# The contents of this file are subject to the Mozilla Public 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.mozilla.org/MPL/ # # Software distributed under the License is distributed on an "AS IS" basis, # WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for # the specific language governing rights and limitations under the License. # # The Original Code is the Python XPCOM language bindings. # # The Initial Developer of the Original Code is ActiveState Tool Corp. # Portions created by ActiveState Tool Corp. are Copyright (C) 2000, 2001 # ActiveState Tool Corp. All Rights Reserved. # # Contributor(s): Mark Hammond (original author) # """Implementation of Python file objects for Mozilla/xpcom. Introduction: This module defines various class that are implemented using Mozilla streams. This allows you to open Mozilla URI's, and treat them as Python file object. Example: >>> file = URIFile("chrome://whatever") >>> data = file.read(5) # Pass no arg to read everything. Known Limitations: * Not all URL schemes will work from "python.exe" - most notably "chrome://" and "http://" URLs - this is because a simple initialization of xpcom by Python does not load up the full set of Mozilla URL handlers. If you can work out how to correctly initialize the chrome registry and setup a message queue. Known Bugs: * Only read ("r") mode is supported. Although write ("w") mode doesnt make sense for HTTP type URLs, it potentially does for file:// etc type ones. * No concept of text mode vs binary mode. It appears Mozilla takes care of this internally (ie, all "text/???" mime types are text, rest are binary) """ from xpcom import components, Exception, _xpcom import os import threading # for locks. NS_RDONLY = components.interfaces.nsIFileChannel.NS_RDONLY NS_WRONLY = components.interfaces.nsIFileChannel.NS_WRONLY NS_RDWR = components.interfaces.nsIFileChannel.NS_RDWR NS_CREATE_FILE = components.interfaces.nsIFileChannel.NS_CREATE_FILE NS_APPEND = components.interfaces.nsIFileChannel.NS_APPEND NS_TRUNCATE = components.interfaces.nsIFileChannel.NS_TRUNCATE NS_SYNC = components.interfaces.nsIFileChannel.NS_SYNC NS_EXCL = components.interfaces.nsIFileChannel.NS_EXCL # A helper function that may come in useful def LocalFileToURL(localFileName): "Convert a filename to an XPCOM nsIFileURL object." # Create an nsILocalFile localFile = components.classes["@mozilla.org/file/local;1"] \ .createInstance(components.interfaces.nsILocalFile) localFile.initWithPath(localFileName) # Create a standard URL, but we QI for the FileURL interface! url = components.classes["@mozilla.org/network/standard-url;1"] \ .createInstance(components.interfaces.nsIFileURL) # Setting the "file" attribute causes initialization... url.file = localFile return url # A base class for file objects. class _File: def __init__(self, name_thingy = None, mode="r"): self.lockob = threading.Lock() self.inputStream = self.outputStream = None if name_thingy is not None: self.init(name_thingy, mode) def __del__(self): self.close() # The Moz file streams are not thread safe. def _lock(self): self.lockob.acquire() def _release(self): self.lockob.release() def read(self, n = -1): assert self.inputStream is not None, "Not setup for read!" self._lock() try: return str(self.inputStream.read(n)) finally: self._release() def readlines(self): # Not part of the xpcom interface, but handy for direct Python users. # Not 100% faithful, but near enough for now! lines = self.read().split("\n") if len(lines) and len(lines[-1]) == 0: lines = lines[:-1] return [s+"\n" for s in lines ] def write(self, data): assert self.outputStream is not None, "Not setup for write!" self._lock() try: self.outputStream.write(data, len(data)) finally: self._release() def close(self): self._lock() try: if self.inputStream is not None: self.inputStream.close() self.inputStream = None if self.outputStream is not None: self.outputStream.close() self.outputStream = None self.channel = None finally: self._release() def flush(self): self._lock() try: if self.outputStream is not None: self.outputStream.flush() finally: self._release() # A synchronous "file object" used to open a URI. class URIFile(_File): def init(self, url, mode="r"): self.close() if mode != "r": raise ValueError, "only 'r' mode supported'" io_service = components.classes["@mozilla.org/network/io-service;1"] \ .getService(components.interfaces.nsIIOService) if hasattr(url, "queryInterface"): url_ob = url else: url_ob = components.classes["@mozilla.org/network/standard-url;1"] \ .createInstance(components.interfaces.nsIURL) url_ob.spec = url # Mozilla asserts and starts saying "NULL POINTER" if this is wrong! if not url_ob.scheme: raise ValueError, ("The URI '%s' is invalid (no scheme)" % (url_ob.spec,)) self.channel = io_service.newChannelFromURI(url_ob) self.inputStream = self.channel.open() # A "file object" implemented using Netscape's native file support. # Based on io.js - http://lxr.mozilla.org/seamonkey/source/xpcom/tests/utils/io.js # You open this file using a local file name (as a string) so it really is pointless - # you may as well be using a standard Python file object! class LocalFile(_File): def __init__(self, *args): self.fileIO = None _File.__init__(self, *args) def init(self, name, mode = "r"): name = os.path.abspath(name) # Moz libraries under Linux fail with relative paths. self.close() file = components.classes['@mozilla.org/file/local;1'].createInstance("nsILocalFile") file.initWithPath(name) self.fileIO = components.classes['@mozilla.org/network/file-io;1'].createInstance("nsIFileIO") if mode in ["w","a"]: if mode== "w": if file.exists(): file.remove(0) moz_mode = NS_CREATE_FILE | NS_WRONLY elif mode=="a": moz_mode = NS_APPEND else: assert 0, "Can't happen!" self.fileIO.init(file, moz_mode, -1) self.outputStream = self.fileIO.outputStream elif mode == "r": self.fileIO.init(file, NS_RDONLY, -1) self.inputStream = self.fileIO.inputStream else: raise ValueError, "Unknown mode" def close(self): if self.fileIO is not None: self.fileIO.close(0) self.fileIO = None _File.close(self) def read(self, n = -1): if n == -1: n = self.fileIO.contentLength return _File.read(self, n) ########################################################## ## ## Test Code ## ########################################################## def _DoTestRead(file, expected): # read in a couple of chunks, just to test that our various arg combinations work. got = file.read(3) got = got + file.read(300) got = got + file.read(0) got = got + file.read() if got != expected: raise RuntimeError, "Reading '%s' failed - got %d bytes, but expected %d bytes" % (file, len(got), len(expected)) def _DoTestBufferRead(file, expected): # read in a couple of chunks, just to test that our various arg combinations work. buffer = _xpcom.AllocateBuffer(50) got = '' while 1: # Note - we need to reach into the file object so we # can get at the native buffer supported function. num = file.inputStream.read(buffer) if num == 0: break got = got + str(buffer[:num]) if got != expected: raise RuntimeError, "Reading '%s' failed - got %d bytes, but expected %d bytes" % (file, len(got), len(expected)) def _TestLocalFile(): import tempfile, os fname = tempfile.mktemp() data = "Hello from Python" test_file = LocalFile(fname, "w") try: test_file.write(data) test_file.close() # Make sure Python can read it OK. f = open(fname, "r") if f.read() != data: print "Eeek - Python could not read the data back correctly!" f.close() # For the sake of the test, try a re-init. test_file.init(fname, "r") got = str(test_file.read()) if got != data: print "Read the wrong data back - %r" % (got,) else: print "Read the correct data." test_file.close() # Try reading in chunks. test_file = LocalFile(fname, "r") got = test_file.read(10) + test_file.read() if got != data: print "Chunks the wrong data back - %r" % (got,) else: print "Chunks read the correct data." test_file.close() # Open the same file again for writing - this should delete the old one. if not os.path.isfile(fname): raise RuntimeError, "The file '%s' does not exist, but we are explicitly testing create semantics when it does" % (fname,) test_file = LocalFile(fname, "w") test_file.write(data) test_file.close() # Make sure Python can read it OK. f = open(fname, "r") if f.read() != data: print "Eeek - Python could not read the data back correctly after recreating an existing file!" f.close() # XXX - todo - test "a" mode! finally: try: os.unlink(fname) except OSError, details: print "Error removing temp test file:", details def _TestAll(): # A mini test suite. # Get a test file, and convert it to a file:// URI. # check what we read is the same as when # we read this file "normally" fname = components.__file__ if fname[-1] in "cCoO": # fix .pyc/.pyo fname = fname[:-1] expected = open(fname, "rb").read() # convert the fname to a URI. url = LocalFileToURL(fname) # First try passing a URL as a string. _DoTestRead( URIFile( url.spec), expected) print "Open as string test worked." # Now with a URL object. _DoTestRead( URIFile( url ), expected) print "Open as URL test worked." _DoTestBufferRead( URIFile( url ), expected) print "File test using buffers worked." # For the sake of testing, do our pointless, demo object! _DoTestRead( LocalFile(fname), expected ) print "Local file read test worked." # Now do the full test of our pointless, demo object! _TestLocalFile() def _TestURI(url): test_file = URIFile(url) print "Opened file is", test_file got = test_file.read() print "Read %d bytes of data from %r" % (len(got), url) test_file.close() if __name__=='__main__': import sys if len(sys.argv) < 2: print "No URL specified on command line - performing self-test" _TestAll() else: _TestURI(sys.argv[1])