How do i set the source IP/interface with Python and urllib2?
Unfortunately the stack of standard library modules in use (urllib2, httplib, socket) is somewhat badly designed for the purpose -- at the key point in the operation,
HTTPConnection.connect (in httplib) delegates to
socket.create_connection, which in turn gives you no "hook" whatsoever between the creation of the socket instance
sock and the
sock.connect call, for you to insert the
sock.bind just before
sock.connect that is what you need to set the source IP (I'm evangelizing widely for NOT designing abstractions in such an airtight, excessively-encapsulated way -- I'll be speaking about that at OSCON this Thursday under the title "Zen and the Art of Abstraction Maintenance" -- but here your problem is how to deal with a stack of abstractions that WERE designed this way, sigh).
When you're facing such problems you only have two not-so-good solutions: either copy, paste and edit the misdesigned code into which you need to place a "hook" that the original designer didn't cater for; or, "monkey-patch" that code. Neither is GOOD, but both can work, so at least let's be thankful that we have such options (by using an open-source and dynamic language). In this case, I think I'd go for monkey-patching (which is bad, but copy and paste coding is even worse) -- a code fragment such as:
import socket true_socket = socket.socket def bound_socket(*a, **k): sock = true_socket(*a, **k) sock.bind((sourceIP, 0)) return sock socket.socket = bound_socket
Depending on your exact needs (do you need all sockets to be bound to the same source IP, or...?) you could simply run this before using
urllib2 normally, or (in more complex ways of course) run it at need just for those outgoing sockets you DO need to bind in a certain way (then each time restore
socket.socket = true_socket to get out of the way for future sockets yet to be created). The second alternative adds its own complications to orchestrate properly, so I'm waiting for you to clarify whether you do need such complications before explaining them all.
AKX's good answer is a variant on the "copy / paste / edit" alternative so I don't need to expand much on that -- note however that it doesn't exactly reproduce
socket.create_connection in its
connect method, see the source here (at the very end of the page) and decide what other functionality of the
create_connection function you may want to embody in your copied/pasted/edited version if you decide to go that route.
This seems to work.
import urllib2, httplib, socket class BindableHTTPConnection(httplib.HTTPConnection): def connect(self): """Connect to the host and port specified in __init__.""" self.sock = socket.socket() self.sock.bind((self.source_ip, 0)) if isinstance(self.timeout, float): self.sock.settimeout(self.timeout) self.sock.connect((self.host,self.port)) def BindableHTTPConnectionFactory(source_ip): def _get(host, port=None, strict=None, timeout=0): bhc=BindableHTTPConnection(host, port=port, strict=strict, timeout=timeout) bhc.source_ip=source_ip return bhc return _get class BindableHTTPHandler(urllib2.HTTPHandler): def http_open(self, req): return self.do_open(BindableHTTPConnectionFactory('127.0.0.1'), req) opener = urllib2.build_opener(BindableHTTPHandler) opener.open("http://google.com/").read() # Will fail, 127.0.0.1 can't reach google.com.
You'll need to figure out some way to parameterize "127.0.0.1" there, though.
Here's a further refinement that makes use of HTTPConnection's source_address argument (introduced in Python 2.7):
import functools import httplib import urllib2 class BoundHTTPHandler(urllib2.HTTPHandler): def __init__(self, source_address=None, debuglevel=0): urllib2.HTTPHandler.__init__(self, debuglevel) self.http_class = functools.partial(httplib.HTTPConnection, source_address=source_address) def http_open(self, req): return self.do_open(self.http_class, req)
This gives us a custom urllib2.HTTPHandler implementation that is source_address aware. We can add it to a new urllib2.OpenerDirector and install it as the default opener (for future urlopen() calls) with the following code:
handler = BoundHTTPHandler(source_address=("192.168.1.10", 0)) opener = urllib2.build_opener(handler) urllib2.install_opener(opener)
I thought I'd follow up with a slightly better version of the monkey patch. If you need to be able to set different port options on some of the sockets or are using something like SSL that subclasses socket, the following code works a bit better.
_ip_address = None def bind_outgoing_sockets_to_ip(ip_address): """This binds all python sockets to the passed in ip address""" global _ip_address _ip_address = ip_address import socket from socket import socket as s class bound_socket(s): def connect(self, *args, **kwargs): if self.family == socket.AF_INET: if self.getsockname() == "0.0.0.0" and _ip_address: self.bind((_ip_address, 0)) s.connect(self, *args, **kwargs) socket.socket = bound_socket
You have to only bind the socket on connect if you need to run something like a webserver in the same process that needs to bind to a different ip address.
Reasoning that I should monkey-patch at the highest level available, here's an alternative to Alex's answer which patches
httplib instead of
socket, taking advantage of
source_address keyword argument (which is not exposed by
urllib2, AFAICT). Tested and working on Python 2.7.2.
import httplib HTTPSConnection_real = httplib.HTTPSConnection class HTTPSConnection_monkey(HTTPSConnection_real): def __init__(*a, **kw): HTTPSConnection_real.__init__(*a, source_address=(SOURCE_IP, 0), **kw) httplib.HTTPSConnection = HTTPSConnection_monkey
As of Python 2.7 httplib.HTTPConnection had source_address added to it, allowing you to provide an IP port pair to bind to.