/* This file is part of the KDE project * Copyright (C) 2001, 2002 Rolf Magnus * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License as published by the Free Software Foundation version 2. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. * * $Id$ */ #include #include "tdefile_png.h" #include #include #include #include #include #include #include #include #include #include #include // some defines to make it easier // don't tell me anything about preprocessor usage :) #define CHUNK_SIZE(data, index) ((data[index ]<<24) + (data[index+1]<<16) + \ (data[index+2]<< 8) + data[index+3]) #define CHUNK_TYPE(data, index) &data[index+4] #define CHUNK_HEADER_SIZE 12 #define CHUNK_DATA(data, index, offset) data[8+index+offset] // known translations for common png keys static const char* knownTranslations[] #ifdef __GNUC__ __attribute__((unused)) #endif = { I18N_NOOP("Title"), I18N_NOOP("Author"), I18N_NOOP("Description"), I18N_NOOP("Copyright"), I18N_NOOP("Creation Time"), I18N_NOOP("Software"), I18N_NOOP("Disclaimer"), I18N_NOOP("Warning"), I18N_NOOP("Source"), I18N_NOOP("Comment") }; // and for the colors static const char* colors[] = { I18N_NOOP("Grayscale"), I18N_NOOP("Unknown"), I18N_NOOP("RGB"), I18N_NOOP("Palette"), I18N_NOOP("Grayscale/Alpha"), I18N_NOOP("Unknown"), I18N_NOOP("RGB/Alpha") }; // and compressions static const char* compressions[] = { I18N_NOOP("Deflate") }; // interlaced modes static const char* interlaceModes[] = { I18N_NOOP("None"), I18N_NOOP("Adam7") }; typedef KGenericFactory PngFactory; K_EXPORT_COMPONENT_FACTORY(tdefile_png, PngFactory("tdefile_png")) KPngPlugin::KPngPlugin(TQObject *parent, const char *name, const TQStringList &args) : KFilePlugin(parent, name, args) { kdDebug(7034) << "png plugin\n"; // set up our mime type KFileMimeTypeInfo* info = addMimeTypeInfo( "image/png" ); KFileMimeTypeInfo::GroupInfo* group = 0; KFileMimeTypeInfo::ItemInfo* item = 0; // comment group group = addGroupInfo(info, "Comment", i18n("Comment")); addVariableInfo(group, TQVariant::String, 0); // technical group group = addGroupInfo(info, "Technical", i18n("Technical Details")); item = addItemInfo(group, "Dimensions", i18n("Dimensions"), TQVariant::Size); setHint( item, KFileMimeTypeInfo::Size ); setUnit(item, KFileMimeTypeInfo::Pixels); item = addItemInfo(group, "BitDepth", i18n("Bit Depth"), TQVariant::Int); setUnit(item, KFileMimeTypeInfo::BitsPerPixel); addItemInfo(group, "ColorMode", i18n("Color Mode"), TQVariant::String); addItemInfo(group, "Compression", i18n("Compression"), TQVariant::String); addItemInfo(group, "InterlaceMode", i18n("Interlace Mode"),TQVariant::String); } bool KPngPlugin::readInfo( KFileMetaInfo& info, uint what) { if ( info.path().isEmpty() ) // remote file return false; TQFile f(info.path()); if ( !f.open(IO_ReadOnly) ) return false; TQIODevice::Offset fileSize = f.size(); if (fileSize < 29) return false; // the technical group will be read from the first 29 bytes. If the file // is smaller, we can't even read this. bool readComments = false; if (what & (KFileMetaInfo::Fastest | KFileMetaInfo::DontCare | KFileMetaInfo::ContentInfo)) readComments = true; else fileSize = 29; // No need to read more uchar *data = new uchar[fileSize+1]; f.readBlock(reinterpret_cast(data), fileSize); data[fileSize]='\n'; // find the start if (data[0] == 137 && data[1] == 80 && data[2] == 78 && data[3] == 71 && data[4] == 13 && data[5] == 10 && data[6] == 26 && data[7] == 10 ) { // ok // the IHDR chunk should be the first if (!strncmp((char*)&data[12], "IHDR", 4)) { // we found it, get the dimensions ulong x,y; x = (data[16]<<24) + (data[17]<<16) + (data[18]<<8) + data[19]; y = (data[20]<<24) + (data[21]<<16) + (data[22]<<8) + data[23]; uint type = data[25]; uint bpp = data[24]; kdDebug(7034) << "dimensions " << x << "*" << y << endl; // the bpp are only per channel, so we need to multiply the with // the channel count switch (type) { case 0: break; // Grayscale case 2: bpp *= 3; break; // RGB case 3: break; // palette case 4: bpp *= 2; break; // grayscale w. alpha case 6: bpp *= 4; break; // RGBA default: // we don't get any sensible value here bpp = 0; } KFileMetaInfoGroup techgroup = appendGroup(info, "Technical"); appendItem(techgroup, "Dimensions", TQSize(x, y)); appendItem(techgroup, "BitDepth", bpp); appendItem(techgroup, "ColorMode", (type < sizeof(colors)/sizeof(colors[0])) ? i18n(colors[data[25]]) : i18n("Unknown")); appendItem(techgroup, "Compression", (data[26] < sizeof(compressions)/sizeof(compressions[0])) ? i18n(compressions[data[26]]) : i18n("Unknown")); appendItem(techgroup, "InterlaceMode", (data[28] < sizeof(interlaceModes)/sizeof(interlaceModes[0])) ? i18n(interlaceModes[data[28]]) : i18n("Unknown")); } // look for a tEXt chunk if (readComments) { uint index = 8; index += CHUNK_SIZE(data, index) + CHUNK_HEADER_SIZE; KFileMetaInfoGroup commentGroup = appendGroup(info, "Comment"); while(index=fileSize) goto end; TQByteArray arr; if(!strncmp((char*)CHUNK_TYPE(data,index), "zTXt", 4)) { kdDebug(7034) << "We found a zTXt field\n"; // we get the compression method after the key uchar* compressionMethod = &CHUNK_DATA(data,index,keysize+1); if ( *compressionMethod != 0x00 ) { // then it isn't zlib compressed and we are sunk kdDebug(7034) << "Non-standard compression method." << endl; goto end; } // compressed string after the compression technique spec uchar* compressedText = &CHUNK_DATA(data, index, keysize+2); uint compressedTextSize = CHUNK_SIZE(data, index)-keysize-2; // security check, also considering overflow wraparound from the addition -- // we may endup with a /smaller/ index if we wrap all the way around uint firstIndex = (uint)(compressedText - data); uint onePastLastIndex = firstIndex + compressedTextSize; if ( onePastLastIndex > fileSize || onePastLastIndex <= firstIndex) goto end; uLongf uncompressedLen = compressedTextSize * 2; // just a starting point int zlibResult; do { arr.resize(uncompressedLen); zlibResult = uncompress((Bytef*)arr.data(), &uncompressedLen, compressedText, compressedTextSize); if (Z_OK == zlibResult) { // then it is all OK arr.resize(uncompressedLen); } else if (Z_BUF_ERROR == zlibResult) { // the uncompressedArray needs to be larger // kdDebug(7034) << "doubling size for decompression" << endl; uncompressedLen *= 2; // DoS protection. can't be bigger than 64k if ( uncompressedLen > 131072 ) break; } else { // something bad happened goto end; } } while (Z_BUF_ERROR == zlibResult); if (Z_OK != zlibResult) goto end; } else if (!strncmp((char*)CHUNK_TYPE(data,index), "tEXt", 4)) { kdDebug(7034) << "We found a tEXt field\n"; // the text comes after the key, but isn't null terminated uchar* text = &CHUNK_DATA(data,index, keysize+1); uint textsize = CHUNK_SIZE(data, index)-keysize-1; // security check, also considering overflow wraparound from the addition -- // we may endup with a /smaller/ index if we wrap all the way around uint firstIndex = (uint)(text - data); uint onePastLastIndex = firstIndex + textsize; if ( onePastLastIndex > fileSize || onePastLastIndex <= firstIndex) goto end; arr.resize(textsize); arr = TQByteArray(textsize).duplicate((const char*)text, textsize); } else { kdDebug(7034) << "We found a field, not expected though\n"; goto end; } appendItem(commentGroup, TQString(reinterpret_cast(key)), TQString(arr)); kdDebug(7034) << "adding " << key << " / " << TQString(arr) << endl; index += CHUNK_SIZE(data, index) + CHUNK_HEADER_SIZE; } } } } end: delete[] data; return true; } #include "tdefile_png.moc"