// Copyright (c) 2007-2010 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 <string.h>
#include <stdlib.h>
#include "h_utl.h"
#include "h_ver.h"
#include "r_global.h"
#include "r_rom.h"
#include "r_obey.h"
#include "parameterfileprocessor.h"
#include "r_dir.h"
#include "r_coreimage.h"
const TInt KRomLoaderHeaderNone=0;
const TInt KRomLoaderHeaderEPOC=1;
const TInt KRomLoaderHeaderCOFF=2;
static const TInt RombuildMajorVersion=2;
static const TInt RombuildMinorVersion=17;
static const TInt RombuildPatchVersion=3;
static TBool SizeSummary=EFalse;
static TPrintType SizeWhere=EAlways;
static string compareROMName = "";
static TInt MAXIMUM_THREADS = 128;
static TInt DEFAULT_THREADS = 8;
string filename; // to store oby filename passed to Rombuild.
TBool reallyHelp=EFalse;
TInt gCPUNum = 0;
TInt gThreadNum = 0;
char* g_pCharCPUNum = NULL;
TBool gGenDepGraph = EFalse;
string gDepInfoFile = "";
TBool gGenSymbols = EFalse ;
void PrintVersion() {
Print(EAlways,"\nROMBUILD - Rom builder");
Print(EAlways, " V%d.%d.%d\n", RombuildMajorVersion, RombuildMinorVersion, RombuildPatchVersion);
Print(EAlways,Copyright);
}
char HelpText[] =
"Syntax: ROMBUILD [options] obeyfilename\n"
"Option: -v verbose, -? \n"
" -type-safe-link \n"
" -s[log|screen|both] size summary\n"
" -r<FileName> compare a sectioned Rom image\n"
" -no-header suppress the image loader header\n"
" -gendep generate the dependence graph for paged part\n"
" -coff-header use a PE-COFF header rather than an EPOC header\n"
" -d<bitmask> set trace mask (DEB build only)\n"
" -compress[[=]paged|unpaged] compress the ROM Image\n"
" without any argumentum compress both sections\n"
" paged compress paged section only\n"
" unpaged compress unpaged section only\n\n"
" -j<digit> do the main job with <digit> threads\n"
" -symbols generate symbol file\n"
" -compressionmethod <method> method one of none|inflate|bytepair to set the compression\n"
" -no-sorted-romfs do not add sorted entries arrays (6.1 compatible)\n"
" -geninc to generate include file for licensee tools to use\n" // DEF095619
" -loglevel<level> level of information to log (valid levels are 0,1,2,3,4).\n" //Tools like Visual ROM builder need the host/ROM filenames, size & if the file is hidden.
" -wstdpath warn if destination path provided for a file is not a standard path\n"
" -argfile=<fileName> specify argument-file name containing list of command-line arguments to rombuild\n"
" -lowmem use memory-mapped file for image build to reduce physical memory consumption\n"
" -coreimage=<core image file> to pass the core image as input for extension ROM image generation\n"
" -k to enable keepgoing when duplicate files exist in oby\n";
char ReallyHelpText[] =
"Priorities:\n"
" low background foreground high windowserver\n"
" fileserver realtimeserver supervisor\n"
"Languages:\n"
" Test English French German Spanish Italian Swedish Danish\n"
" Norwegian Finnish American SwissFrench SwissGerman Portuguese\n"
" Turkish Icelandic Russian Hungarian Dutch BelgianFlemish\n"
" Australian BelgianFrench\n"
"Compression methods:\n"
" none no compression on the individual executable image.\n"
" inflate compress the individual executable image.\n"
" bytepair compress the individual executable image.\n"
"Log Level:\n"
" 0 produce the default logs\n"
" 1 produce file detail logs in addition to the default logs\n"
" 2 logs e32 header attributes(same as default log) in addition to the level 1 details\n";
void processParamfile(const string& aFileName);
//
// Process the command line arguments, printing a helpful message if none are supplied
//
void processCommandLine(int argc, char *argv[], TBool paramFileFlag=EFalse) {
// If "-argfile" option is passed to Rombuild, then process the parameters
// specified in parameter-file first and then the options passed from the
// command-line.
string ParamFileArg("-argfile=");
if(paramFileFlag == EFalse) {
for (int count=1; count<argc; count++) {
string paramFile;
if(strnicmp(argv[count],ParamFileArg.c_str(),ParamFileArg.length())==0) {
paramFile.assign(&argv[count][ParamFileArg.length()]);
processParamfile(paramFile);
}
}
}
for (int i=1; i<argc; i++) {
#ifdef __LINUX__
if (argv[i][0] == '-')
#else
if ((argv[i][0] == '-') || (argv[i][0] == '/'))
#endif
{ // switch
char* arg = argv[i] + 1;
if (stricmp(arg, "symbols") == 0)
gGenSymbols = ETrue;
else if (stricmp(arg, "v") == 0)
H.iVerbose = ETrue;
else if (stricmp(arg, "sl") == 0 || stricmp(arg, "slog") == 0) {
SizeSummary = ETrue;
SizeWhere = ELog;
}
else if (stricmp(arg, "ss") == 0 || stricmp(arg, "sscreen") == 0) {
SizeSummary = ETrue;
SizeWhere = EScreen;
}
else if(stricmp(arg, "sb") == 0 || stricmp(arg, "sboth") == 0) {
SizeSummary = ETrue;
SizeWhere = EAlways;
}
else if (stricmp(arg, "gendep")==0)
gGenDepGraph = ETrue;
else if (stricmp(arg, "k")==0)
gKeepGoing = ETrue;
else if ('j' == *arg || 'J' == *arg) {
if(arg[1])
gThreadNum = atoi(arg + 1);
else {
Print(EWarning, "The option should be like '-j4'.\n");
gThreadNum = 0;
}
if(gThreadNum <= 0 || gThreadNum > MAXIMUM_THREADS) {
if(gCPUNum > 0 && gCPUNum <= MAXIMUM_THREADS) {
Print(EWarning, "The number of concurrent jobs set by -j should be between 1 and 128. And the number of processors %d will be used as the number of concurrent jobs.\n", gCPUNum);
gThreadNum = gCPUNum;
}
else if(g_pCharCPUNum) {
Print(EWarning, "The number of concurrent jobs set by -j should be between 1 and 128. And the NUMBER_OF_PROCESSORS is invalid, so the default value %d will be used.\n", DEFAULT_THREADS);
gThreadNum = DEFAULT_THREADS;
}
else {
Print(EWarning, "The number of concurrent jobs set by -j should be between 1 and 128. And the NUMBER_OF_PROCESSORS is not available, so the default value %d will be used.\n", DEFAULT_THREADS);
gThreadNum = DEFAULT_THREADS;
}
}
}
else if (strnicmp(argv[i],ParamFileArg.c_str(),ParamFileArg.length())==0) {
// If "-argfile" option is specified within parameter-file then process it
// otherwise ignore the option.
if (paramFileFlag) {
string paramFile;
paramFile.assign(&argv[i][ParamFileArg.length()]);
processParamfile(paramFile);
}
else {
continue;
}
}
else if ('t' == *arg || 'T' == *arg)
TypeSafeLink=ETrue;
else if (*arg == '?')
reallyHelp=ETrue;
else if ('r' == *arg || 'R' == *arg)
compareROMName.assign(arg + 1);
else if (stricmp(arg, "no-header")==0)
gHeaderType=KRomLoaderHeaderNone;
else if (stricmp(arg, "epoc-header")==0)
gHeaderType=KRomLoaderHeaderEPOC;
else if (stricmp(arg, "coff-header")==0)
gHeaderType=KRomLoaderHeaderCOFF;
else if ((stricmp(arg, "compress")==0) || (strnicmp(arg, "compress=", 9)==0))
{
if((stricmp(arg, "compress")==0) && ((i+1) >= argc || argv[i+1][0] == '-'))
{
// No argument, compress both parts with default compression method
// un-paged part compressed by Deflate
gCompressUnpaged = ETrue;
gCompressUnpagedMethod = KUidCompressionDeflate;
// paged part compressed by the Bytepiar
gEnableCompress=ETrue;
gCompressionMethod = KUidCompressionBytePair;
}
else
{
const int paraMaxLen = 20;
char* parameter = new char[paraMaxLen];
memset(parameter, 0, paraMaxLen);
if(strncmp(arg, "compress=", 9)==0)
{
int paraLen = strlen(arg + 9);
if (paraLen > paraMaxLen - 1)
{
delete[] parameter;
parameter = new char[paraLen + 1];
memset(parameter, 0, paraLen + 1);
}
memcpy(parameter, arg + 9, paraLen);
}
else
{
int paraLen = strlen(argv[++i]);
if (paraLen > paraMaxLen - 1)
{
delete[] parameter;
parameter = new char[paraLen + 1];
memset(parameter, 0, paraLen + 1);
}
memcpy(parameter, argv[i], paraLen);
}
// An argument exists
if( stricmp(parameter, "paged") == 0)
{
gEnableCompress=ETrue;
gCompressionMethod = KUidCompressionBytePair;
}
else if( stricmp(parameter, "unpaged") == 0)
{
gCompressUnpaged=ETrue;
gCompressUnpagedMethod = KUidCompressionDeflate;
}
else {
Print (EError, "Unknown -compression argument! Set it to default (no compression)!");
gEnableCompress=EFalse;
gCompressionMethod = 0;
gCompressUnpaged = EFalse;
gCompressUnpagedMethod = 0;
}
delete[] parameter;
}
}
else if( stricmp(arg, "compressionmethod") == 0 ) {
// next argument should be a method
if( (i+1) >= argc || argv[i+1][0] == '-') {
Print (EError, "Missing compression method! Set it to default (no compression)!");
gEnableCompress=EFalse;
gCompressionMethod = 0;
}
else {
i++;
if( stricmp(argv[i], "inflate") == 0) {
gEnableCompress=ETrue;
gCompressionMethod = KUidCompressionDeflate;
}
else if( stricmp(argv[i], "bytepair") == 0) {
gEnableCompress=ETrue;
gCompressionMethod = KUidCompressionBytePair;
}
else {
if( stricmp(argv[i], "none") != 0) {
Print (EError, "Unknown compression method! Set it to default (no compression)!");
}
gEnableCompress=EFalse;
gCompressionMethod = 0;
}
}
}
else if (stricmp(arg, "no-sorted-romfs")==0)
gSortedRomFs=EFalse;
else if (stricmp(arg, "geninc")==0) // DEF095619
gGenInc=ETrue;
else if (stricmp(arg, "wstdpath")==0) // Warn if destination path provided for a file
gEnableStdPathWarning=ETrue; // is not a standard path as per platsec
else if( stricmp(arg, "loglevel") == 0) {
// next argument should a be loglevel
if( (i+1) >= argc || argv[i+1][0] == '-') {
Print (EError, "Missing loglevel!");
gLogLevel = DEFAULT_LOG_LEVEL;
}
else {
i++;
if (stricmp(argv[i], "4") == 0)
gLogLevel = (LOG_LEVEL_FILE_DETAILS | LOG_LEVEL_FILE_ATTRIBUTES | LOG_LEVEL_COMPRESSION_INFO | LOG_LEVEL_SMP_INFO);
else if (stricmp(argv[i], "3") == 0)
gLogLevel = (LOG_LEVEL_FILE_DETAILS | LOG_LEVEL_FILE_ATTRIBUTES | LOG_LEVEL_COMPRESSION_INFO);
else if (stricmp(argv[i], "2") == 0)
gLogLevel = (LOG_LEVEL_FILE_DETAILS | LOG_LEVEL_FILE_ATTRIBUTES);
else if (stricmp(argv[i], "1") == 0)
gLogLevel = LOG_LEVEL_FILE_DETAILS;
else if (stricmp(argv[i], "0") == 0)
gLogLevel = DEFAULT_LOG_LEVEL;
else
Print(EError, "Only loglevel 0, 1, 2, 3 or 4 is allowed!");
}
}
else if( stricmp(arg, "loglevel4") == 0)
gLogLevel = (LOG_LEVEL_FILE_DETAILS | LOG_LEVEL_FILE_ATTRIBUTES | LOG_LEVEL_COMPRESSION_INFO | LOG_LEVEL_SMP_INFO);
else if( stricmp(arg, "loglevel3") == 0)
gLogLevel = (LOG_LEVEL_FILE_DETAILS | LOG_LEVEL_FILE_ATTRIBUTES | LOG_LEVEL_COMPRESSION_INFO);
else if( stricmp(arg, "loglevel2") == 0)
gLogLevel = (LOG_LEVEL_FILE_DETAILS | LOG_LEVEL_FILE_ATTRIBUTES);
else if( stricmp(arg, "loglevel1") == 0)
gLogLevel = LOG_LEVEL_FILE_DETAILS;
else if( stricmp(arg, "loglevel0") == 0)
gLogLevel = DEFAULT_LOG_LEVEL;
else if ('d' == *arg || 'D' == *arg) {
TraceMask=strtoul(arg+1, 0, 0);
}
else if (stricmp(arg, "lowmem") == 0)
gLowMem = ETrue;
else if (strnicmp(arg, "coreimage=",10) ==0) {
if(argv[i][11]) {
gUseCoreImage = ETrue;
gImageFilename.assign(arg + 10);
}
else {
Print (EError, "Core ROM image file is missing\n");
}
}
else
#ifdef WIN32
cout << "Unrecognised option " << argv[i] << "\n";
#else
if(0 == access(argv[i],R_OK)){
filename.assign(argv[i]);
}
else {
cout << "Unrecognised option " << argv[i] << "\n";
}
#endif
}
else // Must be the obey filename
filename.assign(argv[i]);
}
if (paramFileFlag)
return;
if (filename.empty()) {
PrintVersion();
cout << HelpText;
if (reallyHelp) {
ObeyFileReader::KeywordHelp();
cout << ReallyHelpText;
}
else
Print(EError, "Obey filename is missing\n");
}
}
/**
Function to process parameter-file.
@param aFileName parameter-file name.
*/
void processParamfile(const string& aFileName) {
CParameterFileProcessor parameterFile(aFileName);
// Invoke fuction "ParameterFileProcessor" to process parameter-file.
if(parameterFile.ParameterFileProcessor()) {
TUint noOfParameters = parameterFile.GetNoOfArguments();
char** parameters = parameterFile.GetParameters();
TBool paramFileFlag=ETrue;
// Invoke function "processCommandLine" to process parameters read from parameter-file.
processCommandLine(noOfParameters, parameters, paramFileFlag);
}
}
void GenerateIncludeFile(const char* aRomName, TInt aUnpagedSize, TInt aPagedSize ) {
string incFileName(aRomName);
int pos = -1 ;
for(int i = incFileName.length() - 1 ; i >= 0 ; i--){
char ch = incFileName[i];
if(ch == '/' || ch == '\\')
break ;
else if(ch == '.'){
pos = i ;
break ;
}
}
if(pos > 0)
incFileName.erase(pos,incFileName.length() - pos);
incFileName += ".inc";
ofstream incFile(incFileName.c_str(),ios_base::trunc + ios_base::out);
if(!incFile.is_open()) {
Print(EError,"Cannot open include file %s for output\n", incFileName.c_str());
}
else {
const char incContent[] =
"/** Size of the unpaged part of ROM.\n"
"This part is at the start of the ROM image. */\n"
"#define SYMBIAN_ROM_UNPAGED_SIZE 0x%08x\n"
"\n"
"/** Size of the demand paged part of ROM.\n"
"This part is stored immediately after the unpaged part in the ROM image. */\n"
"#define SYMBIAN_ROM_PAGED_SIZE 0x%08x\n";
// for place of two hex representated values and '\0'
char* temp = new char[sizeof(incContent)+ 20];
size_t len = sprintf(temp,incContent, aUnpagedSize, aPagedSize);
incFile.write(temp, len);
incFile.close();
delete[] temp;
}
}
int main(int argc, char *argv[]) {
H.SetLogFile("ROMBUILD.LOG");
TInt r = 0;
#ifdef __LINUX__
gCPUNum = sysconf(_SC_NPROCESSORS_CONF);
#else
g_pCharCPUNum = getenv("NUMBER_OF_PROCESSORS");
if(g_pCharCPUNum != NULL)
gCPUNum = atoi(g_pCharCPUNum);
#endif
// initialise set of all capabilities
ParseCapabilitiesArg(gPlatSecAllCaps, "all");
processCommandLine(argc, argv);
if(filename.empty())
return KErrGeneral;
if(gThreadNum == 0) {
if(gCPUNum > 0 && gCPUNum <= MAXIMUM_THREADS) {
Print(EAlways, "The number of processors (%d) is used as the number of concurrent jobs.\n", gCPUNum);
gThreadNum = gCPUNum;
}
else if(g_pCharCPUNum) {
Print(EWarning, "The NUMBER_OF_PROCESSORS is invalid, and the default value %d will be used.\n", DEFAULT_THREADS);
gThreadNum = DEFAULT_THREADS;
}
else {
Print(EWarning, "The NUMBER_OF_PROCESSORS is not available, and the default value %d will be used.\n", DEFAULT_THREADS);
gThreadNum = DEFAULT_THREADS;
}
}
PrintVersion();
ObeyFileReader *reader=new ObeyFileReader(filename.c_str());
if (!reader->Open()) {
delete reader;
return KErrGeneral;
}
E32Rom* kernelRom=0; // for image from obey file
CoreRomImage *core= 0; // for image from core image file
MRomImage* imageInfo=0;
CObeyFile *mainObeyFile=new CObeyFile(*reader);
// need check if obey file has coreimage keyword
char* file = mainObeyFile->ProcessCoreImage();
if (file) {
// hase coreimage keyword but only use if command line option
// for coreimage not already selected
if (!gUseCoreImage) {
gUseCoreImage = ETrue;
gImageFilename = file;
}
delete []file ;
}
if (!gUseCoreImage) {
r=mainObeyFile->ProcessKernelRom();
if (r==KErrNone) {
// Build a kernel ROM using the description compiled into the
// CObeyFile object
kernelRom = new E32Rom(mainObeyFile);
if (kernelRom == 0 || kernelRom->iData == 0)
return KErrNoMemory;
r=kernelRom->Create();
if (r!=KErrNone) {
delete kernelRom;
delete mainObeyFile;
return r;
}
if (SizeSummary)
kernelRom->DisplaySizes(SizeWhere);
r=kernelRom->WriteImages(gHeaderType);
if (r!=KErrNone) {
delete kernelRom;
delete mainObeyFile;
return r;
}
if (compareROMName.length() > 0 ) {
r=kernelRom->Compare(compareROMName.c_str(), gHeaderType);
if (r!=KErrNone) {
delete kernelRom;
delete mainObeyFile;
return r;
}
}
imageInfo = kernelRom;
mainObeyFile->Release();
}
else if (r!=KErrNotFound)
return r;
}
else {
// need to use core image
core = new CoreRomImage(gImageFilename.c_str());
if (!core) {
return KErrNoMemory;
}
if (!core->ProcessImage(gLowMem)) {
delete core;
delete mainObeyFile;
return KErrGeneral;
}
NumberOfVariants = core->VariantCount();
TVariantList::SetNumVariants(NumberOfVariants);
TVariantList::SetVariants(core->VariantList());
core->SetRomAlign(mainObeyFile->iRomAlign);
core->SetDataRunAddress(mainObeyFile->iDataRunAddress);
gCompressionMethod = core->CompressionType();
if(gCompressionMethod) {
gEnableCompress = ETrue;
}
imageInfo = core;
if(!mainObeyFile->SkipToExtension()) {
delete core;
delete mainObeyFile;
return KErrGeneral;
}
}
if(gGenInc) {
Print(EAlways,"Generating include file for ROM image post-processors ");
if( gPagedRom ) {
Print(EAlways,"Paged ROM");
GenerateIncludeFile((char*)mainObeyFile->iRomFileName, kernelRom->iHeader->iPageableRomStart, kernelRom->iHeader->iPageableRomSize);
}
else {
Print(EAlways,"Unpaged ROM");
int headersize=(kernelRom->iExtensionRomHeader ? sizeof(TExtensionRomHeader) : sizeof(TRomHeader)) - sizeof(TRomLoaderHeader);
GenerateIncludeFile((char*)mainObeyFile->iRomFileName, kernelRom->iHeader->iCompressedSize + headersize, kernelRom->iHeader->iPageableRomSize);
}
}
do {
CObeyFile* extensionObeyFile = 0;
E32Rom* extensionRom = 0;
extensionObeyFile = new CObeyFile(*reader);
r = extensionObeyFile->ProcessExtensionRom(imageInfo);
if (r==KErrEof) {
delete imageInfo;
delete mainObeyFile;
delete extensionObeyFile;
return KErrNone;
}
if (r!=KErrNone) {
delete extensionObeyFile;
break;
}
extensionRom = new E32Rom(extensionObeyFile);
r=extensionRom->CreateExtension(imageInfo);
if (r!=KErrNone) {
delete extensionRom;
delete extensionObeyFile;
break;
}
if (SizeSummary)
extensionRom->DisplaySizes(SizeWhere);
r=extensionRom->WriteImages(0); // always a raw image
delete extensionRom;
delete extensionObeyFile;
}
while (r==KErrNone);
delete imageInfo;
delete mainObeyFile;
return r;
}