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bazarr/libs/socks.py
2018-09-16 20:33:04 -04:00

870 lines
32 KiB
Python

"""SocksiPy - Python SOCKS module.
Copyright 2006 Dan-Haim. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice, this
list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright notice,
this list of conditions and the following disclaimer in the documentation
and/or other materials provided with the distribution.
3. Neither the name of Dan Haim nor the names of his contributors may be used
to endorse or promote products derived from this software without specific
prior written permission.
THIS SOFTWARE IS PROVIDED BY DAN HAIM "AS IS" AND ANY EXPRESS OR IMPLIED
WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
EVENT SHALL DAN HAIM OR HIS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA
OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
This module provides a standard socket-like interface for Python
for tunneling connections through SOCKS proxies.
===============================================================================
Minor modifications made by Christopher Gilbert (http://motomastyle.com/)
for use in PyLoris (http://pyloris.sourceforge.net/)
Minor modifications made by Mario Vilas (http://breakingcode.wordpress.com/)
mainly to merge bug fixes found in Sourceforge
Modifications made by Anorov (https://github.com/Anorov)
-Forked and renamed to PySocks
-Fixed issue with HTTP proxy failure checking (same bug that was in the
old ___recvall() method)
-Included SocksiPyHandler (sockshandler.py), to be used as a urllib2 handler,
courtesy of e000 (https://github.com/e000):
https://gist.github.com/869791#file_socksipyhandler.py
-Re-styled code to make it readable
-Aliased PROXY_TYPE_SOCKS5 -> SOCKS5 etc.
-Improved exception handling and output
-Removed irritating use of sequence indexes, replaced with tuple unpacked
variables
-Fixed up Python 3 bytestring handling - chr(0x03).encode() -> b"\x03"
-Other general fixes
-Added clarification that the HTTP proxy connection method only supports
CONNECT-style tunneling HTTP proxies
-Various small bug fixes
"""
from base64 import b64encode
from collections import Callable
from errno import EOPNOTSUPP, EINVAL, EAGAIN
import functools
from io import BytesIO
import logging
import os
from os import SEEK_CUR
import socket
import struct
import sys
__version__ = "1.6.7"
if os.name == "nt" and sys.version_info < (3, 0):
try:
import win_inet_pton
except ImportError:
raise ImportError(
"To run PySocks on Windows you must install win_inet_pton")
log = logging.getLogger(__name__)
PROXY_TYPE_SOCKS4 = SOCKS4 = 1
PROXY_TYPE_SOCKS5 = SOCKS5 = 2
PROXY_TYPE_HTTP = HTTP = 3
PROXY_TYPES = {"SOCKS4": SOCKS4, "SOCKS5": SOCKS5, "HTTP": HTTP}
PRINTABLE_PROXY_TYPES = dict(zip(PROXY_TYPES.values(), PROXY_TYPES.keys()))
_orgsocket = _orig_socket = socket.socket
def set_self_blocking(function):
@functools.wraps(function)
def wrapper(*args, **kwargs):
self = args[0]
try:
_is_blocking = self.gettimeout()
if _is_blocking == 0:
self.setblocking(True)
return function(*args, **kwargs)
except Exception as e:
raise
finally:
# set orgin blocking
if _is_blocking == 0:
self.setblocking(False)
return wrapper
class ProxyError(IOError):
"""Socket_err contains original socket.error exception."""
def __init__(self, msg, socket_err=None):
self.msg = msg
self.socket_err = socket_err
if socket_err:
self.msg += ": {0}".format(socket_err)
def __str__(self):
return self.msg
class GeneralProxyError(ProxyError):
pass
class ProxyConnectionError(ProxyError):
pass
class SOCKS5AuthError(ProxyError):
pass
class SOCKS5Error(ProxyError):
pass
class SOCKS4Error(ProxyError):
pass
class HTTPError(ProxyError):
pass
SOCKS4_ERRORS = {
0x5B: "Request rejected or failed",
0x5C: ("Request rejected because SOCKS server cannot connect to identd on"
" the client"),
0x5D: ("Request rejected because the client program and identd report"
" different user-ids")
}
SOCKS5_ERRORS = {
0x01: "General SOCKS server failure",
0x02: "Connection not allowed by ruleset",
0x03: "Network unreachable",
0x04: "Host unreachable",
0x05: "Connection refused",
0x06: "TTL expired",
0x07: "Command not supported, or protocol error",
0x08: "Address type not supported"
}
DEFAULT_PORTS = {SOCKS4: 1080, SOCKS5: 1080, HTTP: 8080}
def set_default_proxy(proxy_type=None, addr=None, port=None, rdns=True,
username=None, password=None):
"""Sets a default proxy.
All further socksocket objects will use the default unless explicitly
changed. All parameters are as for socket.set_proxy()."""
socksocket.default_proxy = (proxy_type, addr, port, rdns,
username.encode() if username else None,
password.encode() if password else None)
def setdefaultproxy(*args, **kwargs):
if "proxytype" in kwargs:
kwargs["proxy_type"] = kwargs.pop("proxytype")
return set_default_proxy(*args, **kwargs)
def get_default_proxy():
"""Returns the default proxy, set by set_default_proxy."""
return socksocket.default_proxy
getdefaultproxy = get_default_proxy
def wrap_module(module):
"""Attempts to replace a module's socket library with a SOCKS socket.
Must set a default proxy using set_default_proxy(...) first. This will
only work on modules that import socket directly into the namespace;
most of the Python Standard Library falls into this category."""
if socksocket.default_proxy:
module.socket.socket = socksocket
else:
raise GeneralProxyError("No default proxy specified")
wrapmodule = wrap_module
def create_connection(dest_pair,
timeout=None, source_address=None,
proxy_type=None, proxy_addr=None,
proxy_port=None, proxy_rdns=True,
proxy_username=None, proxy_password=None,
socket_options=None):
"""create_connection(dest_pair, *[, timeout], **proxy_args) -> socket object
Like socket.create_connection(), but connects to proxy
before returning the socket object.
dest_pair - 2-tuple of (IP/hostname, port).
**proxy_args - Same args passed to socksocket.set_proxy() if present.
timeout - Optional socket timeout value, in seconds.
source_address - tuple (host, port) for the socket to bind to as its source
address before connecting (only for compatibility)
"""
# Remove IPv6 brackets on the remote address and proxy address.
remote_host, remote_port = dest_pair
if remote_host.startswith("["):
remote_host = remote_host.strip("[]")
if proxy_addr and proxy_addr.startswith("["):
proxy_addr = proxy_addr.strip("[]")
err = None
# Allow the SOCKS proxy to be on IPv4 or IPv6 addresses.
for r in socket.getaddrinfo(proxy_addr, proxy_port, 0, socket.SOCK_STREAM):
family, socket_type, proto, canonname, sa = r
sock = None
try:
sock = socksocket(family, socket_type, proto)
if socket_options:
for opt in socket_options:
sock.setsockopt(*opt)
if isinstance(timeout, (int, float)):
sock.settimeout(timeout)
if proxy_type:
sock.set_proxy(proxy_type, proxy_addr, proxy_port, proxy_rdns,
proxy_username, proxy_password)
if source_address:
sock.bind(source_address)
sock.connect((remote_host, remote_port))
return sock
except (socket.error, ProxyConnectionError) as e:
err = e
if sock:
sock.close()
sock = None
if err:
raise err
raise socket.error("gai returned empty list.")
class _BaseSocket(socket.socket):
"""Allows Python 2 delegated methods such as send() to be overridden."""
def __init__(self, *pos, **kw):
_orig_socket.__init__(self, *pos, **kw)
self._savedmethods = dict()
for name in self._savenames:
self._savedmethods[name] = getattr(self, name)
delattr(self, name) # Allows normal overriding mechanism to work
_savenames = list()
def _makemethod(name):
return lambda self, *pos, **kw: self._savedmethods[name](*pos, **kw)
for name in ("sendto", "send", "recvfrom", "recv"):
method = getattr(_BaseSocket, name, None)
# Determine if the method is not defined the usual way
# as a function in the class.
# Python 2 uses __slots__, so there are descriptors for each method,
# but they are not functions.
if not isinstance(method, Callable):
_BaseSocket._savenames.append(name)
setattr(_BaseSocket, name, _makemethod(name))
class socksocket(_BaseSocket):
"""socksocket([family[, type[, proto]]]) -> socket object
Open a SOCKS enabled socket. The parameters are the same as
those of the standard socket init. In order for SOCKS to work,
you must specify family=AF_INET and proto=0.
The "type" argument must be either SOCK_STREAM or SOCK_DGRAM.
"""
default_proxy = None
def __init__(self, family=socket.AF_INET, type=socket.SOCK_STREAM,
proto=0, *args, **kwargs):
if type not in (socket.SOCK_STREAM, socket.SOCK_DGRAM):
msg = "Socket type must be stream or datagram, not {!r}"
raise ValueError(msg.format(type))
super(socksocket, self).__init__(family, type, proto, *args, **kwargs)
self._proxyconn = None # TCP connection to keep UDP relay alive
if self.default_proxy:
self.proxy = self.default_proxy
else:
self.proxy = (None, None, None, None, None, None)
self.proxy_sockname = None
self.proxy_peername = None
self._timeout = None
def _readall(self, file, count):
"""Receive EXACTLY the number of bytes requested from the file object.
Blocks until the required number of bytes have been received."""
data = b""
while len(data) < count:
d = file.read(count - len(data))
if not d:
raise GeneralProxyError("Connection closed unexpectedly")
data += d
return data
def settimeout(self, timeout):
self._timeout = timeout
try:
# test if we're connected, if so apply timeout
peer = self.get_proxy_peername()
super(socksocket, self).settimeout(self._timeout)
except socket.error:
pass
def gettimeout(self):
return self._timeout
def setblocking(self, v):
if v:
self.settimeout(None)
else:
self.settimeout(0.0)
def set_proxy(self, proxy_type=None, addr=None, port=None, rdns=True,
username=None, password=None):
""" Sets the proxy to be used.
proxy_type - The type of the proxy to be used. Three types
are supported: PROXY_TYPE_SOCKS4 (including socks4a),
PROXY_TYPE_SOCKS5 and PROXY_TYPE_HTTP
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 performed 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.proxy = (proxy_type, addr, port, rdns,
username.encode() if username else None,
password.encode() if password else None)
def setproxy(self, *args, **kwargs):
if "proxytype" in kwargs:
kwargs["proxy_type"] = kwargs.pop("proxytype")
return self.set_proxy(*args, **kwargs)
def bind(self, *pos, **kw):
"""Implements proxy connection for UDP sockets.
Happens during the bind() phase."""
(proxy_type, proxy_addr, proxy_port, rdns, username,
password) = self.proxy
if not proxy_type or self.type != socket.SOCK_DGRAM:
return _orig_socket.bind(self, *pos, **kw)
if self._proxyconn:
raise socket.error(EINVAL, "Socket already bound to an address")
if proxy_type != SOCKS5:
msg = "UDP only supported by SOCKS5 proxy type"
raise socket.error(EOPNOTSUPP, msg)
super(socksocket, self).bind(*pos, **kw)
# Need to specify actual local port because
# some relays drop packets if a port of zero is specified.
# Avoid specifying host address in case of NAT though.
_, port = self.getsockname()
dst = ("0", port)
self._proxyconn = _orig_socket()
proxy = self._proxy_addr()
self._proxyconn.connect(proxy)
UDP_ASSOCIATE = b"\x03"
_, relay = self._SOCKS5_request(self._proxyconn, UDP_ASSOCIATE, dst)
# The relay is most likely on the same host as the SOCKS proxy,
# but some proxies return a private IP address (10.x.y.z)
host, _ = proxy
_, port = relay
super(socksocket, self).connect((host, port))
super(socksocket, self).settimeout(self._timeout)
self.proxy_sockname = ("0.0.0.0", 0) # Unknown
def sendto(self, bytes, *args, **kwargs):
if self.type != socket.SOCK_DGRAM:
return super(socksocket, self).sendto(bytes, *args, **kwargs)
if not self._proxyconn:
self.bind(("", 0))
address = args[-1]
flags = args[:-1]
header = BytesIO()
RSV = b"\x00\x00"
header.write(RSV)
STANDALONE = b"\x00"
header.write(STANDALONE)
self._write_SOCKS5_address(address, header)
sent = super(socksocket, self).send(header.getvalue() + bytes, *flags,
**kwargs)
return sent - header.tell()
def send(self, bytes, flags=0, **kwargs):
if self.type == socket.SOCK_DGRAM:
return self.sendto(bytes, flags, self.proxy_peername, **kwargs)
else:
return super(socksocket, self).send(bytes, flags, **kwargs)
def recvfrom(self, bufsize, flags=0):
if self.type != socket.SOCK_DGRAM:
return super(socksocket, self).recvfrom(bufsize, flags)
if not self._proxyconn:
self.bind(("", 0))
buf = BytesIO(super(socksocket, self).recv(bufsize + 1024, flags))
buf.seek(2, SEEK_CUR)
frag = buf.read(1)
if ord(frag):
raise NotImplementedError("Received UDP packet fragment")
fromhost, fromport = self._read_SOCKS5_address(buf)
if self.proxy_peername:
peerhost, peerport = self.proxy_peername
if fromhost != peerhost or peerport not in (0, fromport):
raise socket.error(EAGAIN, "Packet filtered")
return (buf.read(bufsize), (fromhost, fromport))
def recv(self, *pos, **kw):
bytes, _ = self.recvfrom(*pos, **kw)
return bytes
def close(self):
if self._proxyconn:
self._proxyconn.close()
return super(socksocket, self).close()
def get_proxy_sockname(self):
"""Returns the bound IP address and port number at the proxy."""
return self.proxy_sockname
getproxysockname = get_proxy_sockname
def get_proxy_peername(self):
"""
Returns the IP and port number of the proxy.
"""
return self.getpeername()
getproxypeername = get_proxy_peername
def get_peername(self):
"""Returns the IP address and port number of the destination machine.
Note: get_proxy_peername returns the proxy."""
return self.proxy_peername
getpeername = get_peername
def _negotiate_SOCKS5(self, *dest_addr):
"""Negotiates a stream connection through a SOCKS5 server."""
CONNECT = b"\x01"
self.proxy_peername, self.proxy_sockname = self._SOCKS5_request(
self, CONNECT, dest_addr)
def _SOCKS5_request(self, conn, cmd, dst):
"""
Send SOCKS5 request with given command (CMD field) and
address (DST field). Returns resolved DST address that was used.
"""
proxy_type, addr, port, rdns, username, password = self.proxy
writer = conn.makefile("wb")
reader = conn.makefile("rb", 0) # buffering=0 renamed in Python 3
try:
# First we'll send the authentication packages we support.
if username and password:
# The username/password details were supplied to the
# set_proxy method so we support the USERNAME/PASSWORD
# authentication (in addition to the standard none).
writer.write(b"\x05\x02\x00\x02")
else:
# No username/password were entered, therefore we
# only support connections with no authentication.
writer.write(b"\x05\x01\x00")
# We'll receive the server's response to determine which
# method was selected
writer.flush()
chosen_auth = self._readall(reader, 2)
if chosen_auth[0:1] != b"\x05":
# Note: string[i:i+1] is used because indexing of a bytestring
# via bytestring[i] yields an integer in Python 3
raise GeneralProxyError(
"SOCKS5 proxy server sent invalid data")
# Check the chosen authentication method
if chosen_auth[1:2] == b"\x02":
# Okay, we need to perform a basic username/password
# authentication.
writer.write(b"\x01" + chr(len(username)).encode()
+ username
+ chr(len(password)).encode()
+ password)
writer.flush()
auth_status = self._readall(reader, 2)
if auth_status[0:1] != b"\x01":
# Bad response
raise GeneralProxyError(
"SOCKS5 proxy server sent invalid data")
if auth_status[1:2] != b"\x00":
# Authentication failed
raise SOCKS5AuthError("SOCKS5 authentication failed")
# Otherwise, authentication succeeded
# No authentication is required if 0x00
elif chosen_auth[1:2] != b"\x00":
# Reaching here is always bad
if chosen_auth[1:2] == b"\xFF":
raise SOCKS5AuthError(
"All offered SOCKS5 authentication methods were"
" rejected")
else:
raise GeneralProxyError(
"SOCKS5 proxy server sent invalid data")
# Now we can request the actual connection
writer.write(b"\x05" + cmd + b"\x00")
resolved = self._write_SOCKS5_address(dst, writer)
writer.flush()
# Get the response
resp = self._readall(reader, 3)
if resp[0:1] != b"\x05":
raise GeneralProxyError(
"SOCKS5 proxy server sent invalid data")
status = ord(resp[1:2])
if status != 0x00:
# Connection failed: server returned an error
error = SOCKS5_ERRORS.get(status, "Unknown error")
raise SOCKS5Error("{0:#04x}: {1}".format(status, error))
# Get the bound address/port
bnd = self._read_SOCKS5_address(reader)
super(socksocket, self).settimeout(self._timeout)
return (resolved, bnd)
finally:
reader.close()
writer.close()
def _write_SOCKS5_address(self, addr, file):
"""
Return the host and port packed for the SOCKS5 protocol,
and the resolved address as a tuple object.
"""
host, port = addr
proxy_type, _, _, rdns, username, password = self.proxy
family_to_byte = {socket.AF_INET: b"\x01", socket.AF_INET6: b"\x04"}
# If the given destination address is an IP address, we'll
# use the IP address request even if remote resolving was specified.
# Detect whether the address is IPv4/6 directly.
for family in (socket.AF_INET, socket.AF_INET6):
try:
addr_bytes = socket.inet_pton(family, host)
file.write(family_to_byte[family] + addr_bytes)
host = socket.inet_ntop(family, addr_bytes)
file.write(struct.pack(">H", port))
return host, port
except socket.error:
continue
# Well it's not an IP number, so it's probably a DNS name.
if rdns:
# Resolve remotely
host_bytes = host.encode("idna")
file.write(b"\x03" + chr(len(host_bytes)).encode() + host_bytes)
else:
# Resolve locally
addresses = socket.getaddrinfo(host, port, socket.AF_UNSPEC,
socket.SOCK_STREAM,
socket.IPPROTO_TCP,
socket.AI_ADDRCONFIG)
# We can't really work out what IP is reachable, so just pick the
# first.
target_addr = addresses[0]
family = target_addr[0]
host = target_addr[4][0]
addr_bytes = socket.inet_pton(family, host)
file.write(family_to_byte[family] + addr_bytes)
host = socket.inet_ntop(family, addr_bytes)
file.write(struct.pack(">H", port))
return host, port
def _read_SOCKS5_address(self, file):
atyp = self._readall(file, 1)
if atyp == b"\x01":
addr = socket.inet_ntoa(self._readall(file, 4))
elif atyp == b"\x03":
length = self._readall(file, 1)
addr = self._readall(file, ord(length))
elif atyp == b"\x04":
addr = socket.inet_ntop(socket.AF_INET6, self._readall(file, 16))
else:
raise GeneralProxyError("SOCKS5 proxy server sent invalid data")
port = struct.unpack(">H", self._readall(file, 2))[0]
return addr, port
def _negotiate_SOCKS4(self, dest_addr, dest_port):
"""Negotiates a connection through a SOCKS4 server."""
proxy_type, addr, port, rdns, username, password = self.proxy
writer = self.makefile("wb")
reader = self.makefile("rb", 0) # buffering=0 renamed in Python 3
try:
# Check if the destination address provided is an IP address
remote_resolve = False
try:
addr_bytes = socket.inet_aton(dest_addr)
except socket.error:
# It's a DNS name. Check where it should be resolved.
if rdns:
addr_bytes = b"\x00\x00\x00\x01"
remote_resolve = True
else:
addr_bytes = socket.inet_aton(
socket.gethostbyname(dest_addr))
# Construct the request packet
writer.write(struct.pack(">BBH", 0x04, 0x01, dest_port))
writer.write(addr_bytes)
# The username parameter is considered userid for SOCKS4
if username:
writer.write(username)
writer.write(b"\x00")
# DNS name if remote resolving is required
# NOTE: This is actually an extension to the SOCKS4 protocol
# called SOCKS4A and may not be supported in all cases.
if remote_resolve:
writer.write(dest_addr.encode("idna") + b"\x00")
writer.flush()
# Get the response from the server
resp = self._readall(reader, 8)
if resp[0:1] != b"\x00":
# Bad data
raise GeneralProxyError(
"SOCKS4 proxy server sent invalid data")
status = ord(resp[1:2])
if status != 0x5A:
# Connection failed: server returned an error
error = SOCKS4_ERRORS.get(status, "Unknown error")
raise SOCKS4Error("{0:#04x}: {1}".format(status, error))
# Get the bound address/port
self.proxy_sockname = (socket.inet_ntoa(resp[4:]),
struct.unpack(">H", resp[2:4])[0])
if remote_resolve:
self.proxy_peername = socket.inet_ntoa(addr_bytes), dest_port
else:
self.proxy_peername = dest_addr, dest_port
finally:
reader.close()
writer.close()
def _negotiate_HTTP(self, dest_addr, dest_port):
"""Negotiates a connection through an HTTP server.
NOTE: This currently only supports HTTP CONNECT-style proxies."""
proxy_type, addr, port, rdns, username, password = self.proxy
# If we need to resolve locally, we do this now
addr = dest_addr if rdns else socket.gethostbyname(dest_addr)
http_headers = [
(b"CONNECT " + addr.encode("idna") + b":"
+ str(dest_port).encode() + b" HTTP/1.1"),
b"Host: " + dest_addr.encode("idna")
]
if username and password:
http_headers.append(b"Proxy-Authorization: basic "
+ b64encode(username + b":" + password))
http_headers.append(b"\r\n")
self.sendall(b"\r\n".join(http_headers))
# We just need the first line to check if the connection was successful
fobj = self.makefile()
status_line = fobj.readline()
fobj.close()
if not status_line:
raise GeneralProxyError("Connection closed unexpectedly")
try:
proto, status_code, status_msg = status_line.split(" ", 2)
except ValueError:
raise GeneralProxyError("HTTP proxy server sent invalid response")
if not proto.startswith("HTTP/"):
raise GeneralProxyError(
"Proxy server does not appear to be an HTTP proxy")
try:
status_code = int(status_code)
except ValueError:
raise HTTPError(
"HTTP proxy server did not return a valid HTTP status")
if status_code != 200:
error = "{0}: {1}".format(status_code, status_msg)
if status_code in (400, 403, 405):
# It's likely that the HTTP proxy server does not support the
# CONNECT tunneling method
error += ("\n[*] Note: The HTTP proxy server may not be"
" supported by PySocks (must be a CONNECT tunnel"
" proxy)")
raise HTTPError(error)
self.proxy_sockname = (b"0.0.0.0", 0)
self.proxy_peername = addr, dest_port
_proxy_negotiators = {
SOCKS4: _negotiate_SOCKS4,
SOCKS5: _negotiate_SOCKS5,
HTTP: _negotiate_HTTP
}
@set_self_blocking
def connect(self, dest_pair):
"""
Connects to the specified destination through a proxy.
Uses the same API as socket's connect().
To select the proxy server, use set_proxy().
dest_pair - 2-tuple of (IP/hostname, port).
"""
if len(dest_pair) != 2 or dest_pair[0].startswith("["):
# Probably IPv6, not supported -- raise an error, and hope
# Happy Eyeballs (RFC6555) makes sure at least the IPv4
# connection works...
raise socket.error("PySocks doesn't support IPv6: %s"
% str(dest_pair))
dest_addr, dest_port = dest_pair
if self.type == socket.SOCK_DGRAM:
if not self._proxyconn:
self.bind(("", 0))
dest_addr = socket.gethostbyname(dest_addr)
# If the host address is INADDR_ANY or similar, reset the peer
# address so that packets are received from any peer
if dest_addr == "0.0.0.0" and not dest_port:
self.proxy_peername = None
else:
self.proxy_peername = (dest_addr, dest_port)
return
(proxy_type, proxy_addr, proxy_port, rdns, username,
password) = self.proxy
# Do a minimal input check first
if (not isinstance(dest_pair, (list, tuple))
or len(dest_pair) != 2
or not dest_addr
or not isinstance(dest_port, int)):
# Inputs failed, raise an error
raise GeneralProxyError(
"Invalid destination-connection (host, port) pair")
# We set the timeout here so that we don't hang in connection or during
# negotiation.
super(socksocket, self).settimeout(self._timeout)
if proxy_type is None:
# Treat like regular socket object
self.proxy_peername = dest_pair
super(socksocket, self).settimeout(self._timeout)
super(socksocket, self).connect((dest_addr, dest_port))
return
proxy_addr = self._proxy_addr()
try:
# Initial connection to proxy server.
super(socksocket, self).connect(proxy_addr)
except socket.error as error:
# Error while connecting to proxy
self.close()
proxy_addr, proxy_port = proxy_addr
proxy_server = "{0}:{1}".format(proxy_addr, proxy_port)
printable_type = PRINTABLE_PROXY_TYPES[proxy_type]
msg = "Error connecting to {0} proxy {1}".format(printable_type,
proxy_server)
log.debug("%s due to: %s", msg, error)
raise ProxyConnectionError(msg, error)
else:
# Connected to proxy server, now negotiate
try:
# Calls negotiate_{SOCKS4, SOCKS5, HTTP}
negotiate = self._proxy_negotiators[proxy_type]
negotiate(self, dest_addr, dest_port)
except socket.error as error:
# Wrap socket errors
self.close()
raise GeneralProxyError("Socket error", error)
except ProxyError:
# Protocol error while negotiating with proxy
self.close()
raise
def _proxy_addr(self):
"""
Return proxy address to connect to as tuple object
"""
(proxy_type, proxy_addr, proxy_port, rdns, username,
password) = self.proxy
proxy_port = proxy_port or DEFAULT_PORTS.get(proxy_type)
if not proxy_port:
raise GeneralProxyError("Invalid proxy type")
return proxy_addr, proxy_port