Newer
Older
'use strict';
'require view';
'require rpc';
'require poll';
'require dom';
'require ui';
'require form';
'require uci';
'require tools.widgets as widgets';
var Hosts, Remotehosts, Remoteinfo, Localinfo, Clients;
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'];
}
client_table_entries.push([
'<nobr>' + wlanc + '</nobr>',
SSID,
freq,
Clients[mac][wlanc]['connected'] === true ? 'Yes' : 'No',
typeof Clients[mac][wlanc]['signal'] !== 'undefined' ? Clients[mac][wlanc]['signal'] : ''
]);
}
}
}
var HearingMap = form.DummyValue.extend({
renderWidget: function () {
E('h3', _('Hearing map')),
E('div', _('Refresh page to get new mac addresses to show up'))
for (var mac in Clients) {
var maciphost = '';
maciphost = 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', 'style': 'width:35%'}, _('IP & Interface','Combination of IP and 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]);
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
function collectWlanAPInfoEntries(connectioninfo_table_entries, wlanAPInfos) {
for (var wlan in wlanAPInfos) {
connectioninfo_table_entries.push([
'<nobr>' + wlan + '</nobr>',
wlanAPInfos[wlan]['bssid'],
wlanAPInfos[wlan]['ssid'],
wlanAPInfos[wlan]['freq'],
wlanAPInfos[wlan]['n_assoc'],
wlanAPInfos[wlan]['noise'],
wlanAPInfos[wlan]['load'],
wlanAPInfos[wlan]['max_assoc'],
typeof wlanAPInfos[wlan]['roam_events']['source'] !== 'undefined' ? wlanAPInfos[wlan]['roam_events']['source'] : '',
typeof wlanAPInfos[wlan]['roam_events']['target'] !== 'undefined' ? wlanAPInfos[wlan]['roam_events']['target'] : ''
]);
}
};
function collectWlanAPInfos(compactconnectioninfo_table_entries, wlanAPInfos) {
for (var wlan in wlanAPInfos) {
var hostl = '';
for (var mac in Clients) {
if (typeof Clients[mac] !== 'undefined')
if (typeof Clients[mac][wlan] !== 'undefined')
if (String(Clients[mac][wlan]['connected']).valueOf() == String('true').valueOf()) {
var foundname = mac;
var macUp = mac.toUpperCase();
if (typeof Hosts[macUp] !== 'undefined') {
if ((String(Hosts[macUp]['ipaddrs'][0]).length > 0) && (typeof Hosts[macUp]['ipaddrs'][0] !== 'undefined')) {
foundname = Hosts[macUp]['ipaddrs'][0];
}
if ((String(Hosts[macUp]['name']).length > 0) && (typeof Hosts[macUp]['name'] !== 'undefined')) {
foundname = Hosts[macUp]['name'];
}
}
hostl += '%h\u2003'.format(foundname);
}
}
compactconnectioninfo_table_entries.push([
'<nobr>'+wlan+'</nobr>',
wlanAPInfos[wlan]['ssid'],
wlanAPInfos[wlan]['freq'],
wlanAPInfos[wlan]['load'],
wlanAPInfos[wlan]['n_assoc'],
hostl
]);
}
};
function collectRemoteHosts (remotehosttableentries,Remotehosts) {
for (var IPaddr in Remotehosts) {
remotehosttableentries.push([IPaddr, Remotehosts[IPaddr]['id']]);
}
}
var Clientinfooverview = form.DummyValue.extend({
renderWidget: function () {
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'}, _('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'}, _('IP & Interface name','Combination of IP and 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'}, _('IP & Interface name', 'Combination of IP and 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 () {
E('h3', _('Settings')),
E('div',
_('The first four options below are mandatory.') + ' ' +
_('Also be sure to enable rrm reports, 80211kv, etc.') + ' ' +
_('See <a %s>documentation</a>').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 () {
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;})
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
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) {
if (!('usteer' in data[0])) {
m = new form.Map('usteer', _('Usteer'),
_('Usteer is not running. Make sure it is installed and running.') +
_('To start it running try %s').format('<code>/etc/init.d/usteer start</code>')
);
return m.render();
}
m = new form.Map('usteer', _('Usteer'));
Hosts = data[1];
Remotehosts = data[2];
Remoteinfo = data[3];
Localinfo = data[4];
Clients = data[5];
s = m.section(form.TypedSection);
s.anonymous = true;
s.tab('status', _('Status'));
s.tab('hearingmap', _('Hearing map'));
s.tab('settings', _('Settings'));
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'));
o.default = '1';
o.rmempty = false;
o = s.taboption('settings', form.Flag, 'ipv6', _('IPv6 mode'), _('Use IPv6 for remote exchange'));
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.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.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.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.datatype = 'uinteger';
o = s.taboption('settings', form.Value, 'local_sta_update', _('Local sta update'), _('Local station information update interval (ms)'));
o.optional = true;
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.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.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.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.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.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.datatype = 'uinteger';
o = s.taboption('settings', form.Flag, 'assoc_steering', _('Assoc steering'), _('Allow rejecting assoc requests for steering purposes'));
o.optional = true;
o = s.taboption('settings', form.Flag, 'probe_steering', _('Probe steering'), _('Allow ignoring probe requests for steering purposes'));
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.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.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.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.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.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.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.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.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.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.datatype = 'uinteger';
o = s.taboption('settings', form.Value, 'roam_kick_delay', _('Roam kick delay'), _('Timeout (in 100ms beacon intervals) for client roam requests'));
o.optional = true;
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.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.datatype = 'uinteger';
o = s.taboption('settings', form.Flag, 'load_kick_enabled', _('Load kick enabled'), _('Enable kicking client on excessive channel load'));
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.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.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.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.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.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.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.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'));
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;