'use strict'; 'require view'; 'require rpc'; 'require poll'; 'require dom'; 'require ui'; 'require form'; 'require uci'; 'require network'; 'require tools.widgets as widgets'; var Hosts, Remotehosts, Remoteinfo, Localinfo, Clients, WifiNetworks; var dns_cache = []; function SplitWlan(wlan) { var wlansplit = []; if (typeof wlan.split('#')[1] !== 'undefined') { wlansplit=wlan.split('#'); if (typeof dns_cache[wlansplit[0]] !== 'undefined') { wlansplit[0]=dns_cache[wlansplit[0]]; } } else { wlansplit[0]=_('This AP'); wlansplit[1]=wlan; } return wlansplit; } function collectHearingClient(client_table_entries, mac) { if (typeof Clients[mac] !== 'undefined') { for (var wlanc in Clients[mac]) { var SSID = ''; var freq = 0; if (typeof Localinfo[wlanc] !== 'undefined') { SSID = Localinfo[wlanc]['ssid']; freq = Localinfo[wlanc]['freq']; } if (typeof Remoteinfo[wlanc] !== 'undefined') { SSID = Remoteinfo[wlanc]['ssid']; freq = Remoteinfo[wlanc]['freq']; } var wlansplit=SplitWlan(wlanc); client_table_entries.push([ '' + '%h'.format(wlansplit[0]) + '', '' + '%h'.format(wlansplit[1]) + '', '%h'.format(SSID), '%h'.format(freq), Clients[mac][wlanc]['connected'] === true ? 'Yes' : 'No', typeof Clients[mac][wlanc]['signal'] !== 'undefined' ? '%h'.format(Clients[mac][wlanc]['signal']) : '' ]); } } } var HearingMap = form.DummyValue.extend({ renderWidget: function () { var body = E([ E('h3', _('Hearing map')), E('div', _('Refresh page to get new mac addresses to show up')) ]); for (var mac in Clients) { var maciphost = ''; maciphost = '%h'.format(mac); var macUp = mac.toUpperCase(); var macn = macUp.replace(/:/g,''); if (typeof Hosts[macUp] !== 'undefined') { if ((String(Hosts[macUp]['ipaddrs'][0]).length > 0) && (typeof Hosts[macUp]['ipaddrs'][0] !== 'undefined')) maciphost += '\u2003' + Hosts[macUp]['ipaddrs']; if ((String(Hosts[macUp]['name']).length > 0) && (typeof Hosts[macUp]['name'] !== 'undefined')) maciphost += '\u2003%h'.format(Hosts[macUp]['name']); } body.appendChild( E('h4', maciphost) ); var client_table = E('table', {'class': 'table cbi-section-table','id':'client_table'+macn}, [ E('tr', {'class': 'tr table-titles'}, [ E('th', {'class': 'th'}, _('AP','Name or IP address of access point')), E('th', {'class': 'th'}, _('Interface name','interface name in usteer overview')), E('th', {'class': 'th', 'style': 'width:25%'}, _('SSID')), E('th', {'class': 'th', 'style': 'width:15%'}, _('Frequency','BSS operating frequency in usteer overview')), E('th', {'class': 'th', 'style': 'width:15%'}, _('Connected','Connection state in usteer overview')), E('th', {'class': 'th', 'style': 'width:15%'}, _('Signal','Signal strength reported by wireless station in usteer overview')) ]) ]); var client_table_entries = []; collectHearingClient(client_table_entries, mac); cbi_update_table(client_table, client_table_entries, E('em', _('No data'))); body.appendChild(client_table); } return E('div', {'class': 'cbi-section cbi-tblsection'}, [body]); } }); function collectWlanAPInfoEntries(connectioninfo_table_entries, wlanAPInfos) { for (var wlan in wlanAPInfos) { var wlansplit=SplitWlan(wlan); connectioninfo_table_entries.push([ '' + '%h'.format(wlansplit[0]) + '', '' + '%h'.format(wlansplit[1]) + '', '%h'.format(wlanAPInfos[wlan]['bssid']), '%h'.format(wlanAPInfos[wlan]['ssid']), '%h'.format(wlanAPInfos[wlan]['freq']), '%h'.format(wlanAPInfos[wlan]['n_assoc']), '%h'.format(wlanAPInfos[wlan]['noise']), '%h'.format(wlanAPInfos[wlan]['load']), '%h'.format(wlanAPInfos[wlan]['max_assoc']), typeof wlanAPInfos[wlan]['roam_events']['source'] !== 'undefined' ? '%h'.format(wlanAPInfos[wlan]['roam_events']['source']) : '', typeof wlanAPInfos[wlan]['roam_events']['target'] !== 'undefined' ? '%h'.format(wlanAPInfos[wlan]['roam_events']['target']) : '' ]); } }; function tootltip(mac, IP, hostname) { var body= E([]); body.appendChild(E('div', '%h'.format(mac))); if (typeof IP !== 'undefined') { for (var IPaddr in IP['ipaddrs']) body.appendChild(E('div', '%h'.format(IP['ipaddrs'][IPaddr]))); for (var IPaddr in IP['ip6addrs']) body.appendChild(E('div', '%h'.format(IP['ip6addrs'][IPaddr])));; } if (hostname !== '') { body.appendChild(E('div', '%h'.format(hostname))); } return body; } function collectWlanAPInfos(compactconnectioninfo_table_entries, wlanAPInfos) { for (var wlan in wlanAPInfos) { var hostl = E([]); for (var mac in Clients) { if (typeof Clients[mac] !== 'undefined') if (typeof Clients[mac][wlan] !== 'undefined') if (String(Clients[mac][wlan]['connected']).valueOf() === 'true') { var foundname = mac; var IP = ''; var hostname = ''; var macUp = mac.toUpperCase(); if (typeof Hosts[macUp] !== 'undefined') { if ((typeof Hosts[macUp]['ipaddrs'][0] !== 'undefined') && (String(Hosts[macUp]['ipaddrs'][0]).length > 0)) { IP = Hosts[macUp]['ipaddrs'][0]; foundname = IP; } if ((typeof Hosts[macUp]['name'] !== 'undefined') && (String(Hosts[macUp]['name']).length > 0)) { hostname = Hosts[macUp]['name']; foundname = hostname; } } hostl.appendChild( E('span', { 'class': 'cbi-tooltip-container' }, [ '%h\u2003'.format(foundname), E('div', { 'class': 'cbi-tooltip' }, tootltip(mac, Hosts[macUp], hostname)) ]) ); } } var wlansplit=SplitWlan(wlan); compactconnectioninfo_table_entries.push([ '' + '%h'.format(wlansplit[0]) + '', '' + '%h'.format(wlansplit[1]) + '', '%h'.format(wlanAPInfos[wlan]['ssid']), '%h'.format(wlanAPInfos[wlan]['freq']), '%h'.format(wlanAPInfos[wlan]['load']), '%h'.format(wlanAPInfos[wlan]['n_assoc']), hostl ]); } }; var callNetworkRrdnsLookup = rpc.declare({ object: 'network.rrdns', method: 'lookup', params: [ 'addrs', 'timeout', 'limit' ], expect: { '': {} } }); function collectRemoteHosts (remotehosttableentries,Remotehosts) { const getUndefinedDnsCacheIPs = (Remotehosts, dns_cache) => Object.keys(Remotehosts).filter(IPaddr => !dns_cache.hasOwnProperty(IPaddr)); var ipAddrs = getUndefinedDnsCacheIPs(Remotehosts, dns_cache); L.resolveDefault(callNetworkRrdnsLookup(ipAddrs, 1000, 1000), {}).then(function(replies) { for (var address of ipAddrs) { if (!address) continue; if (replies[address]) { dns_cache[address] = replies[address]; continue; } else { dns_cache[address]=Hosts[ Object.keys(Hosts).find(mac => ((typeof Hosts[mac]['name'] !== 'undefined') && ((Object.keys(Hosts[mac]['ip6addrs']).find(IPaddr2 => (address === Hosts[mac]['ip6addrs'][IPaddr2]))) || (Object.keys(Hosts[mac]['ipaddrs']).find(IPaddr2 => (address === Hosts[mac]['ipaddrs'][IPaddr2]))))) ) ]['name']; } } }); for (var IPaddr in Remotehosts) { remotehosttableentries.push([IPaddr,'%h'.format(dns_cache[IPaddr]),'%h'.format(Remotehosts[IPaddr]['id'])]); } } var Clientinfooverview = form.DummyValue.extend({ renderWidget: function () { var body = E([ E('h3', _('Remote hosts')) ]); var remotehost_table = E('table', {'class': 'table cbi-section-table', 'id': 'remotehost_table'}, [ E('tr', {'class': 'tr table-titles'}, [ E('th', {'class': 'th'}, _('IP address')), E('th', {'class': 'th'}, _('Hostname')), E('th', {'class': 'th'}, _('Identifier')) ]) ]); var remotehosttableentries = []; collectRemoteHosts(remotehosttableentries,Remotehosts); cbi_update_table(remotehost_table, remotehosttableentries, E('em', _('No data'))); body.appendChild(remotehost_table); body.appendChild( E('h3', _('Client list')) ); var connectioninfo_table = E('table', {'class': 'table cbi-section-table', 'id': 'connectioninfo_table'}, [ E('tr', {'class': 'tr table-titles'}, [ E('th', {'class': 'th'}, _('AP','Name or IP address of access point')), E('th', {'class': 'th'}, _('Interface name','interface name in usteer overview')), E('th', {'class': 'th'}, _('BSSID')), E('th', {'class': 'th'}, _('SSID')), E('th', {'class': 'th'}, _('Frequency','BSS operating frequency in usteer overview')), E('th', {'class': 'th'}, _('N','Number of associated clients in usteer overview')), E('th', {'class': 'th'}, _('Noise','Channel noise in usteer overview')), E('th', {'class': 'th'}, _('Load','Channel load in usteer overview')), E('th', {'class': 'th'}, _('Max assoc','Max associated clients in usteer overview')), E('th', {'class': 'th'}, _('Roam src','Roam source in usteer overview')), E('th', {'class': 'th'}, _('Roam tgt','Roam target in usteer overview')) ]) ]); var connectioninfo_table_entries = []; collectWlanAPInfoEntries(connectioninfo_table_entries, Localinfo); collectWlanAPInfoEntries(connectioninfo_table_entries, Remoteinfo); cbi_update_table(connectioninfo_table, connectioninfo_table_entries, E('em', _('No data'))); body.appendChild(connectioninfo_table); var compactconnectioninfo_table = E('table', {'class': 'table cbi-section-table','id': 'compactconnectioninfo_table'}, [ E('tr', {'class': 'tr table-titles'}, [ E('th', {'class': 'th'}, _('AP','Name or IP address of access point')), E('th', {'class': 'th'}, _('Interface name','interface name in usteer overview')), E('th', {'class': 'th'}, _('SSID')), E('th', {'class': 'th'}, _('Frequency', 'BSS operating frequency in usteer overview')), E('th', {'class': 'th'}, _('Load', 'Channel load in usteer overview')), E('th', {'class': 'th'}, _('N', 'Number of associated clients in usteer overview')), E('th', {'class': 'th'}, _('Host', 'host hint in usteer overview')) ]) ]); var compactconnectioninfo_table_entries = []; collectWlanAPInfos(compactconnectioninfo_table_entries, Localinfo); collectWlanAPInfos(compactconnectioninfo_table_entries, Remoteinfo); cbi_update_table(compactconnectioninfo_table, compactconnectioninfo_table_entries, E('em', _('No data'))); body.appendChild(compactconnectioninfo_table); return E('div', {'class': 'cbi-section cbi-tblsection'}, [body]); } }); var Settingstitle = form.DummyValue.extend({ renderWidget: function () { var body = E([ E('h3', _('Settings')), E('div', _('The first four options below are mandatory.') + ' ' + _('Also be sure to enable rrm reports, 80211kv, etc.') + ' ' + _('See documentation').format('href="https://openwrt.org/docs/guide-user/network/wifi/usteer"') ), ]); return E('div', [body]); } }); var footerdata; var Settingsfooter = form.DummyValue.extend({ renderWidget: function () { var body = E([ E('body', footerdata), ]); return E('div', {'style': 'width:100%'}, [footerdata]); } }); return view.extend({ callHostHints: rpc.declare({ object: 'luci-rpc', method: 'getHostHints', expect: {'': {}} }), callGetRemotehosts: rpc.declare({ object: 'usteer', method: 'remote_hosts', expect: {'': {}} }), callGetRemoteinfo: rpc.declare({ object: 'usteer', method: 'remote_info', expect: {'': {}} }), callGetLocalinfo: rpc.declare({ object: 'usteer', method: 'local_info', expect: {'': {}} }), callGetClients: rpc.declare({ object: 'usteer', method: 'get_clients', expect: {'': {}} }), load: function () { return Promise.all([ rpc.list('usteer'), this.callHostHints().catch (function (){return null;}), this.callGetRemotehosts().catch (function (){return null;}), this.callGetRemoteinfo().catch (function (){return null;}), this.callGetLocalinfo().catch (function (){return null;}), this.callGetClients().catch (function (){return null;}), network.getWifiNetworks() ]); }, poll_status: function(nodes, data) { Hosts = data[1]; Remotehosts = data[2]; Remoteinfo = data[3]; Localinfo = data[4]; Clients = data[5]; var remotehosttableentries = []; collectRemoteHosts(remotehosttableentries,Remotehosts); cbi_update_table(nodes.querySelector('#remotehost_table'), remotehosttableentries, E('em', _('No data'))); var connectioninfo_table_entries = []; collectWlanAPInfoEntries(connectioninfo_table_entries, Localinfo); collectWlanAPInfoEntries(connectioninfo_table_entries, Remoteinfo); cbi_update_table(nodes.querySelector('#connectioninfo_table'), connectioninfo_table_entries, E('em', _('No data'))); var compactconnectioninfo_table_entries = []; collectWlanAPInfos(compactconnectioninfo_table_entries, Localinfo); collectWlanAPInfos(compactconnectioninfo_table_entries, Remoteinfo); cbi_update_table(nodes.querySelector('#compactconnectioninfo_table'), compactconnectioninfo_table_entries, E('em', _('No data'))); for (var mac in Clients) { var macn = mac.toUpperCase().replace(/:/g,''); var client_table_entries = []; collectHearingClient(client_table_entries, mac); cbi_update_table(nodes.querySelector('#client_table'+macn), client_table_entries, E('em', _('No data'))); } return; }, render: function (data) { var m, s, o; if (!('usteer' in data[0])) { m = new form.Map('usteer', _('Usteer'), _('Usteer is not running. Make sure it is installed and running.') +' '+ _('An incorrect parameter can cause usteer to fail to start up.') +' '+ _('To start it running try %s').format('/etc/init.d/usteer start') ); } else { m = new form.Map('usteer', _('Usteer')); } Hosts = data[1]; Remotehosts = data[2]; Remoteinfo = data[3]; Localinfo = data[4]; Clients = data[5]; WifiNetworks = data[6]; s = m.section(form.TypedSection); s.anonymous = true; s.tab('status', _('Status')); s.tab('hearingmap', _('Hearing map')); s.tab('settings', _('Settings')); if (('usteer' in data[0])) { o = s.taboption('status', Clientinfooverview); o.readonly = true; o = s.taboption('hearingmap', HearingMap); o.readonly = true; } o = s.taboption('settings', Settingstitle); o.readonly = true; o = s.taboption('settings', widgets.NetworkSelect, 'network', _('Network'), _('The network interface for inter-AP communication')); o = s.taboption('settings', form.Flag, 'syslog', _('Log messages to syslog'),_('default true')); o.default = '1'; o.rmempty = false; o = s.taboption('settings', form.Flag, 'local_mode', _('Local mode'), _('Disable network communication')+' ('+_('default false')+')'); o.rmempty = false; o = s.taboption('settings', form.Flag, 'ipv6', _('IPv6 mode'), _('Use IPv6 for remote exchange')+' ('+_('default false')+')'); o.rmempty = false; o = s.taboption('settings', form.ListValue, 'debug_level', _('Debug level')); o.value('0', _('Fatal')); o.value('1', _('Info')); o.value('2', _('Verbose')); o.value('3', _('Some debug')); o.value('4', _('Network packet info')); o.value('5', _('All debug messages')); o.rmempty = false; o.editable = true; o = s.taboption('settings', form.Value, 'max_neighbour_reports', _('Max neighbour reports'), _('Maximum number of neighbor reports set for a node')); o.optional = true; o.placeholder = 8; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'sta_block_timeout', _('Sta block timeout'), _('Maximum amount of time (ms) a station may be blocked due to policy decisions')); o.optional = true; o.placeholder = 30000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'local_sta_timeout', _('Local sta timeout'), _('Maximum amount of time (ms) a local unconnected station is tracked')); o.optional = true; o.placeholder = 120000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'measurement_report_timeout', _('Measurement report timeout'), _('Maximum amount of time (ms) a measurement report is stored')); o.optional = true; o.placeholder = 120000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'local_sta_update', _('Local sta update'), _('Local station information update interval (ms)')); o.optional = true; o.placeholder = 1000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'max_retry_band', _('Max retry band'), _('Maximum number of consecutive times a station may be blocked by policy')); o.optional = true; o.placeholder = 5; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'seen_policy_timeout', _('Seen policy timeout'), _('Maximum idle time of a station entry (ms) to be considered for policy decisions')); o.optional = true; o.placeholder = 30000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'load_balancing_threshold', _('Load balancing threshold'), _('Minimum number of stations delta between APs before load balancing policy is active')); o.optional = true; o.placeholder = 0; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'band_steering_threshold', _('Band steering threshold'), _('Minimum number of stations delta between bands before band steering policy is active')); o.optional = true; o.placeholder = 5; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'remote_update_interval', _('Remote update interval'), _('Interval (ms) between sending state updates to other APs')); o.optional = true; o.placeholder = 1000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'remote_node_timeout', _('Remote node timeout'), _('Number of remote update intervals after which a remote-node is deleted')); o.optional = true; o.placeholder = 10; o.datatype = 'uinteger'; o = s.taboption('settings', form.Flag, 'assoc_steering', _('Assoc steering'), _('Allow rejecting assoc requests for steering purposes')+' ('+_('default false')+')'); o.optional = true; o = s.taboption('settings', form.Flag, 'probe_steering', _('Probe steering'), _('Allow ignoring probe requests for steering purposes')+' ('+_('default false')+')'); o.optional = true; o = s.taboption('settings', form.Value, 'min_connect_snr', _('Min connect SNR'), _('Minimum signal-to-noise ratio or signal level (dBm) to allow connections')); o.optional = true; o.placeholder = 0; o.datatype = 'integer'; o = s.taboption('settings', form.Value, 'min_snr', _('Min SNR'), _('Minimum signal-to-noise ratio or signal level (dBm) to remain connected')); o.optional = true; o.placeholder = 0; o.datatype = 'integer'; o = s.taboption('settings', form.Value, 'min_snr_kick_delay', _('Min SNR kick delay'), _('Timeout after which a station with SNR < min_SNR will be kicked')); o.optional = true; o.placeholder = 5000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'steer_reject_timeout', _('Steer reject timeout'), _('Timeout (ms) for which a client will not be steered after rejecting a BSS-transition-request')); o.optional = true; o.placeholder = 60000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'roam_process_timeout', _('Roam process timeout'), _('Timeout (in ms) after which a association following a disassociation is not seen as a roam')); o.optional = true; o.placeholder = 5000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'roam_scan_snr', _('Roam scan SNR'), _('Minimum signal-to-noise ratio or signal level (dBm) before attempting to trigger client scans for roam')); o.optional = true; o.placeholder = 0; o.datatype = 'integer'; o = s.taboption('settings', form.Value, 'roam_scan_tries', _('Roam scan tries'), _('Maximum number of client roaming scan trigger attempts')); o.optional = true; o.placeholder = 3; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'roam_scan_timeout', _('Roam scan timeout'), _('Retry scanning when roam_scan_tries is exceeded after this timeout (in ms).') + _(' In case this option is disabled, the client is kicked instead') ); o.optional = true; o.placeholder = 0; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'roam_scan_interval', _('Roam scan interval'), _('Minimum time (ms) between client roaming scan trigger attempts')); o.optional = true; o.placeholder = 10000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'roam_trigger_snr', _('Roam trigger SNR'), _('Minimum signal-to-noise ratio or signal level (dBm) before attempting to trigger forced client roaming')); o.optional = true; o.placeholder = 0; o.datatype = 'integer'; o = s.taboption('settings', form.Value, 'roam_trigger_interval', _('Roam trigger interval'), _('Minimum time (ms) between client roaming trigger attempts')); o.optional = true; o.placeholder = 60000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'roam_kick_delay', _('Roam kick delay'), _('Timeout (ms) for client roam requests. usteer will kick the client after this times out.')); o.optional = true; o.placeholder = 10000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'signal_diff_threshold', _('Signal diff threshold'), _('Minimum signal strength difference until AP steering policy is active')); o.optional = true; o.placeholder = 0; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'initial_connect_delay', _('Initial connect delay'), _('Initial delay (ms) before responding to probe requests (to allow other APs to see packets as well)')); o.optional = true; o.placeholder = 0; o.datatype = 'uinteger'; o = s.taboption('settings', form.Flag, 'load_kick_enabled', _('Load kick enabled'), _('Enable kicking client on excessive channel load')+' ('+_('default false')+')'); o.optional = true; o = s.taboption('settings', form.Value, 'load_kick_threshold', _('Load kick threshold'), _('Minimum channel load (%) before kicking clients')); o.optional = true; o.placeholder = 75; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'load_kick_delay', _('Load kick delay'), _('Minimum amount of time (ms) that channel load is above threshold before starting to kick clients')); o.optional = true; o.placeholder = 10000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'load_kick_min_clients', _('Load kick min clients'), _('Minimum number of connected clients before kicking based on channel load')); o.optional = true; o.placeholder = 10; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'load_kick_reason_code', _('Load kick reason code'), _('Reason code on client kick based on channel load.') + ' Default: WLAN_REASON_DISASSOC_AP_BUSY)' ); o.optional = true; o.placeholder = 5; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'band_steering_interval', _('Band steering interval'), _('Attempting to steer clients to a higher frequency-band every n ms. A value of 0 disables band-steering.')); o.optional = true; o.placeholder = 120000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'band_steering_min_snr', _('Band steering min SNR'), _('Minimal SNR or absolute signal a device has to maintain over band_steering_interval to be steered to a higher frequency band.')); o.optional = true; o.placeholder = -60; o.datatype = 'integer'; o = s.taboption('settings', form.Value, 'link_measurement_interval', _('Link measurement interval'), _('Interval (ms) the device is sent a link-measurement request to help assess the bi-directional link quality.') + _('Setting the interval to 0 disables link-measurements.') ); o.optional = true; o.placeholder = 30000; o.datatype = 'uinteger'; o = s.taboption('settings', form.Value, 'node_up_script', _('Node up script'), _('Script to run after bringing up a node')); o.optional = true; o.datatype = 'string'; o = s.taboption('settings', form.MultiValue, 'event_log_types', _('Event log types'), _('Message types to include in log.')); o.value('probe_req_accept'); o.value('probe_req_deny'); o.value('auth_req_accept'); o.value('auth_req_deny'); o.value('assoc_req_accept'); o.value('assoc_req_deny'); o.value('load_kick_trigger'); o.value('load_kick_reset'); o.value('load_kick_min_clients'); o.value('load_kick_no_client'); o.value('load_kick_client'); o.value('signal_kick'); o.optional = true; o.datatype = 'list(string)'; o = s.taboption('settings', form.DynamicList, 'ssid_list', _('SSID list'), _('List of SSIDs to enable steering on')+' ('+_('empty means all')+')'); WifiNetworks.forEach(function (wifiNetwork) { if (wifiNetwork.getSSID() && (!o.keylist || o.keylist.indexOf(wifiNetwork.getSSID()) === -1)) { o.value(wifiNetwork.getSSID()) } }); o.optional = true; o.datatype = 'list(string)'; footerdata = this.super('addFooter', []); o = s.taboption('settings', Settingsfooter); o.readonly = true; return m.render().then(L.bind(function(m, nodes) { poll.add(L.bind(function() { return Promise.all([ rpc.list('usteer'), this.callHostHints().catch (function (){return null;}), this.callGetRemotehosts().catch (function (){return null;}), this.callGetRemoteinfo().catch (function (){return null;}), this.callGetLocalinfo().catch (function (){return null;}), this.callGetClients().catch (function (){return null;}) ]).then(L.bind(this.poll_status, this, nodes)); }, this), 5); return nodes; }, this, m)); }, addFooter: function () { return null; }, });