/** * Load the policies from the specified file. Also checks that the policies are correctly signed. */ private static void loadPolicies( File jarPathName, CryptoPermissions defaultPolicy, CryptoPermissions exemptPolicy) throws Exception { JarFile jf = new JarFile(jarPathName); Enumeration<JarEntry> entries = jf.entries(); while (entries.hasMoreElements()) { JarEntry je = entries.nextElement(); InputStream is = null; try { if (je.getName().startsWith("default_")) { is = jf.getInputStream(je); defaultPolicy.load(is); } else if (je.getName().startsWith("exempt_")) { is = jf.getInputStream(je); exemptPolicy.load(is); } else { continue; } } finally { if (is != null) { is.close(); } } // Enforce the signer restraint, i.e. signer of JCE framework // jar should also be the signer of the two jurisdiction policy // jar files. JarVerifier.verifyPolicySigned(je.getCertificates()); } // Close and nullify the JarFile reference to help GC. jf.close(); jf = null; }
/** * load from the specified jar filled with help files in the [language] directory in the jar * * @param file the jar file */ private void loadFromJar(File file) { if (file.getName().toLowerCase().endsWith(".jar") && file.isFile()) { try { int counter = 0; JarInputStream jis; JarEntry je; counter = 0; jis = new JarInputStream(new BufferedInputStream(new FileInputStream(file))); je = jis.getNextJarEntry(); while (je != null) { String mnemo = trimEntryName(je); if (je.getName().toLowerCase().matches(helproot + "/" + language + "/.*.htm") && !exists(mnemo)) { addToCache(jis, mnemo); counter++; } je = jis.getNextJarEntry(); } jis.close(); System.out.println( "+ " + String.valueOf(counter) + "\thelp text(s) from:\t" + file.getCanonicalPath()); } catch (IOException ignored) { } } }
public String hasSameContent(JarFile2 file, JarEntry entry) throws IOException { String thisName = null; Long crcL = new Long(entry.getCrc()); // check if this jar contains files with the passed in entry's crc if (_crcToEntryMap.containsKey(crcL)) { // get the Linked List with files with the crc LinkedList ll = (LinkedList) _crcToEntryMap.get(crcL); // go through the list and check for content match ListIterator li = ll.listIterator(0); if (li != null) { while (li.hasNext()) { JarEntry thisEntry = (JarEntry) li.next(); // check for content match InputStream oldIS = getJarFile().getInputStream(thisEntry); InputStream newIS = file.getJarFile().getInputStream(entry); if (!differs(oldIS, newIS)) { thisName = thisEntry.getName(); return thisName; } } } } return thisName; }
public static List getClasseNamesInPackage(String jarName, String packageName) { ArrayList classes = new ArrayList(); packageName = packageName.replaceAll("\\.", "/"); if (debug) System.out.println("Jar " + jarName + " looking for " + packageName); try { JarInputStream jarFile = new JarInputStream(new FileInputStream(jarName)); JarEntry jarEntry; while (true) { jarEntry = jarFile.getNextJarEntry(); if (jarEntry == null) { break; } if ((jarEntry.getName().startsWith(packageName)) && (jarEntry.getName().endsWith(".class"))) { if (debug) System.out.println("Found " + jarEntry.getName().replaceAll("/", "\\.")); classes.add(jarEntry.getName().replaceAll("/", "\\.")); } } } catch (Exception e) { e.printStackTrace(); } return classes; }
/** * Load classes from given file. File could be either directory or JAR file. * * @param clsLdr Class loader to load files. * @param file Either directory or JAR file which contains classes or references to them. * @return Set of found and loaded classes or empty set if file does not exist. * @throws GridSpiException Thrown if given JAR file references to none existed class or * IOException occurred during processing. */ static Set<Class<? extends GridTask<?, ?>>> getClasses(ClassLoader clsLdr, File file) throws GridSpiException { Set<Class<? extends GridTask<?, ?>>> rsrcs = new HashSet<Class<? extends GridTask<?, ?>>>(); if (file.exists() == false) { return rsrcs; } GridUriDeploymentFileResourceLoader fileRsrcLdr = new GridUriDeploymentFileResourceLoader(clsLdr, file); if (file.isDirectory()) { findResourcesInDirectory(fileRsrcLdr, file, rsrcs); } else { try { for (JarEntry entry : U.asIterable(new JarFile(file.getAbsolutePath()).entries())) { Class<? extends GridTask<?, ?>> rsrc = fileRsrcLdr.createResource(entry.getName(), false); if (rsrc != null) { rsrcs.add(rsrc); } } } catch (IOException e) { throw new GridSpiException( "Failed to discover classes in file: " + file.getAbsolutePath(), e); } } return rsrcs; }
private Certificate[] getCertificates(final File container, final String entry) throws IOException { if (container.isDirectory()) { return null; } final JarFile jarFile = this.jarFiles.get(container); if (jarFile == null) { return null; } final JarEntry ent = jarFile.getJarEntry(entry); return (Certificate[]) ((ent == null) ? null : ent.getCertificates()); }
private void index() throws IOException { Enumeration entries = _jar.entries(); _nameToEntryMap = new HashMap(); _crcToEntryMap = new HashMap(); _entries = new ArrayList(); if (_debug) { System.out.println("indexing: " + _jar.getName()); } if (entries != null) { while (entries.hasMoreElements()) { JarEntry entry = (JarEntry) entries.nextElement(); long crc = entry.getCrc(); Long crcL = new Long(crc); if (_debug) { System.out.println("\t" + entry.getName() + " CRC " + crc); } _nameToEntryMap.put(entry.getName(), entry); _entries.add(entry); // generate the CRC to entries map if (_crcToEntryMap.containsKey(crcL)) { // key exist, add the entry to the correcponding // linked list // get the linked list LinkedList ll = (LinkedList) _crcToEntryMap.get(crcL); // put in the new entry ll.add(entry); // put it back in the hash map _crcToEntryMap.put(crcL, ll); } else { // create a new entry in the hashmap for the new key // first create the linked list and put in the new // entry LinkedList ll = new LinkedList(); ll.add(entry); // create the new entry in the hashmap _crcToEntryMap.put(crcL, ll); } } } }
void expand(File jar, File dir) throws IOException { JarFile jarFile = new JarFile(jar); try { Enumeration<JarEntry> entries = jarFile.entries(); while (entries.hasMoreElements()) { JarEntry je = entries.nextElement(); if (!je.isDirectory()) { copy(jarFile.getInputStream(je), new File(dir, je.getName())); } } } finally { jarFile.close(); } }
private static Set<String> findStandardMBeansFromJar(URL codeBase) throws Exception { InputStream is = codeBase.openStream(); JarInputStream jis = new JarInputStream(is); Set<String> names = new TreeSet<String>(); JarEntry entry; while ((entry = jis.getNextJarEntry()) != null) { String name = entry.getName(); if (!name.endsWith(".class")) continue; name = name.substring(0, name.length() - 6); name = name.replace('/', '.'); names.add(name); } return names; }
/** * Enumerates the resouces in a give package name. This works even if the resources are loaded * from a jar file! * * <p>Adapted from code by mikewse on the java.sun.com message boards. * http://forum.java.sun.com/thread.jsp?forum=22&thread=30984 * * @param packageName The package to enumerate * @return A Set of Strings for each resouce in the package. */ public static Set getResoucesInPackage(String packageName) throws IOException { String localPackageName; if (packageName.endsWith("/")) { localPackageName = packageName; } else { localPackageName = packageName + '/'; } Enumeration dirEnum = ClassLoader.getSystemResources(localPackageName); Set names = new HashSet(); // Loop CLASSPATH directories while (dirEnum.hasMoreElements()) { URL resUrl = (URL) dirEnum.nextElement(); // Pointing to filesystem directory if (resUrl.getProtocol().equals("file")) { File dir = new File(resUrl.getFile()); File[] files = dir.listFiles(); if (files != null) { for (int i = 0; i < files.length; i++) { File file = files[i]; if (file.isDirectory()) continue; names.add(localPackageName + file.getName()); } } // Pointing to Jar file } else if (resUrl.getProtocol().equals("jar")) { JarURLConnection jconn = (JarURLConnection) resUrl.openConnection(); JarFile jfile = jconn.getJarFile(); Enumeration entryEnum = jfile.entries(); while (entryEnum.hasMoreElements()) { JarEntry entry = (JarEntry) entryEnum.nextElement(); String entryName = entry.getName(); // Exclude our own directory if (entryName.equals(localPackageName)) continue; String parentDirName = entryName.substring(0, entryName.lastIndexOf('/') + 1); if (!parentDirName.equals(localPackageName)) continue; names.add(entryName); } } else { // Invalid classpath entry } } return names; }
public static void unzipInteralZip( ClassLoader classLoader, String resourcePath, File libDir, boolean debug) { if (debug) System.out.println("Extracting " + resourcePath); libDir.mkdir(); URL resource = classLoader.getResource(resourcePath); if (resource == null) { System.err.println("Could not find the " + resourcePath + " on classpath!"); System.exit(1); } class PrintDot extends TimerTask { public void run() { System.out.print("."); } } Timer timer = new Timer(); PrintDot task = new PrintDot(); timer.schedule(task, 0, 2000); try { BufferedInputStream bis = new BufferedInputStream(resource.openStream()); JarInputStream jis = new JarInputStream(bis); JarEntry je = null; while ((je = jis.getNextJarEntry()) != null) { java.io.File f = new java.io.File(libDir.toString() + java.io.File.separator + je.getName()); if (je.isDirectory()) { f.mkdir(); continue; } File parentDir = new File(f.getParent()); if (!parentDir.exists()) { parentDir.mkdir(); } FileOutputStream fileOutStream = new FileOutputStream(f); writeStreamTo(jis, fileOutStream, 8 * KB); if (f.getPath().endsWith("pack.gz")) { unpack(f); fileOutStream.close(); f.delete(); } } } catch (Exception exc) { task.cancel(); exc.printStackTrace(); } task.cancel(); }
private static void completePackage(Set seenClasses, JarFile jar, String packageName) { int len = packageName.length(); Enumeration entries = jar.entries(); while (entries.hasMoreElements()) { JarEntry entry = (JarEntry) entries.nextElement(); String name = entry.getName(); if (name.startsWith(packageName) && name.endsWith(".class") && name.lastIndexOf('/') == len) { // Trim ".class" from end name = name.substring(0, name.length() - 6); if (seenClasses.add(name)) { System.out.println(name); } } } }
public boolean contains(JarFile2 f, JarEntry e) throws IOException { JarEntry thisEntry = getEntryByName(e.getName()); // Look up name in 'this' Jar2File - if not exist return false if (thisEntry == null) return false; // Check CRC - if no match - return false if (thisEntry.getCrc() != e.getCrc()) return false; // Check contents - if no match - return false InputStream oldIS = getJarFile().getInputStream(thisEntry); InputStream newIS = f.getJarFile().getInputStream(e); boolean retValue = differs(oldIS, newIS); return !retValue; }
VerifierStream(Manifest man, JarEntry je, InputStream is, JarVerifier jv) throws IOException { this.is = is; this.jv = jv; this.mev = new ManifestEntryVerifier(man); this.jv.beginEntry(je, mev); this.numLeft = je.getSize(); if (this.numLeft == 0) this.jv.update(-1, this.mev); }
public String getBestMatch(JarFile2 file, JarEntry entry) throws IOException { // check for same name and same content, return name if found if (contains(file, entry)) { return (entry.getName()); } // return name of same content file or null return (hasSameContent(file, entry)); }
public String verify(JarFile jar, String... algorithms) throws IOException { if (algorithms == null || algorithms.length == 0) algorithms = new String[] {"MD5", "SHA"}; else if (algorithms.length == 1 && algorithms[0].equals("-")) return null; try { Manifest m = jar.getManifest(); if (m.getEntries().isEmpty()) return "No name sections"; for (Enumeration<JarEntry> e = jar.entries(); e.hasMoreElements(); ) { JarEntry je = e.nextElement(); if (MANIFEST_ENTRY.matcher(je.getName()).matches()) continue; Attributes nameSection = m.getAttributes(je.getName()); if (nameSection == null) return "No name section for " + je.getName(); for (String algorithm : algorithms) { try { MessageDigest md = MessageDigest.getInstance(algorithm); String expected = nameSection.getValue(algorithm + "-Digest"); if (expected != null) { byte digest[] = Base64.decodeBase64(expected); copy(jar.getInputStream(je), md); if (!Arrays.equals(digest, md.digest())) return "Invalid digest for " + je.getName() + ", " + expected + " != " + Base64.encodeBase64(md.digest()); } else reporter.error("could not find digest for " + algorithm + "-Digest"); } catch (NoSuchAlgorithmException nsae) { return "Missing digest algorithm " + algorithm; } } } } catch (Exception e) { return "Failed to verify due to exception: " + e.getMessage(); } return null; }
/** * scans inside a jar for possible language directories * * @param file the jar file * @param paths the list to add to * @param helproot the root directory of all help directories */ private void searchJarPath(File file, List<String> paths) { if (file.getName().toLowerCase().endsWith(".jar") && file.isFile()) { try { JarInputStream jis; JarEntry je; jis = new JarInputStream(new BufferedInputStream(new FileInputStream(file))); je = jis.getNextJarEntry(); while (je != null) { if (je.getName().startsWith(helproot)) { String[] name = je.getName().split("/"); if (name.length > 1) { addToList(paths, name[1]); } } je = jis.getNextJarEntry(); } jis.close(); } catch (IOException ignored) { } } }
public CodeSigner[] getCodeSigners(JarFile jar, JarEntry entry) { String name = entry.getName(); if (eagerValidation && sigFileSigners.get(name) != null) { /* * Force a read of the entry data to generate the * verification hash. */ try { InputStream s = jar.getInputStream(entry); byte[] buffer = new byte[1024]; int n = buffer.length; while (n != -1) { n = s.read(buffer, 0, buffer.length); } s.close(); } catch (IOException e) { } } return getCodeSigners(name); }
/** * Enables to get the name of an object in the spoken language thanks to the jar file * * @param jarName the file that contains the object classes * @return the object name in the spoken language */ private String getLangName(File jarName) { String name = null; try { URL url = jarName.toURI().toURL(); JarInputStream jarFile = new JarInputStream(url.openStream()); JarEntry jarEntry = jarFile.getNextJarEntry(); while (jarEntry != null) { if (!jarEntry.isDirectory() && jarEntry.getName().contains(Configuration.instance().getLanguage())) { int lang_index = jarEntry.getName().lastIndexOf(Configuration.instance().getLanguage()); name = jarEntry.getName().substring(lang_index + 3, jarEntry.getName().length() - 6); } jarEntry = jarFile.getNextJarEntry(); } } catch (Exception e) { LOG.error("Error getLangName " + jarName + " " + e); } return name; }
private static String trimEntryName(JarEntry je) { String[] s = je.getName().toLowerCase().replace(".htm", "").split("/"); return s[s.length - 1]; }
private void unpackSegment(InputStream in, JarOutputStream out) throws IOException { _props.setProperty(java.util.jar.Pack200.Unpacker.PROGRESS, "0"); // Process the output directory or jar output. new PackageReader(pkg, in).read(); if (_props.getBoolean("unpack.strip.debug")) pkg.stripAttributeKind("Debug"); if (_props.getBoolean("unpack.strip.compile")) pkg.stripAttributeKind("Compile"); _props.setProperty(java.util.jar.Pack200.Unpacker.PROGRESS, "50"); pkg.ensureAllClassFiles(); // Now write out the files. HashSet classesToWrite = new HashSet(pkg.getClasses()); for (Iterator i = pkg.getFiles().iterator(); i.hasNext(); ) { Package.File file = (Package.File) i.next(); String name = file.nameString; JarEntry je = new JarEntry(Utils.getJarEntryName(name)); boolean deflate; deflate = (keepDeflateHint) ? (((file.options & Constants.FO_DEFLATE_HINT) != 0) || ((pkg.default_options & Constants.AO_DEFLATE_HINT) != 0)) : deflateHint; boolean needCRC = !deflate; // STORE mode requires CRC if (needCRC) crc.reset(); bufOut.reset(); if (file.isClassStub()) { Package.Class cls = file.getStubClass(); assert (cls != null); new ClassWriter(cls, needCRC ? crcOut : bufOut).write(); classesToWrite.remove(cls); // for an error check } else { // collect data & maybe CRC file.writeTo(needCRC ? crcOut : bufOut); } je.setMethod(deflate ? JarEntry.DEFLATED : JarEntry.STORED); if (needCRC) { if (verbose > 0) Utils.log.info("stored size=" + bufOut.size() + " and crc=" + crc.getValue()); je.setMethod(JarEntry.STORED); je.setSize(bufOut.size()); je.setCrc(crc.getValue()); } if (keepModtime) { je.setTime(file.modtime); // Convert back to milliseconds je.setTime((long) file.modtime * 1000); } else { je.setTime((long) modtime * 1000); } out.putNextEntry(je); bufOut.writeTo(out); out.closeEntry(); if (verbose > 0) Utils.log.info("Writing " + Utils.zeString((ZipEntry) je)); } assert (classesToWrite.isEmpty()); _props.setProperty(java.util.jar.Pack200.Unpacker.PROGRESS, "100"); pkg.reset(); // reset for the next segment, if any }
public java.security.cert.Certificate[] getCertificates() { Certificate[] certs = je.getCertificates(); return certs == null ? null : (Certificate[]) certs.clone(); }
/** called when we reach the end of entry in one of the read() methods. */ private void processEntry(ManifestEntryVerifier mev) throws IOException { if (!parsingBlockOrSF) { JarEntry je = mev.getEntry(); if ((je != null) && (je.signers == null)) { je.signers = mev.verify(verifiedSigners, sigFileSigners); je.certs = mapSignersToCertArray(je.signers); } } else { try { parsingBlockOrSF = false; if (debug != null) { debug.println("processEntry: processing block"); } String uname = mev.getEntry().getName().toUpperCase(Locale.ENGLISH); if (uname.endsWith(".SF")) { String key = uname.substring(0, uname.length() - 3); byte bytes[] = baos.toByteArray(); // add to sigFileData in case future blocks need it sigFileData.put(key, bytes); // check pending blocks, we can now process // anyone waiting for this .SF file Iterator it = pendingBlocks.iterator(); while (it.hasNext()) { SignatureFileVerifier sfv = (SignatureFileVerifier) it.next(); if (sfv.needSignatureFile(key)) { if (debug != null) { debug.println("processEntry: processing pending block"); } sfv.setSignatureFile(bytes); sfv.process(sigFileSigners, manifestDigests); } } return; } // now we are parsing a signature block file String key = uname.substring(0, uname.lastIndexOf(".")); if (signerCache == null) signerCache = new ArrayList(); if (manDig == null) { synchronized (manifestRawBytes) { if (manDig == null) { manDig = new ManifestDigester(manifestRawBytes); manifestRawBytes = null; } } } SignatureFileVerifier sfv = new SignatureFileVerifier(signerCache, manDig, uname, baos.toByteArray()); if (sfv.needSignatureFileBytes()) { // see if we have already parsed an external .SF file byte[] bytes = (byte[]) sigFileData.get(key); if (bytes == null) { // put this block on queue for later processing // since we don't have the .SF bytes yet // (uname, block); if (debug != null) { debug.println("adding pending block"); } pendingBlocks.add(sfv); return; } else { sfv.setSignatureFile(bytes); } } sfv.process(sigFileSigners, manifestDigests); } catch (IOException ioe) { // e.g. sun.security.pkcs.ParsingException if (debug != null) debug.println("processEntry caught: " + ioe); // ignore and treat as unsigned } catch (SignatureException se) { if (debug != null) debug.println("processEntry caught: " + se); // ignore and treat as unsigned } catch (NoSuchAlgorithmException nsae) { if (debug != null) debug.println("processEntry caught: " + nsae); // ignore and treat as unsigned } catch (CertificateException ce) { if (debug != null) debug.println("processEntry caught: " + ce); // ignore and treat as unsigned } } }
/** Creates a patch from the two passed in files, writing the result to <code>os</code>. */ public static void createPatch(String oldPath, String newPath, OutputStream os, boolean minimal) throws IOException { JarFile2 oldJar = new JarFile2(oldPath); JarFile2 newJar = new JarFile2(newPath); try { Iterator entries; HashMap moved = new HashMap(); HashSet visited = new HashSet(); HashSet implicit = new HashSet(); HashSet moveSrc = new HashSet(); HashSet newEntries = new HashSet(); // FIRST PASS // Go through the entries in new jar and // determine which files are candidates for implicit moves // ( files that has the same filename and same content in old.jar // and new.jar ) // and for files that cannot be implicitly moved, we will either // find out whether it is moved or new (modified) entries = newJar.getJarEntries(); if (entries != null) { while (entries.hasNext()) { JarEntry newEntry = (JarEntry) entries.next(); String newname = newEntry.getName(); // Return best match of contents, will return a name match if possible String oldname = oldJar.getBestMatch(newJar, newEntry); if (oldname == null) { // New or modified entry if (_debug) { System.out.println("NEW: " + newname); } newEntries.add(newname); } else { // Content already exist - need to do a move // Should do implicit move? Yes, if names are the same, and // no move command already exist from oldJar if (oldname.equals(newname) && !moveSrc.contains(oldname)) { if (_debug) { System.out.println(newname + " added to implicit set!"); } implicit.add(newname); } else { // The 1.0.1/1.0 JarDiffPatcher cannot handle // multiple MOVE command with same src. // The work around here is if we are going to generate // a MOVE command with duplicate src, we will // instead add the target as a new file. This way // the jardiff can be applied by 1.0.1/1.0 // JarDiffPatcher also. if (!minimal && (implicit.contains(oldname) || moveSrc.contains(oldname))) { // generate non-minimal jardiff // for backward compatibility if (_debug) { System.out.println("NEW: " + newname); } newEntries.add(newname); } else { // Use newname as key, since they are unique if (_debug) { System.err.println("moved.put " + newname + " " + oldname); } moved.put(newname, oldname); moveSrc.add(oldname); } // Check if this disables an implicit 'move <oldname> <oldname>' if (implicit.contains(oldname) && minimal) { if (_debug) { System.err.println("implicit.remove " + oldname); System.err.println("moved.put " + oldname + " " + oldname); } implicit.remove(oldname); moved.put(oldname, oldname); moveSrc.add(oldname); } } } } } // if (entries != null) // SECOND PASS: <deleted files> = <oldjarnames> - <implicitmoves> - // <source of move commands> - <new or modified entries> ArrayList deleted = new ArrayList(); entries = oldJar.getJarEntries(); if (entries != null) { while (entries.hasNext()) { JarEntry oldEntry = (JarEntry) entries.next(); String oldName = oldEntry.getName(); if (!implicit.contains(oldName) && !moveSrc.contains(oldName) && !newEntries.contains(oldName)) { if (_debug) { System.err.println("deleted.add " + oldName); } deleted.add(oldName); } } } // DEBUG if (_debug) { // DEBUG: print out moved map entries = moved.keySet().iterator(); if (entries != null) { System.out.println("MOVED MAP!!!"); while (entries.hasNext()) { String newName = (String) entries.next(); String oldName = (String) moved.get(newName); System.out.println("key is " + newName + " value is " + oldName); } } // DEBUG: print out IMOVE map entries = implicit.iterator(); if (entries != null) { System.out.println("IMOVE MAP!!!"); while (entries.hasNext()) { String newName = (String) entries.next(); System.out.println("key is " + newName); } } } JarOutputStream jos = new JarOutputStream(os); // Write out all the MOVEs and REMOVEs createIndex(jos, deleted, moved); // Put in New and Modified entries entries = newEntries.iterator(); if (entries != null) { while (entries.hasNext()) { String newName = (String) entries.next(); if (_debug) { System.out.println("New File: " + newName); } writeEntry(jos, newJar.getEntryByName(newName), newJar); } } jos.finish(); jos.close(); } catch (IOException ioE) { throw ioE; } finally { try { oldJar.getJarFile().close(); } catch (IOException e1) { // ignore } try { newJar.getJarFile().close(); } catch (IOException e1) { // ignore } } // finally }
/** * This method scans to see which entry we're parsing and keeps various state information * depending on what type of file is being parsed. */ public void beginEntry(JarEntry je, ManifestEntryVerifier mev) throws IOException { if (je == null) return; if (debug != null) { debug.println("beginEntry " + je.getName()); } String name = je.getName(); /* * Assumptions: * 1. The manifest should be the first entry in the META-INF directory. * 2. The .SF/.DSA/.EC files follow the manifest, before any normal entries * 3. Any of the following will throw a SecurityException: * a. digest mismatch between a manifest section and * the SF section. * b. digest mismatch between the actual jar entry and the manifest */ if (parsingMeta) { String uname = name.toUpperCase(Locale.ENGLISH); if ((uname.startsWith("META-INF/") || uname.startsWith("/META-INF/"))) { if (je.isDirectory()) { mev.setEntry(null, je); return; } if (uname.equals(JarFile.MANIFEST_NAME) || uname.equals(JarIndex.INDEX_NAME)) { return; } if (SignatureFileVerifier.isBlockOrSF(uname)) { /* We parse only DSA, RSA or EC PKCS7 blocks. */ parsingBlockOrSF = true; baos.reset(); mev.setEntry(null, je); return; } // If a META-INF entry is not MF or block or SF, they should // be normal entries. According to 2 above, no more block or // SF will appear. Let's doneWithMeta. } } if (parsingMeta) { doneWithMeta(); } if (je.isDirectory()) { mev.setEntry(null, je); return; } // be liberal in what you accept. If the name starts with ./, remove // it as we internally canonicalize it with out the ./. if (name.startsWith("./")) name = name.substring(2); // be liberal in what you accept. If the name starts with /, remove // it as we internally canonicalize it with out the /. if (name.startsWith("/")) name = name.substring(1); // only set the jev object for entries that have a signature // (either verified or not) if (sigFileSigners.get(name) != null || verifiedSigners.get(name) != null) { mev.setEntry(name, je); return; } // don't compute the digest for this entry mev.setEntry(null, je); return; }