gnome-shell/js/ui/status/network.js

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// -*- mode: js2; indent-tabs-mode: nil; js2-basic-offset: 4 -*-
const ByteArray = imports.byteArray;
const DBus = imports.dbus;
const GLib = imports.gi.GLib;
const GObject = imports.gi.GObject;
const Lang = imports.lang;
const Mainloop = imports.mainloop;
const NetworkManager = imports.gi.NetworkManager;
const NMClient = imports.gi.NMClient;
const Shell = imports.gi.Shell;
const Signals = imports.signals;
const St = imports.gi.St;
const Main = imports.ui.main;
const PanelMenu = imports.ui.panelMenu;
const PopupMenu = imports.ui.popupMenu;
const MessageTray = imports.ui.messageTray;
const ModemManager = imports.misc.modemManager;
const Util = imports.misc.util;
const NMConnectionCategory = {
INVALID: 'invalid',
WIRED: 'wired',
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;
const NMAppletHelperInterface = {
name: 'org.gnome.network_manager_applet',
methods: [
{ name: 'ConnectToHiddenNetwork', inSignature: '', outSignature: '' },
{ name: 'CreateWifiNetwork', inSignature: '', outSignature: '' },
{ name: 'ConnectTo8021xNetwork', inSignature: 'oo', outSignature: '' },
{ name: 'ConnectTo3gNetwork', inSignature: 'o', outSignature: '' }
],
};
const NMAppletProxy = DBus.makeProxyClass(NMAppletHelperInterface);
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 NMNetworkMenuItem() {
this._init.apply(this, arguments);
}
NMNetworkMenuItem.prototype = {
__proto__: PopupMenu.PopupBaseMenuItem.prototype,
_init: function(accessPoints, title, params) {
PopupMenu.PopupBaseMenuItem.prototype._init.call(this, params);
accessPoints = sortAccessPoints(accessPoints);
this.bestAP = accessPoints[0];
if (!title) {
let ssid = this.bestAP.get_ssid();
if (ssid)
title = NetworkManager.utils_ssid_to_utf8(ssid);
if (!title)
title = _("<unknown>");
}
this._label = new St.Label({ text: title });
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';
this._icons.add_actor(this._secureIcon);
this._accessPoints = [ ];
for (let i = 0; i < accessPoints.length; i++) {
let ap = accessPoints[i];
// need a wrapper object here, because the access points can be shared
// between many NMNetworkMenuItems
let apObj = {
ap: ap,
updateId: ap.connect('notify::strength', Lang.bind(this, this._updated))
};
this._accessPoints.push(apObj);
}
},
_updated: function(ap) {
if (ap.strength > this.bestAP.strength)
this.bestAP = ap;
this._signalIcon.icon_name = this._getIcon();
},
_getIcon: function() {
if (this.bestAP.mode == NM80211Mode.ADHOC)
return 'network-workgroup';
else
return 'network-wireless-signal-' + signalToIcon(this.bestAP.strength);
},
updateAccessPoints: function(accessPoints) {
for (let i = 0; i < this._accessPoints.length; i++) {
let apObj = this._accessPoints[i];
apObj.ap.disconnect(apObj.updateId);
apObj.updateId = 0;
}
accessPoints = sortAccessPoints(accessPoints);
this.bestAP = accessPoints[0];
this._accessPoints = [ ];
for (let i = 0; i < accessPoints; i++) {
let ap = accessPoints[i];
let apObj = {
ap: ap,
updateId: ap.connect('notify::strength', Lang.bind(this, this._updated))
};
this._accessPoints.push(apObj);
}
},
destroy: function() {
for (let i = 0; i < this._accessPoints.length; i++) {
let apObj = this._accessPoints[i];
apObj.ap.disconnect(apObj.updateId);
apObj.updateId = 0;
}
PopupMenu.PopupBaseMenuItem.prototype.destroy.call(this);
}
};
function NMWiredSectionTitleMenuItem() {
this._init.apply(this, arguments);
}
NMWiredSectionTitleMenuItem.prototype = {
__proto__: PopupMenu.PopupSwitchMenuItem.prototype,
_init: function(label, params) {
params = params || { };
params.style_class = 'popup-subtitle-menu-item';
PopupMenu.PopupSwitchMenuItem.prototype._init.call(this, label, false, params);
},
updateForDevice: function(device) {
if (device) {
this._device = device;
this.setStatus(device.getStatusLabel());
this.setToggleState(device.connected);
} else
this.setStatus('');
},
activate: function(event) {
PopupMenu.PopupSwitchMenuItem.prototype.activate.call(this, event);
if (!this._device) {
log('Section title activated when there is more than one device, should be non reactive');
return;
}
let newState = this._switch.state;
// Immediately reset the switch to false, it will be updated appropriately
// by state-changed signals in devices (but fixes the VPN not being in sync
// if the ActiveConnection object is never seen by libnm-glib)
this._switch.setToggleState(false);
if (newState)
this._device.activate();
else
this._device.deactivate();
}
};
function NMWirelessSectionTitleMenuItem() {
this._init.apply(this, arguments);
}
NMWirelessSectionTitleMenuItem.prototype = {
__proto__: PopupMenu.PopupSwitchMenuItem.prototype,
_init: function(client, property, title, params) {
params = params || { };
params.style_class = 'popup-subtitle-menu-item';
PopupMenu.PopupSwitchMenuItem.prototype._init.call(this, 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
// - if the device is activated or disconnected
if (device && this._softwareEnabled && this._hardwareEnabled) {
let text = device.getStatusLabel();
this.setStatus(text);
} else
this.setStatus(null);
},
activate: function(event) {
PopupMenu.PopupSwitchMenuItem.prototype.activate.call(this, 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);
}
};
function NMDevice() {
throw new TypeError('Instantanting abstract class NMDevice');
}
NMDevice.prototype = {
_init: function(client, device, connections) {
this.device = device;
if (device) {
this.device._delegate = this;
this._stateChangedId = this.device.connect('state-changed', Lang.bind(this, this._deviceStateChanged));
} else
this._stateChangedId = 0;
// protected
this._client = client;
this._connections = [ ];
for (let i = 0; i < connections.length; i++) {
if (!connections[i]._uuid)
continue;
if (!this.connectionValid(connections[i]))
continue;
// record the connection
let obj = {
connection: connections[i],
name: connections[i]._name,
uuid: connections[i]._uuid,
timestamp: connections[i]._timestamp,
};
this._connections.push(obj);
}
this._connections.sort(this._connectionSortFunction);
this._activeConnection = null;
this._activeConnectionItem = null;
this._autoConnectionItem = null;
this._overflowItem = null;
if (this.device) {
this.statusItem = new PopupMenu.PopupSwitchMenuItem(this._getDescription(), this.connected, { style_class: 'popup-subtitle-menu-item' });
this._statusChanged = this.statusItem.connect('toggled', Lang.bind(this, function(item, state) {
if (state)
this.activate();
else
this.deactivate();
this.emit('enabled-changed');
}));
this._updateStatusItem();
}
this.section = new PopupMenu.PopupMenuSection();
this._createSection();
},
destroy: function() {
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) {
// 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._clearSection();
if (this.statusItem)
this.statusItem.destroy();
this.section.destroy();
},
deactivate: function() {
this.device.disconnect(null);
},
activate: function() {
if (this._activeConnection)
// nothing to do
return;
// pick the most recently used connection and connect to that
// or if no connections ever set, create an automatic one
if (this._connections.length > 0) {
this._client.activate_connection(this._connections[0].connection, this.device, null, null);
} else if (this._autoConnectionName) {
let connection = this._createAutomaticConnection();
if (connection)
this._client.add_and_activate_connection(connection, this.device, null, null);
}
},
get connected() {
return this.device.state == NetworkManager.DeviceState.ACTIVATED;
},
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._clearSection();
this._createSection();
},
checkConnection: function(connection) {
let exists = this._findConnection(connection._uuid) != -1;
let valid = this.connectionValid(connection);
if (exists && !valid)
this.removeConnection(connection);
else if (!exists && valid)
this.addConnection(connection);
},
addConnection: function(connection) {
// record the connection
let obj = {
connection: connection,
name: connection._name,
uuid: connection._uuid,
timestamp: connection._timestamp,
};
this._connections.push(obj);
this._connections.sort(this._connectionSortFunction);
this._clearSection();
this._createSection();
},
removeConnection: function(connection) {
if (!connection._uuid) {
log('Cannot remove a connection without an UUID');
return;
}
let pos = this._findConnection(connection._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._clearSection();
this._createSection();
}
},
connectionValid: function(connection) {
return this.device.connection_valid(connection);
},
_connectionSortFunction: function(one, two) {
if (one.timestamp == two.timestamp)
return GLib.utf8_collate(one.name, two.name);
return two.timestamp - one.timestamp;
},
setEnabled: function(enabled) {
// do nothing by default, we want to keep the conneciton list visible
// in the majority of cases (wired, wwan, vpn)
},
getStatusLabel: function() {
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';
}
},
// protected
_createAutomaticConnection: function() {
throw new TypeError('Invoking pure virtual function NMDevice.createAutomaticConnection');
},
_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;
},
_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._name;
} 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');
}
switch(newstate) {
case NetworkManager.DeviceState.NEED_AUTH:
// FIXME: make this have a real effect
// (currently we rely on a running nm-applet)
this.emit('need-auth');
break;
case NetworkManager.DeviceState.FAILED:
this.emit('activation-failed', reason);
break;
}
this._updateStatusItem();
this._clearSection();
this._createSection();
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');
},
_getDescription: function() {
let dev_product = this.device.get_product();
let dev_vendor = this.device.get_vendor();
if (!dev_product || !dev_vendor)
return '';
let product = Util.fixupPCIDescription(dev_product);
let vendor = Util.fixupPCIDescription(dev_vendor);
let out = '';
// Another quick hack; if all of the fixed up vendor string
// is found in product, ignore the vendor.
if (product.indexOf(vendor) == -1)
out += vendor + ' ';
out += product;
return out;
}
};
Signals.addSignalMethods(NMDevice.prototype);
function NMDeviceWired() {
this._init.apply(this, arguments);
}
NMDeviceWired.prototype = {
__proto__: NMDevice.prototype,
_init: function(client, device, connections) {
this._autoConnectionName = _("Auto Ethernet");
this.category = NMConnectionCategory.WIRED;
NMDevice.prototype._init.call(this, client, device, connections);
},
_createSection: function() {
NMDevice.prototype._createSection.call(this);
// 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
if (this._connections.length <= 1)
this.section.actor.hide();
else
this.section.actor.show();
},
_createAutomaticConnection: function() {
let connection = new NetworkManager.Connection();
connection._uuid = NetworkManager.utils_uuid_generate();
connection.add_setting(new NetworkManager.SettingWired());
connection.add_setting(new NetworkManager.SettingConnection({
uuid: connection._uuid,
id: this._autoConnectionName,
type: NetworkManager.SETTING_WIRED_SETTING_NAME,
autoconnect: true
}));
return connection;
}
};
function NMDeviceModem() {
this._init.apply(this, arguments);
}
NMDeviceModem.prototype = {
__proto__: NMDevice.prototype,
_init: function(client, device, connections) {
let is_wwan = false;
this._enabled = true;
this.mobileDevice = null;
this._connectionType = 'ppp';
this._applet_proxy = new NMAppletProxy(DBus.session,
'org.gnome.network_manager_applet',
'/org/gnome/network_manager_applet');
this._capabilities = device.current_capabilities;
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;
// FIXME: support signal quality
}
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());
}
}));
}
NMDevice.prototype._init.call(this, 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());
}
NMDevice.prototype.setEnabled.call(this, 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;
}
NMDevice.prototype.destroy.call(this);
},
_getSignalIcon: function() {
return 'network-cellular-signal-' + signalToIcon(this.mobileDevice.signal_quality);
},
_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);
}
NMDevice.prototype._createSection.call(this);
},
_clearSection: function() {
this._operatorItem = null;
NMDevice.prototype._clearSection.call(this);
},
_createAutomaticConnection: function() {
// Mobile wizard is handled by nm-applet for now...
this._applet_proxy.ConnectTo3gNetworkRemote(this.device.get_path(),
Lang.bind(this, function(results, err) {
if (err)
log(err);
}));
return null;
}
};
function NMDeviceBluetooth() {
this._init.apply(this, arguments);
}
NMDeviceBluetooth.prototype = {
__proto__: NMDevice.prototype,
_init: function(client, device, connections) {
this._autoConnectionName = this._makeConnectionName(device);
device.connect('notify::name', Lang.bind(this, this._updateAutoConnectionName));
this.category = NMConnectionCategory.WWAN;
NMDevice.prototype._init.call(this, client, device, connections);
},
_createAutomaticConnection: function() {
let connection = new NetworkManager.Connection;
connection._uuid = NetworkManager.utils_uuid_generate();
connection.add_setting(new NetworkManager.SettingBluetooth);
connection.add_setting(new NetworkManager.SettingConnection({
uuid: connection._uuid,
id: this._autoConnectionName,
type: NetworkManager.SETTING_BLUETOOTH_SETTING_NAME,
autoconnect: false
}));
return connection;
},
_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._clearSection();
this._createSection();
}
};
// Not a real device, but I save a lot code this way
function NMDeviceVPN() {
this._init.apply(this, arguments);
}
NMDeviceVPN.prototype = {
__proto__: NMDevice.prototype,
_init: function(client) {
// Disable autoconnections
this._autoConnectionName = null;
this.category = NMConnectionCategory.VPN;
NMDevice.prototype._init.call(this, client, null, [ ]);
},
connectionValid: function(connection) {
return connection._type == NetworkManager.SETTING_VPN_SETTING_NAME;
},
get empty() {
return this._connections.length == 0;
},
get connected() {
return !!this._activeConnection;
},
setActiveConnection: function(activeConnection) {
NMDevice.prototype.setActiveConnection.call(this, activeConnection);
this.emit('active-connection-changed');
},
_shouldShowConnectionList: function() {
return true;
},
deactivate: function() {
if (this._activeConnection)
this._client.deactivate_connection(this._activeConnection);
},
getStatusLabel: function() {
return null;
}
};
function NMDeviceWireless() {
this._init.apply(this, arguments);
}
NMDeviceWireless.prototype = {
__proto__: NMDevice.prototype,
_init: function(client, device, connections) {
this.category = NMConnectionCategory.WIRELESS;
this._overflowItem = null;
this._networks = [ ];
this._applet_proxy = new NMAppletProxy(DBus.session,
'org.gnome.network_manager_applet',
'/org/gnome/network_manager_applet');
// 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];
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 = NetworkManager.utils_ssid_to_utf8(obj.ssid);
this._networks.push(obj);
}
// 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);
}
}
}
if (this.device.active_access_point) {
this._activeNetwork = this._networks[this._findNetwork(this.device.active_access_point)];
} 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));
NMDevice.prototype._init.call(this, 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;
}
NMDevice.prototype.destroy.call(this);
},
setEnabled: function(enabled) {
if (enabled) {
this.statusItem.actor.show();
this.section.actor.show();
} else {
this.statusItem.actor.hide();
this.section.actor.hide();
}
},
activate: function() {
if (this._activeConnection)
// nothing to do
return;
// among all visible networks, pick the last recently used connection
let best = null;
let bestApObj = null;
let bestTime = 0;
for (let i = 0; i < this._networks.length; i++) {
let apObj = this._networks[i];
for (let j = 0; j < apObj.connections.length; j++) {
let connection = apObj.connections[j];
if (connection._timestamp > bestTime) {
best = connection;
bestTime = connection._timestamp;
bestApObj = apObj;
}
}
}
if (best) {
for (let i = 0; i < bestApObj.accessPoints.length; i++) {
let ap = bestApObj.accessPoints[i];
if (ap.connection_valid(best)) {
this._client.activate_connection(best, this.device, ap.dbus_path, null);
break;
}
}
return;
}
// XXX: what else to do?
// for now, just pick a random network
// (this function is called in a corner case anyway, that is, only when
// the user toggles the switch and has more than one wireless device)
if (this._networks.length > 0) {
let connection = this._createAutomaticConnection(this._networks[0]);
let accessPoints = sortAccessPoints(this._networks[0].accessPoints);
this._client.add_and_activate_connection(connection, this.device, accessPoints[0].dbus_path, null);
}
},
_activeApChanged: function() {
this._activeNetwork = null;
let activeAp = this.device.active_access_point;
if (activeAp) {
let pos = this._findNetwork(activeAp);
this._activeNetwork = this._networks[pos];
}
// 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 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;
},
_findNetwork: function(accessPoint) {
for (let i = 0; i < this._networks.length; i++) {
if (this._networkCompare(this._networks[i], accessPoint))
return i;
}
return -1;
},
_accessPointAdded: function(device, accessPoint) {
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;
}
apObj.accessPoints.push(accessPoint);
if (apObj.item)
apObj.item.updateAccessPoints(apObj.accessPoints);
} else {
apObj = { ssid: accessPoint.get_ssid(),
mode: accessPoint.mode,
security: this._getApSecurityType(accessPoint),
connections: [ ],
item: null,
accessPoints: [ accessPoint ]
};
apObj.ssidText = NetworkManager.utils_ssid_to_utf8(apObj.ssid);
needsupdate = true;
}
// 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);
// this potentially changes the order
needsupdate = true;
}
}
if (needsupdate) {
if (apObj.item)
apObj.item.destroy();
if (pos != -1)
this._networks.splice(pos, 1);
if (this._networks.length == 0) {
// only network in the list
this._networks.push(apObj);
this._clearSection();
this._createSection();
return;
}
// skip networks that should appear earlier
let menuPos = 0;
for (pos = 0;
pos < this._networks.length &&
2011-04-27 13:05:39 +00:00
this._networkSortFunction(this._networks[pos], apObj) < 0; ++pos) {
if (this._networks[pos] != this._activeNetwork)
menuPos++;
}
// (re-)add the network
this._networks.splice(pos, 0, apObj);
if (this._shouldShowConnectionList()) {
menuPos += (this._activeConnectionItem ? 1 : 0);
this._createNetworkItem(apObj, menuPos);
}
}
},
_accessPointRemoved: function(device, accessPoint) {
let pos = this._findNetwork(accessPoint);
if (pos == -1) {
log('Removing an access point that was never added');
return;
}
let apObj = this._networks[pos];
let i = apObj.accessPoints.indexOf(accessPoint);
if (i == -1) {
log('Removing an access point that was never added');
return;
}
apObj.accessPoints.splice(i, 1);
if (apObj.accessPoints.length == 0) {
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 apObj = this._overflowItem.menu.firstMenuItem;
if (apObj.item) {
apObj.item.destroy();
this._createNetworkItem(apObj, NUM_VISIBLE_NETWORKS-1);
}
}
// 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.length == 0) {
this._overflowItem.destroy();
this._overflowItem = null;
}
}
this._networks.splice(pos, 1);
} else if (apObj.item)
apObj.item.updateAccessPoints(apObj.accessPoints);
},
_createAPItem: function(connection, accessPointObj, useConnectionName) {
let item = new NMNetworkMenuItem(accessPointObj.accessPoints, useConnectionName ? connection._name : undefined);
item._connection = connection;
item.connect('activate', Lang.bind(this, function() {
let accessPoints = sortAccessPoints(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() {
NMDevice.prototype._clearSection.call(this);
for (let i = 0; i < this._networks.length; i++)
this._networks[i].item = null;
this._overflowItem = null;
},
removeConnection: function(connection) {
if (!connection._uuid)
return;
let pos = this._findConnection(connection._uuid);
if (pos == -1) {
// removing connection that was never added
return;
}
let obj = this._connections[pos];
this._connections.splice(pos, 1);
let anyauto = false, 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]._uuid == connection._uuid) {
// remove the connection from the access point group
connections.splice(k);
anyauto = connections.length == 0;
if (anyauto) {
// this potentially changes the sorting order
forceupdate = true;
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._uuid == connection._uuid) {
items[j].destroy();
break;
}
}
}
} else {
apObj.item.destroy();
apObj.item = null;
}
}
break;
}
}
}
if (forceupdate || anyauto) {
this._networks.sort(this._networkSortFunction);
this._clearSection();
this._createSection();
}
},
addConnection: function(connection) {
// record the connection
let obj = {
connection: connection,
name: connection._name,
uuid: connection._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._clearSection();
this._createSection();
}
},
_createActiveConnectionItem: function() {
let activeAp = this.device.active_access_point;
let icon, title;
if (this._activeConnection._connection) {
let connection = this._activeConnection._connection;
if (activeAp)
this._activeConnectionItem = new NMNetworkMenuItem([ activeAp ], undefined,
{ reactive: false });
else
this._activeConnectionItem = new PopupMenu.PopupImageMenuItem(connection._name,
'network-wireless-connected',
{ reactive: false });
} else {
// We cannot read the connection (due to ACL, or API incompatibility), but we still show signal if we have it
let menuItem;
if (activeAp)
this._activeConnectionItem = new NMNetworkMenuItem([ activeAp ], undefined,
{ reactive: false });
else
this._activeConnectionItem = new PopupMenu.PopupImageMenuItem(_("Connected (private)"),
'network-wireless-connected',
{ 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.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);
apObj.item._apObj = apObj;
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);
apObj.item._apObj = apObj;
apObj.item.connect('activate', Lang.bind(this, function() {
let accessPoints = sortAccessPoints(apObj.accessPoints);
if ( (accessPoints[0]._secType == NMAccessPointSecurity.WPA2_ENT)
|| (accessPoints[0]._secType == NMAccessPointSecurity.WPA_ENT)) {
// 802.1x-enabled APs get handled by nm-applet for now...
this._applet_proxy.ConnectTo8021xNetworkRemote(this.device.get_path(),
accessPoints[0].dbus_path,
Lang.bind(this, function(results, err) {
if (err)
log(err);
}));
} else {
let connection = this._createAutomaticConnection(apObj);
this._client.add_and_activate_connection(connection, this.device, accessPoints[0].dbus_path, null)
}
}));
}
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._activeConnection) {
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)
continue;
this._createNetworkItem(apObj, j + activeOffset);
}
},
};
function NMApplet() {
this._init.apply(this, arguments);
}
NMApplet.prototype = {
__proto__: PanelMenu.SystemStatusButton.prototype,
_init: function() {
PanelMenu.SystemStatusButton.prototype._init.call(this, 'network-error');
this._client = NMClient.Client.new();
this._statusSection = new PopupMenu.PopupMenuSection();
this._statusItem = new PopupMenu.PopupMenuItem('', { style_class: 'popup-inactive-menu-item', reactive: false });
this._statusSection.addMenuItem(this._statusItem);
this._statusSection.addAction(_("Enable networking"), Lang.bind(this, function() {
this._client.networking_enabled = true;
}));
this._statusSection.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this._statusSection.actor.hide();
this.menu.addMenuItem(this._statusSection);
this._devices = { };
this._devices.wired = {
section: new PopupMenu.PopupMenuSection(),
devices: [ ],
item: new NMWiredSectionTitleMenuItem(_("Wired"))
};
this._devices.wired.section.addMenuItem(this._devices.wired.item);
this._devices.wired.section.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this._devices.wired.section.actor.hide();
this.menu.addMenuItem(this._devices.wired.section);
this._devices.wireless = {
section: new PopupMenu.PopupMenuSection(),
devices: [ ],
item: this._makeToggleItem('wireless', _("Wireless"))
};
this._devices.wireless.section.addMenuItem(this._devices.wireless.item);
this._devices.wireless.section.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this._devices.wireless.section.actor.hide();
this.menu.addMenuItem(this._devices.wireless.section);
this._devices.wwan = {
section: new PopupMenu.PopupMenuSection(),
devices: [ ],
item: this._makeToggleItem('wwan', _("Mobile broadband"))
};
this._devices.wwan.section.addMenuItem(this._devices.wwan.item);
this._devices.wwan.section.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this._devices.wwan.section.actor.hide();
this.menu.addMenuItem(this._devices.wwan.section);
this._devices.vpn = {
section: new PopupMenu.PopupMenuSection(),
device: new NMDeviceVPN(this._client),
item: new NMWiredSectionTitleMenuItem(_("VPN Connections"))
};
this._devices.vpn.device.connect('active-connection-changed', Lang.bind(this, function() {
this._devices.vpn.item.updateForDevice(this._devices.vpn.device);
}));
this._devices.vpn.item.updateForDevice(this._devices.vpn.device);
this._devices.vpn.section.addMenuItem(this._devices.vpn.item);
this._devices.vpn.section.addMenuItem(this._devices.vpn.device.section);
this._devices.vpn.section.addMenuItem(new PopupMenu.PopupSeparatorMenuItem());
this._devices.vpn.section.actor.hide();
this.menu.addMenuItem(this._devices.vpn.section);
this.menu.addAction(_("Network Settings"), function() {
Main.overview.hide();
Kill off ShellAppInfo, move into ShellApp This dramatically thins down and sanitizes the application code. The ShellAppSystem changes in a number of ways: * Preferences are special cased more explicitly; they aren't apps, they're shortcuts for an app), and we don't have many of them, so don't need e.g. the optimizations in ShellAppSystem for searching. * get_app() changes to lookup_app() and returns null if an app isn't found. The semantics where it tried to find the .desktop file if we didn't know about it were just broken; I am pretty sure no caller needs this, and if they do we'll fix them. * ShellAppSystem maintains two indexes on apps (by desktop file id and by GMenuTreeEntry), but is no longer in the business of dealing with GMenuTree as far as hierarchy and categories go. That is moved up into js/ui/appDisplay.js. Actually, it flattens both apps and settings. Also, ShellWindowTracker is now the sole reference-owner for window-backed apps. We still do the weird "window:0x1234beef" id for these apps, but a reference is not stored in ShellAppSystem. The js/ui/appDisplay.js code is rewritten, and sucks a lot less. Variable names are clearer: _apps -> _appIcons _filterApp -> _visibleApps _filters -> _categoryBox Similarly for function names. We no longer call (for every app) a recursive lookup in GMenuTree to see if it's in a particular section on every category switch; it's all cached. NOTE - this intentionally reverts the incremental loading code from commit 7813c5b93f6bcde8c4beae286e82bfc472b2b656. It's fast enough here without that. https://bugzilla.gnome.org/show_bug.cgi?id=648149
2011-04-21 17:35:01 +00:00
let app = Shell.AppSystem.get_default().lookup_setting('gnome-network-panel.desktop');
app.activate();
});
this._activeConnections = [ ];
this._connections = [ ];
this._mainConnection = null;
this._activeAccessPointUpdateId = 0;
this._activeAccessPoint = null;
this._mobileUpdateId = 0;
this._mobileUpdateDevice = null;
// 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;
// TODO: WiMax support
// 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_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 NMMessageTraySource();
this._source._destroyId = this._source.connect('destroy', Lang.bind(this, function() {
this._source._destroyId = 0;
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;
if (devices.length == 0)
section.actor.hide();
else {
section.actor.show();
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]);
}
},
_deviceAdded: function(client, device) {
if (device._delegate) {
// already seen, not adding again
return;
}
let wrapperClass = this._dtypes[device.get_device_type()];
if (wrapperClass) {
let wrapper = new wrapperClass(this._client, device, this._connections);
// FIXME: these notifications are duplicate with those exposed by nm-applet
// uncomment this code in 3.2, when we'll conflict with and kill nm-applet
/* wrapper._networkLostId = wrapper.connect('network-lost', Lang.bind(this, function(emitter) {
this._ensureSource();
let icon = new St.Icon({ icon_name: 'network-offline',
icon_type: St.IconType.SYMBOLIC,
icon_size: this._source.ICON_SIZE
});
let notification = new MessageTray.Notification(this._source,
_("Connectivity lost"),
_("You're no longer connected to the network"),
{ icon: icon });
this._source.notify(notification);
}));
wrapper._activationFailedId = wrapper.connect('activation-failed', Lang.bind(this, function(wrapper, reason) {
this._ensureSource();
let icon = new St.Icon({ icon_name: 'network-error',
icon_type: St.IconType.SYMBOLIC,
icon_size: this._source.ICON_SIZE,
});
let banner;
// XXX: nm-applet has no special text depending on reason
// but I'm not sure of this generic message
let notification = new MessageTray.Notification(this._source,
_("Connection failed"),
_("Activation of network connection failed"),
{ icon: icon });
this._source.notify(notification);
})); */
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._networkLostId);
//wrapper.disconnect(wrapper._activationFailedId);
wrapper.disconnect(wrapper._deviceStateChangedId);
});
let section = this._devices[wrapper.category].section;
let devices = this._devices[wrapper.category].devices;
section.addMenuItem(wrapper.section, 1);
section.addMenuItem(wrapper.statusItem, 1);
devices.push(wrapper);
this._syncSectionTitle(wrapper.category);
} else
log('Invalid network device type, is ' + device.get_device_type());
},
_deviceRemoved: function(client, device) {
if (!device._delegate) {
log('Removing a network device that was not added');
return;
}
let wrapper = device._delegate;
wrapper.destroy();
let devices = this._devices[wrapper.category].devices;
let pos = devices.indexOf(wrapper);
devices.splice(pos, 1);
this._syncSectionTitle(wrapper.category)
},
_syncActiveConnections: function() {
let closedConnections = [ ];
let newActiveConnections = this._client.get_active_connections() || [ ];
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.setActiveConnection(null);
active._primaryDevice = null;
}
if (active._notifyStateId) {
active.disconnect(active._notifyStateId);
active._notifyStateId = 0;
}
if (active._inited) {
active.disconnect(active._notifyDefaultId);
active.disconnect(active._notifyDefault6Id);
active._inited = false;
}
}
this._activeConnections = newActiveConnections;
this._mainConnection = null;
let activating = null;
let default_ip4 = null;
let default_ip6 = 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));
if (a.state == NetworkManager.ActiveConnectionState.ACTIVATING) // prepare to notify to the user
a._notifyStateId = a.connect('notify::state', Lang.bind(this, this._notifyActiveConnection));
else {
// notify as soon as possible
Mainloop.idle_add(Lang.bind(this, function() {
this._notifyActiveConnection(a);
}));
}
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.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._devices.vpn.device
if (a._primaryDevice)
a._primaryDevice.setActiveConnection(a);
}
}
this._mainConnection = activating || default_ip4 || default_ip6 || this._activeConnections[0] || null;
},
_notifyActiveConnection: function(active) {
// FIXME: duplicate notifications when nm-applet is running
// This code will come back when nm-applet is killed
this._syncNMState();
return;
if (active.state == NetworkManager.ActiveConnectionState.ACTIVATED) {
// notify only connections that are visible
if (active._connection) {
this._ensureSource();
let icon;
let banner;
switch (active._section) {
case NMConnectionCategory.WWAN:
icon = 'network-cellular-signal-excellent';
banner = _("You're now connected to mobile broadband connection '%s'").format(active._connection._name);
break;
case NMConnectionCategory.WIRELESS:
icon = 'network-wireless-signal-excellent';
banner = _("You're now connected to wireless network '%s'").format(active._connection._name);
break;
case NMConnectionCategory.WIRED:
icon = 'network-wired';
banner = _("You're now connected to wired network '%s'").format(active._connection._name);
break;
case NMConnectionCategory.VPN:
icon = 'network-vpn';
banner = _("You're now connected to VPN network '%s'").format(active._connection._name);
break;
default:
// a fallback for a generic 'connected' icon
icon = 'network-transmit-receive';
banner = _("You're now connected to '%s'").format(active._connection._name);
}
let iconActor = new St.Icon({ icon_name: icon,
icon_type: St.IconType.SYMBOLIC,
icon_size: this._source.ICON_SIZE
});
let notification = new MessageTray.Notification(this._source,
_("Connection established"),
banner,
{ icon: iconActor });
this._source.notify(notification);
}
if (active._stateChangeId) {
active.disconnect(active._stateChangeId);
active._stateChangeId = 0;
}
}
this._syncNMState();
},
_readConnections: function() {
let connections = this._settings.list_connections();
for (let i = 0; i < connections.length; i++) {
let connection = connections[i];
if (connection._uuid) {
// 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 (connection._uuid) {
// 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._devices.vpn.device.removeConnection(connection);
if (this._devices.vpn.device.empty)
this._devices.vpn.section.actor.hide();
} else if (section != NMConnectionCategory.INVALID) {
let devices = this._devices[section].devices;
for (let i = 0; i < devices.length; i++)
devices[i].removeConnection(connection);
}
connection._uuid = null;
connection.disconnect(connection._removedId);
connection.disconnect(connection._updatedId);
},
_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._name = connectionSettings.id;
connection._uuid = connectionSettings.uuid;
connection._timestamp = connectionSettings.timestamp;
let section = connection._section;
if (connection._section == NMConnectionCategory.INVALID)
return;
if (section == NMConnectionCategory.VPN) {
this._devices.vpn.device.checkConnection(connection);
this._devices.vpn.section.actor.show();
} else {
let devices = this._devices[section].devices;
for (let i = 0; i < devices.length; i++) {
devices[i].checkConnection(connection);
}
}
},
_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('wired');
this._syncSectionTitle('wireless');
this._syncSectionTitle('wwan');
if (!this._devices.vpn.device.empty)
this._devices.vpn.section.actor.show();
},
_syncNMState: function() {
if (!this._client.manager_running) {
log('NetworkManager is not running, hiding...');
this.menu.close();
this.actor.hide();
return;
} else
this.actor.show();
if (!this._client.networking_enabled) {
this.setIcon('network-offline');
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');
} else if (mc.state == NetworkManager.ActiveConnectionState.ACTIVATING) {
switch (mc._section) {
case NMConnectionCategory.WWAN:
this.setIcon('network-cellular-acquiring');
break;
case NMConnectionCategory.WIRELESS:
this.setIcon('network-wireless-acquiring');
break;
case NMConnectionCategory.WIRED:
this.setIcon('network-wired-acquiring');
break;
case NMConnectionCategory.VPN:
this.setIcon('network-vpn-acquiring');
break;
default:
// fallback to a generic connected icon
// (it could be a private connection of some other user)
this.setIcon('network-wired-acquiring');
}
} 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');
} else {
if (this._accessPointUpdateId && this._activeAccessPoint != ap) {
this._activeAccessPoint.disconnect(this._accessPointUpdateId);
this._activeAccessPoint = ap;
this._activeAccessPointUpdateId = ap.connect('notify::strength', Lang.bind(function() {
this.setIcon('network-wireless-signal-' + signalToIcon(ap.strength));
}));
}
this.setIcon('network-wireless-signal-' + signalToIcon(ap.strength));
hasApIcon = true;
}
break;
} else {
log('Active connection with no primary device?');
break;
}
case NMConnectionCategory.WIRED:
this.setIcon('network-wired');
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');
break;
}
if (this._mobileUpdateId && this._mobileUpdateDevice != dev) {
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));
}));
}
this.setIcon('network-cellular-signal-' + signalToIcon(dev.mobileDevice.signal_quality));
hasMobileIcon = true;
break;
case NMConnectionCategory.VPN:
this.setIcon('network-vpn');
break;
default:
// fallback to a generic connected icon
// (it could be a private connection of some other user)
this.setIcon('network-wired');
break;
}
}
// 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;
}
}
};
function NMMessageTraySource() {
this._init();
}
NMMessageTraySource.prototype = {
__proto__: MessageTray.Source.prototype,
_init: function() {
MessageTray.Source.prototype._init.call(this, _("Network Manager"));
let icon = new St.Icon({ icon_name: 'network-transmit-receive',
icon_type: St.IconType.SYMBOLIC,
icon_size: this.ICON_SIZE
});
this._setSummaryIcon(icon);
}
};