def getJarOutputStream(self): if not self._jarOutputStream: if self._manifest: self._jarOutputStream = JarOutputStream(FileOutputStream(self._jarFile), self._manifest) else: self._jarOutputStream = JarOutputStream(FileOutputStream(self._jarFile)) return self._jarOutputStream
def produce_jar(outdir, jarname): """ Produce a jar from a directory This function does not use the 'jar' utility, so it does work on the JRE. """ fout = FileOutputStream(jarname) jarOut = JarOutputStream(fout) add_to_jar(jarOut, outdir) jarOut.close() fout.close() return jarname
def setup(self): manifest = Manifest() manifest.getMainAttributes()[Attributes.Name.MANIFEST_VERSION] = "1.0" if self.runpy and os.path.exists(self.runpy): manifest.getMainAttributes()[Attributes.Name.MAIN_CLASS] = "org.python.util.JarRunner" else: log.debug("No __run__.py defined, so defaulting to Jython command line") manifest.getMainAttributes()[Attributes.Name.MAIN_CLASS] = "org.python.util.jython" self.output = open(self.output_path, "wb") self.jar = JarOutputStream(self.output, manifest) self.created_paths = set() self.build_time = int(time.time() * 1000)
class OutputJar(object): # Derived, with heavy modifications, from # http://stackoverflow.com/questions/1281229/how-to-use-jaroutputstream-to-create-a-jar-file def __init__(self, jar=None, output_path="output.jar"): self.output_path = output_path if jar is not None: self.jar = jar self.output = None return self.runpy = None self.setup() def __enter__(self): return self def __exit__(self, type, value, tb): self.close() def setup(self): manifest = Manifest() manifest.getMainAttributes()[Attributes.Name.MANIFEST_VERSION] = "1.0" if self.runpy and os.path.exists(self.runpy): manifest.getMainAttributes()[ Attributes.Name.MAIN_CLASS] = "org.python.util.JarRunner" else: log.debug( "No __run__.py defined, so defaulting to Jython command line") manifest.getMainAttributes()[ Attributes.Name.MAIN_CLASS] = "org.python.util.jython" self.output = open(self.output_path, "wb") self.jar = JarOutputStream(self.output, manifest) self.created_paths = set() self.build_time = int(time.time() * 1000) def close(self): self.jar.close() if self.output: self.output.close() def create_ancestry(self, path_parts): for i in xrange(len(path_parts), 0, -1): # right to left ancestor = "/".join(path_parts[:-i]) + "/" if ancestor == "/": continue # FIXME shouldn't need to do this special casing if ancestor not in self.created_paths: entry = JarEntry(ancestor) entry.time = self.build_time try: self.jar.putNextEntry(entry) self.jar.closeEntry() except ZipException, e: if not "duplicate entry" in str(e): log.error("Problem in creating entry %r", entry, exc_info=True) raise self.created_paths.add(ancestor)
class OutputJar(object): # Derived, with heavy modifications, from # http://stackoverflow.com/questions/1281229/how-to-use-jaroutputstream-to-create-a-jar-file def __init__(self, jar=None, output_path="output.jar"): self.output_path = output_path if jar is not None: self.jar = jar self.output = None return self.runpy = None self.setup() def __enter__ (self): return self def __exit__ (self, type, value, tb): self.close() def setup(self): manifest = Manifest() manifest.getMainAttributes()[Attributes.Name.MANIFEST_VERSION] = "1.0" if self.runpy and os.path.exists(self.runpy): manifest.getMainAttributes()[Attributes.Name.MAIN_CLASS] = "org.python.util.JarRunner" else: log.debug("No __run__.py defined, so defaulting to Jython command line") manifest.getMainAttributes()[Attributes.Name.MAIN_CLASS] = "org.python.util.jython" self.output = open(self.output_path, "wb") self.jar = JarOutputStream(self.output, manifest) self.created_paths = set() self.build_time = int(time.time() * 1000) def close(self): self.jar.close() if self.output: self.output.close() def create_ancestry(self, path_parts): for i in xrange(len(path_parts), 0, -1): # right to left ancestor = "/".join(path_parts[:-i]) + "/" if ancestor == "/": continue # FIXME shouldn't need to do this special casing if ancestor not in self.created_paths: entry = JarEntry(ancestor) entry.time = self.build_time try: self.jar.putNextEntry(entry) self.jar.closeEntry() except ZipException, e: if not "duplicate entry" in str(e): log.error("Problem in creating entry %r", entry, exc_info=True) raise self.created_paths.add(ancestor)
# This was needed to intentionally trigger a version error. import jpype import jpype.imports jpype.startJVM() from java.util.jar import JarOutputStream from java.util.jar import JarInputStream from java.util.jar import JarFile from java.util.zip import CRC32 from java.io import File from java.io import FileInputStream from java.io import FileOutputStream jar = JarInputStream(FileInputStream(File("build/lib/org.jpype.jar"))) manifest = jar.getManifest() target = JarOutputStream(FileOutputStream(File("build/lib/org.jpype2.jar")), manifest) while 1: entry = jar.getNextEntry() if not entry: break out = [] l3 = 512 while 1: bt = jpype.JArray(jpype.JByte)(l3) l = jar.read(bt, 0, l3) if l == -1: break out.append((l, bt)) if out:
def buildLarchJar(outputStream, additionalFilesAsNameBytesPairs, filterFn=None, larchJarURL=None): """ Build a JAR from an existing Larch JAR, along with additional files to make a packaged program :param outputStream: The output stream to which the JAR is to be written :param additionalFilesAsNameBytesPairs: Additional files in the form of a sequence of tuples consisting of (path, bytes) :param filterFn: (optional) A filter function that can be used to exclude files from the existing Larch JAR; takes the form of function(name) -> boolean, should return True if file should be included :param larchJarURL: (optional) A URL at which the existing Larch JAR can be obtained. If None, it will use the JAR from which Larch was started. Raises an error if no URL provided and Larch was not started from a JAR """ if larchJarURL is None: larchJarURL = _larchJarURL if larchJarURL is None: raise RuntimeError, 'Larch was not loaded from a JAR file and no Larch JAR file was provided' jarIn = JarInputStream(larchJarURL.openStream()) manifestIn = jarIn.getManifest() manifestOut = Manifest(manifestIn) jarOut = JarOutputStream(outputStream, manifestOut) bytesBuffer = jarray.zeros(_BYTES_BUFFER_SIZE, 'b') entryIn = jarIn.getNextJarEntry() while entryIn is not None: name = entryIn.getName() if filterFn is None or filterFn(name): bufferStream = ByteArrayOutputStream() while True: bytesRead = jarIn.read(bytesBuffer, 0, _BYTES_BUFFER_SIZE) if bytesRead == -1: break bufferStream.write(bytesBuffer, 0, bytesRead) entryOut = ZipEntry(name) entryOut.setSize(bufferStream.size()) jarOut.putNextEntry(entryOut) bufferStream.writeTo(jarOut) jarOut.closeEntry() entryIn = jarIn.getNextJarEntry() for name, bytes in additionalFilesAsNameBytesPairs: size = len(bytes) entryOut = ZipEntry(name) entryOut.setSize(size) jarOut.putNextEntry(entryOut) jarOut.write(bytes, 0, size) jarOut.closeEntry() jarOut.finish()