'use strict'; 'require fs'; 'require form'; 'require network'; function getModemList() { return fs.exec_direct('/usr/bin/mmcli', [ '-L' ]).then(function(res) { var lines = (res || '').split(/\n/), tasks = []; for (var i = 0; i < lines.length; i++) { var m = lines[i].match(/\/Modem\/(\d+)/); if (m) tasks.push(fs.exec_direct('/usr/bin/mmcli', [ '-m', m[1] ])); } return Promise.all(tasks).then(function(res) { var modems = []; for (var i = 0; i < res.length; i++) { var man = res[i].match(/manufacturer: ([^\n]+)/), mod = res[i].match(/model: ([^\n]+)/), dev = res[i].match(/device: ([^\n]+)/); if (dev) { modems.push({ device: dev[1].trim(), manufacturer: (man ? man[1].trim() : '') || '?', model: (mod ? mod[1].trim() : '') || dev[1].trim() }); } } return modems; }); }); } network.registerPatternVirtual(/^mobiledata-.+$/); network.registerErrorCode('MM_CONNECT_FAILED', _('Connection attempt failed.')); network.registerErrorCode('MM_DISCONNECT_IN_PROGRESS', _('Modem disconnection in progress. Please wait.')); network.registerErrorCode('MM_CONNECT_IN_PROGRESS', _('Modem connection in progress. Please wait. This process will timeout after 2 minutes.')); network.registerErrorCode('MM_TEARDOWN_IN_PROGRESS', _('Modem bearer teardown in progress.')); network.registerErrorCode('MM_MODEM_DISABLED', _('Modem is disabled.')); network.registerErrorCode('DEVICE_NOT_MANAGED', _('Device not managed by ModemManager.')); network.registerErrorCode('INVALID_BEARER_LIST', _('Invalid bearer list. Possibly too many bearers created. This protocol supports one and only one bearer.')); network.registerErrorCode('UNKNOWN_METHOD', _('Unknown and unsupported connection method.')); network.registerErrorCode('DISCONNECT_FAILED', _('Disconnection attempt failed.')); return network.registerProtocol('modemmanager', { getI18n: function() { return _('ModemManager'); }, getIfname: function() { return this._ubus('l3_device') || 'modemmanager-%s'.format(this.sid); }, getOpkgPackage: function() { return 'modemmanager'; }, isFloating: function() { return true; }, isVirtual: function() { return true; }, getDevices: function() { return null; }, containsDevice: function(ifname) { return (network.getIfnameOf(ifname) == this.getIfname()); }, renderFormOptions: function(s) { var dev = this.getL3Device() || this.getDevice(), o; o = s.taboption('general', form.ListValue, 'device', _('Modem device')); o.rmempty = false; o.load = function(section_id) { return getModemList().then(L.bind(function(devices) { for (var i = 0; i < devices.length; i++) this.value(devices[i].device, '%s - %s'.format(devices[i].manufacturer, devices[i].model)); return form.Value.prototype.load.apply(this, [section_id]); }, this)); }; s.taboption('general', form.Value, 'apn', _('APN')); s.taboption('general', form.Value, 'pincode', _('PIN')); o = s.taboption('general', form.ListValue, 'auth', _('Authentication Type')); o.value('both', _('PAP/CHAP (both)')); o.value('pap', 'PAP'); o.value('chap', 'CHAP'); o.value('none', _('None')); o.default = 'none'; o = s.taboption('general', form.Value, 'username', _('PAP/CHAP username')); o.depends('auth', 'pap'); o.depends('auth', 'chap'); o.depends('auth', 'both'); o = s.taboption('general', form.Value, 'password', _('PAP/CHAP password')); o.depends('auth', 'pap'); o.depends('auth', 'chap'); o.depends('auth', 'both'); o.password = true; o = s.taboption('general', form.ListValue, 'iptype', _('IP Type')); o.value('ipv4v6', _('IPv4/IPv6 (both - defaults to IPv4)')) o.value('ipv4', _('IPv4 only')); o.value('ipv6', _('IPv6 only')); o.default = 'ipv4v6'; o = s.taboption('advanced', form.Value, 'mtu', _('Override MTU')); o.placeholder = dev ? (dev.getMTU() || '1500') : '1500'; o.datatype = 'max(9200)'; o = s.taboption('general', form.Value, 'signalrate', _('Signal Refresh Rate'), _("In seconds")); o.datatype = 'uinteger'; } });