gnome-shell/js/ui/status/network.js
Giovanni Campagna 6b1e632621 NetworkMenu: don't notify for failed connections if cancelled by the user
If the user cancels the secret dialog, the NM will report the connection
failure, but we should not notify it as it is a user-initiated action.

https://bugzilla.gnome.org/show_bug.cgi?id=684823
2012-12-03 19:02:16 +01:00

2210 lines
80 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 NMGtk = imports.gi.NMGtk;
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;
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.device = device;
this.device._delegate = this;
this._stateChangedId = this.device.connect('state-changed', Lang.bind(this, this._deviceStateChanged));
// protected
this._client = client;
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() {
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);
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);
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.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._clearSection();
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() {
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() {
this.statusItem.label.text = this.device._description;
},
// protected
_createAutomaticConnection: function() {
throw new TypeError('Invoking pure virtual function NMDevice.createAutomaticConnection');
},
_queueCreateSection: function() {
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._clearSection();
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 NMDeviceWired = new Lang.Class({
Name: 'NMDeviceWired',
Extends: NMDevice,
_init: function(client, device, connections) {
this._autoConnectionName = _("Auto Ethernet");
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;
},
_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;
this._enabled = true;
this.mobileDevice = null;
this._connectionType = 'ppp';
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());
}
}));
}
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) {
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._clearSection();
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._clearSection();
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._clearSection();
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._clearSection();
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._clearSection();
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._clearSection();
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 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._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.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;
// 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 MessageTray.Source(_("Network Manager"),
'network-transmit-receive');
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;
if (devices.length == 0)
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);
},
_makeWrapperDevice: function(wrapperClass, device) {
let wrapper = new wrapperClass(this._client, device, this._connections);
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);
});
return wrapper;
},
_syncDeviceNames: function() {
let names = NMGtk.utils_disambiguate_device_names(this._nmDevices);
for (let i = 0; i < this._nmDevices.length; i++) {
let device = this._nmDevices[i];
if (device._description != names[i]) {
device._description = names[i];
device._delegate.syncDescription();
}
}
},
_deviceAdded: function(client, device, skipSyncDeviceNames) {
if (device._delegate) {
// already seen, not adding again
return;
}
let wrapperClass = this._dtypes[device.get_device_type()];
if (wrapperClass) {
let wrapper = this._makeWrapperDevice(wrapperClass, device);
let section = this._devices[wrapper.category].section;
let devices = this._devices[wrapper.category].devices;
section.addMenuItem(wrapper.statusItem);
section.addMenuItem(wrapper.section);
devices.push(wrapper);
this._nmDevices.push(device);
if (!skipSyncDeviceNames)
this._syncDeviceNames();
this._syncSectionTitle(wrapper.category);
}
},
_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);
pos = this._nmDevices.indexOf(device);
this._nmDevices.splice(pos, 1);
this._syncDeviceNames();
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);
}
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.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);
}
}
},
_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.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:
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:
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;
}
}
});