FCL/sftools/dev/build: comparison imgtools/romtools/rofsbuild/r

equal deleted inserted replaced

-:818fe0ed324b
+:e3ee96a3961c
 extern TInt  gCodePagingOverride;
 extern TInt  gDataPagingOverride;
 extern TInt  gLogLevel;
 extern bool gCache;
 extern TBool gIsOBYUTF8;
+#define MAX_LINE  65535
 TBool gDriveImage=EFalse;	// for drive image support.
 TInt TRomNode::Count=0;
 TRomNode* TRomNode::TheFirstNode = NULL;
 		Print(EError, "Adding Node for same file: TRomNode structure corrupted\n");
 		exit(666);
 		}
 	iNextNodeForSameFile = aPreviousNode;
 	}
+void TRomNode::FlushLogMessages()
+	{
+	if(iEntry)
+		{
+		for(int i = 0; i < (int)iEntry->iLogMessages.size(); i++)
+			{
+			TLogItem& aLogItem = iEntry->iLogMessages[i];
+			Print(aLogItem.iPrintType, aLogItem.iLogMessage.c_str());
+			}
+		iEntry->iLogMessages.clear();
+		}
+	}
 // compress it, if it isn't already compressed.
 //
 // Returns the number of bytes used, or -ve error code
 TInt TRomBuilderEntry::PlaceFile( TUint8* &aDest,TUint aMaxSize, CBytePair *aBPE ){
+	char tmpbuf[MAX_LINE];
+	TLogItem tmpLog;
 	TUint compression = 0;
 	TBool executable = iExecutable;
-	Print(ELog,"Reading file %s to image\n", iFileName );
+	sprintf(tmpbuf,"Reading file %s to image\n", iFileName );
+	tmpLog.iPrintType = ELog;
+	tmpLog.iLogMessage = tmpbuf;
+	iLogMessages.push_back(tmpLog);
 	TUint32 size = HFile::GetLength(iFileName);
 	if (size==0)
-		Print(EWarning, "File %s does not exist or is 0 bytes in length.\n",iFileName);
+	{
+		sprintf(tmpbuf, "File %s does not exist or is 0 bytes in length.\n",iFileName);
+		tmpLog.iPrintType = EWarning;
+		tmpLog.iLogMessage = tmpbuf;
+		iLogMessages.push_back(tmpLog);
+	}
 	if (aDest == NULL) {
 		aMaxSize = size << 1;
 		aMaxSize = (aMaxSize>0) ? aMaxSize : 2;
 		aDest = new TUint8[aMaxSize];
 }
 		E32ImageFile f(aBPE);
 		TInt r = f.Open(iFileName);
 		// is it really a valid E32ImageFile?
 		if (r != KErrNone)
 		{
-			Print(EWarning, "File '%s' is not a valid executable.  Placing file as data.\n", iFileName);
+			sprintf(tmpbuf, "File '%s' is not a valid executable.  Placing file as data.\n", iFileName);
+			tmpLog.iPrintType = EWarning;
+			tmpLog.iLogMessage = tmpbuf;
+			iLogMessages.push_back(tmpLog);
 			executable = EFalse;
 		}
 		else
 		{
 				// get the corresponding location and update it.While considering the Data section limits
 				// don't include the Bss section, as it doesn't exist as yet in the image.
 				while( aDllEntry ){
 					if(aDllEntry->iOrdinal != (TUint32)-1){
 						if(aDllEntry->iOrdinal < 1 || aDllEntry->iOrdinal > (TUint)f.iOrigHdr->iExportDirCount){
-							Print(EWarning, "Invalid ordinal %d specified for DLL %s\n", aDllEntry->iOrdinal, iRomNode->iName);
+							sprintf(tmpbuf, "Invalid ordinal %d specified for DLL %s\n", (unsigned int) aDllEntry->iOrdinal, iRomNode->iName);
+							tmpLog.iPrintType = EWarning;
+							tmpLog.iLogMessage = tmpbuf;
+							iLogMessages.push_back(tmpLog);
 							aDllEntry = aDllEntry->NextDllDataEntry();
 							continue;
 						}
 						//	Get the address of the data field via the export table.
 							aLocation = (void*)(aDataSeg + aDataAddr - f.iOrigHdr->iDataBase );
 							memcpy(aLocation, &aDllEntry->iNewValue, aDllEntry->iSize);
 						}
 						else
 						{
-							Print(EWarning, "Patchdata failed as address pointed by ordinal %d of DLL %s doesn't lie within Code or Data section limits\n", aDllEntry->iOrdinal, iRomNode->iName);
+							sprintf(tmpbuf, "Patchdata failed as address pointed by ordinal %d of DLL %s doesn't lie within Code or Data section limits\n", (unsigned int) aDllEntry->iOrdinal, iRomNode->iName);
+							tmpLog.iPrintType = EWarning;
+							tmpLog.iLogMessage = tmpbuf;
+							iLogMessages.push_back(tmpLog);
 						}
 					}
 					else if(aDllEntry->iDataAddress != (TLinAddr)-1){
 						aDataAddr = aDllEntry->iDataAddress + aDllEntry->iOffset;
 						if( aDataAddr >= f.iOrigHdr->iCodeBase && aDataAddr <= (f.iOrigHdr->iCodeBase + f.iOrigHdr->iCodeSize)){
 							aLocation = (void*)(aDataSeg + aDataAddr - f.iOrigHdr->iDataBase );
 							memcpy(aLocation, &aDllEntry->iNewValue, aDllEntry->iSize);
 						}
 						else
 						{
-							Print(EWarning, "Patchdata failed as address 0x%x of DLL %s doesn't lie within Code or Data section limits\n", aDllEntry->iOrdinal, iRomNode->iName);
+							sprintf(tmpbuf, "Patchdata failed as address 0x%x of DLL %s doesn't lie within Code or Data section limits\n", (unsigned int) aDllEntry->iOrdinal, iRomNode->iName);
+							tmpLog.iPrintType = EWarning;
+							tmpLog.iLogMessage = tmpbuf;
+							iLogMessages.push_back(tmpLog);
 						}
 					}
 					aDllEntry = aDllEntry->NextDllDataEntry();
 				}
 			}
 			compression = f.iHdr->CompressionType();
-			Print(ELog,"Original file:'%s' is compressed by method:%08x\n", iFileName, compression);
+			sprintf(tmpbuf,"Original file:'%s' is compressed by method:%08x\n", iFileName, compression);
+			tmpLog.iPrintType = ELog;
+			tmpLog.iLogMessage = tmpbuf;
+			iLogMessages.push_back(tmpLog);
 			TUint32 oldFileComp;
 			TUint32 newFileComp;
 			if ( oldFileComp != newFileComp )
 			{
 				if( newFileComp == 0)
 				{
-					Print(ELog,"Decompressing executable '%s'\n", iFileName);
+					sprintf(tmpbuf,"Decompressing executable '%s'\n", iFileName);
 					f.iHdr->iCompressionType = 0;
+					tmpLog.iPrintType = ELog;
+					tmpLog.iLogMessage = tmpbuf;
+					iLogMessages.push_back(tmpLog);
 				}
 				else
 				{
-					Print(ELog,"Compressing executable '%s' with method:%08x\n", iFileName, newFileComp);
+					sprintf(tmpbuf,"Compressing executable '%s' with method:%08x\n", iFileName, (unsigned int) newFileComp);
+					tmpLog.iPrintType = ELog;
+					tmpLog.iLogMessage = tmpbuf;
+					iLogMessages.push_back(tmpLog);
 					f.iHdr->iCompressionType = newFileComp;
 				}
 				f.UpdateHeaderCrc();
 				if (overflow)
 				{
 						overflow = EFalse;
 				}
 			}
 			if (overflow)
 			{
-				Print(EError, "Can't fit '%s' in image\n", iFileName);
+				sprintf(tmpbuf, "Can't fit '%s' in image\n", iFileName);
-				Print(EError, "Overflowed by approximately 0x%x bytes.\n", size - aMaxSize);
+				tmpLog.iPrintType = EError;
+				tmpLog.iLogMessage = tmpbuf;
+				iLogMessages.push_back(tmpLog);
+				sprintf(tmpbuf, "Overflowed by approximately 0x%x bytes.\n", (unsigned int) (size - aMaxSize));
+				tmpLog.iPrintType = EError;
+				tmpLog.iLogMessage = tmpbuf;
+				iLogMessages.push_back(tmpLog);
 				exit(667);
 			}
 			//try to use cached version where possible.
 			if(gCache && !gDriveImage && !(iRomNode->iAlias) && (iRomNode->iEntry->iExecutable) && !(iRomNode->iOverride & KOverrideDllData))
 					memcpy(aDest, entryref->GetCachedFileBuffer(), size);
 					memcpy(aDest,f.iHdr,sizeof(E32ImageHeaderV));
 					compression = atoi(entryref->GetCachedFileCompressionID());
 					memcpy(&iUids[0], aDest, sizeof(iUids));
 					if (compression)
-						Print(ELog,"Compressed executable File '%s' size: %08x, mode:%08x\n", iFileName, size, compression);
+					{
+						sprintf(tmpbuf,"Compressed executable File '%s' size: %08x, mode:%08x\n", iFileName, (unsigned int) size, (unsigned int) compression);
+						tmpLog.iPrintType = ELog;
+						tmpLog.iLogMessage = tmpbuf;
+						iLogMessages.push_back(tmpLog);
+					}
 					else if (iExecutable)
-						Print(ELog,"Executable File '%s' size: %08x\n", iFileName, size);
+					{
+						sprintf(tmpbuf,"Executable File '%s' size: %08x\n", iFileName, (unsigned int) size);
+						tmpLog.iPrintType = ELog;
+						tmpLog.iLogMessage = tmpbuf;
+						iLogMessages.push_back(tmpLog);
+					}
 					else
-						Print(ELog,"File '%s' size: %08x\n", iFileName, size);
+					{
+						sprintf(tmpbuf,"File '%s' size: %08x\n", iFileName, (unsigned int) size);
+						tmpLog.iPrintType = ELog;
+						tmpLog.iLogMessage = tmpbuf;
+						iLogMessages.push_back(tmpLog);
+					}
 					iRealFileSize = size;	// required later when directory is written
 					return size;
 				}
 			}
 						memcpy(temp,iFileName,len);
 						CacheManager::GetInstance()->Invalidate(temp, newentryref);
 					}
 					catch (CacheException ce)
 					{
-						Print(EWarning, "Cache brings up an exception (%s) when processes %s\r\n", ce.GetErrorMessage(), iFileName);
+						sprintf(tmpbuf, "Cache brings up an exception (%s) when processes %s\r\n", ce.GetErrorMessage(), iFileName);
+						tmpLog.iPrintType = EWarning;
+						tmpLog.iLogMessage = tmpbuf;
+						iLogMessages.push_back(tmpLog);
 					}
 				}
 			}
 			compression = f.iHdr->CompressionType();
 	}
 	if (!executable)
 	{
 		if ( size > aMaxSize )
 		{
-			Print(EError, "Can't fit '%s' in image\n", iFileName);
+			sprintf(tmpbuf, "Can't fit '%s' in image\n", iFileName);
-			Print(EError, "Overflowed by approximately 0x%x bytes.\n", size - aMaxSize);
+			tmpLog.iPrintType = EError;
+			tmpLog.iLogMessage = tmpbuf;
+			iLogMessages.push_back(tmpLog);
+			sprintf(tmpbuf, "Overflowed by approximately 0x%x bytes.\n", (unsigned int) (size - aMaxSize));
+			tmpLog.iPrintType = EError;
+			tmpLog.iLogMessage = tmpbuf;
+			iLogMessages.push_back(tmpLog);
 			exit(667);
 		}
 		size = HFile::Read(iFileName, (TAny *)aDest);
 		TUint32 Uidslen = (size > sizeof(iUids)) ? sizeof(iUids) : size;
 		memcpy(&iUids[0], aDest, Uidslen);
 	}
 	if (compression)
-		Print(ELog,"Compressed executable File '%s' size: %08x, mode:%08x\n", iFileName, size, compression);
+	{
+		sprintf(tmpbuf,"Compressed executable File '%s' size: %08x, mode:%08x\n", iFileName, (unsigned int) size, (unsigned int) compression);
+		tmpLog.iPrintType = ELog;
+		tmpLog.iLogMessage = tmpbuf;
+		iLogMessages.push_back(tmpLog);
+	}
 	else if (iExecutable)
-		Print(ELog,"Executable File '%s' size: %08x\n", iFileName, size);
+	{
+		sprintf(tmpbuf,"Executable File '%s' size: %08x\n", iFileName, (unsigned int) size);
+		tmpLog.iPrintType = ELog;
+		tmpLog.iLogMessage = tmpbuf;
+		iLogMessages.push_back(tmpLog);
+	}
 	else
-		Print(ELog,"File '%s' size: %08x\n", iFileName, size);
+	{
+		sprintf(tmpbuf,"File '%s' size: %08x\n", iFileName, (unsigned int) size);
+		tmpLog.iPrintType = ELog;
+		tmpLog.iLogMessage = tmpbuf;
+		iLogMessages.push_back(tmpLog);
+	}
 	iCompressEnabled = compression;
 	iRealFileSize = size;	// required later when directory is written
 	return size;
 }

changeset 698	e3ee96a3961c
parent 694	c3fbb20e86f0
child 705	67449e76cb84