3
0
mirror of https://git.kernel.org/pub/scm/network/wireless/iwd.git synced 2024-11-25 17:59:25 +01:00

wfd-source: Display some stream properties

Define a bunch of stream parameters each with a getter and an optional
setter.  In the right pane of the window show widgets for these
properties, some as just labels and some as editable controls depending
on the type of the property.  Parse the EDID data.
This commit is contained in:
Andrew Zaborowski 2020-07-31 21:09:01 +02:00 committed by Denis Kenzior
parent 8016658618
commit 64b2d29af6

View File

@ -16,6 +16,7 @@ import collections.abc
import random
import dataclasses
import traceback
import codecs
import gi
gi.require_version('GLib', '2.0')
@ -27,7 +28,9 @@ class WFDRTSPServer:
class RTSPException(Exception):
pass
def __init__(self, port, state_handler, error_handler):
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
@ -44,7 +47,8 @@ class WFDRTSPServer:
self.state_handler = state_handler
self.error_handler = error_handler
self.sm_init()
self.prop_handler = prop_handler
self.sm_init(init_values)
def handle_data_out(self, conn, *args):
try:
@ -200,7 +204,11 @@ class WFDRTSPServer:
def ready(self):
return self._state in ['streaming', 'paused']
def sm_init(self):
@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'
@ -226,6 +234,33 @@ class WFDRTSPServer:
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
@ -431,6 +466,94 @@ class WFDRTSPServer:
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:
@ -438,6 +561,8 @@ class WFDRTSPServer:
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))
@ -511,7 +636,8 @@ class WFDRTSPServer:
# Send M2 response
self.response(public=self.local_methods)
# Send M3
self.request('GET_PARAMETER', 'rtsp://localhost/wfd1.0', params=['wfd_audio_codecs', 'wfd_video_formats', 'wfd_client_rtp_ports', 'wfd_display_edid', 'wfd_uibc_capability'])
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
@ -520,6 +646,8 @@ class WFDRTSPServer:
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'],
@ -547,7 +675,7 @@ class WFDRTSPServer:
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:
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 '')
@ -555,22 +683,26 @@ class WFDRTSPServer:
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=800,height=600' +
' ! 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 host=' + self.remote_ip + ' port=' + str(self.remote_rtp_port) + ' bind-port=' + str(self.local_rtp_port)) # TODO: bind-address
' ! 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('sync-message', self.on_gst_message)
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)
@ -644,6 +776,8 @@ class WFDSource(Gtk.Window):
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)
@ -653,12 +787,16 @@ class WFDSource(Gtk.Window):
self.device_box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
leftscroll = Gtk.ScrolledWindow(hscrollbar_policy=Gtk.PolicyType.NEVER)
leftscroll.add(self.device_box)
self.infolabel1 = Gtk.Label()
self.infolabel1.set_ellipsize(Pango.EllipsizeMode.START)
infopane = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
infopane.pack_start(self.infolabel1, False, False, padding=10)
rightscroll = Gtk.ScrolledWindow(hscrollbar_policy=Gtk.PolicyType.NEVER, vscrollbar_policy=Gtk.PolicyType.NEVER)
rightscroll.add(infopane)
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)
@ -669,6 +807,8 @@ class WFDSource(Gtk.Window):
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 = {}
@ -1001,11 +1141,13 @@ class WFDSource(Gtk.Window):
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:
del device.sorted_peers[peer.widget.get_index()]
peer_list.remove(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(dev_path, None)
self.update_info_pane(dev_path, None)
if peer == device.connecting_peer:
device.dbus_call.cancel()
device.connecting_peer = None
@ -1020,7 +1162,6 @@ class WFDSource(Gtk.Window):
peer.peer_proxy = None
peer.wfd_proxy = None
peer.wsc_proxy = None
peer.widget = None
if peer.rtsp:
peer.rtsp.close()
peer.rtsp = None
@ -1055,7 +1196,7 @@ class WFDSource(Gtk.Window):
button.hide()
if peer == device.selected_peer:
self.update_info(dev_path, path)
self.update_info_pane(dev_path, path)
def update_selected_peer(self, dev_path):
device = self.devices[dev_path]
@ -1063,12 +1204,74 @@ class WFDSource(Gtk.Window):
sel_path = self.get_peer_path(device, device.selected_peer)
self.update_peer_props(dev_path, sel_path)
def update_info(self, dev_path, path):
device = self.devices[dev_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:
self.infolabel1.set_text('')
return
device = self.devices[dev_path]
peer = device.peers[path]
if peer == device.connecting_peer:
@ -1085,14 +1288,13 @@ class WFDSource(Gtk.Window):
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']
text = ('Connection state: ' + state + '\n' +
'Device category: ' + self.objects[path][PEER_IF]['DeviceCategory'] + '\n'
'Device subcategory: ' + subcat + '\n')
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']:
@ -1102,17 +1304,27 @@ class WFDSource(Gtk.Window):
t = 'source'
else:
t = 'sink'
text += 'WFD device type: ' + t + '\n'
self.add_info_str('Peer WFD type', t)
if self.objects[path][WFD_IF]['Sink']:
text += 'Audio: ' + ('yes' if self.objects[path][WFD_IF]['HasAudio'] else 'no') + '\n'
self.add_info_str('Peer audio support', 'yes' if self.objects[path][WFD_IF]['HasAudio'] else 'no')
text += 'UIBC: ' + ('yes' if self.objects[path][WFD_IF]['HasUIBC'] else 'no') + '\n'
self.add_info_str('Peer UIBC support', 'yes' if self.objects[path][WFD_IF]['HasUIBC'] else 'no')
text += 'Content protection: ' + ('yes' if self.objects[path][WFD_IF]['HasContentProtection'] else 'no') + '\n'
self.add_info_str('Peer content protection', 'yes' if self.objects[path][WFD_IF]['HasContentProtection'] else 'no')
self.infolabel1.set_text(text)
# TODO: more info in labels 2 and so on
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
@ -1172,12 +1384,17 @@ class WFDSource(Gtk.Window):
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)
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:
@ -1272,7 +1489,7 @@ class WFDSource(Gtk.Window):
path = self.get_peer_path(device, device.selected_peer)
device.selected_peer = None
self.update_peer_props(dev_path, path)
self.update_info(dev_path, None)
self.update_info_pane(dev_path, None)
if row is None:
return True
@ -1335,6 +1552,82 @@ class WFDSource(Gtk.Window):
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()