Mercurial > libervia-backend
view libervia/backend/plugins/plugin_xep_0167/mapping.py @ 4185:c6d85c31a59f
plugin ad-hoc registration: Implement plugin to handle registration links:
registration links are used in web frontend to allow registration with secret links when
it's normally closed.
author | Goffi <goffi@goffi.org> |
---|---|
date | Sun, 10 Dec 2023 18:32:04 +0100 |
parents | b2709504586a |
children | e11b13418ba6 |
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#!/usr/bin/env python3 # Libervia: an XMPP client # Copyright (C) 2009-2023 Jérôme Poisson (goffi@goffi.org) # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Affero General Public License for more details. # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. import base64 from typing import Any, Dict, Optional from twisted.words.xish import domish from libervia.backend.core.constants import Const as C from libervia.backend.core.log import getLogger from .constants import NS_JINGLE_RTP log = getLogger(__name__) host = None def senders_to_sdp(senders: str, session: dict) -> str: """Returns appropriate SDP attribute corresponding to Jingle senders attribute""" if senders == "both": return "a=sendrecv" elif senders == "none": return "a=inactive" elif session["role"] == senders: return "a=sendonly" else: return "a=recvonly" def generate_sdp_from_session( session: dict, local: bool = False, port: int = 9 ) -> str: """Generate an SDP string from session data. @param session: A dictionary containing the session data. It should have the following structure: { "contents": { "<content_id>": { "application_data": { "media": <str: "audio" or "video">, "local_data": <media_data dict>, "peer_data": <media_data dict>, ... }, "transport_data": { "local_ice_data": <ice_data dict>, "peer_ice_data": <ice_data dict>, ... }, ... }, ... } } @param local: A boolean value indicating whether to generate SDP for the local or peer entity. If True, the method will generate SDP for the local entity, otherwise for the peer entity. Generally the local SDP is received from frontends and not needed in backend, except for debugging purpose. @param port: The preferred port for communications. @return: The generated SDP string. """ contents = session["contents"] sdp_lines = ["v=0"] # Add originator (o=) line after the version (v=) line username = base64.b64encode(session["local_jid"].full().encode()).decode() session_id = "1" # Increment this for each session session_version = "1" # Increment this when the session is updated network_type = "IN" address_type = "IP4" connection_address = "0.0.0.0" o_line = ( f"o={username} {session_id} {session_version} {network_type} {address_type} " f"{connection_address}" ) sdp_lines.append(o_line) # Add the mandatory "s=" and t=" lines sdp_lines.append("s=-") sdp_lines.append("t=0 0") # stream direction all_senders = {c["senders"] for c in session["contents"].values()} # if we don't have a common senders for all contents, we set them at media level senders = all_senders.pop() if len(all_senders) == 1 else None sdp_lines.append("a=msid-semantic:WMS *") sdp_lines.append("a=ice-options:trickle") host.trigger.point( "XEP-0167_generate_sdp_session", session, local, sdp_lines, triggers_no_cancel=True ) for content_name, content_data in contents.items(): app_data_key = "local_data" if local else "peer_data" application_data = content_data["application_data"] media_data = application_data[app_data_key] media = application_data["media"] payload_types = media_data.get("payload_types", {}) # Generate m= line transport = "UDP/TLS/RTP/SAVPF" payload_type_ids = [str(pt_id) for pt_id in payload_types] m_line = f"m={media} {port} {transport} {' '.join(payload_type_ids)}" sdp_lines.append(m_line) sdp_lines.append(f"c={network_type} {address_type} {connection_address}") sdp_lines.append(f"a=mid:{content_name}") if senders is not None: sdp_lines.append(senders_to_sdp(senders, session)) # stream direction if senders is None: sdp_lines.append(senders_to_sdp(content_data["senders"], session)) # Generate a= lines for rtpmap and fmtp for pt_id, pt in payload_types.items(): name = pt["name"] clockrate = pt.get("clockrate", "") # Check if "channels" is in pt and append it to the line channels = pt.get("channels") if channels: sdp_lines.append(f"a=rtpmap:{pt_id} {name}/{clockrate}/{channels}") else: sdp_lines.append(f"a=rtpmap:{pt_id} {name}/{clockrate}") if "ptime" in pt: sdp_lines.append(f"a=ptime:{pt['ptime']}") if "parameters" in pt: fmtp_params = ";".join([f"{k}={v}" for k, v in pt["parameters"].items()]) sdp_lines.append(f"a=fmtp:{pt_id} {fmtp_params}") if "bandwidth" in media_data: sdp_lines.append(f"a=b:{media_data['bandwidth']}") if media_data.get("rtcp-mux"): sdp_lines.append("a=rtcp-mux") # Generate a= lines for fingerprint, ICE ufrag, pwd and candidates ice_data_key = "local_ice_data" if local else "peer_ice_data" ice_data = content_data["transport_data"][ice_data_key] if "fingerprint" in ice_data: fingerprint_data = ice_data["fingerprint"] sdp_lines.append( f"a=fingerprint:{fingerprint_data['hash']} " f"{fingerprint_data['fingerprint']}" ) sdp_lines.append(f"a=setup:{fingerprint_data['setup']}") sdp_lines.append(f"a=ice-ufrag:{ice_data['ufrag']}") sdp_lines.append(f"a=ice-pwd:{ice_data['pwd']}") for candidate in ice_data["candidates"]: foundation = candidate["foundation"] component_id = candidate["component_id"] transport = candidate["transport"] priority = candidate["priority"] address = candidate["address"] candidate_port = candidate["port"] candidate_type = candidate["type"] candidate_line = ( f"a=candidate:{foundation} {component_id} {transport} {priority} " f"{address} {candidate_port} typ {candidate_type}" ) if "rel_addr" in candidate and "rel_port" in candidate: candidate_line += ( f" raddr {candidate['rel_addr']} rport {candidate['rel_port']}" ) if "generation" in candidate: candidate_line += f" generation {candidate['generation']}" if "network" in candidate: candidate_line += f" network {candidate['network']}" sdp_lines.append(candidate_line) # Generate a= lines for encryption if "encryption" in media_data: for enc_data in media_data["encryption"]: crypto_suite = enc_data["crypto-suite"] key_params = enc_data["key-params"] session_params = enc_data.get("session-params", "") tag = enc_data["tag"] crypto_line = f"a=crypto:{tag} {crypto_suite} {key_params}" if session_params: crypto_line += f" {session_params}" sdp_lines.append(crypto_line) host.trigger.point( "XEP-0167_generate_sdp_content", session, local, content_name, content_data, sdp_lines, application_data, app_data_key, media_data, media, triggers_no_cancel=True ) # Combine SDP lines and return the result return "\r\n".join(sdp_lines) + "\r\n" def parse_sdp(sdp: str) -> dict: """Parse SDP string. @param sdp: The SDP string to parse. @return: A dictionary containing parsed session data. """ # FIXME: to be removed once host is accessible from global var assert host is not None lines = sdp.strip().split("\r\n") # session metadata metadata: Dict[str, Any] = {} call_data = {"metadata": metadata} media_type = None media_data: Optional[Dict[str, Any]] = None application_data: Optional[Dict[str, Any]] = None transport_data: Optional[Dict[str, Any]] = None fingerprint_data: Optional[Dict[str, str]] = None ice_pwd: Optional[str] = None ice_ufrag: Optional[str] = None payload_types: Optional[Dict[int, dict]] = None for line in lines: try: parts = line.split() prefix = parts[0][:2] # Extract the 'a=', 'm=', etc., prefix parts[0] = parts[0][2:] # Remove the prefix from the first element if prefix == "m=": media_type = parts[0] port = int(parts[1]) payload_types = {} for payload_type_id in [int(pt_id) for pt_id in parts[3:]]: payload_type = {"id": payload_type_id} payload_types[payload_type_id] = payload_type application_data = {"media": media_type, "payload_types": payload_types} transport_data = {"port": port} if fingerprint_data is not None: transport_data["fingerprint"] = fingerprint_data if ice_pwd is not None: transport_data["pwd"] = ice_pwd if ice_ufrag is not None: transport_data["ufrag"] = ice_ufrag media_data = call_data[media_type] = { "application_data": application_data, "transport_data": transport_data, } elif prefix == "a=": if ":" in parts[0]: attribute, parts[0] = parts[0].split(":", 1) else: attribute = parts[0] if ( media_type is None or application_data is None or transport_data is None ) and not ( attribute in ( "sendrecv", "sendonly", "recvonly", "inactive", "fingerprint", "group", "ice-options", "msid-semantic", "ice-pwd", "ice-ufrag", ) ): log.warning( "Received attribute before media description, this is " f"invalid: {line}" ) continue if attribute == "mid": assert media_data is not None try: media_data["id"] = parts[0] except IndexError: log.warning(f"invalid media ID: {line}") elif attribute == "rtpmap": assert application_data is not None assert payload_types is not None pt_id = int(parts[0]) codec_info = parts[1].split("/") codec = codec_info[0] clockrate = int(codec_info[1]) payload_type = { "id": pt_id, "name": codec, "clockrate": clockrate, } # Handle optional channel count if len(codec_info) > 2: channels = int(codec_info[2]) payload_type["channels"] = channels payload_types.setdefault(pt_id, {}).update(payload_type) elif attribute == "fmtp": assert payload_types is not None pt_id = int(parts[0]) params = parts[1].split(";") try: payload_type = payload_types[pt_id] except KeyError: raise ValueError( f"Can find content type {pt_id}, ignoring: {line}" ) try: payload_type["parameters"] = { name: value for name, value in (param.split("=") for param in params) } except ValueError: payload_type.setdefault("exra-parameters", []).extend(params) elif attribute == "candidate": assert transport_data is not None candidate = { "foundation": parts[0], "component_id": int(parts[1]), "transport": parts[2], "priority": int(parts[3]), "address": parts[4], "port": int(parts[5]), "type": parts[7], } for part in parts[8:]: if part == "raddr": candidate["rel_addr"] = parts[parts.index(part) + 1] elif part == "rport": candidate["rel_port"] = int(parts[parts.index(part) + 1]) elif part == "generation": candidate["generation"] = parts[parts.index(part) + 1] elif part == "network": candidate["network"] = parts[parts.index(part) + 1] transport_data.setdefault("candidates", []).append(candidate) elif attribute == "fingerprint": algorithm, fingerprint = parts[0], parts[1] fingerprint_data = {"hash": algorithm, "fingerprint": fingerprint} if transport_data is not None: transport_data.setdefault("fingerprint", {}).update( fingerprint_data ) elif attribute == "setup": assert transport_data is not None setup = parts[0] transport_data.setdefault("fingerprint", {})["setup"] = setup elif attribute == "b": assert application_data is not None bandwidth = int(parts[0]) application_data["bandwidth"] = bandwidth elif attribute == "rtcp-mux": assert application_data is not None application_data["rtcp-mux"] = True elif attribute == "ice-ufrag": if transport_data is not None: transport_data["ufrag"] = parts[0] elif attribute == "ice-pwd": if transport_data is not None: transport_data["pwd"] = parts[0] host.trigger.point( "XEP-0167_parse_sdp_a", attribute, parts, call_data, metadata, media_type, application_data, transport_data, triggers_no_cancel=True ) except ValueError as e: raise ValueError(f"Could not parse line. Invalid format ({e}): {line}") from e except IndexError as e: raise IndexError(f"Incomplete line. Missing data: {line}") from e # we remove private data (data starting with _, used by some plugins (e.g. XEP-0294) # to handle session data at media level)) for key in [k for k in call_data if k.startswith("_")]: log.debug(f"cleaning remaining private data {key!r}") del call_data[key] # FIXME: is this really useful? # ICE candidates may only be specified for the first media, this # duplicate the candidate for the other in this case all_media = {k:v for k,v in call_data.items() if k in ("audio", "video")} if len(all_media) > 1 and not all( "candidates" in c["transport_data"] for c in all_media.values() ): first_content = next(iter(all_media.values())) try: ice_candidates = first_content["transport_data"]["candidates"] except KeyError: ice_candidates = [] for idx, content in enumerate(all_media.values()): if idx == 0: continue content["transport_data"].setdefault("candidates", ice_candidates) return call_data def build_description(media: str, media_data: dict, session: dict) -> domish.Element: """Generate <description> element from media data @param media: media type ("audio" or "video") @param media_data: A dictionary containing the media description data. The keys and values are described below: - ssrc (str, optional): The synchronization source identifier. - payload_types (list): A list of dictionaries, each representing a payload type. Each dictionary may contain the following keys: - channels (str, optional): Number of audio channels. - clockrate (str, optional): Clock rate of the media. - id (str): The unique identifier of the payload type. - maxptime (str, optional): Maximum packet time. - name (str, optional): Name of the codec. - ptime (str, optional): Preferred packet time. - parameters (dict, optional): A dictionary of codec-specific parameters. Key-value pairs represent the parameter name and value, respectively. - bandwidth (str, optional): The bandwidth type. - rtcp-mux (bool, optional): Indicates whether RTCP multiplexing is enabled or not. - encryption (list, optional): A list of dictionaries, each representing an encryption method. Each dictionary may contain the following keys: - tag (str): The unique identifier of the encryption method. - crypto-suite (str): The encryption suite in use. - key-params (str): Key parameters for the encryption suite. - session-params (str, optional): Session parameters for the encryption suite. @return: A <description> element. """ # FIXME: to be removed once host is accessible from global var assert host is not None desc_elt = domish.Element((NS_JINGLE_RTP, "description"), attribs={"media": media}) for pt_id, pt_data in media_data.get("payload_types", {}).items(): payload_type_elt = desc_elt.addElement("payload-type") payload_type_elt["id"] = str(pt_id) for attr in ["channels", "clockrate", "maxptime", "name", "ptime"]: if attr in pt_data: payload_type_elt[attr] = str(pt_data[attr]) if "parameters" in pt_data: for param_name, param_value in pt_data["parameters"].items(): param_elt = payload_type_elt.addElement("parameter") param_elt["name"] = param_name param_elt["value"] = param_value host.trigger.point( "XEP-0167_build_description_payload_type", desc_elt, media_data, pt_data, payload_type_elt, triggers_no_cancel=True ) if "bandwidth" in media_data: bandwidth_elt = desc_elt.addElement("bandwidth") bandwidth_elt["type"] = media_data["bandwidth"] if media_data.get("rtcp-mux"): desc_elt.addElement("rtcp-mux") # Add encryption element if "encryption" in media_data: encryption_elt = desc_elt.addElement("encryption") # we always want require encryption if the `encryption` data is present encryption_elt["required"] = "1" for enc_data in media_data["encryption"]: crypto_elt = encryption_elt.addElement("crypto") for attr in ["tag", "crypto-suite", "key-params", "session-params"]: if attr in enc_data: crypto_elt[attr] = enc_data[attr] host.trigger.point( "XEP-0167_build_description", desc_elt, media_data, session, triggers_no_cancel=True ) return desc_elt def parse_description(desc_elt: domish.Element) -> dict: """Parse <desciption> to a dict @param desc_elt: <description> element @return: media data as in [build_description] """ # FIXME: to be removed once host is accessible from global var assert host is not None media_data = {} if desc_elt.hasAttribute("ssrc"): media_data.setdefault("ssrc", {})[desc_elt["ssrc"]] = {} payload_types = {} for payload_type_elt in desc_elt.elements(NS_JINGLE_RTP, "payload-type"): payload_type_data = { attr: payload_type_elt[attr] for attr in [ "channels", "clockrate", "maxptime", "name", "ptime", ] if payload_type_elt.hasAttribute(attr) } try: pt_id = int(payload_type_elt["id"]) except KeyError: log.warning( f"missing ID in payload type, ignoring: {payload_type_elt.toXml()}" ) continue parameters = {} for param_elt in payload_type_elt.elements(NS_JINGLE_RTP, "parameter"): param_name = param_elt.getAttribute("name") param_value = param_elt.getAttribute("value") if not param_name or param_value is None: log.warning(f"invalid parameter: {param_elt.toXml()}") continue parameters[param_name] = param_value if parameters: payload_type_data["parameters"] = parameters host.trigger.point( "XEP-0167_parse_description_payload_type", desc_elt, media_data, payload_type_elt, payload_type_data, triggers_no_cancel=True ) payload_types[pt_id] = payload_type_data # bandwidth media_data["payload_types"] = payload_types try: bandwidth_elt = next(desc_elt.elements(NS_JINGLE_RTP, "bandwidth")) except StopIteration: pass else: bandwidth = bandwidth_elt.getAttribute("type") if not bandwidth: log.warning(f"invalid bandwidth: {bandwidth_elt.toXml}") else: media_data["bandwidth"] = bandwidth # rtcp-mux rtcp_mux_elt = next(desc_elt.elements(NS_JINGLE_RTP, "rtcp-mux"), None) media_data["rtcp-mux"] = rtcp_mux_elt is not None # Encryption encryption_data = [] encryption_elt = next(desc_elt.elements(NS_JINGLE_RTP, "encryption"), None) if encryption_elt: media_data["encryption_required"] = C.bool( encryption_elt.getAttribute("required", C.BOOL_FALSE) ) for crypto_elt in encryption_elt.elements(NS_JINGLE_RTP, "crypto"): crypto_data = { attr: crypto_elt[attr] for attr in [ "crypto-suite", "key-params", "session-params", "tag", ] if crypto_elt.hasAttribute(attr) } encryption_data.append(crypto_data) if encryption_data: media_data["encryption"] = encryption_data host.trigger.point( "XEP-0167_parse_description", desc_elt, media_data, triggers_no_cancel=True ) return media_data