'use strict'; // @ts-check // ================================================================================== // processes.js // ---------------------------------------------------------------------------------- // Description: System Information - library // for Node.js // Copyright: (c) 2014 - 2020 // Author: Sebastian Hildebrandt // ---------------------------------------------------------------------------------- // License: MIT // ================================================================================== // 10. Processes // ---------------------------------------------------------------------------------- const os = require('os'); const fs = require('fs'); const path = require('path'); const exec = require('child_process').exec; const execSync = require('child_process').execSync; 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'); const _processes_cpu = { all: 0, list: {}, ms: 0, result: {} }; const _services_cpu = { all: 0, list: {}, ms: 0, result: {} }; const _process_cpu = { all: 0, list: {}, ms: 0, result: {} }; const _winStatusValues = { '0': 'unknown', '1': 'other', '2': 'ready', '3': 'running', '4': 'blocked', '5': 'suspended blocked', '6': 'suspended ready', '7': 'terminated', '8': 'stopped', '9': 'growing', }; function parseTimeWin(time) { time = time || ''; if (time) { return (time.substr(0, 4) + '-' + time.substr(4, 2) + '-' + time.substr(6, 2) + ' ' + time.substr(8, 2) + ':' + time.substr(10, 2) + ':' + time.substr(12, 2)); } else { return ''; } } function parseTimeUnix(time) { let result = time; let parts = time.replace(/ +/g, ' ').split(' '); if (parts.length === 5) { result = parts[4] + '-' + ('0' + ('JANFEBMARAPRMAYJUNJULAUGSEPOCTNOVDEC'.indexOf(parts[1].toUpperCase()) / 3 + 1)).slice(-2) + '-' + ('0' + parts[2]).slice(-2) + ' ' + parts[3]; } return result; } // -------------------------- // PS - services // pass a comma separated string with services to check (mysql, apache, postgresql, ...) // this function gives an array back, if the services are running. function services(srv, callback) { // fallback - if only callback is given if (util.isFunction(srv) && !callback) { callback = srv; srv = ''; } return new Promise((resolve) => { process.nextTick(() => { if (srv) { let srvString = ''; srvString.__proto__.toLowerCase = util.stringToLower; srvString.__proto__.replace = util.stringReplace; srvString.__proto__.trim = util.stringTrim; const s = util.sanitizeShellString(srv); for (let i = 0; i <= 2000; i++) { if (!(s[i] === undefined)) { srvString = srvString + s[i]; } } srvString = srvString.trim().toLowerCase().replace(/, /g, '|').replace(/,+/g, '|'); if (srvString === '') { srvString = '*'; } if (util.isPrototypePolluted() && srvString !== '*') { srvString = '------'; } let srvs = srvString.split('|'); let result = []; let dataSrv = []; let allSrv = []; if (_linux || _freebsd || _openbsd || _netbsd || _darwin) { if ((_linux || _freebsd || _openbsd || _netbsd) && srvString === '*') { srvString = ''; let tmpsrv = execSync('service --status-all 2> /dev/null').toString().split('\n'); for (const s of tmpsrv) { const parts = s.split(']'); if (parts.length === 2) { srvString += (srvString !== '' ? '|' : '') + parts[1].trim(); allSrv.push({ name: parts[1].trim(), running: parts[0].indexOf('+') > 0 }); } } srvs = srvString.split('|'); } let comm = (_darwin) ? 'ps -caxo pcpu,pmem,pid,command' : 'ps -axo pcpu,pmem,pid,command'; if (srvString !== '' && srvs.length > 0) { exec(comm + ' | grep -v grep | grep -iE "' + srvString + '"', { maxBuffer: 1024 * 20000 }, function (error, stdout) { // lgtm [js/shell-command-constructed-from-input] if (!error) { let lines = stdout.toString().replace(/ +/g, ' ').replace(/,+/g, '.').split('\n'); srvs.forEach(function (srv) { let ps; if (_darwin) { ps = lines.filter(function (e) { return (e.toLowerCase().indexOf(srv) !== -1); }); } else { ps = lines.filter(function (e) { return (e.toLowerCase().indexOf(' ' + srv + ':') !== -1) || (e.toLowerCase().indexOf('/' + srv) !== -1); }); } let singleSrv = allSrv.filter(item => { return item.name === srv; }); const pids = []; for (const p of ps) { const pid = p.trim().split(' ')[2]; if (pid) { pids.push(parseInt(pid, 10)); } } result.push({ name: srv, running: (allSrv.length && singleSrv.length ? singleSrv[0].running : ps.length > 0), startmode: '', pids: pids, pcpu: parseFloat((ps.reduce(function (pv, cv) { return pv + parseFloat(cv.trim().split(' ')[0]); }, 0)).toFixed(2)), pmem: parseFloat((ps.reduce(function (pv, cv) { return pv + parseFloat(cv.trim().split(' ')[1]); }, 0)).toFixed(2)) }); }); if (_linux) { // calc process_cpu - ps is not accurate in linux! let cmd = 'cat /proc/stat | grep "cpu "'; for (let i in result) { for (let j in result[i].pids) { cmd += (';cat /proc/' + result[i].pids[j] + '/stat'); } } exec(cmd, { maxBuffer: 1024 * 20000 }, function (error, stdout) { let curr_processes = stdout.toString().split('\n'); // first line (all - /proc/stat) let all = parseProcStat(curr_processes.shift()); // process let list_new = {}; let resultProcess = {}; for (let i = 0; i < curr_processes.length; i++) { resultProcess = calcProcStatLinux(curr_processes[i], all, _services_cpu); if (resultProcess.pid) { let listPos = -1; for (let i in result) { for (let j in result[i].pids) { if (parseInt(result[i].pids[j]) === parseInt(resultProcess.pid)) { listPos = i; } } } if (listPos >= 0) { result[listPos].pcpu += resultProcess.pcpuu + resultProcess.pcpus; } // save new values list_new[resultProcess.pid] = { pcpuu: resultProcess.pcpuu, pcpus: resultProcess.pcpus, utime: resultProcess.utime, stime: resultProcess.stime, cutime: resultProcess.cutime, cstime: resultProcess.cstime }; } } // store old values _services_cpu.all = all; // _services_cpu.list = list_new; _services_cpu.list = Object.assign({}, list_new); _services_cpu.ms = Date.now() - _services_cpu.ms; // _services_cpu.result = result; _services_cpu.result = Object.assign({}, result); if (callback) { callback(result); } resolve(result); }); } else { if (callback) { callback(result); } resolve(result); } } else { exec('ps -o comm | grep -v grep | egrep "' + srvString + '"', { maxBuffer: 1024 * 20000 }, function (error, stdout) { // lgtm [js/shell-command-constructed-from-input] if (!error) { let lines = stdout.toString().replace(/ +/g, ' ').replace(/,+/g, '.').split('\n'); srvs.forEach(function (srv) { let ps = lines.filter(function (e) { return e.indexOf(srv) !== -1; }); result.push({ name: srv, running: ps.length > 0, startmode: '', pcpu: 0, pmem: 0 }); }); if (callback) { callback(result); } resolve(result); } else { srvs.forEach(function (srv) { result.push({ name: srv, running: false, startmode: '', pcpu: 0, pmem: 0 }); }); if (callback) { callback(result); } resolve(result); } }); } }); } else { if (callback) { callback(result); } resolve(result); } } if (_windows) { try { util.wmic('service get /value').then((stdout, error) => { if (!error) { let serviceSections = stdout.split(/\n\s*\n/); for (let i = 0; i < serviceSections.length; i++) { if (serviceSections[i].trim() !== '') { let lines = serviceSections[i].trim().split('\r\n'); let srvName = util.getValue(lines, 'Name', '=', true).toLowerCase(); let started = util.getValue(lines, 'Started', '=', true); let startMode = util.getValue(lines, 'StartMode', '=', true); let pid = util.getValue(lines, 'ProcessId', '=', true); if (srvString === '*' || srvs.indexOf(srvName) >= 0) { result.push({ name: srvName, running: (started === 'TRUE'), startmode: startMode, pids: [pid], pcpu: 0, pmem: 0 }); dataSrv.push(srvName); } } } if (srvString !== '*') { let srvsMissing = srvs.filter(function (e) { return dataSrv.indexOf(e) === -1; }); srvsMissing.forEach(function (srvName) { result.push({ name: srvName, running: false, startmode: '', pids: [], pcpu: 0, pmem: 0 }); }); } if (callback) { callback(result); } resolve(result); } else { srvs.forEach(function (srvName) { result.push({ name: srvName, running: false, startmode: '', pcpu: 0, pmem: 0 }); }); if (callback) { callback(result); } resolve(result); } }); } catch (e) { if (callback) { callback(result); } resolve(result); } } } else { if (callback) { callback({}); } resolve({}); } }); }); } exports.services = services; function parseProcStat(line) { let parts = line.replace(/ +/g, ' ').split(' '); let user = (parts.length >= 2 ? parseInt(parts[1]) : 0); let nice = (parts.length >= 3 ? parseInt(parts[2]) : 0); let system = (parts.length >= 4 ? parseInt(parts[3]) : 0); let idle = (parts.length >= 5 ? parseInt(parts[4]) : 0); let iowait = (parts.length >= 6 ? parseInt(parts[5]) : 0); let irq = (parts.length >= 7 ? parseInt(parts[6]) : 0); let softirq = (parts.length >= 8 ? parseInt(parts[7]) : 0); let steal = (parts.length >= 9 ? parseInt(parts[8]) : 0); let guest = (parts.length >= 10 ? parseInt(parts[9]) : 0); let guest_nice = (parts.length >= 11 ? parseInt(parts[10]) : 0); return user + nice + system + idle + iowait + irq + softirq + steal + guest + guest_nice; } function calcProcStatLinux(line, all, _cpu_old) { let statparts = line.replace(/ +/g, ' ').split(')'); if (statparts.length >= 2) { let parts = statparts[1].split(' '); if (parts.length >= 16) { let pid = parseInt(statparts[0].split(' ')[0]); let utime = parseInt(parts[12]); let stime = parseInt(parts[13]); let cutime = parseInt(parts[14]); let cstime = parseInt(parts[15]); // calc let pcpuu = 0; let pcpus = 0; if (_cpu_old.all > 0 && _cpu_old.list[pid]) { pcpuu = (utime + cutime - _cpu_old.list[pid].utime - _cpu_old.list[pid].cutime) / (all - _cpu_old.all) * 100; // user pcpus = (stime + cstime - _cpu_old.list[pid].stime - _cpu_old.list[pid].cstime) / (all - _cpu_old.all) * 100; // system } else { pcpuu = (utime + cutime) / (all) * 100; // user pcpus = (stime + cstime) / (all) * 100; // system } return { pid: pid, utime: utime, stime: stime, cutime: cutime, cstime: cstime, pcpuu: pcpuu, pcpus: pcpus }; } else { return { pid: 0, utime: 0, stime: 0, cutime: 0, cstime: 0, pcpuu: 0, pcpus: 0 }; } } else { return { pid: 0, utime: 0, stime: 0, cutime: 0, cstime: 0, pcpuu: 0, pcpus: 0 }; } } function calcProcStatWin(procStat, all, _cpu_old) { // calc let pcpuu = 0; let pcpus = 0; if (_cpu_old.all > 0 && _cpu_old.list[procStat.pid]) { pcpuu = (procStat.utime - _cpu_old.list[procStat.pid].utime) / (all - _cpu_old.all) * 100; // user pcpus = (procStat.stime - _cpu_old.list[procStat.pid].stime) / (all - _cpu_old.all) * 100; // system } else { pcpuu = (procStat.utime) / (all) * 100; // user pcpus = (procStat.stime) / (all) * 100; // system } return { pid: procStat.pid, utime: procStat.utime, stime: procStat.stime, pcpuu: pcpuu, pcpus: pcpus }; } // -------------------------- // running processes function processes(callback) { let parsedhead = []; function getName(command) { command = command || ''; let result = command.split(' ')[0]; if (result.substr(-1) === ':') { result = result.substr(0, result.length - 1); } if (result.substr(0, 1) !== '[') { let parts = result.split('/'); if (isNaN(parseInt(parts[parts.length - 1]))) { result = parts[parts.length - 1]; } else { result = parts[0]; } } return result; } function parseLine(line) { let offset = 0; let offset2 = 0; function checkColumn(i) { offset = offset2; offset2 = line.substring(parsedhead[i].to + offset, 1000).indexOf(' '); } checkColumn(0); const pid = parseInt(line.substring(parsedhead[0].from + offset, parsedhead[0].to + offset2)); checkColumn(1); const ppid = parseInt(line.substring(parsedhead[1].from + offset, parsedhead[1].to + offset2)); checkColumn(2); const pcpu = parseFloat(line.substring(parsedhead[2].from + offset, parsedhead[2].to + offset2).replace(/,/g, '.')); checkColumn(3); const pmem = parseFloat(line.substring(parsedhead[3].from + offset, parsedhead[3].to + offset2).replace(/,/g, '.')); checkColumn(4); const priority = parseInt(line.substring(parsedhead[4].from + offset, parsedhead[4].to + offset2)); checkColumn(5); const vsz = parseInt(line.substring(parsedhead[5].from + offset, parsedhead[5].to + offset2)); checkColumn(6); const rss = parseInt(line.substring(parsedhead[6].from + offset, parsedhead[6].to + offset2)); checkColumn(7); const nice = parseInt(line.substring(parsedhead[7].from + offset, parsedhead[7].to + offset2)) || 0; checkColumn(8); const started = parseTimeUnix(line.substring(parsedhead[8].from + offset, parsedhead[8].to + offset2).trim()); checkColumn(9); let state = line.substring(parsedhead[9].from + offset, parsedhead[9].to + offset2).trim(); state = (state[0] === 'R' ? 'running' : (state[0] === 'S' ? 'sleeping' : (state[0] === 'T' ? 'stopped' : (state[0] === 'W' ? 'paging' : (state[0] === 'X' ? 'dead' : (state[0] === 'Z' ? 'zombie' : ((state[0] === 'D' || state[0] === 'U') ? 'blocked' : 'unknown'))))))); checkColumn(10); let tty = line.substring(parsedhead[10].from + offset, parsedhead[10].to + offset2).trim(); if (tty === '?' || tty === '??') tty = ''; checkColumn(11); const user = line.substring(parsedhead[11].from + offset, parsedhead[11].to + offset2).trim(); checkColumn(12); const fullcommand = line.substring(parsedhead[12].from + offset, parsedhead[12].to + offset2).trim().replace(/\[/g, '').replace(/]/g, ''); let cmdPath = ''; let command = ''; let params = ''; // try to figure out where parameter starts let firstParamPos = fullcommand.indexOf(' -'); let firstParamPathPos = fullcommand.indexOf(' /'); firstParamPos = (firstParamPos >= 0 ? firstParamPos : 10000); firstParamPathPos = (firstParamPathPos >= 0 ? firstParamPathPos : 10000); const firstPos = Math.min(firstParamPos, firstParamPathPos); let tmpCommand = fullcommand.substr(0, firstPos); const tmpParams = fullcommand.substr(firstPos); const lastSlashPos = tmpCommand.lastIndexOf('/'); if (lastSlashPos >= 0) { cmdPath = tmpCommand.substr(0, lastSlashPos); tmpCommand = tmpCommand.substr(lastSlashPos + 1); } if (firstPos === 10000 && tmpCommand.indexOf(' ') > -1) { const parts = tmpCommand.split(' '); if (fs.existsSync(path.join(cmdPath, parts[0]))) { command = parts.shift(); params = (parts.join(' ') + ' ' + tmpParams).trim(); } else { command = tmpCommand.trim(); params = tmpParams.trim(); } } else { command = tmpCommand.trim(); params = tmpParams.trim(); } return ({ pid: pid, parentPid: ppid, name: _linux ? getName(command) : command, pcpu: pcpu, pcpuu: 0, pcpus: 0, pmem: pmem, priority: priority, mem_vsz: vsz, mem_rss: rss, nice: nice, started: started, state: state, tty: tty, user: user, command: command, params: params, path: cmdPath }); } function parseProcesses(lines) { let result = []; if (lines.length > 1) { let head = lines[0]; parsedhead = util.parseHead(head, 8); lines.shift(); lines.forEach(function (line) { if (line.trim() !== '') { result.push(parseLine(line)); } }); } return result; } function parseProcesses2(lines) { function formatDateTime(time) { const month = ('0' + (time.getMonth() + 1).toString()).substr(-2); const year = time.getFullYear().toString(); const day = ('0' + time.getDay().toString()).substr(-2); const hours = time.getHours().toString(); const mins = time.getMinutes().toString(); const secs = ('0' + time.getSeconds().toString()).substr(-2); return (year + '-' + month + '-' + day + ' ' + hours + ':' + mins + ':' + secs); } let result = []; lines.forEach(function (line) { if (line.trim() !== '') { line = line.trim().replace(/ +/g, ' ').replace(/,+/g, '.'); const parts = line.split(' '); const command = parts.slice(9).join(' '); const pmem = parseFloat((1.0 * parseInt(parts[3]) * 1024 / os.totalmem()).toFixed(1)); const elapsed_parts = parts[5].split(':'); const started = formatDateTime(new Date(Date.now() - (elapsed_parts.length > 1 ? (elapsed_parts[0] * 60 + elapsed_parts[1]) * 1000 : elapsed_parts[0] * 1000))); result.push({ pid: parseInt(parts[0]), parentPid: parseInt(parts[1]), name: getName(command), pcpu: 0, pcpuu: 0, pcpus: 0, pmem: pmem, priority: 0, mem_vsz: parseInt(parts[2]), mem_rss: parseInt(parts[3]), nice: parseInt(parts[4]), started: started, state: (parts[6] === 'R' ? 'running' : (parts[6] === 'S' ? 'sleeping' : (parts[6] === 'T' ? 'stopped' : (parts[6] === 'W' ? 'paging' : (parts[6] === 'X' ? 'dead' : (parts[6] === 'Z' ? 'zombie' : ((parts[6] === 'D' || parts[6] === 'U') ? 'blocked' : 'unknown'))))))), tty: parts[7], user: parts[8], command: command }); } }); return result; } return new Promise((resolve) => { process.nextTick(() => { let result = { all: 0, running: 0, blocked: 0, sleeping: 0, unknown: 0, list: [] }; let cmd = ''; if ((_processes_cpu.ms && Date.now() - _processes_cpu.ms >= 500) || _processes_cpu.ms === 0) { if (_linux || _freebsd || _openbsd || _netbsd || _darwin || _sunos) { if (_linux) cmd = 'export LC_ALL=C; ps -axo pid:11,ppid:11,pcpu:6,pmem:6,pri:5,vsz:11,rss:11,ni:5,lstart:30,state:5,tty:15,user:20,command; unset LC_ALL'; if (_freebsd || _openbsd || _netbsd) cmd = 'export LC_ALL=C; ps -axo pid,ppid,pcpu,pmem,pri,vsz,rss,ni,lstart,state,tty,user,command; unset LC_ALL'; if (_darwin) cmd = 'export LC_ALL=C; ps -axo pid,ppid,pcpu,pmem,pri,vsz,rss,nice,lstart,state,tty,user,command -r; unset LC_ALL'; if (_sunos) cmd = 'ps -Ao pid,ppid,pcpu,pmem,pri,vsz,rss,nice,stime,s,tty,user,comm'; exec(cmd, { maxBuffer: 1024 * 20000 }, function (error, stdout) { if (!error) { result.list = (parseProcesses(stdout.toString().split('\n'))).slice(); result.all = result.list.length; result.running = result.list.filter(function (e) { return e.state === 'running'; }).length; result.blocked = result.list.filter(function (e) { return e.state === 'blocked'; }).length; result.sleeping = result.list.filter(function (e) { return e.state === 'sleeping'; }).length; if (_linux) { // calc process_cpu - ps is not accurate in linux! cmd = 'cat /proc/stat | grep "cpu "'; for (let i = 0; i < result.list.length; i++) { cmd += (';cat /proc/' + result.list[i].pid + '/stat'); } exec(cmd, { maxBuffer: 1024 * 20000 }, function (error, stdout) { let curr_processes = stdout.toString().split('\n'); // first line (all - /proc/stat) let all = parseProcStat(curr_processes.shift()); // process let list_new = {}; let resultProcess = {}; for (let i = 0; i < curr_processes.length; i++) { resultProcess = calcProcStatLinux(curr_processes[i], all, _processes_cpu); if (resultProcess.pid) { // store pcpu in outer array let listPos = result.list.map(function (e) { return e.pid; }).indexOf(resultProcess.pid); if (listPos >= 0) { result.list[listPos].pcpu = resultProcess.pcpuu + resultProcess.pcpus; result.list[listPos].pcpuu = resultProcess.pcpuu; result.list[listPos].pcpus = resultProcess.pcpus; } // save new values list_new[resultProcess.pid] = { pcpuu: resultProcess.pcpuu, pcpus: resultProcess.pcpus, utime: resultProcess.utime, stime: resultProcess.stime, cutime: resultProcess.cutime, cstime: resultProcess.cstime }; } } // store old values _processes_cpu.all = all; // _processes_cpu.list = list_new; _processes_cpu.list = Object.assign({}, list_new); _processes_cpu.ms = Date.now() - _processes_cpu.ms; // _processes_cpu.result = result; _processes_cpu.result = Object.assign({}, result); if (callback) { callback(result); } resolve(result); }); } else { if (callback) { callback(result); } resolve(result); } } else { cmd = 'ps -o pid,ppid,vsz,rss,nice,etime,stat,tty,user,comm'; if (_sunos) { cmd = 'ps -o pid,ppid,vsz,rss,nice,etime,s,tty,user,comm'; } exec(cmd, { maxBuffer: 1024 * 20000 }, function (error, stdout) { if (!error) { let lines = stdout.toString().split('\n'); lines.shift(); result.list = parseProcesses2(lines).slice(); result.all = result.list.length; result.running = result.list.filter(function (e) { return e.state === 'running'; }).length; result.blocked = result.list.filter(function (e) { return e.state === 'blocked'; }).length; result.sleeping = result.list.filter(function (e) { return e.state === 'sleeping'; }).length; if (callback) { callback(result); } resolve(result); } else { if (callback) { callback(result); } resolve(result); } }); } }); } else if (_windows) { try { util.wmic('process get /value').then((stdout, error) => { if (!error) { let processSections = stdout.split(/\n\s*\n/); let procs = []; let procStats = []; let list_new = {}; let allcpuu = 0; let allcpus = 0; for (let i = 0; i < processSections.length; i++) { if (processSections[i].trim() !== '') { let lines = processSections[i].trim().split('\r\n'); let pid = parseInt(util.getValue(lines, 'ProcessId', '=', true), 10); let parentPid = parseInt(util.getValue(lines, 'ParentProcessId', '=', true), 10); let statusValue = util.getValue(lines, 'ExecutionState', '='); let name = util.getValue(lines, 'Caption', '=', true); let commandLine = util.getValue(lines, 'CommandLine', '=', true); let commandPath = util.getValue(lines, 'ExecutablePath', '=', true); let utime = parseInt(util.getValue(lines, 'UserModeTime', '=', true), 10); let stime = parseInt(util.getValue(lines, 'KernelModeTime', '=', true), 10); let mem = parseInt(util.getValue(lines, 'WorkingSetSize', '=', true), 10); allcpuu = allcpuu + utime; allcpus = allcpus + stime; result.all++; if (!statusValue) { result.unknown++; } if (statusValue === '3') { result.running++; } if (statusValue === '4' || statusValue === '5') { result.blocked++; } procStats.push({ pid: pid, utime: utime, stime: stime, pcpu: 0, pcpuu: 0, pcpus: 0, }); procs.push({ pid: pid, parentPid: parentPid, name: name, pcpu: 0, pcpuu: 0, pcpus: 0, pmem: mem / os.totalmem() * 100, priority: parseInt(util.getValue(lines, 'Priority', '=', true), 10), mem_vsz: parseInt(util.getValue(lines, 'PageFileUsage', '=', true), 10), mem_rss: Math.floor(parseInt(util.getValue(lines, 'WorkingSetSize', '=', true), 10) / 1024), nice: 0, started: parseTimeWin(util.getValue(lines, 'CreationDate', '=', true)), state: (!statusValue ? _winStatusValues[0] : _winStatusValues[statusValue]), tty: '', user: '', command: commandLine || name, path: commandPath, params: '' }); } } result.sleeping = result.all - result.running - result.blocked - result.unknown; result.list = procs; for (let i = 0; i < procStats.length; i++) { let resultProcess = calcProcStatWin(procStats[i], allcpuu + allcpus, _processes_cpu); // store pcpu in outer array let listPos = result.list.map(function (e) { return e.pid; }).indexOf(resultProcess.pid); if (listPos >= 0) { result.list[listPos].pcpu = resultProcess.pcpuu + resultProcess.pcpus; result.list[listPos].pcpuu = resultProcess.pcpuu; result.list[listPos].pcpus = resultProcess.pcpus; } // save new values list_new[resultProcess.pid] = { pcpuu: resultProcess.pcpuu, pcpus: resultProcess.pcpus, utime: resultProcess.utime, stime: resultProcess.stime }; } // store old values _processes_cpu.all = allcpuu + allcpus; // _processes_cpu.list = list_new; _processes_cpu.list = Object.assign({}, list_new); _processes_cpu.ms = Date.now() - _processes_cpu.ms; // _processes_cpu.result = result; _processes_cpu.result = Object.assign({}, result); } if (callback) { callback(result); } resolve(result); }); } catch (e) { if (callback) { callback(result); } resolve(result); } } else { if (callback) { callback(result); } resolve(result); } } else { if (callback) { callback(_processes_cpu.result); } resolve(_processes_cpu.result); } }); }); } exports.processes = processes; // -------------------------- // PS - process load // get detailed information about a certain process // (PID, CPU-Usage %, Mem-Usage %) function processLoad(proc, callback) { // fallback - if only callback is given if (util.isFunction(proc) && !callback) { callback = proc; proc = ''; } return new Promise((resolve) => { process.nextTick(() => { const procSanitized = util.isPrototypePolluted() ? '' : util.sanitizeShellString(proc); let result = { 'proc': procSanitized, 'pid': -1, 'cpu': 0, 'mem': 0 }; if (procSanitized) { if (_windows) { try { util.wmic('process get /value').then((stdout, error) => { if (!error) { let processSections = stdout.split(/\n\s*\n/); let procStats = []; let list_new = {}; let allcpuu = 0; let allcpus = 0; for (let i = 0; i < processSections.length; i++) { if (processSections[i].trim() !== '') { let lines = processSections[i].trim().split('\r\n'); let pid = parseInt(util.getValue(lines, 'ProcessId', '=', true), 10); let name = util.getValue(lines, 'Caption', '=', true); let utime = parseInt(util.getValue(lines, 'UserModeTime', '=', true), 10); let stime = parseInt(util.getValue(lines, 'KernelModeTime', '=', true), 10); let mem = parseInt(util.getValue(lines, 'WorkingSetSize', '=', true), 10); allcpuu = allcpuu + utime; allcpus = allcpus + stime; procStats.push({ pid: pid, utime: utime, stime: stime, pcpu: 0, pcpuu: 0, pcpus: 0, }); if (name.toLowerCase().indexOf(procSanitized.toLowerCase()) >= 0) { if (result.pid === -1) { result = { proc: name, pid: pid, pids: [pid], cpu: 0, mem: mem / os.totalmem() * 100 }; } else { result.pids.push(pid); result.mem += mem / os.totalmem() * 100; } } } } for (let i = 0; i < procStats.length; i++) { let resultProcess = calcProcStatWin(procStats[i], allcpuu + allcpus, _process_cpu); // store pcpu in outer array if (result && result.pids && result.pids.length > 0) { let listPos = result.pids.indexOf(resultProcess.pid); if (listPos >= 0) { result.cpu = resultProcess.pcpuu + resultProcess.pcpus; } } // save new values list_new[resultProcess.pid] = { pcpuu: resultProcess.pcpuu, pcpus: resultProcess.pcpus, utime: resultProcess.utime, stime: resultProcess.stime }; } // store old values _process_cpu.all = allcpuu + allcpus; // _process_cpu.list = list_new; _process_cpu.list = Object.assign({}, list_new); _process_cpu.ms = Date.now() - _process_cpu.ms; // _process_cpu.result = result; _process_cpu.result = Object.assign({}, result); if (callback) { callback(result); } resolve(result); } }); } catch (e) { if (callback) { callback(result); } resolve(result); } } if (_darwin || _linux) { exec('ps -axo pid,pcpu,pmem,comm | grep -i ' + procSanitized + ' | grep -v grep', { maxBuffer: 1024 * 20000 }, function (error, stdout) { if (!error) { let lines = stdout.toString().split('\n'); let pid = 0; let pids = []; let cpu = 0; let mem = 0; lines.forEach(function (line) { let data = line.trim().replace(/ +/g, ' ').split(' '); if (data.length > 3) { pid = (!pid ? parseInt(data[0]) : 0); pids.push(parseInt(data[0], 10)); cpu = cpu + parseFloat(data[1].replace(',', '.')); mem = mem + parseFloat(data[2].replace(',', '.')); } }); result = { 'proc': procSanitized, 'pid': pid, 'pids': pids, 'cpu': parseFloat((cpu / lines.length).toFixed(2)), 'mem': parseFloat((mem / lines.length).toFixed(2)) }; if (_linux) { // calc process_cpu - ps is not accurate in linux! let cmd = 'cat /proc/stat | grep "cpu "'; for (let i = 0; i < result.pids.length; i++) { cmd += (';cat /proc/' + result.pids[i] + '/stat'); } exec(cmd, { maxBuffer: 1024 * 20000 }, function (error, stdout) { let curr_processes = stdout.toString().split('\n'); // first line (all - /proc/stat) let all = parseProcStat(curr_processes.shift()); // process let list_new = {}; let resultProcess = {}; result.cpu = 0; for (let i = 0; i < curr_processes.length; i++) { resultProcess = calcProcStatLinux(curr_processes[i], all, _process_cpu); if (resultProcess.pid) { // store pcpu in outer result result.cpu += resultProcess.pcpuu + resultProcess.pcpus; // save new values list_new[resultProcess.pid] = { pcpuu: resultProcess.pcpuu, pcpus: resultProcess.pcpus, utime: resultProcess.utime, stime: resultProcess.stime, cutime: resultProcess.cutime, cstime: resultProcess.cstime }; } } result.cpu = Math.round(result.cpu * 100) / 100; _process_cpu.all = all; // _process_cpu.list = list_new; _process_cpu.list = Object.assign({}, list_new); _process_cpu.ms = Date.now() - _process_cpu.ms; // _process_cpu.result = result; _process_cpu.result = Object.assign({}, result); if (callback) { callback(result); } resolve(result); }); } else { if (callback) { callback(result); } resolve(result); } } else { if (callback) { callback(result); } resolve(result); } }); } } }); }); } exports.processLoad = processLoad;