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I'm fairly new with both Python and Twisted so I may just not be understanding things properly but I seem to be stuck at a point where I need help.

What I want to do is use ReconnectingClientFactory on an SSL connection. I have it all running, but if the connection is dropped all data sent to the transport's write() method is simply dropped without any error. The actual method called is twisted.protocols.tls.TLSMemoryBIOProtocol.write().

Here's what I think is happening (starting from a working connection):

  • connection is lost
  • call to write() method (source code here) with some data
  • self.disconnecting is False so data passes to _write() method
  • _write method gets to _lostTLSConnection which is True and then just runs return
  • connection is regained but no data sent because it's not buffered any where

Here's the a reduced version of the client:

from OpenSSL import SSL
from twisted.internet.protocol import (Protocol, ReconnectingClientFactory)
from twisted.internet import (reactor, ssl)
import struct

class MetricsServer(Protocol):
    streambuffer = bytearray()

    def connectionMade(self):
        self.transport.setTcpKeepAlive(True) # maintain the TCP connection
        self.transport.setTcpNoDelay(False) # allow Nagle algorithm
        print("connected to server")            

    def dataReceived(self, data):
        print("from server:", data)

    def connectionLost(self, reason):
        self.connected = 0
        print("server connection lost:", reason)

class MetricsServerFactory(ReconnectingClientFactory):
    protocol = MetricsServer
    maxDelay = 300 # maximum seconds between retries
    factor = 1.6180339887498948
    packet_sequence_number = 0
    active_connection = None

    def buildProtocol(self, addr):
        self.resetDelay()
        if self.active_connection == None:
            self.active_connection = self.protocol()
        return self.active_connection

    def get_packet_sequence_number(self):
        self.packet_sequence_number += 1
        return self.packet_sequence_number

    def send_data(self):
        print ("sending ssl packet")
        packet = struct.pack("!I", self.get_packet_sequence_number())
        self.active_connection.transport.write(packet)
        reactor.callLater(1.0, metrics_server.send_data)

class CtxFactory(ssl.ClientContextFactory):
    def getContext(self):
        self.method = SSL.TLSv1_METHOD
        ctx = ssl.ClientContextFactory.getContext(self)
        ctx.use_certificate_file('keys/client.crt')
        ctx.use_privatekey_file('keys/client.key')

        def verifyCallback(connection, x509, errnum, errdepth, ok):
            return bool(ok)
        ctx.set_verify(SSL.VERIFY_PEER, verifyCallback)
        ctx.load_verify_locations("keys/ca.pem")
        return ctx

if __name__ == "__main__":
    metrics_server = MetricsServerFactory()
    reactor.connectSSL('localhost', 8000, metrics_server, CtxFactory())
    reactor.callLater(3.0, metrics_server.send_data)
    reactor.run()

And here's a simple server that outputs the data it receives:

from OpenSSL import SSL
from twisted.internet import ssl, reactor
from twisted.internet.protocol import Factory, Protocol

class Echo(Protocol):
    sent_back_data = False

    def dataReceived(self, data):
        print(' '.join("{0:02x}".format(x) for x in data))

def verifyCallback(connection, x509, errnum, errdepth, ok):
    return bool(ok)

if __name__ == '__main__':
    factory = Factory()
    factory.protocol = Echo

    myContextFactory = ssl.DefaultOpenSSLContextFactory(
        'keys/server.key', 'keys/server.crt'
        )
    ctx = myContextFactory.getContext()
    ctx.set_verify(
        SSL.VERIFY_PEER | SSL.VERIFY_FAIL_IF_NO_PEER_CERT,
        verifyCallback
        )

    ctx.load_verify_locations("keys/ca.pem")
    reactor.listenSSL(8000, factory, myContextFactory)
    reactor.run()

Process to recreate issue:

  • first you need to generate your own certs and CA for this to work
  • run the server first
  • run the client code
  • wait for some output on the server end and then end the program
  • notice the client continues to try and send data
  • restart the server end
  • notice the server end will continue receiving packets, but packets sent when the connection was lost are simply dropped

As a work-around I tried implementing my own buffer to send the data on re-connection, but ran into another issue. I want it to send the data when the connection is re-established and the only hook I can see is Protocol.connectionMade(). However, that method is called before the TLS handshaking is actually done so it ends up being caught by an exception handler in _write() and placed into another buffer to be sent later. But, that buffer only seems to be sent if data is received from the other end (which doesn't occur very often in my case, and would also mean that the data could arrive at the other end in the wrong order because a write() may be called before data is received). I also think another disconnection before data is received will also cause that buffer of data to just be wiped.

EDIT: added sample code for the first issue. It's probably odd that I have that active_connection in the Factory, but I am trying to make it work as a singleton.

share|improve this question
    
The thing that you're referencing appears to be the TLS handshake, where data (in the TLS layer, not the application) does need to be received before the write can complete. Can you please attach a sscce.org that demonstrates your problem in enough detail for someone to investigate? –  Glyph Jan 2 '13 at 21:51
    
Well, I see the first issue is a flaw in Twisted as data is just dropped. There's a buffering mechanism on line 516 self._appSendBuffer being used that I think should be used on line 508 instead of just nothing being done (twistedmatrix.com/trac/browser/tags/releases/twisted-12.3.0/…). The second is a workaround for the first issue and also shows another problem in the code in that any data sent from inside connectionMade() seems to be pushed into a cache that is only cleared when the remote end sends data (not when more data is sent from the client) –  Tim Tisdall Jan 3 '13 at 14:37
    
added some reduced code, but I didn't include any certs (for obvious reasons) so it's not quite "self-contained" –  Tim Tisdall Jan 3 '13 at 15:32

1 Answer 1

Okay, I figured out the problem with my workaround... I was passing a bytearray to be written to the transport and then immediately cleared it afterwards not realizing that the write was being deferred until after I cleared the buffer. So, I pass a copy of the bytearray and it seems to be working now.

It still doesn't seem quite right that every call to the write has to be proceeded by a check to see if it's connected as the whole idea of the ReconnectingClientFactory is that it handles maintaining the connection for you. Also, I think it's possible to lose a connection between that if statement and when the write() is actually run, so it's still possible to lose data.

from OpenSSL import SSL
from twisted.internet.protocol import (Protocol, ReconnectingClientFactory)
from twisted.internet import (reactor, ssl)
import struct

class MetricsServer(Protocol):
    streambuffer = bytearray()

    def connectionMade(self):
        self.transport.setTcpKeepAlive(True) # maintain the TCP connection
        self.transport.setTcpNoDelay(False) # allow Nagle algorithm
        print("connected to server")
        if len(self.transport.factory.wrappedFactory.send_buffer) > 0:
            self.transport.write(bytes(self.transport.factory.wrappedFactory.send_buffer))
            self.transport.factory.wrappedFactory.send_buffer.clear()

    def dataReceived(self, data):
        print("from server:", data)

    def connectionLost(self, reason):
        self.connected = 0
        print("server connection lost:", reason)


class MetricsServerFactory(ReconnectingClientFactory):
    protocol = MetricsServer
    maxDelay = 300 # maximum seconds between retries
    factor = 1.6180339887498948
    packet_sequence_number = 0
    active_connection = None

    send_buffer = bytearray()

    def buildProtocol(self, addr):
        self.resetDelay()
        if self.active_connection == None:
            self.active_connection = self.protocol()
        return self.active_connection

    def get_packet_sequence_number(self):
        self.packet_sequence_number += 1
        return self.packet_sequence_number

    def send_data(self):
        print ("sending ssl packet")
        packet = struct.pack("!I", self.get_packet_sequence_number())
        if self.active_connection and self.active_connection.connected:
            self.active_connection.transport.write(packet)
        else:
            self.send_buffer.extend(packet)
        reactor.callLater(1.0, metrics_server.send_data)


class CtxFactory(ssl.ClientContextFactory):
    def getContext(self):
        self.method = SSL.TLSv1_METHOD
        ctx = ssl.ClientContextFactory.getContext(self)
        ctx.use_certificate_file('keys/client.crt')
        ctx.use_privatekey_file('keys/client.key')

        def verifyCallback(connection, x509, errnum, errdepth, ok):
            return bool(ok)
        ctx.set_verify(SSL.VERIFY_PEER, verifyCallback)
        ctx.load_verify_locations("keys/ca.pem")
        return ctx

if __name__ == "__main__":
    metrics_server = MetricsServerFactory()
    reactor.connectSSL('localhost', 8000, metrics_server, CtxFactory())
    reactor.callLater(3.0, metrics_server.send_data)
    reactor.run()
share|improve this answer

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