#!/usr/bin/python
""" Wicd GUI module.
Module containg all the code (other than the tray icon) related to the
Wicd user interface.
"""
#
# Copyright (C) 2007 Adam Blackburn
# Copyright (C) 2007 Dan O'Reilly
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License Version 2 as
# published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
#
import os
import sys
import time
import gobject
import pango
import gtk
import gtk.glade
from dbus import DBusException
from dbus import version as dbus_version
from wicd import misc
from wicd import wpath
from wicd import dbusmanager
from wicd.misc import noneToString
from wicd.netentry import WiredNetworkEntry, WirelessNetworkEntry
from wicd.prefs import PreferencesDialog
from wicd.guiutil import error, GreyLabel, LabelEntry, SmallLabel
if __name__ == '__main__':
wpath.chdir(__file__)
try:
import pygtk
pygtk.require("2.0")
except:
pass
proxy_obj = daemon = wireless = wired = bus = None
language = misc.get_language_list_gui()
DBUS_AVAIL = False
def setup_dbus(force=True):
global bus, daemon, wireless, wired, DBUS_AVAIL
try:
dbusmanager.connect_to_dbus()
except DBusException:
if force:
print "Can't connect to the daemon, trying to start it automatically..."
misc.PromptToStartDaemon()
try:
dbusmanager.connect_to_dbus()
except DBusException:
error(None, "Could not connect to wicd's D-Bus interface. " +
"Check the wicd log for error messages.")
return False
else:
return False
bus = dbusmanager.get_bus()
dbus_ifaces = dbusmanager.get_dbus_ifaces()
daemon = dbus_ifaces['daemon']
wireless = dbus_ifaces['wireless']
wired = dbus_ifaces['wired']
DBUS_AVAIL = True
return True
def handle_no_dbus(from_tray=False):
global DBUS_AVAIL
DBUS_AVAIL = False
if from_tray: return False
print "Wicd daemon is shutting down!"
error(None, language['lost_dbus'], block=False)
return False
class WiredProfileChooser:
""" Class for displaying the wired profile chooser. """
def __init__(self):
""" Initializes and runs the wired profile chooser. """
# Import and init WiredNetworkEntry to steal some of the
# functions and widgets it uses.
wired_net_entry = WiredNetworkEntry(dbusmanager.get_dbus_ifaces())
dialog = gtk.Dialog(title = language['wired_network_found'],
flags = gtk.DIALOG_MODAL,
buttons = (gtk.STOCK_CONNECT, 1,
gtk.STOCK_CANCEL, 2))
dialog.set_has_separator(False)
dialog.set_size_request(400, 150)
instruct_label = gtk.Label(language['choose_wired_profile'] + ':\n')
stoppopcheckbox = gtk.CheckButton(language['stop_showing_chooser'])
wired_net_entry.is_full_gui = False
instruct_label.set_alignment(0, 0)
stoppopcheckbox.set_active(False)
# Remove widgets that were added to the normal WiredNetworkEntry
# so that they can be added to the pop-up wizard.
wired_net_entry.vbox_top.remove(wired_net_entry.hbox_temp)
wired_net_entry.vbox_top.remove(wired_net_entry.profile_help)
dialog.vbox.pack_start(instruct_label, fill=False, expand=False)
dialog.vbox.pack_start(wired_net_entry.profile_help, False, False)
dialog.vbox.pack_start(wired_net_entry.hbox_temp, False, False)
dialog.vbox.pack_start(stoppopcheckbox, False, False)
dialog.show_all()
wired_profiles = wired_net_entry.combo_profile_names
wired_net_entry.profile_help.hide()
if wired_net_entry.profile_list != None:
wired_profiles.set_active(0)
print "wired profiles found"
else:
print "no wired profiles found"
wired_net_entry.profile_help.show()
response = dialog.run()
if response == 1:
print 'reading profile ', wired_profiles.get_active_text()
wired.ReadWiredNetworkProfile(wired_profiles.get_active_text())
wired.ConnectWired()
else:
if stoppopcheckbox.get_active():
daemon.SetForcedDisconnect(True)
dialog.destroy()
class appGui(object):
""" The main wicd GUI class. """
def __init__(self, standalone=False):
""" Initializes everything needed for the GUI. """
setup_dbus()
gladefile = os.path.join(wpath.share, "wicd.glade")
self.wTree = gtk.glade.XML(gladefile)
self.window = self.wTree.get_widget("window1")
size = daemon.ReadWindowSize("main")
width = size[0]
height = size[1]
if width > -1 and height > -1:
self.window.resize(int(width), int(height))
else:
width = int(gtk.gdk.screen_width() / 2)
if width > 530:
width = 530
self.window.resize(width, int(gtk.gdk.screen_height() / 1.7))
dic = { "refresh_clicked" : self.refresh_clicked,
"quit_clicked" : self.exit,
"disconnect_clicked" : self.disconnect_all,
"main_exit" : self.exit,
"cancel_clicked" : self.cancel_connect,
"hidden_clicked" : self.connect_hidden,
"preferences_clicked" : self.settings_dialog,
"about_clicked" : self.about_dialog,
"create_adhoc_clicked" : self.create_adhoc_network,
}
self.wTree.signal_autoconnect(dic)
# Set some strings in the GUI - they may be translated
label_instruct = self.wTree.get_widget("label_instructions")
label_instruct.set_label(language['select_a_network'])
probar = self.wTree.get_widget("progressbar")
probar.set_text(language['connecting'])
self.network_list = self.wTree.get_widget("network_list_vbox")
self.status_area = self.wTree.get_widget("connecting_hbox")
self.status_bar = self.wTree.get_widget("statusbar")
menu = self.wTree.get_widget("menu1")
self.status_area.hide_all()
if os.path.exists(os.path.join(wpath.images, "wicd.png")):
self.window.set_icon_from_file(os.path.join(wpath.images, "wicd.png"))
self.statusID = None
self.first_dialog_load = True
self.is_visible = True
self.pulse_active = False
self.pref = None
self.standalone = standalone
self.wpadrivercombo = None
self.connecting = False
self.refreshing = False
self.prev_state = None
self.network_list.set_sensitive(False)
label = gtk.Label("%s..." % language['scanning'])
self.network_list.pack_start(label)
label.show()
self.wait_for_events(0.2)
self.window.connect('delete_event', self.exit)
self.window.connect('key-release-event', self.key_event)
daemon.SetGUIOpen(True)
bus.add_signal_receiver(self.dbus_scan_finished, 'SendEndScanSignal',
'org.wicd.daemon.wireless')
bus.add_signal_receiver(self.dbus_scan_started, 'SendStartScanSignal',
'org.wicd.daemon.wireless')
bus.add_signal_receiver(self.update_connect_buttons, 'StatusChanged',
'org.wicd.daemon')
bus.add_signal_receiver(self.handle_connection_results,
'ConnectResultsSent', 'org.wicd.daemon')
bus.add_signal_receiver(lambda: setup_dbus(force=False),
"DaemonStarting", "org.wicd.daemon")
if standalone:
bus.add_signal_receiver(handle_no_dbus, "DaemonClosing",
"org.wicd.daemon")
try:
gobject.timeout_add_seconds(2, self.update_statusbar)
except:
gobject.timeout_add(2000, self.update_statusbar)
self.refresh_clicked()
def handle_connection_results(self, results):
if results not in ['Success', 'aborted'] and self.is_visible:
error(self.window, language[results], block=False)
def create_adhoc_network(self, widget=None):
""" Shows a dialog that creates a new adhoc network. """
print "Starting the Ad-Hoc Network Creation Process..."
dialog = gtk.Dialog(title = language['create_adhoc_network'],
flags = gtk.DIALOG_MODAL,
buttons=(gtk.STOCK_CANCEL, 2, gtk.STOCK_OK, 1))
dialog.set_has_separator(False)
dialog.set_size_request(400, -1)
self.chkbox_use_encryption = gtk.CheckButton(language['use_wep_encryption'])
self.chkbox_use_encryption.set_active(False)
ip_entry = LabelEntry(language['ip'] + ':')
essid_entry = LabelEntry(language['essid'] + ':')
channel_entry = LabelEntry(language['channel'] + ':')
self.key_entry = LabelEntry(language['key'] + ':')
self.key_entry.set_auto_hidden(True)
self.key_entry.set_sensitive(False)
chkbox_use_ics = gtk.CheckButton(language['use_ics'])
self.chkbox_use_encryption.connect("toggled",
self.toggle_encrypt_check)
channel_entry.entry.set_text('3')
essid_entry.entry.set_text('My_Adhoc_Network')
ip_entry.entry.set_text('169.254.12.10') # Just a random IP
vbox_ah = gtk.VBox(False, 0)
vbox_ah.pack_start(self.chkbox_use_encryption, False, False)
vbox_ah.pack_start(self.key_entry, False, False)
vbox_ah.show()
dialog.vbox.pack_start(essid_entry)
dialog.vbox.pack_start(ip_entry)
dialog.vbox.pack_start(channel_entry)
dialog.vbox.pack_start(chkbox_use_ics)
dialog.vbox.pack_start(vbox_ah)
dialog.vbox.set_spacing(5)
dialog.show_all()
response = dialog.run()
if response == 1:
wireless.CreateAdHocNetwork(essid_entry.entry.get_text(),
channel_entry.entry.get_text(),
ip_entry.entry.get_text(), "WEP",
self.key_entry.entry.get_text(),
self.chkbox_use_encryption.get_active(),
False) #chkbox_use_ics.get_active())
dialog.destroy()
def toggle_encrypt_check(self, widget=None):
""" Toggles the encryption key entry box for the ad-hoc dialog. """
self.key_entry.set_sensitive(self.chkbox_use_encryption.get_active())
def disconnect_all(self, widget=None):
""" Disconnects from any active network. """
daemon.Disconnect()
def about_dialog(self, widget, event=None):
""" Displays an about dialog. """
dialog = gtk.AboutDialog()
dialog.set_name("Wicd")
dialog.set_version(daemon.Hello())
dialog.set_authors([ "Adam Blackburn", "Dan O'Reilly" ])
dialog.set_website("http://wicd.sourceforge.net")
dialog.run()
dialog.destroy()
def key_event (self, widget, event=None):
""" Handle key-release-events. """
if event.state & gtk.gdk.CONTROL_MASK and \
gtk.gdk.keyval_name(event.keyval) in ["w", "q"]:
self.exit()
def settings_dialog(self, widget, event=None):
""" Displays a general settings dialog. """
if not self.pref:
self.pref = PreferencesDialog(self.wTree,
dbusmanager.get_dbus_ifaces())
else:
self.pref.load_preferences_diag()
if self.pref.run() == 1:
self.pref.save_results()
self.pref.hide()
def connect_hidden(self, widget):
""" Prompts the user for a hidden network, then scans for it. """
dialog = gtk.Dialog(title=language['hidden_network'],
flags=gtk.DIALOG_MODAL,
buttons=(gtk.STOCK_CONNECT, 1, gtk.STOCK_CANCEL, 2))
dialog.set_has_separator(False)
lbl = gtk.Label(language['hidden_network_essid'])
textbox = gtk.Entry()
dialog.vbox.pack_start(lbl)
dialog.vbox.pack_start(textbox)
dialog.show_all()
button = dialog.run()
if button == 1:
answer = textbox.get_text()
dialog.destroy()
self.refresh_networks(None, True, answer)
else:
dialog.destroy()
def cancel_connect(self, widget):
""" Alerts the daemon to cancel the connection process. """
#should cancel a connection if there
#is one in progress
cancel_button = self.wTree.get_widget("cancel_button")
cancel_button.set_sensitive(False)
daemon.CancelConnect()
# Prevents automatic reconnecting if that option is enabled
daemon.SetForcedDisconnect(True)
def pulse_progress_bar(self):
""" Pulses the progress bar while connecting to a network. """
if not self.pulse_active:
return False
if not self.is_visible:
return True
try:
gobject.idle_add(self.wTree.get_widget("progressbar").pulse)
except:
pass
return True
def update_statusbar(self):
""" Updates the status bar
Queries the daemon for network connection information and
updates the GUI status bar based on the results.
"""
if not self.is_visible or self.refreshing:
return True
fast = not daemon.NeedsExternalCalls()
wired_connecting = wired.CheckIfWiredConnecting()
wireless_connecting = wireless.CheckIfWirelessConnecting()
self.connecting = wired_connecting or wireless_connecting
if self.connecting:
if not self.pulse_active:
self.pulse_active = True
gobject.timeout_add(100, self.pulse_progress_bar)
gobject.idle_add(self.network_list.set_sensitive, False)
gobject.idle_add(self.status_area.show_all)
if self.statusID:
gobject.idle_add(self.status_bar.remove, 1, self.statusID)
if wireless_connecting:
if not fast:
iwconfig = wireless.GetIwconfig()
else:
iwconfig = ''
gobject.idle_add(self.set_status, wireless.GetCurrentNetwork(iwconfig) + ': ' +
language[str(wireless.CheckWirelessConnectingMessage())])
if wired_connecting:
gobject.idle_add(self.set_status, language['wired_network'] + ': ' +
language[str(wired.CheckWiredConnectingMessage())])
return True
else:
if self.pulse_active:
self.pulse_active = False
gobject.idle_add(self.network_list.set_sensitive, True)
gobject.idle_add(self.status_area.hide_all)
if self.statusID:
gobject.idle_add(self.status_bar.remove, 1, self.statusID)
# Determine connection status.
if self.check_for_wired(wired.GetWiredIP("")):
return True
if not fast:
iwconfig = wireless.GetIwconfig()
else:
iwconfig = ''
if self.check_for_wireless(iwconfig, wireless.GetWirelessIP("")):
return True
self.set_status(language['not_connected'])
return True
def update_connect_buttons(self, state=None, x=None, force_check=False):
""" Updates the connect/disconnect buttons for each network entry.
If force_check is given, update the buttons even if the
current network state is the same as the previous.
"""
if not DBUS_AVAIL: return
if not state:
state, x = daemon.GetConnectionStatus()
if self.prev_state != state or force_check:
apbssid = wireless.GetApBssid()
for entry in self.network_list:
if hasattr(entry, "update_connect_button"):
entry.update_connect_button(state, apbssid)
self.prev_state = state
def check_for_wired(self, wired_ip):
""" Determine if wired is active, and if yes, set the status. """
if wired_ip and wired.CheckPluggedIn():
self.set_status(
language['connected_to_wired'].replace('$A',wired_ip)
)
return True
else:
return False
def check_for_wireless(self, iwconfig, wireless_ip):
""" Determine if wireless is active, and if yes, set the status. """
if not wireless_ip:
return False
network = wireless.GetCurrentNetwork(iwconfig)
if not network:
return False
network = str(network)
if daemon.GetSignalDisplayType() == 0:
strength = wireless.GetCurrentSignalStrength(iwconfig)
else:
strength = wireless.GetCurrentDBMStrength(iwconfig)
if strength is None:
return False
strength = str(strength)
ip = str(wireless_ip)
self.set_status(language['connected_to_wireless'].replace
('$A', network).replace
('$B', daemon.FormatSignalForPrinting(strength)).replace
('$C', wireless_ip))
return True
def set_status(self, msg):
""" Sets the status bar message for the GUI. """
self.statusID = self.status_bar.push(1, msg)
def dbus_scan_finished(self):
""" Calls for a non-fresh update of the gui window.
This method is called after a wireless scan is completed.
"""
if not DBUS_AVAIL: return
if not self.connecting:
gobject.idle_add(self.refresh_networks, None, False, None)
def dbus_scan_started(self):
""" Called when a wireless scan starts. """
if not DBUS_AVAIL: return
self.network_list.set_sensitive(False)
def refresh_clicked(self, widget=None):
""" Kick off an asynchronous wireless scan. """
if not DBUS_AVAIL: return
self.refreshing = True
wireless.Scan(False)
def refresh_networks(self, widget=None, fresh=True, hidden=None):
""" Refreshes the network list.
If fresh=True, scans for wireless networks and displays the results.
If a ethernet connection is available, or the user has chosen to,
displays a Wired Network entry as well.
If hidden isn't None, will scan for networks after running
iwconfig essid .
"""
if fresh:
if hidden:
wireless.SetHiddenNetworkESSID(noneToString(hidden))
self.refresh_clicked()
return
print "refreshing..."
self.network_list.set_sensitive(False)
self.wait_for_events()
printLine = False # We don't print a separator by default.
# Remove stuff already in there.
for z in self.network_list:
self.network_list.remove(z)
z.destroy()
del z
if wired.CheckPluggedIn() or daemon.GetAlwaysShowWiredInterface():
printLine = True # In this case we print a separator.
wirednet = WiredNetworkEntry(dbusmanager.get_dbus_ifaces())
self.network_list.pack_start(wirednet, False, False)
wirednet.connect_button.connect("button-press-event", self.connect,
"wired", 0, wirednet)
wirednet.disconnect_button.connect("button-press-event", self.disconnect,
"wired", 0, wirednet)
wirednet.advanced_button.connect("button-press-event",
self.edit_advanced, "wired", 0,
wirednet)
num_networks = wireless.GetNumberOfNetworks()
instruct_label = self.wTree.get_widget("label_instructions")
if num_networks > 0:
instruct_label.show()
dbus_ifaces = dbusmanager.get_dbus_ifaces()
for x in range(0, num_networks):
if printLine:
sep = gtk.HSeparator()
self.network_list.pack_start(sep, padding=10, fill=False,
expand=False)
sep.show()
else:
printLine = True
tempnet = WirelessNetworkEntry(x, dbus_ifaces)
self.network_list.pack_start(tempnet, False, False)
tempnet.connect_button.connect("button-press-event",
self.connect, "wireless", x,
tempnet)
tempnet.disconnect_button.connect("button-press-event",
self.disconnect, "wireless",
x, tempnet)
tempnet.advanced_button.connect("button-press-event",
self.edit_advanced, "wireless",
x, tempnet)
else:
instruct_label.hide()
if wireless.GetKillSwitchEnabled():
label = gtk.Label(language['killswitch_enabled'] + ".")
else:
label = gtk.Label(language['no_wireless_networks_found'])
self.network_list.pack_start(label)
label.show()
self.update_connect_buttons(force_check=True)
self.network_list.set_sensitive(True)
self.refreshing = False
def save_settings(self, nettype, networkid, networkentry):
""" Verifies and saves the settings for the network entry. """
entry = networkentry.advanced_dialog
opt_entlist = []
req_entlist = []
# First make sure all the Addresses entered are valid.
if entry.chkbox_static_ip.get_active():
req_entlist = [entry.txt_ip, entry.txt_netmask]
opt_entlist = [entry.txt_gateway]
if entry.chkbox_static_dns.get_active() and \
not entry.chkbox_global_dns.get_active():
req_entlist.append(entry.txt_dns_1)
# Only append additional dns entries if they're entered.
for ent in [entry.txt_dns_2, entry.txt_dns_3]:
if ent.get_text() != "":
opt_entlist.append(ent)
# Required entries.
for lblent in req_entlist:
if not misc.IsValidIP(lblent.get_text()):
error(self.window, language['invalid_address'].
replace('$A', lblent.label.get_label()))
return False
# Optional entries, only check for validity if they're entered.
for lblent in opt_entlist:
if lblent.get_text() and not misc.IsValidIP(lblent.get_text()):
error(self.window, language['invalid_address'].
replace('$A', lblent.label.get_label()))
return False
# Now save the settings.
if nettype == "wireless":
if not networkentry.save_wireless_settings(networkid):
return False
elif nettype == "wired":
if not networkentry.save_wired_settings():
return False
return True
def edit_advanced(self, widget, event, ttype, networkid, networkentry):
""" Display the advanced settings dialog.
Displays the advanced settings dialog and saves any changes made.
If errors occur in the settings, an error message will be displayed
and the user won't be able to save the changes until the errors
are fixed.
"""
dialog = networkentry.advanced_dialog
dialog.set_values()
dialog.show_all()
while True:
if self.run_settings_dialog(dialog, ttype, networkid, networkentry):
break
dialog.hide()
def run_settings_dialog(self, dialog, nettype, networkid, networkentry):
""" Runs the settings dialog.
Runs the settings dialog and returns True if settings are saved
successfully, and false otherwise.
"""
result = dialog.run()
if result == gtk.RESPONSE_ACCEPT:
if self.save_settings(nettype, networkid, networkentry):
return True
else:
return False
return True
def check_encryption_valid(self, networkid, entry):
""" Make sure that encryption settings are properly filled in. """
# Make sure no entries are left blank
if entry.chkbox_encryption.get_active():
encryption_info = entry.encryption_info
for x in encryption_info:
if encryption_info[x].get_text() == "":
error(self.window, language['encrypt_info_missing'])
return False
# Make sure the checkbox is checked when it should be
elif not entry.chkbox_encryption.get_active() and \
wireless.GetWirelessProperty(networkid, "encryption"):
error(self.window, language['enable_encryption'])
return False
return True
def connect(self, widget, event, nettype, networkid, networkentry):
""" Initiates the connection process in the daemon. """
cancel_button = self.wTree.get_widget("cancel_button")
cancel_button.set_sensitive(True)
if nettype == "wireless":
if not self.check_encryption_valid(networkid,
networkentry.advanced_dialog):
self.edit_advanced(None, None, nettype, networkid, networkentry)
return False
wireless.ConnectWireless(networkid)
elif nettype == "wired":
wired.ConnectWired()
self.update_statusbar()
def disconnect(self, widget, event, nettype, networkid, networkentry):
""" Disconnects from the given network.
Keyword arguments:
widget -- The disconnect button that was pressed.
event -- unused
nettype -- "wired" or "wireless", depending on the network entry type.
networkid -- unused
networkentry -- The NetworkEntry containing the disconnect button.
"""
widget.hide()
networkentry.connect_button.show()
if nettype == "wired":
wired.DisconnectWired()
else:
wireless.DisconnectWireless()
def wait_for_events(self, amt=0):
""" Wait for any pending gtk events to finish before moving on.
Keyword arguments:
amt -- a number specifying the number of ms to wait before checking
for pending events.
"""
time.sleep(amt)
while gtk.events_pending():
gtk.main_iteration()
def exit(self, widget=None, event=None):
""" Hide the wicd GUI.
This method hides the wicd GUI and writes the current window size
to disc for later use. This method normally does NOT actually
destroy the GUI, it just hides it.
"""
self.window.hide()
[width, height] = self.window.get_size()
try:
daemon.WriteWindowSize(width, height, "main")
daemon.SetGUIOpen(False)
except dbusmanager.DBusException:
pass
if self.standalone:
sys.exit(0)
self.is_visible = False
return True
def show_win(self):
""" Brings the GUI out of the hidden state.
Method to show the wicd GUI, alert the daemon that it is open,
and refresh the network list.
"""
self.window.present()
self.wait_for_events()
self.is_visible = True
daemon.SetGUIOpen(True)
self.wait_for_events(0.1)
gobject.idle_add(self.refresh_clicked)
if __name__ == '__main__':
setup_dbus()
app = appGui(standalone=True)
mainloop = gobject.MainLoop()
mainloop.run()