mirror of
https://github.com/Ylianst/MeshCentral.git
synced 2024-11-25 20:51:23 +03:00
Added MEI state exchange over CIRA-LMS.
This commit is contained in:
parent
d38a7d4ff6
commit
e7ceecca23
@ -35,6 +35,7 @@
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<Compile Include="agents\modules_meshcmd\amt-wsman.js" />
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<Compile Include="agents\modules_meshcmd\amt-xml.js" />
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<Compile Include="agents\modules_meshcmd\amt.js" />
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<Compile Include="agents\modules_meshcmd\apfclient.js" />
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<Compile Include="agents\modules_meshcmd\identifiers.js" />
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<Compile Include="agents\modules_meshcmd\smbios.js" />
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<Compile Include="agents\modules_meshcmd\sysinfo.js" />
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@ -597,20 +597,7 @@ function run(argv) {
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});
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} else if (settings.action == 'amtinfodebug') {
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// Display Intel AMT version and activation state
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mestate = {};
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var amtMeiModule, amtMei;
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try { amtMeiModule = require('amt-mei'); amtMei = new amtMeiModule(); } catch (ex) { console.log(ex); exit(1); return; }
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amtMei.on('error', function (e) { console.log('ERROR: ' + e); exit(1); return; });
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amtMei.getVersion(function (result) { console.log('getVersion: ' + JSON.stringify(result)); });
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amtMei.getProvisioningState(function (result) { console.log('getProvisioningState: ' + JSON.stringify(result)); });
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amtMei.getProvisioningMode(function (result) { console.log('getProvisioningMode: ' + JSON.stringify(result)); });
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amtMei.getEHBCState(function (result) { if (result) { console.log('getEHBCState: ' + JSON.stringify(result)); } });
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amtMei.getControlMode(function (result) { if (result) { console.log('getControlMode: ' + JSON.stringify(result)); } });
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amtMei.getMACAddresses(function (result) { if (result) { console.log('getMACAddresses: ' + JSON.stringify(result)); } });
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amtMei.getLanInterfaceSettings(0, function (result) { console.log('getLanInterfaceSettings0: ' + JSON.stringify(result)); });
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amtMei.getLanInterfaceSettings(1, function (result) { console.log('getLanInterfaceSettings1: ' + JSON.stringify(result)); });
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amtMei.getUuid(function (result) { console.log('getUuid: ' + JSON.stringify(result)); });
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amtMei.getDnsSuffix(function (result) { console.log('getDnsSuffix: ' + JSON.stringify(result)); exit(1); });
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getMeiState(15, function (state) { console.log(JSON.stringify(state, null, 2)); exit(1); }); // Flags: 1 = Versions, 2 = OsAdmin, 4 = Hashes, 8 = Network
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} else if (settings.action == 'amtsavestate') {
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// Save the entire state of Intel AMT info a JSON file
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if ((settings.password == null) || (typeof settings.password != 'string') || (settings.password == '')) { console.log('No or invalid \"password\" specified, use --password [password].'); exit(1); return; }
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@ -1148,75 +1135,50 @@ function startMeshCommander() {
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function configureAmt() {
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console.log('Starting Intel AMT configuration...');
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settings.noconsole = true;
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// Display Intel AMT version and activation state
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mestate = {};
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var amtMeiModule, amtMei;
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try { amtMeiModule = require('amt-mei'); amtMei = new amtMeiModule(); } catch (ex) { console.log(ex); exit(1); return; }
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amtMei.on('error', function (e) { console.log('ERROR: ' + e); exit(1); return; });
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amtMei.getProvisioningState(function (result) { if (result) { mestate.ProvisioningState = result; } });
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amtMei.getVersion(function (val) { mestate.vers = {}; if (val != null) { for (var version in val.Versions) { mestate.vers[val.Versions[version].Description] = val.Versions[version].Version; } } });
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amtMei.getLanInterfaceSettings(0, function (result) { if (result) { mestate.net0 = result; } });
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amtMei.getUuid(function (result) { if ((result != null) && (result.uuid != null)) { mestate.uuid = result.uuid; } });
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amtMei.getControlMode(function (result) { if (result != null) { mestate.controlMode = result.controlMode; } }); // controlMode: 0 = NoActivated, 1 = CCM, 2 = ACM
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amtMei.getDnsSuffix(function (result) {
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if ((mestate.vers == null) || (mestate.vers['AMT'] == null)) { console.log("Unable to get Intel AMT version."); exit(100); return; }
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if (mestate.ProvisioningState == null) { console.log("Unable to read Intel AMT activation state."); exit(100); return; }
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//if ((settings.action != 'amtdiscover') && (mestate.controlMode == 2)) { console.log("Intel AMT already activation in admin control mode."); exit(100); return; }
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if (mestate.uuid == null) { console.log("Unable to get Intel AMT UUID."); exit(100); return; }
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var fqdn = null;
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//if ((mestate.net0 == null) && (meinfo.net0.enabled != 0)) { console.log("No Intel AMT wired interface, can't perform ACM activation."); exit(100); return; }
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if (result) { fqdn = result; } // If Intel AMT has a trusted DNS suffix set, use that one.
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else {
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// Look for the DNS suffix for the Intel AMT Ethernet interface
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var interfaces = require('os').networkInterfaces();
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for (var i in interfaces) {
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for (var j in interfaces[i]) {
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if ((interfaces[i][j].mac == mestate.net0.mac) && (interfaces[i][j].fqdn != null) && (interfaces[i][j].fqdn != '')) { fqdn = interfaces[i][j].fqdn; }
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}
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}
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}
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if (fqdn != null) { settings.fqdn = fqdn; settings.uuid = mestate.uuid; }
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getTrustedHashes(amtMei, function () { startLms(configureAmt2, amtMei); });
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});
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startLms(configureAmt2, amtMei);
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}
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function configureAmt2() {
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// Connect to MPS and start APF relay
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var apfarg = {
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mpsurl: settings.url,
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mpsuser: settings.id.substring(0, 16),
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mpspass: settings.id.substring(0, 16),
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mpskeepalive: 60000,
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clientname: require('os').hostname(),
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clientaddress: '127.0.0.1',
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clientuuid: mestate.uuid,
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conntype: 2 // 0 = CIRA, 1 = Relay, 2 = LMS. The correct value is 2 since we are performing an LMS relay.
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};
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if ((apfarg.clientuuid == null) || (apfarg.clientuuid.length != 36)) {
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console.log("Unable to get Intel AMT UUID: " + apfarg.clientuuid);
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exit(1); return;
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} else {
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settings.apftunnel = require('apfclient')({ debug: (settings.debuglevel > 0) }, apfarg);
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settings.apftunnel.onJsonControl = configureJsonControl;
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settings.apftunnel.onChannelClosed = function () { exit(0); }
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try {
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settings.apftunnel.connect();
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console.log("Started APF tunnel...");
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} catch (e) {
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console.log(JSON.stringify(e));
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getMeiState(15, function (state) { // Flags: 1 = Versions, 2 = OsAdmin, 4 = Hashes, 8 = Network
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// Connect to MPS and start APF relay
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var apfarg = {
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mpsurl: settings.url,
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mpsuser: settings.id.substring(0, 16),
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mpspass: settings.id.substring(0, 16),
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mpskeepalive: 60000,
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clientname: require('os').hostname(),
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clientaddress: '127.0.0.1',
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clientuuid: state.UUID,
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conntype: 2, // 0 = CIRA, 1 = Relay, 2 = LMS. The correct value is 2 since we are performing an LMS relay.
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meiState: state
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};
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if ((apfarg.clientuuid == null) || (apfarg.clientuuid.length != 36)) {
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console.log("Unable to get Intel AMT UUID: " + apfarg.clientuuid);
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exit(1); return;
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} else {
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settings.apftunnel = require('apfclient')({ debug: (settings.debuglevel > 0) }, apfarg);
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settings.apftunnel.onJsonControl = configureJsonControl;
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settings.apftunnel.onChannelClosed = function () { exit(0); }
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try {
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settings.apftunnel.connect();
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console.log("Started APF tunnel...");
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} catch (e) {
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console.log(JSON.stringify(e));
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exit(1); return;
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}
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}
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}
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});
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}
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function configureJsonControl(data) {
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switch (data.action) {
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case 'console':
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case 'console': // Display a console message
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console.log(data.msg);
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break;
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case 'close':
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case 'mestate': // Request an updated MEI state
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getMeiState(15, function (state) { settings.apftunnel.updateMeiState(state); });
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break;
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case 'close': // Close the CIRA-LMS connection
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exit(0);
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break;
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}
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@ -2983,6 +2945,40 @@ function performAmtPowerActionEx2(stack, name, response, status) {
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}
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}
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//
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// Get MEI state
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//
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// Get Intel MEI State in a flexible way
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// Flags: 1 = Versions, 2 = OsAdmin, 4 = Hashes, 8 = Network
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function getMeiState(flags, func) {
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var amtMeiModule, amtMei;
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try { amtMeiModule = require('amt-mei'); amtMei = new amtMeiModule(); } catch (ex) { func(null); return; }
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amtMei.on('error', function (e) { func(null); return; });
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try {
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var amtMeiTmpState = { Flags: 0 }; // Flags: 1=EHBC, 2=CCM, 4=ACM
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amtMei.getProtocolVersion(function (result) { if (result != null) { amtMeiTmpState.MeiVersion = result; } });
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if ((flags & 1) != 0) { amtMei.getVersion(function (result) { if (result) { amtMeiTmpState.Versions = {}; for (var version in result.Versions) { amtMeiTmpState.Versions[result.Versions[version].Description] = result.Versions[version].Version; } } }); }
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amtMei.getProvisioningMode(function (result) { if (result) { amtMeiTmpState.ProvisioningMode = result.mode; } });
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amtMei.getProvisioningState(function (result) { if (result) { amtMeiTmpState.ProvisioningState = result.state; } }); // 0: "Not Activated (Pre)", 1: "Not Activated (In)", 2: "Activated"
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amtMei.getEHBCState(function (result) { if ((result != null) && (result.EHBC == true)) { amtMeiTmpState.Flags += 1; } });
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amtMei.getControlMode(function (result) { if (result != null) { if (result.controlMode == 1) { amtMeiTmpState.Flags += 2; } if (result.controlMode == 2) { amtMeiTmpState.Flags += 4; } } }); // Flag 2 = CCM, 4 = ACM
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//amtMei.getMACAddresses(function (result) { if (result) { amtMeiTmpState.mac = result; } });
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if ((flags & 8) != 0) { amtMei.getLanInterfaceSettings(0, function (result) { if (result) { amtMeiTmpState.net0 = result; } }); }
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if ((flags & 8) != 0) { amtMei.getLanInterfaceSettings(1, function (result) { if (result) { amtMeiTmpState.net1 = result; } }); }
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amtMei.getUuid(function (result) { if ((result != null) && (result.uuid != null)) { amtMeiTmpState.UUID = result.uuid; } });
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if ((flags & 2) != 0) { amtMei.getLocalSystemAccount(function (x) { if ((x != null) && x.user && x.pass) { amtMeiTmpState.OsAdmin = { user: x.user, pass: x.pass }; } }); }
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amtMei.getDnsSuffix(function (result) { if (result != null) { amtMeiTmpState.DNS = result; } if ((flags & 4) == 0) { if (func != null) { func(amtMeiTmpState); } } });
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if ((flags & 4) != 0) {
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amtMei.getHashHandles(function (handles) {
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if (handles != null) { amtMeiTmpState.Hashes = []; } else { func(amtMeiTmpState); }
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var exitOnCount = handles.length;
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for (var i = 0; i < handles.length; ++i) { this.getCertHashEntry(handles[i], function (hashresult) { amtMeiTmpState.Hashes.push(hashresult); if (--exitOnCount == 0) { if (func != null) { func(amtMeiTmpState); } } }); }
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});
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}
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} catch (e) { if (func != null) { func(null); } return; }
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}
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//
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// Startup
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@ -3541,26 +3541,40 @@ function createMeshCore(agent) {
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break;
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}
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case 'amtconfig': {
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if (meshCoreObj.intelamt == null) { response = "No Intel AMT support delected"; break; }
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if (apftunnel != null) { response = "Intel AMT server tunnel already active"; break; }
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var apfarg = {
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mpsurl: mesh.ServerUrl.replace('agent.ashx', 'apf.ashx'),
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mpsuser: Buffer.from(mesh.ServerInfo.MeshID, 'hex').toString('base64').substring(0, 16),
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mpspass: Buffer.from(mesh.ServerInfo.MeshID, 'hex').toString('base64').substring(0, 16),
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mpskeepalive: 60000,
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clientname: require('os').hostname(),
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clientaddress: '127.0.0.1',
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clientuuid: meshCoreObj.intelamt.uuid,
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conntype: 2 // 0 = CIRA, 1 = Relay, 2 = LMS. The correct value is 2 since we are performing an LMS relay, other values for testing.
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};
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if ((apfarg.clientuuid == null) || (apfarg.clientuuid.length != 36)) { response = "Unable to get Intel AMT UUID"; break; }
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apftunnel = require('apfclient')({ debug: false }, apfarg);
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apftunnel.onJsonControl = function (data) {
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if (data.action == 'console') { require('MeshAgent').SendCommand({ action: 'msg', type: 'console', value: data.msg }); }
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if (data.action == 'close') { try { apftunnel.disconnect(); } catch (e) { } apftunnel = null; }
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}
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apftunnel.onChannelClosed = function () { apftunnel = null; }
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try { apftunnel.connect(); response = "Started Intel AMT configuration"; } catch (ex) { response = JSON.stringify(ex); }
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if (amt == null) { response = "No Intel AMT support delected"; break; }
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getMeiState(15, function (state) {
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var rx = '';
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var apfarg = {
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mpsurl: mesh.ServerUrl.replace('agent.ashx', 'apf.ashx'),
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mpsuser: Buffer.from(mesh.ServerInfo.MeshID, 'hex').toString('base64').substring(0, 16),
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mpspass: Buffer.from(mesh.ServerInfo.MeshID, 'hex').toString('base64').substring(0, 16),
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mpskeepalive: 60000,
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clientname: require('os').hostname(),
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clientaddress: '127.0.0.1',
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clientuuid: state.UUID,
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conntype: 2, // 0 = CIRA, 1 = Relay, 2 = LMS. The correct value is 2 since we are performing an LMS relay, other values for testing.
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meiState: state // MEI state will be passed to MPS server
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};
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if ((state.UUID == null) || (state.UUID.length != 36)) {
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rx = "Unable to get Intel AMT UUID";
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} else {
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apftunnel = require('apfclient')({ debug: false }, apfarg);
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apftunnel.onJsonControl = function (data) {
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if (data.action == 'console') { require('MeshAgent').SendCommand({ action: 'msg', type: 'console', value: data.msg }); } // Display a console message
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if (data.action == 'mestate') { getMeiState(15, function (state) { apftunnel.updateMeiState(state); }); } // Update the MEI state
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if (data.action == 'close') { try { apftunnel.disconnect(); } catch (e) { } apftunnel = null; } // Close the CIRA-LMS connection
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}
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apftunnel.onChannelClosed = function () { apftunnel = null; }
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try {
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apftunnel.connect();
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rx = "Started Intel AMT configuration";
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} catch (ex) {
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rx = JSON.stringify(ex);
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}
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}
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if (rx != '') { require('MeshAgent').SendCommand({ action: 'msg', type: 'console', value: rx }); }
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});
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break;
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}
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case 'apf': {
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@ -3819,6 +3833,36 @@ function createMeshCore(agent) {
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s.data = onWebSocketData;
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}
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// Get Intel MEI State in a flexible way
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// Flags: 1 = Versions, 2 = OsAdmin, 4 = Hashes, 8 = Network
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function getMeiState(flags, func) {
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var amtMeiModule, amtMei;
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try { amtMeiModule = require('amt-mei'); amtMei = new amtMeiModule(); } catch (ex) { func(null); return; }
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amtMei.on('error', function (e) { func(null); return; });
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try {
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var amtMeiTmpState = { Flags: 0 }; // Flags: 1=EHBC, 2=CCM, 4=ACM
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amtMei.getProtocolVersion(function (result) { if (result != null) { amtMeiTmpState.MeiVersion = result; } });
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if ((flags & 1) != 0) { amtMei.getVersion(function (result) { if (result) { amtMeiTmpState.Versions = {}; for (var version in result.Versions) { amtMeiTmpState.Versions[result.Versions[version].Description] = result.Versions[version].Version; } } }); }
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amtMei.getProvisioningMode(function (result) { if (result) { amtMeiTmpState.ProvisioningMode = result.mode; } });
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amtMei.getProvisioningState(function (result) { if (result) { amtMeiTmpState.ProvisioningState = result.state; } }); // 0: "Not Activated (Pre)", 1: "Not Activated (In)", 2: "Activated"
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amtMei.getEHBCState(function (result) { if ((result != null) && (result.EHBC == true)) { amtMeiTmpState.Flags += 1; } });
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amtMei.getControlMode(function (result) { if (result != null) { if (result.controlMode == 1) { amtMeiTmpState.Flags += 2; } if (result.controlMode == 2) { amtMeiTmpState.Flags += 4; } } }); // Flag 2 = CCM, 4 = ACM
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//amtMei.getMACAddresses(function (result) { if (result) { amtMeiTmpState.mac = result; } });
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if ((flags & 8) != 0) { amtMei.getLanInterfaceSettings(0, function (result) { if (result) { amtMeiTmpState.net0 = result; } }); }
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if ((flags & 8) != 0) { amtMei.getLanInterfaceSettings(1, function (result) { if (result) { amtMeiTmpState.net1 = result; } }); }
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amtMei.getUuid(function (result) { if ((result != null) && (result.uuid != null)) { amtMeiTmpState.UUID = result.uuid; } });
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if ((flags & 2) != 0) { amtMei.getLocalSystemAccount(function (x) { if ((x != null) && x.user && x.pass) { amtMeiTmpState.OsAdmin = { user: x.user, pass: x.pass }; } }); }
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amtMei.getDnsSuffix(function (result) { if (result != null) { amtMeiTmpState.DNS = result; } if ((flags & 4) == 0) { if (func != null) { func(amtMeiTmpState); } } });
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if ((flags & 4) != 0) {
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amtMei.getHashHandles(function (handles) {
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if (handles != null) { amtMeiTmpState.Hashes = []; } else { func(amtMeiTmpState); }
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var exitOnCount = handles.length;
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for (var i = 0; i < handles.length; ++i) { this.getCertHashEntry(handles[i], function (hashresult) { amtMeiTmpState.Hashes.push(hashresult); if (--exitOnCount == 0) { if (func != null) { func(amtMeiTmpState); } } }); }
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});
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}
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} catch (e) { if (func != null) { func(null); } return; }
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}
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return obj;
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}
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@ -173,11 +173,16 @@ function CreateAPFClient(parent, args) {
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});
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obj.state = CIRASTATE.INITIAL;
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if ((typeof obj.args.conntype == 'number') && (obj.args.conntype != 0)) { SendJsonControl(obj.forwardClient.ws, { action: 'connType', value: obj.args.conntype } ); }
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if ((typeof obj.args.conntype == 'number') && (obj.args.conntype != 0)) {
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SendJsonControl(obj.forwardClient.ws, { action: 'connType', value: obj.args.conntype });
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if (obj.args.meiState != null) { SendJsonControl(obj.forwardClient.ws, { action: 'meiState', value: obj.args.meiState }); }
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}
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SendProtocolVersion(obj.forwardClient.ws, obj.args.clientuuid);
|
||||
SendServiceRequest(obj.forwardClient.ws, 'auth@amt.intel.com');
|
||||
}
|
||||
|
||||
obj.updateMeiState = function (state) { SendJsonControl(obj.forwardClient.ws, { action: 'meiState', value: state }); }
|
||||
|
||||
function SendJsonControl(socket, o) {
|
||||
var data = JSON.stringify(o)
|
||||
socket.write(String.fromCharCode(APFProtocol.JSON_CONTROL) + IntToStr(data.length) + data);
|
||||
|
@ -173,11 +173,16 @@ function CreateAPFClient(parent, args) {
|
||||
});
|
||||
|
||||
obj.state = CIRASTATE.INITIAL;
|
||||
if ((typeof obj.args.conntype == 'number') && (obj.args.conntype != 0)) { SendJsonControl(obj.forwardClient.ws, { action: 'connType', value: obj.args.conntype } ); }
|
||||
if ((typeof obj.args.conntype == 'number') && (obj.args.conntype != 0)) {
|
||||
SendJsonControl(obj.forwardClient.ws, { action: 'connType', value: obj.args.conntype });
|
||||
if (obj.args.meiState != null) { SendJsonControl(obj.forwardClient.ws, { action: 'meiState', value: obj.args.meiState }); }
|
||||
}
|
||||
SendProtocolVersion(obj.forwardClient.ws, obj.args.clientuuid);
|
||||
SendServiceRequest(obj.forwardClient.ws, 'auth@amt.intel.com');
|
||||
}
|
||||
|
||||
obj.updateMeiState = function (state) { SendJsonControl(obj.forwardClient.ws, { action: 'meiState', value: state }); }
|
||||
|
||||
function SendJsonControl(socket, o) {
|
||||
var data = JSON.stringify(o)
|
||||
socket.write(String.fromCharCode(APFProtocol.JSON_CONTROL) + IntToStr(data.length) + data);
|
||||
|
@ -899,6 +899,7 @@ module.exports.CreateMeshAgent = function (parent, db, ws, req, args, domain) {
|
||||
}
|
||||
|
||||
// Take a basic Intel AMT policy and add all server information to it, making it ready to send to this agent.
|
||||
/*
|
||||
function completeIntelAmtPolicy(amtPolicy) {
|
||||
var r = amtPolicy;
|
||||
if (amtPolicy == null) return null;
|
||||
@ -923,12 +924,14 @@ module.exports.CreateMeshAgent = function (parent, db, ws, req, args, domain) {
|
||||
}
|
||||
return r;
|
||||
}
|
||||
*/
|
||||
|
||||
// Send Intel AMT policy
|
||||
obj.sendUpdatedIntelAmtPolicy = function (policy) {
|
||||
if (obj.agentExeInfo && (obj.agentExeInfo.amt == true)) { // Only send Intel AMT policy to agents what could have AMT.
|
||||
if (policy == null) { var mesh = parent.meshes[obj.dbMeshKey]; if (mesh == null) return; policy = mesh.amt; }
|
||||
if (policy != null) { try { obj.send(JSON.stringify({ action: 'amtPolicy', amtPolicy: completeIntelAmtPolicy(common.Clone(policy)) })); } catch (ex) { } }
|
||||
// TODO
|
||||
//if (policy == null) { var mesh = parent.meshes[obj.dbMeshKey]; if (mesh == null) return; policy = mesh.amt; }
|
||||
//if (policy != null) { try { obj.send(JSON.stringify({ action: 'amtPolicy', amtPolicy: completeIntelAmtPolicy(common.Clone(policy)) })); } catch (ex) { } }
|
||||
}
|
||||
}
|
||||
|
||||
@ -981,9 +984,11 @@ module.exports.CreateMeshAgent = function (parent, db, ws, req, args, domain) {
|
||||
});
|
||||
|
||||
// Send Intel AMT policy
|
||||
/*
|
||||
if (obj.agentExeInfo && (obj.agentExeInfo.amt == true) && (mesh.amt != null)) { // Only send Intel AMT policy to agents what could have AMT.
|
||||
try { obj.send(JSON.stringify({ action: 'amtPolicy', amtPolicy: completeIntelAmtPolicy(common.Clone(mesh.amt)) })); } catch (ex) { }
|
||||
}
|
||||
*/
|
||||
|
||||
// Fetch system information
|
||||
db.GetHash('si' + obj.dbNodeKey, function (err, results) {
|
||||
|
@ -894,6 +894,13 @@ module.exports.CreateMpsServer = function (parent, db, args, certificates) {
|
||||
if ((socket.tag.connType != 0) || (socket.tag.SystemId != null)) return; // Once set, the connection type can't be changed.
|
||||
if (typeof jsondata.value != 'number') return;
|
||||
socket.tag.connType = jsondata.value; // 0 = CIRA, 1 = Relay, 2 = LMS
|
||||
//obj.SendJsonControl(socket, { action: 'mestate' }); // Request an MEI state refresh
|
||||
break;
|
||||
case 'meiState':
|
||||
if (socket.tag.connType != 2) break; // Only accept MEI state on CIRA-LMS connection
|
||||
socket.tag.meiState = jsondata.value;
|
||||
//if (socket.tag.meiState.UUID != null) { console.log('MEI State', socket.tag.meiState.UUID); }
|
||||
//console.log('meiState', JSON.stringify(socket.tag.meiState, null, 2)); // DEBUG
|
||||
break;
|
||||
}
|
||||
return 5 + jsondatalen;
|
||||
|
Loading…
Reference in New Issue
Block a user