Many Intel AMT improvements.

This commit is contained in:
Ylian Saint-Hilaire 2020-10-09 15:44:09 -07:00
parent bc4e07b5fe
commit c0018bb467
12 changed files with 308 additions and 156 deletions

View File

@ -100,7 +100,6 @@
<Compile Include="amt\amt-wsman.js" />
<Compile Include="amt\amt-xml.js" />
<Compile Include="amt\amt.js" />
<Compile Include="apfserver.js" />
<Compile Include="exeHandler.js" />
<Compile Include="letsencrypt.js" />
<Compile Include="mcrec.js" />

View File

@ -3507,15 +3507,20 @@ function createMeshCore(agent) {
mpskeepalive: 60000,
clientname: require('os').hostname(),
clientaddress: '127.0.0.1',
clientuuid: meshCoreObj.intelamt.uuid
clientuuid: meshCoreObj.intelamt.uuid,
conntype: 2 // 0 = CIRA, 1 = Relay, 2 = LMS. The correct value is 2 since we are performing an LMS relay, other values for testing.
};
var tobj = { debug: false }; //
apftunnel = require('apfclient')(tobj, apfarg);
try {
apftunnel.connect();
response += "..success";
} catch (e) {
response += JSON.stringify(e);
if ((apfarg.clientuuid == null) || (apfarg.clientuuid.length != 36)) {
response = "Unable to get Intel AMT UUID: " + apfarg.clientuuid;
} else {
var tobj = { debug: false };
apftunnel = require('apfclient')(tobj, apfarg);
try {
apftunnel.connect();
response += "...success";
} catch (e) {
response += JSON.stringify(e);
}
}
} else if (args['_'][0] == 'off') {
response = "Stopping APF tunnel";
@ -3640,18 +3645,10 @@ function createMeshCore(agent) {
{
switch(amt.lmsstate)
{
case 0:
intelamt.microlms = 'DISABLED'
break;
case 1:
intelamt.microlms = 'CONNECTING'
break;
case 2:
intelamt.microlms = 'CONNECTED'
break;
default:
intelamt.microlms = 'unknown'
break;
case 0: intelamt.microlms = 'DISABLED'; break;
case 1: intelamt.microlms = 'CONNECTING'; break;
case 2: intelamt.microlms = 'CONNECTED'; break;
default: intelamt.microlms = 'unknown'; break;
}
}
var p = false;

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@ -7,6 +7,8 @@
*/
function CreateAPFClient(parent, args) {
if ((args.clientuuid == null) || (args.clientuuid.length != 36)) return null; // Require a UUID if this exact length
var obj = {};
obj.parent = parent;
obj.args = args;
@ -57,7 +59,7 @@ function CreateAPFClient(parent, args) {
// Intel AMT forwarded port list for non-TLS mode
//var pfwd_ports = [16992, 623, 16994, 5900];
var pfwd_ports = [ 16992 ];
var pfwd_ports = [ 16992, 16993 ];
// protocol definitions
var APFProtocol = {
@ -81,7 +83,8 @@ function CreateAPFClient(parent, args) {
KEEPALIVE_REQUEST: 208,
KEEPALIVE_REPLY: 209,
KEEPALIVE_OPTIONS_REQUEST: 210,
KEEPALIVE_OPTIONS_REPLY: 211
KEEPALIVE_OPTIONS_REPLY: 211,
MESH_CONNECTION_TYPE: 250 // This is a Mesh specific command that instructs the server of the connection type: 1 = Relay, 2 = LMS.
}
var APFDisconnectCode = {
@ -160,13 +163,18 @@ function CreateAPFClient(parent, args) {
});
obj.state = CIRASTATE.INITIAL;
if (typeof obj.args.conntype == 'number') { SendConnectionType(obj.forwardClient.ws, obj.args.conntype); }
SendProtocolVersion(obj.forwardClient.ws, obj.args.clientuuid);
SendServiceRequest(obj.forwardClient.ws, 'auth@amt.intel.com');
}
function SendConnectionType(socket, type) {
socket.write(String.fromCharCode(APFProtocol.MESH_CONNECTION_TYPE) + IntToStr(type));
Debug("APF: Send connection type " + type);
}
function SendProtocolVersion(socket, uuid) {
var buuid = strToGuid(uuid);
var data = String.fromCharCode(APFProtocol.PROTOCOLVERSION) + '' + IntToStr(1) + IntToStr(0) + IntToStr(0) + hex2rstr(buuid) + binzerostring(64);
var data = String.fromCharCode(APFProtocol.PROTOCOLVERSION) + IntToStr(1) + IntToStr(0) + IntToStr(0) + hex2rstr(strToGuid(uuid)) + binzerostring(64);
socket.write(data);
Debug("APF: Send protocol version 1 0 " + uuid);
obj.cirastate = CIRASTATE.PROTOCOL_VERSION_SENT;

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@ -113,11 +113,10 @@ module.exports.CreateAmtRedirect = function (module, domain, user, webserver, me
*/
// If Intel AMT CIRA connection is available, use it
if (((conn & 2) != 0) && (meshcentral.mpsserver.ciraConnections[nodeid] != null)) {
var ciraconn = meshcentral.mpsserver.GetConnectionToNode(nodeid, null, true); // Request an OOB connection
if (ciraconn != null) {
Debug(1, 'Opening Intel AMT CIRA transport connection to ' + nodeid + '.');
var ciraconn = meshcentral.mpsserver.ciraConnections[nodeid];
// Compute target port, look at the CIRA port mappings, if non-TLS is allowed, use that, if not use TLS
var port = 16995;
if (ciraconn.tag.boundPorts.indexOf(16994) >= 0) port = 16994; // RELEASE: Always use non-TLS mode if available within CIRA

View File

@ -5,7 +5,7 @@
*/
// Construct a MeshServer object
var CreateWsmanComm = function (host, port, user, pass, tls, tlsoptions, transportServer) {
var CreateWsmanComm = function (host, port, user, pass, tls, tlsoptions, ciraConnection) {
//console.log('CreateWsmanComm', host, port, user, pass, tls, tlsoptions);
var obj = {};
@ -38,7 +38,7 @@ var CreateWsmanComm = function (host, port, user, pass, tls, tlsoptions, transpo
obj.pass = pass;
obj.xtls = tls;
obj.xtlsoptions = tlsoptions;
obj.transportServer = transportServer; // This can be a CIRA or APF server, if null, local sockets are used as transport.
obj.ciraConnection = ciraConnection; // This can be a CIRA or APF server, if null, local sockets are used as transport.
obj.xtlsFingerprint;
obj.xtlsCertificate = null;
obj.xtlsCheck = 0; // 0 = No TLS, 1 = CA Checked, 2 = Pinned, 3 = Untrusted
@ -166,9 +166,9 @@ var CreateWsmanComm = function (host, port, user, pass, tls, tlsoptions, transpo
obj.socketState = 1;
obj.kerberosDone = 0;
if (obj.transportServer != null) {
// Setup a new channel using the transport server (CIRA or APF)
obj.socket = obj.transportServer.SetupChannelToNode(obj.host, obj.port);
if (obj.ciraConnection != null) {
// Setup a new channel using the CIRA/Relay/LMS connection
obj.socket = obj.ciraConnection.SetupChannel(obj.port);
if (obj.socket == null) {
try { obj.xxOnSocketClosed(); } catch (e) { }
} else {
@ -229,7 +229,7 @@ var CreateWsmanComm = function (host, port, user, pass, tls, tlsoptions, transpo
obj.xxOnSocketConnected = function () {
if (obj.socket == null) return;
// check TLS certificate for webrelay and direct only
if ((obj.transportServer == null) && (obj.xtls == 1)) {
if ((obj.ciraConnection == null) && (obj.xtls == 1)) {
obj.xtlsCertificate = obj.socket.getPeerCertificate();
// ###BEGIN###{Certificates}
@ -348,7 +348,7 @@ var CreateWsmanComm = function (host, port, user, pass, tls, tlsoptions, transpo
if (isNaN(s)) s = 500;
if (s == 401 && ++(obj.authcounter) < 3) {
obj.challengeParams = obj.parseDigest(header['www-authenticate']); // Set the digest parameters, after this, the socket will close and we will auto-retry
if (obj.transportServer == null) { obj.socket.end(); } else { obj.socket.close(); }
if (obj.ciraConnection == null) { obj.socket.end(); } else { obj.socket.close(); }
} else {
var r = obj.pendingAjaxCall.shift();
if (r == null || r.length < 1) { console.log("pendingAjaxCall error, " + r); return; }
@ -365,7 +365,7 @@ var CreateWsmanComm = function (host, port, user, pass, tls, tlsoptions, transpo
//obj.Debug("xxOnSocketClosed");
obj.socketState = 0;
if (obj.socket != null) {
if (obj.transportServer == null) { obj.socket.destroy(); } else { obj.socket.close(); }
if (obj.ciraConnection == null) { obj.socket.destroy(); } else { obj.socket.close(); }
obj.socket = null;
}
if (obj.pendingAjaxCall.length > 0) {
@ -376,7 +376,7 @@ var CreateWsmanComm = function (host, port, user, pass, tls, tlsoptions, transpo
obj.xxOnSocketTimeout = function () {
if (obj.socket != null) {
if (obj.transportServer == null) { obj.socket.destroy(); } else { obj.socket.close(); }
if (obj.ciraConnection == null) { obj.socket.destroy(); } else { obj.socket.close(); }
obj.socket = null;
}
}

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@ -41,67 +41,72 @@ module.exports.CreateAmtManager = function(parent) {
// Handle server events
// TODO: Only manage devices with connections to this server. In a multi-server setup, we don't want multiple managers talking to the same device.
obj.HandleEvent = function (source, event, ids, id) {
// React to nodes connecting and disconnecting
if (event.action == 'nodeconnect') {
if ((event.conn & 14) != 0) { // connectType: Bitmask, 1 = MeshAgent, 2 = Intel AMT CIRA, 4 = Intel AMT local, 8 = Intel AMT Relay, 16 = MQTT
//if ((event.conn & 2) == 0) return // Debug: Only look at CIRA connections
// We have an OOB connection to Intel AMT, update our information
switch (event.action) {
case 'nodeconnect': { // React to nodes connecting and disconnecting
// See if we have an existing device we manage
var dev = obj.amtDevices[event.nodeid];
if (dev == null) { obj.amtDevices[event.nodeid] = dev = { conn: event.conn }; fetchIntelAmtInformation(event.nodeid); } else { dev.conn = event.conn; }
/*
} else if (((event.conn & 1) != 0) && (parent.webserver != null)) {
// We have an agent connection without OOB, check if this agent supports Intel AMT
var agent = parent.webserver.wsagents[event.nodeid];
if ((agent == null) || (agent.agentInfo == null) || (parent.meshAgentsArchitectureNumbers[agent.agentInfo.agentId].amt == false)) { removeDevice(event.nodeid); return; }
var dev = obj.amtDevices[event.nodeid];
if (dev == null) { obj.amtDevices[event.nodeid] = dev = { conn: event.conn }; fetchIntelAmtInformation(event.nodeid); } else { dev.conn = event.conn; }
*/
} else {
removeDevice(event.nodeid);
}
}
// React to node being removed
if (event.action == 'removenode') { removeDevice(event.nodeid); }
// If the connection type we are using is not longer valid, remove our managed device.
if ((dev != null) && (dev.conntype != null) && ((dev.conntype & event.conn) == 0)) { removeDevice(event.nodeid); dev = null; }
// React to node wakeup command, perform Intel AMT wake if possible
if ((event.action == 'wakedevices') && (Array.isArray(event.nodeids))) {
for (var i in event.nodeids) { performPowerAction(event.nodeids[i], 2); }
}
// React to changes in a node
if (event.action == 'changenode') {
if (event.amtchange === 1) {
// A change occured in the Intel AMT credentials, we need to reset the connection
removeDevice(event.nodeid);
// Check if the agent is connected
var constate = parent.GetConnectivityState(event.nodeid);
if (constate == null) return; // No OOB connectivity, exit now.
if ((constate & 14) != 0) { // connectType: Bitmask, 1 = MeshAgent, 2 = Intel AMT CIRA, 4 = Intel AMT local, 8 = Intel AMT Relay, 16 = MQTT
// Create or update a managed device
if ((event.conn & 14) != 0) { // connectType: Bitmask, 1 = MeshAgent, 2 = Intel AMT CIRA, 4 = Intel AMT local, 8 = Intel AMT Relay, 16 = MQTT
// We have an OOB connection to Intel AMT, update our information
var dev = obj.amtDevices[event.nodeid];
if (dev == null) { obj.amtDevices[event.nodeid] = dev = { conn: constate }; fetchIntelAmtInformation(event.nodeid); } else { dev.conn = constate; }
if (dev == null) {
obj.amtDevices[event.nodeid] = dev = { conn: event.conn }; fetchIntelAmtInformation(event.nodeid);
} else {
dev.conn = event.conn;
}
} else if (((event.conn & 1) != 0) && (parent.webserver != null)) {
// We have an agent connection without OOB, check if this agent supports Intel AMT
// We have an agent connection without CIRA/Local/Relay, check if this agent supports Intel AMT
var agent = parent.webserver.wsagents[event.nodeid];
if ((agent == null) || (agent.agentInfo == null) || (parent.meshAgentsArchitectureNumbers[agent.agentInfo.agentId].amt == false)) { removeDevice(event.nodeid); return; }
var dev = obj.amtDevices[event.nodeid];
if (dev == null) { obj.amtDevices[event.nodeid] = dev = { conn: constate }; fetchIntelAmtInformation(event.nodeid); } else { dev.conn = constate; }
}
} else {
var dev = obj.amtDevices[event.nodeid];
if (dev != null) {
var amtchange = 0;
if (dev.name != event.node.name) { dev.name = event.node.name; }
if (dev.host != event.node.host) {
dev.host = event.node.host;
// The host has changed, if we are connected to this device locally, we need to reset.
if ((dev.conn & 4) != 0) { removeDevice(dev.nodeid); return; } // We are going to wait for the AMT scanned to find this device again.
if ((agent != null) && (agent.agentInfo != null) && (parent.meshAgentsArchitectureNumbers[agent.agentInfo.agentId].amt == true)) {
// We could turn on LMS relay at this point.
}
}
break;
}
case 'removenode': { // React to node being removed
removeDevice(event.nodeid);
break;
}
case 'wakedevices': { // React to node wakeup command, perform Intel AMT wake if possible
if (Array.isArray(event.nodeids)) { for (var i in event.nodeids) { performPowerAction(event.nodeids[i], 2); } }
break;
}
case 'changenode': { // React to changes in a node
if (event.amtchange === 1) {
// A change occured in the Intel AMT credentials, we need to reset the connection
removeDevice(event.nodeid);
// Check if the agent is connected
var constate = parent.GetConnectivityState(event.nodeid);
if (constate == null) return; // No OOB connectivity, exit now.
if ((constate & 14) != 0) { // connectType: Bitmask, 1 = MeshAgent, 2 = Intel AMT CIRA, 4 = Intel AMT local, 8 = Intel AMT Relay, 16 = MQTT
// We have an OOB connection to Intel AMT, update our information
var dev = obj.amtDevices[event.nodeid];
if (dev == null) { obj.amtDevices[event.nodeid] = dev = { conn: constate }; fetchIntelAmtInformation(event.nodeid); } else { dev.conn = constate; }
} else if (((event.conn & 1) != 0) && (parent.webserver != null)) {
// We have an agent connection without OOB, check if this agent supports Intel AMT
var agent = parent.webserver.wsagents[event.nodeid];
if ((agent == null) || (agent.agentInfo == null) || (parent.meshAgentsArchitectureNumbers[agent.agentInfo.agentId].amt == false)) { removeDevice(event.nodeid); return; }
var dev = obj.amtDevices[event.nodeid];
if (dev == null) { obj.amtDevices[event.nodeid] = dev = { conn: constate }; fetchIntelAmtInformation(event.nodeid); } else { dev.conn = constate; }
}
} else {
var dev = obj.amtDevices[event.nodeid];
if (dev != null) {
var amtchange = 0;
if (dev.name != event.node.name) { dev.name = event.node.name; }
if (dev.host != event.node.host) {
dev.host = event.node.host;
// The host has changed, if we are connected to this device locally, we need to reset.
if ((dev.conn & 4) != 0) { removeDevice(dev.nodeid); return; } // We are going to wait for the AMT scanned to find this device again.
}
}
}
break;
}
}
}
@ -186,23 +191,24 @@ module.exports.CreateAmtManager = function(parent) {
if (node.host) { dev.host = node.host.toLowerCase(); }
dev.meshid = node.meshid;
dev.intelamt = node.intelamt;
attemptInitialContact(nodeid, dev);
attemptInitialContact(dev);
});
}
// Attempt to perform initial contact with Intel AMT
function attemptInitialContact(nodeid, dev) {
if (dev == null) { dev = obj.amtDevices[nodeid]; }
function attemptInitialContact(dev) {
if (dev == null) return;
//console.log('attemptInitialContact', dev.name);
if ((dev.acctry == null) && ((typeof dev.intelamt.user != 'string') || (typeof dev.intelamt.pass != 'string'))) {
if (obj.amtAdminAccounts.length > 0) { dev.acctry = 0; } else { return; }
}
// Handle the case where the Intel AMT CIRA is connected (conn & 2)
// In this connection type, we look at the port bindings to see if we need to do TLS or not.
if ((dev.conn & 2) != 0) {
// Check to see if CIRA is connected on this server.
var ciraconn = parent.mpsserver.ciraConnections[dev.nodeid];
var ciraconn = parent.mpsserver.GetConnectionToNode(dev.nodeid, null, 0); // Select the CIRA connection
if ((ciraconn == null) || (ciraconn.tag == null) || (ciraconn.tag.boundPorts == null)) { removeDevice(dev.nodeid); return; } // CIRA connection is not on this server, no need to deal with this device anymore.
// See what user/pass to try.
@ -218,11 +224,12 @@ module.exports.CreateAmtManager = function(parent) {
// Connect now
//console.log('CIRA-Connect', (dotls == 1)?"TLS":"NoTLS", dev.name, dev.host, user, pass);
var comm;
dotls = 0; // TODO: We don't support TLS with CIRA/Relay/LMS connections yet. Remove this when we do.
if (dotls == 1) {
comm = CreateWsmanComm(dev.nodeid, 16993, user, pass, 1, null, parent.mpsserver); // Perform TLS
comm = CreateWsmanComm(dev.nodeid, 16993, user, pass, 1, null, ciraconn); // Perform TLS
comm.xtlsFingerprint = 0; // Perform no certificate checking
} else {
comm = CreateWsmanComm(dev.nodeid, 16992, user, pass, 0, null, parent.mpsserver); // No TLS
comm = CreateWsmanComm(dev.nodeid, 16992, user, pass, 0, null, ciraconn); // No TLS
}
var wsstack = WsmanStackCreateService(comm);
dev.amtstack = AmtStackCreateService(wsstack);
@ -234,12 +241,45 @@ module.exports.CreateAmtManager = function(parent) {
return; // If CIRA is connected, don't try any other methods.
}
// Handle the case where the Intel AMT relay is connected (conn & 8)
if ((dev.conn & 8) != 0) {
// Check to see if CIRA is connected on this server.
var ciraconn = parent.mpsserver.GetConnectionToNode(dev.nodeid, null, 1); // Select a relay connection
if ((ciraconn == null) || (ciraconn.tag == null) || (ciraconn.tag.boundPorts == null)) { removeDevice(dev.nodeid); return; } // CIRA connection is not on this server, no need to deal with this device anymore.
// See what user/pass to try.
var user = null, pass = null;
if (dev.acctry == null) { user = dev.intelamt.user; pass = dev.intelamt.pass; } else { user = obj.amtAdminAccounts[dev.acctry].user; pass = obj.amtAdminAccounts[dev.acctry].pass; }
// Connect now
var comm;
dev.tlsfail = true; // TODO: We don't support TLS with CIRA/Relay/LMS connections yet. Remove this when we do.
if (dev.tlsfail !== true) {
//console.log('Relay-Connect', "TLS", dev.name, dev.host, user, pass);
comm = CreateWsmanComm(dev.nodeid, 16993, user, pass, 1, null, ciraconn); // Perform TLS
comm.xtlsFingerprint = 0; // Perform no certificate checking
} else {
//console.log('Relay-Connect', "NoTLS", dev.name, dev.host, user, pass);
comm = CreateWsmanComm(dev.nodeid, 16992, user, pass, 0, null, ciraconn); // No TLS
}
var wsstack = WsmanStackCreateService(comm);
dev.amtstack = AmtStackCreateService(wsstack);
dev.amtstack.dev = dev;
obj.activeLocalConnections[dev.host] = dev;
dev.amtstack.BatchEnum(null, ['*AMT_GeneralSettings', '*IPS_HostBasedSetupService'], attemptLocalConnectResponse);
dev.conntype = 8; // Relay
return; // If relay is connected, don't try any other methods.
}
// Handle the case where the Intel AMT local scanner found the device (conn & 4)
if (((dev.conn & 4) != 0) && (typeof dev.host == 'string')) {
// Since we don't allow two or more connections to the same host, check if a pending connection is active.
if (obj.activeLocalConnections[dev.host] != null) {
// Active connection, hold and try later.
setTimeout(function () { attemptInitialContact(nodeid); }, 5000);
var tryAgainFunc = function tryAgainFunc() { if (obj.amtDevices[tryAgainFunc.dev.nodeid] != null) { attemptInitialContact(tryAgainFunc.dev); } }
tryAgainFunc.dev = dev;
setTimeout(tryAgainFunc, 5000);
} else {
// No active connections, see what user/pass to try.
var user = null, pass = null;
@ -248,11 +288,11 @@ module.exports.CreateAmtManager = function(parent) {
// Connect now
var comm;
if (dev.tlsfail !== true) {
//console.log('Connect', "TLS", dev.name, dev.host, user, pass);
//console.log('Direct-Connect', "TLS", dev.name, dev.host, user, pass);
comm = CreateWsmanComm(dev.host, 16993, user, pass, 1); // Always try with TLS first
comm.xtlsFingerprint = 0; // Perform no certificate checking
} else {
//console.log('Connect', "NoTLS", dev.name, dev.host, user, pass);
//console.log('Direct-Connect', "NoTLS", dev.name, dev.host, user, pass);
comm = CreateWsmanComm(dev.host, 16992, user, pass, 0); // Try without TLS
}
var wsstack = WsmanStackCreateService(comm);
@ -301,11 +341,11 @@ module.exports.CreateAmtManager = function(parent) {
// We got a bad response
if ((dev.conntype == 1) && (dev.tlsfail !== true) && (status == 408)) {
// TLS error on a local connection, try again without TLS
dev.tlsfail = true; attemptInitialContact(dev.nodeid, dev); return;
dev.tlsfail = true; attemptInitialContact(dev); return;
} else if (status == 401) {
// Authentication error, see if we can use alternative credentials
if ((dev.acctry == null) && (obj.amtAdminAccounts.length > 0)) { dev.acctry = 0; attemptInitialContact(dev.nodeid, dev); return; }
if ((dev.acctry != null) && (obj.amtAdminAccounts.length > (dev.acctry + 1))) { dev.acctry++; attemptInitialContact(dev.nodeid, dev); return; }
if ((dev.acctry == null) && (obj.amtAdminAccounts.length > 0)) { dev.acctry = 0; attemptInitialContact(dev); return; }
if ((dev.acctry != null) && (obj.amtAdminAccounts.length > (dev.acctry + 1))) { dev.acctry++; attemptInitialContact(dev); return; }
// We are unable to authenticate to this device, clear Intel AMT credentials.
ClearDeviceCredentials(dev);

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@ -164,8 +164,8 @@ module.exports.CreateAmtScanner = function (parent) {
if (err == null && docs.length > 0) {
for (var i in docs) {
var doc = docs[i], host = doc.host.toLowerCase();
const ciraConnection = obj.parent.mpsserver ? obj.parent.mpsserver.ciraConnections[doc._id] : null;
if ((host != '127.0.0.1') && (host != '::1') && (host.toLowerCase() != 'localhost') && (ciraConnection == null)) {
const ciraConnections = obj.parent.mpsserver ? obj.parent.mpsserver.GetConnectionToNode(doc._id, null, true) : null; // See if any OOB connections are present
if ((host != '127.0.0.1') && (host != '::1') && (host.toLowerCase() != 'localhost') && (ciraConnections == null)) {
var scaninfo = obj.scanTable[doc._id];
if (scaninfo == undefined) {
var tag = obj.nextTag++;

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@ -79,7 +79,7 @@ module.exports.CreateMeshAgent = function (parent, db, ws, req, args, domain) {
const state = parent.parent.GetConnectivityState(obj.dbNodeKey);
if ((state != null) && (state.connectivity != null)) {
if ((state.connectivity & 1) != 0) { parent.wsagents[obj.dbNodeKey].close(); } // Disconnect mesh agent
if ((state.connectivity & 2) != 0) { parent.parent.mpsserver.close(parent.parent.mpsserver.ciraConnections[obj.dbNodeKey]); } // Disconnect CIRA connection
if ((state.connectivity & 2) != 0) { parent.parent.mpsserver.closeAllForNode(obj.dbNodeKey); } // Disconnect CIRA connection
}
} else {
// Update the last connect time

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@ -1422,7 +1422,10 @@ function CreateMeshCentralServer(config, args) {
rs: obj.webserver.relaySessionCount
}
};
if (obj.mpsserver != null) { data.conn.am = Object.keys(obj.mpsserver.ciraConnections).length; }
if (obj.mpsserver != null) {
data.conn.am = 0;
for (var i in obj.mpsserver.ciraConnections) { data.conn.am += obj.mpsserver.ciraConnections[i].length; }
}
if (obj.firstStats === true) { delete obj.firstStats; data.first = true; }
obj.db.SetServerStats(data); // Save the stats to the database
obj.DispatchEvent(['*'], obj, { action: 'servertimelinestats', data: data }); // Event the server stats

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@ -406,7 +406,10 @@ module.exports.CreateMeshUser = function (parent, db, ws, req, args, domain, use
RelayCount: Object.keys(parent.wsrelays).length
};
if (parent.relaySessionErrorCount != 0) { serverStats.RelayErrors = parent.relaySessionErrorCount; }
if (parent.parent.mpsserver != null) { serverStats.ConnectedIntelAMT = Object.keys(parent.parent.mpsserver.ciraConnections).length; }
if (parent.parent.mpsserver != null) {
serverStats.ConnectedIntelAMT = 0;
for (var i in parent.parent.mpsserver.ciraConnections) { serverStats.ConnectedIntelAMT += parent.parent.mpsserver.ciraConnections[i].length; }
}
// Take a look at agent errors
var agentstats = parent.getAgentStats();
@ -657,7 +660,9 @@ module.exports.CreateMeshUser = function (parent, db, ws, req, args, domain, use
docs[i].conn = state.connectivity;
docs[i].pwr = state.powerState;
if ((state.connectivity & 1) != 0) { var agent = parent.wsagents[docs[i]._id]; if (agent != null) { docs[i].agct = agent.connectTime; } }
if ((state.connectivity & 2) != 0) { var cira = parent.parent.mpsserver.ciraConnections[docs[i]._id]; if (cira != null) { docs[i].cict = cira.tag.connectTime; } }
// Use the connection time of the CIRA/Relay connection
if ((state.connectivity & 2) != 0) { var cira = parent.parent.mpsserver.GetConnectionToNode(docs[i]._id, null, true); if (cira != null) { docs[i].cict = cira[0].tag.connectTime; } }
}
// Compress the meshid's
@ -1062,6 +1067,21 @@ module.exports.CreateMeshUser = function (parent, db, ws, req, args, domain, use
}
break;
}
case 'mps': { // List all MPS connections and types.
if (parent.parent.mpsserver == null) {
r = 'MPS not enabled.';
} else {
const connectionTypes = ['CIRA', 'Relay', 'LMS'];
for (var nodeid in parent.parent.mpsserver.ciraConnections) {
r += nodeid;
var connections = parent.parent.mpsserver.ciraConnections[nodeid];
for (var i in connections) { r += ', ' + connectionTypes[connections[i].tag.connType]; }
r += '\r\n';
}
if (r == '') { r = 'MPS has not connections.'; }
}
break;
}
case 'dbstats': {
parent.parent.db.getStats(function (stats) {
var r2 = '';
@ -3458,7 +3478,9 @@ module.exports.CreateMeshUser = function (parent, db, ws, req, args, domain, use
node.conn = state.connectivity;
node.pwr = state.powerState;
if ((state.connectivity & 1) != 0) { var agent = parent.wsagents[node._id]; if (agent != null) { node.agct = agent.connectTime; } }
if ((state.connectivity & 2) != 0) { var cira = parent.parent.mpsserver.ciraConnections[node._id]; if (cira != null) { node.cict = cira.tag.connectTime; } }
// Uuse the connection time of the CIRA/Relay connection
if ((state.connectivity & 2) != 0) { var cira = parent.parent.mpsserver.GetConnectionToNode(node._id, null, true); if (cira != null) { node.cict = cira[0].tag.connectTime; } }
}
// Event the node change
@ -3527,7 +3549,7 @@ module.exports.CreateMeshUser = function (parent, db, ws, req, args, domain, use
var state = parent.parent.GetConnectivityState(nodeid);
if ((state != null) && (state.connectivity != null)) {
if ((state.connectivity & 1) != 0) { parent.wsagents[nodeid].close(); } // Disconnect mesh agent
if ((state.connectivity & 2) != 0) { parent.parent.mpsserver.close(parent.parent.mpsserver.ciraConnections[nodeid]); } // Disconnect CIRA connection
if ((state.connectivity & 2) != 0) { parent.parent.mpsserver.closeAllForNode(nodeid); } // Disconnect CIRA/Relay/LMS connections
}
});
}

View File

@ -22,7 +22,7 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
obj.db = db;
obj.args = args;
obj.certificates = certificates;
obj.ciraConnections = {}; // NodeID --> Socket
obj.ciraConnections = {}; // NodeID --> [ Socket ]
var tlsSessionStore = {}; // Store TLS session information for quick resume.
var tlsSessionStoreCount = 0; // Number of cached TLS session information in store.
const constants = (require('crypto').constants ? require('crypto').constants : require('constants')); // require('constants') is deprecated in Node 11.10, use require('crypto').constants instead.
@ -79,7 +79,8 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
KEEPALIVE_REQUEST: 208,
KEEPALIVE_REPLY: 209,
KEEPALIVE_OPTIONS_REQUEST: 210,
KEEPALIVE_OPTIONS_REPLY: 211
KEEPALIVE_OPTIONS_REPLY: 211,
MESH_CONNECTION_TYPE: 250 // This is a Mesh specific command that instructs the server of the connection type: 1 = Relay, 2 = LMS.
};
/*
@ -142,22 +143,71 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
var socketErrorCount = 0;
var maxDomainDevicesReached = 0;
// Delay setting the connectivity state by 300ms to allow time for CIRA port mappings to be established
// Report power state as "present" (7) until Intel AMT manager starts polling for power state.
function delayedSetConnectivityState(meshid, nodeid, connectTime, connType) {
if (nodeid.startsWith('*')) return; // Don't set connectivity state for Intel AMT self agent relay
var f = function setConnFunc() { if (obj.ciraConnections[setConnFunc.nodeid] != null) { obj.parent.SetConnectivityState(setConnFunc.meshid, setConnFunc.nodeid, setConnFunc.connectTime, setConnFunc.connType, 7); } }
f.nodeid = nodeid;
f.meshid = meshid;
f.connectTime = connectTime;
f.connType = connType;
// Add a CIRA connection to the connection list
function addCiraConnection(socket) {
// Check if there is already a connection of the same type
var sameType = false, connections = obj.ciraConnections[socket.tag.nodeid];
if (connections != null) { for (var i in connections) { var conn = connections[i]; if (conn.tag.connType === socket.tag.connType) { sameType = true; } } }
// Add this connection to the connections list
if (connections == null) { obj.ciraConnections[socket.tag.nodeid] = [socket]; } else { obj.ciraConnections[socket.tag.nodeid].push(socket); }
if ((socket.tag.connType != 0) && (socket.tag.connType != 1)) return; // If not a CIRA or Relay connection, we don't indicate a connection state change
// Update connectivity state
// Report the new state of a CIRA/Relay/LMS connection after a short delay. This is to wait for the connection to have the bounded ports setup before we advertise this new connection.
socket.xxStartHold = 1;
var f = function setConnFunc() {
delete setConnFunc.socket.xxStartHold;
const ciraArray = obj.ciraConnections[setConnFunc.socket.tag.nodeid];
if ((ciraArray != null) && ((ciraArray.indexOf(setConnFunc.socket) >= 0))) { // Check if this connection is still present
if (setConnFunc.socket.tag.connType == 0) {
// Intel AMT CIRA connection. This connection indicates the remote device is present.
obj.parent.SetConnectivityState(setConnFunc.socket.tag.meshid, setConnFunc.socket.tag.nodeid, setConnFunc.socket.tag.connectTime, 2, 7); // 7 = Present
} else if (setConnFunc.socket.tag.connType == 1) {
// Intel AMT Relay connection. This connection does not give any information about the remote device's power state.
obj.parent.SetConnectivityState(setConnFunc.socket.tag.meshid, setConnFunc.socket.tag.nodeid, setConnFunc.socket.tag.connectTime, 8, 0); // 0 = Unknown
} else if (setConnFunc.socket.tag.connType == 2) {
// Intel AMT LMS connection. We don't notify of these connections except telling the Intel AMT manager about them.
// TODO: Notify AMT manager
}
}
}
f.socket = socket;
setTimeout(f, 300);
}
// Remove a CIRA connection from the connection list
function removeCiraConnection(socket) {
// Remove the connection from the list if present.
const ciraArray = obj.ciraConnections[socket.tag.nodeid];
if (ciraArray == null) return;
var i = ciraArray.indexOf(socket);
if (i == -1) return;
ciraArray.splice(i, 1);
if (ciraArray.length == 0) { delete obj.ciraConnections[socket.tag.nodeid]; } else { obj.ciraConnections[socket.tag.nodeid] = ciraArray; }
// If we are removing a connection during the hold period, don't clear any state since it was never set.
if (socket.xxStartHold == 1) return;
// Check if there is already a connection of the same type
var sameType = false, connections = obj.ciraConnections[socket.tag.nodeid];
if (connections != null) { for (var i in connections) { var conn = connections[i]; if (conn.tag.connType === socket.tag.connType) { sameType = true; } } }
if (sameType == true) return; // if there is a connection of the same type, don't change the connection state.
// Update connectivity state
if (socket.tag.connType == 0) {
obj.parent.ClearConnectivityState(socket.tag.meshid, socket.tag.nodeid, 2); // CIRA
} else if (socket.tag.connType == 1) {
obj.parent.ClearConnectivityState(socket.tag.meshid, socket.tag.nodeid, 8); // Relay
}
}
// Return statistics about this MPS server
obj.getStats = function () {
var ciraConnectionCount = 0;
for (var i in obj.ciraConnections) { ciraConnectionCount += obj.ciraConnections[i].length; }
return {
ciraConnections: Object.keys(obj.ciraConnections).length,
ciraConnections: ciraConnectionCount,
tlsSessionStore: Object.keys(tlsSessionStore).length,
connectionCount: connectionCount,
userAuthRequestCount: userAuthRequestCount,
@ -224,8 +274,11 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
obj.onWebSocketConnection = function (socket) {
connectionCount++;
// connType: 2 = CIRA, 8 = Relay
socket.tag = { first: true, connType: 2, clientCert: null, accumulator: '', activetunnels: 0, boundPorts: [], websocket: true, socket: socket, host: null, nextchannelid: 4, channels: {}, nextsourceport: 0 };
// connType: 0 = CIRA, 1 = Relay, 2 = LMS
socket.tag = { first: true, connType: 0, clientCert: null, accumulator: '', activetunnels: 0, boundPorts: [], websocket: true, socket: socket, host: null, nextchannelid: 4, channels: {}, nextsourceport: 0 };
socket.SetupChannel = function SetupChannel(targetport) { return SetupChannel.parent.SetupChannel(SetupChannel.conn, targetport); }
socket.SetupChannel.parent = obj;
socket.SetupChannel.conn = socket;
socket.websocket = 1;
parent.debug('mps', "New CIRA websocket connection");
@ -245,8 +298,7 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
socket.addListener('close', function () {
socketClosedCount++;
parent.debug('mps', "CIRA websocket closed", this.tag.meshid, this.tag.nodeid);
try { delete obj.ciraConnections[socket.tag.nodeid]; } catch (e) { }
if (!this.tag.nodeid.startsWith('*')) { obj.parent.ClearConnectivityState(this.tag.meshid, this.tag.nodeid, this.tag.connType); }
removeCiraConnection(socket);
});
socket.addListener('error', function (e) {
@ -258,12 +310,15 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
// Called when a new TLS/TCP connection is accepted
function onConnection(socket) {
connectionCount++;
// connType: 2 = CIRA, 8 = Relay
// connType: 0 = CIRA, 1 = Relay, 2 = LMS
if (obj.args.mpstlsoffload) {
socket.tag = { first: true, connType: 2, clientCert: null, accumulator: '', activetunnels: 0, boundPorts: [], socket: socket, host: null, nextchannelid: 4, channels: {}, nextsourceport: 0 };
socket.tag = { first: true, connType: 0, clientCert: null, accumulator: '', activetunnels: 0, boundPorts: [], socket: socket, host: null, nextchannelid: 4, channels: {}, nextsourceport: 0 };
} else {
socket.tag = { first: true, connType: 2, clientCert: socket.getPeerCertificate(true), accumulator: '', activetunnels: 0, boundPorts: [], socket: socket, host: null, nextchannelid: 4, channels: {}, nextsourceport: 0 };
socket.tag = { first: true, connType: 0, clientCert: socket.getPeerCertificate(true), accumulator: '', activetunnels: 0, boundPorts: [], socket: socket, host: null, nextchannelid: 4, channels: {}, nextsourceport: 0 };
}
socket.SetupChannel = function SetupChannel(targetport) { return SetupChannel.parent.SetupChannel(SetupChannel.conn, targetport); }
socket.SetupChannel.parent = obj;
socket.SetupChannel.conn = socket;
socket.setEncoding('binary');
parent.debug('mps', "New CIRA connection");
@ -274,8 +329,7 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
socket.addListener('close', function () {
socketClosedCount++;
parent.debug('mps', 'CIRA connection closed');
try { delete obj.ciraConnections[socket.tag.nodeid]; } catch (e) { }
obj.parent.ClearConnectivityState(socket.tag.meshid, socket.tag.nodeid, socket.tag.connType);
removeCiraConnection(socket);
});
socket.addListener('error', function (e) {
@ -382,8 +436,7 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
obj.parent.DispatchEvent(['*', socket.tag.meshid], obj, { etype: 'node', action: 'addnode', node: parent.webserver.CloneSafeNode(device), msg: change, domain: domainid });
// Add the connection to the MPS connection list
obj.ciraConnections[socket.tag.nodeid] = socket;
delayedSetConnectivityState(socket.tag.meshid, socket.tag.nodeid, socket.tag.connectTime, socket.tag.connType);
addCiraConnection(socket);
}
});
return;
@ -412,8 +465,7 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
}
// Add the connection to the MPS connection list
obj.ciraConnections[socket.tag.nodeid] = socket;
delayedSetConnectivityState(socket.tag.meshid, socket.tag.nodeid, socket.tag.connectTime, socket.tag.connType);
addCiraConnection(socket);
});
} else {
// This node connected without certificate authentication, use password auth
@ -521,8 +573,7 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
obj.parent.DispatchEvent(['*', socket.tag.meshid], obj, { etype: 'node', action: 'addnode', node: parent.webserver.CloneSafeNode(device), msg: change, domain: mesh.domain });
// Add the connection to the MPS connection list
obj.ciraConnections[socket.tag.nodeid] = socket;
delayedSetConnectivityState(socket.tag.meshid, socket.tag.nodeid, socket.tag.connectTime, socket.tag.connType);
addCiraConnection(socket);
SendUserAuthSuccess(socket); // Notify the auth success on the CIRA connection
}
});
@ -545,8 +596,7 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
}
// Add the connection to the MPS connection list
obj.ciraConnections[socket.tag.nodeid] = socket;
delayedSetConnectivityState(socket.tag.meshid, socket.tag.nodeid, socket.tag.connectTime, socket.tag.connType);
addCiraConnection(socket);
SendUserAuthSuccess(socket); // Notify the auth success on the CIRA connection
});
} else if (mesh.mtype == 2) { // If this is a agent mesh, search the mesh for this device UUID
@ -584,8 +634,7 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
socket.tag.connectTime = Date.now();
// Add the connection to the MPS connection list
obj.ciraConnections[socket.tag.nodeid] = socket;
delayedSetConnectivityState(socket.tag.meshid, socket.tag.nodeid, socket.tag.connectTime, socket.tag.connType);
addCiraConnection(socket);
SendUserAuthSuccess(socket); // Notify the auth success on the CIRA connection
});
} else { // Unknown mesh type
@ -818,10 +867,17 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
var ReasonCode = common.ReadInt(data, 1);
disconnectCommandCount++;
parent.debug('mpscmd', '--> DISCONNECT', ReasonCode);
try { delete obj.ciraConnections[socket.tag.nodeid]; } catch (e) { }
obj.parent.ClearConnectivityState(socket.tag.meshid, socket.tag.nodeid, socket.tag.connType);
removeCiraConnection(socket);
return 7;
}
case APFProtocol.MESH_CONNECTION_TYPE: // This is a Mesh specific command to indicate the connect type.
{
if (len < 5) return 0;
if ((socket.tag.connType == 0) && (socket.tag.SystemId == null)) { // Once set, the connection type can't be changed.
socket.tag.connType = common.ReadInt(data, 1); // 0 = CIRA, 1 = Relay, 2 = LMS
}
return 5;
}
default:
{
parent.debug('mpscmd', '--> Unknown CIRA command: ' + cmd);
@ -833,8 +889,14 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
// Disconnect CIRA tunnel
obj.close = function (socket) {
try { socket.end(); } catch (e) { }
try { delete obj.ciraConnections[socket.tag.nodeid]; } catch (e) { }
obj.parent.ClearConnectivityState(socket.tag.meshid, socket.tag.nodeid, socket.tag.connType);
removeCiraConnection(socket);
};
// Disconnect all CIRA tunnel for a given NodeId
obj.closeAllForNode = function (nodeid) {
var connections = obj.ciraConnections[nodeid];
if (connections == null) return;
for (var i in connections) { obj.close(connections[i]); }
};
function SendServiceAccept(socket, service) {
@ -926,18 +988,36 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
}
}
// Setup a new channel to a nodeid
obj.SetupChannelToNode = function (nodeid, targetport) {
var ciraconn = obj.ciraConnections[nodeid];
if (ciraconn == null) return null;
return obj.SetupChannel(ciraconn, targetport);
// Returns a CIRA/Relay/LMS connection to a nodeid, use the best possible connection, CIRA first, Relay second, LMS third.
// if oob is set to true, don't allow an LMS connection.
obj.GetConnectionToNode = function (nodeid, targetport, oob) {
var connectionArray = obj.ciraConnections[nodeid];
if (connectionArray == null) return null;
var selectConn = null;
// Select the best connection, which is the one with the lowest connType value.
for (var i in connectionArray) {
var conn = connectionArray[i];
if ((oob === true) && (conn.tag.connType == 2)) continue; // If an OOB connection is required, don't allow LMS connections.
if ((typeof oob === 'number') && (conn.tag.connType !== oob)) continue; // if OOB specifies an exact connection type, filter on this type.
if ((targetport != null) && (conn.tag.boundPorts.indexOf(targetport) == -1)) continue; // This connection does not route to the target port.
if ((selectConn == null) || (conn.tag.connType < selectConn.tag.connType)) { selectConn = conn; }
}
return selectConn;
}
// Setup a new channel to a nodeid, use the best possible connection, CIRA first, Relay second, LMS third.
// if oob is set to true, don't allow an LMS connection.
obj.SetupChannelToNode = function (nodeid, targetport, oob) {
var conn = obj.GetConnectionToNode(nodeid, targetport, oob);
if (conn == null) return null;
return obj.SetupChannel(conn, targetport);
}
// Setup a new channel
obj.SetupChannel = function (socket, targetport) {
var sourceport = (socket.tag.nextsourceport++ % 30000) + 1024;
var cirachannel = { targetport: targetport, channelid: socket.tag.nextchannelid++, socket: socket, state: 1, sendcredits: 0, amtpendingcredits: 0, amtCiraWindow: 0, ciraWindow: 32768 };
SendChannelOpen(socket, false, cirachannel.channelid, cirachannel.ciraWindow, socket.tag.host, targetport, "1.2.3.4", sourceport);
SendChannelOpen(socket, false, cirachannel.channelid, cirachannel.ciraWindow, socket.tag.host, targetport, '1.2.3.4', sourceport);
// This function writes data to this CIRA channel
cirachannel.write = function (data) {
@ -1015,8 +1095,12 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
// Change a node to a new meshid, this is called when a node changes groups.
obj.changeDeviceMesh = function (nodeid, newMeshId) {
var socket = obj.ciraConnections[nodeid];
if ((socket != null) && (socket.tag != null)) { socket.tag.meshid = newMeshId; }
var connectionArray = obj.ciraConnections[nodeid];
if (connectionArray == null) return;
for (var i in connectionArray) {
var socket = connectionArray[i];
if ((socket != null) && (socket.tag != null)) { socket.tag.meshid = newMeshId; }
}
}
// Called when handling incoming HTTP data

View File

@ -3375,11 +3375,11 @@ module.exports.CreateWebServer = function (parent, db, args, certificates) {
}
// If Intel AMT CIRA connection is available, use it
if (((conn & 2) != 0) && (parent.mpsserver.ciraConnections[req.query.host] != null)) {
var ciraconn = parent.mpsserver.GetConnectionToNode(req.query.host, null, false);
if (ciraconn != null) {
parent.debug('web', 'Opening relay CIRA channel connection to ' + req.query.host + '.');
var ciraconn = parent.mpsserver.ciraConnections[req.query.host];
// TODO: If ciraconn is a relay connection, we can't detect the TLS state like this.
// Compute target port, look at the CIRA port mappings, if non-TLS is allowed, use that, if not use TLS
var port = 16993;
//if (node.intelamt.tls == 0) port = 16992; // DEBUG: Allow TLS flag to set TLS mode within CIRA