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I just started using Twisted. I want to connect to an FTP server and perform some basic operations (use threading if possible). I am using this example.

Which does the job quite well. The question is how to add a SOCKS4/5 proxy usage to the code? Can somebody please provide a working example? I have tried this link too.


    # Copyright (c) Twisted Matrix Laboratories.
    # See LICENSE for details.

    An example of using the FTP client

    # Twisted imports
    from twisted.protocols.ftp import FTPClient, FTPFileListProtocol
    from twisted.internet.protocol import Protocol, ClientCreator
    from twisted.python import usage
    from twisted.internet import reactor, endpoints

    # Socks support test
    from socksclient import SOCKSv4ClientProtocol, SOCKSWrapper
    from twisted.web import client

    # Standard library imports
    import string
    import sys
        from cStringIO import StringIO
    except ImportError:
        from StringIO import StringIO

    class BufferingProtocol(Protocol):
        """Simple utility class that holds all data written to it in a buffer."""
        def __init__(self):
            self.buffer = StringIO()

        def dataReceived(self, data):

    # Define some callbacks

    def success(response):
        print 'Success!  Got response:'
        print '---'
        if response is None:
            print None
            print string.join(response, '\n')
        print '---'

    def fail(error):
        print 'Failed.  Error was:'
        print error

    def showFiles(result, fileListProtocol):
        print 'Processed file listing:'
        for file in fileListProtocol.files:
            print '    %s: %d bytes, %s' \
                  % (file['filename'], file['size'], file['date'])
        print 'Total: %d files' % (len(fileListProtocol.files))

    def showBuffer(result, bufferProtocol):
        print 'Got data:'
        print bufferProtocol.buffer.getvalue()

    class Options(usage.Options):
        optParameters = [['host', 'h', 'example.com'],
                         ['port', 'p', 21],
                         ['username', 'u', 'webmaster'],
                         ['password', None, 'justapass'],
                         ['passive', None, 0],
                         ['debug', 'd', 1],

    # Socks support                    
    def wrappercb(proxy):
        print "connected to proxy", proxy

    def run():
        def sockswrapper(proxy, url):
            dest = client._parse(url) # scheme, host, port, path
            endpoint = endpoints.TCP4ClientEndpoint(reactor, dest[1], dest[2])
            return SOCKSWrapper(reactor, proxy[1], proxy[2], endpoint)

        # Get config
        config = Options()
        config.opts['port'] = int(config.opts['port'])
        config.opts['passive'] = int(config.opts['passive'])
        config.opts['debug'] = int(config.opts['debug'])

        # Create the client
        FTPClient.debug = config.opts['debug']
        creator = ClientCreator(reactor, FTPClient, config.opts['username'],
                                config.opts['password'], passive=config.opts['passive'])
        #creator.connectTCP(config.opts['host'], config.opts['port']).addCallback(connectionMade).addErrback(connectionFailed)

        # Socks support
        proxy = (None, '', 1111, True, None, None)
        sw = sockswrapper(proxy, "ftp://example.com")
        d = sw.connect(creator)


    def connectionFailed(f):
        print "Connection Failed:", f

    def connectionMade(ftpClient):
        # Get the current working directory
        ftpClient.pwd().addCallbacks(success, fail)

        # Get a detailed listing of the current directory
        fileList = FTPFileListProtocol()
        d = ftpClient.list('.', fileList)
        d.addCallbacks(showFiles, fail, callbackArgs=(fileList,))

        # Change to the parent directory
        ftpClient.cdup().addCallbacks(success, fail)

        # Create a buffer
        proto = BufferingProtocol()

        # Get short listing of current directory, and quit when done
        d = ftpClient.nlst('.', proto)
        d.addCallbacks(showBuffer, fail, callbackArgs=(proto,))
        d.addCallback(lambda result: reactor.stop())

    # this only runs if the module was *not* imported
    if __name__ == '__main__':

I know the code is wrong. I need Solution.

share|improve this question
FTP is a complicated (read: bad) protocol, and some points of clarification are sort of required before proceeding. First: do you need to support active transfers or will PASV transfers be sufficient? Second: does it have to use twisted? Python ships with an ftplib which can be extended to support socks. Third: is your socks proxy behind a VIP or just a single host directly connected to the Internet? –  fmoo Dec 28 '12 at 4:09
1. Any type of transfers will do. –  Drug Dec 28 '12 at 17:29
2. It needs multithreading with different SOCKS. Any thoughts on how to use ftplib with different socks for a connection are welcome. –  Drug Dec 28 '12 at 17:31
3. Just a regular proxy. –  Drug Dec 28 '12 at 17:32

1 Answer 1

Okay, so here's a solution (gist) that uses python's built-in ftplib, as well as the open source SocksiPy module.

It doesn't use twisted, and it doesn't explicitly use threads, but using and communicting between threads is pretty easily done with threading.Thread and threading.Queue in python's standard threading module

Basically, we need to subclass ftplib.FTP to support substituting our own create_connection method and add proxy configuration semantics.

The "main" logic just configures an FTP client that connects via a localhost socks proxy, such as one created by ssh -D localhost:1080 socksproxy.example.com, and downloads a source snapshot for GNU autoconf to the local disk.

import ftplib
import socket
import socks  # socksipy (https://github.com/mikedougherty/SocksiPy)

class FTP(ftplib.FTP):
    def __init__(self, host='', user='', passwd='', acct='',
        """Like ftplib.FTP constructor, but with an added `proxyconfig` kwarg

        `proxyconfig` should be a dictionary that may contain the following

        proxytype - The type of the proxy to be used. Three types
                are supported: PROXY_TYPE_SOCKS4 (including socks4a),
        addr -      The address of the server (IP or DNS).
        port -      The port of the server. Defaults to 1080 for SOCKS
                servers and 8080 for HTTP proxy servers.
        rdns -      Should DNS queries be preformed on the remote side
                (rather than the local side). The default is True.
                Note: This has no effect with SOCKS4 servers.
        username -  Username to authenticate with to the server.
                The default is no authentication.
        password -  Password to authenticate with to the server.
                Only relevant when username is also provided.
        self.proxyconfig = proxyconfig or {}
        ftplib.FTP.__init__(self, host, user, passwd, acct, timeout)

    def connect(self, host='', port=0, timeout=-999):
        '''Connect to host.  Arguments are:
         - host: hostname to connect to (string, default previous host)
         - port: port to connect to (integer, default previous port)
        if host != '':
            self.host = host
        if port > 0:
            self.port = port
        if timeout != -999:
            self.timeout = timeout
        self.sock = self.create_connection(self.host, self.port)
        self.af = self.sock.family
        self.file = self.sock.makefile('rb')
        self.welcome = self.getresp()
        return self.welcome

    def create_connection(self, host=None, port=None):
        host, port = host or self.host, port or self.port
        if self.proxyconfig:

            phost, pport = self.proxyconfig['addr'], self.proxyconfig['port']
            err = None
            for res in socket.getaddrinfo(phost, pport, 0, socket.SOCK_STREAM):
                af, socktype, proto, canonname, sa = res
                sock = None
                    sock = socks.socksocket(af, socktype, proto)

                    if self.timeout is not socket._GLOBAL_DEFAULT_TIMEOUT:
                    sock.connect((host, port))
                    return sock

                except socket.error as _:
                    err = _
                    if sock is not None:

            if err is not None:
                raise err
                raise socket.error("getaddrinfo returns an empty list")
            sock = socket.create_connection((host, port), self.timeout)
        return sock

    def ntransfercmd(self, cmd, rest=None):
        size = None
        if self.passiveserver:
            host, port = self.makepasv()
            conn = self.create_connection(host, port)
                if rest is not None:
                    self.sendcmd("REST %s" % rest)
                resp = self.sendcmd(cmd)
                # Some servers apparently send a 200 reply to
                # a LIST or STOR command, before the 150 reply
                # (and way before the 226 reply). This seems to
                # be in violation of the protocol (which only allows
                # 1xx or error messages for LIST), so we just discard
                # this response.
                if resp[0] == '2':
                    resp = self.getresp()
                if resp[0] != '1':
                    raise ftplib.error_reply, resp
            raise Exception("Active transfers not supported")
        if resp[:3] == '150':
            # this is conditional in case we received a 125
            size = ftplib.parse150(resp)
        return conn, size

if __name__ == '__main__':
    ftp = FTP(host='ftp.gnu.org', user='anonymous', passwd='guest',
              proxyconfig=dict(proxytype=socks.PROXY_TYPE_SOCKS5, rdns=False,
                               addr='localhost', port=1080))
    with open('autoconf-2.69.tar.xz', mode='w') as f:
        ftp.retrbinary("RETR /gnu/autoconf/autoconf-2.69.tar.xz", f.write)                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         

To elaborate why I asked some of my original questions:

1) Do you need to support active transfers or will PASV transfers be sufficient?

Active transfers are much harder to do via a socks proxy because they require the use of the PORT command. With the PORT command, your ftp client tells the FTP server to connect to you on a specific port (e.g., on your PC) in order to send the data. This is likely to not work for users behind a firewall or NAT/router. If your SOCKS proxy server is not behind a firewall, or has a public IP, it is possible to support active transfers, but it is complicated: It requires your SOCKS server (ssh -D does support this) and client library (socksipy does not) to support remote port binding. It also requires the appropriate hooks in the application (my example throws an exception if passiveserver = False) to do a remote BIND instead of a local one.

2) Does it have to use twisted?

Twisted is great, but I'm not the best at it, and I haven't found a really great SOCKS client implementation. Ideally there would be a library out there that allowed you to define and/or chain proxies together, returning an object that implements the IReactorTCP interface, but I have not yet found anything like this just yet.

3) Is your socks proxy behind a VIP or just a single host directly connected to the Internet?

This matters because of the way PASV transfer security works. In a PASV transfer, the client asks the server to provide a port to connect in order to start a data transfer. When the server accepts a connection on that port, it SHOULD verify the client is connected from the same source IP as the connection that requested the transfer. If your SOCKS server is behind a VIP, it is less likely that the outbound IP of the connection made for the PASV transfers will match the outbound IP of the primary communication connection.

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