/*************************************************************************** kiso.cpp ------------------- begin : Oct 25 2002 copyright : (C) 2002 by Szombathelyi Gy�gy email : gyurco@users.sourceforge.net ***************************************************************************/ /*************************************************************************** * * * 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; either version 2 of the License, or * * (at your option) any later version. * * * ***************************************************************************/ /* This file is heavily based on ktar.cpp from kdelibs (c) David Faure */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "kiso.h" #include "libisofs/isofs.h" #include "tqfilehack.h" #ifdef __linux__ #undef __STRICT_ANSI__ #include #define __STRICT_ANSI__ #include #include #endif //////////////////////////////////////////////////////////////////////// /////////////////////////// KIso /////////////////////////////////// //////////////////////////////////////////////////////////////////////// /** * puts the track layout of the device 'fname' into 'tracks' * tracks structure: start sector, track number, ... * tracks should be 100*2 entry long (this is the maximum in the CD-ROM standard) * currently it's linux only, porters are welcome */ static int getTracks(const char *fname,int *tracks) { int ret=0; memset(tracks,0,200*sizeof(int)); #ifdef __linux__ int fd,i; struct cdrom_tochdr tochead; struct cdrom_tocentry tocentry; kdDebug() << "getTracks open:" << fname << endl; fd=open(fname, O_RDONLY | O_NONBLOCK); if (fd > 0) { if (ioctl(fd,CDROMREADTOCHDR,&tochead)!=-1) { kdDebug() << "getTracks first track:" << tochead.cdth_trk0 << " last track " << tochead.cdth_trk1 << endl; for (i=tochead.cdth_trk0;i<=tochead.cdth_trk1;i++) { if (ret>99) break; memset(&tocentry,0,sizeof(struct cdrom_tocentry)); tocentry.cdte_track=i; tocentry.cdte_format=CDROM_LBA; if (ioctl(fd,CDROMREADTOCENTRY,&tocentry)<0) break; kdDebug() << "getTracks got track " << i << " starting at: " << tocentry.cdte_addr.lba << endl; if ((tocentry.cdte_ctrl & 0x4) == 0x4) { tracks[ret<<1]=tocentry.cdte_addr.lba; tracks[(ret<<1)+1]=i; ret++; } } } close(fd); } #endif return ret; } class KIso::KIsoPrivate { public: KIsoPrivate() {} TQStringList dirList; }; KIso::KIso( const TQString& filename, const TQString & _mimetype ) : KArchive( 0L ) { m_startsec = -1; m_filename = filename; d = new KIsoPrivate; TQString mimetype( _mimetype ); bool forced = true; if ( mimetype.isEmpty() ) { mimetype = KMimeType::findByFileContent( filename )->name(); kdDebug() << "KIso::KIso mimetype=" << mimetype << endl; // Don't move to prepareDevice - the other constructor theoretically allows ANY filter if ( mimetype == "application/x-tgz" || mimetype == "application/x-targz" || // the latter is deprecated but might still be around mimetype == "application/x-webarchive" ) // that's a gzipped tar file, so ask for gzip filter mimetype = "application/x-gzip"; else if ( mimetype == "application/x-tbz" ) // that's a bzipped2 tar file, so ask for bz2 filter mimetype = "application/x-bzip2"; else { // Something else. Check if it's not really gzip though (e.g. for KOffice docs) TQFile file( filename ); if ( file.open( IO_ReadOnly ) ) { unsigned char firstByte = file.getch(); unsigned char secondByte = file.getch(); unsigned char thirdByte = file.getch(); if ( firstByte == 0037 && secondByte == 0213 ) mimetype = "application/x-gzip"; else if ( firstByte == 'B' && secondByte == 'Z' && thirdByte == 'h' ) mimetype = "application/x-bzip2"; else if ( firstByte == 'P' && secondByte == 'K' && thirdByte == 3 ) { unsigned char fourthByte = file.getch(); if ( fourthByte == 4 ) mimetype = "application/x-zip"; } } } forced = false; } prepareDevice( filename, mimetype, forced ); } void KIso::prepareDevice( const TQString & filename, const TQString & mimetype, bool forced ) { /* 'hack' for TQt's false assumption that only S_ISREG is seekable */ if( "inode/blockdevice" == mimetype ) setDevice( new TQFileHack( filename ) ); else { if( "application/x-gzip" == mimetype || "application/x-bzip2" == mimetype) forced = true; TQIODevice *dev = KFilterDev::deviceForFile( filename, mimetype, forced ); if( dev ) setDevice( dev ); } } KIso::KIso( TQIODevice * dev ) : KArchive( dev ) { d = new KIsoPrivate; } KIso::~KIso() { // mjarrett: Closes to prevent ~KArchive from aborting w/o device if( isOpened() ) close(); if ( !m_filename.isEmpty() ) delete device(); // we created it ourselves delete d; } /* callback function for libisofs */ static int readf(char *buf, int start, int len,void *udata) { TQIODevice* dev = ( static_cast (udata) )->device(); if (dev->at(start<<11)) { if ((dev->readBlock(buf, len<<11)) != -1) return (len); } kdDebug() << "KIso::ReadRequest failed start: " << start << " len: " << len << endl; return -1; } /* callback function for libisofs */ static int mycallb(struct iso_directory_record *idr,void *udata) { KIso *iso = static_cast (udata); TQString path,user,group,symlink; int i; int access; int time,cdate,adate; rr_entry rr; bool special=false; KArchiveEntry *entry=NULL,*oldentry=NULL; char z_algo[2],z_params[2]; int z_size=0; if ((idr->flags[0] & 1) && !iso->showhidden) return 0; if (iso->level) { if (isonum_711(idr->name_len)==1) { switch (idr->name[0]) { case 0: path+=("."); special=true; break; case 1: path+=(".."); special=true; break; } } if (iso->showrr && ParseRR(idr,&rr)>0) { if (!special) path=rr.name; symlink=rr.sl; access=rr.mode; time=rr.t_mtime; adate=rr.t_atime; cdate=rr.t_ctime; user.setNum(rr.uid); group.setNum(rr.gid); z_algo[0]=rr.z_algo[0];z_algo[1]=rr.z_algo[1]; z_params[0]=rr.z_params[0];z_params[1]=rr.z_params[1]; z_size=rr.z_size; } else { access=iso->dirent->permissions() & ~S_IFMT; adate=cdate=time=isodate_915(idr->date,0); user=iso->dirent->user(); group=iso->dirent->group(); if (idr->flags[0] & 2) access |= S_IFDIR; else access |= S_IFREG; if (!special) { if (iso->joliet) { for (i=0;i<(isonum_711(idr->name_len)-1);i+=2) { TQChar ch( be2me_16(*((ushort*)&(idr->name[i]))) ); if (ch==';') break; path+=ch; } } else { for (i=0;iname_len);i++) { if (idr->name[i]==';') break; if (idr->name[i]) path+=(idr->name[i]); } } if (path.endsWith(".")) path.setLength(path.length()-1); } } if (iso->showrr) FreeRR(&rr); if (idr->flags[0] & 2) { entry = new KIsoDirectory( iso, path, access | S_IFDIR, time, adate, cdate, user, group, symlink ); } else { entry = new KIsoFile( iso, path, access, time, adate, cdate, user, group, symlink, isonum_733(idr->extent)<<11,isonum_733(idr->size) ); if (z_size) (static_cast (entry))->setZF(z_algo,z_params,z_size); } iso->dirent->addEntry(entry); } if ( (idr->flags[0] & 2) && (iso->level==0 || !special) ) { if (iso->level) { oldentry=iso->dirent; iso->dirent=static_cast (entry); } iso->level++; ProcessDir(&readf,isonum_733(idr->extent),isonum_733(idr->size),&mycallb,udata); iso->level--; if (iso->level) iso->dirent=static_cast (oldentry); } return 0; } void KIso::addBoot(struct el_torito_boot_descriptor* bootdesc) { int i,size; boot_head boot; boot_entry *be; TQString path; KIsoFile *entry; entry=new KIsoFile( this, "Catalog", dirent->permissions() & ~S_IFDIR, dirent->date(), dirent->adate(), dirent->cdate(), dirent->user(), dirent->group(), TQString(), isonum_731(bootdesc->boot_catalog)<<11, 2048 ); dirent->addEntry(entry); if (!ReadBootTable(&readf,isonum_731(bootdesc->boot_catalog),&boot,this)) { i=1; be=boot.defentry; while (be) { size=BootImageSize( isonum_711(((struct default_entry*) be->data)->media), isonum_721(((struct default_entry*) be->data)->seccount)); path="Default Image"; if (i>1) path += " (" + TQString::number(i) + ")"; entry=new KIsoFile( this, path, dirent->permissions() & ~S_IFDIR, dirent->date(), dirent->adate(), dirent->cdate(), dirent->user(), dirent->group(), TQString(), isonum_731(((struct default_entry*) be->data)->start)<<11, size<<9 ); dirent->addEntry(entry); be=be->next; i++; } FreeBootTable(&boot); } } void KIso::readParams() { KConfig *config; config = new KConfig("kio_isorc"); showhidden=config->readBoolEntry("showhidden",false); showrr=config->readBoolEntry("showrr",true); delete config; } bool KIso::openArchive( int mode ) { iso_vol_desc *desc; TQString path,tmp,uid,gid; struct stat buf; int tracks[2*100],trackno=0,i,access,c_b,c_i,c_j; KArchiveDirectory *root; struct iso_directory_record* idr; struct el_torito_boot_descriptor* bootdesc; if ( mode == IO_WriteOnly ) return false; readParams(); d->dirList.clear(); tracks[0]=0; if (m_startsec>0) tracks[0]=m_startsec; kdDebug() << " m_startsec: " << m_startsec << endl; /* We'll use the permission and user/group of the 'host' file except * in Rock Ridge, where the permissions are stored on the file system */ if (::stat( m_filename.local8Bit(), &buf )<0) { /* defaults, if stat fails */ memset(&buf,0,sizeof(struct stat)); buf.st_mode=0777; } else { /* If it's a block device, try to query the track layout (for multisession) */ if (m_startsec == -1 && S_ISBLK(buf.st_mode)) trackno=getTracks(m_filename.latin1(),(int*) &tracks); } uid.setNum(buf.st_uid); gid.setNum(buf.st_gid); access = buf.st_mode & ~S_IFMT; kdDebug() << "KIso::openArchive number of tracks: " << trackno << endl; if (trackno==0) trackno=1; for (i=0;i1) { path=TQString(); TQTextOStream(&path) << "Track " << tracks[(i<<1)+1]; root = new KIsoDirectory( this, path, access | S_IFDIR, buf.st_mtime, buf.st_atime, buf.st_ctime, uid, gid, TQString() ); rootDir()->addEntry(root); } desc=ReadISO9660(&readf,tracks[i<<1],this); if (!desc) { kdDebug() << "KIso::openArchive no volume descriptors" << endl; continue; } while (desc) { switch (isonum_711(desc->data.type)) { case ISO_VD_BOOT: bootdesc=(struct el_torito_boot_descriptor*) &(desc->data); if ( !memcmp(EL_TORITO_ID,bootdesc->system_id,ISODCL(8,39)) ) { path="El Torito Boot"; if (c_b>1) path += " (" + TQString::number(c_b) + ")"; dirent = new KIsoDirectory( this, path, access | S_IFDIR, buf.st_mtime, buf.st_atime, buf.st_ctime, uid, gid, TQString() ); root->addEntry(dirent); addBoot(bootdesc); c_b++; } break; case ISO_VD_PRIMARY: case ISO_VD_SUPPLEMENTARY: idr=(struct iso_directory_record*) &( ((struct iso_primary_descriptor*) &desc->data)->root_directory_record); joliet = JolietLevel(&desc->data); if (joliet) { TQTextOStream(&path) << "Joliet level " << joliet; if (c_j>1) path += " (" + TQString::number(c_j) + ")"; } else { path = "ISO9660"; if (c_i>1) path += " (" + TQString::number(c_i) + ")"; } dirent = new KIsoDirectory( this, path, access | S_IFDIR, buf.st_mtime, buf.st_atime, buf.st_ctime, uid, gid, TQString() ); root->addEntry(dirent); level=0; mycallb(idr, this ); if (joliet) c_j++; else c_i++; break; } desc=desc->next; } free(desc); } device()->close(); return true; } bool KIso::closeArchive() { d->dirList.clear(); return true; } bool KIso::writeDir( const TQString&, const TQString&, const TQString& ) { return false; } bool KIso::prepareWriting( const TQString&, const TQString&, const TQString&, uint) { return false; } bool KIso::doneWriting( uint ) { return false; } void KIso::virtual_hook( int id, void* data ) { KArchive::virtual_hook( id, data ); }