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iwd/test/wfd-source

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#! /usr/bin/python3
#
# Copyright (C) 2020 Intel Corporation
#
# A simplified WFD source that streams the X11 screen using gstreamer
# A more complete solution would create a virtual screen visible through the normal system calls, xrandr, etc.,
# with its pixel aspect ratio, EDID data and what not. This would allow the user to configure it like a real
# display in mirror mode or side-by-side mode.
import sys
import dbus
import dbus.mainloop.glib
import socket
import collections
import collections.abc
import random
import dataclasses
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import traceback
import codecs
try:
import netifaces
except:
pass
import gi
gi.require_version('GLib', '2.0')
gi.require_version('Gst', '1.0')
gi.require_version('Gtk', '3.0')
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from gi.repository import GLib, Gst, Gtk, Gdk, Pango, GObject
class WFDRTSPServer:
class RTSPException(Exception):
pass
Prop = collections.namedtuple('Prop', ['name', 'desc', 'getter', 'setter', 'type', 'vals'])
def __init__(self, port, state_handler, error_handler, init_values, prop_handler):
# Should start the TCP server only on the P2P connection's local IP but we won't
# know the IP or interface name until after the connection is established. At that
# time the sink may try to make the TCP connection at any time so our listen
# socket should be up before this.
server_address = ('0.0.0.0', port)
self.server = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
self.server.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
self.server.bind(server_address)
self.server.listen(1)
GLib.io_add_watch(self.server, GLib.IO_IN, self.handle_connection)
self.conn = None
self.tx_queue = []
self.rx_queue = b''
self.state_handler = state_handler
self.error_handler = error_handler
self.prop_handler = prop_handler
self.sm_init(init_values)
def handle_data_out(self, conn, *args):
try:
cmd = self.tx_queue.pop(0)
sent = self.conn.send(cmd)
if sent < len(cmd):
self.tx_queue.insert(0, cmd[sent:])
return len(self.tx_queue) > 0
except Exception as e:
self.error_handler(e)
return False
def tx_queue_append(self, cmd):
if not self.tx_queue:
GLib.io_add_watch(self.conn.fileno(), GLib.IO_OUT, self.handle_data_out)
self.tx_queue.append(cmd.encode('utf-8'))
self.debug('queued cmd: ' + cmd)
def handle_data_hup(self, conn, *args):
try:
self.debug('HUP')
self.error('Disconnected')
except Exception as e:
self.error_handler(e)
return False
def handle_data_in(self, conn, *args):
try:
newdata = self.conn.recv(4096)
if len(newdata) == 0:
self.debug('recv returned 0 bytes')
# Disconnect from P2P
self.error('Disconnected')
return False
self.debug('received data: ' + str(newdata))
self.rx_queue += newdata
while b'\r\n\r\n' in self.rx_queue:
msg, content = self.rx_queue.split(b'\r\n\r\n', 1)
lines = msg.split(b'\r\n')
headers = {}
for line in lines[1:]:
if b':' not in line:
# Bad syntax
rxbuf = b''
return True
name, value = line.decode('utf8').split(':', 1)
name = name.lower()
while len(value) and value[0] == ' ':
value = value[1:]
if name in headers:
# Duplicate
rxbuf = b''
return True
headers[name] = value
cl = 0
if 'content-length' in headers:
try:
cl = int(headers['content-length'])
if cl < 1 or cl > 1000:
raise Exception('')
except:
# Bad syntax
rxbuf = b''
return True
if len(content) < cl:
# Wait for more data
return True
top_line = lines[0].decode('utf8').split(None, 2)
self.rx_queue = self.rx_queue[len(msg) + 4 + cl:]
content = content[:cl]
if top_line[2] == 'RTSP/1.0':
self.source_handle_message(method=top_line[0], target=top_line[1], headers=headers, content=content)
elif top_line[0] == 'RTSP/1.0':
try:
status = int(top_line[1])
if status < 1 or status > 999:
raise Exception('Status out of range')
except:
self.error('Couldn\'t parse response status')
self.source_handle_message(status=status, reason=top_line[2], headers=headers, content=content)
else:
# Bad protocol
self.error('Unknown protocol in ' + str(top_line))
return True
except Exception as e:
self.error_handler(e)
return False
def handle_connection(self, sock, *args):
try:
if self.conn:
return False
self.conn, addr = sock.accept()
self.debug('RTSP connection from: ' + str(addr))
self.remote_ip = addr[0]
if self.expected_remote_ip and self.remote_ip != self.expected_remote_ip:
self.conn.close()
self.conn = None
self.debug('Connection refused, bad source address')
return True
sock.close()
self.server = None
GLib.io_add_watch(self.conn.fileno(), GLib.IO_IN, self.handle_data_in)
GLib.io_add_watch(self.conn.fileno(), GLib.IO_HUP, self.handle_data_hup)
self._state = 'init'
self.source_handle_message()
return False
except Exception as e:
self.error_handler(e)
return False
def error(self, msg):
self.enter_state('failed')
e = WFDRTSPServer.RTSPException('State ' + self._state + ': ' + msg)
self.debug('error: ' + msg)
raise e
def warning(self, msg):
self.debug('warning: ' + msg)
print('Warning: ' + msg + '\n')
def debug(self, msg):
pass
@property
def state(self):
return self._state
def enter_state(self, new_state):
self.debug('state change: ' + self._state + ' -> ' + new_state)
self._state = new_state
self.state_handler()
@property
def ready(self):
return self._state in ['streaming', 'paused']
@property
def props(self):
return self._props
def sm_init(self, init_values):
self._state = 'waiting-rtsp'
self.local_params = {
'wfd_video_formats': '00 00 01 08 00000000 00000000 00000040 00 0000 0000 00 none none'
}
self.remote_params = {}
self.local_methods = [ 'org.wfa.wfd1.0', 'SET_PARAMETER', 'GET_PARAMETER', 'PLAY', 'SETUP', 'TEARDOWN' ]
self.presentation_url = [ 'rtsp://127.0.0.1/wfd1.0/streamid=0', 'none' ] # Table 88
self.alternative_urls = [ 'rtsp://localhost/wfd1.0/streamid=0' ]
self.session_stream_url = None
self.session_id = None
self.session_timeout = 60
self.local_cseq = 0
self.remote_cseq = None
self.last_method = None
self.last_require = []
self.last_params = []
self.remote_rtp_port = None
self.remote_rtcp_port = None
self.local_rtp_port = None
self.local_rtcp_port = None
self.use_tcp = None
self.rtp_pipeline = None
self.rtsp_keepalive = None
self.rtsp_keepalive_timeout = None
self.expected_remote_ip = None
self.remote_ip = None
self.init_width = init_values['width']
self.init_height = init_values['height']
self.rtcp_enabled = init_values['rtcp_enabled']
self._props = []
@staticmethod
def get_init_props():
props = []
values = {
'width': 800,
'height': 600,
'rtcp_enabled': True
}
def set_val(key, val):
values[key] = val
props.append(WFDRTSPServer.Prop('Output width', 'Scale the video stream to this X resolution for sending',
lambda: values['width'], lambda x: set_val('width', x), int, (640, 1920)))
props.append(WFDRTSPServer.Prop('Output height', 'Scale the video stream to this Y resolution for sending',
lambda: values['height'], lambda x: set_val('height', x), int, (480, 1080)))
props.append(WFDRTSPServer.Prop('Enable RTCP', 'Use RTCP if the Sink requests it during setup',
lambda: values['rtcp_enabled'], lambda x: set_val('rtcp_enabled', x), bool, None))
# TODO: Enable Audio
# TODO: Audio source
return props, values
def close(self):
# Avoid passing self to io watches so that the refcount can ever reach 0 and
# all this can be done in __del__
if self.rtsp_keepalive:
GLib.source_remove(self.rtsp_keepalive)
self.rtsp_keepalive = None
if self.rtsp_keepalive_timeout:
GLib.source_remove(self.rtsp_keepalive_timeout)
self.rtsp_keepalive_timeout = None
if self.rtp_pipeline:
self.rtp_pipeline.set_state(Gst.State.NULL)
self.rtp_pipeline = None
if self.server:
self.server.close()
self.server = None
if self.conn:
self.conn.close()
self.conn = None
def set_local_interface(self, new_value):
try:
local_ip = netifaces.ifaddresses(new_value)[netifaces.AF_INET][0]['addr']
self.alternative_urls.append('rtsp://' + local_ip + '/wfd1.0/streamid=0')
except:
pass
def set_remote_ip(self, new_value):
self.expected_remote_ip = new_value
if self.conn and self.remote_ip != self.expected_remote_ip:
self.error_handler(WFDRTSPServer.RTSPException('Connection was from a wrong IP')) # TODO: do this in an idle cb
def validate_msg(self, method, expected_method, status, reason, headers, target, content):
if expected_method is None:
# Expected a response, not a request
if method is not None:
self.error('Received a "' + method + '" request where a response was expected')
if status < 200 or status > 299:
self.error('Response status ' + str(status) + ' and reason: ' + reason)
if status != 200:
self.warning('Response status was ' + str(status) + ' ("' + reason + '") in state ' + self._state)
try:
if int(headers['cseq']) != self.local_cseq:
self.error('Response CSeq doesn\'t match')
except:
self.error('Missing or unparsable CSeq in a response')
if self.last_method == 'OPTIONS':
if 'public' not in headers:
self.error('Missing "Public" header in OPTIONS response')
public = [ m.strip() for m in headers['public'].split(',') ]
missing = [ m for m in self.last_require if m not in public ]
if missing:
self.error('Missing required method(s) "' + '", "'.join(missing) + '" in OPTIONS response')
if self.last_method == 'GET_PARAMETER':
params = {}
for line in content.split(b'\r\n'):
if b':' not in line:
continue
k, v = line.decode('utf8').split(':', 1)
if k.strip() in params:
self.error('Duplicate key "' + k + '" in GET_PARAMETER response')
params[k.strip()] = v.strip()
missing = [ p for p in self.last_params if p not in params ]
if missing: # Not an error
self.warning('Missing key(s) "' + '", "'.join(missing) + '" in GET_PARAMETER response')
self.remote_params.update(params)
return
if method is None:
self.error('Received an RTSP response where a ' + expected_method + ' was expected')
if method != expected_method:
self.error('Received a "' + method + '" request where a ' + expected_method + ' was expected')
try:
if self.remote_cseq is not None and int(headers['cseq']) <= self.remote_cseq:
self.error('Unchanged CSeq in a new request')
self.remote_cseq = int(headers['cseq'])
except:
self.error('Missing or unparsable CSeq in a new request')
if method == 'OPTIONS' and 'require' not in headers:
self.error('Missing "Require" header in OPTIONS request')
elif method == 'SETUP' and 'transport' not in headers:
self.error('Missing "Transport" header in SETUP request')
elif method == 'SETUP' and (target not in self.presentation_url + self.alternative_urls or target == 'none'):
self.error('Unknown target "' + target + '" in SETUP request')
elif method == 'PLAY' and ('session' not in headers or headers['session'] != self.session_id):
self.error('Missing or invalid "Session" header in PLAY request')
elif method == 'PLAY' and target != self.session_stream_url:
self.error('Unknown target "' + target + '" in PLAY request')
elif method == 'PAUSE' and 'session' not in headers:
self.error('Missing "Session" header in PAUSE request')
elif method == 'PAUSE' and target != self.session_stream_url:
self.error('Unknown target "' + target + '" in PAUSE request')
elif method == 'TEARDOWN' and 'session' not in headers:
self.error('Missing "Session" header in TEARDOWN request')
elif method == 'TEARDOWN' and target != self.session_stream_url:
self.error('Unknown target "' + target + '" in TEARDOWN request')
elif method == 'SET_PARAMETER':
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params = []
names = []
for line in content.split(b'\r\n'):
param = (line.decode('utf8').strip(), None)
if not param[0]:
continue
if ':' in param[0]:
k, v = param[0].split(':', 1)
param = (k.strip(), v.strip())
if param[0] in names:
self.error('Duplicate key "' + param[0] + '" in SET_PARAMETER response')
names.append(param[0])
params.append(param)
self.last_params = params
def request(self, method, target, require=[], params=[]):
content = ''
cmd = method + ' ' + target + ' RTSP/1.0\r\n'
self.local_cseq += 1
cmd += 'CSeq: ' + str(self.local_cseq) + '\r\n'
if require:
cmd += 'Require: ' + ', '.join(require) + '\r\n'
if params:
if isinstance(params, collections.abc.Mapping):
content = ''.join([ k + ': ' + params[k] + '\r\n' for k in params ])
else:
content = ''.join([ k + '\r\n' for k in params ])
content_type = 'text/parameters'
if content:
cmd += 'Content-Type: ' + content_type + '\r\n'
cmd += 'Content-Length: ' + str(len(content)) + '\r\n'
cmd += '\r\n'
self.tx_queue_append(cmd + content)
self.last_method = method
self.last_require = require
self.last_params = params
def response(self, public=[], session=None, transport=None):
cmd = 'RTSP/1.0 200 OK\r\n'
cmd += 'CSeq: ' + str(self.remote_cseq) + '\r\n'
if public:
cmd += 'Public: ' + ', '.join(public) + '\r\n'
if session is not None:
cmd += 'Session: ' + session + '\r\n'
if transport is not None:
cmd += 'Transport: ' + transport + '\r\n'
cmd += '\r\n'
self.tx_queue_append(cmd)
def parse_video_formats(self, value):
# TODO
pass
def parse_client_rtp_ports(self, value):
profile, rtp_p0_str, rtp_p1_str, mode = value.split()
try:
rtp_p0 = int(rtp_p0_str)
rtp_p1 = int(rtp_p1_str)
except:
self.error('Can\'t parse rtp-port in wfd-client-rtp-ports: ' + value)
if rtp_p0 < 1 or rtp_p0 > 65535:
self.error('rtp-port0 not valid for Primary Sink: ' + rtp_p0_str)
if rtp_p1 != 0: # Table 90
self.error('rtp-port1 not valid for Primary Sink: ' + rtp_p1_str)
if profile not in ['RTP/AVP/UDP;unicast', 'RTP/AVP/TCP;unicast']:
self.error('Unknown RTP transport in wfd-client-rtp-ports: ' + profile)
if mode != 'mode=play':
self.error('Unknown mode in wfd-client-rtp-ports: ' + mode)
self.remote_rtp_port = rtp_p0
self.use_tcp = (profile == 'RTP/AVP/TCP;unicast')
def parse_transport(self, value):
params = value.split(';')
if len(params) < 3:
self.error('Can\'t split SETUP Transport header into profile and port numbers: ' + value)
profile = ';'.join(params[0:2])
if profile not in ['RTP/AVP/UDP;unicast', 'RTP/AVP/TCP;unicast']:
self.error('Unknown RTP transport in SETUP Transport header: ' + profile)
if self.use_tcp != (profile == 'RTP/AVP/TCP;unicast'):
self.error('RTP transport in SETUP Transport header different from what we sent in M4: ' + profile)
client_port_strs = [p for p in params[2:] if p.startswith('client_port=')]
if len(client_port_strs) != 1:
self.error('Can\'t find client-port in SETUP Transport header: ' + value)
client_ports = client_port_strs[0].split('=', 1)[1].split('-')
try:
rtp_port = int(client_ports[0])
if len(client_ports) > 1:
rtcp_port = int(client_ports[1])
except:
self.error('Can\'t parse client-port in SETUP Transport header: ' + client_port_strs[0])
if rtp_port != self.remote_rtp_port:
self.error('client-port in SETUP Transport header doesn\'t match what we sent in M4: ' + str(rtp_port))
if len(client_ports) > 1:
if rtcp_port < 1 or rtcp_port > 65535 or rtcp_port == rtp_port: # Actually must be rtp_port + 1...
self.error('Optional RTCP port not valid in SETUP Transport header: ' + str(rtcp_port))
self.remote_rtcp_port = rtcp_port
self._props.append(WFDRTSPServer.Prop('RTP transport', '', lambda: 'TCP' if self.use_tcp else 'UDP', None, str, None))
self._props.append(WFDRTSPServer.Prop('Remote RTP port', '', lambda: self.remote_rtp_port, None, int, None))
self._props.append(WFDRTSPServer.Prop('Remote RTCP port', '', lambda: self.remote_rtcp_port, None, int, None))
def parse_display_edid(self):
try:
len_str, hex_str = self.remote_params['wfd_display_edid'].split(' ', 1)
if len(len_str.strip()) != 4:
raise Exception('edid-block-count length is not 4 hex digits')
blocks = int(len_str, 16)
edid = codecs.decode(hex_str.strip(), 'hex')
if blocks < 1 or blocks > 256 or blocks * 128 != len(edid):
raise Exception('edid-block-count value wrong')
except:
edid = None
self._props.append(WFDRTSPServer.Prop('EDID info', 'Remote display\'s EDID data', lambda: edid, None, bytes, None))
def create_running_props(self):
src = self.rtp_pipeline.get_by_name('src')
fps = self.rtp_pipeline.get_by_name('fps')
enc = self.rtp_pipeline.get_by_name('videnc')
res = self.rtp_pipeline.get_by_name('res')
sink = self.rtp_pipeline.get_by_name('sink')
self.pipeline_props = []
srcpadcaps = src.srcpads[0].get_allowed_caps()
width = srcpadcaps[0]['width']
height = srcpadcaps[0]['height']
props = []
props.append(WFDRTSPServer.Prop('Local width', 'Local screen X resolution', lambda: width, None, int, None))
props.append(WFDRTSPServer.Prop('Local height', 'Local screen Y resolution', lambda: height, None, int, None))
def set_use_damage(val):
src.props.use_damage = val
props.append(WFDRTSPServer.Prop('Use XDamage', 'Try to use XDamage to reduce bandwidth usage',
lambda: src.props.use_damage, set_use_damage, bool, None))
src.props.endx = width
src.props.endy = height
def set_startx(val):
src.set_property('startx', min(val, src.props.endx - 1))
def set_starty(val):
src.set_property('starty', min(val, src.props.endy - 1))
def set_endx(val):
src.set_property('endx', max(val, src.props.startx + 1))
def set_endy(val):
src.set_property('endy', max(val, src.props.starty + 1))
props.append(WFDRTSPServer.Prop('Window min X', 'Skip this many pixels on the left side of the local screen',
lambda: src.props.startx, set_startx, int, (0, width - 1)))
props.append(WFDRTSPServer.Prop('Window min Y', 'Skip this many pixels on the top of the local screen',
lambda: src.props.starty, set_starty, int, (0, height - 1)))
props.append(WFDRTSPServer.Prop('Window max X', 'Send screen contents only up to this X coordinate',
lambda: src.props.endx, set_endx, int, (1, width)))
props.append(WFDRTSPServer.Prop('Window max Y', 'Send screen contents only up to this Y coordinate',
lambda: src.props.endy, set_endy, int, (1, height)))
def set_framerate(val):
fps.props.caps[0]['framerate'] = Gst.Fraction(val)
def set_width(val):
res.props.caps[0]['width'] = val
def set_height(val):
res.props.caps[0]['height'] = val
props.append(WFDRTSPServer.Prop('Framerate', 'Try to output this many frames per second',
lambda: int(fps.props.caps[0]['framerate'].num), set_framerate, int, (1, 30)))
props.append(WFDRTSPServer.Prop('Output width', 'Scale the video stream to this X resolution for sending',
lambda: res.props.caps[0]['width'], set_width, int, (640, 1920)))
props.append(WFDRTSPServer.Prop('Output height', 'Scale the video stream to this Y resolution for sending',
lambda: res.props.caps[0]['height'], set_height, int, (480, 1080)))
preset_values = ['veryslow', 'slower', 'slow', 'medium', 'fast', 'faster', 'veryfast', 'superfast', 'ultrafast', 'placebo']
preset_map = {'veryslow': 9, 'slower': 8, 'slow': 7, 'medium': 6, 'fast': 5, 'faster': 4, 'veryfast': 3, 'superfast': 2, 'ultrafast': 1, 'placebo': 10}
def set_speed_preset(val):
enc.props.speed_preset = preset_map[val]
props.append(WFDRTSPServer.Prop('H.264 speed preset', 'Speed/quality setting of the H.264 encoder to optimise bandwidth/latency',
lambda: enc.props.speed_preset.value_nick, set_speed_preset, str, preset_values))
def set_max_lateness(val):
if val <= 0:
sink.props.max_lateness = -1
else:
sink.props.max_lateness = val * 1000000 # milliseconds to nanoseconds
props.append(WFDRTSPServer.Prop('Max lateness', 'Maximum number of milliseconds that a buffer can be late before it is dropped, or 0 for unlimited',
lambda: 0 if sink.props.max_lateness == -1 else sink.props.max_lateness / 1000000, set_max_lateness, int, (-1, 3000)))
return props
def on_gst_message(self, bus, message):
t = message.type
if t == Gst.MessageType.EOS:
self.error('Gstreamer end-of-stream')
elif t == Gst.MessageType.STATE_CHANGED:
old, new, pending = message.parse_state_changed()
self.debug('Gstreamer state change for ' + message.src.name + ' from ' + str(old) + ' to ' + str(new) + ', pending=' + str(pending))
if message.src == self.rtp_pipeline:
self.prop_handler()
elif t == Gst.MessageType.INFO:
err, debug = message.parse_info()
self.debug('Gstreamer info for ' + message.src.name + ': ' + str(err) + '\nDebug: ' + str(debug))
elif t == Gst.MessageType.WARNING:
err, debug = message.parse_warning()
self.debug('Gstreamer warning for ' + message.src.name + ': ' + str(err) + '\nDebug: ' + str(debug))
elif t == Gst.MessageType.ERROR:
err, debug = message.parse_error()
self.error('Gstreamer error for ' + message.src.name + ': ' + str(err) + '\nDebug: ' + str(debug))
else:
self.debug('Gstreamer message of type ' + str(t) + ' for ' + message.src.name + ': ' + str(message))
return True
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def force_keyframe(self):
enc = self.rtp_pipeline.get_by_name('videnc')
sink = enc.get_static_pad('sink')
timestamp = Gst.CLOCK_TIME_NONE # can/should we use sink.query_position?
s = Gst.Structure('GstForceKeyUnit')
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s.set_value('timestamp', GObject.Value(GObject.TYPE_UINT64, timestamp))
s.set_value('stream-time', GObject.Value(GObject.TYPE_UINT64, timestamp))
s.set_value('all-headers', GObject.Value(GObject.TYPE_BOOLEAN, True))
# TODO: can we also send this event directly to the element instead of the pad?
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sink.send_event(Gst.Event.new_custom(Gst.EventType.CUSTOM_DOWNSTREAM, s))
def reset_stream(self):
if self.rtp_pipeline.get_state(timeout=0)[1] == Gst.State.PLAYING:
self.rtp_pipeline.set_state(Gst.State.PAUSED)
self.rtp_pipeline.set_state(Gst.State.PLAYING)
def rtsp_keepalive_timeout_cb(self):
try:
self.rtsp_keepalive_timeout = None
self.error('Keep-alive response timed out')
except Exception as e:
self.error_handler(e)
return False
def rtsp_keepalive_cb(self):
try:
# Send M16
# May need to start being careful with other requests that may be running...
self.request('GET_PARAMETER', 'rtsp://localhost/wfd1.0')
self.rtsp_keepalive_timeout = GLib.timeout_add_seconds(5, self.rtsp_keepalive_timeout_cb)
return True
except Exception as e:
self.error_handler(e)
return False
def source_handle_message(self, method=None, target=None, status=None, reason=None, headers={}, content=None):
# TODO: check the 6s timeouts as per Section 6.5
# Source side M1-M8 simplified state machine
if self._state == 'init':
# Send M1
self.request('OPTIONS', '*', require=['org.wfa.wfd1.0'])
self.enter_state('M1')
elif self._state == 'M1':
# Validate M1 response
self.validate_msg(method, None, status, reason, headers, None, content)
methods = [ m.strip() for m in headers['public'].split(',') ]
required = [ 'org.wfa.wfd1.0', 'SET_PARAMETER', 'GET_PARAMETER' ]
missing = [ m for m in required if m not in methods ]
if missing:
self.error('Missing required method(s) "' + '", "'.join(missing) + '" in OPTIONS response')
self.enter_state('M2')
elif self._state == 'M2':
# Validate M2
self.validate_msg(method, 'OPTIONS', status, reason, headers, target, content)
if target not in [ '*' ] + self.presentation_url:
self.error('Unknown OPTIONS target "' + target + '"')
required = [ m.strip() for m in headers['require'].split(',') ]
missing = [ m for m in required if m not in self.local_methods ]
if missing:
self.error('Required methods in OPTIONS request that we don\'t support: ' + ','.join(missing))
# Send M2 response
self.response(public=self.local_methods)
# Send M3
params = ['wfd_audio_codecs', 'wfd_video_formats', 'wfd_client_rtp_ports', 'wfd_display_edid', 'wfd_uibc_capability']
self.request('GET_PARAMETER', 'rtsp://localhost/wfd1.0', params=params)
self.enter_state('M3')
elif self._state == 'M3':
# Validate M3 response
self.validate_msg(method, None, status, reason, headers, None, content)
if 'wfd_video_formats' not in self.remote_params or 'wfd_client_rtp_ports' not in self.remote_params:
self.error('Required parameters missing from GET_PARAMETER response')
self.parse_video_formats(self.remote_params['wfd_video_formats'])
self.parse_client_rtp_ports(self.remote_params['wfd_client_rtp_ports'])
self.parse_display_edid()
self.prop_handler()
# Send M4
params = {
'wfd_video_formats': self.local_params['wfd_video_formats'],
'wfd_client_rtp_ports': self.remote_params['wfd_client_rtp_ports'],
'wfd_presentation_URL': self.presentation_url[0] + ' ' + self.presentation_url[1],
# TODO: include wfd_audio_codecs if audio present, make video optional, too
# TODO: support wfd2_video_formats and wfd2_audio_codecs
}
self.request('SET_PARAMETER', 'rtsp://localhost/wfd1.0', params=params)
self.enter_state('M4')
elif self._state == 'M4':
# Validate M4 response
self.validate_msg(method, None, status, reason, headers, None, content)
# Send M5
self.request('SET_PARAMETER', 'rtsp://localhost/wfd1.0', params={'wfd_trigger_method': 'SETUP'})
self.enter_state('M5')
elif self._state == 'M5':
# Validate M5 response
self.validate_msg(method, None, status, reason, headers, None, content)
self.enter_state('M6')
elif self._state == 'M6':
# Validate M6
self.validate_msg(method, 'SETUP', status, reason, headers, target, content)
self.parse_transport(headers['transport'])
self.session_stream_url = target
self.session_id = str(random.randint(a=1, b=999999))
self.local_rtp_port = random.randint(a=20000, b=30000)
if self.remote_rtcp_port is not None and self.rtcp_enabled:
self.local_rtcp_port = self.local_rtp_port + 1
profile ='RTP/AVP/TCP;unicast' if self.use_tcp else 'RTP/AVP/UDP;unicast'
client_port = str(self.remote_rtp_port) + (('-' + str(self.remote_rtcp_port)) if self.remote_rtcp_port is not None else '')
server_port = str(self.local_rtp_port) + (('-' + str(self.local_rtcp_port)) if self.local_rtcp_port is not None else '')
transport = profile + ';client_port' + client_port + ';server_port=' + server_port
# Section B.1
pipeline = ('ximagesrc name=src use-damage=false do-timestamp=true ! capsfilter name=fps caps=video/x-raw,framerate=10/1' +
' ! videoscale method=0 ! capsfilter name=res caps=video/x-raw,width=' + str(self.init_width) + ',height=' + str(self.init_height) +
' ! videoconvert ! video/x-raw,format=I420 ! x264enc tune=zerolatency speed-preset=ultrafast name=videnc' +
' ! queue' + # TODO: add leaky=downstream
' ! mpegtsmux name=mux' +
' ! rtpmp2tpay pt=33 mtu=1472 ! .send_rtp_sink rtpsession name=session .send_rtp_src' +
' ! udpsink name=sink host=' + self.remote_ip + ' port=' + str(self.remote_rtp_port) + ' bind-port=' + str(self.local_rtp_port)) # TODO: bind-address
if self.local_rtcp_port is not None:
pipeline += ' session.send_rtcp_src ! udpsink name=rtcp_sink host=' + self.remote_ip + \
' port=' + str(self.remote_rtcp_port) + ' bind-port=' + str(self.local_rtcp_port) # TODO: bind-address
self._props.append(WFDRTSPServer.Prop('RTCP enabled', 'Whether we\'re currently sending RTCP data',
lambda: self.local_rtcp_port is not None, None, bool, None))
self.rtp_pipeline = Gst.parse_launch(pipeline)
bus = self.rtp_pipeline.get_bus()
bus.enable_sync_message_emission()
bus.add_signal_watch()
bus.connect('message', self.on_gst_message)
self._props += self.create_running_props()
self.prop_handler()
# Send M6 response
self.response(session=self.session_id + ';timeout=' + str(self.session_timeout), transport=transport)
self.enter_state('M7')
elif self._state in ['M7', 'paused']:
# Validate M7
self.validate_msg(method, 'PLAY', status, reason, headers, target, content)
# Send M7 response
self.response()
self.rtp_pipeline.set_state(Gst.State.PLAYING)
# Set up the keep-alive timer, interval must be less than timeout minus 5 seconds
self.rtsp_keepalive = GLib.timeout_add_seconds(self.session_timeout - 10, self.rtsp_keepalive_cb)
self.enter_state('streaming')
elif self._state == 'streaming':
if method is None:
if self.rtsp_keepalive_timeout:
# The M16 response is not to be validated (Section 6.4.16)
GLib.source_remove(self.rtsp_keepalive_timeout)
self.rtsp_keepalive_timeout = None
return
self.error('Received an RTSP response where a request was expected')
if method == 'PAUSE':
self.validate_msg(method, 'PAUSE', status, reason, headers, target, content)
self.rtp_pipeline.set_state(Gst.State.PAUSED)
self.enter_state('paused')
self.response()
return
if method == 'SET_PARAMETER':
2020-07-31 03:31:33 +02:00
self.validate_msg(method, 'SET_PARAMETER', status, reason, headers, target, content)
for k, v in self.last_params:
if k == 'wfd_idr_request' and v is None:
self.force_keyframe()
self.response()
else:
self.error('Unknown request "' + k + '" with value ' + repr(v))
return
if method == 'TEARDOWN':
# The spec suggests a more graceful teardown but we just close the connection
self.error('Teardown requested')
self.error('Unsupported method "' + method + '"')
WIPHY_IF = 'net.connman.iwd.Adapter'
DEVICE_IF = 'net.connman.iwd.p2p.Device'
PEER_IF = 'net.connman.iwd.p2p.Peer'
WSC_IF = 'net.connman.iwd.SimpleConfiguration'
WFD_IF = 'net.connman.iwd.p2p.Display'
SVC_MGR_IF = 'net.connman.iwd.p2p.ServiceManager'
class WFDSource(Gtk.Window):
@dataclasses.dataclass
class Device:
props: dict
dev_proxy: dbus.Interface
props_proxy: dbus.Interface
peers: dict
sorted_peers: list
widget: Gtk.Widget
expanded: bool
scan_request: bool
selected_peer: object
connecting_peer: object
disconnecting_peer: object
connected: list
dbus_call: dbus.lowlevel.PendingCall
@dataclasses.dataclass
class Peer:
peer_proxy: dbus.Interface
wfd_proxy: dbus.Interface
wsc_proxy: dbus.Interface
widget: Gtk.Widget
rtsp: WFDRTSPServer
indent = '\xbb '
def __init__(self):
Gtk.Window.__init__(self, type=Gtk.WindowType.TOPLEVEL, title='WFD Source')
self.set_decorated(True)
self.set_resizable(False)
self.connect('destroy', self.on_destroy, "WM destroy")
self.set_size_request(900, 300)
self.device_box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
leftscroll = Gtk.ScrolledWindow(hscrollbar_policy=Gtk.PolicyType.NEVER)
leftscroll.add(self.device_box)
self.infopane = Gtk.FlowBox(orientation=Gtk.Orientation.VERTICAL)
self.infopane.set_selection_mode(Gtk.SelectionMode.NONE)
self.infopane.set_max_children_per_line(20)
self.infopane.set_min_children_per_line(3)
self.infopane.set_column_spacing(20)
self.infopane.set_row_spacing(5)
self.infopane.set_valign(Gtk.Align.START)
self.infopane.set_halign(Gtk.Align.START)
rightscroll = Gtk.ScrolledWindow(vscrollbar_policy=Gtk.PolicyType.NEVER)
rightscroll.add(self.infopane)
paned = Gtk.Paned(orientation=Gtk.Orientation.HORIZONTAL)
paned.pack1(leftscroll, True, True)
paned.pack2(rightscroll, False, False)
paned.set_wide_handle(True)
paned.props.position = 400
paned.props.position_set = True
self.add(paned)
self.show_all()
self.connect('notify::is-active', self.on_notify_is_active)
self.rtsp_props = None
self.rtsp_init_values = {}
self.rtsp_port = 7236
self.devices = None
self.objects = {}
self.populate_devices()
self.dbus = dbus.SystemBus()
self.dbus.watch_name_owner('net.connman.iwd', self.on_name_owner_change)
self.on_name_owner_change('dummy' if self.dbus.name_has_owner('net.connman.iwd') else '')
def on_name_owner_change(self, new_name):
if not new_name:
if self.devices is None:
return True
for dev_path in self.devices:
device = self.devices[dev_path]
if device.connecting_peer or device.disconnecting_peer:
device.dbus_call.cancel()
for peer_path in device.peers:
peer = device.peers[peer_path]
if peer.rtsp:
peer.rtsp.close()
self.devices = None
self.objects = {}
self.populate_devices()
self.dbus.remove_signal_receiver(self.on_properties_changed)
self.dbus.remove_signal_receiver(self.on_interfaces_added)
self.dbus.remove_signal_receiver(self.on_interfaces_removed)
return True
if self.devices is not None:
return True
manager = dbus.Interface(self.dbus.get_object('net.connman.iwd', '/'), 'org.freedesktop.DBus.ObjectManager')
self.dbus.add_signal_receiver(self.on_properties_changed,
bus_name="net.connman.iwd",
dbus_interface="org.freedesktop.DBus.Properties",
signal_name="PropertiesChanged",
path_keyword="path")
self.dbus.add_signal_receiver(self.on_interfaces_added,
bus_name="net.connman.iwd",
dbus_interface="org.freedesktop.DBus.ObjectManager",
signal_name="InterfacesAdded")
self.dbus.add_signal_receiver(self.on_interfaces_removed,
bus_name="net.connman.iwd",
dbus_interface="org.freedesktop.DBus.ObjectManager",
signal_name="InterfacesRemoved")
self.objects = manager.GetManagedObjects()
self.devices = {}
for path in self.objects:
if DEVICE_IF in self.objects[path]:
self.add_dev(path)
for path in self.objects:
if PEER_IF in self.objects[path]:
self.add_peer(path)
self.populate_devices()
svc_mgr = dbus.Interface(self.dbus.get_object('net.connman.iwd', '/net/connman/iwd'), SVC_MGR_IF)
svc_mgr.RegisterDisplayService({
'Source': True,
'Port': dbus.UInt16(self.rtsp_port)
})
return True
def add_dev(self, path):
obj_proxy = self.dbus.get_object('net.connman.iwd', path)
# Default to expanded for first device found
expanded = len(self.devices) == 0
self.devices[path] = WFDSource.Device(
props=self.objects[path][DEVICE_IF],
dev_proxy=dbus.Interface(obj_proxy, DEVICE_IF),
props_proxy=dbus.Interface(obj_proxy, 'org.freedesktop.DBus.Properties'),
peers={},
sorted_peers=[],
widget=None,
expanded=expanded,
scan_request=False,
selected_peer=None,
connecting_peer=None,
disconnecting_peer=None,
connected=[],
dbus_call=None)
def add_peer(self, path):
dev_path = self.objects[path][PEER_IF]['Device']
if dev_path not in self.devices or path in self.devices[dev_path].peers:
return False
self.devices[dev_path].peers[path] = WFDSource.Peer(
peer_proxy=None,
wfd_proxy=None,
wsc_proxy=None,
widget=None,
rtsp=None)
return True
def on_properties_changed(self, interface, changed, invalidated, path):
if path not in self.objects:
self.objects[path] = {}
if interface not in self.objects[path]:
self.objects[path][interface] = {}
self.objects[path][interface].update(changed)
for prop in invalidated:
if prop in self.objects[path][interface]:
del self.objects[path][interface][prop]
if path in self.devices:
self.update_dev_props(path)
if interface == DEVICE_IF and 'AvailableConnections' in changed:
self.update_selected_peer(path)
if PEER_IF in self.objects[path]:
dev_path = self.objects[path][PEER_IF]['Device']
if dev_path in self.devices:
device = self.devices[dev_path]
if path in device.peers:
peer = device.peers[path]
if interface == PEER_IF and 'Connected' in changed:
if changed['Connected'] and peer not in device.connected:
device.connected.append(peer)
elif not changed['Connected'] and peer in device.connected:
device.connected.remove(peer)
self.update_dev_props(dev_path)
self.update_peer_props(dev_path, path)
if peer != device.selected_peer:
self.update_selected_peer(dev_path)
if interface == PEER_IF and peer.rtsp:
if 'ConnectedInterface' in changed:
peer.rtsp.set_local_interface(changed['ConnectedInterface'])
if 'ConnectedIp' in changed:
peer.rtsp.set_remote_ip(changed['ConnectedIp'])
self.update_peer_props(dev_path, path)
return True
def on_interfaces_added(self, path, interfaces):
if path not in self.objects:
self.objects[path] = {}
self.objects[path].update(interfaces)
if DEVICE_IF in interfaces:
self.add_dev(path)
# This should happen rarely enough that we can repopulate the whole list
self.populate_devices()
update_dev_props = False
if PEER_IF in interfaces:
update_dev_props = self.add_peer(path)
if PEER_IF in self.objects[path]:
dev_path = self.objects[path][PEER_IF]['Device']
if dev_path in self.devices:
if update_dev_props:
# Update device's peer count
self.update_dev_props(dev_path)
self.update_peer_props(dev_path, path)
def on_interfaces_removed(self, path, interfaces):
if path not in self.objects:
return
dev_path = None
if PEER_IF in interfaces or WFD_IF in interfaces or WSC_IF in interfaces:
if PEER_IF in self.objects[path]:
dev_path = self.objects[path][PEER_IF]['Device']
for i in interfaces:
if i in self.objects[path]:
del self.objects[path][i]
if len(self.objects[path]) == 0:
del self.objects[path]
if DEVICE_IF in interfaces and path in self.devices:
device = self.devices[path]
if device.connecting_peer or device.disconnecting_peer:
device.dbus_call.cancel()
# TODO: check if connected
del self.devices[path]
# This should happen rarely enough that we can repopulate the whole list
self.populate_devices()
if dev_path is not None and dev_path in self.devices:
device = self.devices[dev_path]
if path in device.peers:
# Make sure the widget is removed
self.update_peer_props(dev_path, path)
if PEER_IF in interfaces:
del device.peers[path]
# Update device's peer count
self.update_dev_props(dev_path)
def populate_devices(self):
self.device_box.foreach(lambda x, y: self.device_box.remove(x), None)
if self.devices is None:
label = Gtk.Label(label="Not connected to IWD")
self.device_box.pack_start(label, expand=True, fill=True, padding=0)
self.device_box.show_all()
return
if len(self.devices) == 0:
label = Gtk.Label(label="No P2P-capable adapters :-(")
self.device_box.pack_start(label, expand=True, fill=True, padding=0)
self.device_box.show_all()
return
for path in self.devices:
label = Gtk.Label()
label.set_halign(Gtk.Align.START)
label.set_line_wrap(False)
label.set_single_line_mode(False)
label.set_ellipsize(Pango.EllipsizeMode.END)
switch = Gtk.Switch()
switch.connect('state-set', self.on_dev_enabled, path)
switch.set_halign(Gtk.Align.END)
switch.set_valign(Gtk.Align.START)
box = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
box.pack_start(label, expand=True, fill=True, padding=0)
box.pack_end(switch, expand=False, fill=False, padding=0)
peer_list = Gtk.ListBox() # can also use an IconView.. or make it switchable
peer_list.set_size_request(150, 120)
peer_list.set_selection_mode(Gtk.SelectionMode.SINGLE)
peer_list.set_placeholder(Gtk.Label(label='No Wi-Fi Displays discovered yet...'))
peer_list.connect('row-selected', self.on_peer_selected, path)
frame = Gtk.Frame()
frame.props.margin = 10
frame.add(peer_list)
expander = Gtk.Expander()
expander.set_label_fill(True)
expander.set_expanded(self.devices[path].expanded)
expander.set_label_widget(box)
expander.add(frame)
expander.connect('notify::expanded', self.on_dev_expanded, path)
expander.show_all()
self.device_box.add(expander)
self.devices[path].widget = expander
self.update_dev_props(path)
GLib.idle_add(self.expander_workaround, expander)
for peer_path in self.devices[path].peers:
self.update_peer_props(path, peer_path)
# Basically implement Gtk.Expander's set_label_fill which for some reason
# doesn't do anything. Use size-allocate because configure-event doesn't work either...
self.margin_left = None
def on_exp_resize(widget, event):
if self.margin_left is None:
self.margin_left = box.get_allocation().x
posx, posy = expander.translate_coordinates(self, 0, 0)
# Add posx to force the label widget (box) to be aligned to the left side of the
# window even if GTK already decided to push the expander off the left side with a
# negative allocation.x. This way it won't push it any further left as the available
# space shrinks.
box.set_size_request(max(posx + expander.get_allocated_width() - self.margin_left - 1, 0), -1)
return False
expander.connect('size-allocate', on_exp_resize)
def expander_workaround(self, widget):
box = widget.get_label_widget()
widget.set_label_widget(None)
widget.set_label_widget(box)
return False
def update_dev_props(self, path):
device = self.devices[path]
if not device.props['Enabled']:
state = 'disabled'
elif device.disconnecting_peer is not None:
state = 'disconnecting...'
elif device.connecting_peer is not None:
state = 'connecting...'
elif len(device.connected) > 0:
if all([not peer.rtsp or peer.rtsp.ready for peer in device.connected]):
state = 'connected'
else:
state = 'negotiating...'
elif device.scan_request:
state = 'discovering... (' + str(len(device.peers)) + ')'
else:
state = 'idle'
label, switch = device.widget.get_label_widget().get_children()
dev_str = self.get_dev_string(path)
name = str(device.props['Name'])
label.set_markup(dev_str + '\n<small>' + ('Local name: ' + name + '\n' if dev_str != name else '') + 'State: ' + state + '</small>')
switch.set_state(device.props['Enabled'])
def update_peer_props(self, dev_path, path):
device = self.devices[dev_path]
peer = device.peers[path]
props = self.objects[path] if path in self.objects else {}
peer_list = device.widget.get_child().get_child()
if peer.widget is None:
if PEER_IF not in props or WFD_IF not in props or WSC_IF not in props:
return
if not props[WFD_IF]['Sink']:
return
name = str(props[PEER_IF]['Name'])
device.sorted_peers.append(name)
device.sorted_peers.sort()
index = device.sorted_peers.index(name)
obj_proxy = self.dbus.get_object('net.connman.iwd', path)
peer.peer_proxy=dbus.Interface(obj_proxy, PEER_IF)
peer.wfd_proxy=dbus.Interface(obj_proxy, WFD_IF)
peer.wsc_proxy=dbus.Interface(obj_proxy, WSC_IF)
label = Gtk.Label()
label.set_halign(Gtk.Align.START)
label.set_single_line_mode(True)
label.set_ellipsize(Pango.EllipsizeMode.END)
event_box = Gtk.EventBox()
event_box.add(label)
event_box.connect('button-press-event', self.on_peer_click, (dev_path, path))
button = Gtk.Button()
button.set_use_stock(True)
button.connect('clicked', self.on_peer_button, (dev_path, path))
box = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
box.props.margin = 5;
box.pack_start(event_box, expand=True, fill=True, padding=0)
box.pack_end(button, expand=False, fill=False, padding=0)
peer.widget = Gtk.ListBoxRow()
peer.widget.add(box)
peer_list.insert(peer.widget, index)
peer.widget.show_all()
elif (PEER_IF not in props or WFD_IF not in props or WSC_IF not in props or not props[WFD_IF]['Sink']) and peer.widget:
tmp = peer.widget
peer.widget = None
del device.sorted_peers[tmp.get_index()]
peer_list.remove(tmp)
if peer == device.selected_peer:
device.selected_peer = None
self.update_info_pane(dev_path, None)
if peer == device.connecting_peer:
device.dbus_call.cancel()
device.connecting_peer = None
self.update_selected_peer(dev_path)
if peer == device.disconnecting_peer:
device.dbus_call.cancel()
device.disconnecting_peer = None
self.update_selected_peer(dev_path)
if peer in device.connected:
device.connected.remove(peer)
self.update_selected_peer(dev_path)
peer.peer_proxy = None
peer.wfd_proxy = None
peer.wsc_proxy = None
if peer.rtsp:
peer.rtsp.close()
peer.rtsp = None
return
subcat = 'unknown type'
if 'DeviceSubcategory' in props[PEER_IF]:
subcat = props[PEER_IF]['DeviceSubcategory']
weight = 'heavy' if peer in device.connected else 'normal'
box = peer.widget.get_child()
event_box, button = box.get_children()
label, = event_box.get_children()
label.set_markup('<span weight="' + weight + '">' + props[PEER_IF]['Name'] + '</span> <span foreground="grey" size="small">' + subcat + '</span>')
if device.disconnecting_peer or (device.connecting_peer and peer != device.connecting_peer):
# This peer's row should not have any buttons
button.hide()
elif peer == device.connecting_peer:
button.set_label('Cancel')
button.show()
elif peer in device.connected:
if not peer.rtsp or peer.rtsp.ready:
button.set_label('Disconnect')
else:
button.set_label('Cancel')
button.show()
elif peer == device.selected_peer and device.props['AvailableConnections'] > 0:
button.set_label('Connect')
button.show()
else:
button.hide()
if peer == device.selected_peer:
self.update_info_pane(dev_path, path)
def update_selected_peer(self, dev_path):
device = self.devices[dev_path]
if device.selected_peer:
sel_path = self.get_peer_path(device, device.selected_peer)
self.update_peer_props(dev_path, sel_path)
def add_info(self, name, desc, valuewidget):
namelabel = Gtk.Label(label=name + ':', xalign=0)
box = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
box.pack_start(namelabel, expand=False, fill=False, padding=3)
if valuewidget:
box.pack_end(valuewidget, expand=False, fill=False, padding=3)
if desc:
box.set_tooltip_text(desc)
self.infopane.add(box)
def add_info_str(self, name, value):
vlabel = Gtk.Label(xalign=0)
vlabel.set_markup('<span weight="bold">' + value + '</span>')
self.add_info(name, None, vlabel)
def add_info_prop(self, prop):
val = prop.getter()
if prop.setter is None:
if val is None:
return
if prop.type == bool:
vals = prop.vals if prop.vals is not None else ['no', 'yes']
text = vals[val]
elif prop.name == 'EDID info':
text = WFDSource.edid_to_text(val)
if isinstance(text, collections.abc.Sequence):
self.add_info(prop.name, prop.desc, None)
for name, val in text:
if val:
v = Gtk.Label(xalign=0)
v.set_markup('<span weight="bold">' + str(val) + '</span>')
else:
v = None
self.add_info(self.indent + name, prop.desc, v)
return
else:
text = str(val)
v = Gtk.Label(xalign=0)
v.set_markup('<span weight="bold">' + text + '</span>')
elif val is None:
return
elif prop.type == bool:
v = Gtk.Switch()
v.set_active(val)
v.connect('state-set', lambda switch, state: prop.setter(state))
elif prop.type == int:
v = Gtk.SpinButton.new_with_range(min=prop.vals[0], max=prop.vals[1], step=prop.vals[2] if len(prop.vals) > 2 else 1)
v.set_value(val)
v.connect('value-changed', lambda sb: prop.setter(int(sb.get_value())))
elif prop.type == str:
if prop.vals:
v = Gtk.ComboBoxText()
for option in prop.vals:
v.append(option, option)
v.set_active_id(val)
v.connect('changed', lambda entry: prop.setter(entry.get_active_text()))
else:
v = Gtk.Entry(text=val)
v.connect('changed', lambda entry: prop.setter(entry.get_text()))
self.add_info(prop.name, prop.desc, v)
def update_info_pane(self, dev_path, path):
self.infopane.foreach(lambda x, y: self.infopane.remove(x), None)
if path is None:
return
device = self.devices[dev_path]
peer = device.peers[path]
if peer == device.connecting_peer:
state = 'IWD connecting'
elif peer == device.disconnecting_peer:
state = 'disconnecting'
elif peer in device.connected:
if peer.rtsp is not None:
if peer.rtsp.ready:
state = peer.rtsp.state
else:
state = 'RTSP negotiation: ' + peer.rtsp.state
else:
state = 'connected'
else:
state = 'not connected'
self.add_info_str('Connection state', state)
subcat = 'unknown'
if 'DeviceSubcategory' in self.objects[path][PEER_IF]:
subcat = self.objects[path][PEER_IF]['DeviceSubcategory']
self.add_info_str('Peer category', self.objects[path][PEER_IF]['DeviceCategory'])
self.add_info_str('Peer subcategory', subcat)
if WFD_IF in self.objects[path]:
if self.objects[path][WFD_IF]['Source']:
if self.objects[path][WFD_IF]['Sink']:
t = 'dual-role'
else:
t = 'source'
else:
t = 'sink'
self.add_info_str('Peer WFD type', t)
if self.objects[path][WFD_IF]['Sink']:
self.add_info_str('Peer audio support', 'yes' if self.objects[path][WFD_IF]['HasAudio'] else 'no')
self.add_info_str('Peer UIBC support', 'yes' if self.objects[path][WFD_IF]['HasUIBC'] else 'no')
self.add_info_str('Peer content protection', 'yes' if self.objects[path][WFD_IF]['HasContentProtection'] else 'no')
if peer.rtsp is not None and peer.rtsp.ready:
def force_keyframe(widget):
peer.rtsp.force_keyframe()
return True
def reset_stream(widget):
peer.rtsp.reset_stream()
return True
# The idea for these buttons is to make sure any parameter changes get fully applied
button1 = Gtk.Button()
button1.set_label('Force keyframe')
button1.connect('clicked', force_keyframe)
button2 = Gtk.Button()
button2.set_label('Reset stream')
button2.connect('clicked', reset_stream)
box = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
box.pack_start(button1, expand=False, fill=False, padding=3)
box.pack_start(button2, expand=False, fill=False, padding=3)
self.infopane.add(box)
if self.rtsp_props is None:
self.rtsp_props, self.rtsp_init_values = WFDRTSPServer.get_init_props()
if peer.rtsp is not None:
props = peer.rtsp.props
else:
props = self.rtsp_props
for prop in props:
self.add_info_prop(prop)
self.infopane.show_all()
# Direct method calls on dbus.Interface's don't return dbus.lowlevel.PendingCall objects so
# we have to use bus.call_async to make cancellable async calls
def async_call(self, proxy, method, signature='', *args, **kwargs):
return self.dbus.call_async(proxy.bus_name, proxy.object_path, proxy.dbus_interface, method, signature, args, **kwargs)
def connect_peer(self, dev_path, path):
device = self.devices[dev_path]
peer = device.peers[path]
def on_reply():
device.connected.append(peer)
device.connecting_peer = None
# Local interface and remote IP get set in the PropertiesChanged handler
self.update_dev_props(dev_path)
self.update_peer_props(dev_path, path)
if peer != device.selected_peer:
self.update_selected_peer(dev_path)
def on_error(excp):
device.connecting_peer = None
if peer.rtsp:
peer.rtsp.close()
peer.rtsp = None
self.update_dev_props(dev_path)
self.update_peer_props(dev_path, path)
if peer != device.selected_peer:
self.update_selected_peer(dev_path)
dialog = Gtk.MessageDialog(parent=self, message_type=Gtk.MessageType.ERROR, buttons=Gtk.ButtonsType.OK, text='Connection failed')
dialog.format_secondary_text('Connection to ' + self.objects[path][PEER_IF]['Name'] + ' failed: ' + repr(excp))
dialog.show()
def on_ok(response, *args):
dialog.destroy()
dialog.connect('response', on_ok)
def on_rtsp_state():
self.update_dev_props(dev_path)
self.update_peer_props(dev_path, path)
if peer != device.selected_peer:
self.update_selected_peer(dev_path)
def on_rtsp_error(excp):
self.disconnect_peer(dev_path, path)
2020-07-31 03:31:32 +02:00
tb = ''
try:
tb = '\n\nDebug info: ' + traceback.format_exc()
except:
pass
dialog = Gtk.MessageDialog(parent=self, message_type=Gtk.MessageType.ERROR, buttons=Gtk.ButtonsType.OK, text='Negotiation failed')
2020-07-31 03:31:32 +02:00
dialog.format_secondary_text('RTSP error when talking to ' + self.objects[path][PEER_IF]['Name'] + ': ' + repr(excp) + tb)
dialog.show()
def on_ok(response, *args):
dialog.destroy()
dialog.connect('response', on_ok)
def on_rtsp_props_changed():
# Should also check if the infopane is currently showing a selected peer on another device...
if peer == device.selected_peer:
self.update_info_pane(dev_path, path)
# Cannot use peer.wsc_proxy.PushButton()
device.dbus_call = self.async_call(peer.wsc_proxy, 'PushButton', reply_handler=on_reply, error_handler=on_error, timeout=120)
device.connecting_peer = peer
# Create the RTSP server now so it's ready as soon as the P2P connection succeeds even if
# we haven't received the DBus reply yet
peer.rtsp = WFDRTSPServer(self.rtsp_port, on_rtsp_state, on_rtsp_error, self.rtsp_init_values, on_rtsp_props_changed)
self.update_dev_props(dev_path)
self.update_peer_props(dev_path, path)
if peer != device.selected_peer:
self.update_selected_peer(dev_path)
def disconnect_peer(self, dev_path, path):
device = self.devices[dev_path]
peer = device.peers[path]
def on_reply():
device.disconnecting_peer = None
self.update_dev_props(dev_path)
self.update_peer_props(dev_path, path)
if peer != device.selected_peer:
self.update_selected_peer(dev_path)
def on_error(excp):
device.disconnecting_peer = None
self.update_dev_props(dev_path)
self.update_peer_props(dev_path, path)
if peer != device.selected_peer:
self.update_selected_peer(dev_path)
if isinstance(excp, dbus.exceptions.DBusException) and excp.get_dbus_name() == 'net.connman.iwd.NotConnected':
return
dialog = Gtk.MessageDialog(parent=self, message_type=Gtk.MessageType.ERROR, buttons=Gtk.ButtonsType.OK, text='Disconnecting failed')
dialog.format_secondary_text('Disconnecting from ' + self.objects[path][PEER_IF]['Name'] + ' failed: ' + repr(excp))
dialog.show()
def on_ok(response, *args):
dialog.destroy()
dialog.connect('response', on_ok)
if peer == device.connecting_peer:
device.dbus_call.cancel()
device.connecting_peer = None
if peer in device.connected:
device.connected.remove(peer)
if peer.rtsp:
peer.rtsp.close()
peer.rtsp = None
device.dbus_call = self.async_call(peer.peer_proxy, 'Disconnect', reply_handler=on_reply, error_handler=on_error)
device.disconnecting_peer = peer
self.update_dev_props(dev_path)
self.update_peer_props(dev_path, path)
if peer != device.selected_peer:
self.update_selected_peer(dev_path)
def on_peer_click(self, widget, event, data):
if event.button != 1 or event.type != Gdk.EventType._2BUTTON_PRESS:
return False
dev_path, path = data
device = self.devices[dev_path]
if device.disconnecting_peer:
return True
if device.connecting_peer or not device.props['AvailableConnections']:
# Should we auto-disconnect from the connected peer? Show an "Are you sure?" dialog?
return True
self.connect_peer(dev_path, path)
return True
def on_peer_button(self, widget, data):
dev_path, path = data
action = widget.get_label()
device = self.devices[dev_path]
if device.disconnecting_peer:
return True
if action == 'Connect':
self.connect_peer(dev_path, path)
elif action in ['Disconnect', 'Cancel']:
self.disconnect_peer(dev_path, path)
return True
def get_peer_path(self, device, peer):
for path in device.peers:
if device.peers[path] == device.selected_peer:
return path
return None
def on_peer_selected(self, widget, row, dev_path):
device = self.devices[dev_path]
if device.selected_peer is not None:
if device.selected_peer.widget == row:
return True
path = self.get_peer_path(device, device.selected_peer)
device.selected_peer = None
self.update_peer_props(dev_path, path)
self.update_info_pane(dev_path, None)
if row is None:
return True
for path in device.peers:
if device.peers[path].widget == row:
device.selected_peer = device.peers[path]
self.update_peer_props(dev_path, path)
return True
def update_dev_scan_request(self, path):
device = self.devices[path]
should_request = device.expanded and self.is_active()
if device.scan_request == should_request:
return
device.scan_request = should_request
if device.scan_request:
device.dev_proxy.RequestDiscovery()
else:
device.dev_proxy.ReleaseDiscovery()
self.update_dev_props(path)
def on_notify_is_active(self, window, value):
if self.devices is None:
return True
for path in self.devices:
self.update_dev_scan_request(path)
return True
def on_dev_enabled(self, switch, state, path):
device = self.devices[path]
if device.props['Enabled'] == state:
return
device.props_proxy.Set(DEVICE_IF, 'Enabled', state)
return True
def on_dev_expanded(self, expander, value, path):
device = self.devices[path]
device.expanded = expander.get_expanded()
self.update_dev_scan_request(path)
return True
def get_dev_string(self, path):
wiphy = self.objects[path][WIPHY_IF]
if 'Model' in wiphy:
return wiphy['Model']
if 'Vendor' in wiphy:
return wiphy['Vendor']
return wiphy['Name']
def on_destroy(self, widget, data):
global mainloop
if self.devices is not None:
svc_mgr = dbus.Interface(self.dbus.get_object('net.connman.iwd', '/net/connman/iwd'), SVC_MGR_IF)
svc_mgr.UnregisterDisplayService()
self.on_name_owner_change('')
mainloop.quit()
return False
@staticmethod
def edid_to_text(edid):
if edid is None:
return 'unavailable'
if len(edid) < 128:
return 'invalid (too short)'
if edid[0:8] != b'\0\xff\xff\xff\xff\xff\xff\0':
return 'invalid (bad magic)'
if sum(edid[0:128]) & 255 != 0:
return 'invalid (bad checksum)'
header = edid[0:20]
manf_id = (header[8] << 8) + header[9]
text = [('Header', '')]
text.append((WFDSource.indent + 'Version', str(header[18]) + '.' + str(header[19])))
text.append((WFDSource.indent + 'Manufacturer ID', chr(64 + ((manf_id >> 10) & 31)) + chr(64 + ((manf_id >> 5) & 31)) + chr(64 + ((manf_id >> 0) & 31))))
text.append((WFDSource.indent + 'Product code', hex((header[11] << 8) + header[10])))
text.append((WFDSource.indent + 'Serial', hex((header[15] << 24) +(header[14] << 16) + (header[13] << 8) + header[12])))
text.append((WFDSource.indent + 'Manufactured', str(1990 + header[17]) + ' week ' + str(header[16])))
basic_params = edid[20:25]
text.append(('Basic parameters', ''))
if basic_params[0] & 0x80:
intf_table = {
2: 'HDMIa',
3: 'HDMIb',
4: 'MDDI',
5: 'DisplayPort'
}
dt_table = {
0: 'RGB 4:4:4',
1: 'RGB 4:4:4 + YCrCb 4:4:4',
2: 'RGB 4:4:4 + YCrCb 4:2:2',
3: 'RGB 4:4:4 + YCrCb 4:4:4 + YCrCb 4:2:2'
}
bpp = (basic_params[0] >> 4) & 7
intf = (basic_params[0] >> 0) & 7
text.append((WFDSource.indent + 'Video input type', 'digital'))
text.append((WFDSource.indent + 'Bit depth', 'undefined' if bpp in [0, 7] else str(4 + bpp * 2)))
text.append((WFDSource.indent + 'Interface', 'undefined' if intf not in intf_table else intf_table[intf]))
else:
level_table = {
0: '+0.7 / -0.3 V',
1: '+0.714 / -0.286 V',
2: '+1.0 / -0.4 V',
3: '+0.7 / 0 V'
}
dt_table = {
0: 'monochrome/grayscale',
1: 'RGB color',
2: 'non-RGB color',
3: 'undefined'
}
text.append((WFDSource.indent + 'Video input type', 'analog'))
text.append((WFDSource.indent + 'Video white/sync level', level_table[(basic_parmas[0] >> 5) & 3]))
if basic_params[1] and basic_params[2]:
text.append((WFDSource.indent + 'Screen width', str(basic_params[1]) + ' cm'))
text.append((WFDSource.indent + 'Screen height', str(basic_params[2]) + ' cm'))
elif basic_params[2] == 0:
text.append((WFDSource.indent + 'Landscape aspect ratio', str((basic_params[1] + 99) * 0.01)))
else:
text.append((WFDSource.indent + 'Portrait aspect ratio', str(100.0 / (basic_params[2] + 99))))
text.append((WFDSource.indent + 'Gamma', str((basic_params[3] + 100) * 0.01)))
text.append((WFDSource.indent + 'DPMS Standby', 'supported' if (basic_params[4] >> 7) & 1 else 'unsupported'))
text.append((WFDSource.indent + 'DPMS Suspend', 'supported' if (basic_params[4] >> 6) & 1 else 'unsupported'))
text.append((WFDSource.indent + 'DPMS Active-off', 'supported' if (basic_params[4] >> 5) & 1 else 'unsupported'))
text.append((WFDSource.indent + 'Color type', dt_table[(basic_params[4] >> 3) & 3]))
text.append((WFDSource.indent + 'sRGB color space', 'yes' if (basic_params[4] >> 2) & 1 else 'no'))
text.append((WFDSource.indent + 'Continuous timings', 'yes' if (basic_params[4] >> 0) & 1 else 'no'))
# TODO: timing information and extensions
return text
dbus.mainloop.glib.DBusGMainLoop(set_as_default=True)
Gst.init(None)
WFDSource()
mainloop = GLib.MainLoop()
mainloop.run()