amt-0.2.0_ru.js

/**
* @fileoverview Intel(r) AMT Communication StackXX
* @author Ylian Saint-Hilaire
* @version v0.2.0b
*/

/**
 * Construct a AmtStackCreateService object, this ia the main Intel AMT communication stack.
 * @constructor
 */
function AmtStackCreateService(wsmanStack) {
    var obj = new Object();
    obj.wsman = wsmanStack;
    obj.pfx = ['http://intel.com/wbem/wscim/1/amt-schema/1/', 'http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/', 'http://intel.com/wbem/wscim/1/ips-schema/1/'];
    obj.PendingEnums = [];
    obj.PendingBatchOperations = 0;
    obj.ActiveEnumsCount = 0;
    obj.MaxActiveEnumsCount = 1; // Maximum number of enumerations that can be done at the same time.
    obj.onProcessChanged = null;
    var _MaxProcess = 0;
    var _LastProcess = 0;

    // Return the number of pending actions
    obj.GetPendingActions = function () { return (obj.PendingEnums.length * 2) + (obj.ActiveEnumsCount) + obj.wsman.comm.PendingAjax.length + obj.wsman.comm.ActiveAjaxCount + obj.PendingBatchOperations; }

    // Private Method, Update the current processing status, this gives the application an idea of what progress is being done by the WSMAN stack
    function _up() {
        var x = obj.GetPendingActions();
        if (_MaxProcess < x) _MaxProcess = x;
        if (obj.onProcessChanged != null && _LastProcess != x) {
            //console.log('Process Old=' + _LastProcess + ', New=' + x + ', PEnums=' + obj.PendingEnums.length + ', AEnums=' + obj.ActiveEnumsCount + ', PAjax=' + obj.wsman.comm.PendingAjax.length + ', AAjax=' + obj.wsman.comm.ActiveAjaxCount + ', PBatch=' + obj.PendingBatchOperations);
            _LastProcess = x;
            obj.onProcessChanged(x, _MaxProcess);
        }
        if (x == 0) _MaxProcess = 0;
    }

    // Perform a WSMAN "SUBSCRIBE" operation.
    obj.Subscribe = function (name, delivery, url, callback, tag, pri, selectors, opaque, user, pass) { obj.wsman.ExecSubscribe(obj.CompleteName(name), delivery, url, function (ws, resuri, response, xstatus) { _up(); callback(obj, name, response, xstatus, tag); }, 0, pri, selectors, opaque, user, pass); _up(); }

    // Perform a WSMAN "UNSUBSCRIBE" operation.
    obj.UnSubscribe = function (name, callback, tag, pri, selectors) { obj.wsman.ExecUnSubscribe(obj.CompleteName(name), function (ws, resuri, response, xstatus) { _up(); callback(obj, name, response, xstatus, tag); }, 0, pri, selectors); _up(); }

    // Perform a WSMAN "GET" operation.
    obj.Get = function (name, callback, tag, pri) { obj.wsman.ExecGet(obj.CompleteName(name), function (ws, resuri, response, xstatus) { _up(); callback(obj, name, response, xstatus, tag); }, 0, pri); _up(); }

    // Perform a WSMAN "PUT" operation.
    obj.Put = function (name, putobj, callback, tag, pri, selectors) { obj.wsman.ExecPut(obj.CompleteName(name), putobj, function (ws, resuri, response, xstatus) { _up(); callback(obj, name, response, xstatus, tag); }, 0, pri, selectors); _up(); }
	
    // Perform a WSMAN "CREATE" operation.
    obj.Create = function (name, putobj, callback, tag, pri) { obj.wsman.ExecCreate(obj.CompleteName(name), putobj, function (ws, resuri, response, xstatus) { _up(); callback(obj, name, response, xstatus, tag); }, 0, pri); _up(); }

    // Perform a WSMAN "DELETE" operation.
    obj.Delete = function (name, putobj, callback, tag, pri) { obj.wsman.ExecDelete(obj.CompleteName(name), putobj, function (ws, resuri, response, xstatus) { _up(); callback(obj, name, response, xstatus, tag); }, 0, pri); _up(); }

    // Perform a WSMAN method call operation.
    obj.Exec = function (name, method, args, callback, tag, pri, selectors) { obj.wsman.ExecMethod(obj.CompleteName(name), method, args, function (ws, resuri, response, xstatus) { _up(); callback(obj, name, obj.CompleteExecResponse(response), xstatus, tag); }, 0, pri, selectors); _up(); }
	
    // Perform a WSMAN method call operation.
    obj.ExecWithXml = function (name, method, args, callback, tag, pri, selectors) { obj.wsman.ExecMethodXml(obj.CompleteName(name), method, execArgumentsToXml(args), function (ws, resuri, response, xstatus) { _up(); callback(obj, name, obj.CompleteExecResponse(response), xstatus, tag); }, 0, pri, selectors); _up(); }
	
    // Perform a WSMAN "ENUMERATE" operation.
    obj.Enum = function (name, callback, tag, pri) {
        if (obj.ActiveEnumsCount < obj.MaxActiveEnumsCount) {
            //console.log('ENUM-DO', obj.ActiveEnumsCount, obj.MaxActiveEnumsCount, obj.PendingEnums.length);
            obj.ActiveEnumsCount++; obj.wsman.ExecEnum(obj.CompleteName(name), function (ws, resuri, response, xstatus, tag0) { _up(); _EnumStartSink(name, response, callback, resuri, xstatus, tag0); }, tag, pri);
        } else {
            obj.PendingEnums.push([name, callback, tag, pri]);
            //console.log('ENUM-PENDING', obj.ActiveEnumsCount, obj.MaxActiveEnumsCount, obj.PendingEnums.length);
        }
        _up();
    }

    // Private method
    function _EnumStartSink(name, response, callback, resuri, status, tag, pri) {
        if (status != 200) {
            //console.log('Got ' + status + ' on _EnumStartSink for ' + name);
            callback(obj, name, null, status, tag); _EnumDoNext(1); return;
        }
        if (response == null || response.Header['Method'] != 'EnumerateResponse' || !response.Body['EnumerationContext']) { callback(obj, name, null, 603, tag); _EnumDoNext(1); return; }
        var enumctx = response.Body['EnumerationContext'];
        obj.wsman.ExecPull(resuri, enumctx, function (ws, resuri, response, xstatus) { _EnumContinueSink(name, response, callback, resuri, [], xstatus, tag, pri); });
    }

    // Private method
    function _EnumContinueSink(name, response, callback, resuri, items, status, tag, pri) {
        if (status != 200) {
            //console.log('Got ' + status + ' on _EnumContinueSink for ' + name);
            callback(obj, name, null, status, tag); _EnumDoNext(1); return;
        }
        if (response == null || response.Header['Method'] != 'PullResponse') { callback(obj, name, null, 604, tag); _EnumDoNext(1); return; }
        for (var i in response.Body['Items']) {
            if (response.Body['Items'][i] instanceof Array) {
                for (var j in response.Body['Items'][i]) { if (typeof response.Body['Items'][i][j] != 'function') { items.push(response.Body['Items'][i][j]); } }
            } else {
                if (typeof response.Body['Items'][i] != 'function') { items.push(response.Body['Items'][i]); }
            }
        }
        if (response.Body['EnumerationContext']) {
            var enumctx = response.Body['EnumerationContext'];
            obj.wsman.ExecPull(resuri, enumctx, function (ws, resuri, response, xstatus) { _EnumContinueSink(name, response, callback, resuri, items, xstatus, tag, 1); });
        } else {
            //console.log('ENUM-DONE');
            _EnumDoNext(1);
            callback(obj, name, items, status, tag);
            _up();
        }
    }

    // Private method
    function _EnumDoNext(dec) {
        obj.ActiveEnumsCount -= dec;
        if ((obj.ActiveEnumsCount >= obj.MaxActiveEnumsCount) || (obj.PendingEnums.length == 0)) { _up(); return; }
        var x = obj.PendingEnums.shift();
        obj.Enum(x[0], x[1], x[2]);
        _EnumDoNext(0);
    }

    // Perform a batch of WSMAN "ENUM" or "GET" operations.
    // Since we are pipelining, continueOnError is no longer supported
    obj.BatchEnum = function (batchname, names, callback, tag, continueOnError, pri) {
        var results = { _pending: names.length };
        obj.PendingBatchOperations += names.length;
        //console.log('obj.PendingBatchOperations', obj.PendingBatchOperations);
        for (var i in names) {
            var n = names[i], f = obj.Enum;
            if (n[0] == '*') { f = obj.Get; n = n.substring(1); } // If the name starts with a star, do a GET instead of an ENUM. This will reduce round trips.
            //console.log((f == obj.Get ? 'Get ' : 'Enum ') + n);
            f(n, function (stack, name, responses, status, tag0) {
                //if (status != 200) { console.log('Got ' + status + ' on BatchEnum for ' + name + ', ' + tag0[3]); }
                obj.PendingBatchOperations--;
                //console.log('obj.PendingBatchOperations', obj.PendingBatchOperations);
                _up();
                tag0[2][name] = { response: (responses == null ? null : responses.Body), responses: responses, status: status };
                if ((--tag0[2]._pending) == 0) {
                    delete tag0[2]._pending;
                    callback.call(obj, obj, batchname, tag0[2], status, tag);
                }
            }, [batchname, names, results, (f == obj.Get ? 'Get' : 'Enum')], pri);
        }
    }

    /*
    // Perform a batch of WSMAN "ENUM" operations.
    obj.BatchEnum = function (batchname, names, callback, tag, continueOnError, pri) {
        obj.PendingBatchOperations += (names.length * 2);
        _BatchNextEnum(batchname, Clone(names), callback, tag, {}, continueOnError, pri); _up();
    }

    // Request each enum in the batch, stopping if something does not return status 200
    function _BatchNextEnum(batchname, names, callback, tag, results, continueOnError, pri) {
        obj.PendingBatchOperations -= 2;
        var n = names.shift(), f = obj.Enum;
        if (n[0] == '*') { f = obj.Get; n = n.substring(1); } // If the name starts with a star, do a GET instead of an ENUM. This will reduce round trips.
        //console.log((f == obj.Get?'Get ':'Enum ') + n);
        // Perform a GET/ENUM action
        f(n, function (stack, name, responses, status, tag0) {
            tag0[2][name] = { response: (responses==null?null:responses.Body), responses: responses, status: status };
            if (tag0[1].length == 0 || status == 401 || (continueOnError != true && status != 200 && status != 400)) { obj.PendingBatchOperations -= (names.length * 2); _up(); callback(obj, batchname, tag0[2], status, tag); }
            else { _up(); _BatchNextEnum(batchname, names, callback, tag, tag0[2], pri); }
        }, [batchname, names, results], pri);
        _up();
    }
    */

    // Perform a batch of WSMAN "GET" operations.
    obj.BatchGet = function (batchname, names, callback, tag, pri) {
        _FetchNext({ name: batchname, names: names, callback: callback, current: 0, responses: {}, tag: tag, pri: pri }); _up();
    }

    // Private method
    function _FetchNext(batch) {
        if (batch.names.length <= batch.current) {
            batch.callback(obj, batch.name, batch.responses, 200, batch.tag);
        } else {
            obj.wsman.ExecGet(obj.CompleteName(batch.names[batch.current]), function (ws, resuri, response, xstatus) { _Fetched(batch, response, xstatus); }, batch.pri);
            batch.current++;
        }
        _up();
    }

    // Private method
    function _Fetched(batch, response, status) {
        if (response == null || status != 200) {
            batch.callback(obj, batch.name, null, status, batch.tag);
        } else {
            batch.responses[response.Header['Method']] = response;
            _FetchNext(batch);
        }
    }

    // Private method
    obj.CompleteName = function(name) {
        if (name.indexOf('AMT_') == 0) return obj.pfx[0] + name;
        if (name.indexOf('CIM_') == 0) return obj.pfx[1] + name;
        if (name.indexOf('IPS_') == 0) return obj.pfx[2] + name;
    }

    obj.CompleteExecResponse = function (resp) {
        if (resp && resp != null && resp.Body && (resp.Body['ReturnValue'] != undefined)) { resp.Body.ReturnValueStr = obj.AmtStatusToStr(resp.Body['ReturnValue']); }
        return resp;
    }

    obj.RequestPowerStateChange = function (PowerState, callback_func) {
        obj.CIM_PowerManagementService_RequestPowerStateChange(PowerState, '<Address xmlns="http://schemas.xmlsoap.org/ws/2004/08/addressing">http://schemas.xmlsoap.org/ws/2004/08/addressing</Address><ReferenceParameters xmlns="http://schemas.xmlsoap.org/ws/2004/08/addressing"><ResourceURI xmlns="http://schemas.dmtf.org/wbem/wsman/1/wsman.xsd">http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_ComputerSystem</ResourceURI><SelectorSet xmlns="http://schemas.dmtf.org/wbem/wsman/1/wsman.xsd"><Selector Name="CreationClassName">CIM_ComputerSystem</Selector><Selector Name="Name">ManagedSystem</Selector></SelectorSet></ReferenceParameters>', null, null, callback_func);
    }

    obj.RequestOSPowerStateChange = function (PowerState, callback_func) {
        obj.IPS_PowerManagementService_RequestOSPowerSavingStateChange(PowerState, '<Address xmlns="http://schemas.xmlsoap.org/ws/2004/08/addressing">http://schemas.xmlsoap.org/ws/2004/08/addressing</Address><ReferenceParameters xmlns="http://schemas.xmlsoap.org/ws/2004/08/addressing"><ResourceURI xmlns="http://schemas.dmtf.org/wbem/wsman/1/wsman.xsd\">http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_ComputerSystem</ResourceURI><SelectorSet xmlns="http://schemas.dmtf.org/wbem/wsman/1/wsman.xsd"><Selector Name="CreationClassName">CIM_ComputerSystem</Selector><Selector Name="Name">ManagedSystem</Selector></SelectorSet></ReferenceParameters>', null, null, callback_func);
    }

    obj.SetBootConfigRole = function (Role, callback_func) {
        obj.CIM_BootService_SetBootConfigRole('<Address xmlns="http://schemas.xmlsoap.org/ws/2004/08/addressing">http://schemas.xmlsoap.org/ws/2004/08/addressing</Address><ReferenceParameters xmlns="http://schemas.xmlsoap.org/ws/2004/08/addressing"><ResourceURI xmlns="http://schemas.dmtf.org/wbem/wsman/1/wsman.xsd">http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_BootConfigSetting</ResourceURI><SelectorSet xmlns="http://schemas.dmtf.org/wbem/wsman/1/wsman.xsd"><Selector Name="InstanceID">Intel(r) AMT: Boot Configuration 0</Selector></SelectorSet></ReferenceParameters>', Role, callback_func);
    }

    // Cancel all pending queries with given status
    obj.CancelAllQueries = function (s) {
        obj.wsman.CancelAllQueries(s);
    }

    // Auto generated methods
    obj.AMT_AgentPresenceWatchdog_RegisterAgent = function (callback_func) { obj.Exec('AMT_AgentPresenceWatchdog', 'RegisterAgent', {}, callback_func); }
    obj.AMT_AgentPresenceWatchdog_AssertPresence = function (SequenceNumber, callback_func) { obj.Exec('AMT_AgentPresenceWatchdog', 'AssertPresence', { 'SequenceNumber': SequenceNumber }, callback_func); }
    obj.AMT_AgentPresenceWatchdog_AssertShutdown = function (SequenceNumber, callback_func) { obj.Exec('AMT_AgentPresenceWatchdog', 'AssertShutdown', { 'SequenceNumber': SequenceNumber }, callback_func); }
    obj.AMT_AgentPresenceWatchdog_AddAction = function (OldState, NewState, EventOnTransition, ActionSd, ActionEac, callback_func, tag, pri, selectors) { obj.Exec('AMT_AgentPresenceWatchdog', 'AddAction', { 'OldState': OldState, 'NewState': NewState, 'EventOnTransition': EventOnTransition, 'ActionSd': ActionSd, 'ActionEac': ActionEac }, callback_func, tag, pri, selectors); }
    obj.AMT_AgentPresenceWatchdog_DeleteAllActions = function (callback_func, tag, pri, selectors) { obj.Exec('AMT_AgentPresenceWatchdog', 'DeleteAllActions', {}, callback_func, tag, pri, selectors); }
    obj.AMT_AgentPresenceWatchdogAction_GetActionEac = function (callback_func) { obj.Exec('AMT_AgentPresenceWatchdogAction', 'GetActionEac', {}, callback_func); }
    obj.AMT_AgentPresenceWatchdogVA_RegisterAgent = function (callback_func) { obj.Exec('AMT_AgentPresenceWatchdogVA', 'RegisterAgent', {}, callback_func); }
    obj.AMT_AgentPresenceWatchdogVA_AssertPresence = function (SequenceNumber, callback_func) { obj.Exec('AMT_AgentPresenceWatchdogVA', 'AssertPresence', { 'SequenceNumber': SequenceNumber }, callback_func); }
    obj.AMT_AgentPresenceWatchdogVA_AssertShutdown = function (SequenceNumber, callback_func) { obj.Exec('AMT_AgentPresenceWatchdogVA', 'AssertShutdown', { 'SequenceNumber': SequenceNumber }, callback_func); }
    obj.AMT_AgentPresenceWatchdogVA_AddAction = function (OldState, NewState, EventOnTransition, ActionSd, ActionEac, callback_func) { obj.Exec('AMT_AgentPresenceWatchdogVA', 'AddAction', { 'OldState': OldState, 'NewState': NewState, 'EventOnTransition': EventOnTransition, 'ActionSd': ActionSd, 'ActionEac': ActionEac }, callback_func); }
    obj.AMT_AgentPresenceWatchdogVA_DeleteAllActions = function (_method_dummy, callback_func) { obj.Exec('AMT_AgentPresenceWatchdogVA', 'DeleteAllActions', { '_method_dummy': _method_dummy }, callback_func); }
    obj.AMT_AuditLog_ClearLog = function (callback_func) { obj.Exec('AMT_AuditLog', 'ClearLog', {}, callback_func); }
    obj.AMT_AuditLog_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('AMT_AuditLog', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.AMT_AuditLog_ReadRecords = function (StartIndex, callback_func, tag) { obj.Exec('AMT_AuditLog', 'ReadRecords', { 'StartIndex': StartIndex }, callback_func, tag); }
    obj.AMT_AuditLog_SetAuditLock = function (LockTimeoutInSeconds, Flag, Handle, callback_func) { obj.Exec('AMT_AuditLog', 'SetAuditLock', { 'LockTimeoutInSeconds': LockTimeoutInSeconds, 'Flag': Flag, 'Handle': Handle }, callback_func); }
    obj.AMT_AuditLog_ExportAuditLogSignature = function (SigningMechanism, callback_func) { obj.Exec('AMT_AuditLog', 'ExportAuditLogSignature', { 'SigningMechanism': SigningMechanism }, callback_func); }
    obj.AMT_AuditLog_SetSigningKeyMaterial = function (SigningMechanismType, SigningKey, LengthOfCertificates, Certificates, callback_func) { obj.Exec('AMT_AuditLog', 'SetSigningKeyMaterial', { 'SigningMechanismType': SigningMechanismType, 'SigningKey': SigningKey, 'LengthOfCertificates': LengthOfCertificates, 'Certificates': Certificates }, callback_func); }
    obj.AMT_AuditPolicyRule_SetAuditPolicy = function (Enable, AuditedAppID, EventID, PolicyType, callback_func) { obj.Exec('AMT_AuditPolicyRule', 'SetAuditPolicy', { 'Enable': Enable, 'AuditedAppID': AuditedAppID, 'EventID': EventID, 'PolicyType': PolicyType }, callback_func); }
    obj.AMT_AuditPolicyRule_SetAuditPolicyBulk = function (Enable, AuditedAppID, EventID, PolicyType, callback_func) { obj.Exec('AMT_AuditPolicyRule', 'SetAuditPolicyBulk', { 'Enable': Enable, 'AuditedAppID': AuditedAppID, 'EventID': EventID, 'PolicyType': PolicyType }, callback_func); }
    obj.AMT_AuthorizationService_AddUserAclEntryEx = function (DigestUsername, DigestPassword, KerberosUserSid, AccessPermission, Realms, callback_func) { obj.Exec('AMT_AuthorizationService', 'AddUserAclEntryEx', { 'DigestUsername': DigestUsername, 'DigestPassword': DigestPassword, 'KerberosUserSid': KerberosUserSid, 'AccessPermission': AccessPermission, 'Realms': Realms }, callback_func); }
    obj.AMT_AuthorizationService_EnumerateUserAclEntries = function (StartIndex, callback_func) { obj.Exec('AMT_AuthorizationService', 'EnumerateUserAclEntries', { 'StartIndex': StartIndex }, callback_func); }
    obj.AMT_AuthorizationService_GetUserAclEntryEx = function (Handle, callback_func, tag) { obj.Exec('AMT_AuthorizationService', 'GetUserAclEntryEx', { 'Handle': Handle }, callback_func, tag); }
    obj.AMT_AuthorizationService_UpdateUserAclEntryEx = function (Handle, DigestUsername, DigestPassword, KerberosUserSid, AccessPermission, Realms, callback_func) { obj.Exec('AMT_AuthorizationService', 'UpdateUserAclEntryEx', { 'Handle': Handle, 'DigestUsername': DigestUsername, 'DigestPassword': DigestPassword, 'KerberosUserSid': KerberosUserSid, 'AccessPermission': AccessPermission, 'Realms': Realms }, callback_func); }
    obj.AMT_AuthorizationService_RemoveUserAclEntry = function (Handle, callback_func) { obj.Exec('AMT_AuthorizationService', 'RemoveUserAclEntry', { 'Handle': Handle }, callback_func); }
    obj.AMT_AuthorizationService_SetAdminAclEntryEx = function (Username, DigestPassword, callback_func) { obj.Exec('AMT_AuthorizationService', 'SetAdminAclEntryEx', { 'Username': Username, 'DigestPassword': DigestPassword }, callback_func); }
    obj.AMT_AuthorizationService_GetAdminAclEntry = function (callback_func) { obj.Exec('AMT_AuthorizationService', 'GetAdminAclEntry', {}, callback_func); }
    obj.AMT_AuthorizationService_GetAdminAclEntryStatus = function (callback_func) { obj.Exec('AMT_AuthorizationService', 'GetAdminAclEntryStatus', {}, callback_func); }
    obj.AMT_AuthorizationService_GetAdminNetAclEntryStatus = function (callback_func) { obj.Exec('AMT_AuthorizationService', 'GetAdminNetAclEntryStatus', {}, callback_func); }
    obj.AMT_AuthorizationService_SetAclEnabledState = function (Handle, Enabled, callback_func, tag) { obj.Exec('AMT_AuthorizationService', 'SetAclEnabledState', { 'Handle': Handle, 'Enabled': Enabled }, callback_func, tag); }
    obj.AMT_AuthorizationService_GetAclEnabledState = function (Handle, callback_func, tag) { obj.Exec('AMT_AuthorizationService', 'GetAclEnabledState', { 'Handle': Handle }, callback_func, tag); }
    obj.AMT_EndpointAccessControlService_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('AMT_EndpointAccessControlService', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.AMT_EndpointAccessControlService_GetPosture = function (PostureType, callback_func) { obj.Exec('AMT_EndpointAccessControlService', 'GetPosture', { 'PostureType': PostureType }, callback_func); }
    obj.AMT_EndpointAccessControlService_GetPostureHash = function (PostureType, callback_func) { obj.Exec('AMT_EndpointAccessControlService', 'GetPostureHash', { 'PostureType': PostureType }, callback_func); }
    obj.AMT_EndpointAccessControlService_UpdatePostureState = function (UpdateType, callback_func) { obj.Exec('AMT_EndpointAccessControlService', 'UpdatePostureState', { 'UpdateType': UpdateType }, callback_func); }
    obj.AMT_EndpointAccessControlService_GetEacOptions = function (callback_func) { obj.Exec('AMT_EndpointAccessControlService', 'GetEacOptions', {}, callback_func); }
    obj.AMT_EndpointAccessControlService_SetEacOptions = function (EacVendors, PostureHashAlgorithm, callback_func) { obj.Exec('AMT_EndpointAccessControlService', 'SetEacOptions', { 'EacVendors': EacVendors, 'PostureHashAlgorithm': PostureHashAlgorithm }, callback_func); }
    obj.AMT_EnvironmentDetectionSettingData_SetSystemDefensePolicy = function (Policy, callback_func) { obj.Exec('AMT_EnvironmentDetectionSettingData', 'SetSystemDefensePolicy', { 'Policy': Policy }, callback_func); }
    obj.AMT_EnvironmentDetectionSettingData_EnableVpnRouting = function (Enable, callback_func) { obj.Exec('AMT_EnvironmentDetectionSettingData', 'EnableVpnRouting', { 'Enable': Enable }, callback_func); }
    obj.AMT_EthernetPortSettings_SetLinkPreference = function (LinkPreference, Timeout, callback_func) { obj.Exec('AMT_EthernetPortSettings', 'SetLinkPreference', { 'LinkPreference': LinkPreference, 'Timeout': Timeout }, callback_func); }
    obj.AMT_GeneralSettings_AMTAuthenticate = function (Nonce, callback_func) { obj.Exec('AMT_GeneralSettings', 'AMTAuthenticate', { 'MC_Nonce': Nonce }, callback_func); }
    obj.AMT_HeuristicPacketFilterStatistics_ResetSelectedStats = function (SelectedStatistics, callback_func) { obj.Exec('AMT_HeuristicPacketFilterStatistics', 'ResetSelectedStats', { 'SelectedStatistics': SelectedStatistics }, callback_func); }
    obj.AMT_KerberosSettingData_GetCredentialCacheState = function (callback_func) { obj.Exec('AMT_KerberosSettingData', 'GetCredentialCacheState', {}, callback_func); }
    obj.AMT_KerberosSettingData_SetCredentialCacheState = function (Enable, callback_func) { obj.Exec('AMT_KerberosSettingData', 'SetCredentialCacheState', { 'Enable': Enable }, callback_func); }
    obj.AMT_MessageLog_CancelIteration = function (IterationIdentifier, callback_func) { obj.Exec('AMT_MessageLog', 'CancelIteration', { 'IterationIdentifier': IterationIdentifier }, callback_func); }
    obj.AMT_MessageLog_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('AMT_MessageLog', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.AMT_MessageLog_ClearLog = function (callback_func) { obj.Exec('AMT_MessageLog', 'ClearLog', { }, callback_func); }
    obj.AMT_MessageLog_GetRecords = function (IterationIdentifier, MaxReadRecords, callback_func, tag) { obj.Exec('AMT_MessageLog', 'GetRecords', { 'IterationIdentifier': IterationIdentifier, 'MaxReadRecords': MaxReadRecords }, callback_func, tag); }
    obj.AMT_MessageLog_GetRecord = function (IterationIdentifier, PositionToNext, callback_func) { obj.Exec('AMT_MessageLog', 'GetRecord', { 'IterationIdentifier': IterationIdentifier, 'PositionToNext': PositionToNext }, callback_func); }
    obj.AMT_MessageLog_PositionAtRecord = function (IterationIdentifier, MoveAbsolute, RecordNumber, callback_func) { obj.Exec('AMT_MessageLog', 'PositionAtRecord', { 'IterationIdentifier': IterationIdentifier, 'MoveAbsolute': MoveAbsolute, 'RecordNumber': RecordNumber }, callback_func); }
    obj.AMT_MessageLog_PositionToFirstRecord = function (callback_func, tag) { obj.Exec('AMT_MessageLog', 'PositionToFirstRecord', {}, callback_func, tag); }
    obj.AMT_MessageLog_FreezeLog = function (Freeze, callback_func) { obj.Exec('AMT_MessageLog', 'FreezeLog', { 'Freeze': Freeze }, callback_func); }
    obj.AMT_PublicKeyManagementService_AddCRL = function (Url, SerialNumbers, callback_func) { obj.Exec('AMT_PublicKeyManagementService', 'AddCRL', { 'Url': Url, 'SerialNumbers': SerialNumbers }, callback_func); }
    obj.AMT_PublicKeyManagementService_ResetCRLList = function (_method_dummy, callback_func) { obj.Exec('AMT_PublicKeyManagementService', 'ResetCRLList', { '_method_dummy': _method_dummy }, callback_func); }
    obj.AMT_PublicKeyManagementService_AddCertificate = function (CertificateBlob, callback_func) { obj.Exec('AMT_PublicKeyManagementService', 'AddCertificate', { 'CertificateBlob': CertificateBlob }, callback_func); }
    obj.AMT_PublicKeyManagementService_AddTrustedRootCertificate = function (CertificateBlob, callback_func) { obj.Exec('AMT_PublicKeyManagementService', 'AddTrustedRootCertificate', { 'CertificateBlob': CertificateBlob }, callback_func); }
    obj.AMT_PublicKeyManagementService_AddKey = function (KeyBlob, callback_func) { obj.Exec('AMT_PublicKeyManagementService', 'AddKey', { 'KeyBlob': KeyBlob }, callback_func); }
    obj.AMT_PublicKeyManagementService_GeneratePKCS10Request = function (KeyPair, DNName, Usage, callback_func) { obj.Exec('AMT_PublicKeyManagementService', 'GeneratePKCS10Request', { 'KeyPair': KeyPair, 'DNName': DNName, 'Usage': Usage }, callback_func); }
    obj.AMT_PublicKeyManagementService_GeneratePKCS10RequestEx = function (KeyPair, SigningAlgorithm, NullSignedCertificateRequest, callback_func) { obj.Exec('AMT_PublicKeyManagementService', 'GeneratePKCS10RequestEx', { 'KeyPair': KeyPair, 'SigningAlgorithm': SigningAlgorithm, 'NullSignedCertificateRequest': NullSignedCertificateRequest }, callback_func); }
    obj.AMT_PublicKeyManagementService_GenerateKeyPair = function (KeyAlgorithm, KeyLength, callback_func) { obj.Exec('AMT_PublicKeyManagementService', 'GenerateKeyPair', { 'KeyAlgorithm': KeyAlgorithm, 'KeyLength': KeyLength }, callback_func); }
    obj.AMT_RedirectionService_RequestStateChange = function (RequestedState, callback_func) { obj.Exec('AMT_RedirectionService', 'RequestStateChange', { 'RequestedState': RequestedState }, callback_func); }
    obj.AMT_RedirectionService_TerminateSession = function (SessionType, callback_func) { obj.Exec('AMT_RedirectionService', 'TerminateSession', { 'SessionType': SessionType }, callback_func); }
    obj.AMT_RemoteAccessService_AddMpServer = function (AccessInfo, InfoFormat, Port, AuthMethod, Certificate, Username, Password, CN, callback_func) { obj.Exec('AMT_RemoteAccessService', 'AddMpServer', { 'AccessInfo': AccessInfo, 'InfoFormat': InfoFormat, 'Port': Port, 'AuthMethod': AuthMethod, 'Certificate': Certificate, 'Username': Username, 'Password': Password, 'CN': CN }, callback_func); }
    obj.AMT_RemoteAccessService_AddRemoteAccessPolicyRule = function (Trigger, TunnelLifeTime, ExtendedData, MpServer, InternalMpServer, callback_func) { obj.Exec('AMT_RemoteAccessService', 'AddRemoteAccessPolicyRule', { 'Trigger': Trigger, 'TunnelLifeTime': TunnelLifeTime, 'ExtendedData': ExtendedData, 'MpServer': MpServer, 'InternalMpServer': InternalMpServer }, callback_func); }
    obj.AMT_RemoteAccessService_CloseRemoteAccessConnection = function (_method_dummy, callback_func) { obj.Exec('AMT_RemoteAccessService', 'CloseRemoteAccessConnection', { '_method_dummy': _method_dummy }, callback_func); }
    obj.AMT_SetupAndConfigurationService_CommitChanges = function (_method_dummy, callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'CommitChanges', { '_method_dummy': _method_dummy }, callback_func); }
    obj.AMT_SetupAndConfigurationService_Unprovision = function (ProvisioningMode, callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'Unprovision', { 'ProvisioningMode': ProvisioningMode }, callback_func); }
    obj.AMT_SetupAndConfigurationService_PartialUnprovision = function (_method_dummy, callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'PartialUnprovision', { '_method_dummy': _method_dummy }, callback_func); }
    obj.AMT_SetupAndConfigurationService_ResetFlashWearOutProtection = function (_method_dummy, callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'ResetFlashWearOutProtection', { '_method_dummy': _method_dummy }, callback_func); }
    obj.AMT_SetupAndConfigurationService_ExtendProvisioningPeriod = function (Duration, callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'ExtendProvisioningPeriod', { 'Duration': Duration }, callback_func); }
    obj.AMT_SetupAndConfigurationService_SetMEBxPassword = function (Password, callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'SetMEBxPassword', { 'Password': Password }, callback_func); }
    obj.AMT_SetupAndConfigurationService_SetTLSPSK = function (PID, PPS, callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'SetTLSPSK', { 'PID': PID, 'PPS': PPS }, callback_func); }
    obj.AMT_SetupAndConfigurationService_GetProvisioningAuditRecord = function (callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'GetProvisioningAuditRecord', {}, callback_func); }
    obj.AMT_SetupAndConfigurationService_GetUuid = function (callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'GetUuid', {}, callback_func); }
    obj.AMT_SetupAndConfigurationService_GetUnprovisionBlockingComponents = function (callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'GetUnprovisionBlockingComponents', {}, callback_func); }
    obj.AMT_SetupAndConfigurationService_GetProvisioningAuditRecordV2 = function (callback_func) { obj.Exec('AMT_SetupAndConfigurationService', 'GetProvisioningAuditRecordV2', {}, callback_func); }
    obj.AMT_SystemDefensePolicy_GetTimeout = function (callback_func) { obj.Exec('AMT_SystemDefensePolicy', 'GetTimeout', {}, callback_func); }
    obj.AMT_SystemDefensePolicy_SetTimeout = function (Timeout, callback_func) { obj.Exec('AMT_SystemDefensePolicy', 'SetTimeout', { 'Timeout': Timeout }, callback_func); }
    obj.AMT_SystemDefensePolicy_UpdateStatistics = function (NetworkInterface, ResetOnRead, callback_func, tag, pri, selectors) { obj.Exec('AMT_SystemDefensePolicy', 'UpdateStatistics', { 'NetworkInterface': NetworkInterface, 'ResetOnRead': ResetOnRead }, callback_func, tag, pri, selectors); }
    obj.AMT_SystemPowerScheme_SetPowerScheme = function (callback_func, schemeInstanceId, tag) { obj.Exec('AMT_SystemPowerScheme', 'SetPowerScheme', {}, callback_func, tag, 0, { 'InstanceID': schemeInstanceId }); }
    obj.AMT_TimeSynchronizationService_GetLowAccuracyTimeSynch = function (callback_func, tag) { obj.Exec('AMT_TimeSynchronizationService', 'GetLowAccuracyTimeSynch', {}, callback_func, tag); }
    obj.AMT_TimeSynchronizationService_SetHighAccuracyTimeSynch = function (Ta0, Tm1, Tm2, callback_func, tag) { obj.Exec('AMT_TimeSynchronizationService', 'SetHighAccuracyTimeSynch', { 'Ta0': Ta0, 'Tm1': Tm1, 'Tm2': Tm2 }, callback_func, tag); }
    obj.AMT_UserInitiatedConnectionService_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('AMT_UserInitiatedConnectionService', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.AMT_WebUIService_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('AMT_WebUIService', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.AMT_WiFiPortConfigurationService_AddWiFiSettings = function (WiFiEndpoint, WiFiEndpointSettingsInput, IEEE8021xSettingsInput, ClientCredential, CACredential, callback_func) { obj.ExecWithXml('AMT_WiFiPortConfigurationService', 'AddWiFiSettings', { 'WiFiEndpoint': WiFiEndpoint, 'WiFiEndpointSettingsInput': WiFiEndpointSettingsInput, 'IEEE8021xSettingsInput': IEEE8021xSettingsInput, 'ClientCredential': ClientCredential, 'CACredential': CACredential }, callback_func); }
    obj.AMT_WiFiPortConfigurationService_UpdateWiFiSettings = function (WiFiEndpointSettings, WiFiEndpointSettingsInput, IEEE8021xSettingsInput, ClientCredential, CACredential, callback_func) { obj.ExecWithXml('AMT_WiFiPortConfigurationService', 'UpdateWiFiSettings', { 'WiFiEndpointSettings': WiFiEndpointSettings, 'WiFiEndpointSettingsInput': WiFiEndpointSettingsInput, 'IEEE8021xSettingsInput': IEEE8021xSettingsInput, 'ClientCredential': ClientCredential, 'CACredential': CACredential }, callback_func); }
    obj.AMT_WiFiPortConfigurationService_DeleteAllITProfiles = function (_method_dummy, callback_func) { obj.Exec('AMT_WiFiPortConfigurationService', 'DeleteAllITProfiles', { '_method_dummy': _method_dummy }, callback_func); }
    obj.AMT_WiFiPortConfigurationService_DeleteAllUserProfiles = function (_method_dummy, callback_func) { obj.Exec('AMT_WiFiPortConfigurationService', 'DeleteAllUserProfiles', { '_method_dummy': _method_dummy }, callback_func); }
    obj.CIM_Account_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('CIM_Account', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.CIM_AccountManagementService_CreateAccount = function (System, AccountTemplate, callback_func) { obj.Exec('CIM_AccountManagementService', 'CreateAccount', { 'System': System, 'AccountTemplate': AccountTemplate }, callback_func); }
    obj.CIM_BootConfigSetting_ChangeBootOrder = function (Source, callback_func) { obj.Exec('CIM_BootConfigSetting', 'ChangeBootOrder', { 'Source': Source }, callback_func); }
    obj.CIM_BootService_SetBootConfigRole = function (BootConfigSetting, Role, callback_func) { obj.Exec('CIM_BootService', 'SetBootConfigRole', { 'BootConfigSetting': BootConfigSetting, 'Role': Role }, callback_func, 0, 1); }
    obj.CIM_BootService_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func, tag) { obj.Exec('CIM_BootService', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func, tag, 1); }
    obj.CIM_Card_ConnectorPower = function (Connector, PoweredOn, callback_func) { obj.Exec('CIM_Card', 'ConnectorPower', { 'Connector': Connector, 'PoweredOn': PoweredOn }, callback_func); }
    obj.CIM_Card_IsCompatible = function (ElementToCheck, callback_func) { obj.Exec('CIM_Card', 'IsCompatible', { 'ElementToCheck': ElementToCheck }, callback_func); }
    obj.CIM_Chassis_IsCompatible = function (ElementToCheck, callback_func) { obj.Exec('CIM_Chassis', 'IsCompatible', { 'ElementToCheck': ElementToCheck }, callback_func); }
    obj.CIM_Fan_SetSpeed = function (DesiredSpeed, callback_func) { obj.Exec('CIM_Fan', 'SetSpeed', { 'DesiredSpeed': DesiredSpeed }, callback_func); }
    obj.CIM_KVMRedirectionSAP_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('CIM_KVMRedirectionSAP', 'RequestStateChange', { 'RequestedState': RequestedState/*, 'TimeoutPeriod': TimeoutPeriod */}, callback_func); }
    obj.CIM_MediaAccessDevice_LockMedia = function (Lock, callback_func) { obj.Exec('CIM_MediaAccessDevice', 'LockMedia', { 'Lock': Lock }, callback_func); }
    obj.CIM_MediaAccessDevice_SetPowerState = function (PowerState, Time, callback_func) { obj.Exec('CIM_MediaAccessDevice', 'SetPowerState', { 'PowerState': PowerState, 'Time': Time }, callback_func); }
    obj.CIM_MediaAccessDevice_Reset = function (callback_func) { obj.Exec('CIM_MediaAccessDevice', 'Reset', {}, callback_func); }
    obj.CIM_MediaAccessDevice_EnableDevice = function (Enabled, callback_func) { obj.Exec('CIM_MediaAccessDevice', 'EnableDevice', { 'Enabled': Enabled }, callback_func); }
    obj.CIM_MediaAccessDevice_OnlineDevice = function (Online, callback_func) { obj.Exec('CIM_MediaAccessDevice', 'OnlineDevice', { 'Online': Online }, callback_func); }
    obj.CIM_MediaAccessDevice_QuiesceDevice = function (Quiesce, callback_func) { obj.Exec('CIM_MediaAccessDevice', 'QuiesceDevice', { 'Quiesce': Quiesce }, callback_func); }
    obj.CIM_MediaAccessDevice_SaveProperties = function (callback_func) { obj.Exec('CIM_MediaAccessDevice', 'SaveProperties', {}, callback_func); }
    obj.CIM_MediaAccessDevice_RestoreProperties = function (callback_func) { obj.Exec('CIM_MediaAccessDevice', 'RestoreProperties', {}, callback_func); }
    obj.CIM_MediaAccessDevice_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('CIM_MediaAccessDevice', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.CIM_PhysicalFrame_IsCompatible = function (ElementToCheck, callback_func) { obj.Exec('CIM_PhysicalFrame', 'IsCompatible', { 'ElementToCheck': ElementToCheck }, callback_func); }
    obj.CIM_PhysicalPackage_IsCompatible = function (ElementToCheck, callback_func) { obj.Exec('CIM_PhysicalPackage', 'IsCompatible', { 'ElementToCheck': ElementToCheck }, callback_func); }
    obj.CIM_PowerManagementService_RequestPowerStateChange = function (PowerState, ManagedElement, Time, TimeoutPeriod, callback_func) { obj.Exec('CIM_PowerManagementService', 'RequestPowerStateChange', { 'PowerState': PowerState, 'ManagedElement': ManagedElement, 'Time': Time, 'TimeoutPeriod': TimeoutPeriod }, callback_func, 0, 1); }
    obj.CIM_PowerSupply_SetPowerState = function (PowerState, Time, callback_func) { obj.Exec('CIM_PowerSupply', 'SetPowerState', { 'PowerState': PowerState, 'Time': Time }, callback_func); }
    obj.CIM_PowerSupply_Reset = function (callback_func) { obj.Exec('CIM_PowerSupply', 'Reset', {}, callback_func); }
    obj.CIM_PowerSupply_EnableDevice = function (Enabled, callback_func) { obj.Exec('CIM_PowerSupply', 'EnableDevice', { 'Enabled': Enabled }, callback_func); }
    obj.CIM_PowerSupply_OnlineDevice = function (Online, callback_func) { obj.Exec('CIM_PowerSupply', 'OnlineDevice', { 'Online': Online }, callback_func); }
    obj.CIM_PowerSupply_QuiesceDevice = function (Quiesce, callback_func) { obj.Exec('CIM_PowerSupply', 'QuiesceDevice', { 'Quiesce': Quiesce }, callback_func); }
    obj.CIM_PowerSupply_SaveProperties = function (callback_func) { obj.Exec('CIM_PowerSupply', 'SaveProperties', {}, callback_func); }
    obj.CIM_PowerSupply_RestoreProperties = function (callback_func) { obj.Exec('CIM_PowerSupply', 'RestoreProperties', {}, callback_func); }
    obj.CIM_PowerSupply_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('CIM_PowerSupply', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.CIM_Processor_SetPowerState = function (PowerState, Time, callback_func) { obj.Exec('CIM_Processor', 'SetPowerState', { 'PowerState': PowerState, 'Time': Time }, callback_func); }
    obj.CIM_Processor_Reset = function (callback_func) { obj.Exec('CIM_Processor', 'Reset', {}, callback_func); }
    obj.CIM_Processor_EnableDevice = function (Enabled, callback_func) { obj.Exec('CIM_Processor', 'EnableDevice', { 'Enabled': Enabled }, callback_func); }
    obj.CIM_Processor_OnlineDevice = function (Online, callback_func) { obj.Exec('CIM_Processor', 'OnlineDevice', { 'Online': Online }, callback_func); }
    obj.CIM_Processor_QuiesceDevice = function (Quiesce, callback_func) { obj.Exec('CIM_Processor', 'QuiesceDevice', { 'Quiesce': Quiesce }, callback_func); }
    obj.CIM_Processor_SaveProperties = function (callback_func) { obj.Exec('CIM_Processor', 'SaveProperties', {}, callback_func); }
    obj.CIM_Processor_RestoreProperties = function (callback_func) { obj.Exec('CIM_Processor', 'RestoreProperties', {}, callback_func); }
    obj.CIM_Processor_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('CIM_Processor', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.CIM_RecordLog_ClearLog = function (callback_func) { obj.Exec('CIM_RecordLog', 'ClearLog', {}, callback_func); }
    obj.CIM_RecordLog_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('CIM_RecordLog', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.CIM_RedirectionService_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('CIM_RedirectionService', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.CIM_Sensor_SetPowerState = function (PowerState, Time, callback_func) { obj.Exec('CIM_Sensor', 'SetPowerState', { 'PowerState': PowerState, 'Time': Time }, callback_func); }
    obj.CIM_Sensor_Reset = function (callback_func) { obj.Exec('CIM_Sensor', 'Reset', {}, callback_func); }
    obj.CIM_Sensor_EnableDevice = function (Enabled, callback_func) { obj.Exec('CIM_Sensor', 'EnableDevice', { 'Enabled': Enabled }, callback_func); }
    obj.CIM_Sensor_OnlineDevice = function (Online, callback_func) { obj.Exec('CIM_Sensor', 'OnlineDevice', { 'Online': Online }, callback_func); }
    obj.CIM_Sensor_QuiesceDevice = function (Quiesce, callback_func) { obj.Exec('CIM_Sensor', 'QuiesceDevice', { 'Quiesce': Quiesce }, callback_func); }
    obj.CIM_Sensor_SaveProperties = function (callback_func) { obj.Exec('CIM_Sensor', 'SaveProperties', {}, callback_func); }
    obj.CIM_Sensor_RestoreProperties = function (callback_func) { obj.Exec('CIM_Sensor', 'RestoreProperties', {}, callback_func); }
    obj.CIM_Sensor_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('CIM_Sensor', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.CIM_StatisticalData_ResetSelectedStats = function (SelectedStatistics, callback_func) { obj.Exec('CIM_StatisticalData', 'ResetSelectedStats', { 'SelectedStatistics': SelectedStatistics }, callback_func); }
    obj.CIM_Watchdog_KeepAlive = function (callback_func) { obj.Exec('CIM_Watchdog', 'KeepAlive', {}, callback_func); }
    obj.CIM_Watchdog_SetPowerState = function (PowerState, Time, callback_func) { obj.Exec('CIM_Watchdog', 'SetPowerState', { 'PowerState': PowerState, 'Time': Time }, callback_func); }
    obj.CIM_Watchdog_Reset = function (callback_func) { obj.Exec('CIM_Watchdog', 'Reset', {}, callback_func); }
    obj.CIM_Watchdog_EnableDevice = function (Enabled, callback_func) { obj.Exec('CIM_Watchdog', 'EnableDevice', { 'Enabled': Enabled }, callback_func); }
    obj.CIM_Watchdog_OnlineDevice = function (Online, callback_func) { obj.Exec('CIM_Watchdog', 'OnlineDevice', { 'Online': Online }, callback_func); }
    obj.CIM_Watchdog_QuiesceDevice = function (Quiesce, callback_func) { obj.Exec('CIM_Watchdog', 'QuiesceDevice', { 'Quiesce': Quiesce }, callback_func); }
    obj.CIM_Watchdog_SaveProperties = function (callback_func) { obj.Exec('CIM_Watchdog', 'SaveProperties', {}, callback_func); }
    obj.CIM_Watchdog_RestoreProperties = function (callback_func) { obj.Exec('CIM_Watchdog', 'RestoreProperties', {}, callback_func); }
    obj.CIM_Watchdog_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('CIM_Watchdog', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.CIM_WiFiPort_SetPowerState = function (PowerState, Time, callback_func) { obj.Exec('CIM_WiFiPort', 'SetPowerState', { 'PowerState': PowerState, 'Time': Time }, callback_func); }
    obj.CIM_WiFiPort_Reset = function (callback_func) { obj.Exec('CIM_WiFiPort', 'Reset', {}, callback_func); }
    obj.CIM_WiFiPort_EnableDevice = function (Enabled, callback_func) { obj.Exec('CIM_WiFiPort', 'EnableDevice', { 'Enabled': Enabled }, callback_func); }
    obj.CIM_WiFiPort_OnlineDevice = function (Online, callback_func) { obj.Exec('CIM_WiFiPort', 'OnlineDevice', { 'Online': Online }, callback_func); }
    obj.CIM_WiFiPort_QuiesceDevice = function (Quiesce, callback_func) { obj.Exec('CIM_WiFiPort', 'QuiesceDevice', { 'Quiesce': Quiesce }, callback_func); }
    obj.CIM_WiFiPort_SaveProperties = function (callback_func) { obj.Exec('CIM_WiFiPort', 'SaveProperties', {}, callback_func); }
    obj.CIM_WiFiPort_RestoreProperties = function (callback_func) { obj.Exec('CIM_WiFiPort', 'RestoreProperties', {}, callback_func); }
    obj.CIM_WiFiPort_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('CIM_WiFiPort', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.IPS_HostBasedSetupService_Setup = function (NetAdminPassEncryptionType, NetworkAdminPassword, McNonce, Certificate, SigningAlgorithm, DigitalSignature, callback_func) { obj.Exec('IPS_HostBasedSetupService', 'Setup', { 'NetAdminPassEncryptionType': NetAdminPassEncryptionType, 'NetworkAdminPassword': NetworkAdminPassword, 'McNonce': McNonce, 'Certificate': Certificate, 'SigningAlgorithm': SigningAlgorithm, 'DigitalSignature': DigitalSignature }, callback_func); }
    obj.IPS_HostBasedSetupService_AddNextCertInChain = function (NextCertificate, IsLeafCertificate, IsRootCertificate, callback_func) { obj.Exec('IPS_HostBasedSetupService', 'AddNextCertInChain', { 'NextCertificate': NextCertificate, 'IsLeafCertificate': IsLeafCertificate, 'IsRootCertificate': IsRootCertificate }, callback_func); }
    obj.IPS_HostBasedSetupService_AdminSetup = function (NetAdminPassEncryptionType, NetworkAdminPassword, McNonce, SigningAlgorithm, DigitalSignature, callback_func) { obj.Exec('IPS_HostBasedSetupService', 'AdminSetup', { 'NetAdminPassEncryptionType': NetAdminPassEncryptionType, 'NetworkAdminPassword': NetworkAdminPassword, 'McNonce': McNonce, 'SigningAlgorithm': SigningAlgorithm, 'DigitalSignature': DigitalSignature }, callback_func); }
    obj.IPS_HostBasedSetupService_UpgradeClientToAdmin = function (McNonce, SigningAlgorithm, DigitalSignature, callback_func) { obj.Exec('IPS_HostBasedSetupService', 'UpgradeClientToAdmin', { 'McNonce': McNonce, 'SigningAlgorithm': SigningAlgorithm, 'DigitalSignature': DigitalSignature }, callback_func); }
    obj.IPS_HostBasedSetupService_DisableClientControlMode = function (_method_dummy, callback_func) { obj.Exec('IPS_HostBasedSetupService', 'DisableClientControlMode', { '_method_dummy': _method_dummy }, callback_func); }
    obj.IPS_KVMRedirectionSettingData_TerminateSession = function (callback_func) { obj.Exec('IPS_KVMRedirectionSettingData', 'TerminateSession', {}, callback_func); }
    obj.IPS_KVMRedirectionSettingData_DataChannelRead = function (callback_func) { obj.Exec('IPS_KVMRedirectionSettingData', 'DataChannelRead', {}, callback_func); }
    obj.IPS_KVMRedirectionSettingData_DataChannelWrite = function (Data, callback_func) { obj.Exec('IPS_KVMRedirectionSettingData', 'DataChannelWrite', { 'DataMessage': Data }, callback_func); }
    obj.IPS_OptInService_StartOptIn = function (callback_func) { obj.Exec('IPS_OptInService', 'StartOptIn', {}, callback_func); }
    obj.IPS_OptInService_CancelOptIn = function (callback_func) { obj.Exec('IPS_OptInService', 'CancelOptIn', {}, callback_func); }
    obj.IPS_OptInService_SendOptInCode = function (OptInCode, callback_func) { obj.Exec('IPS_OptInService', 'SendOptInCode', { 'OptInCode': OptInCode }, callback_func); }
    obj.IPS_OptInService_StartService = function (callback_func) { obj.Exec('IPS_OptInService', 'StartService', {}, callback_func); }
    obj.IPS_OptInService_StopService = function (callback_func) { obj.Exec('IPS_OptInService', 'StopService', {}, callback_func); }
    obj.IPS_OptInService_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('IPS_OptInService', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.IPS_PowerManagementService_RequestOSPowerSavingStateChange = function (PowerState, ManagedElement, Time, TimeoutPeriod, callback_func) { obj.Exec('IPS_PowerManagementService', 'RequestOSPowerSavingStateChange', { 'OSPowerSavingState': PowerState, 'ManagedElement': ManagedElement, 'Time': Time, 'TimeoutPeriod': TimeoutPeriod }, callback_func, 0, 1); }
    obj.IPS_ProvisioningRecordLog_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('IPS_ProvisioningRecordLog', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.IPS_ProvisioningRecordLog_ClearLog = function (_method_dummy, callback_func) { obj.Exec('IPS_ProvisioningRecordLog', 'ClearLog', { '_method_dummy': _method_dummy }, callback_func); }
    obj.IPS_ScreenConfigurationService_SetSessionState = function (SessionState, ConsecutiveRebootsNum, callback_func) { obj.Exec('IPS_ScreenConfigurationService', 'SetSessionState', { 'SessionState': SessionState, 'ConsecutiveRebootsNum': ConsecutiveRebootsNum }, callback_func); }
    obj.IPS_SecIOService_RequestStateChange = function (RequestedState, TimeoutPeriod, callback_func) { obj.Exec('IPS_SecIOService', 'RequestStateChange', { 'RequestedState': RequestedState, 'TimeoutPeriod': TimeoutPeriod }, callback_func); }
    obj.IPS_HTTPProxyService_AddProxyAccessPoint = function (AccessInfo, InfoFormat, Port, NetworkDnsSuffix, callback_func) { obj.Exec('IPS_HTTPProxyService', 'AddProxyAccessPoint', { 'AccessInfo': AccessInfo, 'InfoFormat': InfoFormat, 'Port': Port, 'NetworkDnsSuffix': NetworkDnsSuffix }, callback_func); }

    obj.AmtStatusToStr = function (code) { if (obj.AmtStatusCodes[code]) return obj.AmtStatusCodes[code]; else return 'UNKNOWN_ERROR' }
    obj.AmtStatusCodes = {
        0x0000: 'SUCCESS',
        0x0001: 'INTERNAL_ERROR',
        0x0002: 'NOT_READY',
        0x0003: 'INVALID_PT_MODE',
        0x0004: 'INVALID_MESSAGE_LENGTH',
        0x0005: 'TABLE_FINGERPRINT_NOT_AVAILABLE',
        0x0006: 'INTEGRITY_CHECK_FAILED',
        0x0007: 'UNSUPPORTED_ISVS_VERSION',
        0x0008: 'APPLICATION_NOT_REGISTERED',
        0x0009: 'INVALID_REGISTRATION_DATA',
        0x000A: 'APPLICATION_DOES_NOT_EXIST',
        0x000B: 'NOT_ENOUGH_STORAGE',
        0x000C: 'INVALID_NAME',
        0x000D: 'BLOCK_DOES_NOT_EXIST',
        0x000E: 'INVALID_BYTE_OFFSET',
        0x000F: 'INVALID_BYTE_COUNT',
        0x0010: 'NOT_PERMITTED',
        0x0011: 'NOT_OWNER',
        0x0012: 'BLOCK_LOCKED_BY_OTHER',
        0x0013: 'BLOCK_NOT_LOCKED',
        0x0014: 'INVALID_GROUP_PERMISSIONS',
        0x0015: 'GROUP_DOES_NOT_EXIST',
        0x0016: 'INVALID_MEMBER_COUNT',
        0x0017: 'MAX_LIMIT_REACHED',
        0x0018: 'INVALID_AUTH_TYPE',
        0x0019: 'AUTHENTICATION_FAILED',
        0x001A: 'INVALID_DHCP_MODE',
        0x001B: 'INVALID_IP_ADDRESS',
        0x001C: 'INVALID_DOMAIN_NAME',
        0x001D: 'UNSUPPORTED_VERSION',
        0x001E: 'REQUEST_UNEXPECTED',
        0x001F: 'INVALID_TABLE_TYPE',
        0x0020: 'INVALID_PROVISIONING_STATE',
        0x0021: 'UNSUPPORTED_OBJECT',
        0x0022: 'INVALID_TIME',
        0x0023: 'INVALID_INDEX',
        0x0024: 'INVALID_PARAMETER',
        0x0025: 'INVALID_NETMASK',
        0x0026: 'FLASH_WRITE_LIMIT_EXCEEDED',
        0x0027: 'INVALID_IMAGE_LENGTH',
        0x0028: 'INVALID_IMAGE_SIGNATURE',
        0x0029: 'PROPOSE_ANOTHER_VERSION',
        0x002A: 'INVALID_PID_FORMAT',
        0x002B: 'INVALID_PPS_FORMAT',
        0x002C: 'BIST_COMMAND_BLOCKED',
        0x002D: 'CONNECTION_FAILED',
        0x002E: 'CONNECTION_TOO_MANY',
        0x002F: 'RNG_GENERATION_IN_PROGRESS',
        0x0030: 'RNG_NOT_READY',
        0x0031: 'CERTIFICATE_NOT_READY',
        0x0400: 'DISABLED_BY_POLICY',
        0x0800: 'NETWORK_IF_ERROR_BASE',
        0x0801: 'UNSUPPORTED_OEM_NUMBER',
        0x0802: 'UNSUPPORTED_BOOT_OPTION',
        0x0803: 'INVALID_COMMAND',
        0x0804: 'INVALID_SPECIAL_COMMAND',
        0x0805: 'INVALID_HANDLE',
        0x0806: 'INVALID_PASSWORD',
        0x0807: 'INVALID_REALM',
        0x0808: 'STORAGE_ACL_ENTRY_IN_USE',
        0x0809: 'DATA_MISSING',
        0x080A: 'DUPLICATE',
        0x080B: 'EVENTLOG_FROZEN',
        0x080C: 'PKI_MISSING_KEYS',
        0x080D: 'PKI_GENERATING_KEYS',
        0x080E: 'INVALID_KEY',
        0x080F: 'INVALID_CERT',
        0x0810: 'CERT_KEY_NOT_MATCH',
        0x0811: 'MAX_KERB_DOMAIN_REACHED',
        0x0812: 'UNSUPPORTED',
        0x0813: 'INVALID_PRIORITY',
        0x0814: 'NOT_FOUND',
        0x0815: 'INVALID_CREDENTIALS',
        0x0816: 'INVALID_PASSPHRASE',
        0x0818: 'NO_ASSOCIATION',
        0x081B: 'AUDIT_FAIL',
        0x081C: 'BLOCKING_COMPONENT',
        0x0821: 'USER_CONSENT_REQUIRED',
        0x1000: 'APP_INTERNAL_ERROR',
        0x1001: 'NOT_INITIALIZED',
        0x1002: 'LIB_VERSION_UNSUPPORTED',
        0x1003: 'INVALID_PARAM',
        0x1004: 'RESOURCES',
        0x1005: 'HARDWARE_ACCESS_ERROR',
        0x1006: 'REQUESTOR_NOT_REGISTERED',
        0x1007: 'NETWORK_ERROR',
        0x1008: 'PARAM_BUFFER_TOO_SHORT',
        0x1009: 'COM_NOT_INITIALIZED_IN_THREAD',
        0x100A: 'URL_REQUIRED'
    }

    //
    // Methods used for getting the event log
    //

    obj.GetMessageLog = function (func, tag) {
        obj.AMT_MessageLog_PositionToFirstRecord(_GetMessageLog0, [func, tag, []]);
    }
    function _GetMessageLog0(stack, name, responses, status, tag) {
        if (status != 200 || responses.Body['ReturnValue'] != '0') { tag[0](obj, null, tag[2]); return; }
        obj.AMT_MessageLog_GetRecords(responses.Body['IterationIdentifier'], 390, _GetMessageLog1, tag);
    }
    function _GetMessageLog1(stack, name, responses, status, tag) {
        if (status != 200 || responses.Body['ReturnValue'] != '0') { tag[0](obj, null, tag[2]); return; }
        var i, j, x, e, AmtMessages = tag[2], t = new Date(), TimeStamp, ra = responses.Body['RecordArray'];
        if (typeof ra === 'string') { responses.Body['RecordArray'] = [responses.Body['RecordArray']]; }

        for (i in ra) {
            e = null;
            try {
                // ###BEGIN###{!Mode-MeshCentral2}
                // NodeJS detection
                var isNode = new Function('try {return this===global;}catch(e){return false;}');
                if (isNode()) { e = require('atob')(ra[i]); } else { e = window.atob(ra[i]); }
                // ###END###{!Mode-MeshCentral2}
                // ###BEGIN###{Mode-MeshCentral2}
                e = window.atob(ra[i]);
                // ###END###{Mode-MeshCentral2}
            } catch (ex) { }
            if (e != null) {
                TimeStamp = ReadIntX(e, 0);
                if ((TimeStamp > 0) && (TimeStamp < 0xFFFFFFFF)) {
                    x = { 'DeviceAddress': e.charCodeAt(4), 'EventSensorType': e.charCodeAt(5), 'EventType': e.charCodeAt(6), 'EventOffset': e.charCodeAt(7), 'EventSourceType': e.charCodeAt(8), 'EventSeverity': e.charCodeAt(9), 'SensorNumber': e.charCodeAt(10), 'Entity': e.charCodeAt(11), 'EntityInstance': e.charCodeAt(12), 'EventData': [], 'Time': new Date((TimeStamp + (t.getTimezoneOffset() * 60)) * 1000) };
                    for (j = 13; j < 21; j++) { x['EventData'].push(e.charCodeAt(j)); }
                    x['EntityStr'] = _SystemEntityTypes[x['Entity']];
                    x['Desc'] = _GetEventDetailStr(x['EventSensorType'], x['EventOffset'], x['EventData'], x['Entity']);
                    if (!x['EntityStr']) x['EntityStr'] = 'Unknown';
                    AmtMessages.push(x);
                }
            }
        }

        if (responses.Body['NoMoreRecords'] != true) { obj.AMT_MessageLog_GetRecords(responses.Body['IterationIdentifier'], 390, _GetMessageLog1, [tag[0], AmtMessages, tag[2]]); } else { tag[0](obj, AmtMessages, tag[2]); }
    }

    var _EventTrapSourceTypes = "Микропрограмма платформы (например, BIOS) | Обработчик SMI | ПО для управления системой ISV | Предупреждение ASIC | IPMI | Поставщик BIOS | Поставщик системной платы | Системный интегратор | Сторонние надстройки | OSV | Сетевая карта | Карта управления системой".split('|');
    var _SystemFirmwareError = "Не указано. | Системная память физически не установлена ​​в системе. | Нет используемой системной памяти, во всей установленной памяти произошел неисправимый сбой. | Неустранимый сбой жесткого диска / устройства ATAPI / IDE. | Неустранимый сбой системной платы. | Неустранимая дискета Сбой подсистемы. | Неустранимая ошибка контроллера жесткого диска. | Неустранимая ошибка PS / 2 или USB-клавиатуры. | Съемный загрузочный носитель не найден. | Неустранимая ошибка контроллера видео. | Не обнаружено видеоустройство. | Обнаружено повреждение микропрограммы (BIOS) ПЗУ. | Несоответствие напряжения процессора (процессоры с одинаковым питанием имеют несоответствующие требования к напряжению) | Ошибка соответствия скорости процессора".split('|');
    var _SystemFirmwareProgress = "Unspecified.|Memory initialization.|Starting hard-disk initialization and test|Secondary processor(s) initialization|User authentication|Entering BIOS setup|USB resource configuration|PCI resource configuration|Option ROM initialization|Video initialization|Cache initialization|SM Bus initialization|Keyboard controller initialization|Embedded controller/management controller initialization|Docking station attachment|Enabling docking station|Docking station ejection|Disabling docking station|Calling operating system wake-up vector|Starting operating system boot process|Baseboard or motherboard initialization|reserved|Floppy initialization|Keyboard test|Pointing device test|Primary processor initialization".split('|');
    var _SystemEntityTypes = "Не указано | Другое | Неизвестно | Процессор | Диск | Периферийные устройства | Модуль системного управления | Системная плата | Модуль памяти | Модуль процессора | Блок питания | Добавить плату | Плата передней панели | Плата задней панели | Плата системного питания | Задняя панель привода | Внутренняя плата системы плата | Другая системная плата | Процессорная плата | Блок питания | Блок питания | Плата управления питанием | Плата задней панели шасси | Системное шасси | Вспомогательное шасси | Отсек для другого дисковода | Отсек для дисков | Отсек для периферийных устройств | Отсек для устройств | Вентиляторное охлаждение | Блок охлаждения | Кабельное соединение | Устройство памяти | Программное обеспечение для управления системой | BIOS | Intel (r) ME | Системная шина | Группа | Intel (r) ME | Внешняя среда | Батарея | Обрабатывающий блейд | Переключатель подключения | Процессор / модуль памяти | Модуль ввода / вывода | Модуль ввода / вывода процессора | Прошивка контроллера управления | Канал IPMI | Шина PCI | Шина PCI Express | Шина SCSI | Шина SATA / SAS | Шина лицевой стороны процессора".split('|');
    obj.RealmNames = "|| Перенаправление || Аппаратное обеспечение | Удаленное управление | Хранение | Диспетчер событий | Администратор хранилища | Местное присутствие агента | Удаленное присутствие агента | Автоматический выключатель | Время сети | Общая информация | Обновление прошивки | EIT | LocalUN | Контроль доступа к конечной точке | Контроль доступа к конечной точке Admin | Читатель журнала событий | Журнал аудита | Область ACL ||| Локальная система".split('|');
    obj.WatchdogCurrentStates = { 1: "Не начато", 2: "Остановился", 4: "Бег", 8: "Истекший", 16: "подвешенный" };
    var _OCRProgressEvents = ["Boot parameters received from CSME", "CSME Boot Option % added successfully", "HTTPS URI name resolved", "HTTPS connected successfully", "HTTPSBoot download is completed", "Attempt to boot", "Exit boot services"];
    var _OCRErrorEvents = ['', "No network connection available", "Name resolution of URI failed", "Connect to URI failed", "OEM app not found at local URI", "HTTPS TLS Auth failed", "HTTPS Digest Auth failed", "Verified boot failed (bad image)", "HTTPS Boot File not found"];
    var _OCRSource = { 1: '', 2: "HTTPS", 4: "Local PBA", 8: "WinRE" };

    function _GetEventDetailStr(eventSensorType, eventOffset, eventDataField, entity) {
        if (eventSensorType == 15) {
            if (eventDataField[0] == 235) return "Неверные данные";
            if (eventOffset == 0) {
                return _SystemFirmwareError[eventDataField[1]];
            } else if (eventOffset == 3) {
                if ((eventDataField[0] == 170) && (eventDataField[1] == 48)) {
                    return format("AMT One Click Recovery: {0}", _OCRErrorEvents[eventDataField[2]]);
                } else if ((eventDataField[0] == 170) && (eventDataField[1] == 64)) {
                    if (eventDataField[2] == 1) return "Got an error erasing Device SSD";
                    if (eventDataField[2] == 2) return "Erasing Device TPM is not supported";
                    if (eventDataField[2] == 3) return "Reached Max Counter";
                } else {
                    return "OEM Specific Firmware Error event";
                }
            } else if (eventOffset == 5) {
                if ((eventDataField[0] == 170) && (eventDataField[1] == 48)) {
                    if (eventDataField[2] == 1) {
                        return format("AMT One Click Recovery: CSME Boot Option {0}:{1} added successfully", (eventDataField[3]), _OCRSource[(eventDataField[3])]);
                    } else if (eventDataField[2] < 7) {
                        return format("AMT One Click Recovery: {0}", _OCRProgressEvents[eventDataField[2]]);
                    } else {
                        return format("AMT One Click Recovery: Unknown progress event {0}", eventDataField[2]);
                    }
                } else if ((eventDataField[0] == 170) && (eventDataField[1] == 64)) {
                    if (eventDataField[2] == 1) {
                        if (eventDataField[3] == 2) return "Started erasing Device SSD";
                        if (eventDataField[3] == 3) return "Started erasing Device TPM";
                        if (eventDataField[3] == 5) return "Started erasing Device BIOS Reload of Golden Config";
                    }
                    if (eventDataField[2] == 2) {
                        if (eventDataField[3] == 2) return "Erasing Device SSD ended successfully";
                        if (eventDataField[3] == 3) return "Erasing Device TPM ended successfully";
                        if (eventDataField[3] == 5) return "Erasing Device BIOS Reload of Golden Config ended successfully";
                    }
                    if (eventDataField[2] == 3) return "Beginning Platform Erase";
                    if (eventDataField[2] == 4) return "Clear Reserved Parameters";
                    if (eventDataField[2] == 5) return "All setting decremented";
                } else {
                    return "OEM Specific Firmware Progress event";
                }
            } else {
                return _SystemFirmwareProgress[eventDataField[1]];
            }
        }

        if ((eventSensorType == 18) && (eventDataField[0] == 170)) { // System watchdog event
            return "Агент сторожевой" + char2hex(eventDataField[4]) + char2hex(eventDataField[3]) + char2hex(eventDataField[2]) + char2hex(eventDataField[1]) + '-' + char2hex(eventDataField[6]) + char2hex(eventDataField[5]) + '-...' + " изменился на" + obj.WatchdogCurrentStates[eventDataField[7]];
        }

        if ((eventSensorType == 5) && (eventOffset == 0)) { // System chassis
            return "Случай вторжения";
        }

        if ((eventSensorType == 192) && (eventOffset == 0) && (eventDataField[0] == 170) && (eventDataField[1] == 48))
        {
            if (eventDataField[2] == 0) return "Удаленный сеанс Serial Over LAN был установлен.";
            if (eventDataField[2] == 1) return "Сеанс удаленного последовательного соединения по локальной сети завершен. Пользовательский контроль был восстановлен.";
            if (eventDataField[2] == 2) return "Удаленный сеанс перенаправления IDE был установлен.";
            if (eventDataField[2] == 3) return "Сеанс удаленного перенаправления IDE завершен. Пользовательский контроль был восстановлен.";
        }

        if (eventSensorType == 36) {
            var handle = (eventDataField[1] << 24) + (eventDataField[2] << 16) + (eventDataField[3] << 8) + eventDataField[4];
            var nic = '#' + eventDataField[0];
            if (eventDataField[0] == 0xAA) nic = "проводная"; // TODO: Add wireless *****
            //if (eventDataField[0] == 0xAA) nic = "wireless";

            if (handle == 4294967293) { return "Фильтр всех полученных пакетов сопоставлен" + nic + " интерфейс."; }
            if (handle == 4294967292) { return "Фильтр всех исходящих пакетов сопоставлен" + nic + " интерфейс."; }
            if (handle == 4294967290) { return "Поддельный фильтр пакетов был согласован на" + nic + " интерфейс."; }
            return "Фильтр" + handle + " было подобрано на" + nic + " интерфейс.";
        }

        if (eventSensorType == 192) {
            if (eventDataField[2] == 0) return "Политика безопасности активирована. Часть или весь сетевой трафик (TX) был остановлен.";
            if (eventDataField[2] == 2) return "Политика безопасности активирована. Часть или весь сетевой трафик (RX) был остановлен.";
            return "Политика безопасности активирована.";
        }

        if (eventSensorType == 193) {
            if ((eventDataField[0] == 0xAA) && (eventDataField[1] == 0x30) && (eventDataField[2] == 0x00) && (eventDataField[3] == 0x00)) { return "Пользовательский запрос на удаленное соединение."; }
            if ((eventDataField[0] == 0xAA) && (eventDataField[1] == 0x20) && (eventDataField[2] == 0x03) && (eventDataField[3] == 0x01)) { return "Ошибка EAC: попытка получить положение, когда NAC в Intel® AMT отключен."; } // eventDataField = 0xAA20030100000000
            if ((eventDataField[0] == 0xAA) && (eventDataField[1] == 0x20) && (eventDataField[2] == 0x04) && (eventDataField[3] == 0x00)) { return "Ошибка HWA: общая ошибка"; } // Used to be "Certificate revoked." but don"t know the source of this.
        }

        if (eventSensorType == 6) return "Ошибка аутентификации" + (eventDataField[1] + (eventDataField[2] << 8)) + " раз. Система может быть атакована.";
        if (eventSensorType == 30) return "Нет загрузочного носителя";
        if (eventSensorType == 32) return "Блокировка операционной системы или прерывание питания";
        if (eventSensorType == 35) {
            if (eventDataField[0] == 64) return "BIOS POST (Power On Self-Test) Watchdog Timeout."; // 64,2,252,84,89,0,0,0
            return "Ошибка загрузки системы";
        }
        if (eventSensorType == 37) return "Системная прошивка запущена (по крайней мере один процессор работает правильно).";
        return "Неизвестный тип датчика #" + eventSensorType;
    }

// ###BEGIN###{AuditLog}

    // Useful link: https://software.intel.com/sites/manageability/AMT_Implementation_and_Reference_Guide/default.htm?turl=WordDocuments%2Fsecurityadminevents.htm

    var _AmtAuditStringTable =
    {
        16: "Администратор безопасности",
        17: "RCO",
        18: "Менеджер перенаправления",
        19: "Диспетчер обновления прошивки",
        20: "Журнал аудита безопасности",
        21: "Сетевое время",
        22: "Администрирование сети",
        23: "Администрирование хранилища",
        24: "Менеджер по корпоративным мероприятиям",
        25: "Менеджер выключателя",
        26: "Диспетчер присутствия агентов",
        27: "Конфигурация беспроводной сети",
        28: "EAC",
        29: "KVM",
        30: "События участия пользователя",
        32: "Гашение экрана",
        33: "Сторожевые события",
        1600: "Подготовка начата",
        1601: "Подготовка завершена",
        1602: "Запись ACL добавлена",
        1603: "Изменена запись ACL",
        1604: "Запись ACL удалена",
        1605: "Доступ ACL с неверными учетными данными",
        1606: "Состояние записи ACL",
        1607: "Состояние TLS изменено",
        1608: "Набор сертификатов сервера TLS",
        1609: "Сертификат сервера TLS Удалить",
        1610: "Добавлен доверенный корневой сертификат TLS",
        1611: "Удален доверенный корневой сертификат TLS",
        1612: "Набор общих ключей TLS",
        1613: "Настройки Kerberos изменены",
        1614: "Основной ключ Kerberos изменен",
        1615: "Сброс счетчиков",
        1616: "Модифицированный блок питания",
        1617: "Установить режим проверки подлинности области",
        1618: "Обновление клиента до режима администратора",
        1619: "Unprovisioning началось",
        1700: "Выполнено Power Up",
        1701: "Выполнено Power Down",
        1702: "Выполненный силовой цикл",
        1703: "Выполнен Сброс",
        1704: "Установить параметры загрузки",
        1705: "Remote graceful power down initiated",
        1706: "Remote graceful reset initiated",
        1707: "Remote Standby initiated",
        1708: "Remote Hiberate initiated",
        1709: "Remote NMI initiated",
        1800: "Открыта сессия IDER",
        1801: "Сессия IDER закрыта",
        1802: "IDER включен",
        1803: "IDER отключен",
        1804: "Открыта сессия SoL",
        1805: "SoL сессия закрыта",
        1806: "SoL включен",
        1807: "SoL отключен",
        1808: "Сессия KVM началась",
        1809: "Сеанс KVM завершен",
        1810: "KVM включен",
        1811: "KVM отключен",
        1812: "Пароль VNC не удался 3 раза",
        1900: "Обновление прошивки",
        1901: "Ошибка обновления прошивки",
        2000: "Журнал аудита безопасности очищен",
        2001: "Изменена политика аудита безопасности",
        2002: "Журнал аудита безопасности отключен",
        2003: "Журнал аудита безопасности включен",
        2004: "Экспорт журнала аудита безопасности",
        2005: "Журнал аудита безопасности восстановлен",
        2100: "Набор времени Intel&reg; ME",
        2200: "Набор параметров TCPIP",
        2201: "Имя хоста установлено",
        2202: "Набор доменных имен",
        2203: "Набор параметров VLAN",
        2204: "Набор политик ссылок",
        2205: "Набор параметров IPv6",
        2300: "Набор глобальных атрибутов хранилища",
        2301: "Хранение EACL Модифицировано",
        2302: "Хранение FPACL Модифицировано",
        2303: "Операция записи в хранилище",
        2400: "Оповещение подписано",
        2401: "Оповещение отписано",
        2402: "Журнал событий очищен",
        2403: "Журнал событий заморожен",
        2500: "CB фильтр добавлен",
        2501: "Фильтр CB удален",
        2502: "Добавлена ​​политика CB",
        2503: "Политика CB удалена",
        2504: "Набор политик CB по умолчанию",
        2505: "CB Heuristics Option Set",
        2506: "CB Heuristics State Cleared",
        2600: "Добавлен сторожевой агент",
        2601: "Agent Watchdog удален",
        2602: "Набор действий сторожевого агента",
        2700: "Добавлен беспроводной профиль",
        2701: "Беспроводной профиль удален",
        2702: "Профиль беспроводного соединения обновлен",
        2703: "An existing profile sync was modified",
        2704: "An existing profile link preference was changed",
        2705: "Wireless profile share with UEFI enabled setting was changed",
        2800: "EAC Положение лица, подписывающего",
        2801: "EAC включен",
        2802: "EAC отключен",
        2803: "Состояние осанки EAC",
        2804: "Опции набора EAC",
        2900: "Опция KVM включена",
        2901: "Отключение KVM отключено",
        2902: "Пароль KVM изменен",
        2903: "Согласие KVM успешно завершено",
        2904: "Согласие KVM не удалось",
        3000: "Изменение политики согласия",
        3001: "Отправить код согласия Событие",
        3002: "Запустить запрещенное событие",
        3301: "A user has modified the Watchdog Action settings",
        3302: "A user has modified a Watchdog to add, remove, or alter the Watchdog Action connected to it"
    }

    // Return human readable extended audit log data
    // TODO: Just put some of them here, but many more still need to be added, helpful link here:
    // https://software.intel.com/sites/manageability/AMT_Implementation_and_Reference_Guide/default.htm?turl=WordDocuments%2Fsecurityadminevents.htm
    obj.GetAuditLogExtendedDataStr = function (id, data) {
        if ((id == 1602 || id == 1604) && data.charCodeAt(0) == 0) { return data.substring(2, 2 + data.charCodeAt(1)); } // ACL Entry Added/Removed (Digest)
        if (id == 1603) { if (data.charCodeAt(1) == 0) { return data.substring(3); } return null; } // ACL Entry Modified
        if (id == 1605) { return ["Неверный доступ к ME", "Неверный доступ к MEBx"][data.charCodeAt(0)]; } // ACL Access with Invalid Credentials
        if (id == 1606) { var r = ["Отключено", "Включено"][data.charCodeAt(0)]; if (data.charCodeAt(1) == 0) { r += "," + data.substring(3); } return r;} // ACL Entry State
        if (id == 1607) { return "Дистанционный пульт" + ["NOAUTH", "ServerAuth", "взаимоавторизации"][data.charCodeAt(0)] + ", Местный" + ["NOAUTH", "ServerAuth", "взаимоавторизации"][data.charCodeAt(1)]; } // TLS State Changed
        if (id == 1617) { return obj.RealmNames[ReadInt(data, 0)] + "," + ["NOAUTH", "Auth", "Отключено"][data.charCodeAt(4)]; } // Set Realm Authentication Mode
        if (id == 1619) { return ["BIOS", "MEBx", "Местный МЭИ", "Местный WSMAN", "Удаленный WSAMN"][data.charCodeAt(0)]; } // Intel AMT Unprovisioning Started
        if (id == 1900) { return "От" + ReadShort(data, 0) + '.' + ReadShort(data, 2) + '.' + ReadShort(data, 4) + '.' + ReadShort(data, 6) + " в" + ReadShort(data, 8) + '.' + ReadShort(data, 10) + '.' + ReadShort(data, 12) + '.' + ReadShort(data, 14); } // Firmware Updated
        if (id == 2100) { var t4 = new Date(); t4.setTime(ReadInt(data, 0) * 1000 + (new Date().getTimezoneOffset() * 60000)); return t4.toLocaleString(); } // Intel AMT Time Set
        if (id == 3000) { return "От" + ["Никто", "KVM", "Все"][data.charCodeAt(0)] + " в" + ["Никто", "KVM", "Все"][data.charCodeAt(1)]; } // Opt-In Policy Change
        if (id == 3001) { return ["успех", "Не удалось 3 раза"][data.charCodeAt(0)]; } // Send Consent Code Event
        return null;
    }

    obj.GetAuditLog = function (func) {
        obj.AMT_AuditLog_ReadRecords(1, _GetAuditLog0, [func, []]);
    }

    function _GetAuditLog0(stack, name, responses, status, tag) {
        if (status != 200) { tag[0](obj, [], status); return; }
        var ptr, i, e, x, r = tag[1], t = new Date(), TimeStamp;

        if (responses.Body['RecordsReturned'] > 0) {
            responses.Body['EventRecords'] = MakeToArray(responses.Body['EventRecords']);

            for (i in responses.Body['EventRecords']) {
                e = null;
                try {
                    e = window.atob(responses.Body['EventRecords'][i]);
                } catch (e) {
                    console.log(e + ' ' + responses.Body['EventRecords'][i])
                }
                x = { 'AuditAppID': ReadShort(e, 0), 'EventID': ReadShort(e, 2), 'InitiatorType': e.charCodeAt(4) };
                x['AuditApp'] = _AmtAuditStringTable[x['AuditAppID']];
                x['Event'] = _AmtAuditStringTable[(x['AuditAppID'] * 100) + x['EventID']];
                if (!x['Event']) x['Event'] = '#' + x['EventID'];

                // Read and process the initiator
                if (x['InitiatorType'] == 0) {
                    // HTTP digest
                    var userlen = e.charCodeAt(5);
                    x['Initiator'] = e.substring(6, 6 + userlen);
                    ptr = 6 + userlen;
                }
                if (x['InitiatorType'] == 1) {
                    // Kerberos
                    x['KerberosUserInDomain'] = ReadInt(e, 5);
                    var userlen = e.charCodeAt(9);
                    x['Initiator'] = GetSidString(e.substring(10, 10 + userlen));
                    ptr = 10 + userlen;
                }
                if (x['InitiatorType'] == 2) {
                    // Local
                    x['Initiator'] = '<i>' + "Местный" + '</i>';
                    ptr = 5;
                }
                if (x['InitiatorType'] == 3) {
                    // KVM Default Port
                    x['Initiator'] = '<i>' + "KVM порт по умолчанию" + '</i>';
                    ptr = 5;
                }

                // Read timestamp
                TimeStamp = ReadInt(e, ptr);
                x['Time'] = new Date((TimeStamp + (t.getTimezoneOffset() * 60)) * 1000);
                ptr += 4;

                // Read network access
                x['MCLocationType'] = e.charCodeAt(ptr++);
                var netlen = e.charCodeAt(ptr++);
                x['NetAddress'] = e.substring(ptr, ptr + netlen);

                // Read extended data
                ptr += netlen;
                var exlen = e.charCodeAt(ptr++);
                x['Ex'] = e.substring(ptr, ptr + exlen);
                x['ExStr'] = obj.GetAuditLogExtendedDataStr((x['AuditAppID'] * 100) + x['EventID'], x['Ex']);

                r.push(x);
            }
        }
        if (responses.Body['TotalRecordCount'] > r.length) {
            obj.AMT_AuditLog_ReadRecords(r.length + 1, _GetAuditLog0, [tag[0], r]);
        } else {
            tag[0](obj, r, status);
        }
    }

    // ###END###{AuditLog}

    return obj;
}


// ###BEGIN###{Certificates}

// Forge MD5
function hex_md5(str) { if (str == null) { str = ''; } return forge.md.md5.create().update(str).digest().toHex(); }

// ###END###{Certificates}

// ###BEGIN###{!Certificates}

// TinyMD5 from https://github.com/jbt/js-crypto

// Perform MD5 setup
var md5_k = [];
for (var i = 0; i < 64;) { md5_k[i] = 0 | (Math.abs(Math.sin(++i)) * 4294967296); }

// Perform MD5 on raw string and return hex
function hex_md5(str) {
    if (str == null) { str = ''; }
    var b, c, d, j,
    x = [],
    str2 = unescape(encodeURI(str)),
    a = str2.length,
    h = [b = 1732584193, c = -271733879, ~b, ~c],
    i = 0;

    for (; i <= a;) x[i >> 2] |= (str2.charCodeAt(i) || 128) << 8 * (i++ % 4);

    x[str = (a + 8 >> 6) * 16 + 14] = a * 8;
    i = 0;

    for (; i < str; i += 16) {
        a = h; j = 0;
        for (; j < 64;) {
            a = [
              d = a[3],
              ((b = a[1] | 0) +
                ((d = (
                  (a[0] +
                    [
                      b & (c = a[2]) | ~b & d,
                      d & b | ~d & c,
                      b ^ c ^ d,
                      c ^ (b | ~d)
                    ][a = j >> 4]
                  ) +
                  (md5_k[j] +
                    (x[[
                      j,
                      5 * j + 1,
                      3 * j + 5,
                      7 * j
                    ][a] % 16 + i] | 0)
                  )
                )) << (a = [
                  7, 12, 17, 22,
                  5, 9, 14, 20,
                  4, 11, 16, 23,
                  6, 10, 15, 21
                ][4 * a + j++ % 4]) | d >>> 32 - a)
              ),
              b,
              c
            ];
        }
        for (j = 4; j;) h[--j] = h[j] + a[j];
    }

    str = '';
    for (; j < 32;) str += ((h[j >> 3] >> ((1 ^ j++ & 7) * 4)) & 15).toString(16);
    return str;
}

// ###END###{!Certificates}

// Perform MD5 on raw string and return raw string result
function rstr_md5(str) { return hex2rstr(hex_md5(str)); }

/*
Convert arguments into selector set and body XML. Used by AMT_WiFiPortConfigurationService_UpdateWiFiSettings.
args = { 
	"WiFiEndpoint": {
		__parameterType: 'reference',
		__resourceUri: 'http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_WiFiEndpoint',
		Name: 'WiFi Endpoint 0'
	}, 
	"WiFiEndpointSettingsInput": 
	{
		__parameterType: 'instance',
		__namespace: 'http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_WiFiEndpointSettings',
		ElementName: document.querySelector('#editProfile-profileName').value,
		InstanceID: 'Intel(r) AMT:WiFi Endpoint Settings ' + document.querySelector('#editProfile-profileName').value,
		AuthenticationMethod: document.querySelector('#editProfile-networkAuthentication').value,
		//BSSType: 3, // Intel(r) AMT supports only infrastructure networks
		EncryptionMethod: document.querySelector('#editProfile-encryption').value,
		SSID: document.querySelector('#editProfile-networkName').value,
		Priority: 100,
		PSKPassPhrase: document.querySelector('#editProfile-passPhrase').value
	}, 
	"IEEE8021xSettingsInput": null, 
	"ClientCredential": null, 
	"CACredential": null 
}, 
*/
function execArgumentsToXml(args) {
	if(args === undefined || args === null) return null;
	
	var result = '';
	for(var argName in args) {
		var arg = args[argName];
		if(!arg) continue;
		if(arg['__parameterType'] === 'reference') result += referenceToXml(argName, arg);
		else result += instanceToXml(argName, arg);
		//if(arg['__isInstance']) result += instanceToXml(argName, arg);
	}
	return result;
}

/**
 * Convert JavaScript object into XML
 
	<r:WiFiEndpointSettingsInput xmlns:q="http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_WiFiEndpointSettings">
		<q:ElementName>Wireless-Profile-Admin</q:ElementName>
		<q:InstanceID>Intel(r) AMT:WiFi Endpoint Settings Wireless-Profile-Admin</q:InstanceID>
		<q:AuthenticationMethod>6</q:AuthenticationMethod>
		<q:EncryptionMethod>4</q:EncryptionMethod>
		<q:Priority>100</q:Priority>
		<q:PSKPassPhrase>xxxxxxxx</q:PSKPassPhrase>
	</r:WiFiEndpointSettingsInput>
 */
function instanceToXml(instanceName, inInstance) {
	if(inInstance === undefined || inInstance === null) return null;
	
	var hasNamespace = !!inInstance['__namespace'];
	var startTag = hasNamespace ? '<q:' : '<';
	var endTag = hasNamespace ? '</q:' : '</';
	var namespaceDef = hasNamespace ? (' xmlns:q="' + inInstance['__namespace'] + '"' ): '';
	var result = '<r:' + instanceName + namespaceDef + '>';
	for(var prop in inInstance) {
		if (!inInstance.hasOwnProperty(prop) || prop.indexOf('__') === 0) continue;
		
		if (typeof inInstance[prop] === 'function' || Array.isArray(inInstance[prop]) ) continue;
		
		if (typeof inInstance[prop] === 'object') {
			//result += startTag + prop +'>' + instanceToXml('prop', inInstance[prop]) + endTag + prop +'>';
			console.error('only convert one level down...');
		}
		else {
			result += startTag + prop +'>' + inInstance[prop].toString() + endTag + prop +'>';
		}
	}
	result += '</r:' + instanceName + '>';
	return result;
}


/**
 * Convert a selector set into XML. Expect no nesting.
 * {
 * 	selectorName : selectorValue,
 * 	selectorName : selectorValue,
 *	... ...
 * }
 
	<r:WiFiEndpoint>
		<a:Address>http://192.168.1.103:16992/wsman</a:Address>
		<a:ReferenceParameters>
			<w:ResourceURI>http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_WiFiEndpoint</w:ResourceURI>
			<w:SelectorSet>
				<w:Selector Name="Name">WiFi Endpoint 0</w:Selector>
			</w:SelectorSet>
		</a:ReferenceParameters>
	</r:WiFiEndpoint>
			
 */
function referenceToXml(referenceName, inReference) {
	if(inReference === undefined || inReference === null ) return null;
	
	var result = '<r:' + referenceName + '><a:Address>/wsman</a:Address><a:ReferenceParameters><w:ResourceURI>'+ inReference['__resourceUri']+'</w:ResourceURI><w:SelectorSet>';
	for(var selectorName in inReference) {
		if (!inReference.hasOwnProperty(selectorName) || selectorName.indexOf('__') === 0) continue;
		
		if (typeof inReference[selectorName] === 'function' || 
			typeof inReference[selectorName] === 'object' ||
			Array.isArray(inReference[selectorName]) )
			continue;
		
		result += '<w:Selector Name="' + selectorName +'">' + inReference[selectorName].toString() + '</w:Selector>';
	}
	
	result += '</w:SelectorSet></a:ReferenceParameters></r:' + referenceName + '>';
	return result;
}

// Convert a byte array of SID into string
function GetSidString(sid) {
    var r = 'S-' + sid.charCodeAt(0) + '-' + sid.charCodeAt(7);
    for (var i = 2; i < (sid.length / 4) ; i++) r += '-' + ReadIntX(sid, i * 4);
    return r;
}

// Convert a SID readable string into bytes
function GetSidByteArray(sidString) {
    if (!sidString || sidString == null) return null;
    var sidParts = sidString.split('-');

    // Make sure the SID has at least 4 parts and starts with 'S'
    if (sidParts.length < 4 || (sidParts[0] != 's' && sidParts[0] != 'S')) return null;

    // Check that each part of the SID is really an integer
    for (var i = 1; i < sidParts.length; i++) { var y = parseInt(sidParts[i]); if (y != sidParts[i]) return null; sidParts[i] = y; }

    // Version (8 bit) + Id count (8 bit) + 48 bit in big endian -- DO NOT use bitwise right shift operator. JavaScript converts the number into a 32 bit integer before shifting. In real world, it's highly likely this part is always 0.
    var r = String.fromCharCode(sidParts[1]) + String.fromCharCode(sidParts.length - 3) + ShortToStr(Math.floor(sidParts[2] / Math.pow(2, 32))) + IntToStr((sidParts[2]) & 0xFFFF);

    // the rest are in 32 bit in little endian
    for (var i = 3; i < sidParts.length; i++) r += IntToStrX(sidParts[i]);
    return r;
}