/** * Parse a repository document. * * @param url * @throws IOException * @throws XmlPullParserException * @throws Exception */ void parseDocument(URL url) throws IOException, XmlPullParserException, Exception { if (!visited.contains(url)) { visited.add(url); try { System.out.println("Visiting: " + url); InputStream in = null; if (url.getPath().endsWith(".zip")) { ZipInputStream zin = new ZipInputStream(url.openStream()); ZipEntry entry = zin.getNextEntry(); while (entry != null) { if (entry.getName().equals("repository.xml")) { in = zin; break; } entry = zin.getNextEntry(); } } else { in = url.openStream(); } Reader reader = new InputStreamReader(in); XmlPullParser parser = new KXmlParser(); parser.setInput(reader); parseRepository(parser); } catch (MalformedURLException e) { System.out.println("Cannot create connection to url"); } } }
/** * Loop through the ZIP file, copying its entries into a new, temporary ZIP file, skipping the * entry to be deleted. Then replace the original file with the new one. */ protected Integer deleteEntry() throws XMLDataStoreException { try { ZipInputStream inStream = this.buildZipInputStream(); File outFile = this.buildTempFile(); ZipOutputStream outStream = new ZipOutputStream(new FileOutputStream(outFile)); byte[] buffer = new byte[32768]; int inCount = 0; int outCount = 0; // copy all the entries except the one to be deleted ZipEntry entry = inStream.getNextEntry(); while (entry != null) { inCount++; if (!this.getZipEntryName().equals(entry.getName())) { outCount++; outStream.putNextEntry(entry); int byteCount; while ((byteCount = inStream.read(buffer)) != -1) { outStream.write(buffer, 0, byteCount); } outStream.closeEntry(); } entry = inStream.getNextEntry(); } inStream.close(); if (outCount == 0) { // add a dummy record to an empty file so we can close it // this is required by ZipOutputStream outStream.putNextEntry(new ZipEntry("delete.txt")); outStream.write( "This file is a place-holder. The containing ZIP file should be deleted.".getBytes()); outStream.closeEntry(); } outStream.close(); if (outCount == inCount) { // no entries were removed - just delete the temp file outFile.delete(); } else { // at least one entry removed - delete the original file this.getFile().delete(); if (outCount == 0) { // NO entries remain - just delete the temp file too outFile.delete(); } else { // entries remain - replace original file with temp file outFile.renameTo(this.getFile()); } } return new Integer(inCount - outCount); // should be 0 or 1 } catch (IOException ex) { throw XMLDataStoreException.ioException(ex); } }
/** * Rename the ZIP file to a temporary file, then copy its entries back into the original ZIP file, * leaving the stream open and returning it. */ protected Writer buildWriteStream(boolean entryShouldExist) throws XMLDataStoreException { try { File inFile = this.buildTempFile(); inFile.delete(); // the file actually gets created - delete it boolean renameSucceeded = this.getFile().renameTo(inFile); ZipInputStream inStream = this.buildZipInputStream(inFile); ZipOutputStream outStream = this.buildZipOutputStream(); boolean entryActuallyExists = false; byte[] buffer = new byte[32768]; ZipEntry entry = inStream.getNextEntry(); while (entry != null) { boolean weWantToWriteTheEntry = true; if (this.getZipEntryName().equals(entry.getName())) { entryActuallyExists = true; // if we were expecting the entry, skip it; // if we were NOT expecting the entry, allow it to be rewritten // so the file is restored to its original condition if (entryShouldExist) { weWantToWriteTheEntry = false; } } if (weWantToWriteTheEntry) { outStream.putNextEntry(entry); int byteCount; while ((byteCount = inStream.read(buffer)) != -1) { outStream.write(buffer, 0, byteCount); } outStream.closeEntry(); } entry = inStream.getNextEntry(); } // close and delete the temporary file inStream.close(); inFile.delete(); // check for invalid state if (entryShouldExist != entryActuallyExists) { outStream.close(); // close it since we will not be returning it // need more helpful exceptions here if (entryActuallyExists) { throw XMLDataStoreException.fileAlreadyExists(new File(this.getZipEntryName())); } else { throw XMLDataStoreException.fileNotFound(new File(this.getZipEntryName()), null); } } outStream.putNextEntry(new ZipEntry(this.getZipEntryName())); return new OutputStreamWriter(outStream); } catch (IOException ex) { throw XMLDataStoreException.ioException(ex); } }
/** * Puts the uninstaller. * * @exception Exception Description of the Exception */ private void putUninstaller() throws Exception { // Me make the .uninstaller directory String dest = translatePath("$INSTALL_PATH") + File.separator + "Uninstaller"; String jar = dest + File.separator + "uninstaller.jar"; File pathMaker = new File(dest); pathMaker.mkdirs(); // We log the uninstaller deletion information UninstallData udata = UninstallData.getInstance(); udata.setUninstallerJarFilename(jar); udata.setUninstallerPath(dest); // We open our final jar file FileOutputStream out = new FileOutputStream(jar); ZipOutputStream outJar = new ZipOutputStream(out); idata.uninstallOutJar = outJar; outJar.setLevel(9); udata.addFile(jar); // We copy the uninstaller InputStream in = getClass().getResourceAsStream("/res/IzPack.uninstaller"); ZipInputStream inRes = new ZipInputStream(in); ZipEntry zentry = inRes.getNextEntry(); while (zentry != null) { // Puts a new entry outJar.putNextEntry(new ZipEntry(zentry.getName())); // Byte to byte copy int unc = inRes.read(); while (unc != -1) { outJar.write(unc); unc = inRes.read(); } // Next one please inRes.closeEntry(); outJar.closeEntry(); zentry = inRes.getNextEntry(); } inRes.close(); // We put the langpack in = getClass().getResourceAsStream("/langpacks/" + idata.localeISO3 + ".xml"); outJar.putNextEntry(new ZipEntry("langpack.xml")); int read = in.read(); while (read != -1) { outJar.write(read); read = in.read(); } outJar.closeEntry(); }
/** Return the specified ZIP file entry wrapped in a stream. */ protected Reader buildReadStream(String readZipEntryName) throws XMLDataStoreException { try { ZipInputStream inStream = this.buildZipInputStream(); ZipEntry entry = inStream.getNextEntry(); while (entry != null) { if (readZipEntryName.equals(entry.getName())) { return new InputStreamReader(inStream); } entry = inStream.getNextEntry(); } inStream.close(); } catch (IOException ex) { throw XMLDataStoreException.ioException(ex); } return null; }
/** Extracts specified entries from JAR file. */ void extract(InputStream in, String files[]) throws IOException { ZipInputStream zis = new ZipInputStream(in); ZipEntry e; // Set of all directory entries specified in archive. Disallows // null entries. Disallows all entries if using pre-6.0 behavior. Set<ZipEntry> dirs = newDirSet(); while ((e = zis.getNextEntry()) != null) { if (files == null) { dirs.add(extractFile(zis, e)); } else { String name = e.getName(); for (String file : files) { if (name.startsWith(file)) { dirs.add(extractFile(zis, e)); break; } } } } // Update timestamps of directories specified in archive with their // timestamps as given in the archive. We do this after extraction, // instead of during, because creating a file in a directory changes // that directory's timestamp. updateLastModifiedTime(dirs); }
/** Lists contents of JAR file. */ void list(InputStream in, String files[]) throws IOException { ZipInputStream zis = new ZipInputStream(in); ZipEntry e; while ((e = zis.getNextEntry()) != null) { /* * In the case of a compressed (deflated) entry, the entry size * is stored immediately following the entry data and cannot be * determined until the entry is fully read. Therefore, we close * the entry first before printing out its attributes. */ zis.closeEntry(); printEntry(e, files); } }
protected void load(ZipInputStream in) throws IOException { ZipEntry entry; while ((entry = in.getNextEntry()) != null) { fireBeginFile(entry.getName()); Logger.getLogger(getClass()) .debug("Starting file " + entry.getName() + " (" + entry.getSize() + " bytes)"); byte[] bytes = readBytes(in); Logger.getLogger(getClass()) .debug("Passing up file " + entry.getName() + " (" + bytes.length + " bytes)"); getLoader().load(entry.getName(), new ByteArrayInputStream(bytes)); fireEndFile(entry.getName()); } }
public static byte [] unzipBytes(byte [] bs, Compression cmp) { InputStream is = null; int off = 0; try { switch(cmp) { case NONE: // No compression return bs; case ZIP: { ZipInputStream zis = new ZipInputStream(new ByteArrayInputStream(bs)); ZipEntry ze = zis.getNextEntry(); // Get the *FIRST* entry // There is at least one entry in zip file and it is not a directory. if( ze != null && !ze.isDirectory() ) { is = zis; break; } zis.close(); return bs; // Don't crash, ignore file if cannot unzip } case GZIP: is = new GZIPInputStream(new ByteArrayInputStream(bs)); break; default: assert false:"cmp = " + cmp; } // If reading from a compressed stream, estimate we can read 2x uncompressed assert( is != null ):"is is NULL, cmp = " + cmp; bs = new byte[bs.length * 2]; // Now read from the (possibly compressed) stream while( off < bs.length ) { int len = is.read(bs, off, bs.length - off); if( len < 0 ) break; off += len; if( off == bs.length ) { // Dataset is uncompressing alot! Need more space... if( bs.length >= ValueArray.CHUNK_SZ ) break; // Already got enough bs = Arrays.copyOf(bs, bs.length * 2); } } } catch( IOException ioe ) { // Stop at any io error Log.err(ioe); } finally { Utils.close(is); } return bs; }
private boolean saveAndVerify(ZipInputStream data) throws IOException { try { ZipEntry ze; while ((ze = data.getNextEntry()) != null) { // Filename + reference to file. String filename = ze.getName(); File output = new File(local_path + filename); if (filename.endsWith("/")) { output.mkdirs(); } else { if (output.exists()) { // Delete the file if it already exists. if (!output.delete()) { return false; } } if (output.createNewFile()) { FileOutputStream out = new FileOutputStream(output); byte[] buffer = new byte[1024]; int count; while ((count = data.read(buffer)) != -1) { out.write(buffer, 0, count); } } else { return false; } } } } catch (Exception e) { e.printStackTrace(); return false; } finally { data.close(); } return true; }
/** * This method handles PUT requests from the client. PUT requests will come from the applet * portion of this application and are the way that images and other files can be posted to the * server. * * @param request the HTTP request object * @param response the HTTP response object * @exception ServletException * @exception IOException */ public void doPut(HttpServletRequest request, HttpServletResponse response) throws ServletException, IOException { HttpSession session = request.getSession(); /* * The Scan applet will zip all the files together to create a * faster upload and to use just one server connection. */ ZipInputStream in = new ZipInputStream(request.getInputStream()); /* * This will write all the files to a directory on the server. */ try { try { File file = new File("scan"); Document document = new Document(); PdfWriter.getInstance(document, new FileOutputStream(file)); document.open(); String fileSize = null; while (true) { ZipEntry entry = in.getNextEntry(); if (entry == null) { break; } File f = File.createTempFile("translate", entry.getName()); FileOutputStream out = new FileOutputStream(f); FileInputStream inStream = null; try { int read; byte[] buf = new byte[2024]; while ((read = in.read(buf)) > 0) { out.write(buf, 0, read); } out.close(); inStream = new FileInputStream(f); System.out.println(entry.getSize()); byte[] b = new byte[inStream.available()]; inStream.read(b); System.out.println(b.length); com.itextpdf.text.Image image1 = com.itextpdf.text.Image.getInstance(b); image1.scalePercent(30); image1.setCompressionLevel(9); document.add(image1); } finally { } } document.close(); // fileSize = CommonUtils.getFileSize(file); // DocumentStoreLogDAO documentStoreLogDAO = new DocumentStoreLogDAO(); // DocumentStoreLog documentStoreLog = null; // DocumentStoreLog documentStore = // (DocumentStoreLog)session.getAttribute(CommonConstants.DOCUMENT_STORE_LOG); // if(null != documentStore) { // documentStore.setFileSize(fileSize); // } // Transaction tx = documentStoreLogDAO.getSession().getTransaction(); // tx.begin(); // documentStoreLogDAO.save(documentStore); // tx.commit(); } catch (ZipException ze) { /* * We want to catch each sip exception separately because * there is a possibility that we can read more files from * the archive even if one of them is corrupted. */ ze.printStackTrace(); } } catch (Exception e) { e.printStackTrace(); } finally { in.close(); } /* * Now that we have finished uploading the files * we will send a reponse to the server indicating * our success. */ response.setContentType(CONTENT_TYPE); PrintWriter out = response.getWriter(); out.println("<html><head><title>ImageSrv</title></head></html>"); out.flush(); out.close(); response.setStatus(HttpServletResponse.SC_OK); }
/** initializes internal hash tables with Jar file resources. */ private byte[] read(String name) { try { // extracts just sizes only. ZipFile zf = new ZipFile(jarFileName); Enumeration e = zf.entries(); while (e.hasMoreElements()) { ZipEntry ze = (ZipEntry) e.nextElement(); if (debugOn) { System.out.println(dumpZipEntry(ze)); } htSizes.put(ze.getName(), new Integer((int) ze.getSize())); } zf.close(); // extract resources and put them into the hashtable. FileInputStream fis = new FileInputStream(jarFileName); BufferedInputStream bis = new BufferedInputStream(fis); ZipInputStream zis = new ZipInputStream(bis); ZipEntry ze = null; while ((ze = zis.getNextEntry()) != null) { if (ze.isDirectory()) { continue; } if (debugOn) { System.out.println("ze.getName()=" + ze.getName() + "," + "getSize()=" + ze.getSize()); } int size = (int) ze.getSize(); // -1 means unknown size. if (size == -1) { size = ((Integer) htSizes.get(ze.getName())).intValue(); } byte[] b = new byte[(int) size]; int rb = 0; int chunk = 0; while (((int) size - rb) > 0) { chunk = zis.read(b, rb, (int) size - rb); if (chunk == -1) { break; } rb += chunk; } if (debugOn) { System.out.println( ze.getName() + " rb=" + rb + ",size=" + size + ",csize=" + ze.getCompressedSize()); } if (ze.getName().equals(name)) { return b; } } } catch (NullPointerException e) { System.out.println("done."); } catch (FileNotFoundException e) { e.printStackTrace(); } catch (IOException e) { e.printStackTrace(); } return null; }
// =============================================================================
/** Updates an existing jar file. */ boolean update(InputStream in, OutputStream out, InputStream newManifest, JarIndex jarIndex) throws IOException { ZipInputStream zis = new ZipInputStream(in); ZipOutputStream zos = new JarOutputStream(out); ZipEntry e = null; boolean foundManifest = false; boolean updateOk = true; if (jarIndex != null) { addIndex(jarIndex, zos); } // put the old entries first, replace if necessary while ((e = zis.getNextEntry()) != null) { String name = e.getName(); boolean isManifestEntry = equalsIgnoreCase(name, MANIFEST_NAME); if ((jarIndex != null && equalsIgnoreCase(name, INDEX_NAME)) || (Mflag && isManifestEntry)) { continue; } else if (isManifestEntry && ((newManifest != null) || (ename != null) || (pname != null))) { foundManifest = true; if (newManifest != null) { // Don't read from the newManifest InputStream, as we // might need it below, and we can't re-read the same data // twice. FileInputStream fis = new FileInputStream(mname); boolean ambiguous = isAmbiguousMainClass(new Manifest(fis)); fis.close(); if (ambiguous) { return false; } } // Update the manifest. Manifest old = new Manifest(zis); if (newManifest != null) { old.read(newManifest); } if (!updateManifest(old, zos)) { return false; } } else { if (!entryMap.containsKey(name)) { // copy the old stuff // do our own compression ZipEntry e2 = new ZipEntry(name); e2.setMethod(e.getMethod()); e2.setTime(e.getTime()); e2.setComment(e.getComment()); e2.setExtra(e.getExtra()); if (e.getMethod() == ZipEntry.STORED) { e2.setSize(e.getSize()); e2.setCrc(e.getCrc()); } zos.putNextEntry(e2); copy(zis, zos); } else { // replace with the new files File f = entryMap.get(name); addFile(zos, f); entryMap.remove(name); entries.remove(f); } } } // add the remaining new files for (File f : entries) { addFile(zos, f); } if (!foundManifest) { if (newManifest != null) { Manifest m = new Manifest(newManifest); updateOk = !isAmbiguousMainClass(m); if (updateOk) { if (!updateManifest(m, zos)) { updateOk = false; } } } else if (ename != null || pname != null) { if (!updateManifest(new Manifest(), zos)) { updateOk = false; } } } zis.close(); zos.close(); return updateOk; }