gnome-shell/js/ui/status/network.js
Aleksander Morgado ceb035e9b3 network: treat LTE-only modems as GSM ones
LTE-only modems need to be treated as GSM/HSPA modems, as they all are 3GPP
modems and they all need the same kind of configuration (APN, user, password,
PIN...).

https://bugzilla.gnome.org/show_bug.cgi?id=688144
2013-02-05 15:49:39 +01:00

2399 lines
87 KiB
JavaScript

// -*- mode: js; js-indent-level: 4; indent-tabs-mode: nil -*-
const GLib = imports.gi.GLib;
const GObject = imports.gi.GObject;
const Gio = imports.gi.Gio;
const Lang = imports.lang;
const NetworkManager = imports.gi.NetworkManager;
const NMClient = imports.gi.NMClient;
const Signals = imports.signals;
const St = imports.gi.St;
// Some of the new code depends on as-yet-unreleased NM
var NMGtk;
try {
NMGtk = imports.gi.NMGtk;
} catch(e) {
NMGtk = null;
}
const Main = imports.ui.main;
const PanelMenu = imports.ui.panelMenu;
const PopupMenu = imports.ui.popupMenu;
const MessageTray = imports.ui.messageTray;
const NotificationDaemon = imports.ui.notificationDaemon;
const ModemManager = imports.misc.modemManager;
const Util = imports.misc.util;
const NMConnectionCategory = {
INVALID: 'invalid',
WIRED: 'wired',
VIRTUAL: 'virtual',
WIRELESS: 'wireless',
WWAN: 'wwan',
VPN: 'vpn'
};
const NMAccessPointSecurity = {
UNKNOWN: 0,
NONE: 1,
WEP: 2,
WPA_PSK: 3,
WPA2_PSK: 4,
WPA_ENT: 5,
WPA2_ENT: 6
};
// small optimization, to avoid using [] all the time
const NM80211Mode = NetworkManager['80211Mode'];
const NM80211ApFlags = NetworkManager['80211ApFlags'];
const NM80211ApSecurityFlags = NetworkManager['80211ApSecurityFlags'];
// number of wireless networks that should be visible
// (the remaining are placed into More...)
const NUM_VISIBLE_NETWORKS = 5;
function macToArray(string) {
return string.split(':').map(function(el) {
return parseInt(el, 16);
});
}
function macCompare(one, two) {
for (let i = 0; i < 6; i++) {
if (one[i] != two[i])
return false;
}
return true;
}
function ssidCompare(one, two) {
if (!one || !two)
return false;
if (one.length != two.length)
return false;
for (let i = 0; i < one.length; i++) {
if (one[i] != two[i])
return false;
}
return true;
}
// shared between NMNetworkMenuItem and NMDeviceWWAN
function signalToIcon(value) {
if (value > 80)
return 'excellent';
if (value > 55)
return 'good';
if (value > 30)
return 'ok';
if (value > 5)
return 'weak';
return 'none';
}
// shared between NMNetworkMenuItem and NMDeviceWireless
function sortAccessPoints(accessPoints) {
return accessPoints.sort(function (one, two) {
return two.strength - one.strength;
});
}
function ssidToLabel(ssid) {
let label = NetworkManager.utils_ssid_to_utf8(ssid);
if (!label)
label = _("<unknown>");
return label;
}
const NMNetworkMenuItem = new Lang.Class({
Name: 'NMNetworkMenuItem',
Extends: PopupMenu.PopupBaseMenuItem,
_init: function(bestAP, title, params) {
this.parent(params);
this.bestAP = bestAP;
if (!title) {
let ssid = this.bestAP.get_ssid();
title = ssidToLabel(ssid);
}
this._label = new St.Label({ text: title });
this.actor.label_actor = this._label;
this.addActor(this._label);
this._icons = new St.BoxLayout({ style_class: 'nm-menu-item-icons' });
this.addActor(this._icons, { align: St.Align.END });
this._signalIcon = new St.Icon({ icon_name: this._getIcon(),
style_class: 'popup-menu-icon' });
this._icons.add_actor(this._signalIcon);
this._secureIcon = new St.Icon({ style_class: 'popup-menu-icon' });
if (this.bestAP._secType != NMAccessPointSecurity.UNKNOWN &&
this.bestAP._secType != NMAccessPointSecurity.NONE)
this._secureIcon.icon_name = 'network-wireless-encrypted-symbolic';
this._icons.add_actor(this._secureIcon);
},
updateBestAP: function(ap) {
this.bestAP = ap;
this._signalIcon.icon_name = this._getIcon();
},
_getIcon: function() {
if (this.bestAP.mode == NM80211Mode.ADHOC)
return 'network-workgroup-symbolic';
else
return 'network-wireless-signal-' + signalToIcon(this.bestAP.strength) + '-symbolic';
}
});
const NMWirelessSectionTitleMenuItem = new Lang.Class({
Name: 'NMWirelessSectionTitleMenuItem',
Extends: PopupMenu.PopupSwitchMenuItem,
_init: function(client, property, title, params) {
params = params || { };
params.style_class = 'popup-subtitle-menu-item';
this.parent(title, false, params);
this._client = client;
this._property = property + '_enabled';
this._propertyHardware = property + '_hardware_enabled';
this._setEnabledFunc = property + '_set_enabled';
this._client.connect('notify::' + property + '-enabled', Lang.bind(this, this._propertyChanged));
this._client.connect('notify::' + property + '-hardware-enabled', Lang.bind(this, this._propertyChanged));
this._propertyChanged();
},
updateForDevice: function(device) {
// we show the switch
// - if there not just one device
// - if the switch is off (but it can be turned on)
// - if the device is activated or disconnected
if (!this._hardwareEnabled) {
this.setStatus(_("hardware disabled"));
} else if (device && this._softwareEnabled) {
let text = device.getStatusLabel();
this.setStatus(text);
} else
this.setStatus(null);
},
activate: function(event) {
this.parent(event);
this._client[this._setEnabledFunc](this._switch.state);
},
_propertyChanged: function() {
this._softwareEnabled = this._client[this._property];
this._hardwareEnabled = this._client[this._propertyHardware];
let enabled = this._softwareEnabled && this._hardwareEnabled;
this.setToggleState(enabled);
if (!this._hardwareEnabled)
/* Translators: this indicates that wireless or wwan is disabled by hardware killswitch */
this.setStatus(_("disabled"));
this.emit('enabled-changed', enabled);
}
});
const NMConnectionBased = new Lang.Class({
Name: 'NMConnectionBased',
Abstract: true,
_init: function(connections) {
this._connections = [ ];
for (let i = 0; i < connections.length; i++) {
if (!connections[i].get_uuid())
continue;
if (!this.connectionValid(connections[i]))
continue;
// record the connection
let obj = {
connection: connections[i],
name: connections[i].get_id(),
uuid: connections[i].get_uuid(),
timestamp: connections[i]._timestamp,
item: null,
};
this._connections.push(obj);
}
this._connections.sort(this._connectionSortFunction);
},
checkConnection: function(connection) {
let pos = this._findConnection(connection.get_uuid());
let exists = pos != -1;
let valid = this.connectionValid(connection);
let similar = false;
if (exists) {
let existing = this._connections[pos];
// Check if connection changed name or id
similar = existing.name == connection.get_id() &&
existing.timestamp == connection._timestamp;
}
if (exists && valid && similar) {
// Nothing to do
return;
}
if (exists)
this.removeConnection(connection);
if (valid)
this.addConnection(connection);
},
addConnection: function(connection) {
// record the connection
let obj = {
connection: connection,
name: connection.get_id(),
uuid: connection.get_uuid(),
timestamp: connection._timestamp,
item: null,
};
Util.insertSorted(this._connections, obj, this._connectionSortFunction);
this._queueCreateSection();
},
removeConnection: function(connection) {
let pos = this._findConnection(connection.get_uuid());
if (pos == -1) {
// this connection was never added, nothing to do here
return;
}
let obj = this._connections[pos];
if (obj.item)
obj.item.destroy();
this._connections.splice(pos, 1);
if (this._connections.length <= 1) {
// We need to show the automatic connection again
// (or in the case of NMDeviceWired, we want to hide
// the only explicit connection)
this._queueCreateSection();
}
},
_findConnection: function(uuid) {
for (let i = 0; i < this._connections.length; i++) {
let obj = this._connections[i];
if (obj.uuid == uuid)
return i;
}
return -1;
},
_connectionSortFunction: function(one, two) {
if (one.timestamp == two.timestamp)
return GLib.utf8_collate(one.name, two.name);
return two.timestamp - one.timestamp;
},
});
Signals.addSignalMethods(NMConnectionBased.prototype);
const NMDevice = new Lang.Class({
Name: 'NMDevice',
Abstract: true,
Extends: NMConnectionBased,
_init: function(client, device, connections) {
this._client = client;
this._setDevice(device);
this.parent(connections);
this._activeConnection = null;
this._activeConnectionItem = null;
this._autoConnectionItem = null;
this._overflowItem = null;
this.statusItem = new PopupMenu.PopupSwitchMenuItem('', this.connected, { style_class: 'popup-subtitle-menu-item' });
this._statusChanged = this.statusItem.connect('toggled', Lang.bind(this, function(item, state) {
let ok;
if (state)
ok = this.activate();
else
ok = this.deactivate();
if (!ok)
item.setToggleState(!state);
}));
this._updateStatusItem();
this.section = new PopupMenu.PopupMenuSection();
this._deferredWorkId = Main.initializeDeferredWork(this.section.actor, Lang.bind(this, this._createSection));
},
destroy: function() {
this._setDevice(null);
if (this._deferredWorkId) {
// Just clear out, the actual removal is handled when the
// actor is destroyed
this._deferredWorkId = 0;
}
this._clearSection();
if (this.statusItem)
this.statusItem.destroy();
this.section.destroy();
},
_setDevice: function(device) {
if (device) {
this.device = device;
this.device._delegate = this;
this._stateChangedId = this.device.connect('state-changed', Lang.bind(this, this._deviceStateChanged));
} else if (this.device) {
this.device._delegate = null;
if (this._stateChangedId) {
// Need to go through GObject.Object.prototype because
// nm_device_disconnect conflicts with g_signal_disconnect
GObject.Object.prototype.disconnect.call(this.device, this._stateChangedId);
this._stateChangedId = 0;
}
if (this._carrierChangedId) {
GObject.Object.prototype.disconnect.call(this.device, this._carrierChangedId);
this._carrierChangedId = 0;
}
if (this._firmwareChangedId) {
GObject.Object.prototype.disconnect.call(this.device, this._firmwareChangedId);
this._firmwareChangedId = 0;
}
this.device = null;
}
},
deactivate: function() {
this.device.disconnect(null);
return true;
},
activate: function() {
if (this._activeConnection)
// nothing to do
return true;
// If there is only one connection available, use that
// Otherwise, if no connection is currently configured,
// try automatic configuration (or summon the config dialog)
if (this._connections.length == 1) {
this._client.activate_connection(this._connections[0].connection, this.device || null, null, null);
return true;
} else if (this._connections.length == 0) {
return this._activateAutomaticConnection();
}
return false;
},
_activateAutomaticConnection: function() {
let connection = this._createAutomaticConnection();
if (connection) {
this._client.add_and_activate_connection(connection, this.device, null, null);
return true;
}
return false;
},
get connected() {
return this.device && this.device.state == NetworkManager.DeviceState.ACTIVATED;
},
clearActiveConnection: function(activeConnection) {
this.setActiveConnection(null);
},
setActiveConnection: function(activeConnection) {
if (activeConnection == this._activeConnection)
// nothing to do
return;
// remove any UI
if (this._activeConnectionItem) {
this._activeConnectionItem.destroy();
this._activeConnectionItem = null;
}
this._activeConnection = activeConnection;
this._queueCreateSection();
},
connectionValid: function(connection) {
return this.device.connection_valid(connection);
},
setEnabled: function(enabled) {
// do nothing by default, we want to keep the conneciton list visible
// in the majority of cases (wired, wwan)
},
getStatusLabel: function() {
if (!this.device)
return null;
switch(this.device.state) {
case NetworkManager.DeviceState.DISCONNECTED:
case NetworkManager.DeviceState.ACTIVATED:
return null;
case NetworkManager.DeviceState.UNMANAGED:
/* Translators: this is for network devices that are physically present but are not
under NetworkManager's control (and thus cannot be used in the menu) */
return _("unmanaged");
case NetworkManager.DeviceState.DEACTIVATING:
return _("disconnecting...");
case NetworkManager.DeviceState.PREPARE:
case NetworkManager.DeviceState.CONFIG:
case NetworkManager.DeviceState.IP_CONFIG:
case NetworkManager.DeviceState.IP_CHECK:
case NetworkManager.DeviceState.SECONDARIES:
return _("connecting...");
case NetworkManager.DeviceState.NEED_AUTH:
/* Translators: this is for network connections that require some kind of key or password */
return _("authentication required");
case NetworkManager.DeviceState.UNAVAILABLE:
// This state is actually a compound of various states (generically unavailable,
// firmware missing, carrier not available), that are exposed by different properties
// (whose state may or may not updated when we receive state-changed).
if (!this._firmwareMissingId)
this._firmwareMissingId = this.device.connect('notify::firmware-missing', Lang.bind(this, this._substateChanged));
if (this.device.firmware_missing) {
/* Translators: this is for devices that require some kind of firmware or kernel
module, which is missing */
return _("firmware missing");
}
if (this.device.capabilities & NetworkManager.DeviceCapabilities.CARRIER_DETECT) {
if (!this._carrierChangedId)
this._carrierChangedId = this.device.connect('notify::carrier', Lang.bind(this, this._substateChanged));
if (!this.carrier) {
/* Translators: this is for wired network devices that are physically disconnected */
return _("cable unplugged");
}
}
/* Translators: this is for a network device that cannot be activated (for example it
is disabled by rfkill, or it has no coverage */
return _("unavailable");
case NetworkManager.DeviceState.FAILED:
return _("connection failed");
default:
log('Device state invalid, is %d'.format(this.device.state));
return 'invalid';
}
},
syncDescription: function() {
if (this.device && this.device._description)
this.statusItem.label.text = this.device._description;
},
// protected
_createAutomaticConnection: function() {
throw new TypeError('Invoking pure virtual function NMDevice.createAutomaticConnection');
},
_queueCreateSection: function() {
if (this._deferredWorkId) {
this._clearSection();
Main.queueDeferredWork(this._deferredWorkId);
}
},
_clearSection: function() {
// Clear everything
this.section.removeAll();
this._autoConnectionItem = null;
this._activeConnectionItem = null;
this._overflowItem = null;
for (let i = 0; i < this._connections.length; i++) {
this._connections[i].item = null;
}
},
_shouldShowConnectionList: function() {
return (this.device.state >= NetworkManager.DeviceState.DISCONNECTED);
},
_createSection: function() {
if (!this._shouldShowConnectionList())
return;
if (this._activeConnection) {
this._createActiveConnectionItem();
this.section.addMenuItem(this._activeConnectionItem);
}
if (this._connections.length > 0) {
let activeOffset = this._activeConnectionItem ? 1 : 0;
for(let j = 0; j < this._connections.length; ++j) {
let obj = this._connections[j];
if (this._activeConnection &&
obj.connection == this._activeConnection._connection)
continue;
obj.item = this._createConnectionItem(obj);
if (j + activeOffset >= NUM_VISIBLE_NETWORKS) {
if (!this._overflowItem) {
this._overflowItem = new PopupMenu.PopupSubMenuMenuItem(_("More..."));
this.section.addMenuItem(this._overflowItem);
}
this._overflowItem.menu.addMenuItem(obj.item);
} else
this.section.addMenuItem(obj.item);
}
} else if (this._autoConnectionName) {
this._autoConnectionItem = new PopupMenu.PopupMenuItem(this._autoConnectionName);
this._autoConnectionItem.connect('activate', Lang.bind(this, function() {
let connection = this._createAutomaticConnection();
if (connection)
this._client.add_and_activate_connection(connection, this.device, null, null);
}));
this.section.addMenuItem(this._autoConnectionItem);
}
},
_createConnectionItem: function(obj) {
let connection = obj.connection;
let item = new PopupMenu.PopupMenuItem(obj.name);
item.connect('activate', Lang.bind(this, function() {
this._client.activate_connection(connection, this.device, null, null);
}));
return item;
},
_createActiveConnectionItem: function() {
let title;
let active = this._activeConnection._connection;
if (active) {
title = active.get_id();
} else {
/* TRANSLATORS: this is the indication that a connection for another logged in user is active,
and we cannot access its settings (including the name) */
title = _("Connected (private)");
}
this._activeConnectionItem = new PopupMenu.PopupMenuItem(title, { reactive: false });
this._activeConnectionItem.setShowDot(true);
},
_deviceStateChanged: function(device, newstate, oldstate, reason) {
if (newstate == oldstate) {
log('device emitted state-changed without actually changing state');
return;
}
if (oldstate == NetworkManager.DeviceState.ACTIVATED) {
this.emit('network-lost');
}
/* Emit a notification if activation fails, but don't do it
if the reason is no secrets, as that indicates the user
cancelled the agent dialog */
if (newstate == NetworkManager.DeviceState.FAILED &&
reason != NetworkManager.DeviceStateReason.NO_SECRETS) {
this.emit('activation-failed', reason);
}
this._updateStatusItem();
this._queueCreateSection();
this.emit('state-changed');
},
_updateStatusItem: function() {
if (this._carrierChangedId) {
// see above for why this is needed
GObject.Object.prototype.disconnect.call(this.device, this._carrierChangedId);
this._carrierChangedId = 0;
}
if (this._firmwareChangedId) {
GObject.Object.prototype.disconnect.call(this.device, this._firmwareChangedId);
this._firmwareChangedId = 0;
}
this.statusItem.setStatus(this.getStatusLabel());
this.statusItem.setToggleState(this.connected);
},
_substateChanged: function() {
this.statusItem.setStatus(this.getStatusLabel());
this.emit('state-changed');
}
});
const NMDeviceSimple = new Lang.Class({
Name: 'NMDeviceSimple',
Extends: NMDevice,
_init: function(client, device, connections) {
this.category = NMConnectionCategory.WIRED;
this.parent(client, device, connections);
},
_createSection: function() {
this.parent();
// if we have only one connection (normal or automatic)
// we hide the connection list, and use the switch to control
// the device
// we can do it here because addConnection and removeConnection
// both call _createSection at some point
this.section.actor.visible = this._connections.length > 1;
}
});
const NMDeviceWired = new Lang.Class({
Name: 'NMDeviceWired',
Extends: NMDeviceSimple,
_init: function(client, device, connections) {
device._description = _("Wired");
this._autoConnectionName = _("Auto Ethernet");
this.category = NMConnectionCategory.WIRED;
this.parent(client, device, connections);
},
_createAutomaticConnection: function() {
let connection = new NetworkManager.Connection();
let uuid = NetworkManager.utils_uuid_generate();
connection.add_setting(new NetworkManager.SettingWired());
connection.add_setting(new NetworkManager.SettingConnection({
uuid: uuid,
id: this._autoConnectionName,
type: NetworkManager.SETTING_WIRED_SETTING_NAME,
autoconnect: true
}));
return connection;
}
});
const NMDeviceModem = new Lang.Class({
Name: 'NMDeviceModem',
Extends: NMDevice,
_init: function(client, device, connections) {
let is_wwan = false;
device._description = _("Mobile broadband");
this._enabled = true;
this.mobileDevice = null;
this._connectionType = 'ppp';
this._capabilities = device.current_capabilities;
// Support new ModemManager1 devices
if (device.udi.indexOf('/org/freedesktop/ModemManager1/Modem') == 0) {
is_wwan = true;
this.mobileDevice = new ModemManager.BroadbandModem(device.udi, device.current_capabilities);
if (this._capabilities & NetworkManager.DeviceModemCapabilities.GSM_UMTS) {
this._connectionType = NetworkManager.SETTING_GSM_SETTING_NAME;
} else if (this._capabilities & NetworkManager.DeviceModemCapabilities.LTE) {
this._connectionType = NetworkManager.SETTING_GSM_SETTING_NAME;
} else if (this._capabilities & NetworkManager.DeviceModemCapabilities.CDMA_EVDO) {
this._connectionType = NetworkManager.SETTING_CDMA_SETTING_NAME;
}
} else if (this._capabilities & NetworkManager.DeviceModemCapabilities.GSM_UMTS) {
is_wwan = true;
this.mobileDevice = new ModemManager.ModemGsm(device.udi);
this._connectionType = NetworkManager.SETTING_GSM_SETTING_NAME;
} else if (this._capabilities & NetworkManager.DeviceModemCapabilities.CDMA_EVDO) {
is_wwan = true;
this.mobileDevice = new ModemManager.ModemCdma(device.udi);
this._connectionType = NetworkManager.SETTING_CDMA_SETTING_NAME;
} else if (this._capabilities & NetworkManager.DeviceModemCapabilities.LTE) {
is_wwan = true;
this.mobileDevice = new ModemManager.ModemGsm(device.udi);
this._connectionType = NetworkManager.SETTING_GSM_SETTING_NAME;
}
if (is_wwan) {
this.category = NMConnectionCategory.WWAN;
this._autoConnectionName = _("Auto broadband");
} else {
this.category = NMConnectionCategory.WIRED;
this._autoConnectionName = _("Auto dial-up");
}
if (this.mobileDevice) {
this._operatorNameId = this.mobileDevice.connect('notify::operator-name', Lang.bind(this, function() {
if (this._operatorItem) {
let name = this.mobileDevice.operator_name;
if (name) {
this._operatorItem.label.text = name;
this._operatorItem.actor.show();
} else
this._operatorItem.actor.hide();
}
}));
this._signalQualityId = this.mobileDevice.connect('notify::signal-quality', Lang.bind(this, function() {
if (this._operatorItem) {
this._operatorItem.setIcon(this._getSignalIcon());
}
}));
}
this.parent(client, device, connections);
},
setEnabled: function(enabled) {
this._enabled = enabled;
if (this.category == NMConnectionCategory.WWAN) {
if (enabled) {
// prevent "network unavailable" statuses
this.statusItem.setStatus(null);
} else
this.statusItem.setStatus(this.getStatusLabel());
}
this.parent(enabled);
},
get connected() {
return this._enabled && this.device.state == NetworkManager.DeviceState.ACTIVATED;
},
destroy: function() {
if (this._operatorNameId) {
this.mobileDevice.disconnect(this._operatorNameId);
this._operatorNameId = 0;
}
if (this._signalQualityId) {
this.mobileDevice.disconnect(this._signalQualityId);
this._signalQualityId = 0;
}
this.parent();
},
_getSignalIcon: function() {
return 'network-cellular-signal-' + signalToIcon(this.mobileDevice.signal_quality) + '-symbolic';
},
_createSection: function() {
if (!this._shouldShowConnectionList())
return;
if (this.mobileDevice) {
// If operator_name is null, just pass the empty string, as the item is hidden anyway
this._operatorItem = new PopupMenu.PopupImageMenuItem(this.mobileDevice.operator_name || '',
this._getSignalIcon(),
{ reactive: false });
if (!this.mobileDevice.operator_name)
this._operatorItem.actor.hide();
this.section.addMenuItem(this._operatorItem);
}
this.parent();
},
_clearSection: function() {
this._operatorItem = null;
this.parent();
},
_activateAutomaticConnection: function() {
// Mobile wizard is too complex for the shell UI and
// is handled by the network panel
Util.spawn(['gnome-control-center', 'network',
'connect-3g', this.device.get_path()]);
return true;
},
});
const NMDeviceBluetooth = new Lang.Class({
Name: 'NMDeviceBluetooth',
Extends: NMDevice,
_init: function(client, device, connections) {
device._description = _("Bluetooth");
this._autoConnectionName = this._makeConnectionName(device);
device.connect('notify::name', Lang.bind(this, this._updateAutoConnectionName));
this.category = NMConnectionCategory.WWAN;
this.parent(client, device, connections);
},
_createAutomaticConnection: function() {
let connection = new NetworkManager.Connection;
let uuid = NetworkManager.utils_uuid_generate();
connection.add_setting(new NetworkManager.SettingBluetooth);
connection.add_setting(new NetworkManager.SettingConnection({
uuid: uuid,
id: this._autoConnectionName,
type: NetworkManager.SETTING_BLUETOOTH_SETTING_NAME,
autoconnect: false
}));
return connection;
},
_activateAutomaticConnection: function() {
// FIXME: DUN devices are configured like modems, so
// we need to spawn the mobile wizard
// but the network panel doesn't support bluetooth at the moment
// so we just create an empty connection and hope
// that this phone supports PAN
return this.parent();
},
_makeConnectionName: function(device) {
let name = device.name;
if (name)
return _("Auto %s").format(name);
else
return _("Auto bluetooth");
},
_updateAutoConnectionName: function() {
this._autoConnectionName = this._makeConnectionName(this.device);
this._queueCreateSection();
this._updateStatusItem();
}
});
const NMDeviceWireless = new Lang.Class({
Name: 'NMDeviceWireless',
Extends: NMDevice,
_init: function(client, device, connections) {
this.category = NMConnectionCategory.WIRELESS;
this._overflowItem = null;
this._networks = [ ];
// breaking the layers with this, but cannot call
// this.connectionValid until I have a device
this.device = device;
let validConnections = connections.filter(Lang.bind(this, function(connection) {
return this.connectionValid(connection);
}));
let accessPoints = device.get_access_points() || [ ];
for (let i = 0; i < accessPoints.length; i++) {
// Access points are grouped by network
let ap = accessPoints[i];
if (ap.get_ssid() == null) {
// hidden access point cannot be added, we need to know
// the SSID and security details to connect
// nevertheless, the access point can acquire a SSID when
// NetworkManager connects to it (via nmcli or the control-center)
ap._notifySsidId = ap.connect('notify::ssid', Lang.bind(this, this._notifySsidCb));
continue;
}
let pos = this._findNetwork(ap);
let obj;
if (pos != -1) {
obj = this._networks[pos];
obj.accessPoints.push(ap);
} else {
obj = { ssid: ap.get_ssid(),
mode: ap.mode,
security: this._getApSecurityType(ap),
connections: [ ],
item: null,
accessPoints: [ ap ]
};
obj.ssidText = ssidToLabel(obj.ssid);
this._networks.push(obj);
}
ap._updateId = ap.connect('notify::strength', Lang.bind(this, this._onApStrengthChanged));
// Check if some connection is valid for this AP
for (let j = 0; j < validConnections.length; j++) {
let connection = validConnections[j];
if (ap.connection_valid(connection) &&
obj.connections.indexOf(connection) == -1) {
obj.connections.push(connection);
}
}
}
// Sort APs within each network by strength
for (let i = 0; i < this._networks.length; i++)
sortAccessPoints(this._networks[i].accessPoints);
if (this.device.active_access_point) {
let networkPos = this._findNetwork(this.device.active_access_point);
if (networkPos == -1) // the connected access point is invisible
this._activeNetwork = null;
else
this._activeNetwork = this._networks[networkPos];
} else {
this._activeNetwork = null;
}
this._networks.sort(this._networkSortFunction);
this._apChangedId = device.connect('notify::active-access-point', Lang.bind(this, this._activeApChanged));
this._apAddedId = device.connect('access-point-added', Lang.bind(this, this._accessPointAdded));
this._apRemovedId = device.connect('access-point-removed', Lang.bind(this, this._accessPointRemoved));
this.parent(client, device, validConnections);
},
destroy: function() {
if (this._apChangedId) {
// see above for this HACK
GObject.Object.prototype.disconnect.call(this.device, this._apChangedId);
this._apChangedId = 0;
}
if (this._apAddedId) {
GObject.Object.prototype.disconnect.call(this.device, this._apAddedId);
this._apAddedId = 0;
}
if (this._apRemovedId) {
GObject.Object.prototype.disconnect.call(this.device, this._apRemovedId);
this._apRemovedId = 0;
}
this.parent();
},
setEnabled: function(enabled) {
this.statusItem.actor.visible = enabled;
this.section.actor.visible = enabled;
},
activate: function() {
if (this._activeConnection)
// nothing to do
return true;
// All possible policy we can have here is just broken
// NM autoconnects when wifi devices are enabled, and if it
// didn't, there is a good reason
// User, pick a connection from the list, thank you
return false;
},
_notifySsidCb: function(accessPoint) {
if (accessPoint.get_ssid() != null) {
accessPoint.disconnect(accessPoint._notifySsidId);
accessPoint._notifySsidId = 0;
this._accessPointAdded(this.device, accessPoint);
}
},
_activeApChanged: function() {
this._activeNetwork = null;
let activeAp = this.device.active_access_point;
if (activeAp) {
let res = this._findExistingNetwork(activeAp);
if (res != null)
this._activeNetwork = this._networks[res.network];
}
// we don't refresh the view here, setActiveConnection will
},
_getApSecurityType: function(accessPoint) {
if (accessPoint._secType)
return accessPoint._secType;
let flags = accessPoint.flags;
let wpa_flags = accessPoint.wpa_flags;
let rsn_flags = accessPoint.rsn_flags;
let type;
if (rsn_flags != NM80211ApSecurityFlags.NONE) {
/* RSN check first so that WPA+WPA2 APs are treated as RSN/WPA2 */
if (rsn_flags & NM80211ApSecurityFlags.KEY_MGMT_802_1X)
type = NMAccessPointSecurity.WPA2_ENT;
else if (rsn_flags & NM80211ApSecurityFlags.KEY_MGMT_PSK)
type = NMAccessPointSecurity.WPA2_PSK;
} else if (wpa_flags != NM80211ApSecurityFlags.NONE) {
if (wpa_flags & NM80211ApSecurityFlags.KEY_MGMT_802_1X)
type = NMAccessPointSecurity.WPA_ENT;
else if (wpa_flags & NM80211ApSecurityFlags.KEY_MGMT_PSK)
type = NMAccessPointSecurity.WPA_PSK;
} else {
if (flags & NM80211ApFlags.PRIVACY)
type = NMAccessPointSecurity.WEP;
else
type = NMAccessPointSecurity.NONE;
}
// cache the found value to avoid checking flags all the time
accessPoint._secType = type;
return type;
},
_networkSortFunction: function(one, two) {
let oneHasConnection = one.connections.length != 0;
let twoHasConnection = two.connections.length != 0;
// place known connections first
// (-1 = good order, 1 = wrong order)
if (oneHasConnection && !twoHasConnection)
return -1;
else if (!oneHasConnection && twoHasConnection)
return 1;
let oneStrength = one.accessPoints[0].strength;
let twoStrength = two.accessPoints[0].strength;
// place stronger connections first
if (oneStrength != twoStrength)
return oneStrength < twoStrength ? 1 : -1;
let oneHasSecurity = one.security != NMAccessPointSecurity.NONE;
let twoHasSecurity = two.security != NMAccessPointSecurity.NONE;
// place secure connections first
// (we treat WEP/WPA/WPA2 the same as there is no way to
// take them apart from the UI)
if (oneHasSecurity && !twoHasSecurity)
return -1;
else if (!oneHasSecurity && twoHasSecurity)
return 1;
// sort alphabetically
return GLib.utf8_collate(one.ssidText, two.ssidText);
},
_networkCompare: function(network, accessPoint) {
if (!ssidCompare(network.ssid, accessPoint.get_ssid()))
return false;
if (network.mode != accessPoint.mode)
return false;
if (network.security != this._getApSecurityType(accessPoint))
return false;
return true;
},
_findExistingNetwork: function(accessPoint) {
for (let i = 0; i < this._networks.length; i++) {
let apObj = this._networks[i];
for (let j = 0; j < apObj.accessPoints.length; j++) {
if (apObj.accessPoints[j] == accessPoint)
return { network: i, ap: j };
}
}
return null;
},
_findNetwork: function(accessPoint) {
if (accessPoint.get_ssid() == null)
return -1;
for (let i = 0; i < this._networks.length; i++) {
if (this._networkCompare(this._networks[i], accessPoint))
return i;
}
return -1;
},
_onApStrengthChanged: function(ap) {
let res = this._findExistingNetwork(ap);
if (res == null) {
// Uhm... stale signal?
return;
}
let network = this._networks[res.network];
network.accessPoints.splice(res.ap, 1);
Util.insertSorted(network.accessPoints, ap, function(one, two) {
return two.strength - one.strength;
});
this._networks.splice(res.network, 1);
let newPos = Util.insertSorted(this._networks, network, Lang.bind(this, this._networkSortFunction));
if (newPos != res.network)
this._queueCreateSection();
},
_accessPointAdded: function(device, accessPoint) {
if (accessPoint.get_ssid() == null) {
// This access point is not visible yet
// Wait for it to get a ssid
accessPoint._notifySsidId = accessPoint.connect('notify::ssid', Lang.bind(this, this._notifySsidCb));
return;
}
let pos = this._findNetwork(accessPoint);
let apObj;
let needsupdate = false;
if (pos != -1) {
apObj = this._networks[pos];
if (apObj.accessPoints.indexOf(accessPoint) != -1) {
log('Access point was already seen, not adding again');
return;
}
Util.insertSorted(apObj.accessPoints, accessPoint, function(one, two) {
return two.strength - one.strength;
});
if (apObj.item)
apObj.item.updateBestAP(apObj.accessPoints[0]);
} else {
apObj = { ssid: accessPoint.get_ssid(),
mode: accessPoint.mode,
security: this._getApSecurityType(accessPoint),
connections: [ ],
item: null,
accessPoints: [ accessPoint ]
};
apObj.ssidText = ssidToLabel(apObj.ssid);
}
accessPoint._updateId = accessPoint.connect('notify::strength', Lang.bind(this, this._onApStrengthChanged));
// check if this enables new connections for this group
for (let i = 0; i < this._connections.length; i++) {
let connection = this._connections[i].connection;
if (accessPoint.connection_valid(connection) &&
apObj.connections.indexOf(connection) == -1) {
apObj.connections.push(connection);
}
}
if (pos != -1)
this._networks.splice(pos, 1);
let newPos = Util.insertSorted(this._networks, apObj, this._networkSortFunction);
// Queue an update of the UI if we changed the order
if (newPos != pos)
this._queueCreateSection();
},
_accessPointRemoved: function(device, accessPoint) {
if (accessPoint._updateId) {
accessPoint.disconnect(accessPoint._updateId);
accessPoint._updateId = 0;
}
let res = this._findExistingNetwork(accessPoint);
if (res == null) {
log('Removing an access point that was never added');
return;
}
let apObj = this._networks[res.network];
apObj.accessPoints.splice(res.ap, 1);
if (apObj.accessPoints.length == 0) {
if (this._activeNetwork == apObj)
this._activeNetwork = null;
if (apObj.item)
apObj.item.destroy();
if (this._overflowItem) {
if (!apObj.isMore) {
// we removed an item in the main menu, and we have a more submenu
// we need to extract the first item in more and move it to the submenu
let item = this._overflowItem.menu.firstMenuItem;
if (item && item._apObj) {
item.destroy();
// clear the cycle, and allow the construction of the new item
item._apObj.item = null;
this._createNetworkItem(item._apObj, NUM_VISIBLE_NETWORKS-1);
} else {
log('The more... menu was existing and empty! This should not happen');
}
}
// This can happen if the removed connection is from the overflow
// menu, or if we just moved the last connection out from the menu
if (this._overflowItem.menu.numMenuItems == 0) {
this._overflowItem.destroy();
this._overflowItem = null;
}
}
this._networks.splice(res.network, 1);
} else {
let okPrev = true, okNext = true;
if (res.network > 0)
okPrev = this._networkSortFunction(this._networks[res.network - 1], apObj) >= 0;
if (res.network < this._networks.length-1)
okNext = this._networkSortFunction(this._networks[res.network + 1], apObj) <= 0;
if (!okPrev || !okNext)
this._queueCreateSection();
else if (apObj.item)
apObj.item.updateBestAP(apObj.accessPoints[0]);
}
},
_createAPItem: function(connection, accessPointObj, useConnectionName) {
let item = new NMNetworkMenuItem(accessPointObj.accessPoints[0], useConnectionName ? connection.get_id() : undefined);
item._connection = connection;
item.connect('activate', Lang.bind(this, function() {
let accessPoints = accessPointObj.accessPoints;
for (let i = 0; i < accessPoints.length; i++) {
if (accessPoints[i].connection_valid(connection)) {
this._client.activate_connection(connection, this.device, accessPoints[i].dbus_path, null);
break;
}
}
}));
return item;
},
_clearSection: function() {
this.parent();
for (let i = 0; i < this._networks.length; i++)
this._networks[i].item = null;
this._overflowItem = null;
},
removeConnection: function(connection) {
let pos = this._findConnection(connection.get_uuid());
if (pos == -1) {
// removing connection that was never added
return;
}
let obj = this._connections[pos];
this._connections.splice(pos, 1);
let forceupdate = false;
for (let i = 0; i < this._networks.length; i++) {
let apObj = this._networks[i];
let connections = apObj.connections;
for (let k = 0; k < connections.length; k++) {
if (connections[k].get_uuid() == connection.get_uuid()) {
// remove the connection from the access point group
connections.splice(k);
forceupdate = forceupdate || connections.length == 0;
if (forceupdate)
break;
if (apObj.item) {
if (apObj.item instanceof PopupMenu.PopupSubMenuMenuItem) {
let items = apObj.item.menu._getMenuItems();
if (items.length == 2) {
// we need to update the connection list to convert this to a normal item
forceupdate = true;
} else {
for (let j = 0; j < items.length; j++) {
if (items[j]._connection.get_uuid() == connection.get_uuid()) {
items[j].destroy();
break;
}
}
}
} else {
apObj.item.destroy();
apObj.item = null;
}
}
break;
}
}
}
if (forceupdate) {
this._networks.sort(this._networkSortFunction);
this._queueCreateSection();
}
},
addConnection: function(connection) {
// record the connection
let obj = {
connection: connection,
name: connection.get_id(),
uuid: connection.get_uuid(),
};
this._connections.push(obj);
// find an appropriate access point
let forceupdate = false;
for (let i = 0; i < this._networks.length; i++) {
let apObj = this._networks[i];
// Check if connection is valid for any of these access points
for (let k = 0; k < apObj.accessPoints.length; k++) {
let ap = apObj.accessPoints[k];
if (ap.connection_valid(connection)) {
apObj.connections.push(connection);
// this potentially changes the sorting order
forceupdate = true;
break;
}
}
}
if (forceupdate) {
this._networks.sort(this._networkSortFunction);
this._queueCreateSection();
}
},
_createActiveConnectionItem: function() {
let title;
if (this._activeConnection && this._activeConnection._connection)
title = this._activeConnection._connection.get_id();
else
title = _("Connected (private)");
if (this._activeNetwork)
this._activeConnectionItem = new NMNetworkMenuItem(this.device.active_access_point, undefined,
{ reactive: false });
else
this._activeConnectionItem = new PopupMenu.PopupImageMenuItem(title,
'network-wireless-connected-symbolic',
{ reactive: false });
this._activeConnectionItem.setShowDot(true);
},
_createAutomaticConnection: function(apObj) {
let name;
let ssid = NetworkManager.utils_ssid_to_utf8(apObj.ssid);
if (ssid) {
/* TRANSLATORS: this the automatic wireless connection name (including the network name) */
name = _("Auto %s").format(ssid);
} else
name = _("Auto wireless");
let connection = new NetworkManager.Connection();
connection.add_setting(new NetworkManager.SettingWireless());
connection.add_setting(new NetworkManager.SettingConnection({
id: name,
autoconnect: true, // NetworkManager will know to ignore this if appropriate
uuid: NetworkManager.utils_uuid_generate(),
type: NetworkManager.SETTING_WIRELESS_SETTING_NAME
}));
return connection;
},
_createNetworkItem: function(apObj, position) {
if(!apObj.accessPoints || apObj.accessPoints.length == 0) {
// this should not happen, but I have no idea why it happens
return;
}
if(apObj.connections.length > 0) {
if (apObj.connections.length == 1) {
apObj.item = this._createAPItem(apObj.connections[0], apObj, false);
} else {
let title = apObj.ssidText;
apObj.item = new PopupMenu.PopupSubMenuMenuItem(title);
for (let i = 0; i < apObj.connections.length; i++)
apObj.item.menu.addMenuItem(this._createAPItem(apObj.connections[i], apObj, true));
}
} else {
apObj.item = new NMNetworkMenuItem(apObj.accessPoints[0]);
apObj.item.connect('activate', Lang.bind(this, function() {
let accessPoints = apObj.accessPoints;
if ( (accessPoints[0]._secType == NMAccessPointSecurity.WPA2_ENT)
|| (accessPoints[0]._secType == NMAccessPointSecurity.WPA_ENT)) {
// 802.1x-enabled APs require further configuration, so they're
// handled in gnome-control-center
Util.spawn(['gnome-control-center', 'network', 'connect-8021x-wifi',
this.device.get_path(), accessPoints[0].dbus_path]);
} else {
let connection = this._createAutomaticConnection(apObj);
this._client.add_and_activate_connection(connection, this.device, accessPoints[0].dbus_path, null)
}
}));
}
apObj.item._apObj = apObj;
if (position < NUM_VISIBLE_NETWORKS) {
apObj.isMore = false;
this.section.addMenuItem(apObj.item, position);
} else {
if (!this._overflowItem) {
this._overflowItem = new PopupMenu.PopupSubMenuMenuItem(_("More..."));
this.section.addMenuItem(this._overflowItem);
}
this._overflowItem.menu.addMenuItem(apObj.item, position - NUM_VISIBLE_NETWORKS);
apObj.isMore = true;
}
},
_createSection: function() {
if (!this._shouldShowConnectionList())
return;
if (this._activeNetwork) {
this._createActiveConnectionItem();
this.section.addMenuItem(this._activeConnectionItem);
}
let activeOffset = this._activeConnectionItem ? 1 : 0;
for(let j = 0; j < this._networks.length; j++) {
let apObj = this._networks[j];
if (apObj == this._activeNetwork) {
activeOffset--;
continue;
}
this._createNetworkItem(apObj, j + activeOffset);
}
},
});
const NMDeviceVirtual = new Lang.Class({
Name: 'NMDeviceVirtual',
Extends: NMDeviceSimple,
_init: function(client, iface, connections) {
this.iface = iface;
this.parent(client, null, connections);
this.category = NMConnectionCategory.VIRTUAL;
},
_shouldShowConnectionList: function() {
return this.hasConnections();
},
connectionValid: function(connection) {
return connection.get_virtual_iface_name() == this.iface;
},
addConnection: function(connection) {
if (!this.device && !this.hasConnections())
this.statusItem.label.text = NMGtk.utils_get_connection_device_name(connection);
this.parent(connection);
},
adoptDevice: function(device) {
if (device.get_iface() == this.iface) {
this._setDevice(device);
if (device._description)
this.syncDescription();
this._updateStatusItem();
this.emit('state-changed');
return true;
} else
return false;
},
removeDevice: function(device) {
if (device == this.device) {
this._setDevice(null);
this._updateStatusItem();
this.emit('state-changed');
}
},
hasConnections: function() {
return this._connections.length != 0;
}
});
const NMVPNSection = new Lang.Class({
Name: 'NMVPNSection',
Extends: NMConnectionBased,
category: NMConnectionCategory.VPN,
_init: function(client, connections) {
this.parent(connections);
this._client = client;
this.section = new PopupMenu.PopupMenuSection();
this._deferredWorkId = Main.initializeDeferredWork(this.section.actor, Lang.bind(this, this._createSection));
},
get empty() {
return this._connections.length == 0;
},
connectionValid: function(connection) {
// filtering is done by NMApplet code
return true;
},
getStatusLabel: function(activeConnection) {
switch(activeConnection.vpn_state) {
case NetworkManager.VPNConnectionState.DISCONNECTED:
case NetworkManager.VPNConnectionState.ACTIVATED:
return null;
case NetworkManager.VPNConnectionState.PREPARE:
case NetworkManager.VPNConnectionState.CONNECT:
case NetworkManager.VPNConnectionState.IP_CONFIG_GET:
return _("connecting...");
case NetworkManager.VPNConnectionState.NEED_AUTH:
/* Translators: this is for network connections that require some kind of key or password */
return _("authentication required");
case NetworkManager.VPNConnectionState.FAILED:
return _("connection failed");
default:
log('VPN connection state invalid, is %d'.format(this.device.state));
return 'invalid';
}
},
clearActiveConnection: function(activeConnection) {
let pos = this._findConnection(activeConnection.uuid);
if (pos < 0)
return;
let obj = this._connections[pos];
obj.active.disconnect(obj.stateChangedId);
obj.active = null;
if (obj.item) {
obj.item.setToggleState(false);
obj.item.setStatus(null);
}
},
setActiveConnection: function(activeConnection) {
let pos = this._findConnection(activeConnection.uuid);
if (pos < 0)
return;
let obj = this._connections[pos];
obj.active = activeConnection;
obj.stateChangedId = obj.active.connect('vpn-state-changed',
Lang.bind(this, this._connectionStateChanged));
if (obj.item) {
obj.item.setToggleState(obj.active.vpn_state ==
NetworkManager.VPNConnectionState.ACTIVATED);
obj.item.setStatus(this.getStatusLabel(obj.active));
}
},
_queueCreateSection: function() {
this.section.removeAll();
Main.queueDeferredWork(this._deferredWorkId);
},
_createConnectionItem: function(obj) {
let menuItem = new PopupMenu.PopupSwitchMenuItem(obj.name, false,
{ style_class: 'popup-subtitle-menu-item' });
menuItem.connect('toggled', Lang.bind(this, function(menuItem) {
if (menuItem.state) {
this._client.activate_connection(obj.connection, null, null, null);
// Immediately go back to disconnected, until NM tells us to change
menuItem.setToggleState(false);
} else if (obj.active) {
this._client.deactivate_connection(obj.active);
}
}));
if (obj.active) {
menuItem.setToggleState(obj.active.vpn_state ==
NetworkManager.VPNConnectionState.ACTIVATED);
menuItem.setStatus(this.getStatusLabel(obj.active));
}
return menuItem;
},
_createSection: function() {
if (this._connections.length > 0) {
this.section.actor.show();
for(let j = 0; j < this._connections.length; ++j) {
let obj = this._connections[j];
obj.item = this._createConnectionItem(obj);
if (j >= NUM_VISIBLE_NETWORKS) {
if (!this._overflowItem) {
this._overflowItem = new PopupMenu.PopupSubMenuMenuItem(_("More..."));
this.section.addMenuItem(this._overflowItem);
}
this._overflowItem.menu.addMenuItem(obj.item);
} else
this.section.addMenuItem(obj.item);
}
} else {
this.section.actor.hide()
}
},
_connectionStateChanged: function(vpnConnection, newstate, reason) {
if (newstate == NetworkManager.VPNConnectionState.FAILED &&
reason != NetworkManager.VPNConnectionStateReason.NO_SECRETS) {
// FIXME: if we ever want to show something based on reason,
// we need to convert from NetworkManager.VPNConnectionStateReason
// to NetworkManager.DeviceStateReason
this.emit('activation-failed', reason);
}
let pos = this._findConnection(vpnConnection.uuid);
if (pos >= 0) {
let obj = this._connections[pos];
if (obj.item) {
obj.item.setToggleState(vpnConnection.vpn_state ==
NetworkManager.VPNConnectionState.ACTIVATED);
obj.item.setStatus(this.getStatusLabel(vpnConnection));
}
} else {
log('Could not find connection for vpn-state-changed handler');
}
},
});
const NMApplet = new Lang.Class({
Name: 'NMApplet',
Extends: PanelMenu.SystemStatusButton,
_init: function() {
this.parent('network-offline-symbolic', _('Network'));
this.secondaryIcon = this.addIcon(new Gio.ThemedIcon({ name: 'network-vpn-symbolic' }));
this.secondaryIcon.hide();
this._client = NMClient.Client.new();
this._statusSection = new PopupMenu.PopupMenuSection();
this._statusItem = new PopupMenu.PopupMenuItem('', { reactive: false });
this._statusSection.addMenuItem(this._statusItem);
this._statusSection.addAction(_("Enable networking"), Lang.bind(this, function() {
this._client.networking_enabled = true;
}));
this._statusSection.actor.hide();
this.menu.addMenuItem(this._statusSection);
this.menu.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this._activeConnections = [ ];
this._connections = [ ];
this._mainConnection = null;
this._vpnConnection = null;
this._activeAccessPointUpdateId = 0;
this._activeAccessPoint = null;
this._mobileUpdateId = 0;
this._mobileUpdateDevice = null;
this._nmDevices = [];
this._devices = { };
this._virtualDevices = [ ];
this._devices.wired = {
section: new PopupMenu.PopupMenuSection(),
devices: [ ],
};
this._devices.wired.section.actor.hide();
this.menu.addMenuItem(this._devices.wired.section);
this.menu.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this._devices.virtual = {
section: new PopupMenu.PopupMenuSection(),
devices: [ ],
};
this._devices.virtual.section.actor.hide();
this.menu.addMenuItem(this._devices.virtual.section);
this.menu.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this._devices.wireless = {
section: new PopupMenu.PopupMenuSection(),
devices: [ ],
item: this._makeToggleItem('wireless', _("Wi-Fi"))
};
this._devices.wireless.section.addMenuItem(this._devices.wireless.item);
this._devices.wireless.section.actor.hide();
this.menu.addMenuItem(this._devices.wireless.section);
this.menu.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this._devices.wwan = {
section: new PopupMenu.PopupMenuSection(),
devices: [ ],
};
this._devices.wwan.section.actor.hide();
this.menu.addMenuItem(this._devices.wwan.section);
this.menu.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this._vpnSection = new NMVPNSection(this._client, this._connections);
this._vpnSection.connect('activation-failed', Lang.bind(this, this._onActivationFailed));
this.menu.addMenuItem(this._vpnSection.section);
this.menu.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this.menu.addSettingsAction(_("Network Settings"), 'gnome-network-panel.desktop');
// Device types
this._dtypes = { };
this._dtypes[NetworkManager.DeviceType.ETHERNET] = NMDeviceWired;
this._dtypes[NetworkManager.DeviceType.WIFI] = NMDeviceWireless;
this._dtypes[NetworkManager.DeviceType.MODEM] = NMDeviceModem;
this._dtypes[NetworkManager.DeviceType.BT] = NMDeviceBluetooth;
this._dtypes[NetworkManager.DeviceType.INFINIBAND] = NMDeviceSimple;
// TODO: WiMax support
// Virtual device types
this._vtypes = { };
if (NMGtk) {
this._vtypes[NetworkManager.SETTING_VLAN_SETTING_NAME] = NMDeviceVirtual;
this._vtypes[NetworkManager.SETTING_BOND_SETTING_NAME] = NMDeviceVirtual;
this._vtypes[NetworkManager.SETTING_BRIDGE_SETTING_NAME] = NMDeviceVirtual;
}
// Connection types
this._ctypes = { };
this._ctypes[NetworkManager.SETTING_WIRELESS_SETTING_NAME] = NMConnectionCategory.WIRELESS;
this._ctypes[NetworkManager.SETTING_WIRED_SETTING_NAME] = NMConnectionCategory.WIRED;
this._ctypes[NetworkManager.SETTING_PPPOE_SETTING_NAME] = NMConnectionCategory.WIRED;
this._ctypes[NetworkManager.SETTING_PPP_SETTING_NAME] = NMConnectionCategory.WIRED;
this._ctypes[NetworkManager.SETTING_BLUETOOTH_SETTING_NAME] = NMConnectionCategory.WWAN;
this._ctypes[NetworkManager.SETTING_CDMA_SETTING_NAME] = NMConnectionCategory.WWAN;
this._ctypes[NetworkManager.SETTING_GSM_SETTING_NAME] = NMConnectionCategory.WWAN;
this._ctypes[NetworkManager.SETTING_INFINIBAND_SETTING_NAME] = NMConnectionCategory.WIRED;
if (NMGtk) {
this._ctypes[NetworkManager.SETTING_VLAN_SETTING_NAME] = NMConnectionCategory.VIRTUAL;
this._ctypes[NetworkManager.SETTING_BOND_SETTING_NAME] = NMConnectionCategory.VIRTUAL;
this._ctypes[NetworkManager.SETTING_BRIDGE_SETTING_NAME] = NMConnectionCategory.VIRTUAL;
}
this._ctypes[NetworkManager.SETTING_VPN_SETTING_NAME] = NMConnectionCategory.VPN;
this._settings = NMClient.RemoteSettings.new(null);
this._connectionsReadId = this._settings.connect('connections-read', Lang.bind(this, function() {
this._readConnections();
this._readDevices();
this._syncNMState();
// Connect to signals late so that early signals don't find in inconsistent state
// and connect only once (this signal handler can be called again if NetworkManager goes up and down)
if (!this._inited) {
this._inited = true;
this._client.connect('notify::manager-running', Lang.bind(this, this._syncNMState));
this._client.connect('notify::networking-enabled', Lang.bind(this, this._syncNMState));
this._client.connect('notify::state', Lang.bind(this, this._syncNMState));
this._client.connect('notify::active-connections', Lang.bind(this, this._updateIcon));
this._client.connect('device-added', Lang.bind(this, this._deviceAdded));
this._client.connect('device-removed', Lang.bind(this, this._deviceRemoved));
this._settings.connect('new-connection', Lang.bind(this, this._newConnection));
}
}));
},
_ensureSource: function() {
if (!this._source) {
this._source = new MessageTray.Source(_("Network Manager"),
'network-transmit-receive');
this._source.policy = new NotificationDaemon.NotificationApplicationPolicy('gnome-network-panel');
this._source.connect('destroy', Lang.bind(this, function() {
this._source = null;
}));
Main.messageTray.add(this._source);
}
},
_makeToggleItem: function(type, title) {
let item = new NMWirelessSectionTitleMenuItem(this._client, type, title);
item.connect('enabled-changed', Lang.bind(this, function(item, enabled) {
let devices = this._devices[type].devices;
devices.forEach(function(dev) {
dev.setEnabled(enabled);
});
this._syncSectionTitle(type);
}));
return item;
},
_syncSectionTitle: function(category) {
let devices = this._devices[category].devices;
let item = this._devices[category].item;
let section = this._devices[category].section;
let visible;
if (category == NMConnectionCategory.VIRTUAL)
visible = !section.isEmpty();
else
visible = devices.length > 0;
if (!visible)
section.actor.hide();
else {
section.actor.show();
// Sync the relation between the section title
// item (the one with the airplane mode switch)
// and the individual device switches
if (item) {
if (devices.length == 1) {
let dev = devices[0];
dev.statusItem.actor.hide();
item.updateForDevice(dev);
} else {
devices.forEach(function(dev) {
dev.statusItem.actor.show();
});
// remove status text from the section title item
item.updateForDevice(null);
}
}
}
},
_readDevices: function() {
let devices = this._client.get_devices() || [ ];
for (let i = 0; i < devices.length; ++i) {
this._deviceAdded(this._client, devices[i], true);
}
this._syncDeviceNames();
},
_notifyForDevice: function(device, iconName, title, text, urgency) {
if (device._notification)
device._notification.destroy();
/* must call after destroying previous notification,
or this._source will be cleared */
this._ensureSource();
let gicon = new Gio.ThemedIcon({ name: iconName });
device._notification = new MessageTray.Notification(this._source, title, text,
{ gicon: gicon });
device._notification.setUrgency(urgency);
device._notification.setTransient(true);
device._notification.connect('destroy', function() {
device._notification = null;
});
this._source.notify(device._notification);
},
_onActivationFailed: function(device, reason) {
// XXX: nm-applet has no special text depending on reason
// but I'm not sure of this generic message
this._notifyForDevice(device, 'network-error-symbolic',
_("Connection failed"),
_("Activation of network connection failed"),
MessageTray.Urgency.HIGH);
},
_syncDeviceNames: function() {
if (NMGtk) {
let names = NMGtk.utils_disambiguate_device_names(this._nmDevices);
for (let i = 0; i < this._nmDevices.length; i++) {
let device = this._nmDevices[i];
device._description = names[i];
if (device._delegate)
device._delegate.syncDescription();
}
} else {
for (let i = 0; i < this._nmDevices.length; i++) {
let device = this._nmDevices[i];
device._delegate.syncDescription();
}
}
},
_deviceAdded: function(client, device, skipSyncDeviceNames) {
if (device._delegate) {
// already seen, not adding again
return;
}
for (let i = 0; i < this._virtualDevices.length; i++) {
if (this._virtualDevices[i].adoptDevice(device)) {
this._nmDevices.push(device);
if (!skipSyncDeviceNames)
this._syncDeviceNames();
return;
}
}
let wrapperClass = this._dtypes[device.get_device_type()];
if (wrapperClass) {
let wrapper = new wrapperClass(this._client, device, this._connections);
this._addDeviceWrapper(wrapper);
this._nmDevices.push(device);
if (!skipSyncDeviceNames)
this._syncDeviceNames();
}
},
_addDeviceWrapper: function(wrapper) {
wrapper._activationFailedId = wrapper.connect('activation-failed',
Lang.bind(this, this._onActivationFailed));
wrapper._deviceStateChangedId = wrapper.connect('state-changed', Lang.bind(this, function(dev) {
this._syncSectionTitle(dev.category);
}));
wrapper._destroyId = wrapper.connect('destroy', function(wrapper) {
wrapper.disconnect(wrapper._activationFailedId);
wrapper.disconnect(wrapper._deviceStateChangedId);
wrapper.disconnect(wrapper._destroyId);
});
let section = this._devices[wrapper.category].section;
section.addMenuItem(wrapper.statusItem);
section.addMenuItem(wrapper.section);
let devices = this._devices[wrapper.category].devices;
devices.push(wrapper);
this._syncSectionTitle(wrapper.category);
},
_deviceRemoved: function(client, device) {
let pos = this._nmDevices.indexOf(device);
if (pos != -1) {
this._nmDevices.splice(pos, 1);
this._syncDeviceNames();
}
let wrapper = device._delegate;
if (!wrapper) {
log('Removing a network device that was not added');
return;
}
if (wrapper instanceof NMDeviceVirtual)
wrapper.removeDevice(device);
else
this._removeDeviceWrapper(wrapper);
},
_removeDeviceWrapper: function(wrapper) {
wrapper.destroy();
let devices = this._devices[wrapper.category].devices;
let pos = devices.indexOf(wrapper);
devices.splice(pos, 1);
this._syncSectionTitle(wrapper.category)
},
_getSupportedActiveConnections: function() {
let activeConnections = this._client.get_active_connections() || [ ];
let supportedConnections = [];
for (let i = 0; i < activeConnections.length; i++) {
let devices = activeConnections[i].get_devices();
if (!devices || !devices[0])
continue;
// Ignore connections via unrecognized device types
if (!this._dtypes[devices[0].device_type])
continue;
// Ignore slave connections
let connectionPath = activeConnections[i].connection;
let connection = this._settings.get_connection_by_path(connectionPath)
if (this._ignoreConnection(connection))
continue;
supportedConnections.push(activeConnections[i]);
}
return supportedConnections;
},
_syncActiveConnections: function() {
let closedConnections = [ ];
let newActiveConnections = this._getSupportedActiveConnections();
for (let i = 0; i < this._activeConnections.length; i++) {
let a = this._activeConnections[i];
if (newActiveConnections.indexOf(a) == -1) // connection is removed
closedConnections.push(a);
}
for (let i = 0; i < closedConnections.length; i++) {
let active = closedConnections[i];
if (active._primaryDevice) {
active._primaryDevice.clearActiveConnection(active);
active._primaryDevice = null;
}
if (active._inited) {
active.disconnect(active._notifyStateId);
active.disconnect(active._notifyDefaultId);
active.disconnect(active._notifyDefault6Id);
active._inited = false;
}
}
this._activeConnections = newActiveConnections;
this._mainConnection = null;
this._vpnConnection = null;
let activating = null;
let default_ip4 = null;
let default_ip6 = null;
let active_vpn = null;
for (let i = 0; i < this._activeConnections.length; i++) {
let a = this._activeConnections[i];
if (!a._inited) {
a._notifyDefaultId = a.connect('notify::default', Lang.bind(this, this._updateIcon));
a._notifyDefault6Id = a.connect('notify::default6', Lang.bind(this, this._updateIcon));
a._notifyStateId = a.connect('notify::state', Lang.bind(this, this._notifyActivated));
a._inited = true;
}
if (!a._connection) {
a._connection = this._settings.get_connection_by_path(a.connection);
if (a._connection) {
a._type = a._connection._type;
a._section = this._ctypes[a._type];
} else {
a._connection = null;
a._type = null;
a._section = null;
log('Cannot find connection for active (or connection cannot be read)');
}
}
if (a['default'])
default_ip4 = a;
if (a.default6)
default_ip6 = a;
if (a._type == 'vpn')
active_vpn = a;
else if (a.state == NetworkManager.ActiveConnectionState.ACTIVATING)
activating = a;
if (!a._primaryDevice) {
if (a._type != NetworkManager.SETTING_VPN_SETTING_NAME) {
// find a good device to be considered primary
a._primaryDevice = null;
let devices = a.get_devices() || [];
for (let j = 0; j < devices.length; j++) {
let d = devices[j];
if (d._delegate) {
a._primaryDevice = d._delegate;
break;
}
}
} else
a._primaryDevice = this._vpnSection;
if (a._primaryDevice)
a._primaryDevice.setActiveConnection(a);
if (a.state == NetworkManager.ActiveConnectionState.ACTIVATED
&& a._primaryDevice && a._primaryDevice._notification) {
a._primaryDevice._notification.destroy();
a._primaryDevice._notification = null;
}
}
}
this._mainConnection = activating || default_ip4 || default_ip6 || this._activeConnections[0] || null;
this._vpnConnection = active_vpn;
},
_notifyActivated: function(activeConnection) {
if (activeConnection.state == NetworkManager.ActiveConnectionState.ACTIVATED
&& activeConnection._primaryDevice && activeConnection._primaryDevice._notification) {
activeConnection._primaryDevice._notification.destroy();
activeConnection._primaryDevice._notification = null;
}
this._updateIcon();
},
_ignoreConnection: function(connection) {
let setting = connection.get_setting_connection();
if (!setting)
return true;
// Ignore slave connections
if (setting.get_master())
return true;
return false;
},
_readConnections: function() {
let connections = this._settings.list_connections();
for (let i = 0; i < connections.length; i++) {
let connection = connections[i];
if (this._ignoreConnection(connection))
continue;
if (connection._updatedId) {
// connection was already seen (for example because NetworkManager was restarted)
continue;
}
connection._removedId = connection.connect('removed', Lang.bind(this, this._connectionRemoved));
connection._updatedId = connection.connect('updated', Lang.bind(this, this._updateConnection));
this._updateConnection(connection);
this._connections.push(connection);
}
},
_newConnection: function(settings, connection) {
if (this._ignoreConnection(connection))
return;
if (connection._updatedId) {
// connection was already seen
return;
}
connection._removedId = connection.connect('removed', Lang.bind(this, this._connectionRemoved));
connection._updatedId = connection.connect('updated', Lang.bind(this, this._updateConnection));
this._updateConnection(connection);
this._connections.push(connection);
this._updateIcon();
},
_connectionRemoved: function(connection) {
let pos = this._connections.indexOf(connection);
if (pos != -1)
this._connections.splice(connection);
let section = connection._section;
if (section == NMConnectionCategory.VPN) {
this._vpnSection.removeConnection(connection);
} else if (section != NMConnectionCategory.INVALID) {
let devices = this._devices[section].devices;
for (let i = 0; i < devices.length; i++)
devices[i].removeConnection(connection);
}
if (section == NMConnectionCategory.VIRTUAL) {
let iface = connection.get_virtual_iface_name();
let wrapper = this._findVirtualDevice(iface);
if (wrapper && !wrapper.hasConnections())
this._removeDeviceWrapper(wrapper);
}
connection.disconnect(connection._removedId);
connection.disconnect(connection._updatedId);
connection._removedId = connection._updatedId = 0;
},
_updateConnection: function(connection) {
let connectionSettings = connection.get_setting_by_name(NetworkManager.SETTING_CONNECTION_SETTING_NAME);
connection._type = connectionSettings.type;
connection._section = this._ctypes[connection._type] || NMConnectionCategory.INVALID;
connection._timestamp = connectionSettings.timestamp;
let section = connection._section;
if (section == NMConnectionCategory.VIRTUAL) {
let wrapperClass = this._vtypes[connection._type];
if (!wrapperClass)
return;
let iface = connection.get_virtual_iface_name();
let wrapper = this._findVirtualDevice(iface);
if (!wrapper) {
wrapper = new wrapperClass(this._client, iface, this._connections);
this._addDeviceWrapper(wrapper);
this._virtualDevices.push(wrapper);
// We might already have a device for this connection
for (let i = 0; i < this._nmDevices.length; i++) {
let device = this._nmDevices[i];
if (wrapper.adoptDevice(device))
break;
}
}
}
if (section == NMConnectionCategory.INVALID)
return;
if (section == NMConnectionCategory.VPN) {
this._vpnSection.checkConnection(connection);
} else {
let devices = this._devices[section].devices;
for (let i = 0; i < devices.length; i++) {
devices[i].checkConnection(connection);
}
}
},
_findVirtualDevice: function(iface) {
for (let i = 0; i < this._virtualDevices.length; i++) {
if (this._virtualDevices[i].iface == iface)
return this._virtualDevices[i];
}
return null;
},
_hideDevices: function() {
this._devicesHidden = true;
for (let category in this._devices)
this._devices[category].section.actor.hide();
},
_showNormal: function() {
if (!this._devicesHidden) // nothing to do
return;
this._devicesHidden = false;
this._statusSection.actor.hide();
this._syncSectionTitle(NMConnectionCategory.WIRED);
this._syncSectionTitle(NMConnectionCategory.VIRTUAL);
this._syncSectionTitle(NMConnectionCategory.WIRELESS);
this._syncSectionTitle(NMConnectionCategory.WWAN);
},
_syncNMState: function() {
this.mainIcon.visible = this._client.manager_running;
this.actor.visible = this.mainIcon.visible;
if (!this._client.networking_enabled) {
this.setIcon('network-offline-symbolic');
this._hideDevices();
this._statusItem.label.text = _("Networking is disabled");
this._statusSection.actor.show();
return;
}
this._showNormal();
this._updateIcon();
},
_updateIcon: function() {
this._syncActiveConnections();
let mc = this._mainConnection;
let hasApIcon = false;
let hasMobileIcon = false;
if (!mc) {
this.setIcon('network-offline-symbolic');
} else if (mc.state == NetworkManager.ActiveConnectionState.ACTIVATING) {
switch (mc._section) {
case NMConnectionCategory.WWAN:
this.setIcon('network-cellular-acquiring-symbolic');
break;
case NMConnectionCategory.WIRELESS:
this.setIcon('network-wireless-acquiring-symbolic');
break;
case NMConnectionCategory.WIRED:
case NMConnectionCategory.VIRTUAL:
this.setIcon('network-wired-acquiring-symbolic');
break;
default:
// fallback to a generic connected icon
// (it could be a private connection of some other user)
this.setIcon('network-wired-acquiring-symbolic');
}
} else {
let dev;
switch (mc._section) {
case NMConnectionCategory.WIRELESS:
dev = mc._primaryDevice;
if (dev) {
let ap = dev.device.active_access_point;
let mode = dev.device.mode;
if (!ap) {
if (mode != NM80211Mode.ADHOC) {
log('An active wireless connection, in infrastructure mode, involves no access point?');
break;
}
this.setIcon('network-wireless-connected-symbolic');
} else {
if (this._activeAccessPoint != ap) {
if (this._accessPointUpdateId)
this._activeAccessPoint.disconnect(this._accessPointUpdateId);
this._activeAccessPoint = ap;
this._activeAccessPointUpdateId = ap.connect('notify::strength', Lang.bind(this, function() {
this.setIcon('network-wireless-signal-' + signalToIcon(ap.strength) + '-symbolic');
}));
}
this.setIcon('network-wireless-signal-' + signalToIcon(ap.strength) + '-symbolic');
hasApIcon = true;
}
break;
} else {
log('Active connection with no primary device?');
break;
}
case NMConnectionCategory.WIRED:
case NMConnectionCategory.VIRTUAL:
this.setIcon('network-wired-symbolic');
break;
case NMConnectionCategory.WWAN:
dev = mc._primaryDevice;
if (!dev) {
log('Active connection with no primary device?');
break;
}
if (!dev.mobileDevice) {
// this can happen for bluetooth in PAN mode
this.setIcon('network-cellular-connected-symbolic');
break;
}
if (dev.mobileDevice != this._mobileUpdateDevice) {
if (this._mobileUpdateId)
this._mobileUpdateDevice.disconnect(this._mobileUpdateId);
this._mobileUpdateDevice = dev.mobileDevice;
this._mobileUpdateId = dev.mobileDevice.connect('notify::signal-quality', Lang.bind(this, function() {
this.setIcon('network-cellular-signal-' + signalToIcon(dev.mobileDevice.signal_quality) + '-symbolic');
}));
}
this.setIcon('network-cellular-signal-' + signalToIcon(dev.mobileDevice.signal_quality) + '-symbolic');
hasMobileIcon = true;
break;
default:
// fallback to a generic connected icon
// (it could be a private connection of some other user)
this.setIcon('network-wired-symbolic');
break;
}
}
// update VPN indicator
if (this._vpnConnection) {
let vpnIconName = 'network-vpn-symbolic';
if (this._vpnConnection.state == NetworkManager.ActiveConnectionState.ACTIVATING)
vpnIconName = 'network-vpn-acquiring-symbolic';
// only show a separate icon when we're using a wireless/3g connection
if (mc._section == NMConnectionCategory.WIRELESS ||
mc._section == NMConnectionCategory.WWAN) {
this.secondaryIcon.icon_name = vpnIconName;
this.secondaryIcon.show();
} else {
this.setIcon(vpnIconName);
this.secondaryIcon.hide();
}
} else {
this.secondaryIcon.hide();
}
// cleanup stale signal connections
if (!hasApIcon && this._activeAccessPointUpdateId) {
this._activeAccessPoint.disconnect(this._activeAccessPointUpdateId);
this._activeAccessPoint = null;
this._activeAccessPointUpdateId = 0;
}
if (!hasMobileIcon && this._mobileUpdateId) {
this._mobileUpdateDevice.disconnect(this._mobileUpdateId);
this._mobileUpdateDevice = null;
this._mobileUpdateId = 0;
}
}
});