// -*- mode: js; js-indent-level: 4; indent-tabs-mode: nil -*- /* exported Component */ const { Clutter, Gio, GLib, GObject, NM, Pango, Shell, St } = imports.gi; const ByteArray = imports.byteArray; const Signals = imports.signals; const Dialog = imports.ui.dialog; const Main = imports.ui.main; const MessageTray = imports.ui.messageTray; const ModalDialog = imports.ui.modalDialog; const ShellEntry = imports.ui.shellEntry; Gio._promisify(Shell.NetworkAgent.prototype, 'init_async', 'init_finish'); Gio._promisify(Shell.NetworkAgent.prototype, 'search_vpn_plugin', 'search_vpn_plugin_finish'); const VPN_UI_GROUP = 'VPN Plugin UI'; var NetworkSecretDialog = GObject.registerClass( class NetworkSecretDialog extends ModalDialog.ModalDialog { _init(agent, requestId, connection, settingName, hints, flags, contentOverride) { super._init({ styleClass: 'prompt-dialog' }); this._agent = agent; this._requestId = requestId; this._connection = connection; this._settingName = settingName; this._hints = hints; if (contentOverride) this._content = contentOverride; else this._content = this._getContent(); let contentBox = new Dialog.MessageDialogContent({ title: this._content.title, description: this._content.message, }); let initialFocusSet = false; for (let i = 0; i < this._content.secrets.length; i++) { let secret = this._content.secrets[i]; let reactive = secret.key != null; let entryParams = { style_class: 'prompt-dialog-password-entry', hint_text: secret.label, text: secret.value, can_focus: reactive, reactive, x_align: Clutter.ActorAlign.CENTER, }; if (secret.password) secret.entry = new St.PasswordEntry(entryParams); else secret.entry = new St.Entry(entryParams); ShellEntry.addContextMenu(secret.entry); contentBox.add_child(secret.entry); if (secret.validate) secret.valid = secret.validate(secret); else // no special validation, just ensure it's not empty secret.valid = secret.value.length > 0; if (reactive) { if (!initialFocusSet) { this.setInitialKeyFocus(secret.entry); initialFocusSet = true; } secret.entry.clutter_text.connect('activate', this._onOk.bind(this)); secret.entry.clutter_text.connect('text-changed', () => { secret.value = secret.entry.get_text(); if (secret.validate) secret.valid = secret.validate(secret); else secret.valid = secret.value.length > 0; this._updateOkButton(); }); } else { secret.valid = true; } } if (this._content.secrets.some(s => s.password)) { let capsLockWarning = new ShellEntry.CapsLockWarning(); contentBox.add_child(capsLockWarning); } if (flags & NM.SecretAgentGetSecretsFlags.WPS_PBC_ACTIVE) { let descriptionLabel = new St.Label({ text: _('Alternatively you can connect by pushing the “WPS” button on your router.'), style_class: 'message-dialog-description', }); descriptionLabel.clutter_text.line_wrap = true; descriptionLabel.clutter_text.ellipsize = Pango.EllipsizeMode.NONE; contentBox.add_child(descriptionLabel); } this.contentLayout.add_child(contentBox); this._okButton = { label: _("Connect"), action: this._onOk.bind(this), default: true, }; this.setButtons([{ label: _("Cancel"), action: this.cancel.bind(this), key: Clutter.KEY_Escape, }, this._okButton]); this._updateOkButton(); } _updateOkButton() { let valid = true; for (let i = 0; i < this._content.secrets.length; i++) { let secret = this._content.secrets[i]; valid = valid && secret.valid; } this._okButton.button.reactive = valid; this._okButton.button.can_focus = valid; } _onOk() { let valid = true; for (let i = 0; i < this._content.secrets.length; i++) { let secret = this._content.secrets[i]; valid = valid && secret.valid; if (secret.key != null) this._agent.set_password(this._requestId, secret.key, secret.value); } if (valid) { this._agent.respond(this._requestId, Shell.NetworkAgentResponse.CONFIRMED); this.close(global.get_current_time()); } // do nothing if not valid } cancel() { this._agent.respond(this._requestId, Shell.NetworkAgentResponse.USER_CANCELED); this.close(global.get_current_time()); } _validateWpaPsk(secret) { let value = secret.value; if (value.length == 64) { // must be composed of hexadecimal digits only for (let i = 0; i < 64; i++) { if (!((value[i] >= 'a' && value[i] <= 'f') || (value[i] >= 'A' && value[i] <= 'F') || (value[i] >= '0' && value[i] <= '9'))) return false; } return true; } return value.length >= 8 && value.length <= 63; } _validateStaticWep(secret) { let value = secret.value; if (secret.wep_key_type == NM.WepKeyType.KEY) { if (value.length == 10 || value.length == 26) { for (let i = 0; i < value.length; i++) { if (!((value[i] >= 'a' && value[i] <= 'f') || (value[i] >= 'A' && value[i] <= 'F') || (value[i] >= '0' && value[i] <= '9'))) return false; } } else if (value.length == 5 || value.length == 13) { for (let i = 0; i < value.length; i++) { if (!((value[i] >= 'a' && value[i] <= 'z') || (value[i] >= 'A' && value[i] <= 'Z'))) return false; } } else { return false; } } else if (secret.wep_key_type == NM.WepKeyType.PASSPHRASE) { if (value.length < 0 || value.length > 64) return false; } return true; } _getWirelessSecrets(secrets, _wirelessSetting) { let wirelessSecuritySetting = this._connection.get_setting_wireless_security(); if (this._settingName == '802-1x') { this._get8021xSecrets(secrets); return; } switch (wirelessSecuritySetting.key_mgmt) { // First the easy ones case 'wpa-none': case 'wpa-psk': case 'sae': secrets.push({ label: _('Password'), key: 'psk', value: wirelessSecuritySetting.psk || '', validate: this._validateWpaPsk, password: true }); break; case 'none': // static WEP secrets.push({ label: _('Key'), key: 'wep-key%s'.format(wirelessSecuritySetting.wep_tx_keyidx), value: wirelessSecuritySetting.get_wep_key(wirelessSecuritySetting.wep_tx_keyidx) || '', wep_key_type: wirelessSecuritySetting.wep_key_type, validate: this._validateStaticWep, password: true, }); break; case 'ieee8021x': if (wirelessSecuritySetting.auth_alg == 'leap') { // Cisco LEAP secrets.push({ label: _('Password'), key: 'leap-password', value: wirelessSecuritySetting.leap_password || '', password: true }); } else { // Dynamic (IEEE 802.1x) WEP this._get8021xSecrets(secrets); } break; case 'wpa-eap': this._get8021xSecrets(secrets); break; default: log('Invalid wireless key management: %s'.format(wirelessSecuritySetting.key_mgmt)); } } _get8021xSecrets(secrets) { let ieee8021xSetting = this._connection.get_setting_802_1x(); /* If hints were given we know exactly what we need to ask */ if (this._settingName == "802-1x" && this._hints.length) { if (this._hints.includes('identity')) { secrets.push({ label: _('Username'), key: 'identity', value: ieee8021xSetting.identity || '', password: false }); } if (this._hints.includes('password')) { secrets.push({ label: _('Password'), key: 'password', value: ieee8021xSetting.password || '', password: true }); } if (this._hints.includes('private-key-password')) { secrets.push({ label: _('Private key password'), key: 'private-key-password', value: ieee8021xSetting.private_key_password || '', password: true }); } return; } switch (ieee8021xSetting.get_eap_method(0)) { case 'md5': case 'leap': case 'ttls': case 'peap': case 'fast': // TTLS and PEAP are actually much more complicated, but this complication // is not visible here since we only care about phase2 authentication // (and don't even care of which one) secrets.push({ label: _('Username'), key: null, value: ieee8021xSetting.identity || '', password: false }); secrets.push({ label: _('Password'), key: 'password', value: ieee8021xSetting.password || '', password: true }); break; case 'tls': secrets.push({ label: _('Identity'), key: null, value: ieee8021xSetting.identity || '', password: false }); secrets.push({ label: _('Private key password'), key: 'private-key-password', value: ieee8021xSetting.private_key_password || '', password: true }); break; default: log('Invalid EAP/IEEE802.1x method: %s'.format(ieee8021xSetting.get_eap_method(0))); } } _getPPPoESecrets(secrets) { let pppoeSetting = this._connection.get_setting_pppoe(); secrets.push({ label: _('Username'), key: 'username', value: pppoeSetting.username || '', password: false }); secrets.push({ label: _('Service'), key: 'service', value: pppoeSetting.service || '', password: false }); secrets.push({ label: _('Password'), key: 'password', value: pppoeSetting.password || '', password: true }); } _getMobileSecrets(secrets, connectionType) { let setting; if (connectionType == 'bluetooth') setting = this._connection.get_setting_cdma() || this._connection.get_setting_gsm(); else setting = this._connection.get_setting_by_name(connectionType); secrets.push({ label: _('Password'), key: 'password', value: setting.value || '', password: true }); } _getContent() { let connectionSetting = this._connection.get_setting_connection(); let connectionType = connectionSetting.get_connection_type(); let wirelessSetting; let ssid; let content = { }; content.secrets = []; switch (connectionType) { case '802-11-wireless': wirelessSetting = this._connection.get_setting_wireless(); ssid = NM.utils_ssid_to_utf8(wirelessSetting.get_ssid().get_data()); content.title = _('Authentication required'); content.message = _("Passwords or encryption keys are required to access the wireless network “%s”.").format(ssid); this._getWirelessSecrets(content.secrets, wirelessSetting); break; case '802-3-ethernet': content.title = _("Wired 802.1X authentication"); content.message = null; content.secrets.push({ label: _('Network name'), key: null, value: connectionSetting.get_id(), password: false }); this._get8021xSecrets(content.secrets); break; case 'pppoe': content.title = _("DSL authentication"); content.message = null; this._getPPPoESecrets(content.secrets); break; case 'gsm': if (this._hints.includes('pin')) { let gsmSetting = this._connection.get_setting_gsm(); content.title = _("PIN code required"); content.message = _("PIN code is needed for the mobile broadband device"); content.secrets.push({ label: _('PIN'), key: 'pin', value: gsmSetting.pin || '', password: true }); break; } // fall through case 'cdma': case 'bluetooth': content.title = _('Authentication required'); content.message = _("A password is required to connect to “%s”.").format(connectionSetting.get_id()); this._getMobileSecrets(content.secrets, connectionType); break; default: log('Invalid connection type: %s'.format(connectionType)); } return content; } }); var VPNRequestHandler = class { constructor(agent, requestId, authHelper, serviceType, connection, hints, flags) { this._agent = agent; this._requestId = requestId; this._connection = connection; this._flags = flags; this._pluginOutBuffer = []; this._title = null; this._description = null; this._content = []; this._shellDialog = null; let connectionSetting = connection.get_setting_connection(); let argv = [authHelper.fileName, '-u', connectionSetting.uuid, '-n', connectionSetting.id, '-s', serviceType]; if (authHelper.externalUIMode) argv.push('--external-ui-mode'); if (flags & NM.SecretAgentGetSecretsFlags.ALLOW_INTERACTION) argv.push('-i'); if (flags & NM.SecretAgentGetSecretsFlags.REQUEST_NEW) argv.push('-r'); if (authHelper.supportsHints) { for (let i = 0; i < hints.length; i++) { argv.push('-t'); argv.push(hints[i]); } } this._newStylePlugin = authHelper.externalUIMode; try { let [success_, pid, stdin, stdout, stderr] = GLib.spawn_async_with_pipes(null, /* pwd */ argv, null, /* envp */ GLib.SpawnFlags.DO_NOT_REAP_CHILD, null /* child_setup */); this._childPid = pid; this._stdin = new Gio.UnixOutputStream({ fd: stdin, close_fd: true }); this._stdout = new Gio.UnixInputStream({ fd: stdout, close_fd: true }); GLib.close(stderr); this._dataStdout = new Gio.DataInputStream({ base_stream: this._stdout }); if (this._newStylePlugin) this._readStdoutNewStyle(); else this._readStdoutOldStyle(); this._childWatch = GLib.child_watch_add(GLib.PRIORITY_DEFAULT, pid, this._vpnChildFinished.bind(this)); this._writeConnection(); } catch (e) { logError(e, 'error while spawning VPN auth helper'); this._agent.respond(requestId, Shell.NetworkAgentResponse.INTERNAL_ERROR); } } cancel(respond) { if (respond) this._agent.respond(this._requestId, Shell.NetworkAgentResponse.USER_CANCELED); if (this._newStylePlugin && this._shellDialog) { this._shellDialog.close(global.get_current_time()); this._shellDialog.destroy(); } else { try { this._stdin.write('QUIT\n\n', null); } catch (e) { /* ignore broken pipe errors */ } } this.destroy(); } destroy() { if (this._destroyed) return; this.emit('destroy'); if (this._childWatch) GLib.source_remove(this._childWatch); this._stdin.close(null); // Stdout is closed when we finish reading from it this._destroyed = true; } _vpnChildFinished(pid, status, _requestObj) { this._childWatch = 0; if (this._newStylePlugin) { // For new style plugin, all work is done in the async reading functions // Just reap the process here return; } let [exited, exitStatus] = Shell.util_wifexited(status); if (exited) { if (exitStatus != 0) this._agent.respond(this._requestId, Shell.NetworkAgentResponse.USER_CANCELED); else this._agent.respond(this._requestId, Shell.NetworkAgentResponse.CONFIRMED); } else { this._agent.respond(this._requestId, Shell.NetworkAgentResponse.INTERNAL_ERROR); } this.destroy(); } _vpnChildProcessLineOldStyle(line) { if (this._previousLine != undefined) { // Two consecutive newlines mean that the child should be closed // (the actual newlines are eaten by Gio.DataInputStream) // Send a termination message if (line == '' && this._previousLine == '') { try { this._stdin.write('QUIT\n\n', null); } catch (e) { /* ignore broken pipe errors */ } } else { this._agent.set_password(this._requestId, this._previousLine, line); this._previousLine = undefined; } } else { this._previousLine = line; } } async _readStdoutOldStyle() { const [line, len_] = await this._dataStdout.read_line_async(GLib.PRIORITY_DEFAULT, null); if (line === null) { // end of file this._stdout.close(null); return; } this._vpnChildProcessLineOldStyle(line); // try to read more! this._readStdoutOldStyle(); } async _readStdoutNewStyle() { const cnt = await this._dataStdout.fill_async(-1, GLib.PRIORITY_DEFAULT, null); if (cnt === 0) { // end of file this._showNewStyleDialog(); this._stdout.close(null); return; } // Try to read more this._dataStdout.set_buffer_size(2 * this._dataStdout.get_buffer_size()); this._readStdoutNewStyle(); } _showNewStyleDialog() { let keyfile = new GLib.KeyFile(); let data; let contentOverride; try { data = ByteArray.toGBytes(this._dataStdout.peek_buffer()); keyfile.load_from_bytes(data, GLib.KeyFileFlags.NONE); if (keyfile.get_integer(VPN_UI_GROUP, 'Version') != 2) throw new Error('Invalid plugin keyfile version, is %d'); contentOverride = { title: keyfile.get_string(VPN_UI_GROUP, 'Title'), message: keyfile.get_string(VPN_UI_GROUP, 'Description'), secrets: [] }; let [groups, len_] = keyfile.get_groups(); for (let i = 0; i < groups.length; i++) { if (groups[i] == VPN_UI_GROUP) continue; let value = keyfile.get_string(groups[i], 'Value'); let shouldAsk = keyfile.get_boolean(groups[i], 'ShouldAsk'); if (shouldAsk) { contentOverride.secrets.push({ label: keyfile.get_string(groups[i], 'Label'), key: groups[i], value, password: keyfile.get_boolean(groups[i], 'IsSecret'), }); } else { if (!value.length) // Ignore empty secrets continue; this._agent.set_password(this._requestId, groups[i], value); } } } catch (e) { // No output is a valid case it means "both secrets are stored" if (data.length > 0) { logError(e, 'error while reading VPN plugin output keyfile'); this._agent.respond(this._requestId, Shell.NetworkAgentResponse.INTERNAL_ERROR); this.destroy(); return; } } if (contentOverride && contentOverride.secrets.length) { // Only show the dialog if we actually have something to ask this._shellDialog = new NetworkSecretDialog(this._agent, this._requestId, this._connection, 'vpn', [], this._flags, contentOverride); this._shellDialog.open(global.get_current_time()); } else { this._agent.respond(this._requestId, Shell.NetworkAgentResponse.CONFIRMED); this.destroy(); } } _writeConnection() { let vpnSetting = this._connection.get_setting_vpn(); try { vpnSetting.foreach_data_item((key, value) => { this._stdin.write('DATA_KEY=%s\n'.format(key), null); this._stdin.write('DATA_VAL=%s\n\n'.format(value || ''), null); }); vpnSetting.foreach_secret((key, value) => { this._stdin.write('SECRET_KEY=%s\n'.format(key), null); this._stdin.write('SECRET_VAL=%s\n\n'.format(value || ''), null); }); this._stdin.write('DONE\n\n', null); } catch (e) { logError(e, 'internal error while writing connection to helper'); this._agent.respond(this._requestId, Shell.NetworkAgentResponse.INTERNAL_ERROR); this.destroy(); } } }; Signals.addSignalMethods(VPNRequestHandler.prototype); var NetworkAgent = class { constructor() { this._native = new Shell.NetworkAgent({ identifier: 'org.gnome.Shell.NetworkAgent', capabilities: NM.SecretAgentCapabilities.VPN_HINTS, auto_register: false, }); this._dialogs = { }; this._vpnRequests = { }; this._notifications = { }; this._native.connect('new-request', this._newRequest.bind(this)); this._native.connect('cancel-request', this._cancelRequest.bind(this)); this._initialized = false; this._initNative(); } async _initNative() { try { await this._native.init_async(GLib.PRIORITY_DEFAULT, null); this._initialized = true; } catch (e) { this._native = null; logError(e, 'error initializing the NetworkManager Agent'); } } enable() { if (!this._native) return; this._native.auto_register = true; if (this._initialized && !this._native.registered) this._native.register_async(null, null); } disable() { let requestId; for (requestId in this._dialogs) this._dialogs[requestId].cancel(); this._dialogs = { }; for (requestId in this._vpnRequests) this._vpnRequests[requestId].cancel(true); this._vpnRequests = { }; for (requestId in this._notifications) this._notifications[requestId].destroy(); this._notifications = { }; if (!this._native) return; this._native.auto_register = false; if (this._initialized && this._native.registered) this._native.unregister_async(null, null); } _showNotification(requestId, connection, settingName, hints, flags) { let source = new MessageTray.Source(_("Network Manager"), 'network-transmit-receive'); source.policy = new MessageTray.NotificationApplicationPolicy('gnome-network-panel'); let title, body; let connectionSetting = connection.get_setting_connection(); let connectionType = connectionSetting.get_connection_type(); switch (connectionType) { case '802-11-wireless': { let wirelessSetting = connection.get_setting_wireless(); let ssid = NM.utils_ssid_to_utf8(wirelessSetting.get_ssid().get_data()); title = _('Authentication required'); body = _("Passwords or encryption keys are required to access the wireless network “%s”.").format(ssid); break; } case '802-3-ethernet': title = _("Wired 802.1X authentication"); body = _("A password is required to connect to “%s”.".format(connection.get_id())); break; case 'pppoe': title = _("DSL authentication"); body = _("A password is required to connect to “%s”.".format(connection.get_id())); break; case 'gsm': if (hints.includes('pin')) { title = _("PIN code required"); body = _("PIN code is needed for the mobile broadband device"); break; } // fall through case 'cdma': case 'bluetooth': title = _('Authentication required'); body = _("A password is required to connect to “%s”.").format(connectionSetting.get_id()); break; case 'vpn': title = _("VPN password"); body = _("A password is required to connect to “%s”.").format(connectionSetting.get_id()); break; default: log('Invalid connection type: %s'.format(connectionType)); this._native.respond(requestId, Shell.NetworkAgentResponse.INTERNAL_ERROR); return; } let notification = new MessageTray.Notification(source, title, body); notification.connect('activated', () => { notification.answered = true; this._handleRequest(requestId, connection, settingName, hints, flags); }); this._notifications[requestId] = notification; notification.connect('destroy', () => { if (!notification.answered) this._native.respond(requestId, Shell.NetworkAgentResponse.USER_CANCELED); delete this._notifications[requestId]; }); Main.messageTray.add(source); source.showNotification(notification); } _newRequest(agent, requestId, connection, settingName, hints, flags) { if (!(flags & NM.SecretAgentGetSecretsFlags.USER_REQUESTED)) this._showNotification(requestId, connection, settingName, hints, flags); else this._handleRequest(requestId, connection, settingName, hints, flags); } _handleRequest(requestId, connection, settingName, hints, flags) { if (settingName == 'vpn') { this._vpnRequest(requestId, connection, hints, flags); return; } let dialog = new NetworkSecretDialog(this._native, requestId, connection, settingName, hints, flags); dialog.connect('destroy', () => { delete this._dialogs[requestId]; }); this._dialogs[requestId] = dialog; dialog.open(global.get_current_time()); } _cancelRequest(agent, requestId) { if (this._dialogs[requestId]) { this._dialogs[requestId].close(global.get_current_time()); this._dialogs[requestId].destroy(); delete this._dialogs[requestId]; } else if (this._vpnRequests[requestId]) { this._vpnRequests[requestId].cancel(false); delete this._vpnRequests[requestId]; } } async _vpnRequest(requestId, connection, hints, flags) { let vpnSetting = connection.get_setting_vpn(); let serviceType = vpnSetting.service_type; let binary = await this._findAuthBinary(serviceType); if (!binary) { log('Invalid VPN service type (cannot find authentication binary)'); /* cancel the auth process */ this._native.respond(requestId, Shell.NetworkAgentResponse.INTERNAL_ERROR); return; } let vpnRequest = new VPNRequestHandler(this._native, requestId, binary, serviceType, connection, hints, flags); vpnRequest.connect('destroy', () => { delete this._vpnRequests[requestId]; }); this._vpnRequests[requestId] = vpnRequest; } async _findAuthBinary(serviceType) { let plugin; try { plugin = await this._native.search_vpn_plugin(serviceType); } catch (e) { logError(e); return null; } const fileName = plugin.get_auth_dialog(); if (!GLib.file_test(fileName, GLib.FileTest.IS_EXECUTABLE)) { log('VPN plugin at %s is not executable'.format(fileName)); return null; } const prop = plugin.lookup_property('GNOME', 'supports-external-ui-mode'); const trimmedProp = prop ? prop.trim().toLowerCase() : ''; return { fileName, supportsHints: plugin.supports_hints(), externalUIMode: ['true', 'yes', 'on', '1'].includes(trimmedProp), }; } }; var Component = NetworkAgent;