gstreamer/subprojects/gst-examples/webrtc/sendrecv/gst/webrtc_sendrecv.py

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#!/usr/bin/env python3
#
# Copyright (C) 2018 Matthew Waters <matthew@centricular.com>
# 2022 Nirbheek Chauhan <nirbheek@centricular.com>
#
# Demo gstreamer app for negotiating and streaming a sendrecv webrtc stream
# with a browser JS app, implemented in Python.
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import random
import ssl
import websockets
import asyncio
import os
import sys
import json
import argparse
import gi
gi.require_version('Gst', '1.0')
from gi.repository import Gst
gi.require_version('GstWebRTC', '1.0')
from gi.repository import GstWebRTC
gi.require_version('GstSdp', '1.0')
from gi.repository import GstSdp
# Ensure that gst-python is installed
try:
from gi.overrides import Gst as _
except ImportError:
print('gstreamer-python binding overrides aren\'t available, please install them')
raise
# These properties all mirror the ones in webrtc-sendrecv.c, see there for explanations
PIPELINE_DESC_VP8 = '''
webrtcbin name=sendrecv latency=0 stun-server=stun://stun.l.google.com:19302
videotestsrc is-live=true pattern=ball ! videoconvert ! queue ! \
vp8enc deadline=1 keyframe-max-dist=2000 ! rtpvp8pay picture-id-mode=15-bit !
queue ! application/x-rtp,media=video,encoding-name=VP8,payload={video_pt} ! sendrecv.
audiotestsrc is-live=true ! audioconvert ! audioresample ! queue ! opusenc ! rtpopuspay !
queue ! application/x-rtp,media=audio,encoding-name=OPUS,payload={audio_pt} ! sendrecv.
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'''
PIPELINE_DESC_H264 = '''
webrtcbin name=sendrecv latency=0 stun-server=stun://stun.l.google.com:19302
videotestsrc is-live=true pattern=ball ! videoconvert ! queue ! \
x264enc tune=zerolatency speed-preset=ultrafast key-int-max=30 intra-refresh=true ! rtph264pay aggregate-mode=zero-latency config-interval=-1 !
queue ! application/x-rtp,media=video,encoding-name=H264,payload={video_pt} ! sendrecv.
audiotestsrc is-live=true ! audioconvert ! audioresample ! queue ! opusenc ! rtpopuspay !
queue ! application/x-rtp,media=audio,encoding-name=OPUS,payload={audio_pt} ! sendrecv.
'''
PIPELINE_DESC = {
'H264': PIPELINE_DESC_H264,
'VP8': PIPELINE_DESC_VP8,
}
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from websockets.version import version as wsv
def print_status(msg):
print(f'--- {msg}')
def print_error(msg):
print(f'!!! {msg}', file=sys.stderr)
def get_payload_types(sdpmsg, video_encoding, audio_encoding):
'''
Find the payload types for the specified video and audio encoding.
Very simplistically finds the first payload type matching the encoding
name. More complex applications will want to match caps on
profile-level-id, packetization-mode, etc.
'''
video_pt = None
audio_pt = None
for i in range(0, sdpmsg.medias_len()):
media = sdpmsg.get_media(i)
for j in range(0, media.formats_len()):
fmt = media.get_format(j)
if fmt == 'webrtc-datachannel':
continue
pt = int(fmt)
caps = media.get_caps_from_media(pt)
s = caps.get_structure(0)
encoding_name = s['encoding-name']
if video_pt is None and encoding_name == video_encoding:
video_pt = pt
elif audio_pt is None and encoding_name == audio_encoding:
audio_pt = pt
return {video_encoding: video_pt, audio_encoding: audio_pt}
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class WebRTCClient:
def __init__(self, loop, our_id, peer_id, server, remote_is_offerer, video_encoding):
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self.conn = None
self.pipe = None
self.webrtc = None
self.event_loop = loop
self.server = server
# An optional user-specified ID we can use to register
self.our_id = our_id
# The actual ID we used to register
self.id_ = None
# An optional peer ID we should connect to
self.peer_id = peer_id
# Whether we will send the offer or the remote peer will
self.remote_is_offerer = remote_is_offerer
# Video encoding: VP8, H264, etc
self.video_encoding = video_encoding.upper()
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async def send(self, msg):
assert self.conn
print(f'>>> {msg}')
await self.conn.send(msg)
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async def connect(self):
webrtc_sendrecv.py: Fix SSLError when connecting to websocket server ``` File "/../gstreamer/subprojects/gst-examples/webrtc/sendrecv/gst/webrtc_sendrecv.py", line 189, in <module> loop.run_until_complete(c.connect()) File "/usr/lib64/python3.10/asyncio/base_events.py", line 641, in run_until_complete return future.result() File "/../gstreamer/subprojects/gst-examples/webrtc/sendrecv/gst/webrtc_sendrecv.py", line 40, in connect self.conn = await websockets.connect(self.server, ssl=sslctx) File "/home/nirbheek/.local/lib/python3.10/site-packages/websockets/legacy/client.py", line 650, in __await_impl_timeout__ return await asyncio.wait_for(self.__await_impl__(), self.open_timeout) File "/usr/lib64/python3.10/asyncio/tasks.py", line 445, in wait_for return fut.result() File "/home/nirbheek/.local/lib/python3.10/site-packages/websockets/legacy/client.py", line 654, in __await_impl__ transport, protocol = await self._create_connection() File "/usr/lib64/python3.10/asyncio/base_events.py", line 1080, in create_connection transport, protocol = await self._create_connection_transport( File "/usr/lib64/python3.10/asyncio/base_events.py", line 1110, in _create_connection_transport await waiter File "/usr/lib64/python3.10/asyncio/sslproto.py", line 631, in _on_handshake_complete raise handshake_exc File "/usr/lib64/python3.10/asyncio/sslproto.py", line 676, in _process_write_backlog ssldata = self._sslpipe.do_handshake( File "/usr/lib64/python3.10/asyncio/sslproto.py", line 116, in do_handshake self._sslobj = self._context.wrap_bio( File "/usr/lib64/python3.10/ssl.py", line 526, in wrap_bio return self.sslobject_class._create( File "/usr/lib64/python3.10/ssl.py", line 865, in _create sslobj = context._wrap_bio( ssl.SSLError: Cannot create a client socket with a PROTOCOL_TLS_SERVER context (_ssl.c:801) ``` Part-of: <https://gitlab.freedesktop.org/gstreamer/gstreamer/-/merge_requests/1821>
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self.conn = await websockets.connect(self.server)
if self.our_id is None:
self.id_ = str(random.randrange(10, 10000))
else:
self.id_ = self.our_id
await self.send(f'HELLO {self.id_}')
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async def setup_call(self):
assert self.peer_id
await self.send(f'SESSION {self.peer_id}')
def send_soon(self, msg):
asyncio.run_coroutine_threadsafe(self.send(msg), self.event_loop)
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def on_bus_poll_cb(self, bus):
def remove_bus_poll():
self.event_loop.remove_reader(bus.get_pollfd().fd)
self.event_loop.stop()
while bus.peek():
msg = bus.pop()
if msg.type == Gst.MessageType.ERROR:
err = msg.parse_error()
print("ERROR:", err.gerror, err.debug)
remove_bus_poll()
break
elif msg.type == Gst.MessageType.EOS:
remove_bus_poll()
break
def send_sdp(self, offer):
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text = offer.sdp.as_text()
if offer.type == GstWebRTC.WebRTCSDPType.OFFER:
print_status('Sending offer:\n%s' % text)
msg = json.dumps({'sdp': {'type': 'offer', 'sdp': text}})
elif offer.type == GstWebRTC.WebRTCSDPType.ANSWER:
print_status('Sending answer:\n%s' % text)
msg = json.dumps({'sdp': {'type': 'answer', 'sdp': text}})
else:
raise AssertionError(offer.type)
self.send_soon(msg)
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def on_offer_created(self, promise, _, __):
assert(promise.wait() == Gst.PromiseResult.REPLIED)
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reply = promise.get_reply()
offer = reply['offer']
promise = Gst.Promise.new()
print_status('Offer created, setting local description')
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self.webrtc.emit('set-local-description', offer, promise)
promise.interrupt() # we don't care about the result, discard it
self.send_sdp(offer)
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def on_negotiation_needed(self, _, create_offer):
if create_offer:
print_status('Call was connected: creating offer')
promise = Gst.Promise.new_with_change_func(self.on_offer_created, None, None)
self.webrtc.emit('create-offer', None, promise)
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def send_ice_candidate_message(self, _, mlineindex, candidate):
icemsg = json.dumps({'ice': {'candidate': candidate, 'sdpMLineIndex': mlineindex}})
self.send_soon(icemsg)
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def on_incoming_decodebin_stream(self, _, pad):
if not pad.has_current_caps():
print_error(pad, 'has no caps, ignoring')
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return
caps = pad.get_current_caps()
assert (len(caps))
s = caps[0]
name = s.get_name()
if name.startswith('video'):
q = Gst.ElementFactory.make('queue')
conv = Gst.ElementFactory.make('videoconvert')
sink = Gst.ElementFactory.make('autovideosink')
self.pipe.add(q, conv, sink)
self.pipe.sync_children_states()
pad.link(q.get_static_pad('sink'))
q.link(conv)
conv.link(sink)
elif name.startswith('audio'):
q = Gst.ElementFactory.make('queue')
conv = Gst.ElementFactory.make('audioconvert')
resample = Gst.ElementFactory.make('audioresample')
sink = Gst.ElementFactory.make('autoaudiosink')
self.pipe.add(q, conv, resample, sink)
self.pipe.sync_children_states()
pad.link(q.get_static_pad('sink'))
q.link(conv)
conv.link(resample)
resample.link(sink)
def on_ice_gathering_state_notify(self, pspec, _):
state = self.webrtc.get_property('ice-gathering-state')
print_status(f'ICE gathering state changed to {state}')
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def on_incoming_stream(self, _, pad):
if pad.direction != Gst.PadDirection.SRC:
return
decodebin = Gst.ElementFactory.make('decodebin')
decodebin.connect('pad-added', self.on_incoming_decodebin_stream)
self.pipe.add(decodebin)
decodebin.sync_state_with_parent()
pad.link(decodebin.get_static_pad('sink'))
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def start_pipeline(self, create_offer=True, audio_pt=96, video_pt=97):
print_status(f'Creating pipeline, create_offer: {create_offer}')
self.pipe = Gst.parse_launch(PIPELINE_DESC[self.video_encoding].format(video_pt=video_pt, audio_pt=audio_pt))
bus = self.pipe.get_bus()
self.event_loop.add_reader(bus.get_pollfd().fd, self.on_bus_poll_cb, bus)
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self.webrtc = self.pipe.get_by_name('sendrecv')
self.webrtc.connect('on-negotiation-needed', self.on_negotiation_needed, create_offer)
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self.webrtc.connect('on-ice-candidate', self.send_ice_candidate_message)
self.webrtc.connect('notify::ice-gathering-state', self.on_ice_gathering_state_notify)
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self.webrtc.connect('pad-added', self.on_incoming_stream)
self.pipe.set_state(Gst.State.PLAYING)
def on_answer_created(self, promise, _, __):
assert(promise.wait() == Gst.PromiseResult.REPLIED)
reply = promise.get_reply()
answer = reply['answer']
promise = Gst.Promise.new()
self.webrtc.emit('set-local-description', answer, promise)
promise.interrupt() # we don't care about the result, discard it
self.send_sdp(answer)
def on_offer_set(self, promise, _, __):
assert(promise.wait() == Gst.PromiseResult.REPLIED)
promise = Gst.Promise.new_with_change_func(self.on_answer_created, None, None)
self.webrtc.emit('create-answer', None, promise)
def handle_json(self, message):
try:
msg = json.loads(message)
except json.decoder.JSONDecoderError:
print_error('Failed to parse JSON message, this might be a bug')
raise
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if 'sdp' in msg:
sdp = msg['sdp']['sdp']
if msg['sdp']['type'] == 'answer':
print_status('Received answer:\n%s' % sdp)
res, sdpmsg = GstSdp.SDPMessage.new_from_text(sdp)
answer = GstWebRTC.WebRTCSessionDescription.new(GstWebRTC.WebRTCSDPType.ANSWER, sdpmsg)
promise = Gst.Promise.new()
self.webrtc.emit('set-remote-description', answer, promise)
promise.interrupt() # we don't care about the result, discard it
else:
print_status('Received offer:\n%s' % sdp)
res, sdpmsg = GstSdp.SDPMessage.new_from_text(sdp)
if not self.webrtc:
print_status('Incoming call: received an offer, creating pipeline')
pts = get_payload_types(sdpmsg, video_encoding=self.video_encoding, audio_encoding='OPUS')
assert(self.video_encoding in pts)
assert('OPUS' in pts)
self.start_pipeline(create_offer=False, video_pt=pts[self.video_encoding], audio_pt=pts['OPUS'])
assert(self.webrtc)
offer = GstWebRTC.WebRTCSessionDescription.new(GstWebRTC.WebRTCSDPType.OFFER, sdpmsg)
promise = Gst.Promise.new_with_change_func(self.on_offer_set, None, None)
self.webrtc.emit('set-remote-description', offer, promise)
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elif 'ice' in msg:
assert(self.webrtc)
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ice = msg['ice']
candidate = ice['candidate']
sdpmlineindex = ice['sdpMLineIndex']
self.webrtc.emit('add-ice-candidate', sdpmlineindex, candidate)
else:
print_error('Unknown JSON message')
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def close_pipeline(self):
if self.pipe:
self.pipe.set_state(Gst.State.NULL)
self.pipe = None
self.webrtc = None
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async def loop(self):
assert self.conn
async for message in self.conn:
print(f'<<< {message}')
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if message == 'HELLO':
assert self.id_
# If a peer ID is specified, we want to connect to it. If not,
# we wait for an incoming call.
if not self.peer_id:
print_status(f'Waiting for incoming call: ID is {self.id_}')
else:
if self.remote_is_offerer:
print_status('Have peer ID: initiating call (will request remote peer to create offer)')
else:
print_status('Have peer ID: initiating call (will create offer)')
await self.setup_call()
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elif message == 'SESSION_OK':
if self.remote_is_offerer:
# We are initiating the call, but we want the remote peer to create the offer
print_status('Call was connected: requesting remote peer for offer')
await self.send('OFFER_REQUEST')
else:
self.start_pipeline()
elif message == 'OFFER_REQUEST':
print_status('Incoming call: we have been asked to create the offer')
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self.start_pipeline()
elif message.startswith('ERROR'):
print_error(message)
self.close_pipeline()
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return 1
else:
self.handle_json(message)
self.close_pipeline()
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return 0
async def stop(self):
if self.conn:
await self.conn.close()
self.conn = None
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def check_plugins():
needed = ["opus", "vpx", "nice", "webrtc", "dtls", "srtp", "rtp",
"rtpmanager", "videotestsrc", "audiotestsrc"]
missing = list(filter(lambda p: Gst.Registry.get().find_plugin(p) is None, needed))
if len(missing):
print_error('Missing gstreamer plugins:', missing)
return False
return True
if __name__ == '__main__':
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Gst.init(None)
if not check_plugins():
sys.exit(1)
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parser = argparse.ArgumentParser()
parser.add_argument('--video-encoding', default='vp8', nargs='?', choices=['vp8', 'h264'],
help='Video encoding to negotiate')
parser.add_argument('--peer-id', help='String ID of the peer to connect to')
parser.add_argument('--our-id', help='String ID that the peer can use to connect to us')
parser.add_argument('--server', default='wss://webrtc.nirbheek.in:8443',
help='Signalling server to connect to, eg "wss://127.0.0.1:8443"')
parser.add_argument('--remote-offerer', default=False, action='store_true',
dest='remote_is_offerer',
help='Request that the peer generate the offer and we\'ll answer')
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args = parser.parse_args()
if not args.peer_id and not args.our_id:
print('You must pass either --peer-id or --our-id')
sys.exit(1)
loop = asyncio.new_event_loop()
c = WebRTCClient(loop, args.our_id, args.peer_id, args.server, args.remote_is_offerer, args.video_encoding)
loop.run_until_complete(c.connect())
res = loop.run_until_complete(c.loop())
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sys.exit(res)