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Diffstat (limited to 'tdeio/tests/kziptest.cpp')
| -rw-r--r-- | tdeio/tests/kziptest.cpp | 435 |
1 files changed, 435 insertions, 0 deletions
diff --git a/tdeio/tests/kziptest.cpp b/tdeio/tests/kziptest.cpp new file mode 100644 index 000000000..84d38d134 --- /dev/null +++ b/tdeio/tests/kziptest.cpp @@ -0,0 +1,435 @@ +/* + * Copyright (C) 2002, 2003 David Faure <faure@kde.org> + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Library General Public + * License version 2 as published by the Free Software Foundation; + * + * This library 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 + * Library General Public License for more details. + * + * You should have received a copy of the GNU Library General Public License + * along with this library; see the file COPYING.LIB. If not, write to + * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, + * Boston, MA 02110-1301, USA. + */ + +#include "kzip.h" +#include <stdio.h> +#include <kinstance.h> +#include <kdebug.h> +#include <tqfile.h> + +#include <assert.h> + +void recursive_print( const KArchiveDirectory * dir, const TQString & path ) +{ + TQStringList l = dir->entries(); + TQStringList::Iterator it = l.begin(); + for( ; it != l.end(); ++it ) + { + const KArchiveEntry* entry = dir->entry( (*it) ); + printf("mode=%07o %s %s size: %d pos: %d %s%s isdir=%d%s", entry->permissions(), + entry->user().latin1(), entry->group().latin1(), + entry->isDirectory() ? 0 : ((KArchiveFile*)entry)->size(), + entry->isDirectory() ? 0 : ((KArchiveFile*)entry)->position(), + path.latin1(), (*it).latin1(), entry->isDirectory(), + !entry->symlink() ? "" : TQString(" symlink: %1").arg(entry->symlink()).latin1() ); + +// if (!entry->isDirectory()) printf("%d", ((KArchiveFile*)entry)->size()); + printf("\n"); + if (entry->isDirectory()) + recursive_print( (KArchiveDirectory *)entry, path+(*it)+"/" ); + } +} + + +void recursive_transfer(const KArchiveDirectory * dir, + const TQString & path, KZip * zip) +{ + TQStringList l = dir->entries(); + TQStringList::Iterator it = l.begin(); + for( ; it != l.end(); ++it ) + { + const KArchiveEntry* e = dir->entry( (*it) ); + kdDebug() << "actual file: " << e->name() << endl; + if (e->isFile()) + { + Q_ASSERT( e && e->isFile() ); + const KArchiveFile* f = (KArchiveFile*)e; + printf("FILE=%s\n", e->name().latin1()); + + TQByteArray arr( f->data() ); + printf("SIZE=%i\n",arr.size() ); + TQString str( arr ); + printf("DATA=%s\n", str.latin1()); + + if (e->symlink().isEmpty()) { + zip->writeFile( path+e->name().latin1(), + "holgi", "holgrp", + arr.size() , f->data() ); + } else + zip->writeSymLink(path+e->name(), e->symlink(), "leo", "leo", + 0120777, 1000000000l, 1000000000l, 1000000000l); + } + else if (e->isDirectory()) + { + recursive_transfer((KArchiveDirectory *)e , + path+e->name()+"/", zip); + } + } +} + +int main( int argc, char** argv ) +{ + if (argc < 3) + { + printf("\n" + " Usage :\n" + " ./kziptest list /path/to/existing_file.zip tests listing an existing zip\n" + " ./kziptest readwrite newfile.zip will create the zip, then close and reopen it.\n" + " ./kziptest maxlength newfile.zip tests the maximum filename length allowed.\n" + " ./kziptest print file.zip prints contents of all files.\n" + " ./kziptest print2 file.zip filename prints contents of one file.\n" + " ./kziptest update file.zip filename updates contents of one file.\n" + " ./kziptest transfer file.zip newfile.zip complete transfer.\n" + " ./kziptest iodevice /path/to/existing_file.zip tests KArchiveFile::device()\n"); + return 1; + } + TDEInstance instance("kziptest"); + TQString command = argv[1]; + if ( command == "list" ) + { + KZip zip( argv[2] ); + + if ( !zip.open( IO_ReadOnly ) ) + { + printf("Could not open %s for reading\n", argv[2] ); + return 1; + } + + const KArchiveDirectory* dir = zip.directory(); + + //printf("calling recursive_print\n"); + recursive_print( dir, "" ); + //printf("recursive_print called\n"); + + zip.close(); + + return 0; + } + else if (command == "readwrite" ) + { + KZip zip( argv[2] ); + + if ( !zip.open( IO_WriteOnly ) ) + { + printf("Could not open %s for writing\n", argv[2]); + return 1; + } + + zip.setCompression( KZip::NoCompression ); + zip.writeFile( "typeid", "", "", 19, "application/x-kword" ); + zip.setCompression( KZip::DeflateCompression ); + zip.writeFile( "empty", "weis", "users", 0, "" ); + zip.writeFile( "test1", "weis", "users", 5, "Hallo" ); + zip.writeFile( "test2", "weis", "users", 8, "Hallo Du" ); + zip.writeFile( "mydir/test3", "weis", "users", 13, "Noch so einer" ); + zip.writeFile( "my/dir/test3", "dfaure", "hackers", 29, "I don't speak German (David)" ); + zip.writeSymLink( "a_link", "mydir/test3", "leo", "leo", 0120777, + 1000000000l, 1000000000l, 1000000000l); + +#define SIZE1 100 + // Now a medium file : 100 null bytes + char medium[ SIZE1 ]; + memset( medium, 0, SIZE1 ); + zip.writeFile( "mediumfile", "user", "group", SIZE1, medium ); + // Another one, with an absolute path + zip.writeFile( "/dir/subdir/mediumfile2", "user", "group", SIZE1, medium ); + + // Now a huge file : 20000 null bytes + int n = 20000; + char * huge = new char[ n ]; + memset( huge, 0, n ); + zip.writeFile( "hugefile", "user", "group", n, huge ); + delete [] huge; + + // Now a file from the harddisk + zip.addLocalFile( ".libs/lt-kziptest", "lt-kziptest" ); + + printf( "calling close\n" ); + + zip.close(); + + printf("-----------------------\n"); + + if ( !zip.open( IO_ReadOnly ) ) + { + printf("Could not open %s for reading\n", argv[2] ); + return 1; + } + + const KArchiveDirectory* dir = zip.directory(); + recursive_print(dir, ""); + + const KArchiveEntry* e = dir->entry( "mydir/test3" ); + Q_ASSERT( e && e->isFile() ); + const KArchiveFile* f = (KArchiveFile*)e; + + TQByteArray arr( f->data() ); + Q_ASSERT( arr.size() == 13 ); + printf("SIZE=%i\n",arr.size() ); + TQString str( arr ); + Q_ASSERT( str == "Noch so einer" ); + printf("DATA=%s\n", str.latin1()); + + e = dir->entry( "mediumfile" ); + Q_ASSERT( e && e->isFile() ); + f = (KArchiveFile*)e; + Q_ASSERT( f->data().size() == SIZE1 ); + + e = dir->entry( "hugefile" ); + Q_ASSERT( e && e->isFile() ); + f = (KArchiveFile*)e; + Q_ASSERT( f->data().size() == 20000 ); + + zip.close(); + + return 0; + } + else if ( command == "maxlength" ) + { + KZip zip( argv[2] ); + + if ( !zip.open( IO_WriteOnly ) ) + { + printf("Could not open %s for writing\n", argv[2]); + return 1; + } + // Generate long filenames of each possible length bigger than 98... + for (int i = 98; i < 500 ; i++ ) + { + TQString str, num; + str.fill( 'a', i-10 ); + num.setNum( i ); + num = num.rightJustify( 10, '0' ); + zip.writeFile( str+num, "testu", "testg", 3, "hum" ); + } + // Result of this test : it fails at 482 (instead of 154 previously). + // Ok, I think we can do with that :) + zip.close(); + printf("Now run 'unzip -l %s'\n", argv[2]); + return 0; + } + else if ( command == "iodevice" ) + { + KZip zip( argv[2] ); + if ( !zip.open( IO_ReadOnly ) ) + return 1; + const KArchiveDirectory* dir = zip.directory(); + assert(dir); + const KArchiveEntry* entry = dir->entry( "my/dir/test3" ); + if ( entry && entry->isFile() ) + { + TQIODevice *dev = static_cast<const KZipFileEntry *>(entry)->device(); + if ( dev ) { + TQByteArray contents = dev->readAll(); + printf("contents='%s'\n", TQCString(contents, contents.size()+1).data()); + } + } else + printf("entry=%p - not found if 0, otherwise not a file\n", (void*)entry); + return 0; + } + else if (command == "print" ) + { + KZip zip( argv[2] ); + kdDebug() << "Opening zip file" << endl; + if ( !zip.open( IO_ReadOnly ) ) + { + printf("Could not open %s for reading\n", argv[2] ); + return 1; + } + const KArchiveDirectory* dir = zip.directory(); + kdDebug() << "Listing toplevel of zip file" << endl; + TQStringList l = dir->entries(); + TQStringList::Iterator it = l.begin(); + for( ; it != l.end(); ++it ) + { + const KArchiveEntry* e = dir->entry( (*it) ); + kdDebug() << "Printing " << (*it) << endl; + if (e->isFile()) + { + Q_ASSERT( e && e->isFile() ); + const KArchiveFile* f = (KArchiveFile*)e; + + TQByteArray arr( f->data() ); + printf("SIZE=%i\n",arr.size() ); + TQString str( arr ); + printf("DATA=%s\n", str.latin1()); + } + } + zip.close(); + return 0; + } + else if (command == "print2" ) + { + if (argc != 4) + { + printf("usage: kziptest print2 archivename filename"); + return 1; + } + KZip zip( argv[2] ); + if ( !zip.open( IO_ReadOnly ) ) + { + printf("Could not open %s for reading\n", argv[2] ); + return 1; + } + const KArchiveDirectory* dir = zip.directory(); + const KArchiveEntry* e = dir->entry( argv[3] ); + Q_ASSERT( e && e->isFile() ); + const KArchiveFile* f = (KArchiveFile*)e; + + TQByteArray arr( f->data() ); + printf("SIZE=%i\n",arr.size() ); + TQString str( arr ); +// printf("DATA=%s\n", str.latin1()); + printf("%s", str.latin1()); + zip.close(); + + return 0; + + } + else if (command == "update" ) + { + if (argc != 4) + { + printf("usage: kziptest update archivename filename"); + return 1; + } + KZip zip( argv[2] ); + if ( !zip.open( IO_ReadWrite ) ) + { + printf("Could not open %s for read/write\n", argv[2] ); + return 1; + } + const KArchiveEntry* e = zip.directory()->entry( argv[3] ); +// Q_ASSERT( e && e->isFile() ); +// const KArchiveFile* f = (KArchiveFile*)e; + +// TQCString data( "This is some new data that goes into " ); + // data += argv[3]; + TQFile f ( argv[3] ); + if (!f.open( IO_ReadOnly )) + { + printf("Could not open %s for reading\n", argv[2] ); + return 1; + } + + TQDataStream s( &f ); + + +// zip.writeFile( argv[3], "", "", data.size(), data.data() ); + zip.writeFile( argv[3], "", "", f.size(), f.readAll() ); + zip.close(); + + return 0; + + } + else if (command == "transfer" ) + { + if (argc != 4) + { + printf("usage: kziptest transfer sourcefile destfile"); + return 1; + } + KZip zip1( argv[2] ); + KZip zip2( argv[3] ); + if ( !zip1.open( IO_ReadOnly ) ) + { + printf("Could not open %s for reading\n", argv[2] ); + return 1; + } + if ( !zip2.open( IO_WriteOnly ) ) + { + printf("Could not open %s for writing\n", argv[3] ); + return 1; + } + const KArchiveDirectory* dir1 = zip1.directory(); + + recursive_transfer(dir1, "", &zip2 ); + + zip1.close(); + zip2.close(); + +/* + zip.writeFile( "empty", "weis", "users", 0, "" ); + zip.writeFile( "test1", "weis", "users", 5, "Hallo" ); + zip.writeFile( "test2", "weis", "users", 8, "Hallo Du" ); + zip.writeFile( "mydir/test3", "weis", "users", 13, "Noch so einer" ); + zip.writeFile( "my/dir/test3", "dfaure", "hackers", 29, "I don't speak German (David)" ); + +#define SIZE1 100 + // Now a medium file : 100 null bytes + char medium[ SIZE1 ]; + memset( medium, 0, SIZE1 ); + zip.writeFile( "mediumfile", "user", "group", SIZE1, medium ); + // Another one, with an absolute path + zip.writeFile( "/dir/subdir/mediumfile2", "user", "group", SIZE1, medium ); + + // Now a huge file : 20000 null bytes + int n = 20000; + char * huge = new char[ n ]; + memset( huge, 0, n ); + zip.writeFile( "hugefile", "user", "group", n, huge ); + delete [] huge; + + zip.close(); + + printf("-----------------------\n"); + + if ( !zip.open( IO_ReadOnly ) ) + { + printf("Could not open %s for reading\n", argv[2] ); + return 1; + } + + const KArchiveDirectory* dir = zip.directory(); + recursive_print(dir, ""); + + const KArchiveEntry* e = dir->entry( "mydir/test3" ); + Q_ASSERT( e && e->isFile() ); + const KArchiveFile* f = (KArchiveFile*)e; + + TQByteArray arr( f->data() ); + printf("SIZE=%i\n",arr.size() ); + TQString str( arr ); + printf("DATA=%s\n", str.latin1()); + + zip.close(); + + return 0; + + + + + + const KArchiveEntry* e = dir1->entry( argv[3] ); + Q_ASSERT( e && e->isFile() ); + const KArchiveFile* f = (KArchiveFile*)e; + + TQByteArray arr( f->data() ); +// printf("SIZE=%i\n",arr.size() ); + TQString str( arr ); +// printf("DATA=%s\n", str.latin1()); + printf("%s", str.latin1()); + zip.close(); + +*/ + return 0; + + } + else + printf("Unknown command\n"); +} |