MeshCommander/amt-0.2.0.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) {
            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]);
        }
        _up();
    }

    // Private method
    function _EnumStartSink(name, response, callback, resuri, status, tag, pri) {
        if (status != 200) { 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) { 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 {
            _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" 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_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_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 = "Platform firmware (e.g. BIOS)|SMI handler|ISV system management software|Alert ASIC|IPMI|BIOS vendor|System board set vendor|System integrator|Third party add-in|OSV|NIC|System management card".split('|');
    var _SystemFirmwareError = "Unspecified.|No system memory is physically installed in the system.|No usable system memory, all installed memory has experienced an unrecoverable failure.|Unrecoverable hard-disk/ATAPI/IDE device failure.|Unrecoverable system-board failure.|Unrecoverable diskette subsystem failure.|Unrecoverable hard-disk controller failure.|Unrecoverable PS/2 or USB keyboard failure.|Removable boot media not found.|Unrecoverable video controller failure.|No video device detected.|Firmware (BIOS) ROM corruption detected.|CPU voltage mismatch (processors that share same supply have mismatched voltage requirements)|CPU speed matching failure".split('|');
    var _SystemFirmwareProgress = "Unspecified.|Memory initialization.|Starting hard-disk initialization and test|Secondary processor(s) initialization|User authentication|User-initiated system 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 = "Unspecified|Other|Unknown|Processor|Disk|Peripheral|System management module|System board|Memory module|Processor module|Power supply|Add in card|Front panel board|Back panel board|Power system board|Drive backplane|System internal expansion board|Other system board|Processor board|Power unit|Power module|Power management board|Chassis back panel board|System chassis|Sub chassis|Other chassis board|Disk drive bay|Peripheral bay|Device bay|Fan cooling|Cooling unit|Cable interconnect|Memory device|System management software|BIOS|Intel(r) ME|System bus|Group|Intel(r) ME|External environment|Battery|Processing blade|Connectivity switch|Processor/memory module|I/O module|Processor I/O module|Management controller firmware|IPMI channel|PCI bus|PCI express bus|SCSI bus|SATA/SAS bus|Processor front side bus".split('|');
    obj.RealmNames = "||Redirection||Hardware Asset|Remote Control|Storage|Event Manager|Storage Admin|Agent Presence Local|Agent Presence Remote|Circuit Breaker|Network Time|General Information|Firmware Update|EIT|LocalUN|Endpoint Access Control|Endpoint Access Control Admin|Event Log Reader|Audit Log|ACL Realm|||Local System".split('|');
    obj.WatchdogCurrentStates = { 1: "Not Started", 2: "Stopped", 4: "Running", 8: "Expired", 16: "Suspended" };

    function _GetEventDetailStr(eventSensorType, eventOffset, eventDataField, entity) {

        if (eventSensorType == 15) {
            if (eventDataField[0] == 235) return "Invalid Data";
            if (eventOffset == 0) return _SystemFirmwareError[eventDataField[1]];
            return _SystemFirmwareProgress[eventDataField[1]];
        }

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

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

        if ((eventSensorType == 192) && (eventOffset == 0) && (eventDataField[0] == 170) && (eventDataField[1] == 48))
        {
            if (eventDataField[2] == 0) return "A remote Serial Over LAN session was established.";
            if (eventDataField[2] == 1) return "Remote Serial Over LAN session finished. User control was restored.";
            if (eventDataField[2] == 2) return "A remote IDE-Redirection session was established.";
            if (eventDataField[2] == 3) return "Remote IDE-Redirection session finished. User control was restored.";
        }

        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 = "wired"; // TODO: Add wireless *****
            //if (eventDataField[0] == 0xAA) nic = "wireless";

            if (handle == 4294967293) { return "All received packet filter was matched on " + nic + " interface."; }
            if (handle == 4294967292) { return "All outbound packet filter was matched on " + nic + " interface."; }
            if (handle == 4294967290) { return "Spoofed packet filter was matched on " + nic + " interface."; }
            return "Filter " + handle + " was matched on " + nic + " interface.";
        }

        if (eventSensorType == 192) {
            if (eventDataField[2] == 0) return "Security policy invoked. Some or all network traffic (TX) was stopped.";
            if (eventDataField[2] == 2) return "Security policy invoked. Some or all network traffic (RX) was stopped.";
            return "Security policy invoked.";
        }

        if (eventSensorType == 193) {
            if ((eventDataField[0] == 0xAA) && (eventDataField[1] == 0x30) && (eventDataField[2] == 0x00) && (eventDataField[3] == 0x00)) { return "User request for remote connection."; }
            if ((eventDataField[0] == 0xAA) && (eventDataField[1] == 0x20) && (eventDataField[2] == 0x03) && (eventDataField[3] == 0x01)) { return "EAC error: attempt to get posture while NAC in Intel<65> AMT is disabled."; } // eventDataField = 0xAA20030100000000
            if ((eventDataField[0] == 0xAA) && (eventDataField[1] == 0x20) && (eventDataField[2] == 0x04) && (eventDataField[3] == 0x00)) { return "HWA Error: general error"; } // Used to be "Certificate revoked." but don"t know the source of this.
        }

        if (eventSensorType == 6) return "Authentication failed " + (eventDataField[1] + (eventDataField[2] << 8)) + " times. The system may be under attack.";
        if (eventSensorType == 30) return "No bootable media";
        if (eventSensorType == 32) return "Operating system lockup or power interrupt";
        if (eventSensorType == 35) return "System boot failure";
        if (eventSensorType == 37) return "System firmware started (at least one CPU is properly executing).";
        return "Unknown Sensor Type #" + 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: "Security Admin",
        17: "RCO",
        18: "Redirection Manager",
        19: "Firmware Update Manager",
        20: "Security Audit Log",
        21: "Network Time",
        22: "Network Administration",
        23: "Storage Administration",
        24: "Event Manager",
        25: "Circuit Breaker Manager",
        26: "Agent Presence Manager",
        27: "Wireless Configuration",
        28: "EAC",
        29: "KVM",
        30: "User Opt-In Events",
        32: "Screen Blanking",
        33: "Watchdog Events",
        1600: "Provisioning Started",
        1601: "Provisioning Completed",
        1602: "ACL Entry Added",
        1603: "ACL Entry Modified",
        1604: "ACL Entry Removed",
        1605: "ACL Access with Invalid Credentials",
        1606: "ACL Entry State",
        1607: "TLS State Changed",
        1608: "TLS Server Certificate Set",
        1609: "TLS Server Certificate Remove",
        1610: "TLS Trusted Root Certificate Added",
        1611: "TLS Trusted Root Certificate Removed",
        1612: "TLS Preshared Key Set",
        1613: "Kerberos Settings Modified",
        1614: "Kerberos Main Key Modified",
        1615: "Flash Wear out Counters Reset",
        1616: "Power Package Modified",
        1617: "Set Realm Authentication Mode",
        1618: "Upgrade Client to Admin Control Mode",
        1619: "Unprovisioning Started",
        1700: "Performed Power Up",
        1701: "Performed Power Down",
        1702: "Performed Power Cycle",
        1703: "Performed Reset",
        1704: "Set Boot Options",
        1800: "IDER Session Opened",
        1801: "IDER Session Closed",
        1802: "IDER Enabled",
        1803: "IDER Disabled",
        1804: "SoL Session Opened",
        1805: "SoL Session Closed",
        1806: "SoL Enabled",
        1807: "SoL Disabled",
        1808: "KVM Session Started",
        1809: "KVM Session Ended",
        1810: "KVM Enabled",
        1811: "KVM Disabled",
        1812: "VNC Password Failed 3 Times",
        1900: "Firmware Updated",
        1901: "Firmware Update Failed",
        2000: "Security Audit Log Cleared",
        2001: "Security Audit Policy Modified",
        2002: "Security Audit Log Disabled",
        2003: "Security Audit Log Enabled",
        2004: "Security Audit Log Exported",
        2005: "Security Audit Log Recovered",
        2100: "Intel&reg; ME Time Set",
        2200: "TCPIP Parameters Set",
        2201: "Host Name Set",
        2202: "Domain Name Set",
        2203: "VLAN Parameters Set",
        2204: "Link Policy Set",
        2205: "IPv6 Parameters Set",
        2300: "Global Storage Attributes Set",
        2301: "Storage EACL Modified",
        2302: "Storage FPACL Modified",
        2303: "Storage Write Operation",
        2400: "Alert Subscribed",
        2401: "Alert Unsubscribed",
        2402: "Event Log Cleared",
        2403: "Event Log Frozen",
        2500: "CB Filter Added",
        2501: "CB Filter Removed",
        2502: "CB Policy Added",
        2503: "CB Policy Removed",
        2504: "CB Default Policy Set",
        2505: "CB Heuristics Option Set",
        2506: "CB Heuristics State Cleared",
        2600: "Agent Watchdog Added",
        2601: "Agent Watchdog Removed",
        2602: "Agent Watchdog Action Set",
        2700: "Wireless Profile Added",
        2701: "Wireless Profile Removed",
        2702: "Wireless Profile Updated",
        2800: "EAC Posture Signer SET",
        2801: "EAC Enabled",
        2802: "EAC Disabled",
        2803: "EAC Posture State",
        2804: "EAC Set Options",
        2900: "KVM Opt-in Enabled",
        2901: "KVM Opt-in Disabled",
        2902: "KVM Password Changed",
        2903: "KVM Consent Succeeded",
        2904: "KVM Consent Failed",
        3000: "Opt-In Policy Change",
        3001: "Send Consent Code Event",
        3002: "Start Opt-In Blocked Event"
    }

    // 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 ["Invalid ME access", "Invalid MEBx access"][data.charCodeAt(0)]; } // ACL Access with Invalid Credentials
        if (id == 1606) { var r = ["Disabled", "Enabled"][data.charCodeAt(0)]; if (data.charCodeAt(1) == 0) { r += ", " + data.substring(3); } return r;} // ACL Entry State
        if (id == 1607) { return "Remote " + ["NoAuth", "ServerAuth", "MutualAuth"][data.charCodeAt(0)] + ", Local " + ["NoAuth", "ServerAuth", "MutualAuth"][data.charCodeAt(1)]; } // TLS State Changed
        if (id == 1617) { return obj.RealmNames[ReadInt(data, 0)] + ", " + ["NoAuth", "Auth", "Disabled"][data.charCodeAt(4)]; } // Set Realm Authentication Mode
        if (id == 1619) { return ["BIOS", "MEBx", "Local MEI", "Local WSMAN", "Remote WSAMN"][data.charCodeAt(0)]; } // Intel AMT Unprovisioning Started
        if (id == 1900) { return "From " + ReadShort(data, 0) + '.' + ReadShort(data, 2) + '.' + ReadShort(data, 4) + '.' + ReadShort(data, 6) + " to " + 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 "From " + ["None", "KVM", "All"][data.charCodeAt(0)] + " to " + ["None", "KVM", "All"][data.charCodeAt(1)]; } // Opt-In Policy Change
        if (id == 3001) { return ["Success", "Failed 3 times"][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>' + "Local" + '</i>';
                    ptr = 5;
                }
                if (x['InitiatorType'] == 3) {
                    // KVM Default Port
                    x['Initiator'] = '<i>' + "KVM Default Port" + '</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;
}