Added MeshCMD AmtNetwork command

This commit is contained in:
Ylian Saint-Hilaire 2019-07-15 14:45:36 -07:00
parent cb38a3ed1a
commit 6c0751ac82
5 changed files with 307 additions and 55 deletions

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@ -46,6 +46,7 @@ var oswsstack = null, osamtstack = null;
var amtMeiTmpState = null;
var SMBiosTables = null;
var globalDebugFlags = 0; // 1 = IDER Debug
var pendingAmtConfigActions = 0;
const RCSMessageProtocolVersion = 1; // RCS Message Protocol Version. Needs to be less than or equal to RCS server Message Protocol Version
// MeshCommander for Firmware (GZIP'ed, Base64) v0.7.8
@ -113,7 +114,7 @@ function run(argv) {
//console.log('addedModules = ' + JSON.stringify(addedModules));
var actionpath = 'meshaction.txt';
if (args.actionfile != null) { actionpath = args.actionfile; }
var actions = ['HELP', 'ROUTE', 'MICROLMS', 'AMTPOWER', 'AMTFEATURES', 'AMTLOADWEBAPP', 'AMTLOADSMALLWEBAPP', 'AMTLOADLARGEWEBAPP', 'AMTCLEARWEBAPP', 'AMTSTORAGESTATE', 'AMTINFO', 'AMTINFODEBUG', 'AMTVERSIONS', 'AMTHASHES', 'AMTSAVESTATE', 'AMTSCRIPT', 'AMTUUID', 'AMTCCM', 'AMTACM', 'AMTDEACTIVATE', 'AMTACMDEACTIVATE', 'SMBIOS', 'RAWSMBIOS', 'MESHCOMMANDER', 'AMTAUDITLOG', 'AMTPRESENCE'];
var actions = ['HELP', 'ROUTE', 'MICROLMS', 'AMTPOWER', 'AMTFEATURES', 'AMTNETWORK', 'AMTLOADWEBAPP', 'AMTLOADSMALLWEBAPP', 'AMTLOADLARGEWEBAPP', 'AMTCLEARWEBAPP', 'AMTSTORAGESTATE', 'AMTINFO', 'AMTINFODEBUG', 'AMTVERSIONS', 'AMTHASHES', 'AMTSAVESTATE', 'AMTSCRIPT', 'AMTUUID', 'AMTCCM', 'AMTACM', 'AMTDEACTIVATE', 'AMTACMDEACTIVATE', 'SMBIOS', 'RAWSMBIOS', 'MESHCOMMANDER', 'AMTAUDITLOG', 'AMTPRESENCE'];
// Load the action file
var actionfile = null;
@ -190,6 +191,7 @@ function run(argv) {
console.log(' AmtScript - Run .mescript on Intel AMT.');
console.log(' AmtIDER - Mount local disk image to remote computer.');
console.log(' AmtFeatures - Intel AMT features & user consent.');
console.log(' AmtNetwork - Intel AMT network interface settings.');
console.log('\r\nHelp on a specific action using:\r\n');
console.log(' meshcmd help [action]');
exit(1); return;
@ -300,12 +302,27 @@ function run(argv) {
} else if (action == 'amtpower') {
console.log('AmtPower will get current pwoer state or send a reboot command to a remote Intel AMT device. Example usage:\r\n\r\n meshcmd amtpower --reset --host 1.2.3.4 --user admin --pass mypassword --tls');
console.log('\r\nRequired arguments:\r\n');
console.log(' --host [hostname] The IP address or DNS name of Intel AMT, 127.0.0.1 is default.');
console.log(' --host [hostname] The IP address or DNS name of Intel AMT.');
console.log(' --pass [password] The Intel AMT login password.');
console.log('\r\nOptional arguments:\r\n');
console.log(' --reset, --poweron, --poweroff, --powercycle, --sleep, --hibernate');
console.log(' --user [username] The Intel AMT login username, admin is default.');
console.log(' --tls Specifies that TLS must be used.');
} else if (action == 'amtnetwork') {
console.log('AmtNetwork is used to get/set Intel AMT network interface configuration. Example usage:\r\n\r\n meshcmd amtnetwork --host 1.2.3.4 --user admin --pass mypassword --dhcp');
console.log('\r\nRequired arguments:\r\n');
console.log(' --host [hostname] The IP address or DNS name of Intel AMT, 127.0.0.1 is default.');
console.log(' --pass [password] The Intel AMT login password.');
console.log('\r\nOptional arguments:\r\n');
console.log(' --user [username] The Intel AMT login username, admin is default.');
console.log(' --tls Specifies that TLS must be used.');
console.log(' --dhcp Change IPv4 wired interface to DHCP mode');
console.log(' --static Change IPv4 wired interface to static IP mode');
console.log(' --ip [1.2.3.4] Static IPv4 address (required)');
console.log(' --subnet [1.2.3.4] Static IPv4 subnet mask');
console.log(' --gateway [1.2.3.4] Static IPv4 default gateway');
console.log(' --dns [1.2.3.4] Primary DNS IPv4 address');
console.log(' --dns2 [1.2.3.4] Secondary DNS IPv4 address');
} else if (action == 'amtfeatures') {
console.log('AmtFeatures is used to get/set Intel AMT feature configuration. Example usage:\r\n\r\n meshcmd amtfeatures --host 1.2.3.4 --user admin --pass mypassword --tls --redir 1');
console.log('\r\nRequired arguments:\r\n');
@ -596,8 +613,13 @@ function run(argv) {
if ((settings.cdrom == null) || (typeof settings.cdrom != 'string') || (settings.cdrom == '')) { settings.cdrom = null; }
if ((settings.floppy == null) && (settings.cdrom == null)) { console.log('No or invalid \"floppy\" or \"cdrom\" specified, use --floppy [file] or --cdrom [file].'); exit(1); return; }
performIder();
} else if (settings.action == 'amtnetwork') { // Perform remote Intel AMT wired IPv4 configuration operation
if (settings.hostname == null) { settings.hostname = '127.0.0.1'; }
if ((settings.password == null) || (typeof settings.password != 'string') || (settings.password == '')) { console.log('No or invalid \"password\" specified, use --password [password].'); exit(1); return; }
if ((settings.username == null) || (typeof settings.username != 'string') || (settings.username == '')) { settings.username = 'admin'; }
performAmtNetConfig(args);
} else if (settings.action == 'amtfeatures') { // Perform remote Intel AMT feature configuration operation
if ((settings.hostname == null) || (typeof settings.hostname != 'string') || (settings.hostname == '')) { console.log('No or invalid \"hostname\" specified, use --hostname [host].'); exit(1); return; }
if (settings.hostname == null) { settings.hostname = '127.0.0.1'; }
if ((settings.password == null) || (typeof settings.password != 'string') || (settings.password == '')) { console.log('No or invalid \"password\" specified, use --password [password].'); exit(1); return; }
if ((settings.username == null) || (typeof settings.username != 'string') || (settings.username == '')) { settings.username = 'admin'; }
performAmtFeatureConfig(args);
@ -1374,11 +1396,11 @@ var lmsNotifications = [];
var amtLms = null;
var promise = require('promise');
function startLms(func, lmscommander) {
function startLms(func, lmscommander, tag) {
var ret = new promise(function (res, rej) { this._res = res; this._rej = rej; });
var lme_heci = null
try { lme_heci = require('amt-lme'); } catch (ex) { }
if (lme_heci == null) { if (func != null) { func(func, 0); } this.promise._res(); return; }
if (lme_heci == null) { if (func != null) { func(0, tag); } this.promise._res(); return; }
//var amtLms = null;
var http = require('http');
@ -1396,10 +1418,10 @@ function startLms(func, lmscommander) {
if (lmscommander === true) { //settings.noconsole !== true) {
startMeshCommanderLms();
//console.log("LMS started, MeshCommander on HTTP/16994.");
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 2); }, 100);
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 2, tag); }, 100);
} else {
//console.log('LME connection failed: ' + JSON.stringify(e));
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 0); }, 100);
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 0, tag); }, 100);
}
this.promise._res();
});
@ -1425,11 +1447,11 @@ function startLms(func, lmscommander) {
if (settings.noconsole !== true) {
startMeshCommanderLms();
//console.log("LMS started, MeshCommander on HTTP/16994.");
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 2); }, 100);
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 2, tag); }, 100);
//console.logReferenceCount(tempTimer);
} else {
//console.log("LMS started.");
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 1); }, 100);
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 1, tag); }, 100);
//console.logReferenceCount(tempTimer);
}
@ -1500,9 +1522,9 @@ function startMeshCommanderLms() {
});
}
function setupMeiOsAdmin(func, state) {
function setupMeiOsAdmin(func, state, tag) {
if (amtMei == null) {
if (func) { func(state); }
if (func) { func(state, tag); }
} else {
amtMei.getLocalSystemAccount(function (x) {
var transport = require('amt-wsman-duk');
@ -1510,7 +1532,7 @@ function setupMeiOsAdmin(func, state) {
var amt = require('amt');
oswsstack = new wsman(transport, '127.0.0.1', 16992, x.user, x.pass, false);
osamtstack = new amt(oswsstack);
if (func) { func(state); }
if (func) { func(state, tag); }
//var AllWsman = "CIM_SoftwareIdentity,IPS_SecIOService,IPS_ScreenSettingData,IPS_ProvisioningRecordLog,IPS_HostBasedSetupService,IPS_HostIPSettings,IPS_IPv6PortSettings".split(',');
//osamtstack.BatchEnum(null, AllWsman, startLmsWsmanResponse, null, true);
@ -2088,11 +2110,116 @@ function iderSectorStats(mode, dev, mediaBlocks, lba, len) {
iderIdleTimer = setTimeout(function () { console.log('Idle timeout'); process.exit(1); }, 1000 * settings.timeout);
}
//
// Intel AMT IPv4 wired configuration
//
function performAmtNetConfig(args) {
if ((settings.hostname == '127.0.0.1') || (settings.hostname.toLowerCase() == 'localhost')) {
settings.noconsole = true; startLms(performAmtNetConfig0, false, args);
} else {
performAmtNetConfig0(1, args);
}
}
function performAmtNetConfig0(state, args) {
var transport = require('amt-wsman-duk');
var wsman = require('amt-wsman');
var amt = require('amt');
wsstack = new wsman(transport, settings.hostname, settings.tls ? 16993 : 16992, settings.username, settings.password, settings.tls);
amtstack = new amt(wsstack);
amtstack.BatchEnum(null, ['AMT_EthernetPortSettings'], performAmtNetConfig1, args);
}
function performAmtNetConfig1(stack, name, response, status, args) {
if (status == 200) {
// Set wired and wireless interfaces
var amtwirelessif = -1;
var amtwiredif = -1;
for (var y in response['AMT_EthernetPortSettings'].responses) {
var z = response['AMT_EthernetPortSettings'].responses[y];
if (z['WLANLinkProtectionLevel'] || (y == 1)) { amtwirelessif = y; } // Set the wireless interface, this seems to cover new wireless only computers and older computers with dual interfaces.
if (y == 0) { if ((amtwirelessif != y) && (z["MACAddress"] != "00-00-00-00-00-00")) { amtwiredif = y; } } // On computers with only wireless, the wired interface will have a null MAC
}
// Check if configuration change is required
if (args) {
if (args.dhcp && (amtwiredif != -1) && (response['AMT_EthernetPortSettings'].responses[amtwiredif].DHCPEnabled == false)) {
// Change to DHCP
pendingAmtConfigActions++;
var x = response['AMT_EthernetPortSettings'].responses[amtwiredif];
x['DHCPEnabled'] = true;
delete x["IPAddress"];
delete x["SubnetMask"];
delete x["DefaultGateway"];
delete x["PrimaryDNS"];
delete x["SecondaryDNS"];
amtstack.Put("AMT_EthernetPortSettings", x, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtNetConfig0(); } });
}
else if (args.static && (amtwiredif != -1) && (response['AMT_EthernetPortSettings'].responses[amtwiredif].DHCPEnabled == true)) {
// Change to STATIC
pendingAmtConfigActions++;
var x = response['AMT_EthernetPortSettings'].responses[amtwiredif];
x['DHCPEnabled'] = false;
delete x["IPAddress"];
delete x["SubnetMask"];
delete x["DefaultGateway"];
delete x["PrimaryDNS"];
delete x["SecondaryDNS"];
if (args.ip) { x["IPAddress"] = args.ip; } else { console.log('Missing IPv4 address, use --ip 1.2.3.4'); process.exit(1); }
if (args.subnet) { x["SubnetMask"] = args.subnet; } else { console.log('Missing IPv4 subnet, use --subnet 255.255.255.0'); process.exit(1); }
if (args.gateway) { x["DefaultGateway"] = args.gateway; }
if (args.dns) { x["PrimaryDNS"] = args.dns; }
if (args.dns2) { x["SecondaryDNS"] = args.dns2; }
amtstack.Put("AMT_EthernetPortSettings", x, function (stack, name, response, status) { console.log(status); if (--pendingAmtConfigActions == 0) { performAmtNetConfig0(); } });
}
}
if (pendingAmtConfigActions == 0) {
if (amtwiredif != -1) { // Wired
var z = response['AMT_EthernetPortSettings'].responses[amtwiredif];
console.log('--WIRED---');
for (var i in z) {
if (['ElementName', 'InstanceID'].indexOf(i) == -1) {
var name = i;
while (name.length < 16) { name += ' '; }
console.log(name + ': ' + z[i]);
}
}
}
if (amtwirelessif != -1) { // Wireless
var z = response['AMT_EthernetPortSettings'].responses[amtwirelessif];
console.log('--WIRELESS---');
for (var i in z) {
if (['ElementName', 'InstanceID'].indexOf(i) == -1) {
var name = i;
while (name.length < 16) { name += ' '; }
console.log(name + ': ' + z[i]);
}
}
}
process.exit(0);
}
} else {
console.log('Error, status ' + status + '.');
process.exit(1);
}
}
//
// Intel AMT feature configuration action
//
function performAmtFeatureConfig(args) {
if ((settings.hostname == '127.0.0.1') || (settings.hostname.toLowerCase() == 'localhost')) {
settings.noconsole = true; startLms(performAmtFeatureConfig0, false, args);
} else {
performAmtFeatureConfig0(1, args);
}
}
function performAmtFeatureConfig0(state, args) {
var transport = require('amt-wsman-duk');
var wsman = require('amt-wsman');
var amt = require('amt');
@ -2101,7 +2228,6 @@ function performAmtFeatureConfig(args) {
amtstack.BatchEnum(null, ['*IPS_OptInService', '*AMT_RedirectionService', '*CIM_KVMRedirectionSAP'], performAmtFeatureConfig1, args);
}
var pendingAmtConfigActions = 0;
function performAmtFeatureConfig1(stack, name, response, status, args) {
if (status == 200) {
// User consent
@ -2110,17 +2236,17 @@ function performAmtFeatureConfig1(stack, name, response, status, args) {
if ((args.userconsent == 'none') && (optinrequired != 0)) {
pendingAmtConfigActions++;
response['IPS_OptInService'].response["OptInRequired"] = 0;
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } });
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } });
}
else if ((args.userconsent == 'kvm') && (optinrequired != 1)) {
pendingAmtConfigActions++;
response['IPS_OptInService'].response["OptInRequired"] = 1;
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } });
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } });
}
else if ((args.userconsent == 'all') && (optinrequired != 0xFFFFFFFF)) {
pendingAmtConfigActions++;
response['IPS_OptInService'].response["OptInRequired"] = 0xFFFFFFFF;
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } });
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } });
}
}
@ -2138,8 +2264,8 @@ function performAmtFeatureConfig1(stack, name, response, status, args) {
if ((sol == true) && ((args.sol == 'disabled') || (args.sol == 0))) { sol = false; redirchange = true; }
if ((ider == false) && ((args.ider == 'enabled') || (args.ider == 1))) { ider = true; redirchange = true; }
if ((ider == true) && ((args.ider == 'disabled') || (args.ider == 0))) { ider = false; redirchange = true; }
if (redirportchange) { pendingAmtConfigActions++; amtstack.Put("AMT_RedirectionService", response['AMT_RedirectionService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } }); }
if (redirchange) { pendingAmtConfigActions++; amtstack.AMT_RedirectionService_RequestStateChange((32768 + ((ider ? 1 : 0) + (sol ? 2 : 0))), function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } }); }
if (redirportchange) { pendingAmtConfigActions++; amtstack.Put("AMT_RedirectionService", response['AMT_RedirectionService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } }); }
if (redirchange) { pendingAmtConfigActions++; amtstack.AMT_RedirectionService_RequestStateChange((32768 + ((ider ? 1 : 0) + (sol ? 2 : 0))), function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } }); }
}
// KVM
@ -2150,19 +2276,19 @@ function performAmtFeatureConfig1(stack, name, response, status, args) {
if (args) {
if ((kvm == false) && ((args.kvm == 'enabled') || (args.kvm == 1))) { kvm = true; kvmchange = true; }
if ((kvm == true) && ((args.kvm == 'disabled') || (args.kvm == 0))) { kvm = false; kvmchange = true; }
if (kvmchange) { pendingAmtConfigActions++; amtstack.CIM_KVMRedirectionSAP_RequestStateChange(kvm ? 2 : 3, 0, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } }); }
if (kvmchange) { pendingAmtConfigActions++; amtstack.CIM_KVMRedirectionSAP_RequestStateChange(kvm ? 2 : 3, 0, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } }); }
}
}
if (pendingAmtConfigActions == 0) {
if (optinrequired == 0) { console.log('User Consent: None'); }
else if (optinrequired == 1) { console.log('User Consent: KVM'); }
else if (optinrequired == 0xFFFFFFFF) { console.log('User Consent: All'); }
else { console.log('User Consent: ' + optinrequired); }
console.log('Redirection Port: ' + (redir ? 'Enabled' : 'Disabled'));
console.log('Serial-over-LAN: ' + (sol ? 'Enabled' : 'Disabled'));
console.log('IDE Redirection: ' + (ider ? 'Enabled' : 'Disabled'));
if (response['CIM_KVMRedirectionSAP'] != null) { console.log('Remote desktop (KVM): ' + (kvm ? 'Enabled' : 'Disabled')); }
if (optinrequired == 0) { console.log('User Consent : None'); }
else if (optinrequired == 1) { console.log('User Consent : KVM'); }
else if (optinrequired == 0xFFFFFFFF) { console.log('User Consent : All'); }
else { console.log('User Consent : ' + optinrequired); }
console.log('Redirection Port : ' + (redir ? 'Enabled' : 'Disabled'));
console.log('Serial-over-LAN : ' + (sol ? 'Enabled' : 'Disabled'));
console.log('IDE Redirection : ' + (ider ? 'Enabled' : 'Disabled'));
if (response['CIM_KVMRedirectionSAP'] != null) { console.log('Remote desktop (KVM) : ' + (kvm ? 'Enabled' : 'Disabled')); }
process.exit(0);
}
} else {

180
agents/meshcmd.min.js vendored
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@ -46,6 +46,7 @@ var oswsstack = null, osamtstack = null;
var amtMeiTmpState = null;
var SMBiosTables = null;
var globalDebugFlags = 0; // 1 = IDER Debug
var pendingAmtConfigActions = 0;
const RCSMessageProtocolVersion = 1; // RCS Message Protocol Version. Needs to be less than or equal to RCS server Message Protocol Version
// MeshCommander for Firmware (GZIP'ed, Base64) v0.7.8
@ -113,7 +114,7 @@ function run(argv) {
//console.log('addedModules = ' + JSON.stringify(addedModules));
var actionpath = 'meshaction.txt';
if (args.actionfile != null) { actionpath = args.actionfile; }
var actions = ['HELP', 'ROUTE', 'MICROLMS', 'AMTPOWER', 'AMTFEATURES', 'AMTLOADWEBAPP', 'AMTLOADSMALLWEBAPP', 'AMTLOADLARGEWEBAPP', 'AMTCLEARWEBAPP', 'AMTSTORAGESTATE', 'AMTINFO', 'AMTINFODEBUG', 'AMTVERSIONS', 'AMTHASHES', 'AMTSAVESTATE', 'AMTSCRIPT', 'AMTUUID', 'AMTCCM', 'AMTACM', 'AMTDEACTIVATE', 'AMTACMDEACTIVATE', 'SMBIOS', 'RAWSMBIOS', 'MESHCOMMANDER', 'AMTAUDITLOG', 'AMTPRESENCE'];
var actions = ['HELP', 'ROUTE', 'MICROLMS', 'AMTPOWER', 'AMTFEATURES', 'AMTNETWORK', 'AMTLOADWEBAPP', 'AMTLOADSMALLWEBAPP', 'AMTLOADLARGEWEBAPP', 'AMTCLEARWEBAPP', 'AMTSTORAGESTATE', 'AMTINFO', 'AMTINFODEBUG', 'AMTVERSIONS', 'AMTHASHES', 'AMTSAVESTATE', 'AMTSCRIPT', 'AMTUUID', 'AMTCCM', 'AMTACM', 'AMTDEACTIVATE', 'AMTACMDEACTIVATE', 'SMBIOS', 'RAWSMBIOS', 'MESHCOMMANDER', 'AMTAUDITLOG', 'AMTPRESENCE'];
// Load the action file
var actionfile = null;
@ -190,6 +191,7 @@ function run(argv) {
console.log(' AmtScript - Run .mescript on Intel AMT.');
console.log(' AmtIDER - Mount local disk image to remote computer.');
console.log(' AmtFeatures - Intel AMT features & user consent.');
console.log(' AmtNetwork - Intel AMT network interface settings.');
console.log('\r\nHelp on a specific action using:\r\n');
console.log(' meshcmd help [action]');
exit(1); return;
@ -300,12 +302,27 @@ function run(argv) {
} else if (action == 'amtpower') {
console.log('AmtPower will get current pwoer state or send a reboot command to a remote Intel AMT device. Example usage:\r\n\r\n meshcmd amtpower --reset --host 1.2.3.4 --user admin --pass mypassword --tls');
console.log('\r\nRequired arguments:\r\n');
console.log(' --host [hostname] The IP address or DNS name of Intel AMT, 127.0.0.1 is default.');
console.log(' --host [hostname] The IP address or DNS name of Intel AMT.');
console.log(' --pass [password] The Intel AMT login password.');
console.log('\r\nOptional arguments:\r\n');
console.log(' --reset, --poweron, --poweroff, --powercycle, --sleep, --hibernate');
console.log(' --user [username] The Intel AMT login username, admin is default.');
console.log(' --tls Specifies that TLS must be used.');
} else if (action == 'amtnetwork') {
console.log('AmtNetwork is used to get/set Intel AMT network interface configuration. Example usage:\r\n\r\n meshcmd amtnetwork --host 1.2.3.4 --user admin --pass mypassword --dhcp');
console.log('\r\nRequired arguments:\r\n');
console.log(' --host [hostname] The IP address or DNS name of Intel AMT, 127.0.0.1 is default.');
console.log(' --pass [password] The Intel AMT login password.');
console.log('\r\nOptional arguments:\r\n');
console.log(' --user [username] The Intel AMT login username, admin is default.');
console.log(' --tls Specifies that TLS must be used.');
console.log(' --dhcp Change IPv4 wired interface to DHCP mode');
console.log(' --static Change IPv4 wired interface to static IP mode');
console.log(' --ip [1.2.3.4] Static IPv4 address (required)');
console.log(' --subnet [1.2.3.4] Static IPv4 subnet mask');
console.log(' --gateway [1.2.3.4] Static IPv4 default gateway');
console.log(' --dns [1.2.3.4] Primary DNS IPv4 address');
console.log(' --dns2 [1.2.3.4] Secondary DNS IPv4 address');
} else if (action == 'amtfeatures') {
console.log('AmtFeatures is used to get/set Intel AMT feature configuration. Example usage:\r\n\r\n meshcmd amtfeatures --host 1.2.3.4 --user admin --pass mypassword --tls --redir 1');
console.log('\r\nRequired arguments:\r\n');
@ -596,8 +613,13 @@ function run(argv) {
if ((settings.cdrom == null) || (typeof settings.cdrom != 'string') || (settings.cdrom == '')) { settings.cdrom = null; }
if ((settings.floppy == null) && (settings.cdrom == null)) { console.log('No or invalid \"floppy\" or \"cdrom\" specified, use --floppy [file] or --cdrom [file].'); exit(1); return; }
performIder();
} else if (settings.action == 'amtnetwork') { // Perform remote Intel AMT wired IPv4 configuration operation
if (settings.hostname == null) { settings.hostname = '127.0.0.1'; }
if ((settings.password == null) || (typeof settings.password != 'string') || (settings.password == '')) { console.log('No or invalid \"password\" specified, use --password [password].'); exit(1); return; }
if ((settings.username == null) || (typeof settings.username != 'string') || (settings.username == '')) { settings.username = 'admin'; }
performAmtNetConfig(args);
} else if (settings.action == 'amtfeatures') { // Perform remote Intel AMT feature configuration operation
if ((settings.hostname == null) || (typeof settings.hostname != 'string') || (settings.hostname == '')) { console.log('No or invalid \"hostname\" specified, use --hostname [host].'); exit(1); return; }
if (settings.hostname == null) { settings.hostname = '127.0.0.1'; }
if ((settings.password == null) || (typeof settings.password != 'string') || (settings.password == '')) { console.log('No or invalid \"password\" specified, use --password [password].'); exit(1); return; }
if ((settings.username == null) || (typeof settings.username != 'string') || (settings.username == '')) { settings.username = 'admin'; }
performAmtFeatureConfig(args);
@ -1374,11 +1396,11 @@ var lmsNotifications = [];
var amtLms = null;
var promise = require('promise');
function startLms(func, lmscommander) {
function startLms(func, lmscommander, tag) {
var ret = new promise(function (res, rej) { this._res = res; this._rej = rej; });
var lme_heci = null
try { lme_heci = require('amt-lme'); } catch (ex) { }
if (lme_heci == null) { if (func != null) { func(func, 0); } this.promise._res(); return; }
if (lme_heci == null) { if (func != null) { func(0, tag); } this.promise._res(); return; }
//var amtLms = null;
var http = require('http');
@ -1396,10 +1418,10 @@ function startLms(func, lmscommander) {
if (lmscommander === true) { //settings.noconsole !== true) {
startMeshCommanderLms();
//console.log("LMS started, MeshCommander on HTTP/16994.");
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 2); }, 100);
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 2, tag); }, 100);
} else {
//console.log('LME connection failed: ' + JSON.stringify(e));
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 0); }, 100);
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 0, tag); }, 100);
}
this.promise._res();
});
@ -1425,11 +1447,11 @@ function startLms(func, lmscommander) {
if (settings.noconsole !== true) {
startMeshCommanderLms();
//console.log("LMS started, MeshCommander on HTTP/16994.");
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 2); }, 100);
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 2, tag); }, 100);
//console.logReferenceCount(tempTimer);
} else {
//console.log("LMS started.");
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 1); }, 100);
tempTimer = setTimeout(function () { delete tempTimer; setupMeiOsAdmin(func, 1, tag); }, 100);
//console.logReferenceCount(tempTimer);
}
@ -1500,9 +1522,9 @@ function startMeshCommanderLms() {
});
}
function setupMeiOsAdmin(func, state) {
function setupMeiOsAdmin(func, state, tag) {
if (amtMei == null) {
if (func) { func(state); }
if (func) { func(state, tag); }
} else {
amtMei.getLocalSystemAccount(function (x) {
var transport = require('amt-wsman-duk');
@ -1510,7 +1532,7 @@ function setupMeiOsAdmin(func, state) {
var amt = require('amt');
oswsstack = new wsman(transport, '127.0.0.1', 16992, x.user, x.pass, false);
osamtstack = new amt(oswsstack);
if (func) { func(state); }
if (func) { func(state, tag); }
//var AllWsman = "CIM_SoftwareIdentity,IPS_SecIOService,IPS_ScreenSettingData,IPS_ProvisioningRecordLog,IPS_HostBasedSetupService,IPS_HostIPSettings,IPS_IPv6PortSettings".split(',');
//osamtstack.BatchEnum(null, AllWsman, startLmsWsmanResponse, null, true);
@ -2088,11 +2110,116 @@ function iderSectorStats(mode, dev, mediaBlocks, lba, len) {
iderIdleTimer = setTimeout(function () { console.log('Idle timeout'); process.exit(1); }, 1000 * settings.timeout);
}
//
// Intel AMT IPv4 wired configuration
//
function performAmtNetConfig(args) {
if ((settings.hostname == '127.0.0.1') || (settings.hostname.toLowerCase() == 'localhost')) {
settings.noconsole = true; startLms(performAmtNetConfig0, false, args);
} else {
performAmtNetConfig0(1, args);
}
}
function performAmtNetConfig0(state, args) {
var transport = require('amt-wsman-duk');
var wsman = require('amt-wsman');
var amt = require('amt');
wsstack = new wsman(transport, settings.hostname, settings.tls ? 16993 : 16992, settings.username, settings.password, settings.tls);
amtstack = new amt(wsstack);
amtstack.BatchEnum(null, ['AMT_EthernetPortSettings'], performAmtNetConfig1, args);
}
function performAmtNetConfig1(stack, name, response, status, args) {
if (status == 200) {
// Set wired and wireless interfaces
var amtwirelessif = -1;
var amtwiredif = -1;
for (var y in response['AMT_EthernetPortSettings'].responses) {
var z = response['AMT_EthernetPortSettings'].responses[y];
if (z['WLANLinkProtectionLevel'] || (y == 1)) { amtwirelessif = y; } // Set the wireless interface, this seems to cover new wireless only computers and older computers with dual interfaces.
if (y == 0) { if ((amtwirelessif != y) && (z["MACAddress"] != "00-00-00-00-00-00")) { amtwiredif = y; } } // On computers with only wireless, the wired interface will have a null MAC
}
// Check if configuration change is required
if (args) {
if (args.dhcp && (amtwiredif != -1) && (response['AMT_EthernetPortSettings'].responses[amtwiredif].DHCPEnabled == false)) {
// Change to DHCP
pendingAmtConfigActions++;
var x = response['AMT_EthernetPortSettings'].responses[amtwiredif];
x['DHCPEnabled'] = true;
delete x["IPAddress"];
delete x["SubnetMask"];
delete x["DefaultGateway"];
delete x["PrimaryDNS"];
delete x["SecondaryDNS"];
amtstack.Put("AMT_EthernetPortSettings", x, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtNetConfig0(); } });
}
else if (args.static && (amtwiredif != -1) && (response['AMT_EthernetPortSettings'].responses[amtwiredif].DHCPEnabled == true)) {
// Change to STATIC
pendingAmtConfigActions++;
var x = response['AMT_EthernetPortSettings'].responses[amtwiredif];
x['DHCPEnabled'] = false;
delete x["IPAddress"];
delete x["SubnetMask"];
delete x["DefaultGateway"];
delete x["PrimaryDNS"];
delete x["SecondaryDNS"];
if (args.ip) { x["IPAddress"] = args.ip; } else { console.log('Missing IPv4 address, use --ip 1.2.3.4'); process.exit(1); }
if (args.subnet) { x["SubnetMask"] = args.subnet; } else { console.log('Missing IPv4 subnet, use --subnet 255.255.255.0'); process.exit(1); }
if (args.gateway) { x["DefaultGateway"] = args.gateway; }
if (args.dns) { x["PrimaryDNS"] = args.dns; }
if (args.dns2) { x["SecondaryDNS"] = args.dns2; }
amtstack.Put("AMT_EthernetPortSettings", x, function (stack, name, response, status) { console.log(status); if (--pendingAmtConfigActions == 0) { performAmtNetConfig0(); } });
}
}
if (pendingAmtConfigActions == 0) {
if (amtwiredif != -1) { // Wired
var z = response['AMT_EthernetPortSettings'].responses[amtwiredif];
console.log('--WIRED---');
for (var i in z) {
if (['ElementName', 'InstanceID'].indexOf(i) == -1) {
var name = i;
while (name.length < 16) { name += ' '; }
console.log(name + ': ' + z[i]);
}
}
}
if (amtwirelessif != -1) { // Wireless
var z = response['AMT_EthernetPortSettings'].responses[amtwirelessif];
console.log('--WIRELESS---');
for (var i in z) {
if (['ElementName', 'InstanceID'].indexOf(i) == -1) {
var name = i;
while (name.length < 16) { name += ' '; }
console.log(name + ': ' + z[i]);
}
}
}
process.exit(0);
}
} else {
console.log('Error, status ' + status + '.');
process.exit(1);
}
}
//
// Intel AMT feature configuration action
//
function performAmtFeatureConfig(args) {
if ((settings.hostname == '127.0.0.1') || (settings.hostname.toLowerCase() == 'localhost')) {
settings.noconsole = true; startLms(performAmtFeatureConfig0, false, args);
} else {
performAmtFeatureConfig0(1, args);
}
}
function performAmtFeatureConfig0(state, args) {
var transport = require('amt-wsman-duk');
var wsman = require('amt-wsman');
var amt = require('amt');
@ -2101,7 +2228,6 @@ function performAmtFeatureConfig(args) {
amtstack.BatchEnum(null, ['*IPS_OptInService', '*AMT_RedirectionService', '*CIM_KVMRedirectionSAP'], performAmtFeatureConfig1, args);
}
var pendingAmtConfigActions = 0;
function performAmtFeatureConfig1(stack, name, response, status, args) {
if (status == 200) {
// User consent
@ -2110,17 +2236,17 @@ function performAmtFeatureConfig1(stack, name, response, status, args) {
if ((args.userconsent == 'none') && (optinrequired != 0)) {
pendingAmtConfigActions++;
response['IPS_OptInService'].response["OptInRequired"] = 0;
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } });
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } });
}
else if ((args.userconsent == 'kvm') && (optinrequired != 1)) {
pendingAmtConfigActions++;
response['IPS_OptInService'].response["OptInRequired"] = 1;
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } });
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } });
}
else if ((args.userconsent == 'all') && (optinrequired != 0xFFFFFFFF)) {
pendingAmtConfigActions++;
response['IPS_OptInService'].response["OptInRequired"] = 0xFFFFFFFF;
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } });
amtstack.Put("IPS_OptInService", response['IPS_OptInService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } });
}
}
@ -2138,8 +2264,8 @@ function performAmtFeatureConfig1(stack, name, response, status, args) {
if ((sol == true) && ((args.sol == 'disabled') || (args.sol == 0))) { sol = false; redirchange = true; }
if ((ider == false) && ((args.ider == 'enabled') || (args.ider == 1))) { ider = true; redirchange = true; }
if ((ider == true) && ((args.ider == 'disabled') || (args.ider == 0))) { ider = false; redirchange = true; }
if (redirportchange) { pendingAmtConfigActions++; amtstack.Put("AMT_RedirectionService", response['AMT_RedirectionService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } }); }
if (redirchange) { pendingAmtConfigActions++; amtstack.AMT_RedirectionService_RequestStateChange((32768 + ((ider ? 1 : 0) + (sol ? 2 : 0))), function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } }); }
if (redirportchange) { pendingAmtConfigActions++; amtstack.Put("AMT_RedirectionService", response['AMT_RedirectionService'].response, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } }); }
if (redirchange) { pendingAmtConfigActions++; amtstack.AMT_RedirectionService_RequestStateChange((32768 + ((ider ? 1 : 0) + (sol ? 2 : 0))), function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } }); }
}
// KVM
@ -2150,19 +2276,19 @@ function performAmtFeatureConfig1(stack, name, response, status, args) {
if (args) {
if ((kvm == false) && ((args.kvm == 'enabled') || (args.kvm == 1))) { kvm = true; kvmchange = true; }
if ((kvm == true) && ((args.kvm == 'disabled') || (args.kvm == 0))) { kvm = false; kvmchange = true; }
if (kvmchange) { pendingAmtConfigActions++; amtstack.CIM_KVMRedirectionSAP_RequestStateChange(kvm ? 2 : 3, 0, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig(); } }); }
if (kvmchange) { pendingAmtConfigActions++; amtstack.CIM_KVMRedirectionSAP_RequestStateChange(kvm ? 2 : 3, 0, function (stack, name, response, status) { if (--pendingAmtConfigActions == 0) { performAmtFeatureConfig0(); } }); }
}
}
if (pendingAmtConfigActions == 0) {
if (optinrequired == 0) { console.log('User Consent: None'); }
else if (optinrequired == 1) { console.log('User Consent: KVM'); }
else if (optinrequired == 0xFFFFFFFF) { console.log('User Consent: All'); }
else { console.log('User Consent: ' + optinrequired); }
console.log('Redirection Port: ' + (redir ? 'Enabled' : 'Disabled'));
console.log('Serial-over-LAN: ' + (sol ? 'Enabled' : 'Disabled'));
console.log('IDE Redirection: ' + (ider ? 'Enabled' : 'Disabled'));
if (response['CIM_KVMRedirectionSAP'] != null) { console.log('Remote desktop (KVM): ' + (kvm ? 'Enabled' : 'Disabled')); }
if (optinrequired == 0) { console.log('User Consent : None'); }
else if (optinrequired == 1) { console.log('User Consent : KVM'); }
else if (optinrequired == 0xFFFFFFFF) { console.log('User Consent : All'); }
else { console.log('User Consent : ' + optinrequired); }
console.log('Redirection Port : ' + (redir ? 'Enabled' : 'Disabled'));
console.log('Serial-over-LAN : ' + (sol ? 'Enabled' : 'Disabled'));
console.log('IDE Redirection : ' + (ider ? 'Enabled' : 'Disabled'));
if (response['CIM_KVMRedirectionSAP'] != null) { console.log('Remote desktop (KVM) : ' + (kvm ? 'Enabled' : 'Disabled')); }
process.exit(0);
}
} else {

View File

@ -1,6 +1,6 @@
{
"name": "meshcentral",
"version": "0.3.7-t",
"version": "0.3.7-u",
"keywords": [
"Remote Management",
"Intel AMT",