{
tmpPage->iPageDataSize = BSYM_PAGE_SIZE;
}
else
{
tmpPage->iPageDataSize = mWriter.GetOffset() - tmpPage->iPageStartOffset;
}
tmpPage++;
}
//prepare the TBsymHeader, TDbgUnitEntry and TSymbolEntry to the memory
tmpBsymHeader.iDbgUnitOffset = sizeof(TBsymHeader) + compressInfoLength;
tmpBsymHeader.iDbgUnitCount = fileCount;
tmpBsymHeader.iSymbolOffset = fileCount*sizeof(TDbgUnitEntry);
tmpBsymHeader.iSymbolCount = startSymbolIndex;
tmpBsymHeader.iStringTableOffset = mWriter.GetStringTableStart();
tmpBsymHeader.iStringTableBytes = mWriter.GetOffset() - tmpBsymHeader.iStringTableOffset;
tmpBsymHeader.iUncompressSize = mWriter.GetOffset();
//start the compress threads
Print(EAlways, "Start compress for Bsymbol file\n");
PageCompressWorker compressWorker(pCompressedHeaderInfo, mWriter.GetDataPointer());
boost::thread_group threads;
for(int i=0; i < gThreadNum; i++)
{
threads.create_thread(compressWorker);
}
threads.join_all();
Print(EAlways, "Complete compress for Bsymbol file\n");
//pack all the pages together
tmpPage = &pCompressedHeaderInfo->iPages[0];
TPageInfo* prePage = NULL;
char* pchar = mWriter.GetDataPointer();
for(int i=0; i < totalPages -1; i++)
{
prePage = tmpPage;
tmpPage++;
memcpy(pchar + prePage->iPageStartOffset + prePage->iPageDataSize, pchar + tmpPage->iPageStartOffset, tmpPage->iPageDataSize);
tmpPage->iPageStartOffset = prePage->iPageStartOffset + prePage->iPageDataSize;
}
tmpBsymHeader.iCompressedSize = tmpPage->iPageStartOffset + tmpPage->iPageDataSize;
mWriter.SetOffset(tmpBsymHeader.iCompressedSize);
tmpBsymHeader.iCompressInfoOffset = sizeof(TBsymHeader);
iSymFile.write((char*)&tmpBsymHeader, sizeof(TBsymHeader));
iSymFile.write((char*)pCompressedHeaderInfo, compressInfoLength);
iSymFile.write(mWriter.GetDataPointer(), mWriter.GetOffset());
delete[] tmpBuffer;
for(int i = 0; i < fileCount; i++)
{
iMapFileInfoSet[i].iSymbolPCEntrySet.clear();
}
iMapFileInfoSet.clear();
}
SymbolWorker::SymbolWorker()
{
}
SymbolWorker::~SymbolWorker()
{
}
void SymbolWorker::operator()()
{
SymbolProcessUnit* aSymbolProcessUnit;
SymbolGenerator* symbolgenerator = SymbolGenerator::GetInstance();
if(symbolgenerator->GetImageType() == ERomImage)
{
aSymbolProcessUnit = new CommenRomSymbolProcessUnit();
}
else
{
if(gGenBsymbols)
{
aSymbolProcessUnit = new BsymRofsSymbolProcessUnit(symbolgenerator);
}
else
{
aSymbolProcessUnit = new CommenRofsSymbolProcessUnit();
}
}
while(1)
{
if(symbolgenerator->HasFinished() && symbolgenerator->IsEmpty())
{
break;
}
TPlacedEntry pe = symbolgenerator->GetNextPlacedEntry();
if(pe.iFileName.empty())
continue;
aSymbolProcessUnit->ProcessEntry(pe);
symbolgenerator->LockOutput();
aSymbolProcessUnit->FlushStdOut(cout);
aSymbolProcessUnit->FlushSymbolContent(symbolgenerator->GetOutputFileStream());
symbolgenerator->UnlockOutput();
}
delete aSymbolProcessUnit;
}
TCompressedHeaderInfo* PageCompressWorker::pHeaderInfo = NULL;
int PageCompressWorker::currentPage = 0;
boost::mutex PageCompressWorker::m_mutex;
int PageCompressWorker::m_error = 0;
char* PageCompressWorker::iChar = NULL;
PageCompressWorker::PageCompressWorker(TCompressedHeaderInfo* aHeaderInfo, char* aChar)
{
pHeaderInfo = aHeaderInfo;
iChar = aChar;
}
PageCompressWorker::~PageCompressWorker() {}
void PageCompressWorker::operator()()
{
int tobecompress = 0;
CBytePair bpe;
while(1)
{
m_mutex.lock();
tobecompress =currentPage;
currentPage++;
m_mutex.unlock();
if(tobecompress >= (int) pHeaderInfo->iTotalPageNumber)
break;
TPageInfo* current = &pHeaderInfo->iPages[0] + tobecompress;
TUint8* in = (TUint8*)(iChar + current->iPageStartOffset);
TUint8* out = in;
TInt outSize = BytePairCompress(out, in, current->iPageDataSize, &bpe);
if(outSize == KErrTooBig)
{
outSize = BSYM_PAGE_SIZE;
}
if(outSize < 0)
{
m_mutex.lock();
m_error = -1;
m_mutex.unlock();
break;
}
current->iPageDataSize = outSize;
}
}