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-rw-r--r--testing/tools/iceserver/iceserver.py1001
1 files changed, 1001 insertions, 0 deletions
diff --git a/testing/tools/iceserver/iceserver.py b/testing/tools/iceserver/iceserver.py
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+++ b/testing/tools/iceserver/iceserver.py
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+# vim: set ts=4 et sw=4 tw=80
+# This Source Code Form is subject to the terms of the Mozilla Public
+# License, v. 2.0. If a copy of the MPL was not distributed with this
+# file, You can obtain one at http://mozilla.org/MPL/2.0/.
+
+import ipaddr
+import socket
+import hmac
+import hashlib
+import passlib.utils # for saslprep
+import copy
+import random
+import operator
+import os
+import platform
+import six
+import string
+import time
+from functools import reduce
+from string import Template
+from twisted.internet import reactor, protocol
+from twisted.internet.task import LoopingCall
+from twisted.internet.address import IPv4Address
+from twisted.internet.address import IPv6Address
+
+MAGIC_COOKIE = 0x2112A442
+
+REQUEST = 0
+INDICATION = 1
+SUCCESS_RESPONSE = 2
+ERROR_RESPONSE = 3
+
+BINDING = 0x001
+ALLOCATE = 0x003
+REFRESH = 0x004
+SEND = 0x006
+DATA_MSG = 0x007
+CREATE_PERMISSION = 0x008
+CHANNEL_BIND = 0x009
+
+# STUN spec chose silly values for these
+STUN_IPV4 = 1
+STUN_IPV6 = 2
+
+MAPPED_ADDRESS = 0x0001
+USERNAME = 0x0006
+MESSAGE_INTEGRITY = 0x0008
+ERROR_CODE = 0x0009
+UNKNOWN_ATTRIBUTES = 0x000A
+LIFETIME = 0x000D
+DATA_ATTR = 0x0013
+XOR_PEER_ADDRESS = 0x0012
+REALM = 0x0014
+NONCE = 0x0015
+XOR_RELAYED_ADDRESS = 0x0016
+REQUESTED_TRANSPORT = 0x0019
+DONT_FRAGMENT = 0x001A
+XOR_MAPPED_ADDRESS = 0x0020
+SOFTWARE = 0x8022
+ALTERNATE_SERVER = 0x8023
+FINGERPRINT = 0x8028
+
+STUN_PORT = 3478
+STUNS_PORT = 5349
+
+TURN_REDIRECT_PORT = 3479
+TURNS_REDIRECT_PORT = 5350
+
+
+def unpack_uint(bytes_buf):
+ result = 0
+ for byte in bytes_buf:
+ result = (result << 8) + byte
+ return result
+
+
+def pack_uint(value, width):
+ if value < 0:
+ raise ValueError("Invalid value: {}".format(value))
+ buf = bytearray([0] * width)
+ for i in range(0, width):
+ buf[i] = (value >> (8 * (width - i - 1))) & 0xFF
+
+ return buf
+
+
+def unpack(bytes_buf, format_array):
+ results = ()
+ for width in format_array:
+ results = results + (unpack_uint(bytes_buf[0:width]),)
+ bytes_buf = bytes_buf[width:]
+ return results
+
+
+def pack(values, format_array):
+ if len(values) != len(format_array):
+ raise ValueError()
+ buf = bytearray()
+ for i in range(0, len(values)):
+ buf.extend(pack_uint(values[i], format_array[i]))
+ return buf
+
+
+def bitwise_pack(source, dest, start_bit, num_bits):
+ if num_bits <= 0 or num_bits > start_bit + 1:
+ raise ValueError(
+ "Invalid num_bits: {}, start_bit = {}".format(num_bits, start_bit)
+ )
+ last_bit = start_bit - num_bits + 1
+ source = source >> last_bit
+ dest = dest << num_bits
+ mask = (1 << num_bits) - 1
+ dest += source & mask
+ return dest
+
+
+def to_ipaddress(protocol, host, port):
+ if ":" not in host:
+ return IPv4Address(protocol, host, port)
+
+ return IPv6Address(protocol, host, port)
+
+
+class StunAttribute(object):
+ """
+ Represents a STUN attribute in a raw format, according to the following:
+
+ 0 1 2 3
+ 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ | StunAttribute.attr_type | Length (derived as needed) |
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ | StunAttribute.data (variable length) ....
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ """
+
+ __attr_header_fmt = [2, 2]
+ __attr_header_size = reduce(operator.add, __attr_header_fmt)
+
+ def __init__(self, attr_type=0, buf=bytearray()):
+ self.attr_type = attr_type
+ self.data = buf
+
+ def build(self):
+ buf = pack((self.attr_type, len(self.data)), self.__attr_header_fmt)
+ buf.extend(self.data)
+ # add padding if necessary
+ if len(buf) % 4:
+ buf.extend([0] * (4 - (len(buf) % 4)))
+ return buf
+
+ def parse(self, buf):
+ if self.__attr_header_size > len(buf):
+ raise Exception("truncated at attribute: incomplete header")
+
+ self.attr_type, length = unpack(buf, self.__attr_header_fmt)
+ length += self.__attr_header_size
+
+ if length > len(buf):
+ raise Exception("truncated at attribute: incomplete contents")
+
+ self.data = buf[self.__attr_header_size : length]
+
+ # verify padding
+ while length % 4:
+ if buf[length]:
+ raise ValueError("Non-zero padding")
+ length += 1
+
+ return length
+
+
+class StunMessage(object):
+ """
+ Represents a STUN message. Contains a method, msg_class, cookie,
+ transaction_id, and attributes (as an array of StunAttribute).
+
+ Has various functions for getting/adding attributes.
+ """
+
+ def __init__(self):
+ self.method = 0
+ self.msg_class = 0
+ self.cookie = MAGIC_COOKIE
+ self.transaction_id = 0
+ self.attributes = []
+
+ # 0 1 2 3
+ # 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+ # +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ # |0 0|M M M M M|C|M M M|C|M M M M| Message Length |
+ # +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ # | Magic Cookie |
+ # +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ # | |
+ # | Transaction ID (96 bits) |
+ # | |
+ # +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ __header_fmt = [2, 2, 4, 12]
+ __header_size = reduce(operator.add, __header_fmt)
+
+ # Returns how many bytes were parsed if buf was large enough, or how many
+ # bytes we would have needed if not. Throws if buf is malformed.
+ def parse(self, buf):
+ min_buf_size = self.__header_size
+ if len(buf) < min_buf_size:
+ return min_buf_size
+
+ message_type, length, cookie, self.transaction_id = unpack(
+ buf, self.__header_fmt
+ )
+ min_buf_size += length
+ if len(buf) < min_buf_size:
+ return min_buf_size
+
+ # Avert your eyes...
+ self.method = bitwise_pack(message_type, 0, 13, 5)
+ self.msg_class = bitwise_pack(message_type, 0, 8, 1)
+ self.method = bitwise_pack(message_type, self.method, 7, 3)
+ self.msg_class = bitwise_pack(message_type, self.msg_class, 4, 1)
+ self.method = bitwise_pack(message_type, self.method, 3, 4)
+
+ if cookie != self.cookie:
+ raise Exception("Invalid cookie: {}".format(cookie))
+
+ buf = buf[self.__header_size : min_buf_size]
+ while len(buf):
+ attr = StunAttribute()
+ length = attr.parse(buf)
+ buf = buf[length:]
+ self.attributes.append(attr)
+
+ return min_buf_size
+
+ # stop_after_attr_type is useful for calculating MESSAGE-DIGEST
+ def build(self, stop_after_attr_type=0):
+ attrs = bytearray()
+ for attr in self.attributes:
+ attrs.extend(attr.build())
+ if attr.attr_type == stop_after_attr_type:
+ break
+
+ message_type = bitwise_pack(self.method, 0, 11, 5)
+ message_type = bitwise_pack(self.msg_class, message_type, 1, 1)
+ message_type = bitwise_pack(self.method, message_type, 6, 3)
+ message_type = bitwise_pack(self.msg_class, message_type, 0, 1)
+ message_type = bitwise_pack(self.method, message_type, 3, 4)
+
+ message = pack(
+ (message_type, len(attrs), self.cookie, self.transaction_id),
+ self.__header_fmt,
+ )
+ message.extend(attrs)
+
+ return message
+
+ def add_error_code(self, code, phrase=None):
+ # 0 1 2 3
+ # 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+ # +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ # | Reserved, should be 0 |Class| Number |
+ # +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ # | Reason Phrase (variable) ..
+ # +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ error_code_fmt = [3, 1]
+ error_code = pack((code // 100, code % 100), error_code_fmt)
+ if phrase != None:
+ error_code.extend(bytearray(phrase, "utf-8"))
+ self.attributes.append(StunAttribute(ERROR_CODE, error_code))
+
+ # 0 1 2 3
+ # 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+ # +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ # |x x x x x x x x| Family | X-Port |
+ # +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ # | X-Address (Variable)
+ # +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ __v4addr_fmt = [1, 1, 2, 4]
+ __v6addr_fmt = [1, 1, 2, 16]
+ __v4addr_size = reduce(operator.add, __v4addr_fmt)
+ __v6addr_size = reduce(operator.add, __v6addr_fmt)
+
+ def add_address(self, ip_address, version, port, attr_type):
+ if version == STUN_IPV4:
+ address = pack((0, STUN_IPV4, port, ip_address), self.__v4addr_fmt)
+ elif version == STUN_IPV6:
+ address = pack((0, STUN_IPV6, port, ip_address), self.__v6addr_fmt)
+ else:
+ raise ValueError("Invalid ip version: {}".format(version))
+ self.attributes.append(StunAttribute(attr_type, address))
+
+ def get_xaddr(self, ip_addr, version):
+ if version == STUN_IPV4:
+ return self.cookie ^ ip_addr
+ elif version == STUN_IPV6:
+ return ((self.cookie << 96) + self.transaction_id) ^ ip_addr
+ else:
+ raise ValueError("Invalid family: {}".format(version))
+
+ def get_xport(self, port):
+ return (self.cookie >> 16) ^ port
+
+ def add_xor_address(self, addr_port, attr_type):
+ ip_address = ipaddr.IPAddress(addr_port.host)
+ version = STUN_IPV6 if ip_address.version == 6 else STUN_IPV4
+ xaddr = self.get_xaddr(int(ip_address), version)
+ xport = self.get_xport(addr_port.port)
+ self.add_address(xaddr, version, xport, attr_type)
+
+ def add_data(self, buf):
+ self.attributes.append(StunAttribute(DATA_ATTR, buf))
+
+ def find(self, attr_type):
+ for attr in self.attributes:
+ if attr.attr_type == attr_type:
+ return attr
+ return None
+
+ def get_xor_address(self, attr_type):
+ addr_attr = self.find(attr_type)
+ if not addr_attr:
+ return None
+
+ padding, family, xport, xaddr = unpack(addr_attr.data, self.__v4addr_fmt)
+ addr_ctor = IPv4Address
+ if family == STUN_IPV6:
+ padding, family, xport, xaddr = unpack(addr_attr.data, self.__v6addr_fmt)
+ addr_ctor = IPv6Address
+ elif family != STUN_IPV4:
+ raise ValueError("Invalid family: {}".format(family))
+
+ return addr_ctor(
+ "UDP",
+ str(ipaddr.IPAddress(self.get_xaddr(xaddr, family))),
+ self.get_xport(xport),
+ )
+
+ def add_nonce(self, nonce):
+ self.attributes.append(StunAttribute(NONCE, bytearray(nonce, "utf-8")))
+
+ def add_realm(self, realm):
+ self.attributes.append(StunAttribute(REALM, bytearray(realm, "utf-8")))
+
+ def calculate_message_digest(self, username, realm, password):
+ digest_buf = self.build(MESSAGE_INTEGRITY)
+ # Trim off the MESSAGE-INTEGRITY attr
+ digest_buf = digest_buf[: len(digest_buf) - 24]
+ password = passlib.utils.saslprep(six.text_type(password))
+ key_string = "{}:{}:{}".format(username, realm, password)
+ md5 = hashlib.md5()
+ md5.update(bytearray(key_string, "utf-8"))
+ key = md5.digest()
+ return bytearray(hmac.new(key, digest_buf, hashlib.sha1).digest())
+
+ def add_lifetime(self, lifetime):
+ self.attributes.append(StunAttribute(LIFETIME, pack_uint(lifetime, 4)))
+
+ def get_lifetime(self):
+ lifetime_attr = self.find(LIFETIME)
+ if not lifetime_attr:
+ return None
+ return unpack_uint(lifetime_attr.data[0:4])
+
+ def get_username(self):
+ username = self.find(USERNAME)
+ if not username:
+ return None
+ return str(username.data)
+
+ def add_message_integrity(self, username, realm, password):
+ dummy_value = bytearray([0] * 20)
+ self.attributes.append(StunAttribute(MESSAGE_INTEGRITY, dummy_value))
+ digest = self.calculate_message_digest(username, realm, password)
+ self.find(MESSAGE_INTEGRITY).data = digest
+
+ def add_alternate_server(self, host, port):
+ address = ipaddr.IPAddress(host)
+ version = STUN_IPV6 if address.version == 6 else STUN_IPV4
+ self.add_address(int(address), version, port, ALTERNATE_SERVER)
+
+
+class Allocation(protocol.DatagramProtocol):
+ """
+ Comprises the socket for a TURN allocation, a back-reference to the
+ transport we will forward received traffic on, the allocator's address and
+ username, the set of permissions for the allocation, and the allocation's
+ expiry.
+ """
+
+ def __init__(self, other_transport_handler, allocator_address, username):
+ self.permissions = set() # str, int tuples
+ # Handler to use when sending stuff that arrives on the allocation
+ self.other_transport_handler = other_transport_handler
+ self.allocator_address = allocator_address
+ self.username = username
+ self.expiry = time.time()
+ self.port = reactor.listenUDP(0, self, interface=v4_address)
+
+ def datagramReceived(self, data, address):
+ host = address[0]
+ port = address[1]
+ if not host in self.permissions:
+ print(
+ "Dropping packet from {}:{}, no permission on allocation {}".format(
+ host, port, self.transport.getHost()
+ )
+ )
+ return
+
+ data_indication = StunMessage()
+ data_indication.method = DATA_MSG
+ data_indication.msg_class = INDICATION
+ data_indication.transaction_id = random.getrandbits(96)
+
+ # Only handles UDP allocations. Doubtful that we need more than this.
+ data_indication.add_xor_address(
+ to_ipaddress("UDP", host, port), XOR_PEER_ADDRESS
+ )
+ data_indication.add_data(data)
+
+ self.other_transport_handler.write(
+ data_indication.build(), self.allocator_address
+ )
+
+ def close(self):
+ self.port.stopListening()
+ self.port = None
+
+
+class StunHandler(object):
+ """
+ Frames and handles STUN messages. This is the core logic of the TURN
+ server, along with Allocation.
+ """
+
+ def __init__(self, transport_handler):
+ self.client_address = None
+ self.data = bytearray()
+ self.transport_handler = transport_handler
+
+ def data_received(self, data, address):
+ self.data += data
+ while True:
+ stun_message = StunMessage()
+ parsed_len = stun_message.parse(self.data)
+ if parsed_len > len(self.data):
+ break
+ self.data = self.data[parsed_len:]
+
+ response = self.handle_stun(stun_message, address)
+ if response:
+ self.transport_handler.write(response, address)
+
+ def handle_stun(self, stun_message, address):
+ self.client_address = address
+ if stun_message.msg_class == INDICATION:
+ if stun_message.method == SEND:
+ self.handle_send_indication(stun_message)
+ else:
+ print(
+ "Dropping unknown indication method: {}".format(stun_message.method)
+ )
+ return None
+
+ if stun_message.msg_class != REQUEST:
+ print("Dropping STUN response, method: {}".format(stun_message.method))
+ return None
+
+ if stun_message.method == BINDING:
+ return self.make_success_response(stun_message).build()
+ elif stun_message.method == ALLOCATE:
+ return self.handle_allocation(stun_message).build()
+ elif stun_message.method == REFRESH:
+ return self.handle_refresh(stun_message).build()
+ elif stun_message.method == CREATE_PERMISSION:
+ return self.handle_permission(stun_message).build()
+ else:
+ return self.make_error_response(
+ stun_message,
+ 400,
+ ("Unsupported STUN request, method: {}".format(stun_message.method)),
+ ).build()
+
+ def get_allocation_tuple(self):
+ return (
+ self.client_address.host,
+ self.client_address.port,
+ self.transport_handler.transport.getHost().type,
+ self.transport_handler.transport.getHost().host,
+ self.transport_handler.transport.getHost().port,
+ )
+
+ def handle_allocation(self, request):
+ allocate_response = self.check_long_term_auth(request)
+ if allocate_response.msg_class == SUCCESS_RESPONSE:
+ if self.get_allocation_tuple() in allocations:
+ return self.make_error_response(
+ request,
+ 437,
+ (
+ "Duplicate allocation request for tuple {}".format(
+ self.get_allocation_tuple()
+ )
+ ),
+ )
+
+ allocation = Allocation(
+ self.transport_handler, self.client_address, request.get_username()
+ )
+
+ allocate_response.add_xor_address(
+ allocation.transport.getHost(), XOR_RELAYED_ADDRESS
+ )
+
+ lifetime = request.get_lifetime()
+ if lifetime == None:
+ return self.make_error_response(
+ request, 400, "Missing lifetime attribute in allocation request"
+ )
+
+ lifetime = min(lifetime, 3600)
+ allocate_response.add_lifetime(lifetime)
+ allocation.expiry = time.time() + lifetime
+
+ allocate_response.add_message_integrity(turn_user, turn_realm, turn_pass)
+ allocations[self.get_allocation_tuple()] = allocation
+ return allocate_response
+
+ def handle_refresh(self, request):
+ refresh_response = self.check_long_term_auth(request)
+ if refresh_response.msg_class == SUCCESS_RESPONSE:
+ try:
+ allocation = allocations[self.get_allocation_tuple()]
+ except KeyError:
+ return self.make_error_response(
+ request,
+ 437,
+ (
+ "Refresh request for non-existing allocation, tuple {}".format(
+ self.get_allocation_tuple()
+ )
+ ),
+ )
+
+ if allocation.username != request.get_username():
+ return self.make_error_response(
+ request,
+ 441,
+ (
+ "Refresh request with wrong user, exp {}, got {}".format(
+ allocation.username, request.get_username()
+ )
+ ),
+ )
+
+ lifetime = request.get_lifetime()
+ if lifetime == None:
+ return self.make_error_response(
+ request, 400, "Missing lifetime attribute in allocation request"
+ )
+
+ lifetime = min(lifetime, 3600)
+ refresh_response.add_lifetime(lifetime)
+ allocation.expiry = time.time() + lifetime
+
+ refresh_response.add_message_integrity(turn_user, turn_realm, turn_pass)
+ return refresh_response
+
+ def handle_permission(self, request):
+ permission_response = self.check_long_term_auth(request)
+ if permission_response.msg_class == SUCCESS_RESPONSE:
+ try:
+ allocation = allocations[self.get_allocation_tuple()]
+ except KeyError:
+ return self.make_error_response(
+ request,
+ 437,
+ (
+ "No such allocation for permission request, tuple {}".format(
+ self.get_allocation_tuple()
+ )
+ ),
+ )
+
+ if allocation.username != request.get_username():
+ return self.make_error_response(
+ request,
+ 441,
+ (
+ "Permission request with wrong user, exp {}, got {}".format(
+ allocation.username, request.get_username()
+ )
+ ),
+ )
+
+ # TODO: Handle multiple XOR-PEER-ADDRESS
+ peer_address = request.get_xor_address(XOR_PEER_ADDRESS)
+ if not peer_address:
+ return self.make_error_response(
+ request, 400, "Missing XOR-PEER-ADDRESS on permission request"
+ )
+
+ permission_response.add_message_integrity(turn_user, turn_realm, turn_pass)
+ allocation.permissions.add(peer_address.host)
+
+ return permission_response
+
+ def handle_send_indication(self, indication):
+ try:
+ allocation = allocations[self.get_allocation_tuple()]
+ except KeyError:
+ print(
+ "Dropping send indication; no allocation for tuple {}".format(
+ self.get_allocation_tuple()
+ )
+ )
+ return
+
+ peer_address = indication.get_xor_address(XOR_PEER_ADDRESS)
+ if not peer_address:
+ print("Dropping send indication, missing XOR-PEER-ADDRESS")
+ return
+
+ data_attr = indication.find(DATA_ATTR)
+ if not data_attr:
+ print("Dropping send indication, missing DATA")
+ return
+
+ if indication.find(DONT_FRAGMENT):
+ print("Dropping send indication, DONT-FRAGMENT set")
+ return
+
+ if not peer_address.host in allocation.permissions:
+ print(
+ "Dropping send indication, no permission for {} on tuple {}".format(
+ peer_address.host, self.get_allocation_tuple()
+ )
+ )
+ return
+
+ allocation.transport.write(
+ data_attr.data, (peer_address.host, peer_address.port)
+ )
+
+ def make_success_response(self, request):
+ response = copy.deepcopy(request)
+ response.attributes = []
+ response.add_xor_address(self.client_address, XOR_MAPPED_ADDRESS)
+ response.msg_class = SUCCESS_RESPONSE
+ return response
+
+ def make_error_response(self, request, code, reason=None):
+ if reason:
+ print("{}: rejecting with {}".format(reason, code))
+ response = copy.deepcopy(request)
+ response.attributes = []
+ response.add_error_code(code, reason)
+ response.msg_class = ERROR_RESPONSE
+ return response
+
+ def make_challenge_response(self, request, reason=None):
+ response = self.make_error_response(request, 401, reason)
+ # 65 means the hex encoding will need padding half the time
+ response.add_nonce("{:x}".format(random.getrandbits(65)))
+ response.add_realm(turn_realm)
+ return response
+
+ def check_long_term_auth(self, request):
+ message_integrity = request.find(MESSAGE_INTEGRITY)
+ if not message_integrity:
+ return self.make_challenge_response(request)
+
+ username = request.find(USERNAME)
+ realm = request.find(REALM)
+ nonce = request.find(NONCE)
+ if not username or not realm or not nonce:
+ return self.make_error_response(
+ request, 400, "Missing either USERNAME, NONCE, or REALM"
+ )
+
+ if username.data.decode("utf-8") != turn_user:
+ return self.make_challenge_response(
+ request, "Wrong user {}, exp {}".format(username.data, turn_user)
+ )
+
+ expected_message_digest = request.calculate_message_digest(
+ turn_user, turn_realm, turn_pass
+ )
+ if message_integrity.data != expected_message_digest:
+ return self.make_challenge_response(request, "Incorrect message disgest")
+
+ return self.make_success_response(request)
+
+
+class StunRedirectHandler(StunHandler):
+ """
+ Frames and handles STUN messages by redirecting to the "real" server port.
+ Performs the redirect with auth, so does a 401 to unauthed requests.
+ Can be used to test port-based redirect handling.
+ """
+
+ def __init__(self, transport_handler):
+ super(StunRedirectHandler, self).__init__(transport_handler)
+
+ def handle_stun(self, stun_message, address):
+ self.client_address = address
+ if stun_message.msg_class == REQUEST:
+ challenge_response = self.check_long_term_auth(stun_message)
+
+ if challenge_response.msg_class == SUCCESS_RESPONSE:
+ return self.make_redirect_response(stun_message).build()
+
+ return challenge_response.build()
+
+ def make_redirect_response(self, request):
+ response = self.make_error_response(request, 300, "Try alternate")
+ port = STUN_PORT
+ if self.transport_handler.transport.getHost().port == TURNS_REDIRECT_PORT:
+ port = STUNS_PORT
+
+ response.add_alternate_server(
+ self.transport_handler.transport.getHost().host, port
+ )
+
+ response.add_message_integrity(turn_user, turn_realm, turn_pass)
+ return response
+
+
+class UdpStunHandler(protocol.DatagramProtocol):
+ """
+ Represents a UDP listen port for TURN.
+ """
+
+ def datagramReceived(self, data, address):
+ stun_handler = StunHandler(self)
+ stun_handler.data_received(data, to_ipaddress("UDP", address[0], address[1]))
+
+ def write(self, data, address):
+ self.transport.write(bytes(data), (address.host, address.port))
+
+
+class UdpStunRedirectHandler(protocol.DatagramProtocol):
+ """
+ Represents a UDP listen port for TURN that will redirect.
+ """
+
+ def datagramReceived(self, data, address):
+ stun_handler = StunRedirectHandler(self)
+ stun_handler.data_received(data, to_ipaddress("UDP", address[0], address[1]))
+
+ def write(self, data, address):
+ self.transport.write(bytes(data), (address.host, address.port))
+
+
+class TcpStunHandlerFactory(protocol.Factory):
+ """
+ Represents a TCP listen port for TURN.
+ """
+
+ def buildProtocol(self, addr):
+ return TcpStunHandler(addr)
+
+
+class TcpStunHandler(protocol.Protocol):
+ """
+ Represents a connected TCP port for TURN.
+ """
+
+ def __init__(self, addr):
+ self.address = addr
+ self.stun_handler = None
+
+ def dataReceived(self, data):
+ # This needs to persist, since it handles framing
+ if not self.stun_handler:
+ self.stun_handler = StunHandler(self)
+ self.stun_handler.data_received(data, self.address)
+
+ def connectionLost(self, reason):
+ print("Lost connection from {}".format(self.address))
+ # Destroy allocations that this connection made
+ keys_to_delete = []
+ for key, allocation in allocations.items():
+ if allocation.other_transport_handler == self:
+ print("Closing allocation due to dropped connection: {}".format(key))
+ keys_to_delete.append(key)
+ allocation.close()
+
+ for key in keys_to_delete:
+ del allocations[key]
+
+ def write(self, data, address):
+ self.transport.write(bytes(data))
+
+
+class TcpStunRedirectHandlerFactory(protocol.Factory):
+ """
+ Represents a TCP listen port for TURN that will redirect.
+ """
+
+ def buildProtocol(self, addr):
+ return TcpStunRedirectHandler(addr)
+
+
+class TcpStunRedirectHandler(protocol.DatagramProtocol):
+ def __init__(self, addr):
+ self.address = addr
+ self.stun_handler = None
+
+ def dataReceived(self, data):
+ # This needs to persist, since it handles framing. Framing matters here
+ # because we do a round of auth before redirecting.
+ if not self.stun_handler:
+ self.stun_handler = StunRedirectHandler(self)
+ self.stun_handler.data_received(data, self.address)
+
+ def write(self, data, address):
+ self.transport.write(bytes(data))
+
+
+def get_default_route(family):
+ dummy_socket = socket.socket(family, socket.SOCK_DGRAM)
+ if family is socket.AF_INET:
+ dummy_socket.connect(("8.8.8.8", 53))
+ else:
+ dummy_socket.connect(("2001:4860:4860::8888", 53))
+
+ default_route = dummy_socket.getsockname()[0]
+ dummy_socket.close()
+ return default_route
+
+
+turn_user = "foo"
+turn_pass = "bar"
+turn_realm = "mozilla.invalid"
+allocations = {}
+v4_address = get_default_route(socket.AF_INET)
+try:
+ v6_address = get_default_route(socket.AF_INET6)
+except:
+ v6_address = ""
+
+
+def prune_allocations():
+ now = time.time()
+ keys_to_delete = []
+ for key, allocation in allocations.items():
+ if allocation.expiry < now:
+ print("Allocation expired: {}".format(key))
+ keys_to_delete.append(key)
+ allocation.close()
+
+ for key in keys_to_delete:
+ del allocations[key]
+
+
+CERT_FILE = "selfsigned.crt"
+KEY_FILE = "private.key"
+
+
+def create_self_signed_cert(name):
+ from OpenSSL import crypto
+
+ if os.path.isfile(CERT_FILE) and os.path.isfile(KEY_FILE):
+ return
+
+ # create a key pair
+ k = crypto.PKey()
+ k.generate_key(crypto.TYPE_RSA, 1024)
+
+ # create a self-signed cert
+ cert = crypto.X509()
+ cert.get_subject().C = "US"
+ cert.get_subject().ST = "TX"
+ cert.get_subject().L = "Dallas"
+ cert.get_subject().O = "Mozilla test iceserver"
+ cert.get_subject().OU = "Mozilla test iceserver"
+ cert.get_subject().CN = name
+ cert.set_serial_number(1000)
+ cert.gmtime_adj_notBefore(0)
+ cert.gmtime_adj_notAfter(10 * 365 * 24 * 60 * 60)
+ cert.set_issuer(cert.get_subject())
+ cert.set_pubkey(k)
+ cert.add_extensions(
+ [crypto.X509Extension(b"subjectAltName", False, f"DNS:{name}".encode())]
+ )
+ cert.sign(k, "sha1")
+
+ open(CERT_FILE, "wb").write(crypto.dump_certificate(crypto.FILETYPE_PEM, cert))
+ open(KEY_FILE, "wb").write(crypto.dump_privatekey(crypto.FILETYPE_PEM, k))
+
+
+if __name__ == "__main__":
+ random.seed()
+
+ if platform.system() == "Windows":
+ # Windows is finicky about allowing real interfaces to talk to loopback.
+ interface_4 = v4_address
+ interface_6 = v6_address
+ hostname = socket.gethostname()
+ else:
+ # Our linux builders do not have a hostname that resolves to the real
+ # interface.
+ interface_4 = "127.0.0.1"
+ interface_6 = "::1"
+ hostname = "localhost"
+
+ reactor.listenUDP(STUN_PORT, UdpStunHandler(), interface=interface_4)
+ reactor.listenTCP(STUN_PORT, TcpStunHandlerFactory(), interface=interface_4)
+
+ reactor.listenUDP(
+ TURN_REDIRECT_PORT, UdpStunRedirectHandler(), interface=interface_4
+ )
+ reactor.listenTCP(
+ TURN_REDIRECT_PORT, TcpStunRedirectHandlerFactory(), interface=interface_4
+ )
+
+ try:
+ reactor.listenUDP(STUN_PORT, UdpStunHandler(), interface=interface_6)
+ reactor.listenTCP(STUN_PORT, TcpStunHandlerFactory(), interface=interface_6)
+
+ reactor.listenUDP(
+ TURN_REDIRECT_PORT, UdpStunRedirectHandler(), interface=interface_6
+ )
+ reactor.listenTCP(
+ TURN_REDIRECT_PORT, TcpStunRedirectHandlerFactory(), interface=interface_6
+ )
+ except:
+ pass
+
+ try:
+ from twisted.internet import ssl
+ from OpenSSL import SSL
+
+ create_self_signed_cert(hostname)
+ tls_context_factory = ssl.DefaultOpenSSLContextFactory(
+ KEY_FILE, CERT_FILE, SSL.TLSv1_2_METHOD
+ )
+ reactor.listenSSL(
+ STUNS_PORT,
+ TcpStunHandlerFactory(),
+ tls_context_factory,
+ interface=interface_4,
+ )
+
+ try:
+ reactor.listenSSL(
+ STUNS_PORT,
+ TcpStunHandlerFactory(),
+ tls_context_factory,
+ interface=interface_6,
+ )
+
+ reactor.listenSSL(
+ TURNS_REDIRECT_PORT,
+ TcpStunRedirectHandlerFactory(),
+ tls_context_factory,
+ interface=interface_6,
+ )
+ except:
+ pass
+
+ f = open(CERT_FILE, "r")
+ lines = f.readlines()
+ lines.pop(0) # Remove BEGIN CERTIFICATE
+ lines.pop() # Remove END CERTIFICATE
+ # pylint --py3k: W1636 W1649
+ lines = list(map(str.strip, lines))
+ certbase64 = "".join(lines) # pylint --py3k: W1649
+
+ turns_url = ', "turns:' + hostname + '"'
+ cert_prop = ', "cert":"' + certbase64 + '"'
+ except:
+ turns_url = ""
+ cert_prop = ""
+ pass
+
+ allocation_pruner = LoopingCall(prune_allocations)
+ allocation_pruner.start(1)
+
+ template = Template(
+ '[\
+{"urls":["stun:$hostname", "stun:$hostname?transport=tcp"]}, \
+{"username":"$user","credential":"$pwd","turn_redirect_port":"$TURN_REDIRECT_PORT","turns_redirect_port":"$TURNS_REDIRECT_PORT","urls": \
+["turn:$hostname", "turn:$hostname?transport=tcp" $turns_url] \
+$cert_prop}]' # Hack to make it easier to override cert checks
+ )
+
+ print(
+ template.substitute(
+ user=turn_user,
+ pwd=turn_pass,
+ hostname=hostname,
+ turns_url=turns_url,
+ cert_prop=cert_prop,
+ TURN_REDIRECT_PORT=TURN_REDIRECT_PORT,
+ TURNS_REDIRECT_PORT=TURNS_REDIRECT_PORT,
+ )
+ )
+
+ reactor.run()