'use strict';
'require view';
'require dom';
'require poll';
'require fs';
'require ui';
'require rpc';
'require uci';
'require form';
'require network';
'require firewall';
'require tools.widgets as widgets';
var isReadonlyView = !L.hasViewPermission();
function count_changes(section_id) {
var changes = ui.changes.changes, n = 0;
if (!L.isObject(changes))
return n;
if (Array.isArray(changes.wireless))
for (var i = 0; i < changes.wireless.length; i++)
n += (changes.wireless[i][1] == section_id);
return n;
}
function render_radio_badge(radioDev) {
return E('span', { 'class': 'ifacebadge' }, [
E('img', { 'src': L.resource('icons/wifi%s.png').format(radioDev.isUp() ? '' : '_disabled') }),
' ',
radioDev.getName()
]);
}
function render_signal_badge(signalPercent, signalValue, noiseValue, wrap, mode) {
var icon, title, value;
if (signalPercent < 0)
icon = L.resource('icons/signal-none.png');
else if (signalPercent == 0)
icon = L.resource('icons/signal-0.png');
else if (signalPercent < 25)
icon = L.resource('icons/signal-0-25.png');
else if (signalPercent < 50)
icon = L.resource('icons/signal-25-50.png');
else if (signalPercent < 75)
icon = L.resource('icons/signal-50-75.png');
else
icon = L.resource('icons/signal-75-100.png');
if (signalValue != null && signalValue != 0) {
if (noiseValue != null && noiseValue != 0) {
value = '%d/%d\xa0%s'.format(signalValue, noiseValue, _('dBm'));
title = '%s: %d %s / %s: %d %s / %s %d'.format(
_('Signal'), signalValue, _('dBm'),
_('Noise'), noiseValue, _('dBm'),
_('SNR'), signalValue - noiseValue);
}
else {
value = '%d\xa0%s'.format(signalValue, _('dBm'));
title = '%s: %d %s'.format(_('Signal'), signalValue, _('dBm'));
}
}
else if (signalPercent > -1) {
switch (mode) {
case 'ap':
title = _('No client associated');
break;
case 'sta':
case 'adhoc':
case 'mesh':
title = _('Not associated');
break;
default:
title = _('No RX signal');
}
if (noiseValue != null && noiseValue != 0) {
value = '---/%d\x0a%s'.format(noiseValue, _('dBm'));
title = '%s / %s: %d %s'.format(title, _('Noise'), noiseValue, _('dBm'));
}
else {
value = '---\xa0%s'.format(_('dBm'));
}
}
else {
value = E('em', {}, E('small', {}, [ _('disabled') ]));
title = _('Interface is disabled');
}
return E('div', {
'class': wrap ? 'center' : 'ifacebadge',
'title': title,
'data-signal': signalValue,
'data-noise': noiseValue
}, [
E('img', { 'src': icon }),
E('span', {}, [
wrap ? E('br') : ' ',
value
])
]);
}
function render_network_badge(radioNet) {
return render_signal_badge(
radioNet.isUp() ? radioNet.getSignalPercent() : -1,
radioNet.getSignal(), radioNet.getNoise(), false, radioNet.getMode());
}
function render_radio_status(radioDev, wifiNets) {
var name = radioDev.getI18n().replace(/ Wireless Controller .+$/, ''),
node = E('div', [ E('big', {}, E('strong', {}, name)), E('div') ]),
channel, frequency, bitrate;
for (var i = 0; i < wifiNets.length; i++) {
channel = channel || wifiNets[i].getChannel();
frequency = frequency || wifiNets[i].getFrequency();
bitrate = bitrate || wifiNets[i].getBitRate();
}
if (radioDev.isUp())
L.itemlist(node.lastElementChild, [
_('Channel'), '%s (%s %s)'.format(channel || '?', frequency || '?', _('GHz')),
_('Bitrate'), '%s %s'.format(bitrate || '?', _('Mbit/s'))
], ' | ');
else
node.lastElementChild.appendChild(E('em', _('Device is not active')));
return node;
}
function render_network_status(radioNet) {
var mode = radioNet.getActiveMode(),
bssid = radioNet.getActiveBSSID(),
channel = radioNet.getChannel(),
disabled = (radioNet.get('disabled') == '1' || uci.get('wireless', radioNet.getWifiDeviceName(), 'disabled') == '1'),
is_assoc = (bssid && bssid != '00:00:00:00:00:00' && channel && mode != 'Unknown' && !disabled),
is_mesh = (radioNet.getMode() == 'mesh'),
changecount = count_changes(radioNet.getName()),
status_text = null;
if (changecount)
status_text = E('a', {
href: '#',
click: L.bind(ui.changes.displayChanges, ui.changes)
}, _('Interface has %d pending changes').format(changecount));
else if (!is_assoc)
status_text = E('em', disabled ? _('Wireless is disabled') : _('Wireless is not associated'));
return L.itemlist(E('div'), [
is_mesh ? _('Mesh ID') : _('SSID'), (is_mesh ? radioNet.getMeshID() : radioNet.getSSID()) || '?',
_('Mode'), mode,
_('BSSID'), (!changecount && is_assoc) ? bssid : null,
_('Encryption'), (!changecount && is_assoc) ? radioNet.getActiveEncryption() || _('None') : null,
null, status_text
], [ ' | ', E('br') ]);
}
function render_modal_status(node, radioNet) {
var mode = radioNet.getActiveMode(),
noise = radioNet.getNoise(),
bssid = radioNet.getActiveBSSID(),
channel = radioNet.getChannel(),
disabled = (radioNet.get('disabled') == '1'),
is_assoc = (bssid && bssid != '00:00:00:00:00:00' && channel && mode != 'Unknown' && !disabled);
if (node == null)
node = E('span', { 'class': 'ifacebadge large', 'data-network': radioNet.getName() }, [ E('small'), E('span') ]);
dom.content(node.firstElementChild, render_signal_badge(
disabled ? -1 : radioNet.getSignalPercent(),
radioNet.getSignal(), noise, true, radioNet.getMode()));
L.itemlist(node.lastElementChild, [
_('Mode'), mode,
_('SSID'), radioNet.getSSID() || '?',
_('BSSID'), is_assoc ? bssid : null,
_('Encryption'), is_assoc ? radioNet.getActiveEncryption() || _('None') : null,
_('Channel'), is_assoc ? '%d (%.3f %s)'.format(radioNet.getChannel(), radioNet.getFrequency() || 0, _('GHz')) : null,
_('Tx-Power'), is_assoc ? '%d %s'.format(radioNet.getTXPower(), _('dBm')) : null,
_('Signal'), is_assoc ? '%d %s'.format(radioNet.getSignal(), _('dBm')) : null,
_('Noise'), (is_assoc && noise != null) ? '%d %s'.format(noise, _('dBm')) : null,
_('Bitrate'), is_assoc ? '%.1f %s'.format(radioNet.getBitRate() || 0, _('Mbit/s')) : null,
_('Country'), is_assoc ? radioNet.getCountryCode() : null
], [ ' | ', E('br'), E('br'), E('br'), E('br'), E('br'), ' | ', E('br'), ' | ' ]);
if (!is_assoc)
dom.append(node.lastElementChild, E('em', disabled ? _('Wireless is disabled') : _('Wireless is not associated')));
return node;
}
function format_wifirate(rate) {
var s = '%.1f\xa0%s, %d\xa0%s'.format(rate.rate / 1000, _('Mbit/s'), rate.mhz, _('MHz')),
ht = rate.ht, vht = rate.vht,
mhz = rate.mhz, nss = rate.nss,
mcs = rate.mcs, sgi = rate.short_gi;
if (ht || vht) {
if (vht) s += ', VHT-MCS\xa0%d'.format(mcs);
if (nss) s += ', VHT-NSS\xa0%d'.format(nss);
if (ht) s += ', MCS\xa0%s'.format(mcs);
if (sgi) s += ', ' + _('Short GI').replace(/ /g, '\xa0');
}
return s;
}
function radio_restart(id, ev) {
var row = document.querySelector('.cbi-section-table-row[data-sid="%s"]'.format(id)),
dsc = row.querySelector('[data-name="_stat"] > div'),
btn = row.querySelector('.cbi-section-actions button');
btn.blur();
btn.classList.add('spinning');
btn.disabled = true;
dsc.setAttribute('restart', '');
dom.content(dsc, E('em', _('Device is restarting…')));
}
function network_updown(id, map, ev) {
var radio = uci.get('wireless', id, 'device'),
disabled = (uci.get('wireless', id, 'disabled') == '1') ||
(uci.get('wireless', radio, 'disabled') == '1');
if (disabled) {
uci.unset('wireless', id, 'disabled');
uci.unset('wireless', radio, 'disabled');
}
else {
uci.set('wireless', id, 'disabled', '1');
var all_networks_disabled = true,
wifi_ifaces = uci.sections('wireless', 'wifi-iface');
for (var i = 0; i < wifi_ifaces.length; i++) {
if (wifi_ifaces[i].device == radio && wifi_ifaces[i].disabled != '1') {
all_networks_disabled = false;
break;
}
}
if (all_networks_disabled)
uci.set('wireless', radio, 'disabled', '1');
}
return map.save().then(function() {
ui.changes.apply()
});
}
function next_free_sid(offset) {
var sid = 'wifinet' + offset;
while (uci.get('wireless', sid))
sid = 'wifinet' + (++offset);
return sid;
}
function add_dependency_permutations(o, deps) {
var res = null;
for (var key in deps) {
if (!deps.hasOwnProperty(key) || !Array.isArray(deps[key]))
continue;
var list = deps[key],
tmp = [];
for (var j = 0; j < list.length; j++) {
for (var k = 0; k < (res ? res.length : 1); k++) {
var item = (res ? Object.assign({}, res[k]) : {});
item[key] = list[j];
tmp.push(item);
}
}
res = tmp;
}
for (var i = 0; i < (res ? res.length : 0); i++)
o.depends(res[i]);
}
var CBIWifiFrequencyValue = form.Value.extend({
callFrequencyList: rpc.declare({
object: 'iwinfo',
method: 'freqlist',
params: [ 'device' ],
expect: { results: [] }
}),
load: function(section_id) {
return Promise.all([
network.getWifiDevice(section_id),
this.callFrequencyList(section_id)
]).then(L.bind(function(data) {
this.channels = {
'11g': L.hasSystemFeature('hostapd', 'acs') ? [ 'auto', 'auto', true ] : [],
'11a': L.hasSystemFeature('hostapd', 'acs') ? [ 'auto', 'auto', true ] : []
};
for (var i = 0; i < data[1].length; i++)
this.channels[(data[1][i].mhz > 2484) ? '11a' : '11g'].push(
data[1][i].channel,
'%d (%d Mhz)'.format(data[1][i].channel, data[1][i].mhz),
!data[1][i].restricted
);
var hwmodelist = L.toArray(data[0] ? data[0].getHWModes() : null)
.reduce(function(o, v) { o[v] = true; return o }, {});
this.modes = [
'', 'Legacy', true,
'n', 'N', hwmodelist.n,
'ac', 'AC', hwmodelist.ac
];
var htmodelist = L.toArray(data[0] ? data[0].getHTModes() : null)
.reduce(function(o, v) { o[v] = true; return o }, {});
this.htmodes = {
'': [ '', '-', true ],
'n': [
'HT20', '20 MHz', htmodelist.HT20,
'HT40', '40 MHz', htmodelist.HT40
],
'ac': [
'VHT20', '20 MHz', htmodelist.VHT20,
'VHT40', '40 MHz', htmodelist.VHT40,
'VHT80', '80 MHz', htmodelist.VHT80,
'VHT160', '160 MHz', htmodelist.VHT160
]
};
this.bands = {
'': [
'11g', '2.4 GHz', this.channels['11g'].length > 3,
'11a', '5 GHz', this.channels['11a'].length > 3
],
'n': [
'11g', '2.4 GHz', this.channels['11g'].length > 3,
'11a', '5 GHz', this.channels['11a'].length > 3
],
'ac': [
'11a', '5 GHz', true
]
};
}, this));
},
setValues: function(sel, vals) {
if (sel.vals)
sel.vals.selected = sel.selectedIndex;
while (sel.options[0])
sel.remove(0);
for (var i = 0; vals && i < vals.length; i += 3)
if (vals[i+2])
sel.add(E('option', { value: vals[i+0] }, [ vals[i+1] ]));
if (vals && !isNaN(vals.selected))
sel.selectedIndex = vals.selected;
sel.parentNode.style.display = (sel.options.length <= 1) ? 'none' : '';
sel.vals = vals;
},
toggleWifiMode: function(elem) {
this.toggleWifiHTMode(elem);
this.toggleWifiBand(elem);
},
toggleWifiHTMode: function(elem) {
var mode = elem.querySelector('.mode');
var bwdt = elem.querySelector('.htmode');
this.setValues(bwdt, this.htmodes[mode.value]);
},
toggleWifiBand: function(elem) {
var mode = elem.querySelector('.mode');
var band = elem.querySelector('.band');
this.setValues(band, this.bands[mode.value]);
this.toggleWifiChannel(elem);
},
toggleWifiChannel: function(elem) {
var band = elem.querySelector('.band');
var chan = elem.querySelector('.channel');
this.setValues(chan, this.channels[band.value]);
},
setInitialValues: function(section_id, elem) {
var mode = elem.querySelector('.mode'),
band = elem.querySelector('.band'),
chan = elem.querySelector('.channel'),
bwdt = elem.querySelector('.htmode'),
htval = uci.get('wireless', section_id, 'htmode'),
hwval = uci.get('wireless', section_id, 'hwmode'),
chval = uci.get('wireless', section_id, 'channel');
this.setValues(mode, this.modes);
if (/VHT20|VHT40|VHT80|VHT160/.test(htval))
mode.value = 'ac';
else if (/HT20|HT40/.test(htval))
mode.value = 'n';
else
mode.value = '';
this.toggleWifiMode(elem);
if (/a/.test(hwval))
band.value = '11a';
else
band.value = '11g';
this.toggleWifiBand(elem);
bwdt.value = htval;
chan.value = chval;
return elem;
},
renderWidget: function(section_id, option_index, cfgvalue) {
var elem = E('div');
dom.content(elem, [
E('label', { 'style': 'float:left; margin-right:3px' }, [
_('Mode'), E('br'),
E('select', {
'class': 'mode',
'style': 'width:auto',
'change': L.bind(this.toggleWifiMode, this, elem),
'disabled': (this.disabled != null) ? this.disabled : this.map.readonly
})
]),
E('label', { 'style': 'float:left; margin-right:3px' }, [
_('Band'), E('br'),
E('select', {
'class': 'band',
'style': 'width:auto',
'change': L.bind(this.toggleWifiBand, this, elem),
'disabled': (this.disabled != null) ? this.disabled : this.map.readonly
})
]),
E('label', { 'style': 'float:left; margin-right:3px' }, [
_('Channel'), E('br'),
E('select', {
'class': 'channel',
'style': 'width:auto',
'disabled': (this.disabled != null) ? this.disabled : this.map.readonly
})
]),
E('label', { 'style': 'float:left; margin-right:3px' }, [
_('Width'), E('br'),
E('select', {
'class': 'htmode',
'style': 'width:auto',
'disabled': (this.disabled != null) ? this.disabled : this.map.readonly
})
]),
E('br', { 'style': 'clear:left' })
]);
return this.setInitialValues(section_id, elem);
},
cfgvalue: function(section_id) {
return [
uci.get('wireless', section_id, 'htmode'),
uci.get('wireless', section_id, 'hwmode'),
uci.get('wireless', section_id, 'channel')
];
},
formvalue: function(section_id) {
var node = this.map.findElement('data-field', this.cbid(section_id));
return [
node.querySelector('.htmode').value,
node.querySelector('.band').value,
node.querySelector('.channel').value
];
},
write: function(section_id, value) {
uci.set('wireless', section_id, 'htmode', value[0] || null);
uci.set('wireless', section_id, 'hwmode', value[1]);
uci.set('wireless', section_id, 'channel', value[2]);
}
});
var CBIWifiTxPowerValue = form.ListValue.extend({
callTxPowerList: rpc.declare({
object: 'iwinfo',
method: 'txpowerlist',
params: [ 'device' ],
expect: { results: [] }
}),
load: function(section_id) {
return this.callTxPowerList(section_id).then(L.bind(function(pwrlist) {
this.powerval = this.wifiNetwork ? this.wifiNetwork.getTXPower() : null;
this.poweroff = this.wifiNetwork ? this.wifiNetwork.getTXPowerOffset() : null;
this.value('', _('driver default'));
for (var i = 0; i < pwrlist.length; i++)
this.value(pwrlist[i].dbm, '%d dBm (%d mW)'.format(pwrlist[i].dbm, pwrlist[i].mw));
return form.ListValue.prototype.load.apply(this, [section_id]);
}, this));
},
renderWidget: function(section_id, option_index, cfgvalue) {
var widget = form.ListValue.prototype.renderWidget.apply(this, [section_id, option_index, cfgvalue]);
widget.firstElementChild.style.width = 'auto';
dom.append(widget, E('span', [
' - ', _('Current power'), ': ',
E('span', [ this.powerval != null ? '%d dBm'.format(this.powerval) : E('em', _('unknown')) ]),
this.poweroff ? ' + %d dB offset = %s dBm'.format(this.poweroff, this.powerval != null ? this.powerval + this.poweroff : '?') : ''
]));
return widget;
}
});
var CBIWifiCountryValue = form.Value.extend({
callCountryList: rpc.declare({
object: 'iwinfo',
method: 'countrylist',
params: [ 'device' ],
expect: { results: [] }
}),
load: function(section_id) {
return this.callCountryList(section_id).then(L.bind(function(countrylist) {
if (Array.isArray(countrylist) && countrylist.length > 0) {
this.value('', _('driver default'));
for (var i = 0; i < countrylist.length; i++)
this.value(countrylist[i].iso3166, '%s - %s'.format(countrylist[i].iso3166, countrylist[i].country));
}
return form.Value.prototype.load.apply(this, [section_id]);
}, this));
},
validate: function(section_id, formvalue) {
if (formvalue != null && formvalue != '' && !/^[A-Z0-9][A-Z0-9]$/.test(formvalue))
return _('Use ISO/IEC 3166 alpha2 country codes.');
return true;
},
renderWidget: function(section_id, option_index, cfgvalue) {
var typeClass = (this.keylist && this.keylist.length) ? form.ListValue : form.Value;
return typeClass.prototype.renderWidget.apply(this, [section_id, option_index, cfgvalue]);
}
});
return view.extend({
poll_status: function(map, data) {
var rows = map.querySelectorAll('.cbi-section-table-row[data-sid]');
for (var i = 0; i < rows.length; i++) {
var section_id = rows[i].getAttribute('data-sid'),
radioDev = data[1].filter(function(d) { return d.getName() == section_id })[0],
radioNet = data[2].filter(function(n) { return n.getName() == section_id })[0],
badge = rows[i].querySelector('[data-name="_badge"] > div'),
stat = rows[i].querySelector('[data-name="_stat"]'),
btns = rows[i].querySelectorAll('.cbi-section-actions button'),
busy = btns[0].classList.contains('spinning') || btns[1].classList.contains('spinning') || btns[2].classList.contains('spinning');
if (radioDev) {
dom.content(badge, render_radio_badge(radioDev));
dom.content(stat, render_radio_status(radioDev, data[2].filter(function(n) { return n.getWifiDeviceName() == radioDev.getName() })));
}
else {
dom.content(badge, render_network_badge(radioNet));
dom.content(stat, render_network_status(radioNet));
}
if (stat.hasAttribute('restart'))
dom.content(stat, E('em', _('Device is restarting…')));
btns[0].disabled = isReadonlyView || busy;
btns[1].disabled = (isReadonlyView && radioDev) || busy;
btns[2].disabled = isReadonlyView || busy;
}
var table = document.querySelector('#wifi_assoclist_table'),
hosts = data[0],
trows = [];
for (var i = 0; i < data[3].length; i++) {
var bss = data[3][i],
name = hosts.getHostnameByMACAddr(bss.mac),
ipv4 = hosts.getIPAddrByMACAddr(bss.mac),
ipv6 = hosts.getIP6AddrByMACAddr(bss.mac);
var hint;
if (name && ipv4 && ipv6)
hint = '%s (%s, %s)'.format(name, ipv4, ipv6);
else if (name && (ipv4 || ipv6))
hint = '%s (%s)'.format(name, ipv4 || ipv6);
else
hint = name || ipv4 || ipv6 || '?';
var row = [
E('span', {
'class': 'ifacebadge',
'data-ifname': bss.network.getIfname(),
'data-ssid': bss.network.getSSID()
}, [
E('img', {
'src': L.resource('icons/wifi%s.png').format(bss.network.isUp() ? '' : '_disabled'),
'title': bss.radio.getI18n()
}),
E('span', [
' %s '.format(bss.network.getShortName()),
E('small', '(%s)'.format(bss.network.getIfname()))
])
]),
bss.mac,
hint,
render_signal_badge(Math.min((bss.signal + 110) / 70 * 100, 100), bss.signal, bss.noise),
E('span', {}, [
E('span', format_wifirate(bss.rx)),
E('br'),
E('span', format_wifirate(bss.tx))
])
];
if (bss.network.isClientDisconnectSupported()) {
if (table.firstElementChild.childNodes.length < 6)
table.firstElementChild.appendChild(E('div', { 'class': 'th cbi-section-actions'}));
row.push(E('button', {
'class': 'cbi-button cbi-button-remove',
'click': L.bind(function(net, mac, ev) {
dom.parent(ev.currentTarget, '.tr').style.opacity = 0.5;
ev.currentTarget.classList.add('spinning');
ev.currentTarget.disabled = true;
ev.currentTarget.blur();
net.disconnectClient(mac, true, 5, 60000);
}, this, bss.network, bss.mac),
'disabled': isReadonlyView || null
}, [ _('Disconnect') ]));
}
else {
row.push('-');
}
trows.push(row);
}
cbi_update_table(table, trows, E('em', _('No information available')));
var stat = document.querySelector('.cbi-modal [data-name="_wifistat_modal"] .ifacebadge.large');
if (stat)
render_modal_status(stat, data[2].filter(function(n) { return n.getName() == stat.getAttribute('data-network') })[0]);
return network.flushCache();
},
load: function() {
return Promise.all([
uci.changes(),
uci.load('wireless')
]);
},
checkAnonymousSections: function() {
var wifiIfaces = uci.sections('wireless', 'wifi-iface');
for (var i = 0; i < wifiIfaces.length; i++)
if (wifiIfaces[i]['.anonymous'])
return true;
return false;
},
callUciRename: rpc.declare({
object: 'uci',
method: 'rename',
params: [ 'config', 'section', 'name' ]
}),
render: function() {
if (this.checkAnonymousSections())
return this.renderMigration();
else
return this.renderOverview();
},
handleMigration: function(ev) {
var wifiIfaces = uci.sections('wireless', 'wifi-iface'),
id_offset = 0,
tasks = [];
for (var i = 0; i < wifiIfaces.length; i++) {
if (!wifiIfaces[i]['.anonymous'])
continue;
var new_name = next_free_sid(id_offset);
tasks.push(this.callUciRename('wireless', wifiIfaces[i]['.name'], new_name));
id_offset = +new_name.substring(7) + 1;
}
return Promise.all(tasks)
.then(L.bind(ui.changes.init, ui.changes))
.then(L.bind(ui.changes.apply, ui.changes));
},
renderMigration: function() {
ui.showModal(_('Wireless configuration migration'), [
E('p', _('The existing wireless configuration needs to be changed for LuCI to function properly.')),
E('p', _('Upon pressing "Continue", anonymous "wifi-iface" sections will be assigned with a name in the form wifinet# and the network will be restarted to apply the updated configuration.')),
E('div', { 'class': 'right' },
E('button', {
'class': 'btn cbi-button-action important',
'click': ui.createHandlerFn(this, 'handleMigration')
}, _('Continue')))
]);
},
renderOverview: function() {
var m, s, o;
m = new form.Map('wireless');
m.chain('network');
m.chain('firewall');
s = m.section(form.GridSection, 'wifi-device', _('Wireless Overview'));
s.anonymous = true;
s.addremove = false;
s.load = function() {
return network.getWifiDevices().then(L.bind(function(radios) {
this.radios = radios.sort(function(a, b) {
return a.getName() > b.getName();
});
var tasks = [];
for (var i = 0; i < radios.length; i++)
tasks.push(radios[i].getWifiNetworks());
return Promise.all(tasks);
}, this)).then(L.bind(function(data) {
this.wifis = [];
for (var i = 0; i < data.length; i++)
this.wifis.push.apply(this.wifis, data[i]);
}, this));
};
s.cfgsections = function() {
var rv = [];
for (var i = 0; i < this.radios.length; i++) {
rv.push(this.radios[i].getName());
for (var j = 0; j < this.wifis.length; j++)
if (this.wifis[j].getWifiDeviceName() == this.radios[i].getName())
rv.push(this.wifis[j].getName());
}
return rv;
};
s.modaltitle = function(section_id) {
var radioNet = this.wifis.filter(function(w) { return w.getName() == section_id})[0];
return radioNet ? radioNet.getI18n() : _('Edit wireless network');
};
s.lookupRadioOrNetwork = function(section_id) {
var radioDev = this.radios.filter(function(r) { return r.getName() == section_id })[0];
if (radioDev)
return radioDev;
var radioNet = this.wifis.filter(function(w) { return w.getName() == section_id })[0];
if (radioNet)
return radioNet;
return null;
};
s.renderRowActions = function(section_id) {
var inst = this.lookupRadioOrNetwork(section_id), btns;
if (inst.getWifiNetworks) {
btns = [
E('button', {
'class': 'cbi-button cbi-button-neutral',
'title': _('Restart radio interface'),
'click': ui.createHandlerFn(this, radio_restart, section_id)
}, _('Restart')),
E('button', {
'class': 'cbi-button cbi-button-action important',
'title': _('Find and join network'),
'click': ui.createHandlerFn(this, 'handleScan', inst)
}, _('Scan')),
E('button', {
'class': 'cbi-button cbi-button-add',
'title': _('Provide new network'),
'click': ui.createHandlerFn(this, 'handleAdd', inst)
}, _('Add'))
];
}
else {
var isDisabled = (inst.get('disabled') == '1' ||
uci.get('wireless', inst.getWifiDeviceName(), 'disabled') == '1');
btns = [
E('button', {
'class': 'cbi-button cbi-button-neutral enable-disable',
'title': isDisabled ? _('Enable this network') : _('Disable this network'),
'click': ui.createHandlerFn(this, network_updown, section_id, this.map)
}, isDisabled ? _('Enable') : _('Disable')),
E('button', {
'class': 'cbi-button cbi-button-action important',
'title': _('Edit this network'),
'click': ui.createHandlerFn(this, 'renderMoreOptionsModal', section_id)
}, _('Edit')),
E('button', {
'class': 'cbi-button cbi-button-negative remove',
'title': _('Delete this network'),
'click': ui.createHandlerFn(this, 'handleRemove', section_id)
}, _('Remove'))
];
}
return E('div', { 'class': 'td middle cbi-section-actions' }, E('div', btns));
};
s.addModalOptions = function(s) {
return network.getWifiNetwork(s.section).then(function(radioNet) {
var hwtype = uci.get('wireless', radioNet.getWifiDeviceName(), 'type');
var o, ss;
o = s.option(form.SectionValue, '_device', form.NamedSection, radioNet.getWifiDeviceName(), 'wifi-device', _('Device Configuration'));
o.modalonly = true;
ss = o.subsection;
ss.tab('general', _('General Setup'));
ss.tab('advanced', _('Advanced Settings'));
var isDisabled = (radioNet.get('disabled') == '1' ||
uci.get('wireless', radioNet.getWifiDeviceName(), 'disabled') == 1);
o = ss.taboption('general', form.DummyValue, '_wifistat_modal', _('Status'));
o.cfgvalue = L.bind(function(radioNet) {
return render_modal_status(null, radioNet);
}, this, radioNet);
o.write = function() {};
o = ss.taboption('general', form.Button, '_toggle', isDisabled ? _('Wireless network is disabled') : _('Wireless network is enabled'));
o.inputstyle = isDisabled ? 'apply' : 'reset';
o.inputtitle = isDisabled ? _('Enable') : _('Disable');
o.onclick = ui.createHandlerFn(s, network_updown, s.section, s.map);
o = ss.taboption('general', CBIWifiFrequencyValue, '_freq', '
' + _('Operating frequency'));
o.ucisection = s.section;
if (hwtype == 'mac80211') {
o = ss.taboption('general', CBIWifiTxPowerValue, 'txpower', _('Maximum transmit power'), _('Specifies the maximum transmit power the wireless radio may use. Depending on regulatory requirements and wireless usage, the actual transmit power may be reduced by the driver.'));
o.wifiNetwork = radioNet;
o = ss.taboption('advanced', CBIWifiCountryValue, 'country', _('Country Code'));
o.wifiNetwork = radioNet;
o = ss.taboption('advanced', form.Flag, 'legacy_rates', _('Allow legacy 802.11b rates'));
o.default = o.enabled;
o = ss.taboption('advanced', form.Value, 'distance', _('Distance Optimization'), _('Distance to farthest network member in meters.'));
o.datatype = 'or(range(0,114750),"auto")';
o.placeholder = 'auto';
o = ss.taboption('advanced', form.Value, 'frag', _('Fragmentation Threshold'));
o.datatype = 'min(256)';
o.placeholder = _('off');
o = ss.taboption('advanced', form.Value, 'rts', _('RTS/CTS Threshold'));
o.datatype = 'uinteger';
o.placeholder = _('off');
o = ss.taboption('advanced', form.Flag, 'noscan', _('Force 40MHz mode'), _('Always use 40MHz channels even if the secondary channel overlaps. Using this option does not comply with IEEE 802.11n-2009!'));
o.rmempty = true;
o = ss.taboption('advanced', form.Value, 'beacon_int', _('Beacon Interval'));
o.datatype = 'range(15,65535)';
o.placeholder = 100;
o.rmempty = true;
}
o = s.option(form.SectionValue, '_device', form.NamedSection, radioNet.getName(), 'wifi-iface', _('Interface Configuration'));
o.modalonly = true;
ss = o.subsection;
ss.tab('general', _('General Setup'));
ss.tab('encryption', _('Wireless Security'));
ss.tab('macfilter', _('MAC-Filter'));
ss.tab('advanced', _('Advanced Settings'));
o = ss.taboption('general', form.ListValue, 'mode', _('Mode'));
o.value('ap', _('Access Point'));
o.value('sta', _('Client'));
o.value('adhoc', _('Ad-Hoc'));
o = ss.taboption('general', form.Value, 'mesh_id', _('Mesh Id'));
o.depends('mode', 'mesh');
o = ss.taboption('advanced', form.Flag, 'mesh_fwding', _('Forward mesh peer traffic'));
o.rmempty = false;
o.default = '1';
o.depends('mode', 'mesh');
o = ss.taboption('advanced', form.Value, 'mesh_rssi_threshold', _('RSSI threshold for joining'), _('0 = not using RSSI threshold, 1 = do not change driver default'));
o.rmempty = false;
o.default = '0';
o.datatype = 'range(-255,1)';
o.depends('mode', 'mesh');
o = ss.taboption('general', form.Value, 'ssid', _('ESSID'));
o.datatype = 'maxlength(32)';
o.depends('mode', 'ap');
o.depends('mode', 'sta');
o.depends('mode', 'adhoc');
o.depends('mode', 'ahdemo');
o.depends('mode', 'monitor');
o.depends('mode', 'ap-wds');
o.depends('mode', 'sta-wds');
o.depends('mode', 'wds');
o = ss.taboption('general', form.Value, 'bssid', _('BSSID'));
o.datatype = 'macaddr';
o = ss.taboption('general', widgets.NetworkSelect, 'network', _('Network'), _('Choose the network(s) you want to attach to this wireless interface or fill out the custom field to define a new network.'));
o.rmempty = true;
o.multiple = true;
o.novirtual = true;
o.write = function(section_id, value) {
return network.getDevice(section_id).then(L.bind(function(dev) {
var old_networks = dev.getNetworks().reduce(function(o, v) { o[v.getName()] = v; return o }, {}),
new_networks = {},
values = L.toArray(value),
tasks = [];
for (var i = 0; i < values.length; i++) {
new_networks[values[i]] = true;
if (old_networks[values[i]])
continue;
tasks.push(network.getNetwork(values[i]).then(L.bind(function(name, net) {
return net || network.addNetwork(name, { proto: 'none' });
}, this, values[i])).then(L.bind(function(dev, net) {
if (net) {
if (!net.isEmpty())
net.set('type', 'bridge');
net.addDevice(dev);
}
}, this, dev)));
}
for (var name in old_networks)
if (!new_networks[name])
tasks.push(network.getNetwork(name).then(L.bind(function(dev, net) {
if (net)
net.deleteDevice(dev);
}, this, dev)));
return Promise.all(tasks);
}, this));
};
if (hwtype == 'mac80211') {
var mode = ss.children[0],
bssid = ss.children[5],
encr;
mode.value('mesh', '802.11s');
mode.value('ahdemo', _('Pseudo Ad-Hoc (ahdemo)'));
mode.value('monitor', _('Monitor'));
bssid.depends('mode', 'adhoc');
bssid.depends('mode', 'sta');
bssid.depends('mode', 'sta-wds');
o = ss.taboption('macfilter', form.ListValue, 'macfilter', _('MAC-Address Filter'));
o.depends('mode', 'ap');
o.depends('mode', 'ap-wds');
o.value('', _('disable'));
o.value('allow', _('Allow listed only'));
o.value('deny', _('Allow all except listed'));
o = ss.taboption('macfilter', form.DynamicList, 'maclist', _('MAC-List'));
o.datatype = 'macaddr';
o.depends('macfilter', 'allow');
o.depends('macfilter', 'deny');
o.load = function(section_id) {
return network.getHostHints().then(L.bind(function(hints) {
hints.getMACHints().map(L.bind(function(hint) {
this.value(hint[0], hint[1] ? '%s (%s)'.format(hint[0], hint[1]) : hint[0]);
}, this));
return form.DynamicList.prototype.load.apply(this, [section_id]);
}, this));
};
mode.value('ap-wds', '%s (%s)'.format(_('Access Point'), _('WDS')));
mode.value('sta-wds', '%s (%s)'.format(_('Client'), _('WDS')));
mode.write = function(section_id, value) {
switch (value) {
case 'ap-wds':
uci.set('wireless', section_id, 'mode', 'ap');
uci.set('wireless', section_id, 'wds', '1');
break;
case 'sta-wds':
uci.set('wireless', section_id, 'mode', 'sta');
uci.set('wireless', section_id, 'wds', '1');
break;
default:
uci.set('wireless', section_id, 'mode', value);
uci.unset('wireless', section_id, 'wds');
break;
}
};
mode.cfgvalue = function(section_id) {
var mode = uci.get('wireless', section_id, 'mode'),
wds = uci.get('wireless', section_id, 'wds');
if (mode == 'ap' && wds)
return 'ap-wds';
else if (mode == 'sta' && wds)
return 'sta-wds';
return mode;
};
o = ss.taboption('general', form.Flag, 'hidden', _('Hide ESSID'));
o.depends('mode', 'ap');
o.depends('mode', 'ap-wds');
o = ss.taboption('general', form.Flag, 'wmm', _('WMM Mode'));
o.depends('mode', 'ap');
o.depends('mode', 'ap-wds');
o.default = o.enabled;
o = ss.taboption('advanced', form.Flag, 'isolate', _('Isolate Clients'), _('Prevents client-to-client communication'));
o.depends('mode', 'ap');
o.depends('mode', 'ap-wds');
o = ss.taboption('advanced', form.Value, 'ifname', _('Interface name'), _('Override default interface name'));
o.optional = true;
o.placeholder = radioNet.getIfname();
if (/^radio\d+\.network/.test(o.placeholder))
o.placeholder = '';
o = ss.taboption('advanced', form.Flag, 'short_preamble', _('Short Preamble'));
o.default = o.enabled;
o = ss.taboption('advanced', form.Value, 'dtim_period', _('DTIM Interval'), _('Delivery Traffic Indication Message Interval'));
o.optional = true;
o.placeholder = 2;
o.datatype = 'range(1,255)';
o = ss.taboption('advanced', form.Value, 'wpa_group_rekey', _('Time interval for rekeying GTK'), _('sec'));
o.optional = true;
o.placeholder = 600;
o.datatype = 'uinteger';
o = ss.taboption('advanced', form.Flag , 'skip_inactivity_poll', _('Disable Inactivity Polling'));
o.optional = true;
o.datatype = 'uinteger';
o = ss.taboption('advanced', form.Value, 'max_inactivity', _('Station inactivity limit'), _('sec'));
o.optional = true;
o.placeholder = 300;
o.datatype = 'uinteger';
o = ss.taboption('advanced', form.Value, 'max_listen_interval', _('Maximum allowed Listen Interval'));
o.optional = true;
o.placeholder = 65535;
o.datatype = 'uinteger';
o = ss.taboption('advanced', form.Flag, 'disassoc_low_ack', _('Disassociate On Low Acknowledgement'), _('Allow AP mode to disconnect STAs based on low ACK condition'));
o.default = o.enabled;
}
encr = o = ss.taboption('encryption', form.ListValue, 'encryption', _('Encryption'));
o.depends('mode', 'ap');
o.depends('mode', 'sta');
o.depends('mode', 'adhoc');
o.depends('mode', 'ahdemo');
o.depends('mode', 'ap-wds');
o.depends('mode', 'sta-wds');
o.depends('mode', 'mesh');
o.cfgvalue = function(section_id) {
var v = String(uci.get('wireless', section_id, 'encryption'));
if (v == 'wep')
return 'wep-open';
else if (v.match(/\+/))
return v.replace(/\+.+$/, '');
return v;
};
o.write = function(section_id, value) {
var e = this.section.children.filter(function(o) { return o.option == 'encryption' })[0].formvalue(section_id),
co = this.section.children.filter(function(o) { return o.option == 'cipher' })[0], c = co.formvalue(section_id);
if (value == 'wpa' || value == 'wpa2' || value == 'wpa3' || value == 'wpa3-mixed')
uci.unset('wireless', section_id, 'key');
if (co.isActive(section_id) && e && (c == 'tkip' || c == 'ccmp' || c == 'tkip+ccmp'))
e += '+' + c;
uci.set('wireless', section_id, 'encryption', e);
};
o = ss.taboption('encryption', form.ListValue, 'cipher', _('Cipher'));
o.depends('encryption', 'wpa');
o.depends('encryption', 'wpa2');
o.depends('encryption', 'wpa3');
o.depends('encryption', 'wpa3-mixed');
o.depends('encryption', 'psk');
o.depends('encryption', 'psk2');
o.depends('encryption', 'wpa-mixed');
o.depends('encryption', 'psk-mixed');
o.value('auto', _('auto'));
o.value('ccmp', _('Force CCMP (AES)'));
o.value('tkip', _('Force TKIP'));
o.value('tkip+ccmp', _('Force TKIP and CCMP (AES)'));
o.write = ss.children.filter(function(o) { return o.option == 'encryption' })[0].write;
o.cfgvalue = function(section_id) {
var v = String(uci.get('wireless', section_id, 'encryption'));
if (v.match(/\+/)) {
v = v.replace(/^[^+]+\+/, '');
if (v == 'aes')
v = 'ccmp';
else if (v == 'tkip+aes' || v == 'aes+tkip' || v == 'ccmp+tkip')
v = 'tkip+ccmp';
}
return v;
};
var crypto_modes = [];
if (hwtype == 'mac80211') {
var has_supplicant = L.hasSystemFeature('wpasupplicant'),
has_hostapd = L.hasSystemFeature('hostapd');
// Probe EAP support
var has_ap_eap = L.hasSystemFeature('hostapd', 'eap'),
has_sta_eap = L.hasSystemFeature('wpasupplicant', 'eap');
// Probe SAE support
var has_ap_sae = L.hasSystemFeature('hostapd', 'sae'),
has_sta_sae = L.hasSystemFeature('wpasupplicant', 'sae');
// Probe OWE support
var has_ap_owe = L.hasSystemFeature('hostapd', 'owe'),
has_sta_owe = L.hasSystemFeature('wpasupplicant', 'owe');
// Probe Suite-B support
var has_ap_eap192 = L.hasSystemFeature('hostapd', 'suiteb192'),
has_sta_eap192 = L.hasSystemFeature('wpasupplicant', 'suiteb192');
// Probe WEP support
var has_ap_wep = L.hasSystemFeature('hostapd', 'wep'),
has_sta_wep = L.hasSystemFeature('wpasupplicant', 'wep');
if (has_hostapd || has_supplicant) {
crypto_modes.push(['psk2', 'WPA2-PSK', 35]);
crypto_modes.push(['psk-mixed', 'WPA-PSK/WPA2-PSK Mixed Mode', 22]);
crypto_modes.push(['psk', 'WPA-PSK', 21]);
}
else {
encr.description = _('WPA-Encryption requires wpa_supplicant (for client mode) or hostapd (for AP and ad-hoc mode) to be installed.');
}
if (has_ap_sae || has_sta_sae) {
crypto_modes.push(['sae', 'WPA3-SAE', 31]);
crypto_modes.push(['sae-mixed', 'WPA2-PSK/WPA3-SAE Mixed Mode', 30]);
}
if (has_ap_wep || has_sta_wep) {
crypto_modes.push(['wep-open', _('WEP Open System'), 11]);
crypto_modes.push(['wep-shared', _('WEP Shared Key'), 10]);
}
if (has_ap_eap || has_sta_eap) {
if (has_ap_eap192 || has_sta_eap192) {
crypto_modes.push(['wpa3', 'WPA3-EAP', 33]);
crypto_modes.push(['wpa3-mixed', 'WPA2-EAP/WPA3-EAP Mixed Mode', 32]);
}
crypto_modes.push(['wpa2', 'WPA2-EAP', 34]);
crypto_modes.push(['wpa', 'WPA-EAP', 20]);
}
if (has_ap_owe || has_sta_owe) {
crypto_modes.push(['owe', 'OWE', 1]);
}
encr.crypto_support = {
'ap': {
'wep-open': has_ap_wep || _('Requires hostapd with WEP support'),
'wep-shared': has_ap_wep || _('Requires hostapd with WEP support'),
'psk': has_hostapd || _('Requires hostapd'),
'psk2': has_hostapd || _('Requires hostapd'),
'psk-mixed': has_hostapd || _('Requires hostapd'),
'sae': has_ap_sae || _('Requires hostapd with SAE support'),
'sae-mixed': has_ap_sae || _('Requires hostapd with SAE support'),
'wpa': has_ap_eap || _('Requires hostapd with EAP support'),
'wpa2': has_ap_eap || _('Requires hostapd with EAP support'),
'wpa3': has_ap_eap192 || _('Requires hostapd with EAP Suite-B support'),
'wpa3-mixed': has_ap_eap192 || _('Requires hostapd with EAP Suite-B support'),
'owe': has_ap_owe || _('Requires hostapd with OWE support')
},
'sta': {
'wep-open': has_sta_wep || _('Requires wpa-supplicant with WEP support'),
'wep-shared': has_sta_wep || _('Requires wpa-supplicant with WEP support'),
'psk': has_supplicant || _('Requires wpa-supplicant'),
'psk2': has_supplicant || _('Requires wpa-supplicant'),
'psk-mixed': has_supplicant || _('Requires wpa-supplicant'),
'sae': has_sta_sae || _('Requires wpa-supplicant with SAE support'),
'sae-mixed': has_sta_sae || _('Requires wpa-supplicant with SAE support'),
'wpa': has_sta_eap || _('Requires wpa-supplicant with EAP support'),
'wpa2': has_sta_eap || _('Requires wpa-supplicant with EAP support'),
'wpa3': has_sta_eap192 || _('Requires wpa-supplicant with EAP Suite-B support'),
'wpa3-mixed': has_sta_eap192 || _('Requires wpa-supplicant with EAP Suite-B support'),
'owe': has_sta_owe || _('Requires wpa-supplicant with OWE support')
},
'adhoc': {
'wep-open': true,
'wep-shared': true,
'psk': has_supplicant || _('Requires wpa-supplicant'),
'psk2': has_supplicant || _('Requires wpa-supplicant'),
'psk-mixed': has_supplicant || _('Requires wpa-supplicant'),
},
'mesh': {
'sae': has_sta_sae || _('Requires wpa-supplicant with SAE support')
},
'ahdemo': {
'wep-open': true,
'wep-shared': true
},
'wds': {
'wep-open': true,
'wep-shared': true
}
};
encr.crypto_support['ap-wds'] = encr.crypto_support['ap'];
encr.crypto_support['sta-wds'] = encr.crypto_support['sta'];
encr.validate = function(section_id, value) {
var modeopt = this.section.children.filter(function(o) { return o.option == 'mode' })[0],
modeval = modeopt.formvalue(section_id),
modetitle = modeopt.vallist[modeopt.keylist.indexOf(modeval)],
enctitle = this.vallist[this.keylist.indexOf(value)];
if (value == 'none')
return true;
if (!L.isObject(this.crypto_support[modeval]) || !this.crypto_support[modeval].hasOwnProperty(value))
return _('The selected %s mode is incompatible with %s encryption').format(modetitle, enctitle);
return this.crypto_support[modeval][value];
};
}
else if (hwtype == 'broadcom') {
crypto_modes.push(['psk2', 'WPA2-PSK', 33]);
crypto_modes.push(['psk+psk2', 'WPA-PSK/WPA2-PSK Mixed Mode', 22]);
crypto_modes.push(['psk', 'WPA-PSK', 21]);
crypto_modes.push(['wep-open', _('WEP Open System'), 11]);
crypto_modes.push(['wep-shared', _('WEP Shared Key'), 10]);
}
crypto_modes.push(['none', _('No Encryption'), 0]);
crypto_modes.sort(function(a, b) { return b[2] - a[2] });
for (var i = 0; i < crypto_modes.length; i++) {
var security_level = (crypto_modes[i][2] >= 30) ? _('strong security')
: (crypto_modes[i][2] >= 20) ? _('medium security')
: (crypto_modes[i][2] >= 10) ? _('weak security') : _('open network');
encr.value(crypto_modes[i][0], '%s (%s)'.format(crypto_modes[i][1], security_level));
}
o = ss.taboption('encryption', form.Value, 'auth_server', _('Radius-Authentication-Server'));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.rmempty = true;
o.datatype = 'host(0)';
o = ss.taboption('encryption', form.Value, 'auth_port', _('Radius-Authentication-Port'), _('Default %d').format(1812));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.rmempty = true;
o.datatype = 'port';
o = ss.taboption('encryption', form.Value, 'auth_secret', _('Radius-Authentication-Secret'));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.rmempty = true;
o.password = true;
o = ss.taboption('encryption', form.Value, 'acct_server', _('Radius-Accounting-Server'));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.rmempty = true;
o.datatype = 'host(0)';
o = ss.taboption('encryption', form.Value, 'acct_port', _('Radius-Accounting-Port'), _('Default %d').format(1813));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.rmempty = true;
o.datatype = 'port';
o = ss.taboption('encryption', form.Value, 'acct_secret', _('Radius-Accounting-Secret'));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.rmempty = true;
o.password = true;
o = ss.taboption('encryption', form.Value, 'dae_client', _('DAE-Client'));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.rmempty = true;
o.datatype = 'host(0)';
o = ss.taboption('encryption', form.Value, 'dae_port', _('DAE-Port'), _('Default %d').format(3799));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.rmempty = true;
o.datatype = 'port';
o = ss.taboption('encryption', form.Value, 'dae_secret', _('DAE-Secret'));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.rmempty = true;
o.password = true;
o = ss.taboption('encryption', form.Value, '_wpa_key', _('Key'));
o.depends('encryption', 'psk');
o.depends('encryption', 'psk2');
o.depends('encryption', 'psk+psk2');
o.depends('encryption', 'psk-mixed');
o.depends('encryption', 'sae');
o.depends('encryption', 'sae-mixed');
o.datatype = 'wpakey';
o.rmempty = true;
o.password = true;
o.cfgvalue = function(section_id) {
var key = uci.get('wireless', section_id, 'key');
return /^[1234]$/.test(key) ? null : key;
};
o.write = function(section_id, value) {
uci.set('wireless', section_id, 'key', value);
uci.unset('wireless', section_id, 'key1');
uci.unset('wireless', section_id, 'key2');
uci.unset('wireless', section_id, 'key3');
uci.unset('wireless', section_id, 'key4');
};
o = ss.taboption('encryption', form.ListValue, '_wep_key', _('Used Key Slot'));
o.depends('encryption', 'wep-open');
o.depends('encryption', 'wep-shared');
o.value('1', _('Key #%d').format(1));
o.value('2', _('Key #%d').format(2));
o.value('3', _('Key #%d').format(3));
o.value('4', _('Key #%d').format(4));
o.cfgvalue = function(section_id) {
var slot = +uci.get('wireless', section_id, 'key');
return (slot >= 1 && slot <= 4) ? String(slot) : '';
};
o.write = function(section_id, value) {
uci.set('wireless', section_id, 'key', value);
};
for (var slot = 1; slot <= 4; slot++) {
o = ss.taboption('encryption', form.Value, 'key%d'.format(slot), _('Key #%d').format(slot));
o.depends('encryption', 'wep-open');
o.depends('encryption', 'wep-shared');
o.datatype = 'wepkey';
o.rmempty = true;
o.password = true;
o.write = function(section_id, value) {
if (value != null && (value.length == 5 || value.length == 13))
value = 's:%s'.format(value);
uci.set('wireless', section_id, this.option, value);
};
}
if (hwtype == 'mac80211') {
// Probe 802.11r support (and EAP support as a proxy for Openwrt)
var has_80211r = L.hasSystemFeature('hostapd', '11r') || L.hasSystemFeature('hostapd', 'eap');
o = ss.taboption('encryption', form.Flag, 'ieee80211r', _('802.11r Fast Transition'), _('Enables fast roaming among access points that belong to the same Mobility Domain'));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
if (has_80211r)
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['psk', 'psk2', 'psk-mixed', 'sae', 'sae-mixed'] });
o.rmempty = true;
o = ss.taboption('encryption', form.Value, 'nasid', _('NAS ID'), _('Used for two different purposes: RADIUS NAS ID and 802.11r R0KH-ID. Not needed with normal WPA(2)-PSK.'));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.depends({ ieee80211r: '1' });
o.rmempty = true;
o = ss.taboption('encryption', form.Value, 'mobility_domain', _('Mobility Domain'), _('4-character hexadecimal ID'));
o.depends({ ieee80211r: '1' });
o.placeholder = '4f57';
o.datatype = 'and(hexstring,length(4))';
o.rmempty = true;
o = ss.taboption('encryption', form.Value, 'reassociation_deadline', _('Reassociation Deadline'), _('time units (TUs / 1.024 ms) [1000-65535]'));
o.depends({ ieee80211r: '1' });
o.placeholder = '1000';
o.datatype = 'range(1000,65535)';
o.rmempty = true;
o = ss.taboption('encryption', form.ListValue, 'ft_over_ds', _('FT protocol'));
o.depends({ ieee80211r: '1' });
o.value('1', _('FT over DS'));
o.value('0', _('FT over the Air'));
o.rmempty = true;
o = ss.taboption('encryption', form.Flag, 'ft_psk_generate_local', _('Generate PMK locally'), _('When using a PSK, the PMK can be automatically generated. When enabled, the R0/R1 key options below are not applied. Disable this to use the R0 and R1 key options.'));
o.depends({ ieee80211r: '1' });
o.default = o.enabled;
o.rmempty = false;
o = ss.taboption('encryption', form.Value, 'r0_key_lifetime', _('R0 Key Lifetime'), _('minutes'));
o.depends({ ieee80211r: '1' });
o.placeholder = '10000';
o.datatype = 'uinteger';
o.rmempty = true;
o = ss.taboption('encryption', form.Value, 'r1_key_holder', _('R1 Key Holder'), _('6-octet identifier as a hex string - no colons'));
o.depends({ ieee80211r: '1' });
o.placeholder = '00004f577274';
o.datatype = 'and(hexstring,length(12))';
o.rmempty = true;
o = ss.taboption('encryption', form.Flag, 'pmk_r1_push', _('PMK R1 Push'));
o.depends({ ieee80211r: '1' });
o.placeholder = '0';
o.rmempty = true;
o = ss.taboption('encryption', form.DynamicList, 'r0kh', _('External R0 Key Holder List'), _('List of R0KHs in the same Mobility Domain.
Format: MAC-address,NAS-Identifier,128-bit key as hex string.
This list is used to map R0KH-ID (NAS Identifier) to a destination MAC address when requesting PMK-R1 key from the R0KH that the STA used during the Initial Mobility Domain Association.'));
o.depends({ ieee80211r: '1' });
o.rmempty = true;
o = ss.taboption('encryption', form.DynamicList, 'r1kh', _('External R1 Key Holder List'), _ ('List of R1KHs in the same Mobility Domain.
Format: MAC-address,R1KH-ID as 6 octets with colons,128-bit key as hex string.
This list is used to map R1KH-ID to a destination MAC address when sending PMK-R1 key from the R0KH. This is also the list of authorized R1KHs in the MD that can request PMK-R1 keys.'));
o.depends({ ieee80211r: '1' });
o.rmempty = true;
// End of 802.11r options
o = ss.taboption('encryption', form.ListValue, 'eap_type', _('EAP-Method'));
o.value('tls', 'TLS');
o.value('ttls', 'TTLS');
o.value('peap', 'PEAP');
o.value('fast', 'FAST');
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o = ss.taboption('encryption', form.Flag, 'ca_cert_usesystem', _('Use system certificates'), _("Validate server certificate using built-in system CA bundle,
requires the \"ca-bundle\" package"));
o.enabled = '1';
o.disabled = '0';
o.default = o.disabled;
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.validate = function(section_id, value) {
if (value == '1' && !L.hasSystemFeature('cabundle')) {
return _("This option cannot be used because the ca-bundle package is not installed.");
}
return true;
};
o = ss.taboption('encryption', form.FileUpload, 'ca_cert', _('Path to CA-Certificate'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], ca_cert_usesystem: ['0'] });
o = ss.taboption('encryption', form.Value, 'subject_match', _('Certificate constraint (Subject)'), _("Certificate constraint substring - e.g. /CN=wifi.mycompany.com
See `logread -f` during handshake for actual values"));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o = ss.taboption('encryption', form.DynamicList, 'altsubject_match', _('Certificate constraint (SAN)'), _("Certificate constraint(s) via Subject Alternate Name values
(supported attributes: EMAIL, DNS, URI) - e.g. DNS:wifi.mycompany.com"));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o = ss.taboption('encryption', form.DynamicList, 'domain_match', _('Certificate constraint (Domain)'), _("Certificate constraint(s) against DNS SAN values (if available)
or Subject CN (exact match)"));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o = ss.taboption('encryption', form.DynamicList, 'domain_suffix_match', _('Certificate constraint (Wildcard)'), _("Certificate constraint(s) against DNS SAN values (if available)
or Subject CN (suffix match)"));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o = ss.taboption('encryption', form.FileUpload, 'client_cert', _('Path to Client-Certificate'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], eap_type: ['tls'] });
o = ss.taboption('encryption', form.FileUpload, 'priv_key', _('Path to Private Key'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], eap_type: ['tls'] });
o = ss.taboption('encryption', form.Value, 'priv_key_pwd', _('Password of Private Key'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], eap_type: ['tls'] });
o.password = true;
o = ss.taboption('encryption', form.ListValue, 'auth', _('Authentication'));
o.value('PAP', 'PAP');
o.value('CHAP', 'CHAP');
o.value('MSCHAP', 'MSCHAP');
o.value('MSCHAPV2', 'MSCHAPv2');
o.value('EAP-GTC', 'EAP-GTC');
o.value('EAP-MD5', 'EAP-MD5');
o.value('EAP-MSCHAPV2', 'EAP-MSCHAPv2');
o.value('EAP-TLS', 'EAP-TLS');
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], eap_type: ['fast', 'peap', 'ttls'] });
o.validate = function(section_id, value) {
var eo = this.section.children.filter(function(o) { return o.option == 'eap_type' })[0],
ev = eo.formvalue(section_id);
if (ev != 'ttls' && (value == 'PAP' || value == 'CHAP' || value == 'MSCHAP' || value == 'MSCHAPV2'))
return _('This authentication type is not applicable to the selected EAP method.');
return true;
};
o = ss.taboption('encryption', form.Flag, 'ca_cert2_usesystem', _('Use system certificates for inner-tunnel'), _("Validate server certificate using built-in system CA bundle,
requires the \"ca-bundle\" package"));
o.enabled = '1';
o.disabled = '0';
o.default = o.disabled;
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], auth: ['EAP-TLS'] });
o.validate = function(section_id, value) {
if (value == '1' && !L.hasSystemFeature('cabundle')) {
return _("This option cannot be used because the ca-bundle package is not installed.");
}
return true;
};
o = ss.taboption('encryption', form.FileUpload, 'ca_cert2', _('Path to inner CA-Certificate'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], auth: ['EAP-TLS'], ca_cert2_usesystem: ['0'] });
o = ss.taboption('encryption', form.Value, 'subject_match2', _('Inner certificate constraint (Subject)'), _("Certificate constraint substring - e.g. /CN=wifi.mycompany.com
See `logread -f` during handshake for actual values"));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], auth: ['EAP-TLS'] });
o = ss.taboption('encryption', form.DynamicList, 'altsubject_match2', _('Inner certificate constraint (SAN)'), _("Certificate constraint(s) via Subject Alternate Name values
(supported attributes: EMAIL, DNS, URI) - e.g. DNS:wifi.mycompany.com"));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], auth: ['EAP-TLS'] });
o = ss.taboption('encryption', form.DynamicList, 'domain_match2', _('Inner certificate constraint (Domain)'), _("Certificate constraint(s) against DNS SAN values (if available)
or Subject CN (exact match)"));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], auth: ['EAP-TLS'] });
o = ss.taboption('encryption', form.DynamicList, 'domain_suffix_match2', _('Inner certificate constraint (Wildcard)'), _("Certificate constraint(s) against DNS SAN values (if available)
or Subject CN (suffix match)"));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], auth: ['EAP-TLS'] });
o = ss.taboption('encryption', form.FileUpload, 'client_cert2', _('Path to inner Client-Certificate'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], auth: ['EAP-TLS'] });
o = ss.taboption('encryption', form.FileUpload, 'priv_key2', _('Path to inner Private Key'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], auth: ['EAP-TLS'] });
o = ss.taboption('encryption', form.Value, 'priv_key2_pwd', _('Password of inner Private Key'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], auth: ['EAP-TLS'] });
o.password = true;
o = ss.taboption('encryption', form.Value, 'identity', _('Identity'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], eap_type: ['fast', 'peap', 'tls', 'ttls'] });
o = ss.taboption('encryption', form.Value, 'anonymous_identity', _('Anonymous Identity'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], eap_type: ['fast', 'peap', 'tls', 'ttls'] });
o = ss.taboption('encryption', form.Value, 'password', _('Password'));
add_dependency_permutations(o, { mode: ['sta', 'sta-wds'], encryption: ['wpa', 'wpa2', 'wpa3', 'wpa3-mixed'], eap_type: ['fast', 'peap', 'ttls'] });
o.password = true;
if (hwtype == 'mac80211') {
// ieee802.11w options
if (L.hasSystemFeature('hostapd', '11w')) {
o = ss.taboption('encryption', form.ListValue, 'ieee80211w', _('802.11w Management Frame Protection'), _("Requires the 'full' version of wpad/hostapd and support from the wifi driver
(as of Jan 2019: ath9k, ath10k, mwlwifi and mt76)"));
o.value('', _('Disabled'));
o.value('1', _('Optional'));
o.value('2', _('Required'));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds', 'sta', 'sta-wds'], encryption: ['owe', 'psk2', 'psk-mixed', 'sae', 'sae-mixed', 'wpa2', 'wpa3', 'wpa3-mixed'] });
o.defaults = {
'2': [{ encryption: 'sae' }, { encryption: 'owe' }, { encryption: 'wpa3' }, { encryption: 'wpa3-mixed' }],
'1': [{ encryption: 'sae-mixed'}],
'': []
};
o = ss.taboption('encryption', form.Value, 'ieee80211w_max_timeout', _('802.11w maximum timeout'), _('802.11w Association SA Query maximum timeout'));
o.depends('ieee80211w', '1');
o.depends('ieee80211w', '2');
o.datatype = 'uinteger';
o.placeholder = '1000';
o.rmempty = true;
o = ss.taboption('encryption', form.Value, 'ieee80211w_retry_timeout', _('802.11w retry timeout'), _('802.11w Association SA Query retry timeout'));
o.depends('ieee80211w', '1');
o.depends('ieee80211w', '2');
o.datatype = 'uinteger';
o.placeholder = '201';
o.rmempty = true;
};
o = ss.taboption('encryption', form.Flag, 'wpa_disable_eapol_key_retries', _('Enable key reinstallation (KRACK) countermeasures'), _('Complicates key reinstallation attacks on the client side by disabling retransmission of EAPOL-Key frames that are used to install keys. This workaround might cause interoperability issues and reduced robustness of key negotiation especially in environments with heavy traffic load.'));
add_dependency_permutations(o, { mode: ['ap', 'ap-wds'], encryption: ['psk2', 'psk-mixed', 'sae', 'sae-mixed', 'wpa2', 'wpa3', 'wpa3-mixed'] });
if (L.hasSystemFeature('hostapd', 'cli') && L.hasSystemFeature('wpasupplicant')) {
o = ss.taboption('encryption', form.Flag, 'wps_pushbutton', _('Enable WPS pushbutton, requires WPA(2)-PSK/WPA3-SAE'))
o.enabled = '1';
o.disabled = '0';
o.default = o.disabled;
o.depends('encryption', 'psk');
o.depends('encryption', 'psk2');
o.depends('encryption', 'psk-mixed');
o.depends('encryption', 'sae');
o.depends('encryption', 'sae-mixed');
}
}
}
});
};
s.handleRemove = function(section_id, ev) {
document.querySelector('.cbi-section-table-row[data-sid="%s"]'.format(section_id)).style.opacity = 0.5;
return form.TypedSection.prototype.handleRemove.apply(this, [section_id, ev]);
};
s.handleScan = function(radioDev, ev) {
var table = E('div', { 'class': 'table' }, [
E('div', { 'class': 'tr table-titles' }, [
E('div', { 'class': 'th col-2 middle center' }, _('Signal')),
E('div', { 'class': 'th col-4 middle left' }, _('SSID')),
E('div', { 'class': 'th col-2 middle center hide-xs' }, _('Channel')),
E('div', { 'class': 'th col-2 middle left hide-xs' }, _('Mode')),
E('div', { 'class': 'th col-3 middle left hide-xs' }, _('BSSID')),
E('div', { 'class': 'th col-3 middle left' }, _('Encryption')),
E('div', { 'class': 'th cbi-section-actions right' }, ' '),
])
]);
var stop = E('button', {
'class': 'btn',
'click': L.bind(this.handleScanStartStop, this),
'style': 'display:none',
'data-state': 'stop'
}, _('Stop refresh'));
cbi_update_table(table, [], E('em', { class: 'spinning' }, _('Starting wireless scan...')));
var md = ui.showModal(_('Join Network: Wireless Scan'), [
table,
E('div', { 'class': 'right' }, [
stop,
' ',
E('button', {
'class': 'btn',
'click': L.bind(this.handleScanAbort, this)
}, _('Dismiss'))
])
]);
md.style.maxWidth = '90%';
md.style.maxHeight = 'none';
this.pollFn = L.bind(this.handleScanRefresh, this, radioDev, {}, table, stop);
poll.add(this.pollFn);
poll.start();
};
s.handleScanRefresh = function(radioDev, scanCache, table, stop) {
return radioDev.getScanList().then(L.bind(function(results) {
var rows = [];
for (var i = 0; i < results.length; i++)
scanCache[results[i].bssid] = results[i];
for (var k in scanCache)
if (scanCache[k].stale)
results.push(scanCache[k]);
results.sort(function(a, b) {
var diff = (b.quality - a.quality) || (a.channel - b.channel);
if (diff)
return diff;
if (a.ssid < b.ssid)
return -1;
else if (a.ssid > b.ssid)
return 1;
if (a.bssid < b.bssid)
return -1;
else if (a.bssid > b.bssid)
return 1;
});
for (var i = 0; i < results.length; i++) {
var res = results[i],
qv = res.quality || 0,
qm = res.quality_max || 0,
q = (qv > 0 && qm > 0) ? Math.floor((100 / qm) * qv) : 0,
s = res.stale ? 'opacity:0.5' : '';
rows.push([
E('span', { 'style': s }, render_signal_badge(q, res.signal, res.noise)),
E('span', { 'style': s }, (res.ssid != null) ? '%h'.format(res.ssid) : E('em', _('hidden'))),
E('span', { 'style': s }, '%d'.format(res.channel)),
E('span', { 'style': s }, '%h'.format(res.mode)),
E('span', { 'style': s }, '%h'.format(res.bssid)),
E('span', { 'style': s }, '%h'.format(network.formatWifiEncryption(res.encryption))),
E('div', { 'class': 'right' }, E('button', {
'class': 'cbi-button cbi-button-action important',
'click': L.bind(this.handleJoin, this, radioDev, res)
}, _('Join Network')))
]);
res.stale = true;
}
cbi_update_table(table, rows);
stop.disabled = false;
stop.style.display = '';
stop.classList.remove('spinning');
}, this));
};
s.handleScanStartStop = function(ev) {
var btn = ev.currentTarget;
if (btn.getAttribute('data-state') == 'stop') {
poll.remove(this.pollFn);
btn.firstChild.data = _('Start refresh');
btn.setAttribute('data-state', 'start');
}
else {
poll.add(this.pollFn);
btn.firstChild.data = _('Stop refresh');
btn.setAttribute('data-state', 'stop');
btn.classList.add('spinning');
btn.disabled = true;
}
};
s.handleScanAbort = function(ev) {
var md = dom.parent(ev.target, 'div[aria-modal="true"]');
if (md) {
md.style.maxWidth = '';
md.style.maxHeight = '';
}
ui.hideModal();
poll.remove(this.pollFn);
this.pollFn = null;
};
s.handleJoinConfirm = function(radioDev, bss, form, ev) {
var nameopt = L.toArray(form.lookupOption('name', '_new_'))[0],
passopt = L.toArray(form.lookupOption('password', '_new_'))[0],
bssidopt = L.toArray(form.lookupOption('bssid', '_new_'))[0],
zoneopt = L.toArray(form.lookupOption('zone', '_new_'))[0],
replopt = L.toArray(form.lookupOption('replace', '_new_'))[0],
nameval = (nameopt && nameopt.isValid('_new_')) ? nameopt.formvalue('_new_') : null,
passval = (passopt && passopt.isValid('_new_')) ? passopt.formvalue('_new_') : null,
bssidval = (bssidopt && bssidopt.isValid('_new_')) ? bssidopt.formvalue('_new_') : null,
zoneval = zoneopt ? zoneopt.formvalue('_new_') : null,
enc = L.isObject(bss.encryption) ? bss.encryption : null,
is_wep = (enc && Array.isArray(enc.wep)),
is_psk = (enc && Array.isArray(enc.wpa) && L.toArray(enc.authentication).filter(function(a) { return a == 'psk' })),
is_sae = (enc && Array.isArray(enc.wpa) && L.toArray(enc.authentication).filter(function(a) { return a == 'sae' }));
if (nameval == null || (passopt && passval == null))
return;
var section_id = null;
return this.map.save(function() {
var wifi_sections = uci.sections('wireless', 'wifi-iface');
if (replopt.formvalue('_new_') == '1') {
for (var i = 0; i < wifi_sections.length; i++)
if (wifi_sections[i].device == radioDev.getName())
uci.remove('wireless', wifi_sections[i]['.name']);
}
if (uci.get('wireless', radioDev.getName(), 'disabled') == '1') {
for (var i = 0; i < wifi_sections.length; i++)
if (wifi_sections[i].device == radioDev.getName())
uci.set('wireless', wifi_sections[i]['.name'], 'disabled', '1');
uci.unset('wireless', radioDev.getName(), 'disabled');
}
section_id = next_free_sid(wifi_sections.length);
uci.add('wireless', 'wifi-iface', section_id);
uci.set('wireless', section_id, 'device', radioDev.getName());
uci.set('wireless', section_id, 'mode', (bss.mode == 'Ad-Hoc') ? 'adhoc' : 'sta');
uci.set('wireless', section_id, 'network', nameval);
if (bss.ssid != null) {
uci.set('wireless', section_id, 'ssid', bss.ssid);
if (bssidval == '1')
uci.set('wireless', section_id, 'bssid', bss.bssid);
}
else if (bss.bssid != null) {
uci.set('wireless', section_id, 'bssid', bss.bssid);
}
if (is_sae) {
uci.set('wireless', section_id, 'encryption', 'sae');
uci.set('wireless', section_id, 'key', passval);
}
else if (is_psk) {
for (var i = enc.wpa.length - 1; i >= 0; i--) {
if (enc.wpa[i] == 2) {
uci.set('wireless', section_id, 'encryption', 'psk2');
break;
}
else if (enc.wpa[i] == 1) {
uci.set('wireless', section_id, 'encryption', 'psk');
break;
}
}
uci.set('wireless', section_id, 'key', passval);
}
else if (is_wep) {
uci.set('wireless', section_id, 'encryption', 'wep-open');
uci.set('wireless', section_id, 'key', '1');
uci.set('wireless', section_id, 'key1', passval);
}
else {
uci.set('wireless', section_id, 'encryption', 'none');
}
return network.addNetwork(nameval, { proto: 'dhcp' }).then(function(net) {
firewall.deleteNetwork(net.getName());
var zonePromise = zoneval
? firewall.getZone(zoneval).then(function(zone) { return zone || firewall.addZone(zoneval) })
: Promise.resolve();
return zonePromise.then(function(zone) {
if (zone)
zone.addNetwork(net.getName());
});
});
}).then(L.bind(function() {
return this.renderMoreOptionsModal(section_id);
}, this));
};
s.handleJoin = function(radioDev, bss, ev) {
this.handleScanAbort(ev);
var m2 = new form.Map('wireless'),
s2 = m2.section(form.NamedSection, '_new_'),
enc = L.isObject(bss.encryption) ? bss.encryption : null,
is_wep = (enc && Array.isArray(enc.wep)),
is_psk = (enc && Array.isArray(enc.wpa) && L.toArray(enc.authentication).filter(function(a) { return a == 'psk' || a == 'sae' })),
replace, passphrase, name, bssid, zone;
var nameUsed = function(name) {
var s = uci.get('network', name);
if (s != null && s['.type'] != 'interface')
return true;
var net = (s != null) ? network.instantiateNetwork(name) : null;
return (net != null && !net.isEmpty());
};
s2.render = function() {
return Promise.all([
{},
this.renderUCISection('_new_')
]).then(this.renderContents.bind(this));
};
replace = s2.option(form.Flag, 'replace', _('Replace wireless configuration'), _('Check this option to delete the existing networks from this radio.'));
name = s2.option(form.Value, 'name', _('Name of the new network'), _('The allowed characters are: A-Z, a-z, 0-9 and _'));
name.datatype = 'uciname';
name.default = 'wwan';
name.rmempty = false;
name.validate = function(section_id, value) {
if (nameUsed(value))
return _('The network name is already used');
return true;
};
for (var i = 2; nameUsed(name.default); i++)
name.default = 'wwan%d'.format(i);
if (is_wep || is_psk) {
passphrase = s2.option(form.Value, 'password', is_wep ? _('WEP passphrase') : _('WPA passphrase'), _('Specify the secret encryption key here.'));
passphrase.datatype = is_wep ? 'wepkey' : 'wpakey';
passphrase.password = true;
passphrase.rmempty = false;
}
if (bss.ssid != null) {
bssid = s2.option(form.Flag, 'bssid', _('Lock to BSSID'), _('Instead of joining any network with a matching SSID, only connect to the BSSID %h.').format(bss.bssid));
bssid.default = '0';
}
zone = s2.option(widgets.ZoneSelect, 'zone', _('Create / Assign firewall-zone'), _('Choose the firewall zone you want to assign to this interface. Select unspecified to remove the interface from the associated zone or fill out the custom field to define a new zone and attach the interface to it.'));
zone.default = 'wan';
return m2.render().then(L.bind(function(nodes) {
ui.showModal(_('Joining Network: %q').replace(/%q/, '"%h"'.format(bss.ssid)), [
nodes,
E('div', { 'class': 'right' }, [
E('button', {
'class': 'btn',
'click': ui.hideModal
}, _('Cancel')), ' ',
E('button', {
'class': 'cbi-button cbi-button-positive important',
'click': ui.createHandlerFn(this, 'handleJoinConfirm', radioDev, bss, m2)
}, _('Submit'))
])
], 'cbi-modal').querySelector('[id="%s"] input[class][type]'.format((passphrase || name).cbid('_new_'))).focus();
}, this));
};
s.handleAdd = function(radioDev, ev) {
var section_id = next_free_sid(uci.sections('wireless', 'wifi-iface').length);
uci.unset('wireless', radioDev.getName(), 'disabled');
uci.add('wireless', 'wifi-iface', section_id);
uci.set('wireless', section_id, 'device', radioDev.getName());
uci.set('wireless', section_id, 'mode', 'ap');
uci.set('wireless', section_id, 'ssid', 'OpenWrt');
uci.set('wireless', section_id, 'encryption', 'none');
this.addedSection = section_id;
return this.renderMoreOptionsModal(section_id);
};
o = s.option(form.DummyValue, '_badge');
o.modalonly = false;
o.textvalue = function(section_id) {
var inst = this.section.lookupRadioOrNetwork(section_id),
node = E('div', { 'class': 'center' });
if (inst.getWifiNetworks)
node.appendChild(render_radio_badge(inst));
else
node.appendChild(render_network_badge(inst));
return node;
};
o = s.option(form.DummyValue, '_stat');
o.modalonly = false;
o.textvalue = function(section_id) {
var inst = this.section.lookupRadioOrNetwork(section_id);
if (inst.getWifiNetworks)
return render_radio_status(inst, this.section.wifis.filter(function(e) {
return (e.getWifiDeviceName() == inst.getName());
}));
else
return render_network_status(inst);
};
return m.render().then(L.bind(function(m, nodes) {
poll.add(L.bind(function() {
var section_ids = m.children[0].cfgsections(),
tasks = [ network.getHostHints(), network.getWifiDevices() ];
for (var i = 0; i < section_ids.length; i++) {
var row = nodes.querySelector('.cbi-section-table-row[data-sid="%s"]'.format(section_ids[i])),
dsc = row.querySelector('[data-name="_stat"] > div'),
btns = row.querySelectorAll('.cbi-section-actions button');
if (dsc.getAttribute('restart') == '') {
dsc.setAttribute('restart', '1');
tasks.push(fs.exec('/sbin/wifi', ['up', section_ids[i]]).catch(function(e) {
ui.addNotification(null, E('p', e.message));
}));
}
else if (dsc.getAttribute('restart') == '1') {
dsc.removeAttribute('restart');
btns[0].classList.remove('spinning');
btns[0].disabled = false;
}
}
return Promise.all(tasks)
.then(L.bind(function(hosts_radios) {
var tasks = [];
for (var i = 0; i < hosts_radios[1].length; i++)
tasks.push(hosts_radios[1][i].getWifiNetworks());
return Promise.all(tasks).then(function(data) {
hosts_radios[2] = [];
for (var i = 0; i < data.length; i++)
hosts_radios[2].push.apply(hosts_radios[2], data[i]);
return hosts_radios;
});
}, network))
.then(L.bind(function(hosts_radios_wifis) {
var tasks = [];
for (var i = 0; i < hosts_radios_wifis[2].length; i++)
tasks.push(hosts_radios_wifis[2][i].getAssocList());
return Promise.all(tasks).then(function(data) {
hosts_radios_wifis[3] = [];
for (var i = 0; i < data.length; i++) {
var wifiNetwork = hosts_radios_wifis[2][i],
radioDev = hosts_radios_wifis[1].filter(function(d) { return d.getName() == wifiNetwork.getWifiDeviceName() })[0];
for (var j = 0; j < data[i].length; j++)
hosts_radios_wifis[3].push(Object.assign({ radio: radioDev, network: wifiNetwork }, data[i][j]));
}
return hosts_radios_wifis;
});
}, network))
.then(L.bind(this.poll_status, this, nodes));
}, this), 5);
var table = E('div', { 'class': 'table assoclist', 'id': 'wifi_assoclist_table' }, [
E('div', { 'class': 'tr table-titles' }, [
E('div', { 'class': 'th nowrap' }, _('Network')),
E('div', { 'class': 'th hide-xs' }, _('MAC-Address')),
E('div', { 'class': 'th' }, _('Host')),
E('div', { 'class': 'th' }, _('Signal / Noise')),
E('div', { 'class': 'th' }, _('RX Rate / TX Rate'))
])
]);
cbi_update_table(table, [], E('em', { 'class': 'spinning' }, _('Collecting data...')))
return E([ nodes, E('h3', _('Associated Stations')), table ]);
}, this, m));
}
});