/************************************************************************* * * $RCSfile: ZipOutputStream.cxx,v $ * * $Revision: 1.24 $ * * last change: $Author: mtg $ $Date: 2001-04-19 14:13:40 $ * * The Contents of this file are made available subject to the terms of * either of the following licenses * * - GNU Lesser General Public License Version 2.1 * - Sun Industry Standards Source License Version 1.1 * * Sun Microsystems Inc., October, 2000 * * GNU Lesser General Public License Version 2.1 * ============================================= * Copyright 2000 by Sun Microsystems, Inc. * 901 San Antonio Road, Palo Alto, CA 94303, USA * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA * * * Sun Industry Standards Source License Version 1.1 * ================================================= * The contents of this file are subject to the Sun Industry Standards * Source License Version 1.1 (the "License"); You may not use this file * except in compliance with the License. You may obtain a copy of the * License at http://www.openoffice.org/license.html. * * Software provided under this License is provided on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, * WITHOUT LIMITATION, WARRANTIES THAT THE SOFTWARE IS FREE OF DEFECTS, * MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE, OR NON-INFRINGING. * See the License for the specific provisions governing your rights and * obligations concerning the Software. * * The Initial Developer of the Original Code is: Sun Microsystems, Inc. * * Copyright: 2000 by Sun Microsystems, Inc. * * All Rights Reserved. * * Contributor(s): Martin Gallwey (gallwey@sun.com) * * ************************************************************************/ #ifndef _ZIP_OUTPUT_STREAM_HXX #include #endif #ifndef _VOS_DIAGNOSE_H_ #include #endif #ifndef _COM_SUN_STAR_PACKAGES_ZIPCONSTANTS_HPP_ #include #endif #include #include using namespace rtl; using namespace com::sun::star; using namespace com::sun::star::packages::ZipConstants; /** This class is used to write Zip files */ ZipOutputStream::ZipOutputStream( uno::Reference < io::XOutputStream > &xOStream, sal_Int32 nNewBufferSize) : xStream(xOStream) , aChucker(xOStream) , nMethod(DEFLATED) , pCurrentEntry(NULL) , bFinished(sal_False) , aBuffer(nNewBufferSize) , aDeflater(DEFAULT_COMPRESSION, sal_True) { } ZipOutputStream::~ZipOutputStream( void ) { for (sal_Int32 i = 0, nEnd = aZipList.size(); i < nEnd; i++) delete aZipList[i]; } void SAL_CALL ZipOutputStream::setComment( const ::rtl::OUString& rComment ) throw(uno::RuntimeException) { sComment = rComment; } void SAL_CALL ZipOutputStream::setMethod( sal_Int32 nNewMethod ) throw(uno::RuntimeException) { nMethod = static_cast < sal_Int16 > (nNewMethod); } void SAL_CALL ZipOutputStream::setLevel( sal_Int32 nNewLevel ) throw(uno::RuntimeException) { aDeflater.setLevel( nNewLevel); } void SAL_CALL ZipOutputStream::putNextEntry( const packages::ZipEntry& rEntry ) throw(io::IOException, uno::RuntimeException) { packages::ZipEntry *pNonConstEntry = const_cast < packages::ZipEntry* >(&rEntry); if (pCurrentEntry != NULL) closeEntry(); if (pNonConstEntry->nTime == -1) pNonConstEntry->nTime = getCurrentDosTime(); if (pNonConstEntry->nMethod == -1) { pNonConstEntry->nMethod = nMethod; } pNonConstEntry->nVersion = 20; if (pNonConstEntry->nSize == -1 || pNonConstEntry->nCompressedSize == -1 || pNonConstEntry->nCrc == -1) pNonConstEntry->nFlag = 8; else if (pNonConstEntry->nSize != -1 && pNonConstEntry->nCompressedSize != -1 && pNonConstEntry->nCrc != -1) pNonConstEntry->nFlag = 0; pNonConstEntry->nOffset = static_cast < sal_Int32 > (aChucker.getPosition()); writeLOC(rEntry); aZipList.push_back( pNonConstEntry ); pCurrentEntry=pNonConstEntry; } void SAL_CALL ZipOutputStream::close( ) throw(io::IOException, uno::RuntimeException) { finish(); } void SAL_CALL ZipOutputStream::closeEntry( ) throw(io::IOException, uno::RuntimeException) { packages::ZipEntry *pEntry = pCurrentEntry; if (pEntry) { switch (pEntry->nMethod) { case DEFLATED: aDeflater.finish(); while (!aDeflater.finished()) doDeflate(); if ((pEntry->nFlag & 8) == 0) { if (pEntry->nSize != aDeflater.getTotalIn()) { VOS_DEBUG_ONLY("Invalid entry size"); } if (pEntry->nCompressedSize != aDeflater.getTotalOut()) { //VOS_DEBUG_ONLY("Invalid entry compressed size"); // Different compression strategies make the merit of this // test somewhat dubious pEntry->nCompressedSize = aDeflater.getTotalOut(); } if (pEntry->nCrc != aCRC.getValue()) { VOS_DEBUG_ONLY("Invalid entry CRC-32"); } } else { pEntry->nSize = aDeflater.getTotalIn(); pEntry->nCompressedSize = aDeflater.getTotalOut(); pEntry->nCrc = aCRC.getValue(); writeEXT(*pEntry); } aDeflater.reset(); break; case STORED: pEntry->nCrc = aCRC.getValue(); if (!((pEntry->nFlag & 8) == 0)) { //writeEXT(*pEntry); // instead of writing a data descriptor (due to the fact // that the 'jar' tool doesn't like data descriptors // for STORED streams), we seek back and update the LOC // header. We could do this for DEFLATED entries also pEntry->nFlag = 0; pEntry->nVersion = 10; sal_Int64 nPos = aChucker.getPosition(); aChucker.seek( pEntry->nOffset ); aChucker << LOCSIG; aChucker << pEntry->nVersion; aChucker << pEntry->nFlag; aChucker << pEntry->nMethod; aChucker << static_cast < sal_uInt32 > (pEntry->nTime); aChucker << static_cast < sal_uInt32 > (pEntry->nCrc); aChucker << pEntry->nCompressedSize; aChucker << pEntry->nSize; aChucker.seek( nPos ); } /* if (static_cast < sal_uInt32 > (pEntry->nCrc) != static_cast (aCRC.getValue())) { // boom VOS_DEBUG_ONLY("Invalid entry crc32"); } */ break; default: // boom; VOS_DEBUG_ONLY("Invalid compression method"); break; } aCRC.reset(); pCurrentEntry = NULL; } } void SAL_CALL ZipOutputStream::write( const uno::Sequence< sal_Int8 >& rBuffer, sal_Int32 nNewOffset, sal_Int32 nNewLength ) throw(io::IOException, uno::RuntimeException) { switch (pCurrentEntry->nMethod) { case DEFLATED: if (!aDeflater.finished()) { aDeflater.setInputSegment(rBuffer, nNewOffset, nNewLength); while (!aDeflater.needsInput()) doDeflate(); } break; case STORED: sal_Int32 nOldLength = rBuffer.getLength(); uno::Sequence < sal_Int8 > *pBuffer = const_cast < uno::Sequence < sal_Int8 > *> (&rBuffer); pBuffer->realloc(nNewLength); aChucker.writeBytes(*pBuffer); pBuffer->realloc(nOldLength); break; } aCRC.updateSegment(rBuffer, nNewOffset, nNewLength); } void SAL_CALL ZipOutputStream::rawWrite( const uno::Sequence< sal_Int8 >& rBuffer) throw(io::IOException, uno::RuntimeException) { aChucker.writeBytes(rBuffer); } void SAL_CALL ZipOutputStream::rawCloseEntry( ) throw(io::IOException, uno::RuntimeException) { writeEXT(*pCurrentEntry); aCRC.reset(); pCurrentEntry = NULL; } void SAL_CALL ZipOutputStream::finish( ) throw(io::IOException, uno::RuntimeException) { if (bFinished) return; if (pCurrentEntry != NULL) closeEntry(); if (aZipList.size() < 1) { // boom VOS_DEBUG_ONLY("Zip file must have at least one entry!\n"); } sal_Int32 nOffset= static_cast < sal_Int32 > (aChucker.getPosition()); for (sal_Int32 i =0, nEnd = aZipList.size(); i < nEnd; i++) writeCEN( *aZipList[i] ); writeEND( nOffset, static_cast < sal_Int32 > (aChucker.getPosition()) - nOffset); bFinished = sal_True; } void ZipOutputStream::doDeflate() { //sal_Int32 nOldOut = aDeflater.getTotalOut(); sal_Int32 nLength = aDeflater.doDeflateSegment(aBuffer, 0, aBuffer.getLength()); sal_Int32 nOldLength = aBuffer.getLength(); //sal_Int32 nNewOut = aDeflater.getTotalOut() - nOldOut; if (nLength> 0 ) { aBuffer.realloc(nLength); aChucker.writeBytes(aBuffer); aBuffer.realloc(nOldLength); } } void ZipOutputStream::writeEND(sal_uInt32 nOffset, sal_uInt32 nLength) throw(io::IOException, uno::RuntimeException) { sal_Int16 nCommentLength = static_cast < sal_Int16 > (sComment.getLength()); uno::Sequence < sal_Int8 > aSequence (nCommentLength); sal_Int8 *pArray = aSequence.getArray(); const sal_Unicode *pChar = sComment.getStr(); for ( sal_Int16 i = 0; i < nCommentLength; i++) { VOS_ENSURE (pChar[i] <127, "Non US ASCII character in zipfile comment!"); *(pArray+i) = static_cast < const sal_Int8 > (pChar[i]); } aChucker << ENDSIG; aChucker << static_cast < sal_Int16 > ( 0 ); aChucker << static_cast < sal_Int16 > ( 0 ); aChucker << static_cast < sal_Int16 > ( aZipList.size() ); aChucker << static_cast < sal_Int16 > ( aZipList.size() ); aChucker << nLength; aChucker << nOffset; aChucker << nCommentLength; if (nCommentLength) aChucker.writeBytes(aSequence); } void ZipOutputStream::writeCEN( const packages::ZipEntry &rEntry ) throw(io::IOException, uno::RuntimeException) { sal_Int16 nNameLength = static_cast < sal_Int16 > ( rEntry.sName.getLength() ) , nCommentLength = static_cast < sal_Int16 > ( rEntry.sComment.getLength() ) , nExtraLength = static_cast < sal_Int16 > ( rEntry.extra.getLength() ); aChucker << CENSIG; aChucker << rEntry.nVersion; aChucker << rEntry.nVersion; aChucker << rEntry.nFlag; aChucker << rEntry.nMethod; aChucker << static_cast < sal_uInt32> (rEntry.nTime); aChucker << static_cast < sal_uInt32> (rEntry.nCrc); aChucker << rEntry.nCompressedSize; aChucker << rEntry.nSize; aChucker << nNameLength; aChucker << nExtraLength; aChucker << nCommentLength; aChucker << static_cast < sal_Int16> (0); aChucker << static_cast < sal_Int16> (0); aChucker << static_cast < sal_Int32> (0); aChucker << rEntry.nOffset; /* sal_uInt64 nCurrent = aChucker.getPosition(); aChucker.seek(rEntry.nOffset+16); aChucker << static_cast < sal_uInt32> (rEntry.nCrc); aChucker << rEntry.nCompressedSize; aChucker << rEntry.nSize; aChucker.seek(nCurrent); */ const sal_Unicode *pChar = rEntry.sName.getStr(); uno::Sequence < sal_Int8 > aSequence (nNameLength); sal_Int8 *pArray = aSequence.getArray(); for ( sal_Int16 i = 0; i < nNameLength; i++) { VOS_ENSURE (pChar[i] <127, "Non US ASCII character in zipentry name!"); *(pArray+i) = static_cast < const sal_Int8 > (pChar[i]); } aChucker.writeBytes( aSequence ); if (nExtraLength) aChucker.writeBytes( rEntry.extra); if (nCommentLength) { if (nNameLength != nCommentLength) { aSequence.realloc (nCommentLength); pArray = aSequence.getArray(); } for (i=0, pChar = rEntry.sComment.getStr(); i < nCommentLength; i++) { VOS_ENSURE (pChar[i] <127, "Non US ASCII character in zipentry comment!"); *(pArray+i) = static_cast < const sal_Int8 > (pChar[i]); } aChucker.writeBytes( aSequence ); } } void ZipOutputStream::writeEXT( const packages::ZipEntry &rEntry ) throw(io::IOException, uno::RuntimeException) { aChucker << EXTSIG; aChucker << rEntry.nCrc; aChucker << rEntry.nCompressedSize; aChucker << rEntry.nSize; } void ZipOutputStream::writeLOC( const packages::ZipEntry &rEntry ) throw(io::IOException, uno::RuntimeException) { sal_Int16 nNameLength = static_cast < sal_Int16 > (rEntry.sName.getLength()); uno::Sequence < sal_Int8 > aSequence(nNameLength); sal_Int8 *pArray = aSequence.getArray(); aChucker << LOCSIG; aChucker << rEntry.nVersion; aChucker << rEntry.nFlag; aChucker << rEntry.nMethod; aChucker << static_cast < sal_uInt32 > (rEntry.nTime); if ((rEntry.nFlag & 8) == 8 ) { aChucker << static_cast < sal_Int32 > (0); aChucker << static_cast < sal_Int32 > (0); aChucker << static_cast < sal_Int32 > (0); } else { aChucker << static_cast < sal_uInt32 > (rEntry.nCrc); aChucker << rEntry.nCompressedSize; aChucker << rEntry.nSize; } aChucker << nNameLength; aChucker << static_cast ( rEntry.extra.getLength()); const sal_Unicode *pChar = rEntry.sName.getStr(); for ( sal_Int16 i = 0; i < nNameLength; i++) { VOS_ENSURE (pChar[i] <127, "Non US ASCII character in zipentry name!"); *(pArray+i) = static_cast < const sal_Int8 > (pChar[i]); } aChucker.writeBytes( aSequence ); if (rEntry.extra.getLength() != 0) aChucker.writeBytes( rEntry.extra ); } sal_uInt32 ZipOutputStream::getCurrentDosTime( ) { time_t nTime = time (NULL); // pTime is a static internal to the time library and shouldn't be deleted struct tm *pTime = localtime ( &nTime); sal_uInt32 nYear = static_cast (pTime->tm_year); if (nYear>1980) nYear-=1980; else if (nYear>80) nYear-=80; sal_uInt32 nResult = static_cast < sal_uInt32>( ( ( ( pTime->tm_mday) + ( 32 * (pTime->tm_mon+1)) + ( 512 * nYear ) ) << 16) | ( ( pTime->tm_sec/2) + ( 32 * pTime->tm_min) + ( 2048 * static_cast (pTime->tm_hour) ) ) ); return nResult; } /* This is actually never used, so I removed it, but thought that the implementation details may be useful in the future...mtg 20010307 void ZipOutputStream::dosDateToTMDate ( tm &rTime, sal_uInt32 nDosDate) { sal_uInt32 nDate = static_cast < sal_uInt32 > (nDosDate >> 16); rTime.tm_mday = static_cast < sal_uInt32 > ( nDate & 0x1F); rTime.tm_mon = static_cast < sal_uInt32 > ( ( ( (nDate) & 0x1E0)/0x20)-1); rTime.tm_year = static_cast < sal_uInt32 > ( ( (nDate & 0x0FE00)/0x0200)+1980); rTime.tm_hour = static_cast < sal_uInt32 > ( (nDosDate & 0xF800)/0x800); rTime.tm_min = static_cast < sal_uInt32 > ( (nDosDate & 0x7E0)/0x20); rTime.tm_sec = static_cast < sal_uInt32 > ( 2 * (nDosDate & 0x1F) ); } */