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Improved server list view and search box.

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Ylian Saint-Hilaire 2019-03-15 12:30:04 -07:00
parent 44778d52ea
commit a4756d572d
72 changed files with 20049 additions and 37 deletions
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agents-new/modules_meshcmd/amt-lme.js Normal file
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/*
Copyright 2018-2019 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.
*/
var MemoryStream = require('MemoryStream');
var lme_id = 0; // Our next channel identifier
var lme_port_offset = 0; // Debug: Set this to "-100" to bind to 16892 & 16893 and IN_ADDRANY. This is for LMS debugging.
var xmlParser = require('amt-xml');
// Documented in: https://software.intel.com/sites/manageability/AMT_Implementation_and_Reference_Guide/HTMLDocuments/MPSDocuments/Intel%20AMT%20Port%20Forwarding%20Protocol%20Reference%20Manual.pdf
var APF_DISCONNECT = 1;
var APF_SERVICE_REQUEST = 5;
var APF_SERVICE_ACCEPT = 6;
var APF_USERAUTH_REQUEST = 50;
var APF_USERAUTH_FAILURE = 51;
var APF_USERAUTH_SUCCESS = 52;
var APF_GLOBAL_REQUEST = 80;
var APF_REQUEST_SUCCESS = 81;
var APF_REQUEST_FAILURE = 82;
var APF_CHANNEL_OPEN = 90;
var APF_CHANNEL_OPEN_CONFIRMATION = 91;
var APF_CHANNEL_OPEN_FAILURE = 92;
var APF_CHANNEL_WINDOW_ADJUST = 93;
var APF_CHANNEL_DATA = 94;
var APF_CHANNEL_CLOSE = 97;
var APF_PROTOCOLVERSION = 192;
function lme_object() {
this.ourId = ++lme_id;
this.amtId = -1;
this.LME_CHANNEL_STATUS = 'LME_CS_FREE';
this.txWindow = 0;
this.rxWindow = 0;
this.localPort = 0;
this.errorCount = 0;
}
function stream_bufferedWrite() {
var emitterUtils = require('events').inherits(this);
this.buffer = [];
this._readCheckImmediate = undefined;
this._ObjectID = "bufferedWriteStream";
// Writable Events
emitterUtils.createEvent('close');
emitterUtils.createEvent('drain');
emitterUtils.createEvent('error');
emitterUtils.createEvent('finish');
emitterUtils.createEvent('pipe');
emitterUtils.createEvent('unpipe');
// Readable Events
emitterUtils.createEvent('readable');
this.isEmpty = function () {
return (this.buffer.length == 0);
};
this.isWaiting = function () {
return (this._readCheckImmediate == undefined);
};
this.write = function (chunk) {
for (var args in arguments) { if (typeof (arguments[args]) == 'function') { this.once('drain', arguments[args]); break; } }
var tmp = Buffer.alloc(chunk.length);
chunk.copy(tmp);
this.buffer.push({ offset: 0, data: tmp });
this.emit('readable');
return (this.buffer.length == 0 ? true : false);
};
this.read = function () {
var size = arguments.length == 0 ? undefined : arguments[0];
var bytesRead = 0;
var list = [];
while ((size == undefined || bytesRead < size) && this.buffer.length > 0) {
var len = this.buffer[0].data.length - this.buffer[0].offset;
var offset = this.buffer[0].offset;
if (len > (size - bytesRead)) {
// Only reading a subset
list.push(this.buffer[0].data.slice(offset, offset + size - bytesRead));
this.buffer[0].offset += (size - bytesRead);
bytesRead += (size - bytesRead);
} else {
// Reading the entire thing
list.push(this.buffer[0].data.slice(offset));
bytesRead += len;
this.buffer.shift();
}
}
this._readCheckImmediate = setImmediate(function (buffered) {
buffered._readCheckImmediate = undefined;
if (buffered.buffer.length == 0) {
buffered.emit('drain'); // Drained
} else {
buffered.emit('readable'); // Not drained
}
}, this);
return (Buffer.concat(list));
};
}
function lme_heci(options) {
var emitterUtils = require('events').inherits(this);
emitterUtils.createEvent('error');
emitterUtils.createEvent('connect');
emitterUtils.createEvent('notify');
emitterUtils.createEvent('bind');
if ((options != null) && (options.debug == true)) { lme_port_offset = -100; } // LMS debug mode
var heci = require('heci');
this.INITIAL_RXWINDOW_SIZE = 4096;
this._ObjectID = "lme";
this._LME = heci.create();
this._LME._binded = {};
this._LME.LMS = this;
this._LME.on('error', function (e) { this.LMS.emit('error', e); });
this._LME.on('connect', function () {
this.on('data', function (chunk) {
// this = HECI
var cmd = chunk.readUInt8(0);
//console.log('LME Command ' + cmd + ', ' + chunk.length + ' byte(s).');
switch (cmd) {
default:
console.log('Unhandled LME Command ' + cmd + ', ' + chunk.length + ' byte(s).');
break;
case APF_SERVICE_REQUEST:
var nameLen = chunk.readUInt32BE(1);
var name = chunk.slice(5, nameLen + 5);
//console.log("Service Request for: " + name);
if (name == 'pfwd@amt.intel.com' || name == 'auth@amt.intel.com') {
var outBuffer = Buffer.alloc(5 + nameLen);
outBuffer.writeUInt8(6, 0);
outBuffer.writeUInt32BE(nameLen, 1);
outBuffer.write(name.toString(), 5);
this.write(outBuffer);
//console.log('Answering APF_SERVICE_REQUEST');
} else {
//console.log('UNKNOWN APF_SERVICE_REQUEST');
}
break;
case APF_GLOBAL_REQUEST:
var nameLen = chunk.readUInt32BE(1);
var name = chunk.slice(5, nameLen + 5).toString();
switch (name) {
case 'tcpip-forward':
var len = chunk.readUInt32BE(nameLen + 6);
var port = chunk.readUInt32BE(nameLen + 10 + len);
//console.log("[" + chunk.length + "/" + len + "] APF_GLOBAL_REQUEST for: " + name + " on port " + port);
if (this[name] == undefined) { this[name] = {}; }
if (this[name][port] != null) { // Close the existing binding
for (var i in this.sockets) {
var channel = this.sockets[i];
if (channel.localPort == port) { this.sockets[i].end(); delete this.sockets[i]; } // Close this socket
}
}
if (this[name][port] == null)
{ // Bind a new server socket if not already present
this[name][port] = require('net').createServer();
this[name][port].HECI = this;
if (lme_port_offset == 0) {
this[name][port].listen({ port: port, host: '127.0.0.1' }); // Normal mode
} else {
this[name][port].listen({ port: (port + lme_port_offset) }); // Debug mode
}
this[name][port].on('connection', function (socket) {
//console.log('New [' + socket.remoteFamily + '] TCP Connection on: ' + socket.remoteAddress + ' :' + socket.localPort);
this.HECI.LMS.bindDuplexStream(socket, socket.remoteFamily, socket.localPort - lme_port_offset);
});
this._binded[port] = true;
this.LMS.emit('bind', this._binded);
}
var outBuffer = Buffer.alloc(5);
outBuffer.writeUInt8(81, 0);
outBuffer.writeUInt32BE(port, 1);
this.write(outBuffer);
break;
case 'cancel-tcpip-forward':
var outBuffer = Buffer.alloc(1);
outBuffer.writeUInt8(APF_REQUEST_SUCCESS, 0);
this.write(outBuffer);
break;
case 'udp-send-to@amt.intel.com':
var outBuffer = Buffer.alloc(1);
outBuffer.writeUInt8(APF_REQUEST_FAILURE, 0);
this.write(outBuffer);
break;
default:
//console.log("Unknown APF_GLOBAL_REQUEST for: " + name);
break;
}
break;
case APF_CHANNEL_OPEN_CONFIRMATION:
var rChannel = chunk.readUInt32BE(1);
var sChannel = chunk.readUInt32BE(5);
var wSize = chunk.readUInt32BE(9);
//console.log('rChannel/' + rChannel + ', sChannel/' + sChannel + ', wSize/' + wSize);
if (this.sockets[rChannel] != undefined) {
this.sockets[rChannel].lme.amtId = sChannel;
this.sockets[rChannel].lme.rxWindow = wSize;
this.sockets[rChannel].lme.txWindow = wSize;
this.sockets[rChannel].lme.LME_CHANNEL_STATUS = 'LME_CS_CONNECTED';
//console.log('LME_CS_CONNECTED');
this.sockets[rChannel].bufferedStream = new stream_bufferedWrite();
this.sockets[rChannel].bufferedStream.socket = this.sockets[rChannel];
this.sockets[rChannel].bufferedStream.on('readable', function () {
if (this.socket.lme.txWindow > 0) {
var buffer = this.read(this.socket.lme.txWindow);
var packet = Buffer.alloc(9 + buffer.length);
packet.writeUInt8(APF_CHANNEL_DATA, 0);
packet.writeUInt32BE(this.socket.lme.amtId, 1);
packet.writeUInt32BE(buffer.length, 5);
buffer.copy(packet, 9);
this.socket.lme.txWindow -= buffer.length;
this.socket.HECI.write(packet);
}
});
this.sockets[rChannel].bufferedStream.on('drain', function () {
this.socket.resume();
});
this.sockets[rChannel].on('data', function (chunk) {
if (!this.bufferedStream.write(chunk)) { this.pause(); }
});
this.sockets[rChannel].on('end', function () {
var outBuffer = Buffer.alloc(5);
outBuffer.writeUInt8(APF_CHANNEL_CLOSE, 0);
outBuffer.writeUInt32BE(this.lme.amtId, 1);
this.HECI.write(outBuffer);
});
this.sockets[rChannel].resume();
}
break;
case APF_PROTOCOLVERSION:
var major = chunk.readUInt32BE(1);
var minor = chunk.readUInt32BE(5);
var reason = chunk.readUInt32BE(9);
var outBuffer = Buffer.alloc(93);
outBuffer.writeUInt8(192, 0);
outBuffer.writeUInt32BE(1, 1);
outBuffer.writeUInt32BE(0, 5);
outBuffer.writeUInt32BE(reason, 9);
//console.log('Answering PROTOCOL_VERSION');
this.write(outBuffer);
break;
case APF_CHANNEL_WINDOW_ADJUST:
var rChannelId = chunk.readUInt32BE(1);
var bytesToAdd = chunk.readUInt32BE(5);
if (this.sockets[rChannelId] != undefined) {
this.sockets[rChannelId].lme.txWindow += bytesToAdd;
if (!this.sockets[rChannelId].bufferedStream.isEmpty() && this.sockets[rChannelId].bufferedStream.isWaiting()) {
this.sockets[rChannelId].bufferedStream.emit('readable');
}
} else {
console.log('Unknown Recipient ID/' + rChannelId + ' for APF_CHANNEL_WINDOW_ADJUST');
}
break;
case APF_CHANNEL_DATA:
var rChannelId = chunk.readUInt32BE(1);
var dataLen = chunk.readUInt32BE(5);
var data = chunk.slice(9, 9 + dataLen);
if ((this.sockets != null) && (this.sockets[rChannelId] != undefined)) {
this.sockets[rChannelId].pendingBytes.push(data.length);
this.sockets[rChannelId].write(data, function () {
var written = this.pendingBytes.shift();
//console.log('adjust', this.lme.amtId, written);
var outBuffer = Buffer.alloc(9);
outBuffer.writeUInt8(APF_CHANNEL_WINDOW_ADJUST, 0);
outBuffer.writeUInt32BE(this.lme.amtId, 1);
outBuffer.writeUInt32BE(written, 5);
this.HECI.write(outBuffer);
});
} else if ((this.insockets != null) && (this.insockets[rChannelId] != undefined)) {
var channel = this.insockets[rChannelId];
if (channel.data == null) { channel.data = data.toString(); } else { channel.data += data.toString(); }
channel.rxWindow += dataLen;
//console.log('IN DATA', channel.rxWindow, channel.data.length, dataLen, channel.amtId, data.toString());
var httpData = parseHttp(channel.data);
if ((httpData != null) || (channel.data.length >= 8000)) {
// Parse the WSMAN
var notify = null;
try { notify = xmlParser.ParseWsman(httpData); } catch (e) { }
// Event the http data
if (notify != null) { this.LMS.emit('notify', notify, channel.options, _lmsNotifyToString(notify), _lmsNotifyToCode(notify)); }
// Send channel close
var buffer = Buffer.alloc(5);
buffer.writeUInt8(APF_CHANNEL_CLOSE, 0);
buffer.writeUInt32BE(amtId, 1);
this.write(buffer);
} else {
if (channel.rxWindow > 6000) {
// Send window adjust
var buffer = Buffer.alloc(9);
buffer.writeUInt8(APF_CHANNEL_WINDOW_ADJUST, 0);
buffer.writeUInt32BE(channel.amtId, 1);
buffer.writeUInt32BE(channel.rxWindow, 5);
this.write(buffer);
channel.rxWindow = 0;
}
}
} else {
console.log('Unknown Recipient ID/' + rChannelId + ' for APF_CHANNEL_DATA');
}
break;
case APF_CHANNEL_OPEN_FAILURE:
var rChannelId = chunk.readUInt32BE(1);
var reasonCode = chunk.readUInt32BE(5);
if ((this.sockets != null) && (this.sockets[rChannelId] != undefined)) {
this.sockets[rChannelId].end();
delete this.sockets[rChannelId];
} else if ((this.insockets != null) && (this.insockets[rChannelId] != undefined)) {
delete this.insockets[rChannelId];
} else {
console.log('Unknown Recipient ID/' + rChannelId + ' for APF_CHANNEL_OPEN_FAILURE');
}
break;
case APF_CHANNEL_CLOSE:
var rChannelId = chunk.readUInt32BE(1);
if ((this.sockets != null) && (this.sockets[rChannelId] != undefined)) {
this.sockets[rChannelId].end();
var amtId = this.sockets[rChannelId].lme.amtId;
var buffer = Buffer.alloc(5);
delete this.sockets[rChannelId];
buffer.writeUInt8(APF_CHANNEL_CLOSE, 0); // ????????????????????????????
buffer.writeUInt32BE(amtId, 1);
this.write(buffer);
} else if ((this.insockets != null) && (this.insockets[rChannelId] != undefined)) {
delete this.insockets[rChannelId];
// Should I send a close back????
} else {
console.log('Unknown Recipient ID/' + rChannelId + ' for APF_CHANNEL_CLOSE');
}
break;
case APF_CHANNEL_OPEN:
var nameLen = chunk.readUInt32BE(1);
var name = chunk.slice(5, nameLen + 5).toString();
var channelSender = chunk.readUInt32BE(nameLen + 5);
var initialWindowSize = chunk.readUInt32BE(nameLen + 9);
var hostToConnectLen = chunk.readUInt32BE(nameLen + 17);
var hostToConnect = chunk.slice(nameLen + 21, nameLen + 21 + hostToConnectLen).toString();
var portToConnect = chunk.readUInt32BE(nameLen + 21 + hostToConnectLen);
var originatorIpLen = chunk.readUInt32BE(nameLen + 25 + hostToConnectLen);
var originatorIp = chunk.slice(nameLen + 29 + hostToConnectLen, nameLen + 29 + hostToConnectLen + originatorIpLen).toString();
var originatorPort = chunk.readUInt32BE(nameLen + 29 + hostToConnectLen + originatorIpLen);
//console.log('APF_CHANNEL_OPEN', name, channelSender, initialWindowSize, 'From: ' + originatorIp + ':' + originatorPort, 'To: ' + hostToConnect + ':' + portToConnect);
if (this.insockets == null) { this.insockets = {}; }
var ourId = ++lme_id;
var insocket = new lme_object();
insocket.ourId = ourId;
insocket.amtId = channelSender;
insocket.txWindow = initialWindowSize;
insocket.rxWindow = 0;
insocket.options = { target: hostToConnect, targetPort: portToConnect, source: originatorIp, sourcePort: originatorPort };
this.insockets[ourId] = insocket;
var buffer = Buffer.alloc(17);
buffer.writeUInt8(APF_CHANNEL_OPEN_CONFIRMATION, 0);
buffer.writeUInt32BE(channelSender, 1); // Intel AMT sender channel
buffer.writeUInt32BE(ourId, 5); // Our receiver channel id
buffer.writeUInt32BE(4000, 9); // Initial Window Size
buffer.writeUInt32BE(0xFFFFFFFF, 13); // Reserved
this.write(buffer);
/*
var buffer = Buffer.alloc(17);
buffer.writeUInt8(APF_CHANNEL_OPEN_FAILURE, 0);
buffer.writeUInt32BE(channelSender, 1); // Intel AMT sender channel
buffer.writeUInt32BE(2, 5); // Reason code
buffer.writeUInt32BE(0, 9); // Reserved
buffer.writeUInt32BE(0, 13); // Reserved
this.write(buffer);
console.log('Sent APF_CHANNEL_OPEN_FAILURE', channelSender);
*/
break;
}
});
this.LMS.emit('connect');
this.resume();
});
this.bindDuplexStream = function (duplexStream, remoteFamily, localPort) {
var socket = duplexStream;
//console.log('New [' + remoteFamily + '] Virtual Connection/' + socket.localPort);
socket.pendingBytes = [];
socket.HECI = this._LME;
socket.LMS = this;
socket.lme = new lme_object();
socket.lme.Socket = socket;
socket.localPort = localPort;
var buffer = new MemoryStream();
buffer.writeUInt8(0x5A);
buffer.writeUInt32BE(15);
buffer.write('forwarded-tcpip');
buffer.writeUInt32BE(socket.lme.ourId);
buffer.writeUInt32BE(this.INITIAL_RXWINDOW_SIZE);
buffer.writeUInt32BE(0xFFFFFFFF);
for (var i = 0; i < 2; ++i) {
if (remoteFamily == 'IPv6') {
buffer.writeUInt32BE(3);
buffer.write('::1');
} else {
buffer.writeUInt32BE(9);
buffer.write('127.0.0.1');
}
buffer.writeUInt32BE(localPort);
}
this._LME.write(buffer.buffer);
if (this._LME.sockets == undefined) { this._LME.sockets = {}; }
this._LME.sockets[socket.lme.ourId] = socket;
socket.pause();
};
this._LME.connect(heci.GUIDS.LME, { noPipeline: 0 });
}
function parseHttp(httpData) {
var i = httpData.indexOf('\r\n\r\n');
if ((i == -1) || (httpData.length < (i + 2))) { return null; }
var headers = require('http-headers')(httpData.substring(0, i), true);
var contentLength = parseInt(headers['content-length']);
if (httpData.length >= contentLength + i + 4) { return httpData.substring(i + 4, i + 4 + contentLength); }
return null;
}
function _lmsNotifyToCode(notify) {
if ((notify == null) || (notify.Body == null) || (notify.Body.MessageID == null)) return null;
var msgid = notify.Body.MessageID;
try { msgid += '-' + notify.Body.MessageArguments[0]; } catch (e) { }
return msgid;
}
function _lmsNotifyToString(notify) {
if ((notify == null) || (notify.Body == null) || (notify.Body.MessageID == null)) return null;
var msgid = notify.Body.MessageID;
try { msgid += '-' + notify.Body.MessageArguments[0]; } catch (e) { }
if (lmsEvents[msgid]) { return lmsEvents[msgid]; }
return null;
}
var lmsEvents = {
"iAMT0001": "System Defense Policy %1s triggered.",
"iAMT0002": "Agent Presence Agent %1s not started.",
"iAMT0003": "Agent Presence Agent %1s stopped.",
"iAMT0004": "Agent Presence Agent %1s running.",
"iAMT0005": "Agent Presence Agent %1s expired.",
"iAMT0006": "Agent Presence Agent %1s suspended.",
"iAMT0007": "Host software attempt to disable AMT Network link detected.",
"iAMT0008": "Host software attempt to disable AMT Network link detected -- Host Network link blocked.",
"iAMT0009": "AMT clock or FLASH wear-out protection disabled.",
"iAMT0010": "Intel(R) AMT Network Interface %1s heuristics defense slow threshold trespassed.",
"iAMT0011": "Intel(R) AMT Network Interface %1s heuristics defense fast threshold trespassed.",
"iAMT0012": "Intel(R) AMT Network Interface %1s heuristics defense factory defined threshold trespassed.",
"iAMT0013": "Intel(R) AMT Network Interface %1s heuristics defense Encounter timeout expired.",
"iAMT0014": "General certificate error.",
"iAMT0015": "Certificate expired.",
"iAMT0016": "No trusted root certificate.",
"iAMT0017": "Not configured to work with server certificate.",
"iAMT0018": "Certificate revoked.",
"iAMT0019": "RSA exponent too large.",
"iAMT0020": "RSA modulus too large.",
"iAMT0021": "Unsupported digest.",
"iAMT0022": "Distinguished name too long.",
"iAMT0023": "Key usage missing.",
"iAMT0024": "General SSL handshake error.",
"iAMT0025": "General 802.1x error.",
"iAMT0026": "AMT Diagnostic AlertEAC error - General NAC error.",
"iAMT0027": "AMT Diagnostic AlertEAC error - attempt to get a NAC posture while AMT NAC is disabled.",
"iAMT0028": "AMT Diagnostic AlertEAC error - attempt to get a posture of an unsupported type.",
"iAMT0029": "Audit log storage is 50% full.",
"iAMT0030": "Audit log storage is 75% full.",
"iAMT0031": "Audit log storage is 85% full.",
"iAMT0032": "Audit log storage is 95% full.",
"iAMT0033": "Audit log storage is full.",
"iAMT0034": "Firmware Update Event - Partial.",
"iAMT0035": "Firmware Update Event - Failure.",
"iAMT0036": "Remote connectivity initiated.",
"iAMT0037": "ME Presence event.",
"iAMT0038-0": "AMT is being unprovisioned using BIOS command.",
"iAMT0038-1": "AMT is being unprovisioned using Local MEI command.",
"iAMT0038-2": "AMT is being unprovisioned using Local WS-MAN/SOAP command.",
"iAMT0038-3": "AMT is being unprovisioned using Remote WS-MAN/SOAP command.",
"iAMT0039": "HW Asset Error.",
"iAMT0050": "User Notification Alert - General Notification.",
"iAMT0050-16": "User Notification Alert - Circuit Breaker notification (CB Drop TX filter hit.).",
"iAMT0050-17": "User Notification Alert - Circuit Breaker notification (CB Rate Limit TX filter hit.).",
"iAMT0050-18": "User Notification Alert - Circuit Breaker notification (CB Drop RX filter hit.).",
"iAMT0050-19": "User Notification Alert - Circuit Breaker notification (CB Rate Limit RX filter hit.).",
"iAMT0050-32": "User Notification Alert - EAC notification.",
"iAMT0050-48": "User Notification Alert - Remote diagnostics - (Remote Redirection session started - SOL).",
"iAMT0050-49": "User Notification Alert - Remote diagnostics - (Remote Redirection session stopped - SOL).",
"iAMT0050-50": "User Notification Alert - Remote diagnostics. (Remote Redirection session started - IDE-R).",
"iAMT0050-51": "User Notification Alert - Remote diagnostics. (Remote Redirection session stopped - IDE-R).",
"iAMT0050-66": "User Notification Alert - WLAN notification (Host profile mismatch - Management Interface ignored).",
"iAMT0050-67": "User Notification Alert - WLAN notification (Management device overrides host radio).",
"iAMT0050-68": "User Notification Alert - WLAN notification (Host profile security mismatch).",
"iAMT0050-69": "User Notification Alert - WLAN notification (Management device relinquishes control over host Radio).",
"iAMT0051": "User Notification Alert - SecIo event.",
"iAMT0051-0": "User Notification Alert - SecIo event semaphore at host.",
"iAMT0051-1": "User Notification Alert - semaphore at ME.",
"iAMT0051-2": "User Notification Alert - SecIo event - semaphore timeout.",
"iAMT0052": "User Notification Alert - KVM session event.",
"iAMT0052-0": "User Notification Alert - KVM session requested.",
"iAMT0052-1": "User Notification Alert - KVM session started.",
"iAMT0052-2": "User Notification Alert - KVM session stopped.",
"iAMT0052-3": "User Notification Alert - KVM data channel.",
"iAMT0053": "User Notification Alert - RCS notification.",
"iAMT0053-50": "User Notification Alert - RCS notification (HW button pressed. Connection initiated automatically).",
"iAMT0053-52": "User Notification Alert - RCS notification (HW button pressed. Connection wasn't initiated automatically).",
"iAMT0053-53": "User Notification Alert - RCS notification (Contracts updated).",
"iAMT0054": "User Notification Alert - WLAN notification. Wireless Profile sync enablement state changed.",
"iAMT0055": "User Notification Alert - Provisioning state change notification.",
"iAMT0055-0": "User Notification Alert - Provisioning state change notification - Pre-configuration.",
"iAMT0055-1": "User Notification Alert - Provisioning state change notification - In configuration.",
"iAMT0055-2": "User Notification Alert - Provisioning state change notification - Post-configuration.",
"iAMT0055-3": "User Notification Alert - Provisioning state change notification - Unprovision process has started.",
"iAMT0056": "User Notification Alert - System Defense change notification.",
"iAMT0057": "User Notification Alert - Network State change notification.",
"iAMT0058": "User Notification Alert - Remote Access change notification.",
"iAMT0058-1": "User Notification Alert - Remote Access change notification - tunnel is closed.",
//"iAMT0058-1": "User Notification Alert - Remote Access change notification - tunnel is open.", // TODO
"iAMT0059": "User Notification Alert - KVM enabled event.",
"iAMT0059-0": "User Notification Alert - KVM enabled event - KVM disabled.",
"iAMT0059-1": "User Notification Alert - KVM enabled event - KVM enabled (both from MEBx and PTNI).",
"iAMT0060": "User Notification Alert - SecIO configuration event.",
"iAMT0061": "ME FW reset occurred.",
"iAMT0062": "User Notification Alert - IpSyncEnabled event.",
"iAMT0062-0": "User Notification Alert - IpSyncEnabled event - IpSync disabled.",
"iAMT0062-1": "User Notification Alert - IpSyncEnabled event - IpSync enabled.",
"iAMT0063": "User Notification Alert - HTTP Proxy sync enabled event.",
"iAMT0063-0": "User Notification Alert - HTTP Proxy sync enabled event - HTTP Proxy Sync disabled.",
"iAMT0063-1": "User Notification Alert - HTTP Proxy sync enabled event - HTTP Proxy Sync enabled.",
"iAMT0064": "User Notification Alert - User Consent event.",
"iAMT0064-1": "User Notification Alert - User Consent event - User Consent granted.",
"iAMT0064-2": "User Notification Alert - User Consent event - User Consent ended.",
"iAMT0067-0": "Graceful Remote Control Operation - Shutdown.",
"iAMT0067-1": "Graceful Remote Control Operation - Reset.",
"iAMT0067-2": "Graceful Remote Control Operation - Hibernate.",
"iAMT0068-0": "Link Protection Notification - No link protection.",
"iAMT0068-1": "Link Protection Notification - Passive link protection.",
"iAMT0068-2": "Link Protection Notification - High link protection.",
"iAMT0069-0": "Local Time Sync Enablement Notification - Local Time Sync Disabled.",
"iAMT0069-1": "Local Time Sync Enablement Notification - Local Time Sync Enabled.",
"iAMT0070": "Host Reset Triggered by WD Expiration Notification.",
"PLAT0004": "The chassis %1s was opened.",
"PLAT0005": "The chassis %1s was closed.",
"PLAT0006": "The drive bay %1s was opened.",
"PLAT0007": "The drive bay %1s was closed.",
"PLAT0008": "The I/O card area %1s was opened.",
"PLAT0009": "The I/O card area %1s was closed.",
"PLAT0010": "The processor area %1s was opened.",
"PLAT0011": "The processor area %1s was closed.",
"PLAT0012": "The LAN %1s has been disconnected.",
"PLAT0013": "The LAN %1s has been connected.",
"PLAT0016": "The permission to insert package %1s has been granted.",
"PLAT0017": "The permission to insert package %1s has been removed.",
"PLAT0018": "The fan card area %1s is open.",
"PLAT0019": "The fan card area %1s is closed.",
"PLAT0022": "The computer system %1s has detected a secure mode violation.",
"PLAT0024": "The computer system %1s has detected a pre-boot user password violation.",
"PLAT0026": "The computer system %1s has detected a pre-boot setup password violation.",
"PLAT0028": "The computer system %1s has detected a network boot password violation.",
"PLAT0030": "The computer system %1s has detected a password violation.",
"PLAT0032": "The management controller %1s has detected an out-of-band password violation.",
"PLAT0034": "The processor %1s has been added.",
"PLAT0035": "The processor %1s has been removed.",
"PLAT0036": "An over-temperature condition has been detected on the processor %1s.",
"PLAT0037": "An over-temperature condition has been removed on the processor %1s.",
"PLAT0038": "The processor %1s is operating in a degraded State.",
"PLAT0039": "The processor %1s is no longer operating in a degraded State.",
"PLAT0040": "The processor %1s has failed.",
"PLAT0042": "The processor %1s has failed.",
"PLAT0044": "The processor %1s has failed.",
"PLAT0046": "The processor %1s has failed.",
"PLAT0048": "The processor %1s has failed.",
"PLAT0060": "The processor %1s has been enabled.",
"PLAT0061": "The processor %1s has been disabled.",
"PLAT0062": "The processor %1s has a configuration mismatch.",
"PLAT0064": "A terminator has been detected on the processor %1s.",
"PLAT0084": "The Power Supply %1s has been added.",
"PLAT0085": "The Power Supply %1s has been removed.",
"PLAT0086": "The Power Supply %1s has failed.",
"PLAT0088": "Failure predicted on power supply %1s.",
"PLAT0096": "The input to power supply %1s has been lost or fallen out of range.",
"PLAT0098": "The power supply %1s is operating in an input state that is out of range.",
"PLAT0099": "The power supply %1s has returned to a normal input state.",
"PLAT0100": "The power supply %1s has lost input.",
"PLAT0104": "The power supply %1s has a configuration mismatch.",
"PLAT0106": "Power supply %1s has been disabled.",
"PLAT0107": "Power supply %1s has been enabled.",
"PLAT0108": "Power supply %1s has been power cycled.",
"PLAT0110": "Power supply %1s has encountered an error during power down.",
"PLAT0112": "Power supply %1s has lost power.",
"PLAT0114": "Soft power control has failed for power supply %1s.",
"PLAT0116": "Power supply %1s has failed.",
"PLAT0118": "Failure predicted on power supply %1s.",
"PLAT0120": "Memory subsystem failure.",
"PLAT0122": "DIMM missing.",
"PLAT0124": "Memory error detected & corrected for DIMM %1s.",
"PLAT0128": "Memory DIMM %1s added.",
"PLAT0129": "Memory DIMM %1s removed.",
"PLAT0130": "Memory DIMM %1s enabled.",
"PLAT0131": "Memory DIMM %1s disabled.",
"PLAT0134": "Memory parity error for DIMM %1s.",
"PLAT0136": "Memory scrub failure for DIMM %1s.",
"PLAT0138": "Memory uncorrectable error detected for DIMM %1s.",
"PLAT0140": "Memory sparing initiated for DIMM %1s.",
"PLAT0141": "Memory sparing concluded for DIMM %1s.",
"PLAT0142": "Memory DIMM %1s Throttled.",
"PLAT0144": "Memory logging limit reached for DIMM %1s.",
"PLAT0145": "Memory logging limit removed for DIMM %1s.",
"PLAT0146": "An over-temperature condition has been detected on the Memory DIMM %1s.",
"PLAT0147": "An over-temperature condition has been removed on the Memory DIMM %1s.",
"PLAT0162": "The drive %1s has been added.",
"PLAT0163": "The drive %1s has been removed.",
"PLAT0164": "The drive %1s has been disabled due to a detected fault.",
"PLAT0167": "The drive %1s has been enabled.",
"PLAT0168": "Failure predicted on drive %1s.",
"PLAT0170": "Hot spare enabled for %1s.",
"PLAT0171": "Hot spare disabled for %1s.",
"PLAT0172": "Consistency check has begun for %1s.",
"PLAT0173": "Consistency check completed for %1s.",
"PLAT0174": "Array %1s is in critical condition.",
"PLAT0176": "Array %1s has failed.",
"PLAT0177": "Array %1s has been restored.",
"PLAT0178": "Rebuild in progress for array %1s.",
"PLAT0179": "Rebuild completed for array %1s.",
"PLAT0180": "Rebuild Aborted for array %1s.",
"PLAT0184": "The system %1s encountered a POST error.",
"PLAT0186": "The system %1s encountered a firmware hang.",
"PLAT0188": "The system %1s encountered firmware progress.",
"PLAT0192": "The log %1s has been disabled.",
"PLAT0193": "The log %1s has been enabled.",
"PLAT0194": "The log %1s has been disabled.",
"PLAT0195": "The log %1s has been enabled.",
"PLAT0196": "The log %1s has been disabled.",
"PLAT0198": "The log %1s has been enabled.",
"PLAT0200": "The log %1s has been cleared.",
"PLAT0202": "The log %1s is full.",
"PLAT0203": "The log %1s is no longer full.",
"PLAT0204": "The log %1s is almost full.",
"PLAT0208": "The log %1s has a configuration error.",
"PLAT0210": "The system %1s has been reconfigured.",
"PLAT0212": "The system %1s has encountered an OEM system boot event.",
"PLAT0214": "The system %1s has encountered an unknown system hardware fault.",
"PLAT0216": "The system %1s has generated an auxiliary log entry.",
"PLAT0218": "The system %1s has executed a PEF action.",
"PLAT0220": "The system %1s has synchronized the system clock.",
"PLAT0222": "A diagnostic interrupt has occurred on system %1s.",
"PLAT0224": "A bus timeout has occurred on system %1s.",
"PLAT0226": "An I/O channel check NMI has occurred on system %1s.",
"PLAT0228": "A software NMI has occurred on system %1s.",
"PLAT0230": "System %1s has recovered from an NMI.",
"PLAT0232": "A PCI PERR has occurred on system %1s.",
"PLAT0234": "A PCI SERR has occurred on system %1s.",
"PLAT0236": "An EISA fail safe timeout occurred on system %1s.",
"PLAT0238": "A correctable bus error has occurred on system %1s.",
"PLAT0240": "An uncorrectable bus error has occurred on system %1s.",
"PLAT0242": "A fatal NMI error has occurred on system %1s.",
"PLAT0244": "A fatal bus error has occurred on system %1s.",
"PLAT0246": "A bus on system %1s is operating in a degraded state.",
"PLAT0247": "A bus on system %1s is no longer operating in a degraded state.",
"PLAT0248": "The power button %1s has been pressed.",
"PLAT0249": "The power button %1s has been released.",
"PLAT0250": "The sleep button %1s has been pressed.",
"PLAT0251": "The sleep button %1s has been released.",
"PLAT0252": "The reset button %1s has been pressed.",
"PLAT0253": "The reset button %1s has been released.",
"PLAT0254": "The latch to %1s has been opened.",
"PLAT0255": "The latch to %1s has been closed.",
"PLAT0256": "The service request %1s has been enabled.",
"PLAT0257": "The service request %1s has been completed.",
"PLAT0258": "Power control of system %1s has failed.",
"PLAT0262": "The network port %1s has been connected.",
"PLAT0263": "The network port %1s has been disconnected.",
"PLAT0266": "The connector %1s has encountered a configuration error.",
"PLAT0267": "The connector %1s configuration error has been repaired.",
"PLAT0272": "Power on for system %1s.",
"PLAT0274": "Power cycle hard requested for system %1s.",
"PLAT0276": "Power cycle soft requested for system %1s.",
"PLAT0278": "PXE boot requested for system %1s.",
"PLAT0280": "Diagnostics boot requested for system %1s.",
"PLAT0282": "System restart requested for system %1s.",
"PLAT0284": "System restart begun for system %1s.",
"PLAT0286": "No bootable media available for system %1s.",
"PLAT0288": "Non-bootable media selected for system %1s.",
"PLAT0290": "PXE server not found for system %1s.",
"PLAT0292": "User timeout on boot for system %1s.",
"PLAT0296": "System %1s boot from floppy initiated.",
"PLAT0298": "System %1s boot from local drive initiated.",
"PLAT0300": "System %1s boot from PXE on network port initiated.",
"PLAT0302": "System %1s boot diagnostics initiated.",
"PLAT0304": "System %1s boot from CD initiated.",
"PLAT0306": "System %1s boot from ROM initiated.",
"PLAT0312": "System %1s boot initiated.",
"PLAT0320": "Critical stop during OS load on system %1s.",
"PLAT0322": "Run-time critical stop on system %1s.",
"PLAT0324": "OS graceful stop on system %1s.",
"PLAT0326": "OS graceful shutdown begun on system %1s.",
"PLAT0327": "OS graceful shutdown completed on system %1s.",
"PLAT0328": "Agent not responding on system %1s.",
"PLAT0329": "Agent has begun responding on system %1s.",
"PLAT0330": "Fault in slot on system %1s.",
"PLAT0331": "Fault condition removed on system %1s.",
"PLAT0332": "Identifying slot on system %1s.",
"PLAT0333": "Identify stopped on slot for system %1s.",
"PLAT0334": "Package installed in slot for system %1s.",
"PLAT0336": "Slot empty system %1s.",
"PLAT0338": "Slot in system %1s is ready for installation.",
"PLAT0340": "Slot in system %1s is ready for removal.",
"PLAT0342": "Power is off on slot of system %1s.",
"PLAT0344": "Power is on for slot of system %1s.",
"PLAT0346": "Removal requested for slot of system %1s.",
"PLAT0348": "Interlock activated on slot of system %1s.",
"PLAT0349": "Interlock de-asserted on slot of system %1s.",
"PLAT0350": "Slot disabled on system %1s.",
"PLAT0351": "Slot enabled on system %1s.",
"PLAT0352": "Slot of system %1s holds spare.",
"PLAT0353": "Slot of system %1s no longer holds spare.",
"PLAT0354": "Computer system %1s enabled.",
"PLAT0356": "Computer system %1s is in sleep - light mode.",
"PLAT0358": "Computer system %1s is in hibernate.",
"PLAT0360": "Computer system %1s is in standby.",
"PLAT0362": "Computer system %1s is in soft off mode.",
"PLAT0364": "Computer system %1s is in hard off mode.",
"PLAT0366": "Computer system %1s is sleeping.",
"PLAT0368": "Watchdog timer expired for %1s.",
"PLAT0370": "Reboot of system initiated by watchdog %1s.",
"PLAT0372": "Powering off system initiated by watchdog %1s.",
"PLAT0374": "Power cycle of system initiated by watchdog %1s.",
"PLAT0376": "Watchdog timer interrupt occurred for %1s.",
"PLAT0378": "A page alert has been generated for system %1s.",
"PLAT0380": "A LAN alert has been generated for system %1s.",
"PLAT0382": "An event trap has been generated for system %1s.",
"PLAT0384": "An SNMP trap has been generated for system %1s.",
"PLAT0390": "%1s detected as present.",
"PLAT0392": "%1s detected as absent.",
"PLAT0394": "%1s has been disabled.",
"PLAT0395": "%1s has been enabled.",
"PLAT0396": "Heartbeat lost for LAN %1s.",
"PLAT0397": "Heartbeat detected for LAN %1s.",
"PLAT0398": "Sensor %1s is unavailable or degraded on management system.",
"PLAT0399": "Sensor %1s has returned to normal on management system.",
"PLAT0400": "Controller %1s is unavailable or degraded on management system.",
"PLAT0401": "Controller %1s has returned to normal on management system.",
"PLAT0402": "Management system %1s is off-line.",
"PLAT0404": "Management system %1s is disabled.",
"PLAT0405": "Management system %1s is enabled.",
"PLAT0406": "Sensor %1s has failed on management system.",
"PLAT0408": "FRU %1s has failed on management system.",
"PLAT0424": "The battery %1s is critically low.",
"PLAT0427": "The battery %1s is no longer critically low.",
"PLAT0430": "The battery %1s has been removed from unit.",
"PLAT0431": "The battery %1s has been added.",
"PLAT0432": "The battery %1s has failed.",
"PLAT0434": "Session audit is deactivated on system %1s.",
"PLAT0435": "Session audit is activated on system %1s.",
"PLAT0436": "A hardware change occurred on system %1s.",
"PLAT0438": "A firmware or software change occurred on system %1s.",
"PLAT0440": "A hardware incompatibility was detected on system %1s.",
"PLAT0442": "A firmware or software incompatibility was detected on system %1s.",
"PLAT0444": "Invalid or unsupported hardware was detected on system %1s.",
"PLAT0446": "Invalid or unsupported firmware or software was detected on system %1s.",
"PLAT0448": "A successful hardware change was detected on system %1s.",
"PLAT0450": "A successful software or firmware change was detected on system %1s.",
"PLAT0464": "FRU %1s not installed on system.",
"PLAT0465": "FRU %1s installed on system.",
"PLAT0466": "Activation requested for FRU %1s on system.",
"PLAT0467": "FRU %1s on system is active.",
"PLAT0468": "Activation in progress for FRU %1s on system.",
"PLAT0470": "Deactivation request for FRU %1s on system.",
"PLAT0471": "FRU %1s on system is in standby or \"hot spare\" state.",
"PLAT0472": "Deactivation in progress for FRU %1s on system.",
"PLAT0474": "Communication lost with FRU %1s on system.",
"PLAT0476": "Numeric sensor %1s going low (lower non-critical).",
"PLAT0478": "Numeric sensor %1s going high (lower non-critical).",
"PLAT0480": "Numeric sensor %1s going low (lower critical).",
"PLAT0482": "Numeric sensor %1s going high (lower critical).",
"PLAT0484": "Numeric sensor %1s going low (lower non-recoverable).",
"PLAT0486": "Numeric sensor %1s going high (lower non-critical).",
"PLAT0488": "Numeric sensor %1s going low (upper non-critical).",
"PLAT0490": "Numeric sensor %1s going high (upper non-critical).",
"PLAT0492": "Numeric sensor %1s going low (upper critical).",
"PLAT0494": "Numeric sensor %1s going high (upper critical).",
"PLAT0496": "Numeric sensor %1s going low (upper non-recoverable).",
"PLAT0498": "Numeric sensor %1s going high (upper non-recoverable).",
"PLAT0500": "Sensor %1s has transitioned to idle.",
"PLAT0502": "Sensor %1s has transitioned to active.",
"PLAT0504": "Sensor %1s has transitioned to busy.",
"PLAT0508": "Sensor %1s has asserted.",
"PLAT0509": "Sensor %1s has de-asserted.",
"PLAT0510": "Sensor %1s is asserting predictive failure.",
"PLAT0511": "Sensor %1s is de-asserting predictive failure.",
"PLAT0512": "Sensor %1s has indicated limit exceeded.",
"PLAT0513": "Sensor %1s has indicated limit no longer exceeded.",
"PLAT0514": "Sensor %1s has indicated performance met.",
"PLAT0516": "Sensor %1s has indicated performance lags.",
"PLAT0518": "Sensor %1s has transitioned to normal state.",
"PLAT0520": "Sensor %1s has transitioned from normal to non-critical state.",
"PLAT0522": "Sensor %1s has transitioned to critical from a less severe state.",
"PLAT0524": "Sensor %1s has transitioned to non-recoverable from a less severe state.",
"PLAT0526": "Sensor %1s has transitioned to non-critical from a more severe state.",
"PLAT0528": "Sensor %1s has transitioned to critical from a non-recoverable state.",
"PLAT0530": "Sensor %1s has transitioned to non-recoverable.",
"PLAT0532": "Sensor %1s indicates a monitor state.",
"PLAT0534": "Sensor %1s has an informational state.",
"PLAT0536": "Device %1s has been added.",
"PLAT0537": "Device %1s has been removed from unit.",
"PLAT0538": "Device %1s has been enabled.",
"PLAT0539": "Device %1s has been disabled.",
"PLAT0540": "Sensor %1s has indicated a running state.",
"PLAT0544": "Sensor %1s has indicated a power off state.",
"PLAT0546": "Sensor %1s has indicated an on-line state.",
"PLAT0548": "Sensor %1s has indicated an off-line state.",
"PLAT0550": "Sensor %1s has indicated an off-duty state.",
"PLAT0552": "Sensor %1s has indicated a degraded state.",
"PLAT0554": "Sensor %1s has indicated a power save state.",
"PLAT0556": "Sensor %1s has indicated an install error.",
"PLAT0558": "Redundancy %1s has been lost.",
"PLAT0560": "Redundancy %1s has been reduced.",
"PLAT0561": "Redundancy %1s has been restored.",
"PLAT0562": "%1s has transitioned to a D0 power state.",
"PLAT0564": "%1s has transitioned to a D1 power state.",
"PLAT0566": "%1s has transitioned to a D2 power state.",
"PLAT0568": "%1s has transitioned to a D3 power state.",
"PLAT0720": "The System %1s encountered firmware progress - memory initialization entry.",
"PLAT0721": "The System %1s encountered firmware progress - memory initialization exit.",
"PLAT0722": "The System %1s encountered firmware progress - hard drive initialization entry.",
"PLAT0723": "The System %1s encountered firmware progress - hard drive initialization exit.",
"PLAT0724": "The System %1s encountered firmware progress - user authentication.",
"PLAT0728": "The System %1s encountered firmware progress - USR resource configuration entry.",
"PLAT0729": "The System %1s encountered firmware progress - USR resource configuration exit.",
"PLAT0730": "The System %1s encountered firmware progress - PCI recource configuration entry.",
"PLAT0731": "The System %1s encountered firmware progress - PCI recource configuration exit.",
"PLAT0732": "The System %1s encountered firmware progress - Option ROM initialization entry.",
"PLAT0733": "The System %1s encountered firmware progress - Option ROM initialization entry exit.",
"PLAT0734": "The System %1s encountered firmware progress -video initialization entry entry.",
"PLAT0735": "The System %1s encountered firmware progress - video initialization entry exit.",
"PLAT0736": "The System %1s encountered firmware progress - cache initialization entry.",
"PLAT0737": "The System %1s encountered firmware progress - cache initialization exit.",
"PLAT0738": "The System %1s encountered firmware progress - keyboard controller initialization entry.",
"PLAT0739": "The System %1s encountered firmware progress - keyboard controller initialization exit.",
"PLAT0740": "The System %1s encountered firmware progress - motherboard initialization entry.",
"PLAT0741": "The System %1s encountered firmware progress - motherboard initialization exit.",
"PLAT0742": "The System %1s encountered firmware progress - floppy disk initialization entry.",
"PLAT0743": "The System %1s encountered firmware progress - floppy disk initialization exit.",
"PLAT0744": "The System %1s encountered firmware progress - keyboard test entry.",
"PLAT0745": "The System %1s encountered firmware progress - keyboard test exit.",
"PLAT0746": "The System %1s encountered firmware progress - pointing device test entry.",
"PLAT0747": "The System %1s encountered firmware progress - pointing device test exit.",
"PLAT0750": "The System %1s encountered firmware progress - dock enable entry.",
"PLAT0751": "The System %1s encountered firmware progress - dock enable exit.",
"PLAT0752": "The System %1s encountered firmware progress - dock disable entry.",
"PLAT0753": "The System %1s encountered firmware progress - dock disable exit.",
"PLAT0760": "The System %1s encountered firmware progress - start OS boot process.",
"PLAT0762": "The System %1s encountered firmware progress - call OS wake vector.",
"PLAT0764": "The System %1s encountered firmware progress - unrecoverable keyboard failure.",
"PLAT0766": "The System %1s encountered firmware progress - no video device detected.",
"PLAT0768": "The System %1s encountered firmware progress - SMART alert detected on drive.",
"PLAT0770": "The System %1s encountered firmware progress - unrecoverable boot device failure.",
"PLAT0789": "Corrupt BIOS detected.",
"PLAT0790": "The System %1s encountered PCI configuration failure.",
"PLAT0791": "The System %1s encountered a video subsystem failure.",
"PLAT0792": "The System %1s encountered a storage subsystem failure.",
"PLAT0793": "The System %1s encountered a USB subsystem failure.",
"PLAT0794": "The System %1s has detected no memory in the system.",
"PLAT0795": "The System %1s encountered a motherboard failure.",
"PLAT0796": "The System %1s encountered a memory Regulator Voltage Bad.",
"PLAT0797": "%1s PCI reset is not deasserting.",
"PLAT0798": "%1s Non-Motherboard Regulator Failure.",
"PLAT0799": "%1s Power Supply Cable failure.",
"PLAT0800": "%1s Motherboard regulator failure.",
"PLAT0801": "%1s System component compatibility mismatch."
}
module.exports = lme_heci;

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agents-new/modules_meshcmd/amt-mei.js Normal file
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/*
Copyright 2018-2019 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.
*/
var Q = require('queue');
function amt_heci() {
var emitterUtils = require('events').inherits(this);
emitterUtils.createEvent('error');
var heci = require('heci');
this._ObjectID = "pthi";
this._rq = new Q();
this._setupPTHI = function _setupPTHI()
{
this._amt = heci.create();
this._amt.BiosVersionLen = 65;
this._amt.UnicodeStringLen = 20;
this._amt.Parent = this;
this._amt.on('error', function _amtOnError(e)
{
if(this.Parent._rq.isEmpty())
{
this.Parent.emit('error', e); // No pending requests, so propagate the error up
}
else
{
// There is a pending request, so fail the pending request
var user = this.Parent._rq.deQueue();
var params = user.optional;
var callback = user.func;
params.unshift({ Status: -1 }); // Relay an error
callback.apply(this.Parent, params);
if(!this.Parent._rq.isEmpty())
{
// There are still more pending requests, so try to re-helpconnect MEI
this.connect(heci.GUIDS.AMT, { noPipeline: 1 });
}
}
});
this._amt.on('connect', function _amtOnConnect()
{
this.on('data', function _amtOnData(chunk)
{
//console.log("Received: " + chunk.length + " bytes");
var header = this.Parent.getCommand(chunk);
//console.log("CMD = " + header.Command + " (Status: " + header.Status + ") Response = " + header.IsResponse);
var user = this.Parent._rq.deQueue();
var params = user.optional;
var callback = user.func;
params.unshift(header);
callback.apply(this.Parent, params);
if(this.Parent._rq.isEmpty())
{
// No More Requests, we can close PTHI
this.Parent._amt.disconnect();
this.Parent._amt = null;
}
else
{
// Send the next request
this.write(this.Parent._rq.peekQueue().send);
}
});
// Start sending requests
this.write(this.Parent._rq.peekQueue().send);
});
};
function trim(x) { var y = x.indexOf('\0'); if (y >= 0) { return x.substring(0, y); } else { return x; } }
this.getCommand = function getCommand(chunk) {
var command = chunk.length == 0 ? (this._rq.peekQueue().cmd | 0x800000) : chunk.readUInt32LE(4);
var ret = { IsResponse: (command & 0x800000) == 0x800000 ? true : false, Command: (command & 0x7FFFFF), Status: chunk.length != 0 ? chunk.readUInt32LE(12) : -1, Data: chunk.length != 0 ? chunk.slice(16) : null };
return (ret);
};
this.sendCommand = function sendCommand()
{
if (arguments.length < 3 || typeof (arguments[0]) != 'number' || typeof (arguments[1]) != 'object' || typeof (arguments[2]) != 'function') { throw ('invalid parameters'); }
var args = [];
for (var i = 3; i < arguments.length; ++i) { args.push(arguments[i]); }
var header = Buffer.from('010100000000000000000000', 'hex');
header.writeUInt32LE(arguments[0] | 0x04000000, 4);
header.writeUInt32LE(arguments[1] == null ? 0 : arguments[1].length, 8);
this._rq.enQueue({ cmd: arguments[0], func: arguments[2], optional: args , send: (arguments[1] == null ? header : Buffer.concat([header, arguments[1]]))});
if(!this._amt)
{
this._setupPTHI();
this._amt.connect(heci.GUIDS.AMT, { noPipeline: 1 });
}
}
this.getVersion = function getVersion(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(26, null, function (header, fn, opt) {
if (header.Status == 0) {
var i, CodeVersion = header.Data, val = { BiosVersion: CodeVersion.slice(0, this._amt.BiosVersionLen).toString(), Versions: [] }, v = CodeVersion.slice(this._amt.BiosVersionLen + 4);
for (i = 0; i < CodeVersion.readUInt32LE(this._amt.BiosVersionLen) ; ++i) {
val.Versions[i] = { Description: v.slice(2, v.readUInt16LE(0) + 2).toString(), Version: v.slice(4 + this._amt.UnicodeStringLen, 4 + this._amt.UnicodeStringLen + v.readUInt16LE(2 + this._amt.UnicodeStringLen)).toString() };
v = v.slice(4 + (2 * this._amt.UnicodeStringLen));
}
if (val.BiosVersion.indexOf('\0') > 0) { val.BiosVersion = val.BiosVersion.substring(0, val.BiosVersion.indexOf('\0')); }
opt.unshift(val);
} else {
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
};
// Fill the left with zeros until the string is of a given length
function zeroLeftPad(str, len) {
if ((len == null) && (typeof (len) != 'number')) { return null; }
if (str == null) str = ''; // If null, this is to generate zero leftpad string
var zlp = '';
for (var i = 0; i < len - str.length; i++) { zlp += '0'; }
return zlp + str;
}
this.getUuid = function getUuid(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x5c, null, function (header, fn, opt) {
if (header.Status == 0) {
var result = {};
result.uuid = [zeroLeftPad(header.Data.readUInt32LE(0).toString(16), 8),
zeroLeftPad(header.Data.readUInt16LE(4).toString(16), 4),
zeroLeftPad(header.Data.readUInt16LE(6).toString(16), 4),
zeroLeftPad(header.Data.readUInt16BE(8).toString(16), 4),
zeroLeftPad(header.Data.slice(10).toString('hex').toLowerCase(), 12)].join('-');
opt.unshift(result);
} else {
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
};
this.getProvisioningState = function getProvisioningState(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(17, null, function (header, fn, opt) {
if (header.Status == 0) {
var result = {};
result.state = header.Data.readUInt32LE(0);
if (result.state < 3) { result.stateStr = ["PRE", "IN", "POST"][result.state]; }
opt.unshift(result);
} else {
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
};
this.getProvisioningMode = function getProvisioningMode(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(8, null, function (header, fn, opt) {
if (header.Status == 0) {
var result = {};
result.mode = header.Data.readUInt32LE(0);
if (result.mode < 4) { result.modeStr = ["NONE", "ENTERPRISE", "SMALL_BUSINESS", "REMOTE_ASSISTANCE"][result.mode]; }
result.legacy = header.Data.readUInt32LE(4) == 0 ? false : true;
opt.unshift(result);
} else {
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
};
this.getEHBCState = function getEHBCState(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(132, null, function (header, fn, opt) {
if (header.Status == 0) {
opt.unshift({ EHBC: header.Data.readUInt32LE(0) != 0 });
} else {
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
};
this.getControlMode = function getControlMode(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(107, null, function (header, fn, opt) {
if (header.Status == 0) {
var result = {};
result.controlMode = header.Data.readUInt32LE(0);
if (result.controlMode < 3) { result.controlModeStr = ["NONE_RPAT", "CLIENT", "ADMIN", "REMOTE_ASSISTANCE"][result.controlMode]; }
opt.unshift(result);
} else {
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
};
this.getMACAddresses = function getMACAddresses(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(37, null, function (header, fn, opt) {
if (header.Status == 0) {
opt.unshift({ DedicatedMAC: header.Data.slice(0, 6).toString('hex:'), HostMAC: header.Data.slice(6, 12).toString('hex:') });
} else { opt.unshift({ DedicatedMAC: null, HostMAC: null }); }
fn.apply(this, opt);
}, callback, optional);
};
this.getDnsSuffix = function getDnsSuffix(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(54, null, function (header, fn, opt) {
if (header.Status == 0) {
var resultLen = header.Data.readUInt16LE(0);
if (resultLen > 0) { opt.unshift(header.Data.slice(2, 2 + resultLen).toString()); } else { opt.unshift(null); }
} else {
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
};
this.getHashHandles = function getHashHandles(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x2C, null, function (header, fn, opt) {
var result = [];
if (header.Status == 0) {
var resultLen = header.Data.readUInt32LE(0);
for (var i = 0; i < resultLen; ++i) {
result.push(header.Data.readUInt32LE(4 + (4 * i)));
}
}
opt.unshift(result);
fn.apply(this, opt);
}, callback, optional);
};
this.getCertHashEntry = function getCertHashEntry(handle, callback) {
var optional = [];
for (var i = 2; i < arguments.length; ++i) { optional.push(arguments[i]); }
var data = Buffer.alloc(4);
data.writeUInt32LE(handle, 0);
this.sendCommand(0x2D, data, function (header, fn, opt) {
if (header.Status == 0) {
var result = {};
result.isDefault = header.Data.readUInt32LE(0);
result.isActive = header.Data.readUInt32LE(4);
result.hashAlgorithm = header.Data.readUInt8(72);
if (result.hashAlgorithm < 4) {
result.hashAlgorithmStr = ["MD5", "SHA1", "SHA256", "SHA512"][result.hashAlgorithm];
result.hashAlgorithmSize = [16, 20, 32, 64][result.hashAlgorithm];
result.certificateHash = header.Data.slice(8, 8 + result.hashAlgorithmSize).toString('hex');
}
result.name = header.Data.slice(73 + 2, 73 + 2 + header.Data.readUInt16LE(73)).toString();
opt.unshift(result);
} else {
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
};
this.getCertHashEntries = function getCertHashEntries(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.getHashHandles(function (handles, fn, opt) {
var entries = [];
this.getCertHashEntry(handles.shift(), this._getHashEntrySink, fn, opt, entries, handles);
}, callback, optional);
};
this._getHashEntrySink = function _getHashEntrySink(result, fn, opt, entries, handles) {
entries.push(result);
if (handles.length > 0) {
this.getCertHashEntry(handles.shift(), this._getHashEntrySink, fn, opt, entries, handles);
} else {
opt.unshift(entries);
fn.apply(this, opt);
}
}
this.getLocalSystemAccount = function getLocalSystemAccount(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(103, Buffer.alloc(40), function (header, fn, opt)
{
if (header.Status == 0 && header.Data.length == 68)
{
opt.unshift({ user: trim(header.Data.slice(0, 33).toString()), pass: trim(header.Data.slice(33, 67).toString()), raw: header.Data });
}
else
{
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
}
this.getLanInterfaceSettings = function getLanInterfaceSettings(index, callback)
{
var optional = [];
for (var i = 2; i < arguments.length; ++i) { optional.push(arguments[i]); }
var ifx = Buffer.alloc(4);
ifx.writeUInt32LE(index);
this.sendCommand(0x48, ifx, function onGetLanInterfaceSettings(header, fn, opt)
{
if(header.Status == 0)
{
var info = {};
info.enabled = header.Data.readUInt32LE(0);
info.dhcpEnabled = header.Data.readUInt32LE(8);
switch(header.Data[12])
{
case 1:
info.dhcpMode = 'ACTIVE'
break;
case 2:
info.dhcpMode = 'PASSIVE'
break;
default:
info.dhcpMode = 'UNKNOWN';
break;
}
info.mac = header.Data.slice(14).toString('hex:');
var addr = header.Data.readUInt32LE(4);
info.address = ((addr >> 24) & 255) + '.' + ((addr >> 16) & 255) + '.' + ((addr >> 8) & 255) + '.' + (addr & 255);
opt.unshift(info);
fn.apply(this, opt);
}
else
{
opt.unshift(null);
fn.apply(this, opt);
}
}, callback, optional);
};
this.unprovision = function unprovision(mode, callback) {
var optional = [];
for (var i = 2; i < arguments.length; ++i) { optional.push(arguments[i]); }
var data = Buffer.alloc(4);
data.writeUInt32LE(mode, 0);
this.sendCommand(16, data, function (header, fn, opt) {
opt.unshift(header.Status);
fn.apply(this, opt);
}, callback, optional);
}
this.startConfiguration = function startConfiguration() {
var optional = [];
for (var i = 2; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x29, data, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, optional);
}
this.stopConfiguration = function stopConfiguration() {
var optional = [];
for (var i = 2; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x5E, data, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, optional);
}
this.openUserInitiatedConnection = function openUserInitiatedConnection() {
var optional = [];
for (var i = 2; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x44, data, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, optional);
}
this.closeUserInitiatedConnection = function closeUnserInitiatedConnected() {
var optional = [];
for (var i = 2; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x45, data, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, optional);
}
this.getRemoteAccessConnectionStatus = function getRemoteAccessConnectionStatus() {
var optional = [];
for (var i = 2; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x46, data, function (header, fn, opt) {
if (header.Status == 0) {
var hostname = v.slice(14, header.Data.readUInt16LE(12) + 14).toString()
opt.unshift({ status: header.Status, networkStatus: header.Data.readUInt32LE(0), remoteAccessStatus: header.Data.readUInt32LE(4), remoteAccessTrigger: header.Data.readUInt32LE(8), mpsHostname: hostname, raw: header.Data });
} else {
opt.unshift({ status: header.Status });
}
fn.apply(this, opt);
}, callback, optional);
}
this.getProtocolVersion = function getProtocolVersion(callback) {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { opt.push(arguments[i]); }
heci.doIoctl(heci.IOCTL.HECI_VERSION, Buffer.alloc(5), Buffer.alloc(5), function (status, buffer, self, fn, opt) {
if (status == 0) {
var result = buffer.readUInt8(0).toString() + '.' + buffer.readUInt8(1).toString() + '.' + buffer.readUInt8(2).toString() + '.' + buffer.readUInt16BE(3).toString();
opt.unshift(result);
fn.apply(self, opt);
}
else {
opt.unshift(null);
fn.apply(self, opt);
}
}, this, callback, optional);
}
}
module.exports = amt_heci;

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agents-new/modules_meshcmd/amt-scanner.js Normal file
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/*
Copyright 2018-2019 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.
*/
/**
* @description Meshcentral Intel AMT Local Scanner
* @author Ylian Saint-Hilaire & Joko Sastriawan
* @version v0.0.1
*/
// Construct a Intel AMT Scanner object
function AMTScanner() {
var emitterUtils = require('events').inherits(this);
emitterUtils.createEvent('found');
this.dgram = require('dgram');
this.buildRmcpPing = function (tag) {
var packet = Buffer.from('06000006000011BE80000000', 'hex');
packet[9] = tag;
return packet;
};
this.parseRmcpPacket = function (server, data, rinfo, func) {
if (data == null || data.length < 20) return;
var res = {};
if (((data[12] == 0) || (data[13] != 0) || (data[14] != 1) || (data[15] != 0x57)) && (data[21] & 32)) {
res.servertag = data[9];
res.minorVersion = data[18] & 0x0F;
res.majorVersion = (data[18] >> 4) & 0x0F;
res.provisioningState = data[19] & 0x03; // Pre = 0, In = 1, Post = 2
var openPort = (data[16] * 256) + data[17];
var dualPorts = ((data[19] & 0x04) != 0) ? true : false;
res.openPorts = [openPort];
res.address = rinfo.address;
if (dualPorts == true) { res.openPorts = [16992, 16993]; }
if (func !== undefined) {
func(server, res);
}
}
}
this.parseIPv4Range = function (range) {
if (range == undefined || range == null) return null;
var x = range.split('-');
if (x.length == 2) { return { min: this.parseIpv4Addr(x[0]), max: this.parseIpv4Addr(x[1]) }; }
x = range.split('/');
if (x.length == 2) {
var ip = this.parseIpv4Addr(x[0]), masknum = parseInt(x[1]), mask = 0;
if (masknum <= 16 || masknum > 32) return null;
masknum = 32 - masknum;
for (var i = 0; i < masknum; i++) { mask = (mask << 1); mask++; }
return { min: ip & (0xFFFFFFFF - mask), max: (ip & (0xFFFFFFFF - mask)) + mask };
}
x = this.parseIpv4Addr(range);
if (x == null) return null;
return { min: x, max: x };
};
// Parse IP address. Takes a
this.parseIpv4Addr = function (addr) {
var x = addr.split('.');
if (x.length == 4) { return (parseInt(x[0]) << 24) + (parseInt(x[1]) << 16) + (parseInt(x[2]) << 8) + (parseInt(x[3]) << 0); }
return null;
}
// IP address number to string
this.IPv4NumToStr = function (num) {
return ((num >> 24) & 0xFF) + '.' + ((num >> 16) & 0xFF) + '.' + ((num >> 8) & 0xFF) + '.' + (num & 0xFF);
}
this.scan = function (rangestr, timeout) {
var iprange = this.parseIPv4Range(rangestr);
var rmcp = this.buildRmcpPing(0);
var server = this.dgram.createSocket({ type: 'udp4' });
server.parent = this;
server.scanResults = [];
server.on('error', function (err) { console.log('Error:' + err); });
server.on('message', function (msg, rinfo) { if (rinfo.size > 4) { this.parent.parseRmcpPacket(this, msg, rinfo, function (s, res) { s.scanResults.push(res); }) }; });
server.on('listening', function () { for (var i = iprange.min; i <= iprange.max; i++) { server.send(rmcp, 623, server.parent.IPv4NumToStr(i)); } });
server.bind({ address: '0.0.0.0', port: 0, exclusive: true });
var tmout = setTimeout(function cb() {
//console.log("Server closed");
server.close();
server.parent.emit('found', server.scanResults);
delete server;
}, timeout);
};
}
module.exports = AMTScanner;

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agents-new/modules_meshcmd/amt-script.js Normal file
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/*
Copyright 2018-2019 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.
*/
/**
* @fileoverview Script Compiler / Decompiler / Runner
* @author Ylian Saint-Hilaire
* @version v0.1.0e
*/
// Core functions
script_functionTable1 = ['nop', 'jump', 'set', 'print', 'dialog', 'getitem', 'substr', 'indexof', 'split', 'join', 'length', 'jsonparse', 'jsonstr', 'add', 'substract', 'parseint', 'wsbatchenum', 'wsput', 'wscreate', 'wsdelete', 'wsexec', 'scriptspeed', 'wssubscribe', 'wsunsubscribe', 'readchar', 'signwithdummyca'];
// functions of type ARG1 = func(ARG2, ARG3, ARG4, ARG5, ARG6)
script_functionTable2 = ['encodeuri', 'decodeuri', 'passwordcheck', 'atob', 'btoa', 'hex2str', 'str2hex', 'random', 'md5', 'maketoarray', 'readshort', 'readshortx', 'readint', 'readsint', 'readintx', 'shorttostr', 'shorttostrx', 'inttostr', 'inttostrx'];
// functions of type ARG1 = func(ARG2, ARG3, ARG4, ARG5, ARG6)
script_functionTableX2 = [encodeURI, decodeURI, passwordcheck, atob, btoa, hex2rstr, rstr2hex, random, rstr_md5, MakeToArray, ReadShort, ReadShortX, ReadInt, ReadSInt, ReadIntX, ShortToStr, ShortToStrX, IntToStr, IntToStrX];
function MakeToArray(v) { if (!v || v == null || typeof v == 'object') return v; return [v]; }
function ReadShort(v, p) { return (v[p] << 8) + v[p + 1]; }
function ReadShortX(v, p) { return (v[p + 1] << 8) + v[p]; }
function ReadInt(v, p) { return (v[p] * 0x1000000) + (v[p + 1] << 16) + (v[p + 2] << 8) + v[p + 3]; } // We use "*0x1000000" instead of "<<24" because the shift converts the number to signed int32.
function ReadSInt(v, p) { return (v[p] << 24) + (v[p + 1] << 16) + (v[p + 2] << 8) + v[p + 3]; }
function ReadIntX(v, p) { return (v[p + 3] * 0x1000000) + (v[p + 2] << 16) + (v[p + 1] << 8) + v[p]; }
function ShortToStr(v) { return String.fromCharCode((v >> 8) & 0xFF, v & 0xFF); }
function ShortToStrX(v) { return String.fromCharCode(v & 0xFF, (v >> 8) & 0xFF); }
function IntToStr(v) { return String.fromCharCode((v >> 24) & 0xFF, (v >> 16) & 0xFF, (v >> 8) & 0xFF, v & 0xFF); }
function IntToStrX(v) { return String.fromCharCode(v & 0xFF, (v >> 8) & 0xFF, (v >> 16) & 0xFF, (v >> 24) & 0xFF); }
//function ShortToStr(v) { var b = Buffer.alloc(2); b.writeInt16BE(v); return b; }
//function ShortToStrX(v) { var b = Buffer.alloc(2); b.writeInt16LE(v); return b; }
//function IntToStr(v) { var b = Buffer.alloc(4); b.writeInt32BE(v); return b; }
//function IntToStrX(v) { var b = Buffer.alloc(4); b.writeInt32LE(v); return b; }
function btoa(x) { return Buffer.from(x).toString('base64');}
function atob(x) { var z = null; try { z = Buffer.from(x, 'base64').toString(); } catch (e) { console.log(e); } return z; }
function passwordcheck(p) { if (p.length < 8) return false; var upper = 0, lower = 0, number = 0, nonalpha = 0; for (var i in p) { var c = p.charCodeAt(i); if ((c > 64) && (c < 91)) { upper = 1; } else if ((c > 96) && (c < 123)) { lower = 1; } else if ((c > 47) && (c < 58)) { number = 1; } else { nonalpha = 1; } } return ((upper + lower + number + nonalpha) == 4); }
function hex2rstr(x) { Buffer.from(x, 'hex').toString(); }
function rstr2hex(x) { Buffer.from(x).toString('hex'); }
function random() { return Math.floor(Math.random()*max); }
function rstr_md5(str) { return hex2rstr(hex_md5(str)); }
function getItem(x, y, z) { for (var i in x) { if (x[i][y] == z) return x[i]; } return null; }
var httpErrorTable = {
200: 'OK',
401: 'Authentication Error',
408: 'Timeout Error',
601: 'WSMAN Parsing Error',
602: 'Unable to parse HTTP response header',
603: 'Unexpected HTTP enum response',
604: 'Unexpected HTTP pull response',
998: 'Invalid TLS certificate'
}
// Setup the script state
module.exports.setup = function(binary, startvars) {
var obj = { startvars: startvars, onCompleted: null };
if (binary.length < 6) { console.error('Invalid script length'); return null; } // Script must have at least 6 byte header
if (ReadInt(binary, 0) != 0x247D2945) { console.error('Invalid binary script'); return null; } // Check the script magic header
if (ReadShort(binary, 4) > 1) { console.error('Unsupported script version'); return null; } // Check the script version
obj.script = binary.slice(6);
// Reset the script to the start
obj.reset = function (stepspeed) {
obj.stop();
obj.ip = 0;
obj.variables = startvars;
obj.state = 1;
}
// Start the script
obj.start = function (stepspeed) {
obj.stop();
if (stepspeed == null) { obj.stepspeed = 10; } else { obj.stepspeed = stepspeed; }
if (obj.stepspeed > 0) { obj.timer = setInterval(function () { obj.step() }, obj.stepspeed); }
}
// Stop the script
obj.stop = function () {
if (obj.timer != null) { clearInterval(obj.timer); }
obj.timer = null;
obj.stepspeed = 0;
}
// function used to load and store variable values
obj.getVar = function (name) { if (name == undefined) return undefined; return obj.getVarEx(name.split('.'), obj.variables); }
obj.getVarEx = function (name, val) { try { if (name == undefined) return undefined; if (name.length == 0) return val; return obj.getVarEx(name.slice(1), val[name[0]]); } catch (e) { return null; } }
obj.setVar = function (name, val) { obj.setVarEx(name.split('.'), obj.variables, val); }
obj.setVarEx = function (name, vars, val) { if (name.length == 1) { vars[name[0]] = val; } else { obj.setVarEx(name.slice(1), vars[name[0]], val); } }
// Run the script one step forward
obj.step = function () {
if (obj.state != 1) return;
if (obj.ip < obj.script.length) {
var cmdid = ReadShort(obj.script, obj.ip);
var cmdlen = ReadShort(obj.script, obj.ip + 2);
var argcount = ReadShort(obj.script, obj.ip + 4);
var argptr = obj.ip + 6;
var args = [];
// Clear all temp variables (This is optional)
for (var i in obj.variables) { if (i.startsWith('__')) { delete obj.variables[i]; } }
// Loop on each argument, moving forward by the argument length each time
for (var i = 0; i < argcount; i++) {
var arglen = ReadShort(obj.script, argptr);
var argval = obj.script.slice(argptr + 2, argptr + 2 + arglen);
var argtyp = argval[0];
argval = argval.slice(1);
if (argtyp < 2) {
// Get the value and replace all {var} with variable values
argval = argval.toString();
while (argval.split("{").length > 1) { var t = argval.split("{").pop().split("}").shift(); argval = argval.replace('{' + t + '}', obj.getVar(t)); }
if (argtyp == 1) { obj.variables['__' + i] = decodeURI(argval); argval = '__' + i; } // If argtyp is 1, this is a literal. Store in temp variable.
args.push(argval);
}
if (argtyp == 2 || argtyp == 3) {
obj.variables['__' + i] = ReadSInt(argval, 0);
args.push('__' + i);
}
argptr += (2 + arglen);
}
// Move instruction pointer forward by command size
obj.ip += cmdlen;
// Get all variable values
var argsval = [];
for (var i = 0; i < 10; i++) { argsval.push(obj.getVar(args[i])); }
var storeInArg0;
try {
if (cmdid < 10000) {
// Lets run the actual command
switch (cmdid) {
case 0: // nop
break;
case 1: // jump(label) or jump(label, a, compare, b)
if (argsval[2]) {
if (
(argsval[2] == '<' && argsval[1] < argsval[3]) ||
(argsval[2] == '<=' && argsval[1] <= argsval[3]) ||
(argsval[2] == '!=' && argsval[1] != argsval[3]) ||
(argsval[2] == '=' && argsval[1] == argsval[3]) ||
(argsval[2] == '>=' && argsval[1] >= argsval[3]) ||
(argsval[2] == '>' && argsval[1] > argsval[3])
) {
obj.ip = argsval[0];
}
} else {
obj.ip = argsval[0]; // Set the instruction pointer to the new location in the script
}
break;
case 2: // set(variable, value)
if (args[1] == undefined) delete obj.variables[args[0]]; else obj.setVar(args[0], argsval[1]);
break;
case 3: // print(message)
var v = obj.toString(argsval[0]);
if (v.indexOf('INFO: ') == 0) { v = v.substring(6); }
if (v.indexOf('SUCCESS: ') == 0) { v = v.substring(9); }
if (obj.onConsole) { obj.onConsole(v, obj); } else { console.log(v); }
// Q(obj.consoleid).value += () + '\n'); Q(obj.console).scrollTop = Q(obj.console).scrollHeight;
break;
case 4: // dialog(title, content, buttons)
obj.state = 2;
obj.dialog = true;
setDialogMode(11, argsval[0], argsval[2], obj.xxStepDialogOk, argsval[1], obj);
break;
case 5: // getitem(a, b, c)
for (var i in argsval[1]) { if (argsval[1][i][argsval[2]] == argsval[3]) { storeInArg0 = i; } };
break;
case 6: // substr(variable_dest, variable_src, index, len)
storeInArg0 = argsval[1].substr(argsval[2], argsval[3]);
break;
case 7: // indexOf(variable_dest, variable_src, index, len)
storeInArg0 = argsval[1].indexOf(argsval[2]);
break;
case 8: // split(variable_dest, variable_src, separator)
storeInArg0 = argsval[1].split(argsval[2]);
break;
case 9: // join(variable_dest, variable_src, separator)
storeInArg0 = argsval[1].join(argsval[2]);
break;
case 10: // length(variable_dest, variable_src)
if (argsval[1] == null) { storeInArg0 = 0; } else { storeInArg0 = argsval[1].length; }
break;
case 11: // jsonparse(variable_dest, json)
storeInArg0 = JSON.parse(argsval[1]);
break;
case 12: // jsonstr(variable_dest, variable_src)
storeInArg0 = JSON.stringify(argsval[1]);
break;
case 13: // add(variable_dest, variable_src, value)
storeInArg0 = (argsval[1] + argsval[2]);
break;
case 14: // substract(variable_dest, variable_src, value)
storeInArg0 = (argsval[1] - argsval[2]);
break;
case 15: // parseInt(variable_dest, variable_src)
storeInArg0 = parseInt(argsval[1]);
break;
case 16: // wsbatchenum(name, objectList)
obj.state = 2;
obj.amtstack.BatchEnum(argsval[0], argsval[1], obj.xxWsmanReturn, obj);
break;
case 17: // wsput(name, args)
obj.state = 2;
obj.amtstack.Put(argsval[0], argsval[1], obj.xxWsmanReturn, obj);
break;
case 18: // wscreate(name, args)
obj.state = 2;
obj.amtstack.Create(argsval[0], argsval[1], obj.xxWsmanReturn, obj);
break;
case 19: // wsdelete(name, args)
obj.state = 2;
obj.amtstack.Delete(argsval[0], argsval[1], obj.xxWsmanReturn, obj);
break;
case 20: // wsexec(name, method, args, selectors)
obj.state = 2;
obj.amtstack.Exec(argsval[0], argsval[1], argsval[2], obj.xxWsmanReturn, obj, 0, argsval[3]);
break;
case 21: // Script Speed
obj.stepspeed = argsval[0];
if (obj.timer != null) { clearInterval(obj.timer); obj.timer = setInterval(function () { obj.step() }, obj.stepspeed); }
break;
case 22: // wssubscribe(name, delivery, url, selectors, opaque, user, pass)
obj.state = 2;
obj.amtstack.Subscribe(argsval[0], argsval[1], argsval[2], obj.xxWsmanReturn, obj, 0, argsval[3], argsval[4], argsval[5], argsval[6]);
break;
case 23: // wsunsubscribe(name, selectors)
obj.state = 2;
obj.amtstack.UnSubscribe(argsval[0], obj.xxWsmanReturn, obj, 0, argsval[1]);
break;
case 24: // readchar(str, pos)
console.log(argsval[1], argsval[2], argsval[1].charCodeAt(argsval[2]));
storeInArg0 = argsval[1].charCodeAt(argsval[2]);
break;
case 25: // signWithDummyCa
// Not supported
break;
default: {
obj.state = 9;
console.error("Script Error, unknown command: " + cmdid);
}
}
} else {
if (cmdid < 20000) {
// functions of type ARG1 = func(ARG2, ARG3, ARG4, ARG5, ARG6)
storeInArg0 = script_functionTableX2[cmdid - 10000](argsval[1], argsval[2], argsval[3], argsval[4], argsval[5], argsval[6]);
} else {
// Optional functions of type ARG1 = func(ARG2, ARG3, ARG4, ARG5, ARG6)
//if (script_functionTableX3 && script_functionTableX3[cmdid - 20000]) {
// storeInArg0 = script_functionTableX3[cmdid - 20000](obj, argsval[1], argsval[2], argsval[3], argsval[4], argsval[5], argsval[6]); // Note that optional calls start with "obj" as first argument.
//}
}
}
if (storeInArg0 != undefined) obj.setVar(args[0], storeInArg0);
} catch (e) {
if (typeof e == 'object') { e = e.message; }
obj.setVar('_exception', e);
}
}
if (obj.state == 1 && obj.ip >= obj.script.length) { obj.state = 0; obj.stop(); if (obj.onCompleted) { obj.onCompleted(); } }
if (obj.onStep) obj.onStep(obj);
return obj;
}
obj.xxStepDialogOk = function (button) {
obj.variables['DialogSelect'] = button;
obj.state = 1;
obj.dialog = false;
if (obj.onStep) obj.onStep(obj);
}
obj.xxWsmanReturn = function (stack, name, responses, status) {
obj.setVar(name, responses);
obj.setVar('wsman_result', status);
obj.setVar('wsman_result_str', ((httpErrorTable[status]) ? (httpErrorTable[status]) : ('Error #' + status)));
obj.state = 1;
if (obj.onStep) obj.onStep(obj);
}
obj.toString = function (x) { if (typeof x == 'object') return JSON.stringify(x); return x; }
obj.reset();
return obj;
}
// Argument types: 0 = Variable, 1 = String, 2 = Integer, 3 = Label
module.exports.compile = function(script, onmsg) {
var r = '', scriptlines = script.split('\n'), labels = {}, labelswap = [], swaps = [];
// Go thru each script line and encode it
for (var i in scriptlines) {
var scriptline = scriptlines[i];
if (scriptline.startsWith('##SWAP ')) { var x = scriptline.split(' '); if (x.length == 3) { swaps[x[1]] = x[2]; } } // Add a swap instance
if (scriptline[0] == '#' || scriptline.length == 0) continue; // Skip comments & blank lines
for (var x in swaps) { scriptline = scriptline.split(x).join(swaps[x]); } // Apply all swaps
var keywords = scriptline.match(/"[^"]*"|[^\s"]+/g);
if (keywords.length == 0) continue; // Skip blank lines
if (scriptline[0] == ':') { labels[keywords[0].toUpperCase()] = r.length; continue; } // Mark a label position
var funcIndex = script_functionTable1.indexOf(keywords[0].toLowerCase());
if (funcIndex == -1) { funcIndex = script_functionTable2.indexOf(keywords[0].toLowerCase()); if (funcIndex >= 0) funcIndex += 10000; }
if (funcIndex == -1) { if (onmsg) { onmsg("Unabled to compile, unknown command: " + keywords[0]); } return ''; }
// Encode CommandId, CmdSize, ArgCount, Arg1Len, Arg1, Arg2Len, Arg2...
var cmd = ShortToStr(keywords.length - 1);
for (var j in keywords) {
if (j == 0) continue;
if (keywords[j][0] == ':') {
labelswap.push([keywords[j], r.length + cmd.length + 7]); // Add a label swap
cmd += ShortToStr(5) + String.fromCharCode(3) + IntToStr(0xFFFFFFFF); // Put an empty label
} else {
var argint = parseInt(keywords[j]);
if (argint == keywords[j]) {
cmd += ShortToStr(5) + String.fromCharCode(2) + IntToStr(argint);
} else {
if (keywords[j][0] == '"' && keywords[j][keywords[j].length - 1] == '"') {
cmd += ShortToStr(keywords[j].length - 1) + String.fromCharCode(1) + keywords[j].substring(1, keywords[j].length - 1);
} else {
cmd += ShortToStr(keywords[j].length + 1) + String.fromCharCode(0) + keywords[j];
}
}
}
}
cmd = ShortToStr(funcIndex) + ShortToStr(cmd.length + 4) + cmd;
r += cmd;
}
// Perform all the needed label swaps
for (i in labelswap) {
var label = labelswap[i][0].toUpperCase(), position = labelswap[i][1], target = labels[label];
if (target == undefined) { if (onmsg) { onmsg("Unabled to compile, unknown label: " + label); } return ''; }
r = r.substr(0, position) + IntToStr(target) + r.substr(position + 4);
}
return IntToStr(0x247D2945) + ShortToStr(1) + r;
}
// Decompile the script, intended for debugging only
module.exports.decompile = function(binary, onecmd) {
var r = '', ptr = 6, labelcount = 0, labels = {};
if (onecmd >= 0) {
ptr = onecmd; // If we are decompiling just one command, set the ptr to that command.
} else {
if (binary.length < 6) { return '# Invalid script length'; }
var magic = ReadInt(binary, 0);
var version = ReadShort(binary, 4);
if (magic != 0x247D2945) { return '# Invalid binary script: ' + magic; }
if (version != 1) { return '# Invalid script version'; }
}
// Loop on each command, moving forward by the command length each time.
while (ptr < binary.length) {
var cmdid = ReadShort(binary, ptr);
var cmdlen = ReadShort(binary, ptr + 2);
var argcount = ReadShort(binary, ptr + 4);
var argptr = ptr + 6;
var argstr = '';
if (!(onecmd >= 0)) r += ":label" + (ptr - 6) + "\n";
// Loop on each argument, moving forward by the argument length each time
for (var i = 0; i < argcount; i++) {
var arglen = ReadShort(binary, argptr);
var argval = binary.substring(argptr + 2, argptr + 2 + arglen);
var argtyp = argval.charCodeAt(0);
if (argtyp == 0) { argstr += ' ' + argval.substring(1); } // Variable
else if (argtyp == 1) { argstr += ' \"' + argval.substring(1) + '\"'; } // String
else if (argtyp == 2) { argstr += ' ' + ReadInt(argval, 1); } // Integer
else if (argtyp == 3) { // Label
var target = ReadInt(argval, 1);
var label = labels[target];
if (!label) { label = ":label" + target; labels[label] = target; }
argstr += ' ' + label;
}
argptr += (2 + arglen);
}
// Go in the script function table to decode the function
if (cmdid < 10000) {
r += script_functionTable1[cmdid] + argstr + "\n";
} else {
if ((cmdid >= 10000) && (cmdid < 10000)) { r += script_functionTable2[cmdid - 10000] + argstr + "\n"; }
}
ptr += cmdlen;
if (onecmd >= 0) return r; // If we are decompiling just one command, exit now
}
// Remove all unused labels
var scriptlines = r.split('\n');
r = '';
for (var i in scriptlines) {
var line = scriptlines[i];
if (line[0] != ':') { r += line + '\n'; } else { if (labels[line]) { r += line + '\n'; } }
}
return r;
}

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/*
Copyright 2018-2019 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.
*/
/**
* @description WSMAN communication using duktape http
* @author Ylian Saint-Hilaire
* @version v0.2.0c
*/
// Construct a WSMAN communication object
function CreateWsmanComm(/*host, port, user, pass, tls, extra*/)
{
var obj = {};
obj.PendingAjax = []; // List of pending AJAX calls. When one frees up, another will start.
obj.ActiveAjaxCount = 0; // Number of currently active AJAX calls
obj.MaxActiveAjaxCount = 1; // Maximum number of activate AJAX calls at the same time.
obj.FailAllError = 0; // Set this to non-zero to fail all AJAX calls with that error status, 999 causes responses to be silent.
obj.digest = null;
obj.RequestCount = 0;
if (arguments.length == 1 && typeof(arguments[0] == 'object'))
{
obj.host = arguments[0].host;
obj.port = arguments[0].port;
obj.authToken = arguments[0].authToken;
obj.tls = arguments[0].tls;
}
else
{
obj.host = arguments[0];
obj.port = arguments[1];
obj.user = arguments[2];
obj.pass = arguments[3];
obj.tls = arguments[4];
}
// Private method
// pri = priority, if set to 1, the call is high priority and put on top of the stack.
obj.PerformAjax = function (postdata, callback, tag, pri, url, action) {
if ((obj.ActiveAjaxCount == 0 || ((obj.ActiveAjaxCount < obj.MaxActiveAjaxCount) && (obj.challengeParams != null))) && obj.PendingAjax.length == 0) {
// There are no pending AJAX calls, perform the call now.
obj.PerformAjaxEx(postdata, callback, tag, url, action);
} else {
// If this is a high priority call, put this call in front of the array, otherwise put it in the back.
if (pri == 1) { obj.PendingAjax.unshift([postdata, callback, tag, url, action]); } else { obj.PendingAjax.push([postdata, callback, tag, url, action]); }
}
}
// Private method
obj.PerformNextAjax = function () {
if (obj.ActiveAjaxCount >= obj.MaxActiveAjaxCount || obj.PendingAjax.length == 0) return;
var x = obj.PendingAjax.shift();
obj.PerformAjaxEx(x[0], x[1], x[2], x[3], x[4]);
obj.PerformNextAjax();
}
// Private method
obj.PerformAjaxEx = function (postdata, callback, tag, url, action) {
if (obj.FailAllError != 0) { if (obj.FailAllError != 999) { obj.gotNextMessagesError({ status: obj.FailAllError }, 'error', null, [postdata, callback, tag]); } return; }
if (!postdata) postdata = "";
//console.log("SEND: " + postdata); // DEBUG
// We are in a DukTape environement
if (obj.digest == null)
{
if (obj.authToken)
{
obj.digest = require('http-digest').create({ authToken: obj.authToken });
}
else
{
obj.digest = require('http-digest').create(obj.user, obj.pass);
}
obj.digest.http = require('http');
}
var request = { protocol: (obj.tls == 1 ? 'https:' : 'http:'), method: 'POST', host: obj.host, path: '/wsman', port: obj.port, rejectUnauthorized: false, checkServerIdentity: function (cert) { console.log('checkServerIdentity', JSON.stringify(cert)); } };
var req = obj.digest.request(request);
//console.log('Request ' + (obj.RequestCount++));
req.on('error', function (e) { obj.gotNextMessagesError({ status: 600 }, 'error', null, [postdata, callback, tag]); });
req.on('response', function (response) {
//console.log('Response: ' + response.statusCode);
if (response.statusCode != 200) {
//console.log('ERR:' + JSON.stringify(response));
obj.gotNextMessagesError({ status: response.statusCode }, 'error', null, [postdata, callback, tag]);
} else {
response.acc = '';
response.on('data', function (data2) { this.acc += data2; });
response.on('end', function () { obj.gotNextMessages(response.acc, 'success', { status: response.statusCode }, [postdata, callback, tag]); });
}
});
// Send POST body, this work with binary.
req.end(postdata);
obj.ActiveAjaxCount++;
return req;
}
// AJAX specific private method
obj.pendingAjaxCall = [];
// Private method
obj.gotNextMessages = function (data, status, request, callArgs) {
obj.ActiveAjaxCount--;
if (obj.FailAllError == 999) return;
//console.log("RECV: " + data); // DEBUG
if (obj.FailAllError != 0) { callArgs[1](null, obj.FailAllError, callArgs[2]); return; }
if (request.status != 200) { callArgs[1](null, request.status, callArgs[2]); return; }
callArgs[1](data, 200, callArgs[2]);
obj.PerformNextAjax();
}
// Private method
obj.gotNextMessagesError = function (request, status, errorThrown, callArgs) {
obj.ActiveAjaxCount--;
if (obj.FailAllError == 999) return;
if (obj.FailAllError != 0) { callArgs[1](null, obj.FailAllError, callArgs[2]); return; }
//if (status != 200) { console.log("ERROR, status=" + status + "\r\n\r\nreq=" + callArgs[0]); } // Debug: Display the request & response if something did not work.
if (obj.FailAllError != 999) { callArgs[1]({ Header: { HttpError: request.status } }, request.status, callArgs[2]); }
obj.PerformNextAjax();
}
// Cancel all pending queries with given status
obj.CancelAllQueries = function (s) {
while (obj.PendingAjax.length > 0) { var x = obj.PendingAjax.shift(); x[1](null, s, x[2]); }
}
return obj;
}
module.exports = CreateWsmanComm;

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/*
Copyright 2018-2019 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.
*/
/**
* @description Intel(r) AMT WSMAN Stack
* @author Ylian Saint-Hilaire
* @version v0.2.0
*/
// Construct a MeshServer object
function WsmanStackCreateService(/*CreateWsmanComm, host, port, user, pass, tls, extra*/)
{
var obj = {_ObjectID: 'WSMAN'};
//obj.onDebugMessage = null; // Set to a function if you want to get debug messages.
obj.NextMessageId = 1; // Next message number, used to label WSMAN calls.
obj.Address = '/wsman';
obj.xmlParser = require('amt-xml');
if (arguments.length == 1 && typeof (arguments[0] == 'object'))
{
var CreateWsmanComm = arguments[0].transport;
if (CreateWsmanComm) { obj.comm = new CreateWsmanComm(arguments[0]); }
}
else
{
var CreateWsmanComm = arguments[0];
if (CreateWsmanComm) { obj.comm = new CreateWsmanComm(arguments[1], arguments[2], arguments[3], arguments[4], arguments[5], arguments[6]); }
}
obj.PerformAjax = function PerformAjax(postdata, callback, tag, pri, namespaces) {
if (namespaces == null) namespaces = '';
obj.comm.PerformAjax('<?xml version=\"1.0\" encoding=\"utf-8\"?><Envelope xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" xmlns:xsd=\"http://www.w3.org/2001/XMLSchema\" xmlns:a="http://schemas.xmlsoap.org/ws/2004/08/addressing" xmlns:w="http://schemas.dmtf.org/wbem/wsman/1/wsman.xsd" xmlns=\"http://www.w3.org/2003/05/soap-envelope\" ' + namespaces + '><Header><a:Action>' + postdata, function (data, status, tag) {
if (status != 200) { callback(obj, null, { Header: { HttpError: status } }, status, tag); return; }
var wsresponse = obj.xmlParser.ParseWsman(data);
if (!wsresponse || wsresponse == null) { callback(obj, null, { Header: { HttpError: status } }, 601, tag); } else { callback(obj, wsresponse.Header["ResourceURI"], wsresponse, 200, tag); }
}, tag, pri);
}
// Private method
//obj.Debug = function (msg) { /*console.log(msg);*/ }
// Cancel all pending queries with given status
obj.CancelAllQueries = function CancelAllQueries(s) { obj.comm.CancelAllQueries(s); }
// Get the last element of a URI string
obj.GetNameFromUrl = function (resuri) {
var x = resuri.lastIndexOf("/");
return (x == -1)?resuri:resuri.substring(x + 1);
}
// Perform a WSMAN Subscribe operation
obj.ExecSubscribe = function ExecSubscribe(resuri, delivery, url, callback, tag, pri, selectors, opaque, user, pass) {
var digest = "", digest2 = "", opaque = "";
if (user != null && pass != null) { digest = '<t:IssuedTokens xmlns:t="http://schemas.xmlsoap.org/ws/2005/02/trust" xmlns:se="http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-wssecurity-secext-1.0.xsd"><t:RequestSecurityTokenResponse><t:TokenType>http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-username-token-profile-1.0#UsernameToken</t:TokenType><t:RequestedSecurityToken><se:UsernameToken><se:Username>' + user + '</se:Username><se:Password Type="http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-wssecurity-secext-1.0.xsd#PasswordText">' + pass + '</se:Password></se:UsernameToken></t:RequestedSecurityToken></t:RequestSecurityTokenResponse></t:IssuedTokens>'; digest2 = '<w:Auth Profile="http://schemas.dmtf.org/wbem/wsman/1/wsman/secprofile/http/digest"/>'; }
if (opaque != null) { opaque = '<a:ReferenceParameters><m:arg>' + opaque + '</m:arg></a:ReferenceParameters>'; }
if (delivery == 'PushWithAck') { delivery = 'dmtf.org/wbem/wsman/1/wsman/PushWithAck'; } else if (delivery == 'Push') { delivery = 'xmlsoap.org/ws/2004/08/eventing/DeliveryModes/Push'; }
var data = "http://schemas.xmlsoap.org/ws/2004/08/eventing/Subscribe</a:Action><a:To>" + obj.Address + "</a:To><w:ResourceURI>" + resuri + "</w:ResourceURI><a:MessageID>" + (obj.NextMessageId++) + "</a:MessageID><a:ReplyTo><a:Address>http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous</a:Address></a:ReplyTo>" + _PutObjToSelectorsXml(selectors) + digest + '</Header><Body><e:Subscribe><e:Delivery Mode="http://schemas.' + delivery + '"><e:NotifyTo><a:Address>' + url + '</a:Address>' + opaque + '</e:NotifyTo>' + digest2 + '</e:Delivery></e:Subscribe>';
obj.PerformAjax(data + "</Body></Envelope>", callback, tag, pri, 'xmlns:e="http://schemas.xmlsoap.org/ws/2004/08/eventing" xmlns:m="http://x.com"');
}
// Perform a WSMAN UnSubscribe operation
obj.ExecUnSubscribe = function ExecUnSubscribe(resuri, callback, tag, pri, selectors) {
var data = "http://schemas.xmlsoap.org/ws/2004/08/eventing/Unsubscribe</a:Action><a:To>" + obj.Address + "</a:To><w:ResourceURI>" + resuri + "</w:ResourceURI><a:MessageID>" + (obj.NextMessageId++) + "</a:MessageID><a:ReplyTo><a:Address>http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous</a:Address></a:ReplyTo>" + _PutObjToSelectorsXml(selectors) + '</Header><Body><e:Unsubscribe/>';
obj.PerformAjax(data + "</Body></Envelope>", callback, tag, pri, 'xmlns:e="http://schemas.xmlsoap.org/ws/2004/08/eventing"');
}
// Perform a WSMAN PUT operation
obj.ExecPut = function ExecPut(resuri, putobj, callback, tag, pri, selectors) {
var data = "http://schemas.xmlsoap.org/ws/2004/09/transfer/Put</a:Action><a:To>" + obj.Address + "</a:To><w:ResourceURI>" + resuri + "</w:ResourceURI><a:MessageID>" + (obj.NextMessageId++) + "</a:MessageID><a:ReplyTo><a:Address>http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous</a:Address></a:ReplyTo><w:OperationTimeout>PT60.000S</w:OperationTimeout>" + _PutObjToSelectorsXml(selectors) + '</Header><Body>' + _PutObjToBodyXml(resuri, putobj);
obj.PerformAjax(data + "</Body></Envelope>", callback, tag, pri);
}
// Perform a WSMAN CREATE operation
obj.ExecCreate = function ExecCreate(resuri, putobj, callback, tag, pri, selectors) {
var objname = obj.GetNameFromUrl(resuri);
var data = "http://schemas.xmlsoap.org/ws/2004/09/transfer/Create</a:Action><a:To>" + obj.Address + "</a:To><w:ResourceURI>" + resuri + "</w:ResourceURI><a:MessageID>" + (obj.NextMessageId++) + "</a:MessageID><a:ReplyTo><a:Address>http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous</a:Address></a:ReplyTo><w:OperationTimeout>PT60S</w:OperationTimeout>" + _PutObjToSelectorsXml(selectors) + "</Header><Body><g:" + objname + " xmlns:g=\"" + resuri + "\">";
for (var n in putobj) { data += "<g:" + n + ">" + putobj[n] + "</g:" + n + ">" }
obj.PerformAjax(data + "</g:" + objname + "></Body></Envelope>", callback, tag, pri);
}
// Perform a WSMAN DELETE operation
obj.ExecDelete = function ExecDelete(resuri, putobj, callback, tag, pri) {
var data = "http://schemas.xmlsoap.org/ws/2004/09/transfer/Delete</a:Action><a:To>" + obj.Address + "</a:To><w:ResourceURI>" + resuri + "</w:ResourceURI><a:MessageID>" + (obj.NextMessageId++) + "</a:MessageID><a:ReplyTo><a:Address>http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous</a:Address></a:ReplyTo><w:OperationTimeout>PT60S</w:OperationTimeout>" + _PutObjToSelectorsXml(putobj) + "</Header><Body /></Envelope>";
obj.PerformAjax(data, callback, tag, pri);
}
// Perform a WSMAN GET operation
obj.ExecGet = function ExecGet(resuri, callback, tag, pri) {
obj.PerformAjax("http://schemas.xmlsoap.org/ws/2004/09/transfer/Get</a:Action><a:To>" + obj.Address + "</a:To><w:ResourceURI>" + resuri + "</w:ResourceURI><a:MessageID>" + (obj.NextMessageId++) + "</a:MessageID><a:ReplyTo><a:Address>http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous</a:Address></a:ReplyTo><w:OperationTimeout>PT60S</w:OperationTimeout></Header><Body /></Envelope>", callback, tag, pri);
}
// Perform a WSMAN method call operation
obj.ExecMethod = function ExecMethod(resuri, method, args, callback, tag, pri, selectors) {
var argsxml = "";
for (var i in args) { if (args[i] != null) { if (Array.isArray(args[i])) { for (var x in args[i]) { argsxml += "<r:" + i + ">" + args[i][x] + "</r:" + i + ">"; } } else { argsxml += "<r:" + i + ">" + args[i] + "</r:" + i + ">"; } } }
obj.ExecMethodXml(resuri, method, argsxml, callback, tag, pri, selectors);
}
// Perform a WSMAN method call operation. The arguments are already formatted in XML.
obj.ExecMethodXml = function ExecMethodXml(resuri, method, argsxml, callback, tag, pri, selectors) {
obj.PerformAjax(resuri + "/" + method + "</a:Action><a:To>" + obj.Address + "</a:To><w:ResourceURI>" + resuri + "</w:ResourceURI><a:MessageID>" + (obj.NextMessageId++) + "</a:MessageID><a:ReplyTo><a:Address>http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous</a:Address></a:ReplyTo><w:OperationTimeout>PT60S</w:OperationTimeout>" + _PutObjToSelectorsXml(selectors) + "</Header><Body><r:" + method + '_INPUT' + " xmlns:r=\"" + resuri + "\">" + argsxml + "</r:" + method + "_INPUT></Body></Envelope>", callback, tag, pri);
}
// Perform a WSMAN ENUM operation
obj.ExecEnum = function ExecEnum(resuri, callback, tag, pri) {
obj.PerformAjax("http://schemas.xmlsoap.org/ws/2004/09/enumeration/Enumerate</a:Action><a:To>" + obj.Address + "</a:To><w:ResourceURI>" + resuri + "</w:ResourceURI><a:MessageID>" + (obj.NextMessageId++) + "</a:MessageID><a:ReplyTo><a:Address>http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous</a:Address></a:ReplyTo><w:OperationTimeout>PT60S</w:OperationTimeout></Header><Body><Enumerate xmlns=\"http://schemas.xmlsoap.org/ws/2004/09/enumeration\" /></Body></Envelope>", callback, tag, pri);
}
// Perform a WSMAN PULL operation
obj.ExecPull = function ExecPull(resuri, enumctx, callback, tag, pri) {
obj.PerformAjax("http://schemas.xmlsoap.org/ws/2004/09/enumeration/Pull</a:Action><a:To>" + obj.Address + "</a:To><w:ResourceURI>" + resuri + "</w:ResourceURI><a:MessageID>" + (obj.NextMessageId++) + "</a:MessageID><a:ReplyTo><a:Address>http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous</a:Address></a:ReplyTo><w:OperationTimeout>PT60S</w:OperationTimeout></Header><Body><Pull xmlns=\"http://schemas.xmlsoap.org/ws/2004/09/enumeration\"><EnumerationContext>" + enumctx + "</EnumerationContext><MaxElements>999</MaxElements><MaxCharacters>99999</MaxCharacters></Pull></Body></Envelope>", callback, tag, pri);
}
function _PutObjToBodyXml(resuri, putObj) {
if (!resuri || putObj == null) return '';
var objname = obj.GetNameFromUrl(resuri);
var result = '<r:' + objname + ' xmlns:r="' + resuri + '">';
for (var prop in putObj) {
if (!putObj.hasOwnProperty(prop) || prop.indexOf('__') === 0 || prop.indexOf('@') === 0) continue;
if (putObj[prop] == null || typeof putObj[prop] === 'function') continue;
if (typeof putObj[prop] === 'object' && putObj[prop]['ReferenceParameters']) {
result += '<r:' + prop + '><a:Address>' + putObj[prop].Address + '</a:Address><a:ReferenceParameters><w:ResourceURI>' + putObj[prop]['ReferenceParameters']["ResourceURI"] + '</w:ResourceURI><w:SelectorSet>';
var selectorArray = putObj[prop]['ReferenceParameters']['SelectorSet']['Selector'];
if (Array.isArray(selectorArray)) {
for (var i=0; i< selectorArray.length; i++) {
result += '<w:Selector' + _ObjectToXmlAttributes(selectorArray[i]) + '>' + selectorArray[i]['Value'] + '</w:Selector>';
}
}
else {
result += '<w:Selector' + _ObjectToXmlAttributes(selectorArray) + '>' + selectorArray['Value'] + '</w:Selector>';
}
result += '</w:SelectorSet></a:ReferenceParameters></r:' + prop + '>';
}
else {
if (Array.isArray(putObj[prop])) {
for (var i = 0; i < putObj[prop].length; i++) {
result += '<r:' + prop + '>' + putObj[prop][i].toString() + '</r:' + prop + '>';
}
} else {
result += '<r:' + prop + '>' + putObj[prop].toString() + '</r:' + prop + '>';
}
}
}
result += '</r:' + objname + '>';
return result;
}
/*
convert
{ @Name: 'InstanceID', @AttrName: 'Attribute Value'}
into
' Name="InstanceID" AttrName="Attribute Value" '
*/
function _ObjectToXmlAttributes(objWithAttributes) {
if(!objWithAttributes) return '';
var result = ' ';
for (var propName in objWithAttributes) {
if (!objWithAttributes.hasOwnProperty(propName) || propName.indexOf('@') !== 0) continue;
result += propName.substring(1) + '="' + objWithAttributes[propName] + '" ';
}
return result;
}
function _PutObjToSelectorsXml(selectorSet) {
if (!selectorSet) return '';
if (typeof selectorSet == 'string') return selectorSet;
if (selectorSet['InstanceID']) return "<w:SelectorSet><w:Selector Name=\"InstanceID\">" + selectorSet['InstanceID'] + "</w:Selector></w:SelectorSet>";
var result = '<w:SelectorSet>';
for(var propName in selectorSet) {
if (!selectorSet.hasOwnProperty(propName)) continue;
result += '<w:Selector Name="' + propName + '">';
if (selectorSet[propName]['ReferenceParameters']) {
result += '<a:EndpointReference>';
result += '<a:Address>' + selectorSet[propName]['Address'] + '</a:Address><a:ReferenceParameters><w:ResourceURI>' + selectorSet[propName]['ReferenceParameters']['ResourceURI'] + '</w:ResourceURI><w:SelectorSet>';
var selectorArray = selectorSet[propName]['ReferenceParameters']['SelectorSet']['Selector'];
if (Array.isArray(selectorArray)) {
for (var i = 0; i < selectorArray.length; i++) {
result += '<w:Selector' + _ObjectToXmlAttributes(selectorArray[i]) + '>' + selectorArray[i]['Value'] + '</w:Selector>';
}
} else {
result += '<w:Selector' + _ObjectToXmlAttributes(selectorArray) + '>' + selectorArray['Value'] + '</w:Selector>';
}
result += '</w:SelectorSet></a:ReferenceParameters></a:EndpointReference>';
} else {
result += selectorSet[propName];
}
result += '</w:Selector>';
}
result += '</w:SelectorSet>';
return result;
}
return obj;
}
module.exports = WsmanStackCreateService;

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/*
Copyright 2018-2019 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.
*/
try { Object.defineProperty(Array.prototype, "peek", { value: function () { return (this.length > 0 ? this[this.length - 1] : undefined); } }); } catch (e) { }
// Parse XML and return JSON
module.exports.ParseWsman = function (xml) {
try {
if (!xml.childNodes) xml = _turnToXml(xml);
var r = { Header: {} }, header = xml.getElementsByTagName("Header")[0], t;
if (!header) header = xml.getElementsByTagName("a:Header")[0];
if (!header) return null;
for (var i = 0; i < header.childNodes.length; i++) {
var child = header.childNodes[i];
r.Header[child.localName] = child.textContent;
}
var body = xml.getElementsByTagName("Body")[0];
if (!body) body = xml.getElementsByTagName("a:Body")[0];
if (!body) return null;
if (body.childNodes.length > 0) {
t = body.childNodes[0].localName;
if (t.indexOf("_OUTPUT") == t.length - 7) { t = t.substring(0, t.length - 7); }
r.Header['Method'] = t;
r.Body = _ParseWsmanRec(body.childNodes[0]);
}
return r;
} catch (e) {
console.error("Unable to parse XML: " + xml, e);
return null;
}
}
// Private method
function _ParseWsmanRec(node) {
var data, r = {};
for (var i = 0; i < node.childNodes.length; i++) {
var child = node.childNodes[i];
if ((child.childElementCount == null) || (child.childElementCount == 0)) { data = child.textContent; } else { data = _ParseWsmanRec(child); }
if (data == 'true') data = true; // Convert 'true' into true
if (data == 'false') data = false; // Convert 'false' into false
if ((parseInt(data) + '') === data) data = parseInt(data); // Convert integers
var childObj = data;
if ((child.attributes != null) && (child.attributes.length > 0)) {
childObj = { 'Value': data };
for (var j = 0; j < child.attributes.length; j++) {
childObj['@' + child.attributes[j].name] = child.attributes[j].value;
}
}
if (r[child.localName] instanceof Array) { r[child.localName].push(childObj); }
else if (r[child.localName] == null) { r[child.localName] = childObj; }
else { r[child.localName] = [r[child.localName], childObj]; }
}
return r;
}
function _PutObjToBodyXml(resuri, putObj) {
if (!resuri || putObj == null) return '';
var objname = obj.GetNameFromUrl(resuri);
var result = '<r:' + objname + ' xmlns:r="' + resuri + '">';
for (var prop in putObj) {
if (!putObj.hasOwnProperty(prop) || prop.indexOf('__') === 0 || prop.indexOf('@') === 0) continue;
if (putObj[prop] == null || typeof putObj[prop] === 'function') continue;
if (typeof putObj[prop] === 'object' && putObj[prop]['ReferenceParameters']) {
result += '<r:' + prop + '><a:Address>' + putObj[prop].Address + '</a:Address><a:ReferenceParameters><w:ResourceURI>' + putObj[prop]['ReferenceParameters']["ResourceURI"] + '</w:ResourceURI><w:SelectorSet>';
var selectorArray = putObj[prop]['ReferenceParameters']['SelectorSet']['Selector'];
if (Array.isArray(selectorArray)) {
for (var i = 0; i < selectorArray.length; i++) {
result += '<w:Selector' + _ObjectToXmlAttributes(selectorArray[i]) + '>' + selectorArray[i]['Value'] + '</w:Selector>';
}
}
else {
result += '<w:Selector' + _ObjectToXmlAttributes(selectorArray) + '>' + selectorArray['Value'] + '</w:Selector>';
}
result += '</w:SelectorSet></a:ReferenceParameters></r:' + prop + '>';
}
else {
if (Array.isArray(putObj[prop])) {
for (var i = 0; i < putObj[prop].length; i++) {
result += '<r:' + prop + '>' + putObj[prop][i].toString() + '</r:' + prop + '>';
}
} else {
result += '<r:' + prop + '>' + putObj[prop].toString() + '</r:' + prop + '>';
}
}
}
result += '</r:' + objname + '>';
return result;
}
// This is a drop-in replacement to _turnToXml() that works without xml parser dependency.
function _treeBuilder() {
this.tree = [];
this.push = function (element) { this.tree.push(element); };
this.pop = function () { var element = this.tree.pop(); if (this.tree.length > 0) { var x = this.tree.peek(); x.childNodes.push(element); x.childElementCount = x.childNodes.length; } return (element); };
this.peek = function () { return (this.tree.peek()); }
this.addNamespace = function (prefix, namespace) { this.tree.peek().nsTable[prefix] = namespace; if (this.tree.peek().attributes.length > 0) { for (var i = 0; i < this.tree.peek().attributes; ++i) { var a = this.tree.peek().attributes[i]; if (prefix == '*' && a.name == a.localName) { a.namespace = namespace; } else if (prefix != '*' && a.name != a.localName) { var pfx = a.name.split(':')[0]; if (pfx == prefix) { a.namespace = namespace; } } } } }
this.getNamespace = function (prefix) { for (var i = this.tree.length - 1; i >= 0; --i) { if (this.tree[i].nsTable[prefix] != null) { return (this.tree[i].nsTable[prefix]); } } return null; }
}
function _turnToXml(text) { if (text == null) return null; return ({ childNodes: [_turnToXmlRec(text)], getElementsByTagName: _getElementsByTagName, getChildElementsByTagName: _getChildElementsByTagName, getElementsByTagNameNS: _getElementsByTagNameNS }); }
function _getElementsByTagNameNS(ns, name) { var ret = []; _xmlTraverseAllRec(this.childNodes, function (node) { if (node.localName == name && (node.namespace == ns || ns == '*')) { ret.push(node); } }); return ret; }
function _getElementsByTagName(name) { var ret = []; _xmlTraverseAllRec(this.childNodes, function (node) { if (node.localName == name) { ret.push(node); } }); return ret; }
function _getChildElementsByTagName(name) { var ret = []; if (this.childNodes != null) { for (var node in this.childNodes) { if (this.childNodes[node].localName == name) { ret.push(this.childNodes[node]); } } } return (ret); }
function _getChildElementsByTagNameNS(ns, name) { var ret = []; if (this.childNodes != null) { for (var node in this.childNodes) { if (this.childNodes[node].localName == name && (ns == '*' || this.childNodes[node].namespace == ns)) { ret.push(this.childNodes[node]); } } } return (ret); }
function _xmlTraverseAllRec(nodes, func) { for (var i in nodes) { func(nodes[i]); if (nodes[i].childNodes) { _xmlTraverseAllRec(nodes[i].childNodes, func); } } }
function _turnToXmlRec(text) {
var elementStack = new _treeBuilder(), lastElement = null, x1 = text.split('<'), ret = [], element = null, currentElementName = null;
for (var i in x1) {
var x2 = x1[i].split('>'), x3 = x2[0].split(' '), elementName = x3[0];
if ((elementName.length > 0) && (elementName[0] != '?')) {
if (elementName[0] != '/') {
var attributes = [], localName, localname2 = elementName.split(' ')[0].split(':'), localName = (localname2.length > 1) ? localname2[1] : localname2[0];
Object.defineProperty(attributes, "get",
{
value: function () {
if (arguments.length == 1) {
for (var a in this) { if (this[a].name == arguments[0]) { return (this[a]); } }
}
else if (arguments.length == 2) {
for (var a in this) { if (this[a].name == arguments[1] && (arguments[0] == '*' || this[a].namespace == arguments[0])) { return (this[a]); } }
}
else {
throw ('attributes.get(): Invalid number of parameters');
}
}
});
elementStack.push({ name: elementName, localName: localName, getChildElementsByTagName: _getChildElementsByTagName, getElementsByTagNameNS: _getElementsByTagNameNS, getChildElementsByTagNameNS: _getChildElementsByTagNameNS, attributes: attributes, childNodes: [], nsTable: {} });
// Parse Attributes
if (x3.length > 0) {
var skip = false;
for (var j in x3) {
if (x3[j] == '/') {
// This is an empty Element
elementStack.peek().namespace = elementStack.peek().name == elementStack.peek().localName ? elementStack.getNamespace('*') : elementStack.getNamespace(elementStack.peek().name.substring(0, elementStack.peek().name.indexOf(':')));
elementStack.peek().textContent = '';
lastElement = elementStack.pop();
skip = true;
break;
}
var k = x3[j].indexOf('=');
if (k > 0) {
var attrName = x3[j].substring(0, k);
var attrValue = x3[j].substring(k + 2, x3[j].length - 1);
var attrNS = elementStack.getNamespace('*');
if (attrName == 'xmlns') {
elementStack.addNamespace('*', attrValue);
attrNS = attrValue;
} else if (attrName.startsWith('xmlns:')) {
elementStack.addNamespace(attrName.substring(6), attrValue);
} else {
var ax = attrName.split(':');
if (ax.length == 2) { attrName = ax[1]; attrNS = elementStack.getNamespace(ax[0]); }
}
var x = { name: attrName, value: attrValue }
if (attrNS != null) x.namespace = attrNS;
elementStack.peek().attributes.push(x);
}
}
if (skip) { continue; }
}
elementStack.peek().namespace = elementStack.peek().name == elementStack.peek().localName ? elementStack.getNamespace('*') : elementStack.getNamespace(elementStack.peek().name.substring(0, elementStack.peek().name.indexOf(':')));
if (x2[1]) { elementStack.peek().textContent = x2[1]; }
} else { lastElement = elementStack.pop(); }
}
}
return lastElement;
}

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/*
Copyright 2018 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.
*/
var SERVICE_WIN32 = 0x00000010 | 0x00000020;
var SERVICE_STATE = { STOPPED: 0x00000001, SERVICE_START_PENDING: 0x00000002, SERVICE_STOP_PENDING: 0x00000003, RUNNING: 0x00000004 };
var SERVICE_ACCEPT = { SERVICE_ACCEPT_STOP: 0x00000001, SERVICE_ACCEPT_SHUTDOWN: 0x00000004, SERVICE_ACCEPT_POWEREVENT: 0x00000040, SERVICE_ACCEPT_SESSIONCHANGE: 0x00000080 };
var SERVICE_CONTROL = { SERVICE_CONTROL_SHUTDOWN: 0x00000005, SERVICE_CONTROL_STOP: 0x00000001, SERVICE_CONTROL_POWEREVENT: 0x0000000D, SERVICE_CONTROL_SESSIONCHANGE: 0x0000000E};
var SESSION_CHANGE_TYPE =
{
WTS_CONSOLE_CONNECT: 0x1,
WTS_CONSOLE_DISCONNECT: 0x2,
WTS_REMOTE_CONNECT: 0x3,
WTS_REMOTE_DISCONNECT: 0x4,
WTS_SESSION_LOGON: 0x5,
WTS_SESSION_LOGOFF: 0x6,
WTS_SESSION_LOCK: 0x7,
WTS_SESSION_UNLOCK: 0x8,
WTS_SESSION_REMOTE_CONTROL: 0x9,
WTS_SESSION_CREATE: 0xa,
WTS_SESSION_TERMINATE: 0xb
};
var NO_ERROR = 0;
var serviceManager = require('service-manager');
function serviceHost(serviceName)
{
this._ObjectID = 'service-host';
var emitterUtils = require('events').inherits(this);
emitterUtils.createEvent('serviceStart');
emitterUtils.createEvent('serviceStop');
emitterUtils.createEvent('normalStart');
emitterUtils.createEvent('session');
emitterUtils.createEvent('powerStateChange');
if (process.platform == 'win32')
{
this.GM = require('_GenericMarshal');
this.Advapi = this.GM.CreateNativeProxy('Advapi32.dll');
this.Advapi.CreateMethod({ method: 'StartServiceCtrlDispatcherA', threadDispatch: 1 });
this.Advapi.CreateMethod('RegisterServiceCtrlHandlerExA');
this.Advapi.CreateMethod('SetServiceStatus');
this.Kernel32 = this.GM.CreateNativeProxy('Kernel32.dll');
this.Kernel32.CreateMethod('GetLastError');
this.Ole32 = this.GM.CreateNativeProxy('Ole32.dll');
this.Ole32.CreateMethod('CoInitializeEx');
this.Ole32.CreateMethod('CoUninitialize');
this._ServiceName = this.GM.CreateVariable(typeof (serviceName) == 'string' ? serviceName : serviceName.name);
this._ServiceMain = this.GM.GetGenericGlobalCallback(2);
this._ServiceMain.Parent = this;
this._ServiceMain.GM = this.GM;
this._ServiceMain.on('GlobalCallback', function onGlobalCallback(argc, argv)
{
//ToDo: Check to make sure this is for us
this.Parent._ServiceStatus = this.GM.CreateVariable(28);
//typedef struct _SERVICE_STATUS {
// DWORD dwServiceType;
// DWORD dwCurrentState;
// DWORD dwControlsAccepted;
// DWORD dwWin32ExitCode;
// DWORD dwServiceSpecificExitCode;
// DWORD dwCheckPoint;
// DWORD dwWaitHint;
//} SERVICE_STATUS, *LPSERVICE_STATUS;
// Initialise service status
this.Parent._ServiceStatus.toBuffer().writeUInt32LE(SERVICE_WIN32);
this.Parent._ServiceStatus.toBuffer().writeUInt32LE(SERVICE_STATE.SERVICE_STOPPED, 4);
this.Parent._ServiceStatusHandle = this.Parent.Advapi.RegisterServiceCtrlHandlerExA(this.Parent._ServiceName, this.Parent._ServiceControlHandler, this.Parent.GM.StashObject(this.Parent._ServiceControlHandler));
if(this.Parent._ServiceStatusHandle.Val == 0)
{
process.exit(1);
}
// Service is starting
this.Parent._ServiceStatus.toBuffer().writeUInt32LE(SERVICE_STATE.SERVICE_START_PENDING, 4);
this.Parent.Advapi.SetServiceStatus(this.Parent._ServiceStatusHandle, this.Parent._ServiceStatus);
// Service running
this.Parent._ServiceStatus.toBuffer().writeUInt32LE(SERVICE_STATE.RUNNING, 4);
this.Parent._ServiceStatus.toBuffer().writeUInt32LE(SERVICE_ACCEPT.SERVICE_ACCEPT_STOP | SERVICE_ACCEPT.SERVICE_ACCEPT_POWEREVENT | SERVICE_ACCEPT.SERVICE_ACCEPT_SESSIONCHANGE, 8);
this.Parent.Advapi.SetServiceStatus(this.Parent._ServiceStatusHandle, this.Parent._ServiceStatus);
this.Parent.Ole32.CoInitializeEx(0, 2);
this.Parent.on('~', function OnServiceHostFinalizer()
{
var GM = require('_GenericMarshal');
var Advapi = GM.CreateNativeProxy('Advapi32.dll');
Advapi.CreateMethod('SetServiceStatus');
Kernel32 = this.GM.CreateNativeProxy('Kernel32.dll');
Kernel32.CreateMethod('GetLastError');
var status = GM.CreateVariable(28);
// Service was stopped
status.toBuffer().writeUInt32LE(SERVICE_WIN32);
status.toBuffer().writeUInt32LE(0x00000001, 4);
status.toBuffer().writeUInt32LE(0, 8);
Advapi.SetServiceStatus(this._ServiceStatusHandle, status);
this.Ole32.CoUninitialize();
});
this.Parent.emit('serviceStart');
});
this._ServiceControlHandler = this.GM.GetGenericGlobalCallback(4);
this._ServiceControlHandler.Parent = this;
this._ServiceControlHandler.GM = this.GM;
this._ServiceControlHandler.on('GlobalCallback', function onServiceControlHandler(code, eventType, eventData, context)
{
var j = this.Parent.GM.UnstashObject(context);
if (j != null && j == this)
{
switch (code.Val)
{
case SERVICE_CONTROL.SERVICE_CONTROL_SHUTDOWN:
case SERVICE_CONTROL.SERVICE_CONTROL_STOP:
this.Parent.emit('serviceStop');
return;
case SERVICE_CONTROL.SERVICE_CONTROL_SESSIONCHANGE:
var sessionId = eventData.Deref(4, 4).toBuffer().readUInt32LE();
switch(eventType.Val)
{
case SESSION_CHANGE_TYPE.WTS_SESSION_LOGON:
case SESSION_CHANGE_TYPE.WTS_SESSION_LOGOFF:
require('user-sessions').emit('changed');
break;
}
break;
default:
break;
}
this.Parent.Advapi.SetServiceStatus(this.Parent._ServiceStatusHandle, this.Parent._ServiceStatus);
}
});
}
if (serviceName) { this._ServiceOptions = typeof (serviceName) == 'object' ? serviceName : { name: serviceName }; }
else
{
throw ('Must specify either ServiceName or Options');
}
if (!this._ServiceOptions.servicePath)
{
this._ServiceOptions.servicePath = process.execPath;
}
this.run = function run()
{
var serviceOperation = 0;
for(var i = 0; i<process.argv.length; ++i)
{
switch(process.argv[i])
{
case '-install':
if (!this._svcManager) { this._svcManager = new serviceManager(); }
try
{
this._svcManager.installService(this._ServiceOptions);
}
catch(e)
{
console.log(e);
process.exit();
}
console.log(this._ServiceOptions.name + ' installed');
process.exit();
break;
case '-uninstall':
if (!this._svcManager) { this._svcManager = new serviceManager(); }
try
{
this._svcManager.uninstallService(this._ServiceOptions);
}
catch(e)
{
console.log(e);
process.exit();
}
if (process.platform == 'win32' || process.platform == 'darwin')
{
// Only do this on Windows/MacOS, becuase Linux is async... It'll complete later
console.log(this._ServiceOptions.name + ' uninstalled');
process.exit();
}
i = process.argv.length;
serviceOperation = 1;
break;
case 'start':
case '-d':
if (process.platform != 'win32') { break; }
if (!this._svcManager) { this._svcManager = new serviceManager(); }
this._svcManager.getService(this._ServiceOptions.name).start();
console.log(this._ServiceOptions.name + ' starting...');
process.exit();
break;
case 'stop':
case '-s':
if (process.platform != 'win32') { break; }
if (!this._svcManager) { this._svcManager = new serviceManager(); }
this._svcManager.getService(this._ServiceOptions.name).stop();
console.log(this._ServiceOptions.name + ' stopping...');
process.exit();
break;
}
}
if (process.platform == 'win32')
{
var serviceTable = this.GM.CreateVariable(4 * this.GM.PointerSize);
this._ServiceName.pointerBuffer().copy(serviceTable.toBuffer());
this._ServiceMain.pointerBuffer().copy(serviceTable.toBuffer(), this.GM.PointerSize);
this._sscd = this.Advapi.StartServiceCtrlDispatcherA(serviceTable);
this._sscd.parent = this;
this._sscd.on('done', function OnStartServiceCtrlDispatcherA(retVal) {
if (retVal.Val == 0)
{
this.parent.emit('normalStart');
}
});
return;
}
else if (process.platform == 'linux')
{
var moduleName = this._ServiceOptions ? this._ServiceOptions.name : process.execPath.substring(1 + process.execPath.lastIndexOf('/'));
for (var i = 0; i < process.argv.length; ++i) {
switch (process.argv[i]) {
case 'start':
case '-d':
var child = require('child_process').execFile(process.execPath, [moduleName], { type: require('child_process').SpawnTypes.DETACHED });
var pstream = null;
try {
pstream = require('fs').createWriteStream('/var/run/' + moduleName + '.pid', { flags: 'w' });
}
catch (e) {
}
if (pstream == null) {
pstream = require('fs').createWriteStream('.' + moduleName + '.pid', { flags: 'w' });
}
pstream.end(child.pid.toString());
console.log(moduleName + ' started!');
process.exit();
break;
case 'stop':
case '-s':
var pid = null;
try {
pid = parseInt(require('fs').readFileSync('/var/run/' + moduleName + '.pid', { flags: 'r' }));
require('fs').unlinkSync('/var/run/' + moduleName + '.pid');
}
catch (e) {
}
if (pid == null) {
try {
pid = parseInt(require('fs').readFileSync('.' + moduleName + '.pid', { flags: 'r' }));
require('fs').unlinkSync('.' + moduleName + '.pid');
}
catch (e) {
}
}
if (pid) {
process.kill(pid);
console.log(moduleName + ' stopped');
}
else {
console.log(moduleName + ' not running');
}
process.exit();
break;
}
}
if (serviceOperation == 0) {
// This is non-windows, so we need to check how this binary was started to determine if this was a service start
// Start by checking if we were started with start/stop
var pid = null;
try {
pid = parseInt(require('fs').readFileSync('/var/run/' + moduleName + '.pid', { flags: 'r' }));
}
catch (e) {
}
if (pid == null) {
try {
pid = parseInt(require('fs').readFileSync('.' + moduleName + '.pid', { flags: 'r' }));
}
catch (e) {
}
}
if (pid != null && pid == process.pid) {
this.emit('serviceStart');
}
else {
// Now we need to check if we were started with systemd
if (require('process-manager').getProcessInfo(1).Name == 'systemd') {
this._checkpid = require('child_process').execFile('/bin/sh', ['sh'], { type: require('child_process').SpawnTypes.TERM });
this._checkpid.result = '';
this._checkpid.parent = this;
this._checkpid.on('exit', function onCheckPIDExit() {
var lines = this.result.split('\r\n');
for (i in lines) {
if (lines[i].startsWith(' Main PID:')) {
var tokens = lines[i].split(' ');
if (parseInt(tokens[3]) == process.pid) {
this.parent.emit('serviceStart');
}
else {
this.parent.emit('normalStart');
}
delete this.parent._checkpid;
return;
}
}
this.parent.emit('normalStart');
delete this.parent._checkpid;
});
this._checkpid.stdout.on('data', function (chunk) { this.parent.result += chunk.toString(); });
this._checkpid.stdin.write("systemctl status " + moduleName + " | grep 'Main PID:'\n");
this._checkpid.stdin.write('exit\n');
}
else {
// This isn't even a systemd platform, so this couldn't have been a service start
this.emit('normalStart');
}
}
}
}
else if(process.platform == 'darwin')
{
// First let's fetch all the PIDs of running services
var child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = '';
child.stdout.on('data', function (chunk) { this.str += chunk.toString(); });
child.stdin.write('launchctl list\nexit\n');
child.waitExit();
var lines = child.stdout.str.split('\n');
var tokens, i;
var p = {};
for (i = 1; i < lines.length; ++i)
{
tokens = lines[i].split('\t');
if (tokens[0] && tokens[0] != '-') { p[tokens[0]] = tokens[0]; }
}
if(p[process.pid.toString()])
{
// We are a service!
this.emit('serviceStart');
}
else
{
this.emit('normalStart');
}
}
};
}
module.exports = serviceHost;

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/*
Copyright 2018 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 parseServiceStatus(token)
{
var j = {};
var serviceType = token.Deref(0, 4).IntVal;
j.isFileSystemDriver = ((serviceType & 0x00000002) == 0x00000002);
j.isKernelDriver = ((serviceType & 0x00000001) == 0x00000001);
j.isSharedProcess = ((serviceType & 0x00000020) == 0x00000020);
j.isOwnProcess = ((serviceType & 0x00000010) == 0x00000010);
j.isInteractive = ((serviceType & 0x00000100) == 0x00000100);
switch (token.Deref((1 * 4), 4).toBuffer().readUInt32LE())
{
case 0x00000005:
j.state = 'CONTINUE_PENDING';
break;
case 0x00000006:
j.state = 'PAUSE_PENDING';
break;
case 0x00000007:
j.state = 'PAUSED';
break;
case 0x00000004:
j.state = 'RUNNING';
break;
case 0x00000002:
j.state = 'START_PENDING';
break;
case 0x00000003:
j.state = 'STOP_PENDING';
break;
case 0x00000001:
j.state = 'STOPPED';
break;
}
var controlsAccepted = token.Deref((2 * 4), 4).toBuffer().readUInt32LE();
j.controlsAccepted = [];
if ((controlsAccepted & 0x00000010) == 0x00000010)
{
j.controlsAccepted.push('SERVICE_CONTROL_NETBINDADD');
j.controlsAccepted.push('SERVICE_CONTROL_NETBINDREMOVE');
j.controlsAccepted.push('SERVICE_CONTROL_NETBINDENABLE');
j.controlsAccepted.push('SERVICE_CONTROL_NETBINDDISABLE');
}
if ((controlsAccepted & 0x00000008) == 0x00000008) { j.controlsAccepted.push('SERVICE_CONTROL_PARAMCHANGE'); }
if ((controlsAccepted & 0x00000002) == 0x00000002) { j.controlsAccepted.push('SERVICE_CONTROL_PAUSE'); j.controlsAccepted.push('SERVICE_CONTROL_CONTINUE'); }
if ((controlsAccepted & 0x00000100) == 0x00000100) { j.controlsAccepted.push('SERVICE_CONTROL_PRESHUTDOWN'); }
if ((controlsAccepted & 0x00000004) == 0x00000004) { j.controlsAccepted.push('SERVICE_CONTROL_SHUTDOWN'); }
if ((controlsAccepted & 0x00000001) == 0x00000001) { j.controlsAccepted.push('SERVICE_CONTROL_STOP'); }
if ((controlsAccepted & 0x00000020) == 0x00000020) { j.controlsAccepted.push('SERVICE_CONTROL_HARDWAREPROFILECHANGE'); }
if ((controlsAccepted & 0x00000040) == 0x00000040) { j.controlsAccepted.push('SERVICE_CONTROL_POWEREVENT'); }
if ((controlsAccepted & 0x00000080) == 0x00000080) { j.controlsAccepted.push('SERVICE_CONTROL_SESSIONCHANGE'); }
j.pid = token.Deref((7 * 4), 4).toBuffer().readUInt32LE();
return (j);
}
function serviceManager()
{
this._ObjectID = 'service-manager';
if (process.platform == 'win32')
{
this.GM = require('_GenericMarshal');
this.proxy = this.GM.CreateNativeProxy('Advapi32.dll');
this.proxy.CreateMethod('OpenSCManagerA');
this.proxy.CreateMethod('EnumServicesStatusExA');
this.proxy.CreateMethod('OpenServiceA');
this.proxy.CreateMethod('QueryServiceStatusEx');
this.proxy.CreateMethod('ControlService');
this.proxy.CreateMethod('StartServiceA');
this.proxy.CreateMethod('CloseServiceHandle');
this.proxy.CreateMethod('CreateServiceA');
this.proxy.CreateMethod('ChangeServiceConfig2A');
this.proxy.CreateMethod('DeleteService');
this.proxy.CreateMethod('AllocateAndInitializeSid');
this.proxy.CreateMethod('CheckTokenMembership');
this.proxy.CreateMethod('FreeSid');
this.proxy2 = this.GM.CreateNativeProxy('Kernel32.dll');
this.proxy2.CreateMethod('GetLastError');
this.isAdmin = function isAdmin() {
var NTAuthority = this.GM.CreateVariable(6);
NTAuthority.toBuffer().writeInt8(5, 5);
var AdministratorsGroup = this.GM.CreatePointer();
var admin = false;
if (this.proxy.AllocateAndInitializeSid(NTAuthority, 2, 32, 544, 0, 0, 0, 0, 0, 0, AdministratorsGroup).Val != 0)
{
var member = this.GM.CreateInteger();
if (this.proxy.CheckTokenMembership(0, AdministratorsGroup.Deref(), member).Val != 0)
{
if (member.toBuffer().readUInt32LE() != 0) { admin = true; }
}
this.proxy.FreeSid(AdministratorsGroup.Deref());
}
return admin;
};
this.getProgramFolder = function getProgramFolder()
{
if (require('os').arch() == 'x64')
{
// 64 bit Windows
if (this.GM.PointerSize == 4)
{
return process.env['ProgramFiles(x86)']; // 32 Bit App
}
return process.env['ProgramFiles']; // 64 bit App
}
// 32 bit Windows
return process.env['ProgramFiles'];
};
this.getServiceFolder = function getServiceFolder() { return this.getProgramFolder() + '\\mesh'; };
this.enumerateService = function () {
var machineName = this.GM.CreatePointer();
var dbName = this.GM.CreatePointer();
var handle = this.proxy.OpenSCManagerA(0x00, 0x00, 0x0001 | 0x0004);
var bytesNeeded = this.GM.CreatePointer();
var servicesReturned = this.GM.CreatePointer();
var resumeHandle = this.GM.CreatePointer();
//var services = this.proxy.CreateVariable(262144);
var success = this.proxy.EnumServicesStatusExA(handle, 0, 0x00000030, 0x00000003, 0x00, 0x00, bytesNeeded, servicesReturned, resumeHandle, 0x00);
if (bytesNeeded.IntVal <= 0) {
throw ('error enumerating services');
}
var sz = bytesNeeded.IntVal;
var services = this.GM.CreateVariable(sz);
this.proxy.EnumServicesStatusExA(handle, 0, 0x00000030, 0x00000003, services, sz, bytesNeeded, servicesReturned, resumeHandle, 0x00);
console.log("servicesReturned", servicesReturned.IntVal);
var ptrSize = dbName._size;
var blockSize = 36 + (2 * ptrSize);
blockSize += ((ptrSize - (blockSize % ptrSize)) % ptrSize);
var retVal = [];
for (var i = 0; i < servicesReturned.IntVal; ++i) {
var token = services.Deref(i * blockSize, blockSize);
var j = {};
j.name = token.Deref(0, ptrSize).Deref().String;
j.displayName = token.Deref(ptrSize, ptrSize).Deref().String;
j.status = parseServiceStatus(token.Deref(2 * ptrSize, 36));
retVal.push(j);
}
this.proxy.CloseServiceHandle(handle);
return (retVal);
}
this.getService = function (name) {
var serviceName = this.GM.CreateVariable(name);
var ptr = this.GM.CreatePointer();
var bytesNeeded = this.GM.CreateVariable(ptr._size);
var handle = this.proxy.OpenSCManagerA(0x00, 0x00, 0x0001 | 0x0004 | 0x0020 | 0x0010);
if (handle.Val == 0) { throw ('could not open ServiceManager'); }
var h = this.proxy.OpenServiceA(handle, serviceName, 0x0004 | 0x0020 | 0x0010 | 0x00010000);
if (h.Val != 0) {
var success = this.proxy.QueryServiceStatusEx(h, 0, 0, 0, bytesNeeded);
var status = this.GM.CreateVariable(bytesNeeded.toBuffer().readUInt32LE());
success = this.proxy.QueryServiceStatusEx(h, 0, status, status._size, bytesNeeded);
if (success != 0) {
retVal = {};
retVal.status = parseServiceStatus(status);
retVal._scm = handle;
retVal._service = h;
retVal._GM = this.GM;
retVal._proxy = this.proxy;
require('events').inherits(retVal);
retVal.on('~', function () { this._proxy.CloseServiceHandle(this); this._proxy.CloseServiceHandle(this._scm); });
retVal.name = name;
retVal.stop = function () {
if (this.status.state == 'RUNNING') {
var newstate = this._GM.CreateVariable(36);
var success = this._proxy.ControlService(this._service, 0x00000001, newstate);
if (success == 0) {
throw (this.name + '.stop() failed');
}
}
else {
throw ('cannot call ' + this.name + '.stop(), when current state is: ' + this.status.state);
}
}
retVal.start = function () {
if (this.status.state == 'STOPPED') {
var success = this._proxy.StartServiceA(this._service, 0, 0);
if (success == 0) {
throw (this.name + '.start() failed');
}
}
else {
throw ('cannot call ' + this.name + '.start(), when current state is: ' + this.status.state);
}
}
return (retVal);
}
else {
}
}
this.proxy.CloseServiceHandle(handle);
throw ('could not find service: ' + name);
}
}
else
{
this.isAdmin = function isAdmin()
{
return (require('user-sessions').isRoot());
}
}
this.installService = function installService(options)
{
if (process.platform == 'win32')
{
if (!this.isAdmin()) { throw ('Installing as Service, requires admin'); }
// Before we start, we need to copy the binary to the right place
var folder = this.getServiceFolder();
if (!require('fs').existsSync(folder)) { require('fs').mkdirSync(folder); }
require('fs').copyFileSync(options.servicePath, folder + '\\' + options.name + '.exe');
options.servicePath = folder + '\\' + options.name + '.exe';
var servicePath = this.GM.CreateVariable('"' + options.servicePath + '"');
var handle = this.proxy.OpenSCManagerA(0x00, 0x00, 0x0002);
if (handle.Val == 0) { throw ('error opening SCManager'); }
var serviceName = this.GM.CreateVariable(options.name);
var displayName = this.GM.CreateVariable(options.name);
var allAccess = 0x000F01FF;
var serviceType;
switch (options.startType) {
case 'BOOT_START':
serviceType = 0x00;
break;
case 'SYSTEM_START':
serviceType = 0x01;
break;
case 'AUTO_START':
serviceType = 0x02;
break;
case 'DEMAND_START':
serviceType = 0x03;
break;
default:
serviceType = 0x04; // Disabled
break;
}
var h = this.proxy.CreateServiceA(handle, serviceName, displayName, allAccess, 0x10 | 0x100, serviceType, 0, servicePath, 0, 0, 0, 0, 0);
if (h.Val == 0) { this.proxy.CloseServiceHandle(handle); throw ('Error Creating Service: ' + this.proxy2.GetLastError().Val); }
if (options.description) {
console.log(options.description);
var dscPtr = this.GM.CreatePointer();
dscPtr.Val = this.GM.CreateVariable(options.description);
if (this.proxy.ChangeServiceConfig2A(h, 1, dscPtr) == 0) {
this.proxy.CloseServiceHandle(h);
this.proxy.CloseServiceHandle(handle);
throw ('Unable to set description');
}
}
this.proxy.CloseServiceHandle(h);
this.proxy.CloseServiceHandle(handle);
return (this.getService(options.name));
}
if(process.platform == 'linux')
{
if (!this.isAdmin()) { throw ('Installing as Service, requires root'); }
switch (this.getServiceType())
{
case 'init':
require('fs').copyFileSync(options.servicePath, '/etc/init.d/' + options.name);
console.log('copying ' + options.servicePath);
var m = require('fs').statSync('/etc/init.d/' + options.name).mode;
m |= (require('fs').CHMOD_MODES.S_IXUSR | require('fs').CHMOD_MODES.S_IXGRP);
require('fs').chmodSync('/etc/init.d/' + options.name, m);
this._update = require('child_process').execFile('/bin/sh', ['sh'], { type: require('child_process').SpawnTypes.TERM });
this._update._moduleName = options.name;
this._update.stdout.on('data', function (chunk) { });
this._update.stdin.write('update-rc.d ' + options.name + ' defaults\n');
this._update.stdin.write('exit\n');
//update-rc.d meshagent defaults # creates symlinks for rc.d
//service meshagent start
this._update.waitExit();
break;
case 'systemd':
var serviceDescription = options.description ? options.description : 'MeshCentral Agent';
if (!require('fs').existsSync('/usr/local/mesh')) { require('fs').mkdirSync('/usr/local/mesh'); }
require('fs').copyFileSync(options.servicePath, '/usr/local/mesh/' + options.name);
var m = require('fs').statSync('/usr/local/mesh/' + options.name).mode;
m |= (require('fs').CHMOD_MODES.S_IXUSR | require('fs').CHMOD_MODES.S_IXGRP);
require('fs').chmodSync('/usr/local/mesh/' + options.name, m);
require('fs').writeFileSync('/lib/systemd/system/' + options.name + '.service', '[Unit]\nDescription=' + serviceDescription + '\n[Service]\nExecStart=/usr/local/mesh/' + options.name + '\nStandardOutput=null\nRestart=always\nRestartSec=3\n[Install]\nWantedBy=multi-user.target\nAlias=' + options.name + '.service\n', { flags: 'w' });
this._update = require('child_process').execFile('/bin/sh', ['sh'], { type: require('child_process').SpawnTypes.TERM });
this._update._moduleName = options.name;
this._update.stdout.on('data', function (chunk) { });
this._update.stdin.write('systemctl enable ' + options.name + '.service\n');
this._update.stdin.write('exit\n');
this._update.waitExit();
break;
default: // unknown platform service type
break;
}
}
if(process.platform == 'darwin')
{
if (!this.isAdmin()) { throw ('Installing as Service, requires root'); }
// Mac OS
var stdoutpath = (options.stdout ? ('<key>StandardOutPath</key>\n<string>' + options.stdout + '</string>') : '');
var autoStart = (options.startType == 'AUTO_START' ? '<true/>' : '<false/>');
var params = ' <key>ProgramArguments</key>\n';
params += ' <array>\n';
params += (' <string>/usr/local/mesh_services/' + options.name + '/' + options.name + '</string>\n');
if(options.parameters)
{
for(var itm in options.parameters)
{
params += (' <string>' + options.parameters[itm] + '</string>\n');
}
}
params += ' </array>\n';
var plist = '<?xml version="1.0" encoding="UTF-8"?>\n';
plist += '<!DOCTYPE plist PUBLIC "-//Apple Computer//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">\n';
plist += '<plist version="1.0">\n';
plist += ' <dict>\n';
plist += ' <key>Label</key>\n';
plist += (' <string>' + options.name + '</string>\n');
plist += (params + '\n');
plist += ' <key>WorkingDirectory</key>\n';
plist += (' <string>/usr/local/mesh_services/' + options.name + '</string>\n');
plist += (stdoutpath + '\n');
plist += ' <key>RunAtLoad</key>\n';
plist += (autoStart + '\n');
plist += ' </dict>\n';
plist += '</plist>';
if (!require('fs').existsSync('/usr/local/mesh_services')) { require('fs').mkdirSync('/usr/local/mesh_services'); }
if (!require('fs').existsSync('/Library/LaunchDaemons/' + options.name + '.plist'))
{
if (!require('fs').existsSync('/usr/local/mesh_services/' + options.name)) { require('fs').mkdirSync('/usr/local/mesh_services/' + options.name); }
if (options.binary)
{
require('fs').writeFileSync('/usr/local/mesh_services/' + options.name + '/' + options.name, options.binary);
}
else
{
require('fs').copyFileSync(options.servicePath, '/usr/local/mesh_services/' + options.name + '/' + options.name);
}
require('fs').writeFileSync('/Library/LaunchDaemons/' + options.name + '.plist', plist);
var m = require('fs').statSync('/usr/local/mesh_services/' + options.name + '/' + options.name).mode;
m |= (require('fs').CHMOD_MODES.S_IXUSR | require('fs').CHMOD_MODES.S_IXGRP);
require('fs').chmodSync('/usr/local/mesh_services/' + options.name + '/' + options.name, m);
}
else
{
throw ('Service: ' + options.name + ' already exists');
}
}
}
this.uninstallService = function uninstallService(name)
{
if (!this.isAdmin()) { throw ('Uninstalling a service, requires admin'); }
if (typeof (name) == 'object') { name = name.name; }
if (process.platform == 'win32')
{
var service = this.getService(name);
if (service.status.state == undefined || service.status.state == 'STOPPED')
{
if (this.proxy.DeleteService(service._service) == 0)
{
throw ('Uninstall Service for: ' + name + ', failed with error: ' + this.proxy2.GetLastError());
}
else
{
try
{
require('fs').unlinkSync(this.getServiceFolder() + '\\' + name + '.exe');
}
catch(e)
{
}
}
}
else
{
throw ('Cannot uninstall service: ' + name + ', because it is: ' + service.status.state);
}
}
else if(process.platform == 'linux')
{
switch (this.getServiceType())
{
case 'init':
this._update = require('child_process').execFile('/bin/sh', ['sh'], { type: require('child_process').SpawnTypes.TERM });
this._update.stdout.on('data', function (chunk) { });
this._update.stdin.write('service ' + name + ' stop\n');
this._update.stdin.write('update-rc.d -f ' + name + ' remove\n');
this._update.stdin.write('exit\n');
this._update.waitExit();
try
{
require('fs').unlinkSync('/etc/init.d/' + name);
console.log(name + ' uninstalled');
}
catch (e)
{
console.log(name + ' could not be uninstalled', e)
}
break;
case 'systemd':
this._update = require('child_process').execFile('/bin/sh', ['sh'], { type: require('child_process').SpawnTypes.TERM });
this._update.stdout.on('data', function (chunk) { });
this._update.stdin.write('systemctl stop ' + name + '.service\n');
this._update.stdin.write('systemctl disable ' + name + '.service\n');
this._update.stdin.write('exit\n');
this._update.waitExit();
try
{
require('fs').unlinkSync('/usr/local/mesh/' + name);
require('fs').unlinkSync('/lib/systemd/system/' + name + '.service');
console.log(name + ' uninstalled');
}
catch (e)
{
console.log(name + ' could not be uninstalled', e)
}
break;
default: // unknown platform service type
break;
}
}
else if(process.platform == 'darwin')
{
if (require('fs').existsSync('/Library/LaunchDaemons/' + name + '.plist'))
{
var child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.on('data', function (chunk) { });
child.stdin.write('launchctl stop ' + name + '\n');
child.stdin.write('launchctl unload /Library/LaunchDaemons/' + name + '.plist\n');
child.stdin.write('exit\n');
child.waitExit();
try
{
require('fs').unlinkSync('/usr/local/mesh_services/' + name + '/' + name);
require('fs').unlinkSync('/Library/LaunchDaemons/' + name + '.plist');
}
catch(e)
{
throw ('Error uninstalling service: ' + name + ' => ' + e);
}
try
{
require('fs').rmdirSync('/usr/local/mesh_services/' + name);
}
catch(e)
{}
}
else
{
throw ('Service: ' + name + ' does not exist');
}
}
}
if(process.platform == 'linux')
{
this.getServiceType = function getServiceType()
{
return (require('process-manager').getProcessInfo(1).Name);
};
}
}
module.exports = serviceManager;

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/*
Copyright 2018 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.
*/
try { Object.defineProperty(Array.prototype, "peek", { value: function () { return (this.length > 0 ? this[this.length - 1] : undefined); } }); } catch (e) { }
try { Object.defineProperty(String.prototype, "replaceAll", { value: function replaceAll(oldVal, newVal) { return (this.split(oldVal).join(newVal)); } }); } catch (e) { }
var RSMB = 1381190978;
var memoryLocation = { 0x1: 'Other', 0x2: 'Unknown', 0x3: 'System Board', 0x4: 'ISA', 0x5: 'EISA', 0x6: 'PCI', 0x7: 'MCA', 0x8: 'PCMCIA', 0x9: 'Proprietary', 0xA: 'NuBus', 0xA0: 'PC-98/C20', 0xA1: 'PC-98/C24', 0xA2: 'PC-98/E', 0xA3: 'PC-98/LB' };
var wakeReason = ['Reserved', 'Other', 'Unknown', 'APM Timer', 'Modem Ring', 'LAN', 'Power Switch', 'PCI', 'AC Power'];
// Fill the left with zeros until the string is of a given length
function zeroLeftPad(str, len)
{
if ((len == null) && (typeof (len) != 'number')) { return null; }
if (str == null) str = ''; // If null, this is to generate zero leftpad string
var zlp = '';
for (var i = 0; i < len - str.length; i++) { zlp += '0'; }
return zlp + str;
}
function SMBiosTables()
{
this._ObjectID = 'SMBiosTable';
if (process.platform == 'win32') {
this._marshal = require('_GenericMarshal');
this._native = this._marshal.CreateNativeProxy("Kernel32.dll");
this._native.CreateMethod('EnumSystemFirmwareTables');
this._native.CreateMethod('GetSystemFirmwareTable');
}
if (process.platform == 'linux') {
this._canonicalizeData = function _canonicalizeData(data) {
var lines = data.toString().split('Header and Data:\x0A');
var MemoryStream = require('MemoryStream');
var ms = new MemoryStream();
for (var i = 1; i < lines.length; ++i) {
var tokens = lines[i].split('Strings:\x0A');
var header = tokens[0].split('\x0A\x0A')[0].replaceAll('\x0A', '').trim().replaceAll(' ', '').replaceAll('\x09', '');
ms.write(Buffer.from(header, 'hex'));
if (tokens.length > 1) {
var strings = tokens[1].split('\x0A\x0A')[0].split('\x0A');
var stringsFinal = [];
for (var strx in strings) {
var tmp = strings[strx].trim().replaceAll(' ', '').replaceAll('\x09', '');
if (!(tmp[0] == '"')) { stringsFinal.push(tmp); }
}
ms.write(Buffer.from(stringsFinal.join(''), 'hex'));
ms.write(Buffer.from('00', 'hex'));
}
else {
ms.write(Buffer.from('0000', 'hex'));
}
}
var retVal = ms.buffer;
retVal.ms = ms;
return (retVal);
};
}
this._parse = function _parse(SMData) {
var ret = {};
var pbyte;
var i = 0
var SMData;
var structcount = 0;
while (SMData && i < SMData.length)
{
var SMtype = SMData[i];
var SMlength = SMData[i + 1];
if (!ret[SMtype]) { ret[SMtype] = []; }
ret[SMtype].push(SMData.slice(i + 4, i + SMlength));
if (process.platform == 'win32') { ret[SMtype].peek()._ext = pbyte; }
i += SMlength;
ret[SMtype].peek()._strings = [];
while (SMData[i] != 0 && i <= SMData.length)
{
var strstart = i;
// Start of String, find end of string
while (SMData[i++] != 0 && i <= SMData.length);
try
{
ret[SMtype].peek()._strings.push(SMData.slice(strstart, i).toString().trim());
}
catch (ee)
{
console.log('oops');
}
}
i += (ret[SMtype].peek()._strings.length == 0) ? 2 : 1;
++structcount;
//console.log('End of Table[' + SMtype + ']: ' + i);
}
//console.log('Struct Count = ' + structcount);
return (ret);
};
this.get = function get(callback) {
if (process.platform == 'win32') {
var size = this._native.GetSystemFirmwareTable(RSMB, 0, 0, 0).Val;
//console.log('Table Size: ' + size);
var PtrSize = this._marshal.CreatePointer()._size;
var buffer = this._marshal.CreateVariable(size);
var written = this._native.GetSystemFirmwareTable(RSMB, 0, buffer, size).Val;
//console.log('Written Size: ' + written);
var rawBuffer = buffer.toBuffer();
var length = buffer.Deref(4, 4).toBuffer().readUInt32LE(0);
pbyte = buffer.Deref(8, length);
SMData = pbyte.toBuffer();
if (callback) { callback.apply(this, [this._parse(SMData)]); return; } else { return (this._parse(SMData)); }
}
if (process.platform == 'linux') {
var MemoryStream = require('MemoryStream');
this.child = require('child_process').execFile('/usr/sbin/dmidecode', ['dmidecode', '-u']);
this.child.SMBiosTable = this;
this.child.ms = new MemoryStream();
this.child.ms.callback = callback;
this.child.ms.child = this.child;
this.child.stdout.on('data', function (buffer) { this.parent.ms.write(buffer); });
this.child.on('exit', function () { this.ms.end(); });
this.child.ms.on('end', function () {
//console.log('read ' + this.buffer.length + ' bytes');
if (this.buffer.length < 300) {
//console.log('Not enough permission to read SMBiosTable');
if (this.callback) { this.callback.apply(this.child.SMBiosTable, []); }
}
else {
var SMData = this.child.SMBiosTable._canonicalizeData(this.buffer);
var j = this.child.SMBiosTable._parse(SMData);
if (this.callback) { this.callback.apply(this.child.SMBiosTable, [j]); }
}
});
return;
}
if (callback) { callback.apply(this, [null]); return; } else { return (null); }
};
this.parse = function parse(data) {
var r = {};
try
{
r.processorInfo = this.processorInfo(data);
}
catch(e)
{
}
try
{
r.memoryInfo = this.memoryInfo(data);
}
catch(e)
{
}
try
{
r.systemInfo = this.systemInfo(data);
}
catch(e)
{
}
try
{
r.systemSlots = this.systemInfo(data);
}
catch(e)
{
}
try
{
r.amtInfo = this.amtInfo(data);
}
catch(e)
{
}
return r;
}
this.processorInfo = function processorInfo(data) {
if (!data) { throw ('no data'); }
var ret = [];
var ptype = ['ERROR', 'Other', 'Unknown', 'CPU', 'ALU', 'DSP', 'GPU'];
var statusString = ['Unknown', 'Enabled', 'Disabled by user', 'Disabled by BIOS', 'Idle', 'Reserved', 'Reserved', 'Other'];
var cpuid = 0;
while (data[4] && data[4].length > 0) {
var p = data[4].pop();
var populated = p[20] & 0x40;
var status = p[20] & 0x07
if (populated) {
var j = { _ObjectID: 'SMBiosTables.processorInfo' };
j.Processor = ptype[p[1]];
j.MaxSpeed = p.readUInt16LE(16) + ' Mhz';
if (p[31]) { j.Cores = p[31]; }
if (p[33]) { j.Threads = p[33]; }
j.Populated = 1;
j.Status = statusString[status];
j.Socket = p._strings[p[0] - 1];
j.Manufacturer = p._strings[p[3] - 1];
j.Version = p._strings[p[12] - 1];
ret.push(j);
}
}
return (ret);
};
this.memoryInfo = function memoryInfo(data) {
if (!data) { throw ('no data'); }
var retVal = { _ObjectID: 'SMBiosTables.memoryInfo' };
if (data[16]) {
var m = data[16].peek();
retVal.location = memoryLocation[m[0]];
if ((retVal.maxCapacityKb = m.readUInt32LE(3)) == 0x80000000) {
retVal.maxCapacityKb = 'A really big number';
}
}
return (retVal);
};
this.systemInfo = function systemInfo(data)
{
if (!data) { throw ('no data'); }
var retVal = { _ObjectID: 'SMBiosTables.systemInfo' };
if (data[1])
{
var si = data[1].peek();
var uuid = si.slice(4, 20);
retVal.uuid = [zeroLeftPad(uuid.readUInt32LE(0).toString(16), 8),
zeroLeftPad(uuid.readUInt16LE(4).toString(16), 4),
zeroLeftPad(uuid.readUInt16LE(6).toString(16), 4),
zeroLeftPad(uuid.readUInt16BE(8).toString(16), 4),
zeroLeftPad(uuid.slice(10).toString('hex').toLowerCase(), 12)].join('-');
retVal.wakeReason = wakeReason[si[20]];
}
return (retVal);
};
this.systemSlots = function systemSlots(data) {
if (!data) { throw ('no data'); }
var retVal = [];
if (data[9]) {
while (data[9].length > 0) {
var ss = data[9].pop();
retVal.push({ name: ss._strings[ss[0] - 1] });
}
}
return (retVal);
};
this.amtInfo = function amtInfo(data) {
if (!data) { throw ('no data'); }
var retVal = { AMT: false };
if (data[130] && data[130].peek().slice(0, 4).toString() == '$AMT') {
var amt = data[130].peek();
retVal.AMT = amt[4] ? true : false;
if (retVal.AMT) {
retVal.enabled = amt[5] ? true : false;
retVal.storageRedirection = amt[6] ? true : false;
retVal.serialOverLan = amt[7] ? true : false;
retVal.kvm = amt[14] ? true : false;
if (data[131].peek() && data[131].peek().slice(52, 56).toString() == 'vPro') {
var settings = data[131].peek();
if (settings[0] & 0x04) { retVal.TXT = (settings[0] & 0x08) ? true : false; }
if (settings[0] & 0x10) { retVal.VMX = (settings[0] & 0x20) ? true : false; }
retVal.MEBX = settings.readUInt16LE(10).toString() + '.' + settings.readUInt16LE(8).toString() + '.' + settings.readUInt16LE(6).toString() + '.' + settings.readUInt16LE(4).toString();
var mecap = settings.slice(20, 32);
retVal.ManagementEngine = mecap.readUInt16LE(6).toString() + '.' + mecap.readUInt16LE(4).toString() + '.' + mecap.readUInt16LE(2).toString() + '.' + mecap.readUInt16LE(0).toString();
//var lan = settings.slice(36, 48);
//console.log(lan.toString('hex'));
//retVal.LAN = (lan.readUInt16LE(10) & 0x03).toString() + '/' + ((lan.readUInt16LE(10) & 0xF8) >> 3).toString();
//console.log(lan.readUInt16LE(3));
//retVal.WLAN = (lan.readUInt16LE(3) & 0x07).toString() + '/' + ((lan.readUInt16LE(3) & 0xF8) >> 3).toString() + '/' + (lan.readUInt16LE(3) >> 8).toString();
}
}
}
return (retVal);
};
this.smTableTypes = {
0: 'BIOS information',
1: 'System information',
2: 'Baseboard (or Module) information',
4: 'Processor information',
5: 'memory controller information',
6: 'Memory module information',
7: 'Cache information',
8: 'Port connector information',
9: 'System slots',
10: 'On board devices information',
11: 'OEM strings',
12: 'System configuration options',
13: 'BIOS language information',
14: 'Group associations',
15: 'System event log',
16: 'Physical memory array',
17: 'Memory device',
18: '32bit memory error information',
19: 'Memory array mapped address',
20: 'Memory device mapped address',
21: 'Built-in pointing device',
22: 'Portable battery',
23: 'System reset',
24: 'Hardware security',
25: 'System power controls',
26: 'Voltage probe',
27: 'Cooling device',
28: 'Temperature probe',
29: 'Electrical current probe',
30: 'Out-of-band remote access',
31: 'Boot integrity services (BIS) entry point',
32: 'System boot information',
33: '64bit memory error information',
34: 'Management device',
35: 'Management device component',
36: 'Management device threshold data',
37: 'Memory channel',
38: 'IPMI device information',
39: 'System power supply',
40: 'Additional information',
41: 'Onboard devices extended information',
42: 'Management controller host interface',
126: 'Inactive',
127: 'End-of-table'
}
}
module.exports = new SMBiosTables();

750
agents-new/modules_meshcmd/user-sessions.js Normal file
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@ -0,0 +1,750 @@
/*
Copyright 2018 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.
*/
var NOTIFY_FOR_THIS_SESSION = 0;
var NOTIFY_FOR_ALL_SESSIONS = 1;
var WM_WTSSESSION_CHANGE = 0x02B1;
var WM_POWERBROADCAST = 0x218;
var PBT_POWERSETTINGCHANGE = 0x8013;
var PBT_APMSUSPEND = 0x4;
var PBT_APMRESUMESUSPEND = 0x7;
var PBT_APMRESUMEAUTOMATIC = 0x12;
var PBT_APMPOWERSTATUSCHANGE = 0xA;
var WTS_CONSOLE_CONNECT = (0x1);
var WTS_CONSOLE_DISCONNECT = (0x2);
var WTS_REMOTE_CONNECT = (0x3);
var WTS_REMOTE_DISCONNECT = (0x4);
var WTS_SESSION_LOGON = (0x5);
var WTS_SESSION_LOGOFF = (0x6);
var WTS_SESSION_LOCK = (0x7);
var WTS_SESSION_UNLOCK = (0x8);
var WTS_SESSION_REMOTE_CONTROL = (0x9);
var WTS_SESSION_CREATE = (0xA);
var WTS_SESSION_TERMINATE = (0xB);
var GUID_ACDC_POWER_SOURCE;
var GUID_BATTERY_PERCENTAGE_REMAINING;
var GUID_CONSOLE_DISPLAY_STATE;
function UserSessions()
{
this._ObjectID = 'user-sessions';
require('events').EventEmitter.call(this, true)
.createEvent('changed')
.createEvent('locked')
.createEvent('unlocked');
this.enumerateUsers = function enumerateUsers()
{
var promise = require('promise');
var p = new promise(function (res, rej)
{
this.__resolver = res;
this.__rejector = rej;
});
p.__handler = function __handler(users)
{
p.__resolver(users);
};
try
{
this.Current(p.__handler);
}
catch(e)
{
p.__rejector(e);
}
p.parent = this;
return (p);
}
if (process.platform == 'win32')
{
this._serviceHooked = false;
this._marshal = require('_GenericMarshal');
this._kernel32 = this._marshal.CreateNativeProxy('Kernel32.dll');
this._kernel32.CreateMethod('GetLastError');
try
{
this._wts = this._marshal.CreateNativeProxy('Wtsapi32.dll');
this._wts.CreateMethod('WTSEnumerateSessionsA');
this._wts.CreateMethod('WTSQuerySessionInformationA');
this._wts.CreateMethod('WTSRegisterSessionNotification');
this._wts.CreateMethod('WTSUnRegisterSessionNotification');
this._wts.CreateMethod('WTSFreeMemory');
}
catch(exc)
{
}
this._advapi = this._marshal.CreateNativeProxy('Advapi32.dll');
this._advapi.CreateMethod('AllocateAndInitializeSid');
this._advapi.CreateMethod('CheckTokenMembership');
this._advapi.CreateMethod('FreeSid');
this._user32 = this._marshal.CreateNativeProxy('user32.dll');
this._user32.CreateMethod({ method: 'RegisterPowerSettingNotification', threadDispatch: 1});
this._user32.CreateMethod('UnregisterPowerSettingNotification');
this._rpcrt = this._marshal.CreateNativeProxy('Rpcrt4.dll');
this._rpcrt.CreateMethod('UuidFromStringA');
this._rpcrt.StringToUUID = function StringToUUID(guid)
{
var retVal = StringToUUID.us._marshal.CreateVariable(16);
if(StringToUUID.us._rpcrt.UuidFromStringA(StringToUUID.us._marshal.CreateVariable(guid), retVal).Val == 0)
{
return (retVal);
}
else
{
throw ('Could not convert string to UUID');
}
}
this._rpcrt.StringToUUID.us = this;
GUID_ACDC_POWER_SOURCE = this._rpcrt.StringToUUID('5d3e9a59-e9D5-4b00-a6bd-ff34ff516548');
GUID_BATTERY_PERCENTAGE_REMAINING = this._rpcrt.StringToUUID('a7ad8041-b45a-4cae-87a3-eecbb468a9e1');
GUID_CONSOLE_DISPLAY_STATE = this._rpcrt.StringToUUID('6fe69556-704a-47a0-8f24-c28d936fda47');
this.SessionStates = ['Active', 'Connected', 'ConnectQuery', 'Shadow', 'Disconnected', 'Idle', 'Listening', 'Reset', 'Down', 'Init'];
this.InfoClass =
{
'WTSInitialProgram': 0,
'WTSApplicationName': 1,
'WTSWorkingDirectory': 2,
'WTSOEMId': 3,
'WTSSessionId': 4,
'WTSUserName': 5,
'WTSWinStationName': 6,
'WTSDomainName': 7,
'WTSConnectState': 8,
'WTSClientBuildNumber': 9,
'WTSClientName': 10,
'WTSClientDirectory': 11,
'WTSClientProductId': 12,
'WTSClientHardwareId': 13,
'WTSClientAddress': 14,
'WTSClientDisplay': 15,
'WTSClientProtocolType': 16,
'WTSIdleTime': 17,
'WTSLogonTime': 18,
'WTSIncomingBytes': 19,
'WTSOutgoingBytes': 20,
'WTSIncomingFrames': 21,
'WTSOutgoingFrames': 22,
'WTSClientInfo': 23,
'WTSSessionInfo': 24,
'WTSSessionInfoEx': 25,
'WTSConfigInfo': 26,
'WTSValidationInfo': 27,
'WTSSessionAddressV4': 28,
'WTSIsRemoteSession': 29
};
this.isRoot = function isRoot()
{
var NTAuthority = this._marshal.CreateVariable(6);
NTAuthority.toBuffer().writeInt8(5, 5);
var AdministratorsGroup = this._marshal.CreatePointer();
var admin = false;
if (this._advapi.AllocateAndInitializeSid(NTAuthority, 2, 32, 544, 0, 0, 0, 0, 0, 0, AdministratorsGroup).Val != 0)
{
var member = this._marshal.CreateInteger();
if (this._advapi.CheckTokenMembership(0, AdministratorsGroup.Deref(), member).Val != 0)
{
if (member.toBuffer().readUInt32LE() != 0) { admin = true; }
}
this._advapi.FreeSid(AdministratorsGroup.Deref());
}
return admin;
}
this.getSessionAttribute = function getSessionAttribute(sessionId, attr)
{
var buffer = this._marshal.CreatePointer();
var bytesReturned = this._marshal.CreateVariable(4);
if (this._wts.WTSQuerySessionInformationA(0, sessionId, attr, buffer, bytesReturned).Val == 0)
{
throw ('Error calling WTSQuerySessionInformation: ' + this._kernel32.GetLastError.Val);
}
var retVal = buffer.Deref().String;
this._wts.WTSFreeMemory(buffer.Deref());
return (retVal);
};
this.Current = function Current(cb)
{
var retVal = {};
var pinfo = this._marshal.CreatePointer();
var count = this._marshal.CreateVariable(4);
if (this._wts.WTSEnumerateSessionsA(0, 0, 1, pinfo, count).Val == 0)
{
throw ('Error calling WTSEnumerateSessionsA: ' + this._kernel32.GetLastError().Val);
}
for (var i = 0; i < count.toBuffer().readUInt32LE() ; ++i)
{
var info = pinfo.Deref().Deref(i * (this._marshal.PointerSize == 4 ? 12 : 24), this._marshal.PointerSize == 4 ? 12 : 24);
var j = { SessionId: info.toBuffer().readUInt32LE() };
j.StationName = info.Deref(this._marshal.PointerSize == 4 ? 4 : 8, this._marshal.PointerSize).Deref().String;
j.State = this.SessionStates[info.Deref(this._marshal.PointerSize == 4 ? 8 : 16, 4).toBuffer().readUInt32LE()];
if (j.State == 'Active') {
j.Username = this.getSessionAttribute(j.SessionId, this.InfoClass.WTSUserName);
j.Domain = this.getSessionAttribute(j.SessionId, this.InfoClass.WTSDomainName);
}
retVal[j.SessionId] = j;
}
this._wts.WTSFreeMemory(pinfo.Deref());
Object.defineProperty(retVal, 'Active', { value: showActiveOnly(retVal) });
if (cb) { cb(retVal); }
return (retVal);
};
// We need to spin up a message pump, and fetch a window handle
var message_pump = require('win-message-pump');
this._messagepump = new message_pump({ filter: WM_WTSSESSION_CHANGE }); this._messagepump.parent = this;
this._messagepump.on('exit', function (code) { this.parent._wts.WTSUnRegisterSessionNotification(this.parent.hwnd); });
this._messagepump.on('hwnd', function (h)
{
this.parent.hwnd = h;
// We need to yield, and do this in the next event loop pass, becuase we don't want to call 'RegisterPowerSettingNotification'
// from the messagepump 'thread', because we are actually on the microstack thread, such that the message pump thread, is holding
// on a semaphore for us to return. If we call now, we may deadlock on Windows 7, becuase it will try to notify immediately
this.immediate = setImmediate(function (self)
{
// Now that we have a window handle, we can register it to receive Windows Messages
if (self.parent._wts) { self.parent._wts.WTSRegisterSessionNotification(self.parent.hwnd, NOTIFY_FOR_ALL_SESSIONS); }
self.parent._user32.ACDC_H = self.parent._user32.RegisterPowerSettingNotification(self.parent.hwnd, GUID_ACDC_POWER_SOURCE, 0);
self.parent._user32.BATT_H = self.parent._user32.RegisterPowerSettingNotification(self.parent.hwnd, GUID_BATTERY_PERCENTAGE_REMAINING, 0);
self.parent._user32.DISP_H = self.parent._user32.RegisterPowerSettingNotification(self.parent.hwnd, GUID_CONSOLE_DISPLAY_STATE, 0);
//console.log(self.parent._user32.ACDC_H.Val, self.parent._user32.BATT_H.Val, self.parent._user32.DISP_H.Val);
}, this);
});
this._messagepump.on('message', function (msg)
{
switch(msg.message)
{
case WM_WTSSESSION_CHANGE:
switch(msg.wparam)
{
case WTS_SESSION_LOCK:
this.parent.enumerateUsers().then(function (users)
{
if (users[msg.lparam]) { this.parent.emit('locked', users[msg.lparam]); }
});
break;
case WTS_SESSION_UNLOCK:
this.parent.enumerateUsers().then(function (users)
{
if (users[msg.lparam]) { this.parent.emit('unlocked', users[msg.lparam]); }
});
break;
case WTS_SESSION_LOGON:
case WTS_SESSION_LOGOFF:
this.parent.emit('changed');
break;
}
break;
case WM_POWERBROADCAST:
switch(msg.wparam)
{
default:
console.log('WM_POWERBROADCAST [UNKNOWN wparam]: ' + msg.wparam);
break;
case PBT_APMSUSPEND:
require('power-monitor').emit('sx', 'SLEEP');
break;
case PBT_APMRESUMEAUTOMATIC:
require('power-monitor').emit('sx', 'RESUME_NON_INTERACTIVE');
break;
case PBT_APMRESUMESUSPEND:
require('power-monitor').emit('sx', 'RESUME_INTERACTIVE');
break;
case PBT_APMPOWERSTATUSCHANGE:
require('power-monitor').emit('changed');
break;
case PBT_POWERSETTINGCHANGE:
var lparam = this.parent._marshal.CreatePointer(Buffer.from(msg.lparam_hex, 'hex'));
var data = lparam.Deref(20, lparam.Deref(16, 4).toBuffer().readUInt32LE(0)).toBuffer();
switch(lparam.Deref(0, 16).toBuffer().toString('hex'))
{
case GUID_ACDC_POWER_SOURCE.Deref(0, 16).toBuffer().toString('hex'):
switch(data.readUInt32LE(0))
{
case 0:
require('power-monitor').emit('acdc', 'AC');
break;
case 1:
require('power-monitor').emit('acdc', 'BATTERY');
break;
case 2:
require('power-monitor').emit('acdc', 'HOT');
break;
}
break;
case GUID_BATTERY_PERCENTAGE_REMAINING.Deref(0, 16).toBuffer().toString('hex'):
require('power-monitor').emit('batteryLevel', data.readUInt32LE(0));
break;
case GUID_CONSOLE_DISPLAY_STATE.Deref(0, 16).toBuffer().toString('hex'):
switch(data.readUInt32LE(0))
{
case 0:
require('power-monitor').emit('display', 'OFF');
break;
case 1:
require('power-monitor').emit('display', 'ON');
break;
case 2:
require('power-monitor').emit('display', 'DIMMED');
break;
}
break;
}
break;
}
break;
default:
break;
}
});
}
else if(process.platform == 'linux')
{
var dbus = require('linux-dbus');
this._linuxWatcher = require('fs').watch('/var/run/utmp');
this._linuxWatcher.user_session = this;
this._linuxWatcher.on('change', function (a, b)
{
this.user_session.emit('changed');
});
this._users = function _users()
{
var child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = '';
child.stdout.on('data', function (chunk) { this.str += chunk.toString(); });
child.stdin.write('awk -F: \'($3 >= 0) {printf "%s:%s\\n", $1, $3}\' /etc/passwd\nexit\n');
child.waitExit();
var lines = child.stdout.str.split('\n');
var ret = {}, tokens;
for (var ln in lines)
{
tokens = lines[ln].split(':');
if (tokens[0]) { ret[tokens[0]] = tokens[1]; }
}
return (ret);
}
this._uids = function _uids() {
var child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = '';
child.stdout.on('data', function (chunk) { this.str += chunk.toString(); });
child.stdin.write('awk -F: \'($3 >= 0) {printf "%s:%s\\n", $1, $3}\' /etc/passwd\nexit\n');
child.waitExit();
var lines = child.stdout.str.split('\n');
var ret = {}, tokens;
for (var ln in lines) {
tokens = lines[ln].split(':');
if (tokens[0]) { ret[tokens[1]] = tokens[0]; }
}
return (ret);
}
this.Self = function Self()
{
var promise = require('promise');
var p = new promise(function (res, rej)
{
this.__resolver = res; this.__rejector = rej;
this.__child = require('child_process').execFile('/usr/bin/id', ['id', '-u']);
this.__child.promise = this;
this.__child.stdout._txt = '';
this.__child.stdout.on('data', function (chunk) { this._txt += chunk.toString(); });
this.__child.on('exit', function (code)
{
try
{
parseInt(this.stdout._txt);
}
catch (e)
{
this.promise.__rejector('invalid uid');
return;
}
var id = parseInt(this.stdout._txt);
this.promise.__resolver(id);
});
});
return (p);
};
this.Current = function Current(cb)
{
var retVal = {};
retVal._ObjectID = 'UserSession'
Object.defineProperty(retVal, '_callback', { value: cb });
Object.defineProperty(retVal, '_child', { value: require('child_process').execFile('/usr/bin/last', ['last', '-f', '/var/run/utmp']) });
retVal._child.Parent = retVal;
retVal._child._txt = '';
retVal._child.on('exit', function (code)
{
var lines = this._txt.split('\n');
var sessions = [];
var users = {};
for(var i in lines)
{
if (lines[i])
{
var tokens = getTokens(lines[i]);
var s = { Username: tokens[0], SessionId: tokens[1] }
if (tokens[3].includes('still logged in'))
{
s.State = 'Active';
}
else
{
s.LastActive = tokens[3];
}
sessions.push(s);
}
}
sessions.pop();
var usernames = {};
var promises = [];
for (var i in sessions)
{
if (sessions[i].Username != 'reboot')
{
users[sessions[i].SessionId] = sessions[i];
if(usernames[sessions[i].Username] == null)
{
usernames[sessions[i].Username] = -1;
}
}
}
try
{
require('promise');
}
catch(e)
{
Object.defineProperty(users, 'Active', { value: showActiveOnly(users) });
if (this.Parent._callback) { this.Parent._callback.call(this.Parent, users); }
return;
}
var promise = require('promise');
for (var n in usernames)
{
var p = new promise(function (res, rej)
{
this.__username = n;
this.__resolver = res; this.__rejector = rej;
this.__child = require('child_process').execFile('/usr/bin/id', ['id', '-u', n]);
this.__child.promise = this;
this.__child.stdout._txt = '';
this.__child.stdout.on('data', function (chunk) { this._txt += chunk.toString(); });
this.__child.on('exit', function (code)
{
try
{
parseInt(this.stdout._txt);
}
catch(e)
{
this.promise.__rejector('invalid uid');
return;
}
var id = parseInt(this.stdout._txt);
this.promise.__resolver(id);
});
});
promises.push(p);
}
promise.all(promises).then(function (plist)
{
// Done
var table = {};
for(var i in plist)
{
table[plist[i].__username] = plist[i]._internal.completedArgs[0];
}
for(var i in users)
{
users[i].uid = table[users[i].Username];
}
Object.defineProperty(users, 'Active', { value: showActiveOnly(users) });
if (retVal._callback) { retVal._callback.call(retVal, users); }
}, function (reason)
{
// Failed
Object.defineProperty(users, 'Active', { value: showActiveOnly(users) });
if (retVal._callback) { retVal._callback.call(retVal, users); }
});
});
retVal._child.stdout.Parent = retVal._child;
retVal._child.stdout.on('data', function (chunk) { this.Parent._txt += chunk.toString(); });
return (retVal);
}
this._recheckLoggedInUsers = function _recheckLoggedInUsers()
{
this.enumerateUsers().then(function (u)
{
if (u.Active.length > 0)
{
// There is already a user logged in, so we can monitor DBUS for lock/unlock
if (this.parent._linux_lock_watcher != null && this.parent._linux_lock_watcher.uid != u.Active[0].uid)
{
delete this.parent._linux_lock_watcher;
}
this.parent._linux_lock_watcher = new dbus(process.env['XDG_CURRENT_DESKTOP'] == 'Unity' ? 'com.ubuntu.Upstart0_6' : 'org.gnome.ScreenSaver', u.Active[0].uid);
this.parent._linux_lock_watcher.user_session = this.parent;
this.parent._linux_lock_watcher.on('signal', function (s)
{
var p = this.user_session.enumerateUsers();
p.signalData = s.data[0];
p.then(function (u)
{
switch (this.signalData)
{
case true:
case 'desktop-lock':
this.parent.emit('locked', u.Active[0]);
break;
case false:
case 'desktop-unlock':
this.parent.emit('unlocked', u.Active[0]);
break;
}
});
});
}
else if (this.parent._linux_lock_watcher != null)
{
delete this.parent._linux_lock_watcher;
}
});
};
this.on('changed', this._recheckLoggedInUsers); // For linux Lock/Unlock monitoring, we need to watch for LogOn/LogOff, and keep track of the UID.
// First step, is to see if there is a user logged in:
this._recheckLoggedInUsers();
}
else if(process.platform == 'darwin')
{
this._users = function ()
{
var child = require('child_process').execFile('/usr/bin/dscl', ['dscl', '.', 'list', '/Users', 'UniqueID']);
child.stdout.str = '';
child.stdout.on('data', function (chunk) { this.str += chunk.toString(); });
child.stdin.write('exit\n');
child.waitExit();
var lines = child.stdout.str.split('\n');
var tokens, i;
var users = {};
for (i = 0; i < lines.length; ++i) {
tokens = lines[i].split(' ');
if (tokens[0]) { users[tokens[0]] = tokens[tokens.length - 1]; }
}
return (users);
}
this._uids = function () {
var child = require('child_process').execFile('/usr/bin/dscl', ['dscl', '.', 'list', '/Users', 'UniqueID']);
child.stdout.str = '';
child.stdout.on('data', function (chunk) { this.str += chunk.toString(); });
child.stdin.write('exit\n');
child.waitExit();
var lines = child.stdout.str.split('\n');
var tokens, i;
var users = {};
for (i = 0; i < lines.length; ++i) {
tokens = lines[i].split(' ');
if (tokens[0]) { users[tokens[tokens.length - 1]] = tokens[0]; }
}
return (users);
}
this._idTable = function()
{
var table = {};
var child = require('child_process').execFile('/usr/bin/id', ['id']);
child.stdout.str = '';
child.stdout.on('data', function (chunk) { this.str += chunk.toString(); });
child.waitExit();
var lines = child.stdout.str.split('\n')[0].split(' ');
for (var i = 0; i < lines.length; ++i) {
var types = lines[i].split('=');
var tokens = types[1].split(',');
table[types[0]] = {};
for (var j in tokens) {
var idarr = tokens[j].split('(');
var id = idarr[0];
var name = idarr[1].substring(0, idarr[1].length - 1).trim();
table[types[0]][name] = id;
table[types[0]][id] = name;
}
}
return (table);
}
this.Current = function (cb)
{
var users = {};
var table = this._idTable();
var child = require('child_process').execFile('/usr/bin/last', ['last']);
child.stdout.str = '';
child.stdout.on('data', function (chunk) { this.str += chunk.toString(); });
child.waitExit();
var lines = child.stdout.str.split('\n');
for (var i = 0; i < lines.length && lines[i].length > 0; ++i)
{
if (!users[lines[i].split(' ')[0]])
{
try
{
users[lines[i].split(' ')[0]] = { Username: lines[i].split(' ')[0], State: lines[i].split('still logged in').length > 1 ? 'Active' : 'Inactive', uid: table.uid[lines[i].split(' ')[0]] };
}
catch(e)
{}
}
else
{
if(users[lines[i].split(' ')[0]].State != 'Active' && lines[i].split('still logged in').length > 1)
{
users[lines[i].split(' ')[0]].State = 'Active';
}
}
}
Object.defineProperty(users, 'Active', { value: showActiveOnly(users) });
if (cb) { cb.call(this, users); }
}
}
if(process.platform == 'linux' || process.platform == 'darwin')
{
this._self = function _self()
{
var child = require('child_process').execFile('/usr/bin/id', ['id', '-u']);
child.stdout.str = '';
child.stdout.on('data', function (chunk) { this.str += chunk.toString(); });
child.waitExit();
return (parseInt(child.stdout.str));
}
this.isRoot = function isRoot()
{
return (this._self() == 0);
}
this.consoleUid = function consoleUid()
{
var checkstr = process.platform == 'darwin' ? 'console' : ((process.env['DISPLAY'])?process.env['DISPLAY']:':0')
var child = require('child_process').execFile('/bin/sh', ['sh']);
child.stdout.str = '';
child.stdout.on('data', function (chunk) { this.str += chunk.toString(); });
child.stdin.write('who\nexit\n');
child.waitExit();
var lines = child.stdout.str.split('\n');
var tokens, i, j;
for (i in lines)
{
tokens = lines[i].split(' ');
for (j = 1; j < tokens.length; ++j)
{
if (tokens[j].length > 0)
{
return (parseInt(this._users()[tokens[0]]));
}
}
}
throw ('nobody logged into console');
}
}
}
function showActiveOnly(source)
{
var retVal = [];
var unique = {};
var usernames = [];
var tmp;
for (var i in source)
{
if (source[i].State == 'Active')
{
retVal.push(source[i]);
tmp = (source[i].Domain ? (source[i].Domain + '\\') : '') + source[i].Username;
if (!unique[tmp]) { unique[tmp] = tmp;}
}
}
for (var i in unique)
{
usernames.push(i);
}
Object.defineProperty(retVal, 'usernames', { value: usernames });
return (retVal);
}
function getTokens(str)
{
var columns = [];
var i;
columns.push(str.substring(0, (i=str.indexOf(' '))));
while (str[++i] == ' ');
columns.push(str.substring(i, (i=str.substring(i).indexOf(' ') + i)));
while (str[++i] == ' ');
columns.push(str.substring(i, (i=str.substring(i).indexOf(' ') + i)));
while (str[++i] == ' ');
var status = str.substring(i).trim();
columns.push(status);
return (columns);
}
module.exports = new UserSessions();

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agents-new/modules_meshcmd/x/process-manager.js Normal file
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/*
Copyright 2018-2019 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.
*/
var GM = require('_GenericMarshal');
// Used on Windows and Linux to get information about running processes
function processManager() {
this._ObjectID = 'process-manager'; // Used for debugging, allows you to get the object type at runtime.
// Setup the platform specific calls.
switch (process.platform)
{
case 'win32':
this._kernel32 = GM.CreateNativeProxy('kernel32.dll');
this._kernel32.CreateMethod('GetLastError');
this._kernel32.CreateMethod('CreateToolhelp32Snapshot');
this._kernel32.CreateMethod('Process32First');
this._kernel32.CreateMethod('Process32Next');
break;
case 'linux':
case 'darwin':
this._childProcess = require('child_process');
break;
default:
throw (process.platform + ' not supported');
break;
}
this.enumerateProcesses = function enumerateProcesses()
{
var promise = require('promise');
var ret = new promise(function (res, rej) { this._res = res; this._rej = rej; });
this.getProcesses(function (ps, prom) { prom._res(ps); }, ret);
return (ret);
}
// Return a object of: pid -> process information.
this.getProcesses = function getProcesses(callback)
{
switch(process.platform)
{
default:
throw ('Enumerating processes on ' + process.platform + ' not supported');
break;
case 'win32': // Windows processes
var retVal = {};
var h = this._kernel32.CreateToolhelp32Snapshot(2, 0);
var info = GM.CreateVariable(304);
info.toBuffer().writeUInt32LE(304, 0);
var nextProcess = this._kernel32.Process32First(h, info);
while (nextProcess.Val)
{
retVal[info.Deref(8, 4).toBuffer().readUInt32LE(0)] = { pid: info.Deref(8, 4).toBuffer().readUInt32LE(0), cmd: info.Deref(GM.PointerSize == 4 ? 36 : 44, 260).String };
nextProcess = this._kernel32.Process32Next(h, info);
}
if (callback) { callback.apply(this, [retVal]); }
break;
case 'linux': // Linux processes
if (!this._psp) { this._psp = {}; }
var p = this._childProcess.execFile("/bin/ps", ["ps", "-uxa"], { type: this._childProcess.SpawnTypes.TERM });
this._psp[p.pid] = p;
p.Parent = this;
p.ps = '';
p.callback = callback;
p.args = [];
for (var i = 1; i < arguments.length; ++i) { p.args.push(arguments[i]); }
p.on('exit', function onGetProcesses()
{
delete this.Parent._psp[this.pid];
var retVal = {}, lines = this.ps.split('\x0D\x0A'), key = {}, keyi = 0;
for (var i in lines)
{
var tokens = lines[i].split(' ');
var tokenList = [];
for(var x in tokens)
{
if (i == 0 && tokens[x]) { key[tokens[x]] = keyi++; }
if (i > 0 && tokens[x]) { tokenList.push(tokens[x]);}
}
if (i > 0) {
if (tokenList[key.PID]) { retVal[tokenList[key.PID]] = { pid: key.PID, user: tokenList[key.USER], cmd: tokenList[key.COMMAND] }; }
}
}
if (this.callback)
{
this.args.unshift(retVal);
this.callback.apply(this.parent, this.args);
}
});
p.stdout.on('data', function (chunk) { this.parent.ps += chunk.toString(); });
break;
case 'darwin':
var promise = require('promise');
var p = new promise(function (res, rej) { this._res = res; this._rej = rej; });
p.pm = this;
p.callback = callback;
p.args = [];
for (var i = 1; i < arguments.length; ++i) { p.args.push(arguments[i]); }
p.child = this._childProcess.execFile("/bin/ps", ["ps", "-xa"]);
p.child.promise = p;
p.child.stdout.ps = '';
p.child.stdout.on('data', function (chunk) { this.ps += chunk.toString(); });
p.child.on('exit', function ()
{
var lines = this.stdout.ps.split('\n');
var pidX = lines[0].split('PID')[0].length + 3;
var cmdX = lines[0].split('CMD')[0].length;
var ret = {};
for (var i = 1; i < lines.length; ++i)
{
if (lines[i].length > 0)
{
ret[lines[i].substring(0, pidX).trim()] = { pid: lines[i].substring(0, pidX).trim(), cmd: lines[i].substring(cmdX) };
}
}
this.promise._res(ret);
});
p.then(function (ps)
{
this.args.unshift(ps);
this.callback.apply(this.pm, this.args);
});
break;
}
};
// Get information about a specific process on Linux
this.getProcessInfo = function getProcessInfo(pid)
{
switch(process.platform)
{
default:
throw ('getProcessInfo() not supported for ' + process.platform);
break;
case 'linux':
var status = require('fs').readFileSync('/proc/' + pid + '/status');
var info = {};
var lines = status.toString().split('\n');
for(var i in lines)
{
var tokens = lines[i].split(':');
if (tokens.length > 1) { tokens[1] = tokens[1].trim(); }
info[tokens[0]] = tokens[1];
}
return (info);
break;
}
};
}
module.exports = new processManager();