'use strict'; // @ts-check // ================================================================================== // system.js // ---------------------------------------------------------------------------------- // Description: System Information - library // for Node.js // Copyright: (c) 2014 - 2022 // Author: Sebastian Hildebrandt // ---------------------------------------------------------------------------------- // License: MIT // ================================================================================== // 2. System (Hardware, BIOS, Base Board) // ---------------------------------------------------------------------------------- const fs = require('fs'); const os = require('os'); const util = require('./util'); const exec = require('child_process').exec; const execSync = require('child_process').execSync; const execPromise = util.promisify(require('child_process').exec); let _platform = process.platform; const _linux = (_platform === 'linux' || _platform === 'android'); const _darwin = (_platform === 'darwin'); const _windows = (_platform === 'win32'); const _freebsd = (_platform === 'freebsd'); const _openbsd = (_platform === 'openbsd'); const _netbsd = (_platform === 'netbsd'); const _sunos = (_platform === 'sunos'); function system(callback) { return new Promise((resolve) => { process.nextTick(() => { let result = { manufacturer: '', model: 'Computer', version: '', serial: '-', uuid: '-', sku: '-', virtual: false }; if (_linux || _freebsd || _openbsd || _netbsd) { exec('export LC_ALL=C; dmidecode -t system 2>/dev/null; unset LC_ALL', function (error, stdout) { // if (!error) { let lines = stdout.toString().split('\n'); result.manufacturer = util.getValue(lines, 'manufacturer'); result.model = util.getValue(lines, 'product name'); result.version = util.getValue(lines, 'version'); result.serial = util.getValue(lines, 'serial number'); result.uuid = util.getValue(lines, 'uuid').toLowerCase(); result.sku = util.getValue(lines, 'sku number'); // } // Non-Root values const cmd = `echo -n "product_name: "; cat /sys/devices/virtual/dmi/id/product_name 2>/dev/null; echo; echo -n "product_serial: "; cat /sys/devices/virtual/dmi/id/product_serial 2>/dev/null; echo; echo -n "product_uuid: "; cat /sys/devices/virtual/dmi/id/product_uuid 2>/dev/null; echo; echo -n "product_version: "; cat /sys/devices/virtual/dmi/id/product_version 2>/dev/null; echo; echo -n "sys_vendor: "; cat /sys/devices/virtual/dmi/id/sys_vendor 2>/dev/null; echo;`; try { lines = execSync(cmd).toString().split('\n'); result.manufacturer = result.manufacturer === '' ? util.getValue(lines, 'sys_vendor') : result.manufacturer; result.model = result.model === '' ? util.getValue(lines, 'product_name') : result.model; result.version = result.version === '' ? util.getValue(lines, 'product_version') : result.version; result.serial = result.serial === '' ? util.getValue(lines, 'product_serial') : result.serial; result.uuid = result.uuid === '' ? util.getValue(lines, 'product_uuid').toLowerCase() : result.uuid; } catch (e) { util.noop(); } if (!result.serial || result.serial.toLowerCase().indexOf('o.e.m.') !== -1) { result.serial = '-'; } if (!result.manufacturer || result.manufacturer.toLowerCase().indexOf('o.e.m.') !== -1) { result.manufacturer = ''; } if (!result.model || result.model.toLowerCase().indexOf('o.e.m.') !== -1) { result.model = 'Computer'; } if (!result.version || result.version.toLowerCase().indexOf('o.e.m.') !== -1) { result.version = ''; } if (!result.sku || result.sku.toLowerCase().indexOf('o.e.m.') !== -1) { result.sku = '-'; } // detect virtual (1) if (result.model.toLowerCase() === 'virtualbox' || result.model.toLowerCase() === 'kvm' || result.model.toLowerCase() === 'virtual machine' || result.model.toLowerCase() === 'bochs' || result.model.toLowerCase().startsWith('vmware') || result.model.toLowerCase().startsWith('droplet')) { result.virtual = true; switch (result.model.toLowerCase()) { case 'virtualbox': result.virtualHost = 'VirtualBox'; break; case 'vmware': result.virtualHost = 'VMware'; break; case 'kvm': result.virtualHost = 'KVM'; break; case 'bochs': result.virtualHost = 'bochs'; break; } } if (result.manufacturer.toLowerCase().startsWith('vmware') || result.manufacturer.toLowerCase() === 'xen') { result.virtual = true; switch (result.manufacturer.toLowerCase()) { case 'vmware': result.virtualHost = 'VMware'; break; case 'xen': result.virtualHost = 'Xen'; break; } } if (!result.virtual) { try { const disksById = execSync('ls -1 /dev/disk/by-id/ 2>/dev/null').toString(); if (disksById.indexOf('_QEMU_') >= 0) { result.virtual = true; result.virtualHost = 'QEMU'; } if (disksById.indexOf('_VBOX_') >= 0) { result.virtual = true; result.virtualHost = 'VirtualBox'; } } catch (e) { util.noop(); } } if (!result.virtual && (os.release().toLowerCase().indexOf('microsoft') >= 0 || os.release().toLowerCase().endsWith('wsl2'))) { const kernelVersion = parseFloat(os.release().toLowerCase()); result.virtual = true; result.manufacturer = 'Microsoft'; result.model = 'WSL'; result.version = kernelVersion < 4.19 ? '1' : '2'; } if ((_freebsd || _openbsd || _netbsd) && !result.virtualHost) { try { const procInfo = execSync('dmidecode -t 4'); const procLines = procInfo.toString().split('\n'); const procManufacturer = util.getValue(procLines, 'manufacturer', ':', true); switch (procManufacturer.toLowerCase()) { case 'virtualbox': result.virtualHost = 'VirtualBox'; break; case 'vmware': result.virtualHost = 'VMware'; break; case 'kvm': result.virtualHost = 'KVM'; break; case 'bochs': result.virtualHost = 'bochs'; break; } } catch (e) { util.noop(); } } // detect docker if (fs.existsSync('/.dockerenv') || fs.existsSync('/.dockerinit')) { result.model = 'Docker Container'; } try { const stdout = execSync('dmesg 2>/dev/null | grep -iE "virtual|hypervisor" | grep -iE "vmware|qemu|kvm|xen" | grep -viE "Nested Virtualization|/virtual/"'); // detect virtual machines let lines = stdout.toString().split('\n'); if (lines.length > 0) { if (result.model === 'Computer') { result.model = 'Virtual machine'; } result.virtual = true; if (stdout.toString().toLowerCase().indexOf('vmware') >= 0 && !result.virtualHost) { result.virtualHost = 'VMware'; } if (stdout.toString().toLowerCase().indexOf('qemu') >= 0 && !result.virtualHost) { result.virtualHost = 'QEMU'; } if (stdout.toString().toLowerCase().indexOf('xen') >= 0 && !result.virtualHost) { result.virtualHost = 'Xen'; } if (stdout.toString().toLowerCase().indexOf('kvm') >= 0 && !result.virtualHost) { result.virtualHost = 'KVM'; } } } catch (e) { util.noop(); } if (result.manufacturer === '' && result.model === 'Computer' && result.version === '') { // Check Raspberry Pi fs.readFile('/proc/cpuinfo', function (error, stdout) { if (!error) { let lines = stdout.toString().split('\n'); result.model = util.getValue(lines, 'hardware', ':', true).toUpperCase(); result.version = util.getValue(lines, 'revision', ':', true).toLowerCase(); result.serial = util.getValue(lines, 'serial', ':', true); const model = util.getValue(lines, 'model:', ':', true); // reference values: https://elinux.org/RPi_HardwareHistory // https://www.raspberrypi.org/documentation/hardware/raspberrypi/revision-codes/README.md if ((result.model === 'BCM2835' || result.model === 'BCM2708' || result.model === 'BCM2709' || result.model === 'BCM2710' || result.model === 'BCM2711' || result.model === 'BCM2836' || result.model === 'BCM2837') && model.toLowerCase().indexOf('raspberry') >= 0) { const rPIRevision = util.decodePiCpuinfo(lines); result.model = rPIRevision.model; result.version = rPIRevision.revisionCode; result.manufacturer = 'Raspberry Pi Foundation'; result.raspberry = { manufacturer: rPIRevision.manufacturer, processor: rPIRevision.processor, type: rPIRevision.type, revision: rPIRevision.revision }; } // if (result.model === 'BCM2835' || result.model === 'BCM2708' || result.model === 'BCM2709' || result.model === 'BCM2835' || result.model === 'BCM2837') { // // Pi 4 // if (['d03114'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi 4 Model B'; // result.version = result.version + ' - Rev. 1.4'; // } // if (['b03112', 'c03112'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi 4 Model B'; // result.version = result.version + ' - Rev. 1.2'; // } // if (['a03111', 'b03111', 'c03111'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi 4 Model B'; // result.version = result.version + ' - Rev. 1.1'; // } // // Pi 3 // if (['a02082', 'a22082', 'a32082', 'a52082'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi 3 Model B'; // result.version = result.version + ' - Rev. 1.2'; // } // if (['a22083'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi 3 Model B'; // result.version = result.version + ' - Rev. 1.3'; // } // if (['a020d3'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi 3 Model B+'; // result.version = result.version + ' - Rev. 1.3'; // } // if (['9020e0'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi 3 Model A+'; // result.version = result.version + ' - Rev. 1.3'; // } // // Pi 2 Model B // if (['a01040'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi 2 Model B'; // result.version = result.version + ' - Rev. 1.0'; // } // if (['a01041', 'a21041'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi 2 Model B'; // result.version = result.version + ' - Rev. 1.1'; // } // if (['a22042', 'a02042'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi 2 Model B'; // result.version = result.version + ' - Rev. 1.2'; // } // // Compute Model // if (['a02100'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi CM3+'; // result.version = result.version + ' - Rev 1.0'; // } // if (['a020a0', 'a220a0'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi CM3'; // result.version = result.version + ' - Rev 1.0'; // } // if (['900061'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi CM'; // result.version = result.version + ' - Rev 1.1'; // } // // Pi Zero // if (['900092', '920092'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi Zero'; // result.version = result.version + ' - Rev 1.2'; // } // if (['900093', '920093'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi Zero'; // result.version = result.version + ' - Rev 1.3'; // } // if (['9000c1'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi Zero W'; // result.version = result.version + ' - Rev 1.1'; // } // // A, B, A+ B+ // if (['0002', '0003'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi Model B'; // result.version = result.version + ' - Rev 1.0'; // } // if (['0004', '0005', '0006', '000d', '000e', '000f'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi Model B'; // result.version = result.version + ' - Rev 2.0'; // } // if (['0007', '0008', '0009'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi Model A'; // result.version = result.version + ' - Rev 2.0'; // } // if (['0010'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi Model B+'; // result.version = result.version + ' - Rev 1.0'; // } // if (['0012'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi Model A+'; // result.version = result.version + ' - Rev 1.0'; // } // if (['0013', '900032'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi Model B+'; // result.version = result.version + ' - Rev 1.2'; // } // if (['0015', '900021'].indexOf(result.version) >= 0) { // result.model = result.model + ' - Pi Model A+'; // result.version = result.version + ' - Rev 1.1'; // } // if (result.model.indexOf('Pi') !== -1 && result.version) { // Pi, Pi Zero // result.manufacturer = 'Raspberry Pi Foundation'; // } // } } if (callback) { callback(result); } resolve(result); }); } else { if (callback) { callback(result); } resolve(result); } }); } if (_darwin) { exec('ioreg -c IOPlatformExpertDevice -d 2', function (error, stdout) { if (!error) { let lines = stdout.toString().replace(/[<>"]/g, '').split('\n'); result.manufacturer = util.getValue(lines, 'manufacturer', '=', true); result.model = util.getValue(lines, 'model', '=', true); result.version = util.getValue(lines, 'version', '=', true); result.serial = util.getValue(lines, 'ioplatformserialnumber', '=', true); result.uuid = util.getValue(lines, 'ioplatformuuid', '=', true).toLowerCase(); result.sku = util.getValue(lines, 'board-id', '=', true); } if (callback) { callback(result); } resolve(result); }); } if (_sunos) { if (callback) { callback(result); } resolve(result); } if (_windows) { try { util.powerShell('Get-WmiObject Win32_ComputerSystemProduct | select Name,Vendor,Version,IdentifyingNumber,UUID | fl').then((stdout, error) => { if (!error) { // let lines = stdout.split('\r\n').filter(line => line.trim() !== '').filter((line, idx) => idx > 0)[0].trim().split(/\s\s+/); let lines = stdout.split('\r\n'); result.manufacturer = util.getValue(lines, 'vendor', ':'); result.model = util.getValue(lines, 'name', ':'); result.version = util.getValue(lines, 'version', ':'); result.serial = util.getValue(lines, 'identifyingnumber', ':'); result.uuid = util.getValue(lines, 'uuid', ':').toLowerCase(); // detect virtual (1) const model = result.model.toLowerCase(); if (model === 'virtualbox' || model === 'kvm' || model === 'virtual machine' || model === 'bochs' || model.startsWith('vmware') || model.startsWith('qemu')) { result.virtual = true; if (model.startsWith('virtualbox')) { result.virtualHost = 'VirtualBox'; } if (model.startsWith('vmware')) { result.virtualHost = 'VMware'; } if (model.startsWith('kvm')) { result.virtualHost = 'KVM'; } if (model.startsWith('bochs')) { result.virtualHost = 'bochs'; } if (model.startsWith('qemu')) { result.virtualHost = 'KVM'; } } const manufacturer = result.manufacturer.toLowerCase(); if (manufacturer.startsWith('vmware') || manufacturer.startsWith('qemu') || manufacturer === 'xen') { result.virtual = true; if (manufacturer.startsWith('vmware')) { result.virtualHost = 'VMware'; } if (manufacturer.startsWith('xen')) { result.virtualHost = 'Xen'; } if (manufacturer.startsWith('qemu')) { result.virtualHost = 'KVM'; } } util.powerShell('Get-WmiObject MS_Systeminformation -Namespace "root/wmi" | select systemsku | fl ').then((stdout, error) => { if (!error) { let lines = stdout.split('\r\n'); result.sku = util.getValue(lines, 'systemsku', ':'); } if (!result.virtual) { util.powerShell('Get-WmiObject Win32_bios | select Version, SerialNumber, SMBIOSBIOSVersion').then((stdout, error) => { if (!error) { let lines = stdout.toString(); if (lines.indexOf('VRTUAL') >= 0 || lines.indexOf('A M I ') >= 0 || lines.indexOf('VirtualBox') >= 0 || lines.indexOf('VMWare') >= 0 || lines.indexOf('Xen') >= 0) { result.virtual = true; if (lines.indexOf('VirtualBox') >= 0 && !result.virtualHost) { result.virtualHost = 'VirtualBox'; } if (lines.indexOf('VMware') >= 0 && !result.virtualHost) { result.virtualHost = 'VMware'; } if (lines.indexOf('Xen') >= 0 && !result.virtualHost) { result.virtualHost = 'Xen'; } if (lines.indexOf('VRTUAL') >= 0 && !result.virtualHost) { result.virtualHost = 'Hyper-V'; } if (lines.indexOf('A M I') >= 0 && !result.virtualHost) { result.virtualHost = 'Virtual PC'; } } if (callback) { callback(result); } resolve(result); } else { if (callback) { callback(result); } resolve(result); } }); } else { if (callback) { callback(result); } resolve(result); } }); } else { if (callback) { callback(result); } resolve(result); } }); } catch (e) { if (callback) { callback(result); } resolve(result); } } }); }); } exports.system = system; function bios(callback) { return new Promise((resolve) => { process.nextTick(() => { let result = { vendor: '', version: '', releaseDate: '', revision: '', }; let cmd = ''; if (_linux || _freebsd || _openbsd || _netbsd) { if (process.arch === 'arm') { cmd = 'cat /proc/cpuinfo | grep Serial'; } else { cmd = 'export LC_ALL=C; dmidecode -t bios 2>/dev/null; unset LC_ALL'; } exec(cmd, function (error, stdout) { let lines = stdout.toString().split('\n'); result.vendor = util.getValue(lines, 'Vendor'); result.version = util.getValue(lines, 'Version'); let datetime = util.getValue(lines, 'Release Date'); result.releaseDate = util.parseDateTime(datetime).date; result.revision = util.getValue(lines, 'BIOS Revision'); result.serial = util.getValue(lines, 'SerialNumber'); let language = util.getValue(lines, 'Currently Installed Language').split('|')[0]; if (language) { result.language = language; } if (lines.length && stdout.toString().indexOf('Characteristics:') >= 0) { const features = []; lines.forEach(line => { if (line.indexOf(' is supported') >= 0) { const feature = line.split(' is supported')[0].trim(); features.push(feature); } }); result.features = features; } // Non-Root values const cmd = `echo -n "bios_date: "; cat /sys/devices/virtual/dmi/id/bios_date 2>/dev/null; echo; echo -n "bios_vendor: "; cat /sys/devices/virtual/dmi/id/bios_vendor 2>/dev/null; echo; echo -n "bios_version: "; cat /sys/devices/virtual/dmi/id/bios_version 2>/dev/null; echo;`; try { lines = execSync(cmd).toString().split('\n'); result.vendor = !result.vendor ? util.getValue(lines, 'bios_vendor') : result.vendor; result.version = !result.version ? util.getValue(lines, 'bios_version') : result.version; datetime = util.getValue(lines, 'bios_date'); result.releaseDate = !result.releaseDate ? util.parseDateTime(datetime).date : result.releaseDate; } catch (e) { util.noop(); } if (callback) { callback(result); } resolve(result); }); } if (_darwin) { result.vendor = 'Apple Inc.'; exec( 'system_profiler SPHardwareDataType -json', function (error, stdout) { try { const hardwareData = JSON.parse(stdout.toString()); if (hardwareData && hardwareData.SPHardwareDataType && hardwareData.SPHardwareDataType.length) { let bootRomVersion = hardwareData.SPHardwareDataType[0].boot_rom_version; bootRomVersion = bootRomVersion ? bootRomVersion.split('(')[0].trim() : null; result.version = bootRomVersion; } } catch (e) { util.noop(); } if (callback) { callback(result); } resolve(result); }); } if (_sunos) { result.vendor = 'Sun Microsystems'; if (callback) { callback(result); } resolve(result); } if (_windows) { try { util.powerShell('Get-WmiObject Win32_bios | select Description,Version,Manufacturer,ReleaseDate,BuildNumber,SerialNumber | fl').then((stdout, error) => { if (!error) { let lines = stdout.toString().split('\r\n'); const description = util.getValue(lines, 'description', ':'); if (description.indexOf(' Version ') !== -1) { // ... Phoenix ROM BIOS PLUS Version 1.10 A04 result.vendor = description.split(' Version ')[0].trim(); result.version = description.split(' Version ')[1].trim(); } else if (description.indexOf(' Ver: ') !== -1) { // ... BIOS Date: 06/27/16 17:50:16 Ver: 1.4.5 result.vendor = util.getValue(lines, 'manufacturer', ':'); result.version = description.split(' Ver: ')[1].trim(); } else { result.vendor = util.getValue(lines, 'manufacturer', ':'); result.version = util.getValue(lines, 'version', ':'); } result.releaseDate = util.getValue(lines, 'releasedate', ':'); if (result.releaseDate.length >= 10) { result.releaseDate = result.releaseDate.substr(0, 4) + '-' + result.releaseDate.substr(4, 2) + '-' + result.releaseDate.substr(6, 2); } result.revision = util.getValue(lines, 'buildnumber', ':'); result.serial = util.getValue(lines, 'serialnumber', ':'); } if (callback) { callback(result); } resolve(result); }); } catch (e) { if (callback) { callback(result); } resolve(result); } } }); }); } exports.bios = bios; function baseboard(callback) { return new Promise((resolve) => { process.nextTick(() => { let result = { manufacturer: '', model: '', version: '', serial: '-', assetTag: '-', memMax: null, memSlots: null }; let cmd = ''; if (_linux || _freebsd || _openbsd || _netbsd) { if (process.arch === 'arm') { cmd = 'cat /proc/cpuinfo | grep Serial'; // 'BCM2709', 'BCM2835', 'BCM2708' --> } else { cmd = 'export LC_ALL=C; dmidecode -t 2 2>/dev/null; unset LC_ALL'; } const workload = []; workload.push(execPromise(cmd)); workload.push(execPromise('export LC_ALL=C; dmidecode -t memory 2>/dev/null')); util.promiseAll( workload ).then(data => { let lines = data.results[0] ? data.results[0].toString().split('\n') : ['']; result.manufacturer = util.getValue(lines, 'Manufacturer'); result.model = util.getValue(lines, 'Product Name'); result.version = util.getValue(lines, 'Version'); result.serial = util.getValue(lines, 'Serial Number'); result.assetTag = util.getValue(lines, 'Asset Tag'); // Non-Root values const cmd = `echo -n "board_asset_tag: "; cat /sys/devices/virtual/dmi/id/board_asset_tag 2>/dev/null; echo; echo -n "board_name: "; cat /sys/devices/virtual/dmi/id/board_name 2>/dev/null; echo; echo -n "board_serial: "; cat /sys/devices/virtual/dmi/id/board_serial 2>/dev/null; echo; echo -n "board_vendor: "; cat /sys/devices/virtual/dmi/id/board_vendor 2>/dev/null; echo; echo -n "board_version: "; cat /sys/devices/virtual/dmi/id/board_version 2>/dev/null; echo;`; try { lines = execSync(cmd).toString().split('\n'); result.manufacturer = !result.manufacturer ? util.getValue(lines, 'board_vendor') : result.manufacturer; result.model = !result.model ? util.getValue(lines, 'board_name') : result.model; result.version = !result.version ? util.getValue(lines, 'board_version') : result.version; result.serial = !result.serial ? util.getValue(lines, 'board_serial') : result.serial; result.assetTag = !result.assetTag ? util.getValue(lines, 'board_asset_tag') : result.assetTag; } catch (e) { util.noop(); } if (result.serial.toLowerCase().indexOf('o.e.m.') !== -1) { result.serial = '-'; } if (result.assetTag.toLowerCase().indexOf('o.e.m.') !== -1) { result.assetTag = '-'; } // mem lines = data.results[1] ? data.results[1].toString().split('\n') : ['']; result.memMax = util.toInt(util.getValue(lines, 'Maximum Capacity')) * 1024 * 1024 * 1024 || null; result.memSlots = util.toInt(util.getValue(lines, 'Number Of Devices')) || null; // raspberry let linesRpi = ''; try { linesRpi = fs.readFileSync('/proc/cpuinfo').toString().split('\n'); } catch (e) { util.noop(); } const hardware = util.getValue(linesRpi, 'hardware'); if (hardware.startsWith('BCM')) { const rpi = util.decodePiCpuinfo(linesRpi); result.manufacturer = rpi.manufacturer; result.model = 'Raspberry Pi'; result.serial = rpi.serial; result.version = rpi.type + ' - ' + rpi.revision; result.memMax = os.totalmem(); result.memSlots = 0; } if (callback) { callback(result); } resolve(result); }); } if (_darwin) { const workload = []; workload.push(execPromise('ioreg -c IOPlatformExpertDevice -d 2')); workload.push(execPromise('system_profiler SPMemoryDataType')); util.promiseAll( workload ).then(data => { let lines = data.results[0] ? data.results[0].toString().replace(/[<>"]/g, '').split('\n') : ['']; result.manufacturer = util.getValue(lines, 'manufacturer', '=', true); result.model = util.getValue(lines, 'model', '=', true); result.version = util.getValue(lines, 'version', '=', true); result.serial = util.getValue(lines, 'ioplatformserialnumber', '=', true); result.assetTag = util.getValue(lines, 'board-id', '=', true); // mem let devices = data.results[1] ? data.results[1].toString().split(' BANK ') : ['']; if (devices.length === 1) { devices = data.results[1] ? data.results[1].toString().split(' DIMM') : ['']; } devices.shift(); result.memSlots = devices.length; if (os.arch() === 'arm64') { result.memSlots = 0; result.memMax = os.totalmem(); } if (callback) { callback(result); } resolve(result); }); } if (_sunos) { if (callback) { callback(result); } resolve(result); } if (_windows) { try { const workload = []; workload.push(util.powerShell('Get-WmiObject Win32_baseboard | select Model,Manufacturer,Product,Version,SerialNumber,PartNumber,SKU | fl')); workload.push(util.powerShell('Get-WmiObject Win32_physicalmemoryarray | select MaxCapacity, MemoryDevices | fl')); util.promiseAll( workload ).then(data => { let lines = data.results[0] ? data.results[0].toString().split('\r\n') : ['']; result.manufacturer = util.getValue(lines, 'manufacturer', ':'); result.model = util.getValue(lines, 'model', ':'); if (!result.model) { result.model = util.getValue(lines, 'product', ':'); } result.version = util.getValue(lines, 'version', ':'); result.serial = util.getValue(lines, 'serialnumber', ':'); result.assetTag = util.getValue(lines, 'partnumber', ':'); if (!result.assetTag) { result.assetTag = util.getValue(lines, 'sku', ':'); } // memphysical lines = data.results[1] ? data.results[1].toString().split('\r\n') : ['']; result.memMax = util.toInt(util.getValue(lines, 'MaxCapacity', ':')) || null; result.memSlots = util.toInt(util.getValue(lines, 'MemoryDevices', ':')) || null; if (callback) { callback(result); } resolve(result); }); } catch (e) { if (callback) { callback(result); } resolve(result); } } }); }); } exports.baseboard = baseboard; function chassis(callback) { const chassisTypes = ['Other', 'Unknown', 'Desktop', 'Low Profile Desktop', 'Pizza Box', 'Mini Tower', 'Tower', 'Portable', 'Laptop', 'Notebook', 'Hand Held', 'Docking Station', 'All in One', 'Sub Notebook', 'Space-Saving', 'Lunch Box', 'Main System Chassis', 'Expansion Chassis', 'SubChassis', 'Bus Expansion Chassis', 'Peripheral Chassis', 'Storage Chassis', 'Rack Mount Chassis', 'Sealed-Case PC', 'Multi-System Chassis', 'Compact PCI', 'Advanced TCA', 'Blade', 'Blade Enclosure', 'Tablet', 'Convertible', 'Detachable', 'IoT Gateway ', 'Embedded PC', 'Mini PC', 'Stick PC', ]; return new Promise((resolve) => { process.nextTick(() => { let result = { manufacturer: '', model: '', type: '', version: '', serial: '-', assetTag: '-', sku: '', }; if (_linux || _freebsd || _openbsd || _netbsd) { const cmd = `echo -n "chassis_asset_tag: "; cat /sys/devices/virtual/dmi/id/chassis_asset_tag 2>/dev/null; echo; echo -n "chassis_serial: "; cat /sys/devices/virtual/dmi/id/chassis_serial 2>/dev/null; echo; echo -n "chassis_type: "; cat /sys/devices/virtual/dmi/id/chassis_type 2>/dev/null; echo; echo -n "chassis_vendor: "; cat /sys/devices/virtual/dmi/id/chassis_vendor 2>/dev/null; echo; echo -n "chassis_version: "; cat /sys/devices/virtual/dmi/id/chassis_version 2>/dev/null; echo;`; exec(cmd, function (error, stdout) { let lines = stdout.toString().split('\n'); result.manufacturer = util.getValue(lines, 'chassis_vendor'); const ctype = parseInt(util.getValue(lines, 'chassis_type').replace(/\D/g, '')); result.type = (ctype && !isNaN(ctype) && ctype < chassisTypes.length) ? chassisTypes[ctype - 1] : ''; result.version = util.getValue(lines, 'chassis_version'); result.serial = util.getValue(lines, 'chassis_serial'); result.assetTag = util.getValue(lines, 'chassis_asset_tag'); if (result.manufacturer.toLowerCase().indexOf('o.e.m.') !== -1) { result.manufacturer = '-'; } if (result.version.toLowerCase().indexOf('o.e.m.') !== -1) { result.version = '-'; } if (result.serial.toLowerCase().indexOf('o.e.m.') !== -1) { result.serial = '-'; } if (result.assetTag.toLowerCase().indexOf('o.e.m.') !== -1) { result.assetTag = '-'; } if (callback) { callback(result); } resolve(result); }); } if (_darwin) { exec('ioreg -c IOPlatformExpertDevice -d 2', function (error, stdout) { if (!error) { let lines = stdout.toString().replace(/[<>"]/g, '').split('\n'); result.manufacturer = util.getValue(lines, 'manufacturer', '=', true); result.model = util.getValue(lines, 'model', '=', true); result.version = util.getValue(lines, 'version', '=', true); result.serial = util.getValue(lines, 'ioplatformserialnumber', '=', true); result.assetTag = util.getValue(lines, 'board-id', '=', true); } if (callback) { callback(result); } resolve(result); }); } if (_sunos) { if (callback) { callback(result); } resolve(result); } if (_windows) { try { util.powerShell('Get-WmiObject Win32_SystemEnclosure | select Model,Manufacturer,ChassisTypes,Version,SerialNumber,PartNumber,SKU | fl').then((stdout, error) => { if (!error) { let lines = stdout.toString().split('\r\n'); result.manufacturer = util.getValue(lines, 'manufacturer', ':'); result.model = util.getValue(lines, 'model', ':'); const ctype = parseInt(util.getValue(lines, 'ChassisTypes', ':').replace(/\D/g, '')); result.type = (ctype && !isNaN(ctype) && ctype < chassisTypes.length) ? chassisTypes[ctype - 1] : ''; result.version = util.getValue(lines, 'version', ':'); result.serial = util.getValue(lines, 'serialnumber', ':'); result.assetTag = util.getValue(lines, 'partnumber', ':'); result.sku = util.getValue(lines, 'sku', ':'); if (result.manufacturer.toLowerCase().indexOf('o.e.m.') !== -1) { result.manufacturer = '-'; } if (result.version.toLowerCase().indexOf('o.e.m.') !== -1) { result.version = '-'; } if (result.serial.toLowerCase().indexOf('o.e.m.') !== -1) { result.serial = '-'; } if (result.assetTag.toLowerCase().indexOf('o.e.m.') !== -1) { result.assetTag = '-'; } } if (callback) { callback(result); } resolve(result); }); } catch (e) { if (callback) { callback(result); } resolve(result); } } }); }); } exports.chassis = chassis;