MeshCentral/agents/modules_meshcore/computer-identifiers.js
Simon Smith bfae0d6c6e
move identifiers to server side to allow future updates (#5641)
* move identifiers to server side to allow future updates

Signed-off-by: si458 <simonsmith5521@gmail.com>

* add rpi support

Signed-off-by: si458 <simonsmith5521@gmail.com>

---------

Signed-off-by: si458 <simonsmith5521@gmail.com>
2023-12-22 15:18:17 -08:00

775 lines
30 KiB
JavaScript

/*
Copyright 2019-2021 Intel Corporation
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
function trimIdentifiers(val)
{
for(var v in val)
{
if (!val[v] || val[v] == 'None' || val[v] == '') { delete val[v]; }
}
}
function trimResults(val)
{
var i, x;
for (i = 0; i < val.length; ++i)
{
for (x in val[i])
{
if (x.startsWith('_'))
{
delete val[i][x];
}
else
{
if (val[i][x] == null || val[i][x] == 0)
{
delete val[i][x];
}
}
}
}
}
function brief(headers, obj)
{
var i, x;
for (x = 0; x < obj.length; ++x)
{
for (i in obj[x])
{
if (!headers.includes(i))
{
delete obj[x][i];
}
}
}
return (obj);
}
function dataHandler(c)
{
this.str += c.toString();
}
function linux_identifiers()
{
var identifiers = {};
var ret = {};
var values = {};
if (!require('fs').existsSync('/sys/class/dmi/id')) {
if(require('fs').existsSync('/sys/firmware/devicetree/base/model')){
if(require('fs').readFileSync('/sys/firmware/devicetree/base/model').toString().trim().startsWith('Raspberry')){
identifiers['board_vendor'] = 'Raspberry Pi';
identifiers['board_name'] = require('fs').readFileSync('/sys/firmware/devicetree/base/model').toString().trim();
identifiers['board_serial'] = require('fs').readFileSync('/sys/firmware/devicetree/base/serial-number').toString().trim();
}else{
throw('Unknown board');
}
}else {
throw ('this platform does not have DMI statistics');
}
} else {
var entries = require('fs').readdirSync('/sys/class/dmi/id');
for(var i in entries)
{
if (require('fs').statSync('/sys/class/dmi/id/' + entries[i]).isFile())
{
try
{
ret[entries[i]] = require('fs').readFileSync('/sys/class/dmi/id/' + entries[i]).toString().trim();
}
catch(z)
{
}
if (ret[entries[i]] == 'None') { delete ret[entries[i]];}
}
}
entries = null;
identifiers['bios_date'] = ret['bios_date'];
identifiers['bios_vendor'] = ret['bios_vendor'];
identifiers['bios_version'] = ret['bios_version'];
identifiers['bios_serial'] = ret['product_serial'];
identifiers['board_name'] = ret['board_name'];
identifiers['board_serial'] = ret['board_serial'];
identifiers['board_vendor'] = ret['board_vendor'];
identifiers['board_version'] = ret['board_version'];
identifiers['product_uuid'] = ret['product_uuid'];
identifiers['product_name'] = ret['product_name'];
}
try {
identifiers['bios_mode'] = (require('fs').statSync('/sys/firmware/efi').isDirectory() ? 'UEFI': 'Legacy');
} catch (ex) { identifiers['bios_mode'] = 'Legacy'; }
var child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', dataHandler);
child.stdin.write('cat /proc/cpuinfo | grep "model name" | ' + "tr '\\n' ':' | awk -F: '{ print $2 }'\nexit\n");
child.waitExit();
identifiers['cpu_name'] = child.stdout.str.trim();
child = null;
// Fetch GPU info
child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', dataHandler);
child.stdin.write("lspci | grep ' VGA ' | tr '\\n' '`' | awk '{ a=split($0,lines" + ',"`"); printf "["; for(i=1;i<a;++i) { split(lines[i],gpu,"r: "); printf "%s\\"%s\\"", (i==1?"":","),gpu[2]; } printf "]"; }\'\nexit\n');
child.waitExit();
try { identifiers['gpu_name'] = JSON.parse(child.stdout.str.trim()); } catch (xx) { }
child = null;
// Fetch Storage Info
child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', dataHandler);
child.stdin.write("lshw -class disk | tr '\\n' '`' | awk '" + '{ len=split($0,lines,"*"); printf "["; for(i=2;i<=len;++i) { model=""; caption=""; size=""; clen=split(lines[i],item,"`"); for(j=2;j<clen;++j) { split(item[j],tokens,":"); split(tokens[1],key," "); if(key[1]=="description") { caption=substr(tokens[2],2); } if(key[1]=="product") { model=substr(tokens[2],2); } if(key[1]=="size") { size=substr(tokens[2],2); } } if(model=="") { model=caption; } if(caption!="" || model!="") { printf "%s{\\"Caption\\":\\"%s\\",\\"Model\\":\\"%s\\",\\"Size\\":\\"%s\\"}",(i==2?"":","),caption,model,size; } } printf "]"; }\'\nexit\n');
child.waitExit();
try { identifiers['storage_devices'] = JSON.parse(child.stdout.str.trim()); } catch (xx) { }
values.identifiers = identifiers;
values.linux = ret;
trimIdentifiers(values.identifiers);
child = null;
var dmidecode = require('lib-finder').findBinary('dmidecode');
if (dmidecode != null)
{
child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', dataHandler);
child.stderr.str = ''; child.stderr.on('data', dataHandler);
child.stdin.write(dmidecode + " -t memory | tr '\\n' '`' | ");
child.stdin.write(" awk '{ ");
child.stdin.write(' printf("[");');
child.stdin.write(' comma="";');
child.stdin.write(' c=split($0, lines, "``");');
child.stdin.write(' for(i=1;i<=c;++i)');
child.stdin.write(' {');
child.stdin.write(' d=split(lines[i], val, "`");');
child.stdin.write(' split(val[1], tokens, ",");');
child.stdin.write(' split(tokens[2], dmitype, " ");');
child.stdin.write(' dmi = dmitype[3]+0; ');
child.stdin.write(' if(dmi == 5 || dmi == 6 || dmi == 16 || dmi == 17)');
child.stdin.write(' {');
child.stdin.write(' ccx="";');
child.stdin.write(' printf("%s{\\"%s\\": {", comma, val[2]);');
child.stdin.write(' for(j=3;j<d;++j)');
child.stdin.write(' {');
child.stdin.write(' sub(/^[ \\t]*/,"",val[j]);');
child.stdin.write(' if(split(val[j],tmp,":")>1)');
child.stdin.write(' {');
child.stdin.write(' sub(/^[ \\t]*/,"",tmp[2]);');
child.stdin.write(' gsub(/ /,"",tmp[1]);');
child.stdin.write(' printf("%s\\"%s\\": \\"%s\\"", ccx, tmp[1], tmp[2]);');
child.stdin.write(' ccx=",";');
child.stdin.write(' }');
child.stdin.write(' }');
child.stdin.write(' printf("}}");');
child.stdin.write(' comma=",";');
child.stdin.write(' }');
child.stdin.write(' }');
child.stdin.write(' printf("]");');
child.stdin.write("}'\nexit\n");
child.waitExit();
try
{
var j = JSON.parse(child.stdout.str);
var i, key, key2;
for (i = 0; i < j.length; ++i)
{
for (key in j[i])
{
delete j[i][key]['ArrayHandle'];
delete j[i][key]['ErrorInformationHandle'];
for (key2 in j[i][key])
{
if (j[i][key][key2] == 'Unknown' || j[i][key][key2] == 'Not Specified' || j[i][key][key2] == '')
{
delete j[i][key][key2];
}
}
}
}
if(j.length > 0){
var mem = {};
for (i = 0; i < j.length; ++i)
{
for (key in j[i])
{
if (mem[key] == null) { mem[key] = []; }
mem[key].push(j[i][key]);
}
}
values.linux.memory = mem;
}
}
catch (e)
{ }
child = null;
}
var usbdevices = require('lib-finder').findBinary('usb-devices');
if (usbdevices != null)
{
var child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', dataHandler);
child.stderr.str = ''; child.stderr.on('data', dataHandler);
child.stdin.write(usbdevices + " | tr '\\n' '`' | ");
child.stdin.write(" awk '");
child.stdin.write('{');
child.stdin.write(' comma="";');
child.stdin.write(' printf("[");');
child.stdin.write(' len=split($0, group, "``");');
child.stdin.write(' for(i=1;i<=len;++i)');
child.stdin.write(' {');
child.stdin.write(' comma2="";');
child.stdin.write(' xlen=split(group[i], line, "`");');
child.stdin.write(' scount=0;');
child.stdin.write(' for(x=1;x<xlen;++x)');
child.stdin.write(' {');
child.stdin.write(' if(line[x] ~ "^S:")');
child.stdin.write(' {');
child.stdin.write(' ++scount;');
child.stdin.write(' }');
child.stdin.write(' }');
child.stdin.write(' if(scount>0)');
child.stdin.write(' {');
child.stdin.write(' printf("%s{", comma); comma=",";');
child.stdin.write(' for(x=1;x<xlen;++x)');
child.stdin.write(' {');
child.stdin.write(' if(line[x] ~ "^T:")');
child.stdin.write(' {');
child.stdin.write(' comma3="";');
child.stdin.write(' printf("%s\\"hardware\\": {", comma2); comma2=",";');
child.stdin.write(' sub(/^T:[ \\t]*/, "", line[x]);');
child.stdin.write(' gsub(/= */, "=", line[x]);');
child.stdin.write(' blen=split(line[x], tokens, " ");');
child.stdin.write(' for(y=1;y<blen;++y)');
child.stdin.write(' {');
child.stdin.write(' match(tokens[y],/=/);');
child.stdin.write(' h=substr(tokens[y],1,RSTART-1);');
child.stdin.write(' v=substr(tokens[y],RSTART+1);');
child.stdin.write(' sub(/#/, "", h);');
child.stdin.write(' printf("%s\\"%s\\": \\"%s\\"", comma3, h, v); comma3=",";');
child.stdin.write(' }');
child.stdin.write(' printf("}");');
child.stdin.write(' }');
child.stdin.write(' if(line[x] ~ "^S:")');
child.stdin.write(' {');
child.stdin.write(' sub(/^S:[ \\t]*/, "", line[x]);');
child.stdin.write(' match(line[x], /=/);');
child.stdin.write(' h=substr(line[x],1,RSTART-1);');
child.stdin.write(' v=substr(line[x],RSTART+1);');
child.stdin.write(' printf("%s\\"%s\\": \\"%s\\"", comma2, h,v); comma2=",";');
child.stdin.write(' }');
child.stdin.write(' }');
child.stdin.write(' printf("}");');
child.stdin.write(' }');
child.stdin.write(' }');
child.stdin.write(' printf("]");');
child.stdin.write("}'\nexit\n");
child.waitExit();
try
{
values.linux.usb = JSON.parse(child.stdout.str);
}
catch(x)
{ }
child = null;
}
var pcidevices = require('lib-finder').findBinary('lspci');
if (pcidevices != null)
{
var child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', dataHandler);
child.stderr.str = ''; child.stderr.on('data', dataHandler);
child.stdin.write(pcidevices + " -m | tr '\\n' '`' | ");
child.stdin.write(" awk '");
child.stdin.write('{');
child.stdin.write(' printf("[");');
child.stdin.write(' comma="";');
child.stdin.write(' alen=split($0, lines, "`");');
child.stdin.write(' for(a=1;a<alen;++a)');
child.stdin.write(' {');
child.stdin.write(' match(lines[a], / /);');
child.stdin.write(' blen=split(lines[a], meta, "\\"");');
child.stdin.write(' bus=substr(lines[a], 1, RSTART);');
child.stdin.write(' gsub(/ /, "", bus);');
child.stdin.write(' printf("%s{\\"bus\\": \\"%s\\"", comma, bus); comma=",";');
child.stdin.write(' printf(", \\"device\\": \\"%s\\"", meta[2]);');
child.stdin.write(' printf(", \\"manufacturer\\": \\"%s\\"", meta[4]);');
child.stdin.write(' printf(", \\"description\\": \\"%s\\"", meta[6]);');
child.stdin.write(' if(meta[8] != "")');
child.stdin.write(' {');
child.stdin.write(' printf(", \\"subsystem\\": {");');
child.stdin.write(' printf("\\"manufacturer\\": \\"%s\\"", meta[8]);');
child.stdin.write(' printf(", \\"description\\": \\"%s\\"", meta[10]);');
child.stdin.write(' printf("}");');
child.stdin.write(' }');
child.stdin.write(' printf("}");');
child.stdin.write(' }');
child.stdin.write(' printf("]");');
child.stdin.write("}'\nexit\n");
child.waitExit();
try
{
values.linux.pci = JSON.parse(child.stdout.str);
}
catch (x)
{ }
child = null;
}
return (values);
}
function windows_wmic_results(str)
{
var lines = str.trim().split('\r\n');
var keys = lines[0].split(',');
var i, key, keyval;
var tokens;
var result = [];
console.log('Lines: ' + lines.length, 'Keys: ' + keys.length);
for (i = 1; i < lines.length; ++i)
{
var obj = {};
console.log('i: ' + i);
tokens = lines[i].split(',');
for (key = 0; key < keys.length; ++key)
{
var tmp = Buffer.from(tokens[key], 'binary').toString();
console.log(tokens[key], tmp);
tokens[key] = tmp == null ? '' : tmp;
if (tokens[key].trim())
{
obj[keys[key].trim()] = tokens[key].trim();
}
}
delete obj.Node;
result.push(obj);
}
return (result);
}
function windows_volumes()
{
var promise = require('promise');
var p1 = new promise(function (res, rej) { this._res = res; this._rej = rej; });
var p2 = new promise(function (res, rej) { this._res = res; this._rej = rej; });
p1._p2 = p2;
p2._p1 = p1;
var child = require('child_process').execFile(process.env['windir'] + '\\System32\\WindowsPowerShell\\v1.0\\powershell.exe', ['powershell', '-noprofile', '-nologo', '-command', '-']);
p1.child = child;
child.promise = p1;
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stdin.write('Get-Volume | Select-Object -Property DriveLetter,FileSystemLabel,FileSystemType,Size,DriveType | ConvertTo-Csv -NoTypeInformation\nexit\n');
child.on('exit', function (c)
{
var a, i, tokens, key;
var ret = {};
a = this.stdout.str.trim().split('\r\n');
for (i = 1; i < a.length; ++i)
{
tokens = a[i].split(',');
if (tokens[0] != '' && tokens[1] != undefined)
{
ret[tokens[0].split('"')[1]] =
{
name: tokens[1].split('"')[1],
type: tokens[2].split('"')[1],
size: tokens[3].split('"')[1],
removable: tokens[4].split('"')[1] == 'Removable'
};
}
}
this.promise._res({ r: ret, t: tokens });
});
p1.then(function (j)
{
var ret = j.r;
var tokens = j.t;
var child = require('child_process').execFile(process.env['windir'] + '\\System32\\WindowsPowerShell\\v1.0\\powershell.exe', ['powershell', '-noprofile', '-nologo', '-command', '-']);
p2.child = child;
child.promise = p2;
child.tokens = tokens;
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stdin.write('Get-BitLockerVolume | Select-Object -Property MountPoint,VolumeStatus,ProtectionStatus | ConvertTo-Csv -NoTypeInformation\nexit\n');
child.on('exit', function ()
{
var i;
var a = this.stdout.str.trim().split('\r\n');
for (i = 1; i < a.length; ++i)
{
tokens = a[i].split(',');
key = tokens[0].split(':').shift().split('"').pop();
if (ret[key] != null)
{
ret[key].volumeStatus = tokens[1].split('"')[1];
ret[key].protectionStatus = tokens[2].split('"')[1];
}
}
this.promise._res(ret);
});
});
return (p2);
}
function windows_identifiers()
{
var ret = { windows: {} };
var items, item, i;
ret['identifiers'] = {};
var values = require('win-wmi').query('ROOT\\CIMV2', "SELECT * FROM Win32_Bios", ['ReleaseDate', 'Manufacturer', 'SMBIOSBIOSVersion', 'SerialNumber']);
if(values[0]){
ret['identifiers']['bios_date'] = values[0]['ReleaseDate'];
ret['identifiers']['bios_vendor'] = values[0]['Manufacturer'];
ret['identifiers']['bios_version'] = values[0]['SMBIOSBIOSVersion'];
ret['identifiers']['bios_serial'] = values[0]['SerialNumber'];
}
ret['identifiers']['bios_mode'] = 'Legacy';
values = require('win-wmi').query('ROOT\\CIMV2', "SELECT * FROM Win32_BaseBoard", ['Product', 'SerialNumber', 'Manufacturer', 'Version']);
if(values[0]){
ret['identifiers']['board_name'] = values[0]['Product'];
ret['identifiers']['board_serial'] = values[0]['SerialNumber'];
ret['identifiers']['board_vendor'] = values[0]['Manufacturer'];
ret['identifiers']['board_version'] = values[0]['Version'];
}
values = require('win-wmi').query('ROOT\\CIMV2', "SELECT * FROM Win32_ComputerSystemProduct", ['UUID', 'Name']);
if(values[0]){
ret['identifiers']['product_uuid'] = values[0]['UUID'];
ret['identifiers']['product_name'] = values[0]['Name'];
trimIdentifiers(ret.identifiers);
}
values = require('win-wmi').query('ROOT\\CIMV2', "SELECT * FROM Win32_PhysicalMemory");
if(values[0]){
trimResults(values);
ret.windows.memory = values;
}
values = require('win-wmi').query('ROOT\\CIMV2', "SELECT * FROM Win32_OperatingSystem");
if(values[0]){
trimResults(values);
ret.windows.osinfo = values[0];
}
values = require('win-wmi').query('ROOT\\CIMV2', "SELECT * FROM Win32_DiskPartition");
if(values[0]){
trimResults(values);
ret.windows.partitions = values;
for (var i in values) {
if (values[i].Description=='GPT: System') {
ret['identifiers']['bios_mode'] = 'UEFI';
}
}
}
values = require('win-wmi').query('ROOT\\CIMV2', "SELECT * FROM Win32_Processor", ['Caption', 'DeviceID', 'Manufacturer', 'MaxClockSpeed', 'Name', 'SocketDesignation']);
if(values[0]){
ret.windows.cpu = values;
}
values = require('win-wmi').query('ROOT\\CIMV2', "SELECT * FROM Win32_VideoController", ['Name', 'CurrentHorizontalResolution', 'CurrentVerticalResolution']);
if(values[0]){
ret.windows.gpu = values;
}
values = require('win-wmi').query('ROOT\\CIMV2', "SELECT * FROM Win32_DiskDrive", ['Caption', 'DeviceID', 'Model', 'Partitions', 'Size', 'Status']);
if(values[0]){
ret.windows.drives = values;
}
// Insert GPU names
ret.identifiers.gpu_name = [];
for (var gpuinfo in ret.windows.gpu)
{
if (ret.windows.gpu[gpuinfo].Name) { ret.identifiers.gpu_name.push(ret.windows.gpu[gpuinfo].Name); }
}
// Insert Storage Devices
ret.identifiers.storage_devices = [];
for (var dv in ret.windows.drives)
{
ret.identifiers.storage_devices.push({ Caption: ret.windows.drives[dv].Caption, Model: ret.windows.drives[dv].Model, Size: ret.windows.drives[dv].Size });
}
try { ret.identifiers.cpu_name = ret.windows.cpu[0].Name; } catch (x) { }
return (ret);
}
function macos_identifiers()
{
var ret = { identifiers: {} };
var child;
child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stdin.write('ioreg -d2 -c IOPlatformExpertDevice | grep board-id | awk -F= \'{ split($2, res, "\\""); print res[2]; }\'\nexit\n');
child.waitExit();
ret.identifiers.board_name = child.stdout.str.trim();
child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stdin.write('ioreg -d2 -c IOPlatformExpertDevice | grep IOPlatformSerialNumber | awk -F= \'{ split($2, res, "\\""); print res[2]; }\'\nexit\n');
child.waitExit();
ret.identifiers.board_serial = child.stdout.str.trim();
child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stdin.write('ioreg -d2 -c IOPlatformExpertDevice | grep manufacturer | awk -F= \'{ split($2, res, "\\""); print res[2]; }\'\nexit\n');
child.waitExit();
ret.identifiers.board_vendor = child.stdout.str.trim();
child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stdin.write('ioreg -d2 -c IOPlatformExpertDevice | grep version | awk -F= \'{ split($2, res, "\\""); print res[2]; }\'\nexit\n');
child.waitExit();
ret.identifiers.board_version = child.stdout.str.trim();
child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stdin.write('ioreg -d2 -c IOPlatformExpertDevice | grep IOPlatformUUID | awk -F= \'{ split($2, res, "\\""); print res[2]; }\'\nexit\n');
child.waitExit();
ret.identifiers.product_uuid = child.stdout.str.trim();
child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stdin.write('sysctl -n machdep.cpu.brand_string\nexit\n');
child.waitExit();
ret.identifiers.cpu_name = child.stdout.str.trim();
trimIdentifiers(ret.identifiers);
child = null;
return (ret);
}
function win_chassisType()
{
var child = require('child_process').execFile(process.env['windir'] + '\\System32\\wbem\\wmic.exe', ['wmic', 'SystemEnclosure', 'get', 'ChassisTypes']);
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stderr.str = ''; child.stderr.on('data', function (c) { this.str += c.toString(); });
child.waitExit();
try
{
var tok = child.stdout.str.split('{')[1].split('}')[0];
var val = tok.split(',')[0];
return (parseInt(val));
}
catch (e)
{
return (2); // unknown
}
}
function win_systemType()
{
var CSV = '/FORMAT:"' + require('util-language').wmicXslPath + 'csv"';
var child = require('child_process').execFile(process.env['windir'] + '\\System32\\wbem\\wmic.exe', ['wmic', 'ComputerSystem', 'get', 'PCSystemType', CSV]);
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stderr.str = ''; child.stderr.on('data', function (c) { this.str += c.toString(); });
child.waitExit();
return (parseInt(child.stdout.str.trim().split(',').pop()));
}
function win_formFactor(chassistype)
{
var ret = 'DESKTOP';
switch (chassistype)
{
case 11: // Handheld
case 30: // Tablet
case 31: // Convertible
case 32: // Detachable
ret = 'TABLET';
break;
case 9: // Laptop
case 10: // Notebook
case 14: // Sub Notebook
ret = 'LAPTOP';
break;
default:
ret = win_systemType() == 2 ? 'MOBILE' : 'DESKTOP';
break;
}
return (ret);
}
switch(process.platform)
{
case 'linux':
module.exports = { _ObjectID: 'identifiers', get: linux_identifiers };
break;
case 'win32':
module.exports = { _ObjectID: 'identifiers', get: windows_identifiers, chassisType: win_chassisType, formFactor: win_formFactor, systemType: win_systemType };
break;
case 'darwin':
module.exports = { _ObjectID: 'identifiers', get: macos_identifiers };
break;
default:
module.exports = { get: function () { throw ('Unsupported Platform'); } };
break;
}
module.exports.isDocker = function isDocker()
{
if (process.platform != 'linux') { return (false); }
var child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', function (c) { this.str += c.toString(); });
child.stdin.write("cat /proc/self/cgroup | tr '\n' '`' | awk -F'`' '{ split($1, res, " + '"/"); if(res[2]=="docker"){print "1";} }\'\nexit\n');
child.waitExit();
return (child.stdout.str != '');
};
module.exports.isBatteryPowered = function isBatteryOperated()
{
var ret = false;
switch(process.platform)
{
default:
break;
case 'linux':
var devices = require('fs').readdirSync('/sys/class/power_supply');
for (var i in devices)
{
if (require('fs').readFileSync('/sys/class/power_supply/' + devices[i] + '/type').toString().trim() == 'Battery')
{
ret = true;
break;
}
}
break;
case 'win32':
var GM = require('_GenericMarshal');
var stats = GM.CreateVariable(12);
var kernel32 = GM.CreateNativeProxy('Kernel32.dll');
kernel32.CreateMethod('GetSystemPowerStatus');
if (kernel32.GetSystemPowerStatus(stats).Val != 0)
{
if(stats.toBuffer()[1] != 128 && stats.toBuffer()[1] != 255)
{
ret = true;
}
else
{
// No Battery detected, so lets check if there is supposed to be one
var formFactor = win_formFactor(win_chassisType());
return (formFactor == 'LAPTOP' || formFactor == 'TABLET' || formFactor == 'MOBILE');
}
}
break;
case 'darwin':
var child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = ''; child.stdout.on('data', function(c){ this.str += c.toString(); });
child.stderr.str = ''; child.stderr.on('data', function(c){ this.str += c.toString(); });
child.stdin.write("pmset -g batt | tr '\\n' '`' | awk -F'`' '{ if(NF>2) { print \"true\"; }}'\nexit\n");
child.waitExit();
if(child.stdout.str.trim() != '') { ret = true; }
break;
}
return (ret);
};
module.exports.isVM = function isVM()
{
var ret = false;
var id = this.get();
if (id.linux && id.linux.sys_vendor)
{
switch (id.linux.sys_vendor)
{
case 'VMware, Inc.':
case 'QEMU':
case 'Xen':
ret = true;
break;
default:
break;
}
}
if (id.identifiers.bios_vendor)
{
switch(id.identifiers.bios_vendor)
{
case 'VMware, Inc.':
case 'Xen':
case 'SeaBIOS':
ret = true;
break;
default:
break;
}
}
if (id.identifiers.board_vendor && id.identifiers.board_vendor == 'VMware, Inc.') { ret = true; }
if (id.identifiers.board_name)
{
switch (id.identifiers.board_name)
{
case 'VirtualBox':
case 'Virtual Machine':
ret = true;
break;
default:
break;
}
}
if (process.platform == 'win32' && !ret)
{
for(var i in id.identifiers.gpu_name)
{
if(id.identifiers.gpu_name[i].startsWith('VMware '))
{
ret = true;
break;
}
}
}
if (!ret) { ret = this.isDocker(); }
return (ret);
};
if (process.platform == 'win32')
{
module.exports.volumes_promise = windows_volumes;
}
// bios_date = BIOS->ReleaseDate
// bios_vendor = BIOS->Manufacturer
// bios_version = BIOS->SMBIOSBIOSVersion
// board_name = BASEBOARD->Product = ioreg/board-id
// board_serial = BASEBOARD->SerialNumber = ioreg/serial-number | ioreg/IOPlatformSerialNumber
// board_vendor = BASEBOARD->Manufacturer = ioreg/manufacturer
// board_version = BASEBOARD->Version