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Updated to use singleton for PTHI

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This commit is contained in:
Bryan Roe 2021-07-14 09:41:14 -07:00
parent 9af56c43fa
commit 521603053b
2 changed files with 280 additions and 291 deletions
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221
agents/modules_meshcmd/amt-mei.js
View File

@ -1,5 +1,5 @@
/*
Copyright 2018-2021 Intel Corporation
Copyright 2018-2020 Intel Corporation
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
@ -15,7 +15,10 @@ limitations under the License.
*/
var Q = require('queue');
function amt_heci() {
var g_internal = null;
function amt_heci()
{
var emitterUtils = require('events').inherits(this);
emitterUtils.createEvent('error');
@ -23,19 +26,31 @@ function amt_heci() {
var sendConsole = function (msg) { try { require('MeshAgent').SendCommand({ "action": "msg", "type": "console", "value": msg }); } catch (ex) { } }
this._ObjectID = "pthi";
this._rq = new Q();
this._setupPTHI = function _setupPTHI() {
var that = this;
if (g_internal == null)
{
g_internal = { _rq: new Q(), _amt: null };
g_internal._setupPTHI = function _g_setupPTHI()
{
console.info1('setupPTHI()');
this._amt = heci.create();
this._amt.descriptorMetadata = "amt-pthi";
this._amt.BiosVersionLen = 65;
this._amt.UnicodeStringLen = 20;
this._amt.Parent = that;
this._amt.Parent = this;
this._amt.on('error', function _amtOnError(e) {
if (this.Parent._rq.isEmpty()) {
this._amt.on('error', function _amtOnError(e)
{
console.info1('PTHIError: ' + e);
if (this.Parent._rq.isEmpty())
{
console.info1(' Queue is empty');
this.Parent.emit('error', e); // No pending requests, so propagate the error up
}
else {
else
{
console.info1(' Queue is NOT empty');
// There is a pending request, so fail the pending request
var user = this.Parent._rq.deQueue();
var params = user.optional;
@ -43,40 +58,54 @@ function amt_heci() {
params.unshift({ Status: -1 }); // Relay an error
callback.apply(this.Parent, params);
if (!this.Parent._rq.isEmpty()) {
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) {
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);
console.info1("CMD = " + header.Command + " (Status: " + header.Status + ") Response = " + header.IsResponse);
var user = this.Parent._rq.deQueue();
var user = g_internal._rq.deQueue();
var params = user.optional;
var callback = user.func;
params.unshift(header);
callback.apply(this.Parent, params);
if (this.Parent._rq.isEmpty()) {
if (g_internal._rq.isEmpty())
{
console.info1('No more requests, disconnecting');
// No More Requests, we can close PTHI
this.Parent._amt.disconnect();
this.Parent._amt = null;
g_internal._amt.disconnect();
g_internal._amt = null;
}
else {
else
{
// Send the next request
this.write(this.Parent._rq.peekQueue().send);
console.info1('Sending Next Request');
this.write(g_internal._rq.peekQueue().send);
}
});
// Start sending requests
this.write(this.Parent._rq.peekQueue().send);
this.write(g_internal._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);
@ -84,19 +113,30 @@ function amt_heci() {
return (ret);
};
this.sendCommand = function sendCommand() {
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]); }
console.info1('sendCommand(' + arguments[0] + ')', this._hashCode());
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._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 });
//}
g_internal._rq.enQueue({ cmd: arguments[0], func: arguments[2], optional: args, send: (arguments[1] == null ? header : Buffer.concat([header, arguments[1]])) });
if (!g_internal._amt)
{
g_internal._setupPTHI();
g_internal._amt.connect(heci.GUIDS.AMT, { noPipeline: 1 });
}
}
@ -105,10 +145,11 @@ function amt_heci() {
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));
var i, CodeVersion = header.Data, val = { BiosVersion: CodeVersion.slice(0, g_internal._amt.BiosVersionLen).toString(), Versions: [] }, v = CodeVersion.slice(g_internal._amt.BiosVersionLen + 4);
for (i = 0; i < CodeVersion.readUInt32LE(g_internal._amt.BiosVersionLen) ; ++i)
{
val.Versions[i] = { Description: v.slice(2, v.readUInt16LE(0) + 2).toString(), Version: v.slice(4 + g_internal._amt.UnicodeStringLen, 4 + g_internal._amt.UnicodeStringLen + v.readUInt16LE(2 + g_internal._amt.UnicodeStringLen)).toString() };
v = v.slice(4 + (2 * g_internal._amt.UnicodeStringLen));
}
if (val.BiosVersion.indexOf('\0') > 0) { val.BiosVersion = val.BiosVersion.substring(0, val.BiosVersion.indexOf('\0')); }
opt.unshift(val);
@ -291,27 +332,34 @@ function amt_heci() {
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) {
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 {
else
{
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
}
this.getLanInterfaceSettings = function getLanInterfaceSettings(index, callback) {
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) {
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]) {
switch(header.Data[12])
{
case 1:
info.dhcpMode = 'ACTIVE'
break;
@ -329,7 +377,8 @@ function amt_heci() {
opt.unshift(info);
fn.apply(this, opt);
}
else {
else
{
opt.unshift(null);
fn.apply(this, opt);
}
@ -346,32 +395,32 @@ function amt_heci() {
fn.apply(this, opt);
}, callback, optional);
}
this.startConfiguration = function startConfiguration(callback) {
this.startConfiguration = function startConfiguration() {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x29, null, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, 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(callback) {
this.stopConfiguration = function stopConfiguration() {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x5E, null, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, 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(callback) {
this.openUserInitiatedConnection = function openUserInitiatedConnection() {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x44, null, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, 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(callback) {
this.closeUserInitiatedConnection = function closeUnserInitiatedConnected() {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x45, null, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, 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(callback) {
this.getRemoteAccessConnectionStatus = function getRemoteAccessConnectionStatus() {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x46, null, function (header, fn, opt) {
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 = header.Data.slice(14, header.Data.readUInt16LE(12) + 14).toString()
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 });
@ -379,81 +428,27 @@ function amt_heci() {
fn.apply(this, opt);
}, callback, optional);
}
this.getProtocolVersion = function getProtocolVersion(callback) {
this.getProtocolVersion = function getProtocolVersion(callback)
{
var optional = [];
for (var i = 1; i < arguments.length; ++i) { opt.push(arguments[i]); }
if (!this._tmpSession) { this._tmpSession = heci.create(); this._tmpSession.parent = this; }
this._tmpSession.doIoctl(heci.IOCTL.HECI_VERSION, Buffer.alloc(5), Buffer.alloc(5), function (status, buffer, self, fn, opt) {
if (!this._tmpSession) { this._tmpSession = heci.create(); this._tmpSession.parent = this;}
this._tmpSession.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 {
else
{
opt.unshift(null);
fn.apply(self, opt);
}
}, this, callback, optional);
}
this.startConfigurationHBased = function startConfigurationHBased(certHash, hostVpn, dnsSuffixList, func) {
if ((certHash == null) || ((certHash.length != 32) && (certHash.length != 48))) { func({ status: -101 }); }
this.stopConfiguration(function (status) {
if (status == 0) {
// We stopped the configuration, wait 20 seconds before starting up again.
var f = function tf() { delete tf.parent.xtimeout; tf.parent.startConfigurationHBasedEx(certHash, hostVpn, dnsSuffixList, func); }
f.parent = this;
this.xtimeout = setTimeout(f, 20000);
} else {
// We are not in the connect mode, this is good, start configuration right away.
this.startConfigurationHBasedEx(certHash, hostVpn, dnsSuffixList, func);
}
})
}
this.startConfigurationHBasedEx = function startConfigurationHBased(certHash, hostVpn, dnsSuffixList, func) {
var optional = [];
for (var i = 4; i < arguments.length; ++i) { optional.push(arguments[i]); }
// Format the command
var data = Buffer.alloc(4 + 64 + 4 + 4 + 320);
data.writeUInt32LE((certHash.length == 48) ? 3 : 2, 0); // Write certificate hash type: SHA256 = 2, SHA384 = 3
certHash.copy(data, 4); // Write the hash
data.writeUInt32LE(hostVpn ? 1 : 0, 68); // Write is HostVPN is enabled
if (dnsSuffixList != null) {
data.writeUInt32LE(dnsSuffixList.length, 72); // Write the number of DNS Suffix, from 0 to 4
var ptr = 76;
for (var i = 0; i < dnsSuffixList.length; i++) { ptr += data.write(dnsSuffixList[i], ptr) + 1; } // Write up to 4 DNS Suffix with null seperation.
}
// Send the command
this.sendCommand(139, data, function (header, fn, opt) {
if (header.Status == 0) {
var amtHash = null;
if (header.Data[0] == 2) { amtHash = header.Data.slice(1, 33); } // SHA256
if (header.Data[0] == 3) { amtHash = header.Data.slice(1, 49); } // SHA384
opt.unshift({ status: header.Status, hash: amtHash.toString('hex') });
} else {
opt.unshift({ status: header.Status });
}
fn.apply(this, opt);
}, func, optional);
}
}
module.exports = amt_heci;
/*
AMT_STATUS_SUCCESS = 0,
AMT_STATUS_INTERNAL_ERROR = 1,
AMT_STATUS_INVALID_AMT_MODE = 3,
AMT_STATUS_INVALID_MESSAGE_LENGTH = 4,
AMT_STATUS_MAX_LIMIT_REACHED = 23,
AMT_STATUS_INVALID_PARAMETER = 36,
AMT_STATUS_RNG_GENERATION_IN_PROGRESS = 47,
AMT_STATUS_RNG_NOT_READY = 48,
AMT_STATUS_CERTIFICATE_NOT_READY = 49,
AMT_STATUS_INVALID_HANDLE = 2053
AMT_STATUS_NOT_FOUND = 2068,
*/

222
agents/modules_meshcore/amt-mei.js
View File

@ -1,5 +1,5 @@
/*
Copyright 2018-2021 Intel Corporation
Copyright 2018-2020 Intel Corporation
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
@ -15,7 +15,10 @@ limitations under the License.
*/
var Q = require('queue');
function amt_heci() {
var g_internal = null;
function amt_heci()
{
var emitterUtils = require('events').inherits(this);
emitterUtils.createEvent('error');
@ -23,19 +26,31 @@ function amt_heci() {
var sendConsole = function (msg) { try { require('MeshAgent').SendCommand({ "action": "msg", "type": "console", "value": msg }); } catch (ex) { } }
this._ObjectID = "pthi";
this._rq = new Q();
this._setupPTHI = function _setupPTHI() {
var that = this;
if (g_internal == null)
{
g_internal = { _rq: new Q(), _amt: null };
g_internal._setupPTHI = function _g_setupPTHI()
{
console.info1('setupPTHI()');
this._amt = heci.create();
this._amt.descriptorMetadata = "amt-pthi";
this._amt.BiosVersionLen = 65;
this._amt.UnicodeStringLen = 20;
this._amt.Parent = that;
this._amt.Parent = this;
this._amt.on('error', function _amtOnError(e) {
if (this.Parent._rq.isEmpty()) {
this._amt.on('error', function _amtOnError(e)
{
console.info1('PTHIError: ' + e);
if (this.Parent._rq.isEmpty())
{
console.info1(' Queue is empty');
this.Parent.emit('error', e); // No pending requests, so propagate the error up
}
else {
else
{
console.info1(' Queue is NOT empty');
// There is a pending request, so fail the pending request
var user = this.Parent._rq.deQueue();
var params = user.optional;
@ -43,40 +58,54 @@ function amt_heci() {
params.unshift({ Status: -1 }); // Relay an error
callback.apply(this.Parent, params);
if (!this.Parent._rq.isEmpty()) {
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) {
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);
console.info1("CMD = " + header.Command + " (Status: " + header.Status + ") Response = " + header.IsResponse);
var user = this.Parent._rq.deQueue();
var user = g_internal._rq.deQueue();
var params = user.optional;
var callback = user.func;
params.unshift(header);
callback.apply(this.Parent, params);
if (this.Parent._rq.isEmpty()) {
if (g_internal._rq.isEmpty())
{
console.info1('No more requests, disconnecting');
// No More Requests, we can close PTHI
this.Parent._amt.disconnect();
this.Parent._amt = null;
g_internal._amt.disconnect();
g_internal._amt = null;
}
else {
else
{
// Send the next request
this.write(this.Parent._rq.peekQueue().send);
console.info1('Sending Next Request');
this.write(g_internal._rq.peekQueue().send);
}
});
// Start sending requests
this.write(this.Parent._rq.peekQueue().send);
this.write(g_internal._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);
@ -84,19 +113,30 @@ function amt_heci() {
return (ret);
};
this.sendCommand = function sendCommand() {
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]); }
console.info1('sendCommand(' + arguments[0] + ')', this._hashCode());
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._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 });
//}
g_internal._rq.enQueue({ cmd: arguments[0], func: arguments[2], optional: args, send: (arguments[1] == null ? header : Buffer.concat([header, arguments[1]])) });
if (!g_internal._amt)
{
g_internal._setupPTHI();
g_internal._amt.connect(heci.GUIDS.AMT, { noPipeline: 1 });
}
}
@ -105,10 +145,11 @@ function amt_heci() {
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));
var i, CodeVersion = header.Data, val = { BiosVersion: CodeVersion.slice(0, g_internal._amt.BiosVersionLen).toString(), Versions: [] }, v = CodeVersion.slice(g_internal._amt.BiosVersionLen + 4);
for (i = 0; i < CodeVersion.readUInt32LE(g_internal._amt.BiosVersionLen) ; ++i)
{
val.Versions[i] = { Description: v.slice(2, v.readUInt16LE(0) + 2).toString(), Version: v.slice(4 + g_internal._amt.UnicodeStringLen, 4 + g_internal._amt.UnicodeStringLen + v.readUInt16LE(2 + g_internal._amt.UnicodeStringLen)).toString() };
v = v.slice(4 + (2 * g_internal._amt.UnicodeStringLen));
}
if (val.BiosVersion.indexOf('\0') > 0) { val.BiosVersion = val.BiosVersion.substring(0, val.BiosVersion.indexOf('\0')); }
opt.unshift(val);
@ -291,27 +332,34 @@ function amt_heci() {
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) {
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 {
else
{
opt.unshift(null);
}
fn.apply(this, opt);
}, callback, optional);
}
this.getLanInterfaceSettings = function getLanInterfaceSettings(index, callback) {
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) {
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]) {
switch(header.Data[12])
{
case 1:
info.dhcpMode = 'ACTIVE'
break;
@ -329,7 +377,8 @@ function amt_heci() {
opt.unshift(info);
fn.apply(this, opt);
}
else {
else
{
opt.unshift(null);
fn.apply(this, opt);
}
@ -346,32 +395,32 @@ function amt_heci() {
fn.apply(this, opt);
}, callback, optional);
}
this.startConfiguration = function startConfiguration(callback) {
this.startConfiguration = function startConfiguration() {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x29, null, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, 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(callback) {
this.stopConfiguration = function stopConfiguration() {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x5E, null, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, 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(callback) {
this.openUserInitiatedConnection = function openUserInitiatedConnection() {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x44, null, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, 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(callback) {
this.closeUserInitiatedConnection = function closeUnserInitiatedConnected() {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x45, null, function (header, fn, opt) { opt.unshift(header.Status); fn.apply(this, opt); }, callback, 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(callback) {
this.getRemoteAccessConnectionStatus = function getRemoteAccessConnectionStatus() {
var optional = [];
for (var i = 1; i < arguments.length; ++i) { optional.push(arguments[i]); }
this.sendCommand(0x46, null, function (header, fn, opt) {
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 = header.Data.slice(14, header.Data.readUInt16LE(12) + 14).toString()
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 });
@ -379,82 +428,27 @@ function amt_heci() {
fn.apply(this, opt);
}, callback, optional);
}
this.getProtocolVersion = function getProtocolVersion(callback) {
this.getProtocolVersion = function getProtocolVersion(callback)
{
var optional = [];
for (var i = 1; i < arguments.length; ++i) { opt.push(arguments[i]); }
if (!this._tmpSession) { this._tmpSession = heci.create(); this._tmpSession.parent = this; }
this._tmpSession.doIoctl(heci.IOCTL.HECI_VERSION, Buffer.alloc(5), Buffer.alloc(5), function (status, buffer, self, fn, opt) {
if (!this._tmpSession) { this._tmpSession = heci.create(); this._tmpSession.parent = this;}
this._tmpSession.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 {
else
{
opt.unshift(null);
fn.apply(self, opt);
}
}, this, callback, optional);
}
this.startConfigurationHBased = function startConfigurationHBased(certHash, hostVpn, dnsSuffixList, func) {
if ((certHash == null) || ((certHash.length != 32) && (certHash.length != 48))) { func({ status: -101 }); }
this.stopConfiguration(function (status) {
if (status == 0) {
// We stopped the configuration, wait 20 seconds before starting up again.
var f = function tf() { delete tf.parent.xtimeout; tf.parent.startConfigurationHBasedEx(certHash, hostVpn, dnsSuffixList, func); }
f.parent = this;
this.xtimeout = setTimeout(f, 20000);
} else {
// We are not in the connect mode, this is good, start configuration right away.
this.startConfigurationHBasedEx(certHash, hostVpn, dnsSuffixList, func);
}
})
}
this.startConfigurationHBasedEx = function startConfigurationHBased(certHash, hostVpn, dnsSuffixList, func) {
var optional = [];
for (var i = 4; i < arguments.length; ++i) { optional.push(arguments[i]); }
// Format the command
var len = 1 + 64 + 4 + 4;
if (dnsSuffixList != null) { len += 320; }
var data = Buffer.alloc(len);
data[0] = (certHash.length == 48) ? 3 : 2; // Write certificate hash type: SHA256 = 2, SHA384 = 3
certHash.copy(data, 1); // Write the hash
data.writeUInt32LE(hostVpn ? 1 : 0, 65); // Write is HostVPN is enabled
if (dnsSuffixList != null) {
data.writeUInt32LE(dnsSuffixList.length, 69); // Write the number of DNS Suffix, from 0 to 4
var ptr = 73;
for (var i = 0; i < dnsSuffixList.length; i++) { ptr += data.write(dnsSuffixList[i], ptr) + 1; } // Write up to 4 DNS Suffix with null seperation.
}
// Send the command
this.sendCommand(139, data, function (header, fn, opt) {
if ((header.Status == 0) && (header.Data != null)) {
var amtHash = null;
if (header.Data[0] == 2) { amtHash = header.Data.slice(1, 33); } // SHA256
if (header.Data[0] == 3) { amtHash = header.Data.slice(1, 49); } // SHA384
opt.unshift({ status: header.Status, hash: amtHash.toString('hex') });
} else {
opt.unshift({ status: header.Status });
}
fn.apply(this, opt);
}, func, optional);
}
}
module.exports = amt_heci;
/*
AMT_STATUS_SUCCESS = 0,
AMT_STATUS_INTERNAL_ERROR = 1,
AMT_STATUS_INVALID_AMT_MODE = 3,
AMT_STATUS_INVALID_MESSAGE_LENGTH = 4,
AMT_STATUS_MAX_LIMIT_REACHED = 23,
AMT_STATUS_INVALID_PARAMETER = 36,
AMT_STATUS_RNG_GENERATION_IN_PROGRESS = 47,
AMT_STATUS_RNG_NOT_READY = 48,
AMT_STATUS_CERTIFICATE_NOT_READY = 49,
AMT_STATUS_INVALID_HANDLE = 2053
AMT_STATUS_NOT_FOUND = 2068,
*/