ImmortalWrt/package/emortal/autocore/files/29_ethinfo.js

'use strict';
'require baseclass';
'require fs';
'require ui';
'require uci';
'require rpc';
'require network';
'require firewall';

var callLuciETHInfo = rpc.declare({
	object: 'luci',
	method: 'getETHInfo',
	expect: { '': {} }
});


function isString(v)
{
	return typeof(v) === 'string' && v !== '';
}

function resolveVLANChain(ifname, bridges, mapping)
{
	while (!mapping[ifname]) {
		var m = ifname.match(/^(.+)\.([^.]+)$/);

		if (!m)
			break;

		if (bridges[m[1]]) {
			if (bridges[m[1]].vlan_filtering)
				mapping[ifname] = bridges[m[1]].vlans[m[2]];
			else
				mapping[ifname] = bridges[m[1]].ports;
		}
		else if (/^[0-9]{1,4}$/.test(m[2]) && m[2] <= 4095) {
			mapping[ifname] = [ m[1] ];
		}
		else {
			break;
		}

		ifname = m[1];
	}
}

function buildVLANMappings(mapping)
{
	var bridge_vlans = uci.sections('network', 'bridge-vlan'),
	    vlan_devices = uci.sections('network', 'device'),
	    interfaces = uci.sections('network', 'interface'),
	    bridges = {};

	/* find bridge VLANs */
	for (var i = 0, s; (s = bridge_vlans[i]) != null; i++) {
		if (!isString(s.device) || !/^[0-9]{1,4}$/.test(s.vlan) || +s.vlan > 4095)
			continue;

		var aliases = L.toArray(s.alias),
		    ports = L.toArray(s.ports),
		    br = bridges[s.device] = (bridges[s.device] || { ports: [], vlans: {}, vlan_filtering: true });

		br.vlans[s.vlan] = [];

		for (var j = 0; j < ports.length; j++) {
			var port = ports[j].replace(/:[ut*]+$/, '');

			if (br.ports.indexOf(port) === -1)
				br.ports.push(port);

			br.vlans[s.vlan].push(port);
		}

		for (var j = 0; j < aliases.length; j++)
			if (aliases[j] != s.vlan)
				br.vlans[aliases[j]] = br.vlans[s.vlan];
	}

	/* find bridges, VLAN devices */
	for (var i = 0, s; (s = vlan_devices[i]) != null; i++) {
		if (s.type == 'bridge') {
			if (!isString(s.name))
				continue;

			var ports = L.toArray(s.ports),
			    br = bridges[s.name] || (bridges[s.name] = { ports: [], vlans: {}, vlan_filtering: false });

			if (s.vlan_filtering == '0')
				br.vlan_filtering = false;
			else if (s.vlan_filtering == '1')
				br.vlan_filtering = true;

			for (var j = 0; j < ports.length; j++)
				if (br.ports.indexOf(ports[j]) === -1)
					br.ports.push(ports[j]);

			mapping[s.name] = br.ports;
		}
		else if (s.type == '8021q' || s.type == '8021ad') {
			if (!isString(s.name) || !isString(s.vid) || !isString(s.ifname))
				continue;

			/* parent device is a bridge */
			if (bridges[s.ifname]) {
				/* parent bridge is VLAN enabled, device refers to VLAN ports */
				if (bridges[s.ifname].vlan_filtering)
					mapping[s.name] = bridges[s.ifname].vlans[s.vid];

				/* parent bridge is not VLAN enabled, device refers to all bridge ports */
				else
					mapping[s.name] = bridges[s.ifname].ports;
			}

			/* parent is a simple netdev */
			else {
				mapping[s.name] = [ s.ifname ];
			}

			resolveVLANChain(s.ifname, bridges, mapping);
		}
	}

	/* resolve VLAN tagged interfaces in bridge ports */
	for (var brname in bridges) {
		for (var i = 0; i < bridges[brname].ports.length; i++)
			resolveVLANChain(bridges[brname].ports[i], bridges, mapping);

		for (var vid in bridges[brname].vlans)
			for (var i = 0; i < bridges[brname].vlans[vid].length; i++)
				resolveVLANChain(bridges[brname].vlans[vid][i], bridges, mapping);
	}

	/* find implicit VLAN devices */
	for (var i = 0, s; (s = interfaces[i]) != null; i++) {
		if (!isString(s.device))
			continue;

		resolveVLANChain(s.device, bridges, mapping);
	}
}

function resolveVLANPorts(ifname, mapping)
{
	var ports = [];

	if (mapping[ifname])
		for (var i = 0; i < mapping[ifname].length; i++)
			ports.push.apply(ports, resolveVLANPorts(mapping[ifname][i], mapping));
	else
		ports.push(ifname);

	return ports.sort(L.naturalCompare);
}

function buildInterfaceMapping(zones, networks) {
	var vlanmap = {},
	    portmap = {},
	    netmap = {};

	buildVLANMappings(vlanmap);

	for (var i = 0; i < networks.length; i++) {
		var l3dev = networks[i].getDevice();

		if (!l3dev)
			continue;

		var ports = resolveVLANPorts(l3dev.getName(), vlanmap);

		for (var j = 0; j < ports.length; j++) {
			portmap[ports[j]] = portmap[ports[j]] || { networks: [], zones: [] };
			portmap[ports[j]].networks.push(networks[i]);
		}

		netmap[networks[i].getName()] = networks[i];
	}

	for (var i = 0; i < zones.length; i++) {
		var networknames = zones[i].getNetworks();

		for (var j = 0; j < networknames.length; j++) {
			if (!netmap[networknames[j]])
				continue;

			var l3dev = netmap[networknames[j]].getDevice();

			if (!l3dev)
				continue;

			var ports = resolveVLANPorts(l3dev.getName(), vlanmap);

			for (var k = 0; k < ports.length; k++) {
				portmap[ports[k]] = portmap[ports[k]] || { networks: [], zones: [] };

				if (portmap[ports[k]].zones.indexOf(zones[i]) === -1)
					portmap[ports[k]].zones.push(zones[i]);
			}
		}
	}

	return portmap;
}

function formatSpeed(speed, duplex) {
	if (speed && duplex) {
		var d = (duplex == 'half') ? '\u202f(H)' : '',
		    e = E('span', { 'title': _('Speed: %d Mbit/s, Duplex: %s').format(speed, duplex) });

		switch (speed) {
		case 10:    e.innerText = '10\u202fM' + d;  break;
		case 100:   e.innerText = '100\u202fM' + d; break;
		case 1000:  e.innerText = '1\u202fGbE' + d; break;
		case 2500:  e.innerText = '2.5\u202fGbE';   break;
		case 5000:  e.innerText = '5\u202fGbE';     break;
		case 10000: e.innerText = '10\u202fGbE';    break;
		case 25000: e.innerText = '25\u202fGbE';    break;
		case 40000: e.innerText = '40\u202fGbE';    break;
		default:    e.innerText = '%d\u202fMbE%s'.format(speed, d);
		}

		return e;
	}

	return _('no link');
}

function formatStats(portdev) {
	var stats = portdev._devstate('stats');

	return ui.itemlist(E('span'), [
		_('Received bytes'), '%1024mB'.format(stats.rx_bytes),
		_('Received packets'), '%1000mPkts.'.format(stats.rx_packets),
		_('Received multicast'), '%1000mPkts.'.format(stats.multicast),
		_('Receive errors'), '%1000mPkts.'.format(stats.rx_errors),
		_('Receive dropped'), '%1000mPkts.'.format(stats.rx_dropped),

		_('Transmitted bytes'), '%1024mB'.format(stats.tx_bytes),
		_('Transmitted packets'), '%1000mPkts.'.format(stats.tx_packets),
		_('Transmit errors'), '%1000mPkts.'.format(stats.tx_errors),
		_('Transmit dropped'), '%1000mPkts.'.format(stats.tx_dropped),

		_('Collisions seen'), stats.collisions
	]);
}

function renderNetworkBadge(network, zonename) {
	var l3dev = network.getDevice();
	var span = E('span', { 'class': 'ifacebadge', 'style': 'margin:.125em 0' }, [
		E('span', {
			'class': 'zonebadge',
			'title': zonename ? _('Part of zone %q').format(zonename) : _('No zone assigned'),
			'style': firewall.getZoneColorStyle(zonename)
		}, '\u202f'),
		'\u202f', network.getName(), ': '
	]);

	if (l3dev)
		span.appendChild(E('img', {
			'title': l3dev.getI18n(),
			'src': L.resource('icons/%s%s.png'.format(l3dev.getType(), l3dev.isUp() ? '' : '_disabled'))
		}));
	else
		span.appendChild(E('em', _('(no interfaces attached)')));

	return span;
}

function renderNetworksTooltip(pmap) {
	var res = [ null ],
	    zmap = {};

	for (var i = 0; pmap && i < pmap.zones.length; i++) {
		var networknames = pmap.zones[i].getNetworks();

		for (var k = 0; k < networknames.length; k++)
			zmap[networknames[k]] = pmap.zones[i].getName();
	}

	for (var i = 0; pmap && i < pmap.networks.length; i++)
		res.push(E('br'), renderNetworkBadge(pmap.networks[i], zmap[pmap.networks[i].getName()]));

	if (res.length > 1)
		res[0] = N_((res.length - 1) / 2, 'Part of network:', 'Part of networks:');
	else
		res[0] = _('Port is not part of any network');

	return E([], res);
}

return baseclass.extend({
	title: _('Ethernet Information'),

	load: function() {
		return Promise.all([
			L.resolveDefault(callLuciETHInfo(), {}),
			firewall.getZones(),
			network.getNetworks(),
			uci.load('network')
		]);
	},

	render: function(data) {
		var known_ports = [],
		    port_map = buildInterfaceMapping(data[1], data[2]);

		if (Array.isArray(data[0].ethinfo))
			data[0].ethinfo.forEach((k) => known_ports.push({
				device: k,
				netdev: network.instantiateDevice(k)
			}));

		known_ports.sort(function(a, b) {
			return L.naturalCompare(a.device, b.device);
		});

		return E('div', { 'style': 'display:grid;grid-template-columns:repeat(auto-fit, minmax(100px, 1fr));margin-bottom:1em;align-items:center;justify-items:center;text-align:center' }, known_ports.map(function(port) {
			var speed = port.netdev.getSpeed(),
			    duplex = port.netdev.getDuplex(),
			    pmap = port_map[port.netdev.getName()],
			    pzones = (pmap && pmap.zones.length) ? pmap.zones.sort(function(a, b) { return L.naturalCompare(a.getName(), b.getName()) }) : [ null ];

			return E('div', { 'class': 'ifacebox', 'style': 'margin:.25em;width:100px' }, [
				E('div', { 'class': 'ifacebox-head', 'style': 'font-weight:bold' }, [ port.netdev.getName() ]),
				E('div', { 'class': 'ifacebox-body' }, [
					E('img', { 'src': L.resource('icons/port_%s.png').format((speed && duplex) ? 'up' : 'down') }),
					E('br'),
					formatSpeed(speed, duplex)
				]),
				E('div', { 'class': 'ifacebox-head cbi-tooltip-container', 'style': 'display:flex' }, [
					E([], pzones.map(function(zone) {
						return E('div', {
							'class': 'zonebadge',
							'style': 'cursor:help;flex:1;height:3px;' + firewall.getZoneColorStyle(zone)
						});
					})),
					E('span', { 'class': 'cbi-tooltip left' }, [ renderNetworksTooltip(pmap) ])
				]),
				E('div', { 'class': 'ifacebox-body' }, [
					E('div', { 'class': 'cbi-tooltip-container', 'style': 'text-align:left;font-size:80%' }, [
						'\u25b2\u202f%1024.1mB'.format(port.netdev.getTXBytes()),
						E('br'),
						'\u25bc\u202f%1024.1mB'.format(port.netdev.getRXBytes()),
						E('span', { 'class': 'cbi-tooltip' }, formatStats(port.netdev))
					]),
				])
			]);
		}));
	}
});