'use strict'; // @ts-check // ================================================================================== // network.js // ---------------------------------------------------------------------------------- // Description: System Information - library // for Node.js // Copyright: (c) 2014 - 2020 // Author: Sebastian Hildebrandt // ---------------------------------------------------------------------------------- // License: MIT // ================================================================================== // 9. Network // ---------------------------------------------------------------------------------- const os = require('os'); const exec = require('child_process').exec; const execSync = require('child_process').execSync; const fs = require('fs'); const util = require('./util'); let _platform = process.platform; const _linux = (_platform === 'linux'); const _darwin = (_platform === 'darwin'); const _windows = (_platform === 'win32'); const _freebsd = (_platform === 'freebsd'); const _openbsd = (_platform === 'openbsd'); const _netbsd = (_platform === 'netbsd'); const _sunos = (_platform === 'sunos'); let _network = {}; let _default_iface = ''; let _ifaces = {}; let _dhcpNics = []; let _networkInterfaces = []; let _mac = {}; let pathToIp; function getDefaultNetworkInterface() { let ifaces = os.networkInterfaces(); let ifacename = ''; let ifacenameFirst = ''; let scopeid = 9999; // fallback - "first" external interface (sorted by scopeid) for (let dev in ifaces) { if ({}.hasOwnProperty.call(ifaces, dev)) { ifaces[dev].forEach(function (details) { if (details && details.internal === false) { ifacenameFirst = ifacenameFirst || dev; // fallback if no scopeid if (details.scopeid && details.scopeid < scopeid) { ifacename = dev; scopeid = details.scopeid; } } }); } } ifacename = ifacename || ifacenameFirst || ''; try { if (_windows) { // https://www.inetdaemon.com/tutorials/internet/ip/routing/default_route.shtml let defaultIp = ''; const cmd = 'netstat -r'; const result = execSync(cmd); const lines = result.toString().split(os.EOL); lines.forEach(line => { line = line.replace(/\s+/g, ' ').trim(); if (line.indexOf('0.0.0.0 0.0.0.0') > -1 && !(/[a-zA-Z]/.test(line))) { const parts = line.split(' '); if (parts.length >= 5) { defaultIp = parts[parts.length - 2]; } } }); if (defaultIp) { for (let dev in ifaces) { if ({}.hasOwnProperty.call(ifaces, dev)) { ifaces[dev].forEach(function (details) { if (details && details.address && details.address === defaultIp) { ifacename = dev; } }); } } } } if (_linux) { let cmd = 'ip route 2> /dev/null | grep default'; let result = execSync(cmd); let parts = result.toString().split('\n')[0].split(/\s+/); if (parts[0] === 'none' && parts[5]) { ifacename = parts[5]; } else if (parts[4]) { ifacename = parts[4]; } if (ifacename.indexOf(':') > -1) { ifacename = ifacename.split(':')[1].trim(); } } if (_darwin || _freebsd || _openbsd || _netbsd || _sunos) { let cmd = ''; if (_linux) cmd = 'ip route 2> /dev/null | grep default | awk \'{print $5}\''; if (_darwin) cmd = 'route -n get default 2>/dev/null | grep interface: | awk \'{print $2}\''; if (_freebsd || _openbsd || _netbsd || _sunos) cmd = 'route get 0.0.0.0 | grep interface:'; let result = execSync(cmd); ifacename = result.toString().split('\n')[0]; if (ifacename.indexOf(':') > -1) { ifacename = ifacename.split(':')[1].trim(); } } } catch (e) { util.noop(); } if (ifacename) _default_iface = ifacename; return _default_iface; } exports.getDefaultNetworkInterface = getDefaultNetworkInterface; function getMacAddresses() { let iface = ''; let mac = ''; let result = {}; if (_linux || _freebsd || _openbsd || _netbsd) { if (typeof pathToIp === 'undefined') { try { const lines = execSync('which ip').toString().split('\n'); if (lines.length && lines[0].indexOf(':') === -1 && lines[0].indexOf('/') === 0) { pathToIp = lines[0]; } else { pathToIp = ''; } } catch (e) { pathToIp = ''; } } try { const cmd = 'export LC_ALL=C; ' + ((pathToIp) ? pathToIp + ' link show up' : '/sbin/ifconfig') + '; unset LC_ALL'; let res = execSync(cmd); const lines = res.toString().split('\n'); for (let i = 0; i < lines.length; i++) { if (lines[i] && lines[i][0] !== ' ') { if (pathToIp) { let nextline = lines[i + 1].trim().split(' '); if (nextline[0] === 'link/ether') { iface = lines[i].split(' ')[1]; iface = iface.slice(0, iface.length - 1); mac = nextline[1]; } } else { iface = lines[i].split(' ')[0]; mac = lines[i].split('HWaddr ')[1]; } if (iface && mac) { result[iface] = mac.trim(); iface = ''; mac = ''; } } } } catch (e) { util.noop(); } } if (_darwin) { try { const cmd = '/sbin/ifconfig'; let res = execSync(cmd); const lines = res.toString().split('\n'); for (let i = 0; i < lines.length; i++) { if (lines[i] && lines[i][0] !== '\t' && lines[i].indexOf(':') > 0) { iface = lines[i].split(':')[0]; } else if (lines[i].indexOf('\tether ') === 0) { mac = lines[i].split('\tether ')[1]; if (iface && mac) { result[iface] = mac.trim(); iface = ''; mac = ''; } } } } catch (e) { util.noop(); } } return result; } function networkInterfaceDefault(callback) { return new Promise((resolve) => { process.nextTick(() => { let result = getDefaultNetworkInterface(); if (callback) { callback(result); } resolve(result); }); }); } exports.networkInterfaceDefault = networkInterfaceDefault; // -------------------------- // NET - interfaces function parseLinesWindowsNics(sections, nconfigsections) { let nics = []; for (let i in sections) { if ({}.hasOwnProperty.call(sections, i)) { if (sections[i].trim() !== '') { let lines = sections[i].trim().split('\r\n'); let linesNicConfig = nconfigsections[i].trim().split('\r\n'); let netEnabled = util.getValue(lines, 'NetEnabled', '='); if (netEnabled !== '') { const speed = parseInt(util.getValue(lines, 'speed', '=').trim(), 10) / 1000000; nics.push({ mac: util.getValue(lines, 'MACAddress', '=').toLowerCase(), dhcp: util.getValue(linesNicConfig, 'dhcpEnabled', '=').toLowerCase(), name: util.getValue(lines, 'Name', '=').replace(/\]/g, ')').replace(/\[/g, '('), netEnabled: netEnabled === 'TRUE', speed: isNaN(speed) ? -1 : speed, operstate: util.getValue(lines, 'NetConnectionStatus', '=') === '2' ? 'up' : 'down', type: util.getValue(lines, 'AdapterTypeID', '=') === '9' ? 'wireless' : 'wired' }); } } } } return nics; } function getWindowsNics() { const cmd = util.getWmic() + ' nic get MACAddress, name, NetEnabled, Speed, NetConnectionStatus, AdapterTypeId /value'; const cmdnicconfig = util.getWmic() + ' nicconfig get dhcpEnabled /value'; try { const nsections = execSync(cmd, util.execOptsWin).split(/\n\s*\n/); const nconfigsections = execSync(cmdnicconfig, util.execOptsWin).split(/\n\s*\n/); return (parseLinesWindowsNics(nsections, nconfigsections)); } catch (e) { return []; } } function getWindowsDNSsuffixes() { let iface = {}; let dnsSuffixes = { primaryDNS: '', exitCode: 0, ifaces: [], }; try { const ipconfig = execSync('ipconfig /all', util.execOptsWin); const ipconfigArray = ipconfig.split('\r\n\r\n'); ipconfigArray.forEach((element, index) => { if (index == 1) { const longPrimaryDNS = element.split('\r\n').filter((element) => { return element.toUpperCase().includes('DNS'); }); const primaryDNS = longPrimaryDNS[0].substring(longPrimaryDNS[0].lastIndexOf(':') + 1); dnsSuffixes.primaryDNS = primaryDNS.trim(); if (!dnsSuffixes.primaryDNS) dnsSuffixes.primaryDNS = 'Not defined'; } if (index > 1) { if (index % 2 == 0) { const name = element.substring(element.lastIndexOf(' ') + 1).replace(':', ''); iface.name = name; } else { const connectionSpecificDNS = element.split('\r\n').filter((element) => { return element.toUpperCase().includes('DNS'); }); const dnsSuffix = connectionSpecificDNS[0].substring(connectionSpecificDNS[0].lastIndexOf(':') + 1); iface.dnsSuffix = dnsSuffix.trim(); dnsSuffixes.ifaces.push(iface); iface = {}; } } }); return dnsSuffixes; } catch (error) { // console.log('An error occurred trying to bring the Connection-specific DNS suffix', error.message); return { primaryDNS: '', exitCode: 0, ifaces: [], }; } } function getWindowsIfaceDNSsuffix(ifaces, ifacename) { let dnsSuffix = ''; // Adding (.) to ensure ifacename compatibility when duplicated iface-names const interfaceName = ifacename + '.'; try { const connectionDnsSuffix = ifaces.filter((iface) => { return interfaceName.includes(iface.name + '.'); }).map((iface) => iface.dnsSuffix); if (connectionDnsSuffix[0]) { dnsSuffix = connectionDnsSuffix[0]; } if (!dnsSuffix) dnsSuffix = ''; return dnsSuffix; } catch (error) { // console.log('Error getting Connection-specific DNS suffix: ', error.message); return 'Unknown'; } } function getWindowsWiredProfilesInformation() { try { const result = execSync('netsh lan show profiles', util.execOptsWin); const profileList = result.split('\r\nProfile on interface'); return profileList; } catch (error) { if (error.status === 1 && error.stdout.includes('AutoConfig')) { return 'Disabled'; } return []; } } function getWindowsWirelessIfaceSSID(interfaceName) { try { const result = execSync(`netsh wlan show interface name="${interfaceName}" | findstr "SSID"`, util.execOptsWin); const SSID = result.split('\r\n').shift(); const parseSSID = SSID.split(':').pop(); return parseSSID; } catch (error) { return 'Unknown'; } } function getWindowsIEEE8021x(connectionType, iface, ifaces) { let i8021x = { state: 'Unknown', protocol: 'Unknown', }; if (ifaces === 'Disabled') { i8021x.state = 'Disabled'; i8021x.protocol = 'Not defined'; return i8021x; } if (connectionType == 'wired' && ifaces.length > 0) { try { // Get 802.1x information by interface name const iface8021xInfo = ifaces.find((element) => { return element.includes(iface + '\r\n'); }); const arrayIface8021xInfo = iface8021xInfo.split('\r\n'); const state8021x = arrayIface8021xInfo.find((element) => { return element.includes('802.1x'); }); if (state8021x.includes('Disabled')) { i8021x.state = 'Disabled'; i8021x.protocol = 'Not defined'; } else if (state8021x.includes('Enabled')) { const protocol8021x = arrayIface8021xInfo.find((element) => { return element.includes('EAP'); }); i8021x.protocol = protocol8021x.split(':').pop(); i8021x.state = 'Enabled'; } } catch (error) { // console.log('Error getting wired information:', error); return i8021x; } } else if (connectionType == 'wireless') { let i8021xState = ''; let i8021xProtocol = ''; try { const SSID = getWindowsWirelessIfaceSSID(iface); if (SSID !== 'Unknown') { i8021xState = execSync(`netsh wlan show profiles "${SSID}" | findstr "802.1X"`, util.execOptsWin); i8021xProtocol = execSync(`netsh wlan show profiles "${SSID}" | findstr "EAP"`, util.execOptsWin); } if (i8021xState.includes(':') && i8021xProtocol.includes(':')) { i8021x.state = i8021xState.split(':').pop(); i8021x.protocol = i8021xProtocol.split(':').pop(); } } catch (error) { // console.log('Error getting wireless information:', error); if (error.status === 1 && error.stdout.includes('AutoConfig')) { i8021x.state = 'Disabled'; i8021x.protocol = 'Not defined'; } return i8021x; } } return i8021x; } function splitSectionsNics(lines) { const result = []; let section = []; lines.forEach(function (line) { if (!line.startsWith('\t') && !line.startsWith(' ')) { if (section.length) { result.push(section); section = []; } } section.push(line); }); if (section.length) { result.push(section); } return result; } function parseLinesDarwinNics(sections) { let nics = []; sections.forEach(section => { let nic = { iface: '', mtu: -1, mac: '', ip6: '', ip4: '', speed: -1, type: '', operstate: '', duplex: '', internal: false }; const first = section[0]; nic.iface = first.split(':')[0].trim(); let parts = first.split('> mtu'); nic.mtu = parts.length > 1 ? parseInt(parts[1], 10) : -1; if (isNaN(nic.mtu)) { nic.mtu = -1; } nic.internal = parts[0].toLowerCase().indexOf('loopback') > -1; section.forEach(line => { if (line.trim().startsWith('ether ')) { nic.mac = line.split('ether ')[1].toLowerCase().trim(); } if (line.trim().startsWith('inet6 ') && !nic.ip6) { nic.ip6 = line.split('inet6 ')[1].toLowerCase().split('%')[0].split(' ')[0]; } if (line.trim().startsWith('inet ') && !nic.ip4) { nic.ip4 = line.split('inet ')[1].toLowerCase().split(' ')[0]; } }); let speed = util.getValue(section, 'link rate'); nic.speed = speed ? parseFloat(speed) : -1; if (nic.speed === -1) { speed = util.getValue(section, 'uplink rate'); nic.speed = speed ? parseFloat(speed) : -1; if (nic.speed > -1 && speed.toLowerCase().indexOf('gbps') >= 0) { nic.speed = nic.speed * 1000; } } else { if (speed.toLowerCase().indexOf('gbps') >= 0) { nic.speed = nic.speed * 1000; } } nic.type = util.getValue(section, 'type').toLowerCase().indexOf('wi-fi') > -1 ? 'wireless' : 'wired'; nic.operstate = util.getValue(section, 'status').toLowerCase().indexOf('active') > -1 ? 'up' : 'down'; nic.duplex = util.getValue(section, 'media').toLowerCase().indexOf('half-duplex') > -1 ? 'half' : 'full'; if (nic.ip6 || nic.ip4 || nic.mac) { nics.push(nic); } }); return nics; } function getDarwinNics() { const cmd = '/sbin/ifconfig -v'; try { const lines = execSync(cmd, { maxBuffer: 1024 * 20000 }).toString().split('\n'); const nsections = splitSectionsNics(lines); return (parseLinesDarwinNics(nsections)); } catch (e) { return []; } } function getLinuxIfaceConnectionName(interfaceName) { const cmd = `nmcli device status 2>/dev/null | grep ${interfaceName}`; try { const result = execSync(cmd).toString(); const resultFormat = result.replace(/\s+/g, ' ').trim(); const connectionNameLines = resultFormat.split(' ').slice(3); const connectionName = connectionNameLines.join(' '); return connectionName != '--' ? connectionName : ''; } catch (e) { return ''; } } function checkLinuxDCHPInterfaces(file) { let result = []; try { let cmd = `cat ${file} 2> /dev/null | grep 'iface\\|source'`; const lines = execSync(cmd, { maxBuffer: 1024 * 20000 }).toString().split('\n'); lines.forEach(line => { const parts = line.replace(/\s+/g, ' ').trim().split(' '); if (parts.length >= 4) { if (line.toLowerCase().indexOf(' inet ') >= 0 && line.toLowerCase().indexOf('dhcp') >= 0) { result.push(parts[1]); } } if (line.toLowerCase().includes('source')) { let file = line.split(' ')[1]; result = result.concat(checkLinuxDCHPInterfaces(file)); } }); } catch (e) { util.noop(); } return result; } function getLinuxDHCPNics() { // alternate methods getting interfaces using DHCP let cmd = 'ip a 2> /dev/null'; let result = []; try { const lines = execSync(cmd, { maxBuffer: 1024 * 20000 }).toString().split('\n'); const nsections = splitSectionsNics(lines); result = (parseLinuxDHCPNics(nsections)); } catch (e) { util.noop(); } try { result = checkLinuxDCHPInterfaces('/etc/network/interfaces'); } catch (e) { util.noop(); } return result; } function parseLinuxDHCPNics(sections) { const result = []; if (sections && sections.length) { sections.forEach(lines => { if (lines && lines.length) { const parts = lines[0].split(':'); if (parts.length > 2) { for (let line of lines) { if (line.indexOf(' inet ') >= 0 && line.indexOf(' dynamic ') >= 0) { const parts2 = line.split(' '); const nic = parts2[parts2.length - 1].trim(); result.push(nic); break; } } } } }); } return result; } function getLinuxIfaceDHCPstatus(iface, connectionName, DHCPNics) { let result = false; if (connectionName) { const cmd = `nmcli connection show "${connectionName}" 2>/dev/null \| grep ipv4.method;`; try { const lines = execSync(cmd).toString(); const resultFormat = lines.replace(/\s+/g, ' ').trim(); let dhcStatus = resultFormat.split(' ').slice(1).toString(); switch (dhcStatus) { case 'auto': result = true; break; default: result = false; break; } return result; } catch (e) { return (DHCPNics.indexOf(iface) >= 0); } } else { return (DHCPNics.indexOf(iface) >= 0); } } function getDarwinIfaceDHCPstatus(iface) { let result = false; const cmd = `ipconfig getpacket "${iface}" 2>/dev/null \| grep lease_time;`; try { const lines = execSync(cmd).toString().split('\n'); if (lines.length && lines[0].startsWith('lease_time')) { result = true; } } catch (e) { util.noop(); } return result; } function getLinuxIfaceDNSsuffix(connectionName) { if (connectionName) { const cmd = `nmcli connection show "${connectionName}" 2>/dev/null \| grep ipv4.dns-search;`; try { const result = execSync(cmd).toString(); const resultFormat = result.replace(/\s+/g, ' ').trim(); const dnsSuffix = resultFormat.split(' ').slice(1).toString(); return dnsSuffix == '--' ? 'Not defined' : dnsSuffix; } catch (e) { return 'Unknown'; } } else { return 'Unknown'; } } function getLinuxIfaceIEEE8021xAuth(connectionName) { if (connectionName) { const cmd = `nmcli connection show "${connectionName}" 2>/dev/null \| grep 802-1x.eap;`; try { const result = execSync(cmd).toString(); const resultFormat = result.replace(/\s+/g, ' ').trim(); const authenticationProtocol = resultFormat.split(' ').slice(1).toString(); return authenticationProtocol == '--' ? '' : authenticationProtocol; } catch (e) { return 'Not defined'; } } else { return 'Not defined'; } } function getLinuxIfaceIEEE8021xState(authenticationProtocol) { if (authenticationProtocol) { if (authenticationProtocol == 'Not defined') { return 'Disabled'; } return 'Enabled'; } else { return 'Unknown'; } } function testVirtualNic(iface, ifaceName, mac) { const virtualMacs = ['00:00:00:00:00:00', '00:03:FF', '00:05:69', '00:0C:29', '00:0F:4B', '00:0F:4B', '00:13:07', '00:13:BE', '00:15:5d', '00:16:3E', '00:1C:42', '00:21:F6', '00:21:F6', '00:24:0B', '00:24:0B', '00:50:56', '00:A0:B1', '00:E0:C8', '08:00:27', '0A:00:27', '18:92:2C', '16:DF:49', '3C:F3:92', '54:52:00', 'FC:15:97']; if (mac) { return virtualMacs.filter(item => { return mac.toUpperCase().toUpperCase().startsWith(item.substr(0, mac.length)); }).length > 0 || iface.toLowerCase().indexOf(' virtual ') > -1 || ifaceName.toLowerCase().indexOf(' virtual ') > -1 || iface.toLowerCase().indexOf('vethernet ') > -1 || ifaceName.toLowerCase().indexOf('vethernet ') > -1 || iface.toLowerCase().startsWith('veth') || ifaceName.toLowerCase().startsWith('veth') || iface.toLowerCase().startsWith('vboxnet') || ifaceName.toLowerCase().startsWith('vboxnet'); } else return false; } function networkInterfaces(callback, rescan = true) { if (typeof callback === 'boolean') { rescan = callback; callback = null; } return new Promise((resolve) => { process.nextTick(() => { let ifaces = os.networkInterfaces(); let result = []; let nics = []; let dnsSuffixes = []; let nics8021xInfo = []; // seperate handling in OSX if (_darwin || _freebsd || _openbsd || _netbsd) { nics = getDarwinNics(); nics.forEach(nic => { if ({}.hasOwnProperty.call(ifaces, nic.iface)) { ifaces[nic.iface].forEach(function (details) { if (details.family === 'IPv4') { nic.ip4subnet = details.netmask; } if (details.family === 'IPv6') { nic.ip6subnet = details.netmask; } }); } result.push({ iface: nic.iface, ifaceName: nic.iface, ip4: nic.ip4, ip4subnet: nic.ip4subnet || '', ip6: nic.ip6, ip6subnet: nic.ip6subnet || '', mac: nic.mac, internal: nic.internal, virtual: nic.internal ? false : testVirtualNic(nic.iface, nic.iface, nic.mac), operstate: nic.operstate, type: nic.type, duplex: nic.duplex, mtu: nic.mtu, speed: nic.speed, dhcp: getDarwinIfaceDHCPstatus(nic.iface), dnsSuffix: '', ieee8021xAuth: '', ieee8021xState: '', carrierChanges: 0 }); }); _networkInterfaces = result; if (callback) { callback(result); } resolve(result); } else { if ((JSON.stringify(ifaces) === JSON.stringify(_ifaces)) && !rescan) { // no changes - just return object result = _networkInterfaces; if (callback) { callback(result); } resolve(result); } else { _ifaces = Object.assign({}, ifaces); if (_windows) { nics = getWindowsNics(); nics.forEach(nic => { let found = false; Object.keys(ifaces).forEach(key => { if (!found) { ifaces[key].forEach(value => { if (Object.keys(value).indexOf('mac') >= 0) { found = value['mac'] === nic.mac; } }); } }); if (!found) { ifaces[nic.name] = [{ mac: nic.mac }]; } }); nics8021xInfo = getWindowsWiredProfilesInformation(); dnsSuffixes = getWindowsDNSsuffixes(); } if (_linux) { _dhcpNics = getLinuxDHCPNics(); } for (let dev in ifaces) { let ip4 = ''; let ip4subnet = ''; let ip6 = ''; let ip6subnet = ''; let mac = ''; let duplex = ''; let mtu = ''; let speed = -1; let carrierChanges = 0; let operstate = 'down'; let dhcp = false; let dnsSuffix = ''; let ieee8021xAuth = ''; let ieee8021xState = ''; let type = ''; if ({}.hasOwnProperty.call(ifaces, dev)) { let ifaceName = dev; ifaces[dev].forEach(function (details) { if (details.family === 'IPv4') { ip4 = details.address; ip4subnet = details.netmask; } if (details.family === 'IPv6') { if (!ip6 || ip6.match(/^fe80::/i)) { ip6 = details.address; ip6subnet = details.netmask; } } mac = details.mac; // fallback due to https://github.com/nodejs/node/issues/13581 (node 8.1 - node 8.2) if (mac.indexOf('00:00:0') > -1 && (_linux || _darwin) && parseInt(process.versions.node.split('.'), 10) === 8) { if (Object.keys(_mac).length === 0) { _mac = getMacAddresses(); } mac = _mac[dev] || ''; } }); if (_linux) { let iface = dev.split(':')[0].trim().toLowerCase(); const cmd = `echo -n "addr_assign_type: "; cat /sys/class/net/${iface}/addr_assign_type 2>/dev/null; echo; echo -n "address: "; cat /sys/class/net/${iface}/address 2>/dev/null; echo; echo -n "addr_len: "; cat /sys/class/net/${iface}/addr_len 2>/dev/null; echo; echo -n "broadcast: "; cat /sys/class/net/${iface}/broadcast 2>/dev/null; echo; echo -n "carrier: "; cat /sys/class/net/${iface}/carrier 2>/dev/null; echo; echo -n "carrier_changes: "; cat /sys/class/net/${iface}/carrier_changes 2>/dev/null; echo; echo -n "dev_id: "; cat /sys/class/net/${iface}/dev_id 2>/dev/null; echo; echo -n "dev_port: "; cat /sys/class/net/${iface}/dev_port 2>/dev/null; echo; echo -n "dormant: "; cat /sys/class/net/${iface}/dormant 2>/dev/null; echo; echo -n "duplex: "; cat /sys/class/net/${iface}/duplex 2>/dev/null; echo; echo -n "flags: "; cat /sys/class/net/${iface}/flags 2>/dev/null; echo; echo -n "gro_flush_timeout: "; cat /sys/class/net/${iface}/gro_flush_timeout 2>/dev/null; echo; echo -n "ifalias: "; cat /sys/class/net/${iface}/ifalias 2>/dev/null; echo; echo -n "ifindex: "; cat /sys/class/net/${iface}/ifindex 2>/dev/null; echo; echo -n "iflink: "; cat /sys/class/net/${iface}/iflink 2>/dev/null; echo; echo -n "link_mode: "; cat /sys/class/net/${iface}/link_mode 2>/dev/null; echo; echo -n "mtu: "; cat /sys/class/net/${iface}/mtu 2>/dev/null; echo; echo -n "netdev_group: "; cat /sys/class/net/${iface}/netdev_group 2>/dev/null; echo; echo -n "operstate: "; cat /sys/class/net/${iface}/operstate 2>/dev/null; echo; echo -n "proto_down: "; cat /sys/class/net/${iface}/proto_down 2>/dev/null; echo; echo -n "speed: "; cat /sys/class/net/${iface}/speed 2>/dev/null; echo; echo -n "tx_queue_len: "; cat /sys/class/net/${iface}/tx_queue_len 2>/dev/null; echo; echo -n "type: "; cat /sys/class/net/${iface}/type 2>/dev/null; echo; echo -n "wireless: "; cat /proc/net/wireless 2>/dev/null \| grep ${iface}; echo; echo -n "wirelessspeed: "; iw dev ${iface} link 2>&1 \| grep bitrate; echo;`; let lines = []; try { lines = execSync(cmd).toString().split('\n'); const connectionName = getLinuxIfaceConnectionName(iface); dhcp = getLinuxIfaceDHCPstatus(iface, connectionName, _dhcpNics); dnsSuffix = getLinuxIfaceDNSsuffix(connectionName); ieee8021xAuth = getLinuxIfaceIEEE8021xAuth(connectionName); ieee8021xState = getLinuxIfaceIEEE8021xState(ieee8021xAuth); } catch (e) { util.noop(); } duplex = util.getValue(lines, 'duplex'); duplex = duplex.startsWith('cat') ? '' : duplex; mtu = parseInt(util.getValue(lines, 'mtu'), 10); let myspeed = parseInt(util.getValue(lines, 'speed'), 10); speed = isNaN(myspeed) ? -1 : myspeed; let wirelessspeed = util.getValue(lines, 'wirelessspeed').split('tx bitrate: '); if (speed === -1 && wirelessspeed.length === 2) { myspeed = parseFloat(wirelessspeed[1]); speed = isNaN(myspeed) ? -1 : myspeed; } carrierChanges = parseInt(util.getValue(lines, 'carrier_changes'), 10); operstate = util.getValue(lines, 'operstate'); type = operstate === 'up' ? (util.getValue(lines, 'wireless').trim() ? 'wireless' : 'wired') : 'unknown'; if (iface === 'lo' || iface.startsWith('bond')) { type = 'virtual'; } } if (_windows) { dnsSuffix = getWindowsIfaceDNSsuffix(dnsSuffixes.ifaces, dev); nics.forEach(detail => { if (detail.mac === mac) { ifaceName = detail.name; dhcp = detail.dhcp; operstate = detail.operstate; speed = detail.speed; type = detail.type; } }); if (dev.toLowerCase().indexOf('wlan') >= 0 || ifaceName.toLowerCase().indexOf('wlan') >= 0 || ifaceName.toLowerCase().indexOf('802.11n') >= 0 || ifaceName.toLowerCase().indexOf('wireless') >= 0 || ifaceName.toLowerCase().indexOf('wi-fi') >= 0 || ifaceName.toLowerCase().indexOf('wifi') >= 0) { type = 'wireless'; } const IEEE8021x = getWindowsIEEE8021x(type, dev, nics8021xInfo); ieee8021xAuth = IEEE8021x.protocol; ieee8021xState = IEEE8021x.state; } let internal = (ifaces[dev] && ifaces[dev][0]) ? ifaces[dev][0].internal : false; if (dev.toLowerCase().indexOf('loopback') > -1 || ifaceName.toLowerCase().indexOf('loopback') > -1) { internal = true; } const virtual = internal ? false : testVirtualNic(dev, ifaceName, mac); result.push({ iface: dev, ifaceName, ip4, ip4subnet, ip6, ip6subnet, mac, internal, virtual, operstate, type, duplex, mtu, speed, dhcp, dnsSuffix, ieee8021xAuth, ieee8021xState, carrierChanges, }); } } _networkInterfaces = result; if (callback) { callback(result); } resolve(result); } } }); }); } exports.networkInterfaces = networkInterfaces; // -------------------------- // NET - Speed function calcNetworkSpeed(iface, rx_bytes, tx_bytes, operstate, rx_dropped, rx_errors, tx_dropped, tx_errors) { let result = { iface, operstate, rx_bytes, rx_dropped, rx_errors, tx_bytes, tx_dropped, tx_errors, rx_sec: -1, tx_sec: -1, ms: 0 }; if (_network[iface] && _network[iface].ms) { result.ms = Date.now() - _network[iface].ms; result.rx_sec = (rx_bytes - _network[iface].rx_bytes) >= 0 ? (rx_bytes - _network[iface].rx_bytes) / (result.ms / 1000) : 0; result.tx_sec = (tx_bytes - _network[iface].tx_bytes) >= 0 ? (tx_bytes - _network[iface].tx_bytes) / (result.ms / 1000) : 0; _network[iface].rx_bytes = rx_bytes; _network[iface].tx_bytes = tx_bytes; _network[iface].rx_sec = result.rx_sec; _network[iface].tx_sec = result.tx_sec; _network[iface].ms = Date.now(); _network[iface].last_ms = result.ms; _network[iface].operstate = operstate; } else { if (!_network[iface]) _network[iface] = {}; _network[iface].rx_bytes = rx_bytes; _network[iface].tx_bytes = tx_bytes; _network[iface].rx_sec = -1; _network[iface].tx_sec = -1; _network[iface].ms = Date.now(); _network[iface].last_ms = 0; _network[iface].operstate = operstate; } return result; } function networkStats(ifaces, callback) { let ifacesArray = []; // fallback - if only callback is given if (util.isFunction(ifaces) && !callback) { callback = ifaces; ifacesArray = [getDefaultNetworkInterface()]; } else { ifaces = ifaces || getDefaultNetworkInterface(); ifaces = ifaces.trim().toLowerCase().replace(/,+/g, '|'); ifacesArray = ifaces.split('|'); } return new Promise((resolve) => { process.nextTick(() => { const result = []; const workload = []; if (ifacesArray.length && ifacesArray[0].trim() === '*') { ifacesArray = []; networkInterfaces(false).then(allIFaces => { for (let iface of allIFaces) { ifacesArray.push(iface.iface); } networkStats(ifacesArray.join(',')).then(result => { if (callback) { callback(result); } resolve(result); }); }); } else { for (let iface of ifacesArray) { workload.push(networkStatsSingle(iface.trim())); } if (workload.length) { Promise.all( workload ).then(data => { if (callback) { callback(data); } resolve(data); }); } else { if (callback) { callback(result); } resolve(result); } } }); }); } function networkStatsSingle(iface) { function parseLinesWindowsPerfData(sections) { let perfData = []; for (let i in sections) { if ({}.hasOwnProperty.call(sections, i)) { if (sections[i].trim() !== '') { let lines = sections[i].trim().split('\r\n'); perfData.push({ name: util.getValue(lines, 'Name', '=').replace(/[()\[\] ]+/g, '').replace('#', '_').toLowerCase(), rx_bytes: parseInt(util.getValue(lines, 'BytesReceivedPersec', '='), 10), rx_errors: parseInt(util.getValue(lines, 'PacketsReceivedErrors', '='), 10), rx_dropped: parseInt(util.getValue(lines, 'PacketsReceivedDiscarded', '='), 10), tx_bytes: parseInt(util.getValue(lines, 'BytesSentPersec', '='), 10), tx_errors: parseInt(util.getValue(lines, 'PacketsOutboundErrors', '='), 10), tx_dropped: parseInt(util.getValue(lines, 'PacketsOutboundDiscarded', '='), 10) }); } } } return perfData; } return new Promise((resolve) => { process.nextTick(() => { let ifaceSanitized = ''; const s = util.isPrototypePolluted() ? '---' : util.sanitizeShellString(iface); for (let i = 0; i <= 2000; i++) { if (!(s[i] === undefined)) { ifaceSanitized = ifaceSanitized + s[i]; } } let result = { iface: ifaceSanitized, operstate: 'unknown', rx_bytes: 0, rx_dropped: 0, rx_errors: 0, tx_bytes: 0, tx_dropped: 0, tx_errors: 0, rx_sec: -1, tx_sec: -1, ms: 0 }; let operstate = 'unknown'; let rx_bytes = 0; let tx_bytes = 0; let rx_dropped = 0; let rx_errors = 0; let tx_dropped = 0; let tx_errors = 0; let cmd, lines, stats; if (!_network[ifaceSanitized] || (_network[ifaceSanitized] && !_network[ifaceSanitized].ms) || (_network[ifaceSanitized] && _network[ifaceSanitized].ms && Date.now() - _network[ifaceSanitized].ms >= 500)) { if (_linux) { if (fs.existsSync('/sys/class/net/' + ifaceSanitized)) { cmd = 'cat /sys/class/net/' + ifaceSanitized + '/operstate; ' + 'cat /sys/class/net/' + ifaceSanitized + '/statistics/rx_bytes; ' + 'cat /sys/class/net/' + ifaceSanitized + '/statistics/tx_bytes; ' + 'cat /sys/class/net/' + ifaceSanitized + '/statistics/rx_dropped; ' + 'cat /sys/class/net/' + ifaceSanitized + '/statistics/rx_errors; ' + 'cat /sys/class/net/' + ifaceSanitized + '/statistics/tx_dropped; ' + 'cat /sys/class/net/' + ifaceSanitized + '/statistics/tx_errors; '; exec(cmd, function (error, stdout) { if (!error) { lines = stdout.toString().split('\n'); operstate = lines[0].trim(); rx_bytes = parseInt(lines[1], 10); tx_bytes = parseInt(lines[2], 10); rx_dropped = parseInt(lines[3], 10); rx_errors = parseInt(lines[4], 10); tx_dropped = parseInt(lines[5], 10); tx_errors = parseInt(lines[6], 10); result = calcNetworkSpeed(ifaceSanitized, rx_bytes, tx_bytes, operstate, rx_dropped, rx_errors, tx_dropped, tx_errors); } resolve(result); }); } else { resolve(result); } } if (_freebsd || _openbsd || _netbsd) { cmd = 'netstat -ibndI ' + ifaceSanitized; // lgtm [js/shell-command-constructed-from-input] exec(cmd, function (error, stdout) { if (!error) { lines = stdout.toString().split('\n'); for (let i = 1; i < lines.length; i++) { const line = lines[i].replace(/ +/g, ' ').split(' '); if (line && line[0] && line[7] && line[10]) { rx_bytes = rx_bytes + parseInt(line[7]); if (line[6].trim() !== '-') { rx_dropped = rx_dropped + parseInt(line[6]); } if (line[5].trim() !== '-') { rx_errors = rx_errors + parseInt(line[5]); } tx_bytes = tx_bytes + parseInt(line[10]); if (line[12].trim() !== '-') { tx_dropped = tx_dropped + parseInt(line[12]); } if (line[9].trim() !== '-') { tx_errors = tx_errors + parseInt(line[9]); } operstate = 'up'; } } result = calcNetworkSpeed(ifaceSanitized, rx_bytes, tx_bytes, operstate, rx_dropped, rx_errors, tx_dropped, tx_errors); } resolve(result); }); } if (_darwin) { cmd = 'ifconfig ' + ifaceSanitized + ' | grep "status"'; // lgtm [js/shell-command-constructed-from-input] exec(cmd, function (error, stdout) { result.operstate = (stdout.toString().split(':')[1] || '').trim(); result.operstate = (result.operstate || '').toLowerCase(); result.operstate = (result.operstate === 'active' ? 'up' : (result.operstate === 'inactive' ? 'down' : 'unknown')); cmd = 'netstat -bdI ' + ifaceSanitized; // lgtm [js/shell-command-constructed-from-input] exec(cmd, function (error, stdout) { if (!error) { lines = stdout.toString().split('\n'); // if there is less than 2 lines, no information for this interface was found if (lines.length > 1 && lines[1].trim() !== '') { // skip header line // use the second line because it is tied to the NIC instead of the ipv4 or ipv6 address stats = lines[1].replace(/ +/g, ' ').split(' '); const offset = stats.length > 11 ? 1 : 0; rx_bytes = parseInt(stats[offset + 5]); rx_dropped = parseInt(stats[offset + 10]); rx_errors = parseInt(stats[offset + 4]); tx_bytes = parseInt(stats[offset + 8]); tx_dropped = parseInt(stats[offset + 10]); tx_errors = parseInt(stats[offset + 7]); result = calcNetworkSpeed(ifaceSanitized, rx_bytes, tx_bytes, result.operstate, rx_dropped, rx_errors, tx_dropped, tx_errors); } } resolve(result); }); }); } if (_windows) { let perfData = []; let ifaceName = ifaceSanitized; // Performance Data util.wmic('path Win32_PerfRawData_Tcpip_NetworkInterface Get name,BytesReceivedPersec,BytesSentPersec,BytesTotalPersec,PacketsOutboundDiscarded,PacketsOutboundErrors,PacketsReceivedDiscarded,PacketsReceivedErrors /value').then((stdout, error) => { if (!error) { const psections = stdout.toString().split(/\n\s*\n/); perfData = parseLinesWindowsPerfData(psections); } // Network Interfaces networkInterfaces(false).then(interfaces => { // get bytes sent, received from perfData by name rx_bytes = 0; tx_bytes = 0; perfData.forEach(detail => { interfaces.forEach(det => { if ((det.iface.toLowerCase() === ifaceSanitized.toLowerCase() || det.mac.toLowerCase() === ifaceSanitized.toLowerCase() || det.ip4.toLowerCase() === ifaceSanitized.toLowerCase() || det.ip6.toLowerCase() === ifaceSanitized.toLowerCase() || det.ifaceName.replace(/[()\[\] ]+/g, '').replace('#', '_').toLowerCase() === ifaceSanitized.replace(/[()\[\] ]+/g, '').replace('#', '_').toLowerCase()) && (det.ifaceName.replace(/[()\[\] ]+/g, '').replace('#', '_').toLowerCase() === detail.name)) { ifaceName = det.iface; rx_bytes = detail.rx_bytes; rx_dropped = detail.rx_dropped; rx_errors = detail.rx_errors; tx_bytes = detail.tx_bytes; tx_dropped = detail.tx_dropped; tx_errors = detail.tx_errors; operstate = det.operstate; } }); }); if (rx_bytes && tx_bytes) { result = calcNetworkSpeed(ifaceName, parseInt(rx_bytes), parseInt(tx_bytes), operstate, rx_dropped, rx_errors, tx_dropped, tx_errors); } resolve(result); }); }); } } else { result.rx_bytes = _network[ifaceSanitized].rx_bytes; result.tx_bytes = _network[ifaceSanitized].tx_bytes; result.rx_sec = _network[ifaceSanitized].rx_sec; result.tx_sec = _network[ifaceSanitized].tx_sec; result.ms = _network[ifaceSanitized].last_ms; result.operstate = _network[ifaceSanitized].operstate; resolve(result); } }); }); } exports.networkStats = networkStats; // -------------------------- // NET - connections (sockets) function networkConnections(callback) { return new Promise((resolve) => { process.nextTick(() => { let result = []; if (_linux || _freebsd || _openbsd || _netbsd) { let cmd = 'export LC_ALL=C; netstat -tunap | grep "ESTABLISHED\\|SYN_SENT\\|SYN_RECV\\|FIN_WAIT1\\|FIN_WAIT2\\|TIME_WAIT\\|CLOSE\\|CLOSE_WAIT\\|LAST_ACK\\|LISTEN\\|CLOSING\\|UNKNOWN"; unset LC_ALL'; if (_freebsd || _openbsd || _netbsd) cmd = 'export LC_ALL=C; netstat -na | grep "ESTABLISHED\\|SYN_SENT\\|SYN_RECV\\|FIN_WAIT1\\|FIN_WAIT2\\|TIME_WAIT\\|CLOSE\\|CLOSE_WAIT\\|LAST_ACK\\|LISTEN\\|CLOSING\\|UNKNOWN"; unset LC_ALL'; exec(cmd, { maxBuffer: 1024 * 20000 }, function (error, stdout) { let lines = stdout.toString().split('\n'); if (!error && (lines.length > 1 || lines[0] != '')) { lines.forEach(function (line) { line = line.replace(/ +/g, ' ').split(' '); if (line.length >= 7) { let localip = line[3]; let localport = ''; let localaddress = line[3].split(':'); if (localaddress.length > 1) { localport = localaddress[localaddress.length - 1]; localaddress.pop(); localip = localaddress.join(':'); } let peerip = line[4]; let peerport = ''; let peeraddress = line[4].split(':'); if (peeraddress.length > 1) { peerport = peeraddress[peeraddress.length - 1]; peeraddress.pop(); peerip = peeraddress.join(':'); } let connstate = line[5]; // if (connstate === 'VERBUNDEN') connstate = 'ESTABLISHED'; let proc = line[6].split('/'); if (connstate) { result.push({ protocol: line[0], localaddress: localip, localport: localport, peeraddress: peerip, peerport: peerport, state: connstate, pid: proc[0] && proc[0] !== '-' ? parseInt(proc[0], 10) : -1, process: proc[1] ? proc[1].split(' ')[0] : '' }); } } }); if (callback) { callback(result); } resolve(result); } else { cmd = 'ss -tunap | grep "ESTAB\\|SYN-SENT\\|SYN-RECV\\|FIN-WAIT1\\|FIN-WAIT2\\|TIME-WAIT\\|CLOSE\\|CLOSE-WAIT\\|LAST-ACK\\|LISTEN\\|CLOSING"'; exec(cmd, { maxBuffer: 1024 * 20000 }, function (error, stdout) { if (!error) { let lines = stdout.toString().split('\n'); lines.forEach(function (line) { line = line.replace(/ +/g, ' ').split(' '); if (line.length >= 6) { let localip = line[4]; let localport = ''; let localaddress = line[4].split(':'); if (localaddress.length > 1) { localport = localaddress[localaddress.length - 1]; localaddress.pop(); localip = localaddress.join(':'); } let peerip = line[5]; let peerport = ''; let peeraddress = line[5].split(':'); if (peeraddress.length > 1) { peerport = peeraddress[peeraddress.length - 1]; peeraddress.pop(); peerip = peeraddress.join(':'); } let connstate = line[1]; if (connstate === 'ESTAB') connstate = 'ESTABLISHED'; if (connstate === 'TIME-WAIT') connstate = 'TIME_WAIT'; let pid = -1; let process = ''; if (line.length >= 7 && line[6].indexOf('users:') > -1) { let proc = line[6].replace('users:(("', '').replace(/"/g, '').split(','); if (proc.length > 2) { process = proc[0].split(' ')[0]; pid = parseInt(proc[1], 10); } } if (connstate) { result.push({ protocol: line[0], localaddress: localip, localport: localport, peeraddress: peerip, peerport: peerport, state: connstate, pid, process }); } } }); } if (callback) { callback(result); } resolve(result); }); } }); } if (_darwin) { let cmd = 'netstat -natv | grep "ESTABLISHED\\|SYN_SENT\\|SYN_RECV\\|FIN_WAIT1\\|FIN_WAIT2\\|TIME_WAIT\\|CLOSE\\|CLOSE_WAIT\\|LAST_ACK\\|LISTEN\\|CLOSING\\|UNKNOWN"'; exec(cmd, { maxBuffer: 1024 * 20000 }, function (error, stdout) { if (!error) { let lines = stdout.toString().split('\n'); lines.forEach(function (line) { line = line.replace(/ +/g, ' ').split(' '); if (line.length >= 8) { let localip = line[3]; let localport = ''; let localaddress = line[3].split('.'); if (localaddress.length > 1) { localport = localaddress[localaddress.length - 1]; localaddress.pop(); localip = localaddress.join('.'); } let peerip = line[4]; let peerport = ''; let peeraddress = line[4].split('.'); if (peeraddress.length > 1) { peerport = peeraddress[peeraddress.length - 1]; peeraddress.pop(); peerip = peeraddress.join('.'); } let connstate = line[5]; let pid = parseInt(line[8], 10); if (connstate) { result.push({ protocol: line[0], localaddress: localip, localport: localport, peeraddress: peerip, peerport: peerport, state: connstate, pid: pid, process: '' }); } } }); if (callback) { callback(result); } resolve(result); } }); } if (_windows) { let cmd = 'netstat -nao'; try { exec(cmd, util.execOptsWin, function (error, stdout) { if (!error) { let lines = stdout.toString().split('\r\n'); lines.forEach(function (line) { line = line.trim().replace(/ +/g, ' ').split(' '); if (line.length >= 4) { let localip = line[1]; let localport = ''; let localaddress = line[1].split(':'); if (localaddress.length > 1) { localport = localaddress[localaddress.length - 1]; localaddress.pop(); localip = localaddress.join(':'); } let peerip = line[2]; let peerport = ''; let peeraddress = line[2].split(':'); if (peeraddress.length > 1) { peerport = peeraddress[peeraddress.length - 1]; peeraddress.pop(); peerip = peeraddress.join(':'); } let pid = line[4]; let connstate = line[3]; if (connstate === 'HERGESTELLT') connstate = 'ESTABLISHED'; if (connstate.startsWith('ABH')) connstate = 'LISTEN'; if (connstate === 'SCHLIESSEN_WARTEN') connstate = 'CLOSE_WAIT'; if (connstate === 'WARTEND') connstate = 'TIME_WAIT'; if (connstate === 'SYN_GESENDET') connstate = 'SYN_SENT'; if (connstate === 'LISTENING') connstate = 'LISTEN'; if (connstate === 'SYN_RECEIVED') connstate = 'SYN_RECV'; if (connstate === 'FIN_WAIT_1') connstate = 'FIN_WAIT1'; if (connstate === 'FIN_WAIT_2') connstate = 'FIN_WAIT2'; if (connstate) { result.push({ protocol: line[0].toLowerCase(), localaddress: localip, localport: localport, peeraddress: peerip, peerport: peerport, state: connstate, pid, process: '' }); } } }); if (callback) { callback(result); } resolve(result); } }); } catch (e) { if (callback) { callback(result); } resolve(result); } } }); }); } exports.networkConnections = networkConnections; function networkGatewayDefault(callback) { return new Promise((resolve) => { process.nextTick(() => { let result = ''; if (_linux || _freebsd || _openbsd || _netbsd) { let cmd = 'ip route get 1'; try { exec(cmd, { maxBuffer: 1024 * 20000 }, function (error, stdout) { if (!error) { let lines = stdout.toString().split('\n'); const line = lines && lines[0] ? lines[0] : ''; let parts = line.split(' via '); if (parts && parts[1]) { parts = parts[1].split(' '); result = parts[0]; } if (callback) { callback(result); } resolve(result); } else { if (callback) { callback(result); } resolve(result); } }); } catch (e) { if (callback) { callback(result); } resolve(result); } } if (_darwin) { let cmd = 'route -n get default'; try { exec(cmd, { maxBuffer: 1024 * 20000 }, function (error, stdout) { if (!error) { let lines = stdout.toString().split('\n').map(line => line.trim()); result = util.getValue(lines, 'gateway'); if (callback) { callback(result); } resolve(result); } else { if (callback) { callback(result); } resolve(result); } }); } catch (e) { if (callback) { callback(result); } resolve(result); } } if (_windows) { try { exec('netstat -r', util.execOptsWin, function (error, stdout) { const lines = stdout.toString().split(os.EOL); lines.forEach(line => { line = line.replace(/\s+/g, ' ').trim(); if (line.indexOf('0.0.0.0 0.0.0.0') > -1 && !(/[a-zA-Z]/.test(line))) { const parts = line.split(' '); if (parts.length >= 5 && (parts[parts.length - 3]).indexOf('.') > -1) { result = parts[parts.length - 3]; } } }); if (!result) { util.powerShell('Get-CimInstance -ClassName Win32_IP4RouteTable | Where-Object { $_.Destination -eq \'0.0.0.0\' -and $_.Mask -eq \'0.0.0.0\' }') .then(data => { let lines = data.toString().split('\r\n'); if (lines.length > 1 && !result) { result = util.getValue(lines, 'NextHop'); if (callback) { callback(result); } resolve(result); // } else { // exec('ipconfig', util.execOptsWin, function (error, stdout) { // let lines = stdout.toString().split('\r\n'); // lines.forEach(function (line) { // line = line.trim().replace(/\. /g, ''); // line = line.trim().replace(/ +/g, ''); // const parts = line.split(':'); // if ((parts[0].toLowerCase().startsWith('standardgate') || parts[0].toLowerCase().indexOf('gateway') > -1 || parts[0].toLowerCase().indexOf('enlace') > -1) && parts[1]) { // result = parts[1]; // } // }); // if (callback) { callback(result); } // resolve(result); // }); } }); } else { if (callback) { callback(result); } resolve(result); } }); } catch (e) { if (callback) { callback(result); } resolve(result); } } }); }); } exports.networkGatewayDefault = networkGatewayDefault;