Skip to content

Instantly share code, notes, and snippets.

@grimpy

grimpy/sip.py

Last active July 25, 2022 17:00
Show Gist options
  • Star 0 You must be signed in to star a gist
  • Fork 1 You must be signed in to fork a gist
  • Save grimpy/8d58e962d9a5a3a195f7a71beab88762 to your computer and use it in GitHub Desktop.
Save grimpy/8d58e962d9a5a3a195f7a71beab88762 to your computer and use it in GitHub Desktop.
Download ZIP
Raw
sip.py
# -*- coding: utf-8 -*-
import sys
import socket
import requests
import re
import random
import hashlib
import threading
import time
import logging
_logger = logging.getLogger("sip-server")
class Packet(list):
def __init__(self, *args, **kwargs):
super().__init__(self, *args, **kwargs)
self.body = ""
self.status_line = ""
def get_by_name(self, name):
for key, value in self:
if key == name:
return value
raise LookupError(f"No header called {name}")
def get_many_by_name(self, name):
for key, value in self:
if key == name:
yield value
@staticmethod
def parse(data: str) -> "Packet":
headers = Packet()
lines = data.splitlines()
headers.status_line = lines[0]
idx = 0
for idx, line in enumerate(lines[1:]):
if not line:
break
key, value = line.split(":", 1)
headers.set_header(key, value.strip())
headers.body = "\n".join(lines[idx + 1:])
return headers
def __str__(self):
result = self.status_line + "\r\n"
for key, value in self:
result += f"{key}: {value}\r\n"
result += "\r\n" + self.body
return result
def set_header(self, name, value, replace=False):
if replace:
for idx, (header, _) in enumerate(self):
if header == name:
self[idx] = (header, value)
return
self.append((name, value))
class SIPSession:
USER_AGENT = "eXosip/3.6.0"
rtp_threads = []
sip_history = {}
def __init__(self, ip, username, domain, password, auth_username=False, account_port=5060, display_name="-"):
self.ip = ip
self.username = username
domain_port = domain.split(":", 1)
if len(domain_port) == 2:
self.domain_port = int(domain_port[1])
else:
self.domain_port = 5065
self.domain = domain_port[0]
self.password = password
self.auth_username = auth_username
self.account_port = account_port
self.display_name = display_name
self.call_accepted = EventHook()
self.call_rejected = EventHook()
self.call_ended = EventHook()
self.call_error = EventHook()
self.call_ringing = EventHook()
self.call_registered = EventHook()
self.message_sent = EventHook()
self.message_received = EventHook()
self.sipsocket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self.sipsocket.bind(("0.0.0.0", account_port))
self.bind_port = self.sipsocket.getsockname()[1]
self.register_packet: Packet = Packet()
@staticmethod
def H(data):
return hashlib.md5(data.encode("utf-8")).hexdigest()
@staticmethod
def KD(secret, data):
return SIPSession.H(secret + ":" + data)
def http_auth(self, authheader, method, address):
realm = re.findall(r'realm="(.*?)"', authheader)[0]
uri = "sip:" + address + ":5065"
nonce = re.findall(r'nonce="(.*?)"', authheader)[0]
opaque = re.findall(r'opaque="(.*?)"', authheader)[0]
if self.auth_username:
username = self.auth_username
else:
username = self.username
A1 = username + ":" + realm + ":" + self.password
A2 = method + ":" + uri
if "qop=" in authheader:
qop = re.findall(r'qop="(.*?)"', authheader)[0]
nc = "00000001"
cnonce = ''.join([random.choice('0123456789abcdef') for x in range(32)])
response = self.KD( self.H(A1), nonce + ":" + nc + ":" + cnonce + ":" + qop + ":" + self.H(A2) )
return f'Digest username="{username}",realm="{realm}",nonce="{nonce}",uri="{uri}",response="{response}",cnonce="{cnonce}",nc={nc},qop=auth,algorithm=MD5\r\n'
else:
response = self.KD( self.H(A1), nonce + ":" + self.H(A2) )
return f'Digest username="{username}",realm="{realm}",nonce="{nonce}",uri="{uri}",response="{response}",algorithm=MD5,opaque="{opaque}"'
def answer_call(self, sip_invite, sdp):
packet = Packet.parse(sip_invite)
call_id = packet.get_by_name("Call-ID")
call_from = packet.get_by_name("From")
call_to = packet.get_by_name("To")
reply = Packet()
for via_heading in packet.get_many_by_name("Via"):
reply.set_header("Via", via_heading)
for record_route in packet.get_many_by_name("Record-Route"):
reply.set_header("Record-Route", record_route)
reply.set_header("Contact", f'<sip:{self.username}"@{self.ip}:{self.bind_port}')
reply.set_header("To", call_to)
reply.set_header("From", call_from)
reply.set_header("Call-ID", call_id)
reply.set_header("CSeq", "1 INVITE")
reply.set_header("Allow", "SUBSCRIBE, NOTIFY, INVITE, ACK, CANCEL, BYE, REFER, INFO, OPTIONS, MESSAGE")
reply.set_header("Content-Type", "application/sdp")
reply.set_header("Supported", "replaces")
reply.set_header("User-Agent", self.USER_AGENT)
reply.body = sdp
reply.status_line = "SIP/2.0 200 OK"
self.send_packet(reply)
def send_packet(self, packet: Packet, addr=None):
packet.set_header("Content-Length", str(len(packet.body) if packet.body else 0), True)
_logger.debug(">%s", packet)
if addr is None:
addr = (self.to_server, self.domain_port)
self.sipsocket.sendto(str(packet).encode("utf-8"), addr)
def send_sip_message(self, to_address, message_body):
call_id = self.get_call_id()
message = Packet()
message.status_line = f"MESSAGE sip:{self.username}@{self.domain} SIP/2.0"
message.set_header("Via", f"SIP/2.0/UDP {self.ip}:{self.bind_port};rport")
message.set_header("Max-Forwards", "70")
message.set_header("To", f"<sip:{to_address}>;messagetype=IM")
message.set_header('From', f'"{self.display_name}"<sip:{self.username}@{self.domain}:{self.domain_port}>')
message.set_header("Call-ID", call_id)
message.set_header("CSeq", "1 MESSAGE")
message.set_header("Allow", "SUBSCRIBE, NOTIFY, INVITE, ACK, CANCEL, BYE, REFER, INFO, OPTIONS, MESSAGE")
message.set_header("Content-Type", "text/html")
message.set_header("User-Agent", str(self.USER_AGENT))
message.body = message_body
to_server = self.domain
self.send_packet(message, (to_server, self.account_port))
self.sip_history[call_id] = []
self.sip_history[call_id].append(message)
return call_id
def get_call_id(self):
return ''.join([random.choice('0123456789') for _ in range(10)])
def start(self, register_frequency=3600):
#Don't block the main thread with all the listening
sip_listener_starter = threading.Thread(target=self.sip_listener, args=())
sip_listener_starter.start()
self.send_sip_register()
#Reregister to keep the session alive
reregister_starter = threading.Thread(target=self.reregister, args=(register_frequency,))
reregister_starter.start()
def send_sip_register(self, register_frequency=3600):
self.register_packet = Packet()
call_id = self.get_call_id()
self.register_packet.set_header("Via", f"SIP/2.0/UDP {self.ip}:{self.bind_port};rport")
self.register_packet.set_header("Max-Forwards", "70")
self.register_packet.set_header("Contact", f"<sip:{self.username}@{self.ip}:{self.bind_port}>")
self.register_packet.set_header("To", f'"{self.display_name}"<sip:{self.username}@{self.domain}:{self.domain_port}>')
self.register_packet.set_header("From", f'"{self.display_name}"<sip:{self.username}@{self.domain}:{self.domain_port}>')
self.register_packet.set_header("Call-ID", call_id)
self.register_packet.set_header("CSeq", "1 REGISTER")
self.register_packet.set_header("Expires", str(register_frequency))
self.register_packet.set_header("Allow", "NOTIFY, INVITE, ACK, CANCEL, BYE, REFER, INFO, OPTIONS, MESSAGE")
self.register_packet.set_header("Content-Type", "text/xml")
self.register_packet.set_header("User-Agent", str(self.USER_AGENT))
self.register_packet.body = '''\
<regXML>
<version>V2.0.0</version>
<regDevName>Room 2</regDevName>
<regDevSerial>Q05659367</regDevSerial>
<regDevMacAddr>00:0c:29:fa:48:51</regDevMacAddr>
</regXML>'''
self.register_packet.status_line = f"REGISTER sip:{self.domain}:{self.account_port} SIP/2.0"
self.to_server = self.domain
self.sip_history[call_id] = []
self.sip_history[call_id].append(self.register_packet)
def reregister(self, register_frequency):
while True:
_logger.info("Registering")
self.send_packet(self.register_packet)
time.sleep(register_frequency)
def send_sip_invite(self, to_address, call_sdp):
call_id = self.get_call_id()
invite = Packet()
invite.status_line = f"INVITE sip:{to_address}:{self.account_port} SIP/2.0"
invite.set_header("Via", f"SIP/2.0/UDP {self.ip}:{self.bind_port};rport")
invite.set_header("Max-Forwards", "70")
invite.set_header("Contact", f"<sip:{self.username}@{self.ip}:{self.bind_port}>")
invite.set_header("To", f"<sip:{to_address}:{self.account_port}>")
invite.set_header("From", f'"{self.display_name}"<sip:{self.username}@{self.domain}:{self.account_port}>')
invite.set_header("Call-ID", str(call_id))
invite.set_header("CSeq", "1 INVITE")
invite.set_header("Allow", "SUBSCRIBE, NOTIFY, INVITE, ACK, CANCEL, BYE, REFER, INFO, OPTIONS, MESSAGE")
invite.set_header("Content-Type", "application/sdp")
invite.set_header("Supported", "replaces")
invite.set_header("User-Agent", str(self.USER_AGENT))
invite.body = call_sdp
self.send_packet(invite)
self.sip_history[call_id] = []
self.sip_history[call_id].append(invite)
return call_id
def sip_listener(self):
try:
#Wait and send back the auth reply
stage = "WAITING"
while stage == "WAITING":
data, addr = self.sipsocket.recvfrom(2048)
data = data.decode("utf-8")
_logger.debug(data)
try:
packet = Packet.parse(data)
except Exception as e:
_logger.exception(e)
continue
#Send auth response if challenged
if packet.status_line == "SIP/2.0 401 Unauthorized":
_logger.info("Handling authentication")
authheader = packet.get_by_name("WWW-Authenticate")
call_id = packet.get_by_name("Call-ID")
cseq = packet.get_by_name("CSeq")
cseq_number, cseq_type = cseq.split(" ", 1)
call_to_full = packet.get_by_name("To")
call_to = re.findall(r'<sip:(.*?)>', call_to_full)[0]
if ":" in call_to: call_to = call_to.split(":")[0]
#Resend the initial message but with the auth_string
auth_string = self.http_auth(authheader, cseq_type, call_to)
self.register_packet.set_header("CSeq", f"{int(cseq_number) + 1} {cseq_type}", True)
self.register_packet.insert(5, ("Authorization", auth_string))
self.send_packet(self.register_packet, addr)
elif packet.status_line == "SIP/2.0 403 Forbidden":
#Likely means call was rejected
_logger.info("We are unauthorized")
self.call_rejected.fire(self, data)
stage = "Forbidden"
return False
elif data.startswith("MESSAGE"):
#Extract the actual message to make things easier for devs
message = data.split("\r\n\r\n")[1]
if "<isComposing" not in message:
_logger.info("Message received")
_logger.debug(message)
self.message_received.fire(self, data, message)
elif data.startswith("INVITE"):
_logger.info("Received invite (call)")
call_from = packet.get_by_name("From")
call_to = packet.get_by_name("To")
call_id = packet.get_by_name("Call-ID")
#Send Trying
trying = Packet()
trying.status_line = "SIP/2.0 100 Trying"
for (via_heading) in packet.get_many_by_name("Via"):
trying.set_header("Via", via_heading)
trying.set_header("To", call_to)
trying.set_header("From", call_from)
trying.set_header("Call-ID", call_id)
trying.set_header("CSeq", "1 INVITE")
self.send_packet(trying, addr)
#Even automated calls can take a second to get ready to answer
ringing = Packet()
ringing.status_line = "SIP/2.0 180 Ringing"
for (via_heading) in packet.get_many_by_name("Via"):
ringing.set_header("Via", via_heading)
for (record_heading) in packet.get_many_by_name("Record-Route"):
ringing.set_header("Record-Route", record_heading)
ringing.set_header("Contact", f"<sip:{self.username}@{self.ip}:{self.bind_port}>")
ringing.set_header("To", call_to)
ringing.set_header("From", call_from)
ringing.set_header("Call-ID", str(call_id))
ringing.set_header("CSeq", "1 INVITE")
ringing.set_header("User-Agent", str(self.USER_AGENT))
ringing.set_header("Allow-Events", "talk, hold")
self.send_packet(ringing, addr)
self.call_ringing.fire(self, data)
elif data.startswith("BYE"):
#Do stuff when the call is ended by client
_logger.info("Call ended by us")
self.call_ended.fire(data)
elif packet.status_line.startswith("CANCEL"):
#Do stuff when the call is ended by client
_logger.info("Call ended by caller")
call_from = packet.get_by_name("From")
call_to = packet.get_by_name("To")
call_id = packet.get_by_name("Call-ID")
cseq = packet.get_by_name("CSeq")
cseq_number, cseq_type = cseq.split(" ", 1)
reply = Packet()
reply.status_line = "SIP/2.0 200 OK"
reply.set_header("Contact", f"<sip:{self.username}@{self.ip}:{self.bind_port}>")
for (via_heading) in packet.get_many_by_name("Via"):
reply.set_header("Via", via_heading)
reply.set_header("From", call_from)
reply.set_header("To", call_to)
reply.set_header("Call-ID", str(call_id))
reply.set_header("CSeq", f"{cseq_number} CANCEL")
reply.set_header("User-Agent", str(self.USER_AGENT))
self.send_packet(reply, addr)
self.call_ended.fire(packet)
elif packet.status_line == "SIP/2.0 200 OK":
cseq = packet.get_by_name("CSeq")
cseq_number, cseq_type = cseq.split(" ", 1)
_logger.info("OK %s", cseq_type)
#200 OK is used by REGISTER, INVITE and MESSAGE, so the code logic gets split up
if cseq_type == "INVITE":
contact_header = packet.get_by_name("Contact")
record_route = packet.get_by_name("Record-Route")
call_from = packet.get_by_name("From")
call_to = packet.get_by_name("To")
call_id = packet.get_by_name("Call-ID")
#Send the ACK
reply = Packet()
reply.status_line = f"ACK {contact_header} SIP/2.0"
reply.set_header("Via", f"SIP/2.0/UDP {self.ip}:{self.bind_port};rport")
reply.set_header("Max-Forwards", "70")
reply.set_header("Route", record_route)
reply.set_header("Contact", f"<sip:{self.username}@{self.ip}:{self.bind_port}>")
reply.set_header('To', call_to)
reply.set_header("From", call_from)
reply.set_header("Call-ID", str(call_id))
reply.set_header("CSeq", f"{cseq_number} ACK")
reply.set_header("User-Agent", str(self.USER_AGENT))
self.send_packet(reply, addr)
self.call_accepted.fire(self, packet)
elif cseq_type == "MESSAGE":
self.message_sent.fire(self, data)
elif cseq_type == "REGISTER":
self.call_registered.fire(self, data)
elif packet.status_line.startswith("SIP/2.0 4"):
_logger.info("Error: %s", data)
self.call_error.fire(self, data)
else:
_logger.info("Unhandled data: %s", data)
except Exception as e:
_logger.exception(e)
class EventHook:
def __init__(self):
self.__handlers = []
def __iadd__(self, handler):
self.__handlers.append(handler)
return self
def __isub__(self, handler):
self.__handlers.remove(handler)
return self
def fire(self, *args, **keywargs):
for handler in self.__handlers:
handler(*args, **keywargs)
def clearObjectHandlers(self, inObject):
for theHandler in self.__handlers:
if theHandler.im_self == inObject:
self -= theHandler
if __name__ == "__main__":
import argparse
parser = argparse.ArgumentParser()
parser.add_argument("--ip", help="Local IP Address", required=True)
parser.add_argument("--password", help="Password if required")
parser.add_argument("--username", help="Usernamew")
parser.add_argument("--domain", help="IP/Domain to connect to")
parser.add_argument("--debug", action="store_true", default=False, help="Print debug output")
parser.add_argument("--name", help="Name to deploy", default="robot")
parser.add_argument("--extension", help="Extension number", default="10000000003")
parser.add_argument("--token", help="HA Token")
parser.add_argument("--state-url")
parser.add_argument("--register-only", default=False, action="store_true")
def update_state(state):
if options.token:
session.post(options.state_url, json={"state": state})
options = parser.parse_args()
session = requests.Session()
if options.token:
session.headers["Authorization"] = f"Bearer {options.token}"
if options.debug:
logging.basicConfig(stream=sys.stdout, level=logging.DEBUG)
else:
logging.basicConfig(stream=sys.stdout, level=logging.INFO)
update_state("init")
sip_session = SIPSession(options.ip, options.extension, options.domain, options.password, options.username, display_name=options.name)
sip_session.call_registered += lambda *_: update_state("registered")
sip_session.call_ringing += lambda *_: update_state("ringing")
sip_session.call_ended += lambda *_: update_state("registered")
if options.register_only:
sip_session.send_sip_register()
else:
sip_session.start()
Sign up for free to join this conversation on GitHub. Already have an account? Sign in to comment