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/ *
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Copyright 2020 - 2021 Intel Corporation
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Licensed under the Apache License , Version 2.0 ( the "License" ) ;
you may not use this file except in compliance with the License .
You may obtain a copy of the License at
http : //www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing , software
distributed under the License is distributed on an "AS IS" BASIS ,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND , either express or implied .
See the License for the specific language governing permissions and
limitations under the License .
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@ description Intel AMT Communication Stack
@ author Ylian Saint - Hilaire
@ version v0 . 3.0
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* /
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/*jslint node: true */
/*jshint node: true */
/*jshint strict:false */
/*jshint -W097 */
/*jshint esversion: 6 */
"use strict" ;
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/ * *
* Construct a AmtStackCreateService object , this is the main Intel AMT communication stack .
* @ constructor
* /
function AmtStackCreateService ( wsmanStack ) {
var obj = new Object ( ) ;
obj . _ObjectID = 'AMT'
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 Subscribe ( 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 . call ( obj , obj , name , response , xstatus , tag ) ; } , 0 , pri , selectors , opaque , user , pass ) ; _up ( ) ; }
// Perform a WSMAN "UNSUBSCRIBE" operation.
obj . UnSubscribe = function UnSubscribe ( name , callback , tag , pri , selectors ) { obj . wsman . ExecUnSubscribe ( obj . CompleteName ( name ) , function ( ws , resuri , response , xstatus ) { _up ( ) ; callback . call ( obj , obj , name , response , xstatus , tag ) ; } , 0 , pri , selectors ) ; _up ( ) ; }
// Perform a WSMAN "GET" operation.
obj . Get = function Get ( name , callback , tag , pri ) { obj . wsman . ExecGet ( obj . CompleteName ( name ) , function ( ws , resuri , response , xstatus ) { _up ( ) ; callback . call ( obj , obj , name , response , xstatus , tag ) ; } , 0 , pri ) ; _up ( ) ; }
// Perform a WSMAN "PUT" operation.
obj . Put = function Put ( name , putobj , callback , tag , pri , selectors ) { obj . wsman . ExecPut ( obj . CompleteName ( name ) , putobj , function ( ws , resuri , response , xstatus ) { _up ( ) ; callback . call ( obj , obj , name , response , xstatus , tag ) ; } , 0 , pri , selectors ) ; _up ( ) ; }
// Perform a WSMAN "CREATE" operation.
obj . Create = function Create ( name , putobj , callback , tag , pri ) { obj . wsman . ExecCreate ( obj . CompleteName ( name ) , putobj , function ( ws , resuri , response , xstatus ) { _up ( ) ; callback . call ( obj , obj , name , response , xstatus , tag ) ; } , 0 , pri ) ; _up ( ) ; }
// Perform a WSMAN "DELETE" operation.
obj . Delete = function Delete ( name , putobj , callback , tag , pri ) { obj . wsman . ExecDelete ( obj . CompleteName ( name ) , putobj , function ( ws , resuri , response , xstatus ) { _up ( ) ; callback . call ( obj , obj , name , response , xstatus , tag ) ; } , 0 , pri ) ; _up ( ) ; }
// Perform a WSMAN method call operation.
obj . Exec = function Exec ( name , method , args , callback , tag , pri , selectors ) { obj . wsman . ExecMethod ( obj . CompleteName ( name ) , method , args , function ( ws , resuri , response , xstatus ) { _up ( ) ; callback . call ( obj , obj , name , obj . CompleteExecResponse ( response ) , xstatus , tag ) ; } , 0 , pri , selectors ) ; _up ( ) ; }
// Perform a WSMAN method call operation.
obj . ExecWithXml = function ExecWithXml ( name , method , args , callback , tag , pri , selectors ) { obj . wsman . ExecMethodXml ( obj . CompleteName ( name ) , method , execArgumentsToXml ( args ) , function ( ws , resuri , response , xstatus ) { _up ( ) ; callback . call ( obj , obj , name , obj . CompleteExecResponse ( response ) , xstatus , tag ) ; } , 0 , pri , selectors ) ; _up ( ) ; }
// Perform a WSMAN "ENUMERATE" operation.
obj . Enum = function Enum ( 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 . call ( obj , obj , name , null , status , tag ) ; _EnumDoNext ( 1 ) ; return ; }
if ( response == null || response . Header [ "Method" ] != "EnumerateResponse" || ! response . Body [ "EnumerationContext" ] ) { callback . call ( obj , 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 . call ( obj , obj , name , null , status , tag ) ; _EnumDoNext ( 1 ) ; return ; }
if ( response == null || response . Header [ "Method" ] != "PullResponse" ) { callback . call ( obj , 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 ] ) { items . push ( response . Body [ "Items" ] [ i ] [ j ] ) ; }
} else {
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 . call ( obj , obj , name , items , status , tag ) ;
_up ( ) ;
}
}
// Private method
function _EnumDoNext ( dec ) {
obj . ActiveEnumsCount -= dec ;
if ( obj . ActiveEnumsCount >= obj . MaxActiveEnumsCount || obj . PendingEnums . length == 0 ) 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 ( ) ;
}
function Clone ( v ) { return JSON . parse ( JSON . stringify ( v ) ) ; }
// 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 . call ( obj , 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 . call ( obj , 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 . call ( obj , 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 . 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 , tag , pri , selectors ) { obj . Exec ( "AMT_AgentPresenceWatchdog" , "RegisterAgent" , { } , callback _func , tag , pri , selectors ) ; }
obj . AMT _AgentPresenceWatchdog _AssertPresence = function ( SequenceNumber , callback _func , tag , pri , selectors ) { obj . Exec ( "AMT_AgentPresenceWatchdog" , "AssertPresence" , { "SequenceNumber" : SequenceNumber } , callback _func , tag , pri , selectors ) ; }
obj . AMT _AgentPresenceWatchdog _AssertShutdown = function ( SequenceNumber , callback _func , tag , pri , selectors ) { obj . Exec ( "AMT_AgentPresenceWatchdog" , "AssertShutdown" , { "SequenceNumber" : SequenceNumber } , callback _func , tag , pri , selectors ) ; }
//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 _AlarmClockService _AddAlarm = function AlarmClockService _AddAlarm ( alarmInstance , callback _func )
{
var id = alarmInstance . InstanceID ;
var nm = alarmInstance . ElementName ;
var start = alarmInstance . StartTime . Datetime ;
var interval = alarmInstance . Interval ? alarmInstance . Interval . Datetime : undefined ;
var doc = alarmInstance . DeleteOnCompletion ;
var tpl = "<d:AlarmTemplate xmlns:d=\"http://intel.com/wbem/wscim/1/amt-schema/1/AMT_AlarmClockService\" xmlns:s=\"http://intel.com/wbem/wscim/1/ips-schema/1/IPS_AlarmClockOccurrence\"><s:InstanceID>" + id + "</s:InstanceID><s:ElementName>" + nm + "</s:ElementName><s:StartTime><p:Datetime xmlns:p=\"http://schemas.dmtf.org/wbem/wscim/1/common\">" + start + "</p:Datetime></s:StartTime>" + ( ( interval != undefined ) ? ( "<s:Interval><p:Interval xmlns:p=\"http://schemas.dmtf.org/wbem/wscim/1/common\">" + interval + "</p:Interval></s:Interval>" ) : "" ) + "<s:DeleteOnCompletion>" + doc + "</s:DeleteOnCompletion></d:AlarmTemplate>"
obj . wsman . ExecMethodXml ( obj . CompleteName ( "AMT_AlarmClockService" ) , "AddAlarm" , tpl , 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 ) ; }
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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 ) ; }
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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 , tag ) { obj . Exec ( "AMT_WebUIService" , "RequestStateChange" , { "RequestedState" : RequestedState , "TimeoutPeriod" : TimeoutPeriod } , callback _func , tag ) ; }
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 _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 _SecIOService _RequestStateChange = function ( RequestedState , TimeoutPeriod , callback _func ) { obj . Exec ( "IPS_SecIOService" , "RequestStateChange" , { "RequestedState" : RequestedState , "TimeoutPeriod" : TimeoutPeriod } , 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 ] , status ) ; 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 ] , status ) ; 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 = Buffer . from ( ra [ i ] , 'base64' ) ;
if ( e != null ) {
TimeStamp = ReadIntX ( e , 0 ) ;
if ( ( TimeStamp > 0 ) && ( TimeStamp < 0xFFFFFFFF ) ) {
x = { 'DeviceAddress' : e [ 4 ] , 'EventSensorType' : e [ 5 ] , 'EventType' : e [ 6 ] , 'EventOffset' : e [ 7 ] , 'EventSourceType' : e [ 8 ] , 'EventSeverity' : e [ 9 ] , 'SensorNumber' : e [ 10 ] , 'Entity' : e [ 11 ] , 'EntityInstance' : e [ 12 ] , 'EventData' : [ ] , 'Time' : new Date ( ( TimeStamp + ( t . getTimezoneOffset ( ) * 60 ) ) * 1000 ) } ;
for ( j = 13 ; j < 21 ; j ++ ) { x [ 'EventData' ] . push ( e [ 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 ] , status ) ; }
}
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|PT Administration|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)
//{
// long handle = ((long)(eventDataField[1]) << 24) + ((long)(eventDataField[2]) << 16) + ((long)(eventDataField[3]) << 8) + (long)(eventDataField[4]);
// string nic = string.Format("#{0}", eventDataField[0]);
// if (eventDataField[0] == 0xAA) nic = "wired"; // TODO: Add wireless *****
// //if (eventDataField[0] == 0xAA) nic = "wireless";
// if (handle == 4294967293) { return string.Format("All received packet filter was matched on {0} interface.", nic); }
// if (handle == 4294967292) { return string.Format("All outbound packet filter was matched on {0} interface.", nic); }
// if (handle == 4294967290) { return string.Format("Spoofed packet filter was matched on {0} interface.", nic); }
// return string.Format("Filter {0} was matched on {1} interface.", handle, nic);
//}
//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(r) AMT is disabled."; // eventDataField = 0xAA20030100000000 }
// if (eventDataField[0] == 0xAA && eventDataField[1] == 0x20 && eventDataField[2] == 0x04 && eventDataField[3] == 0x00) { return "Certificate revoked. "; }
//}
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' ,
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1614 : 'Kerberos Main Key Modified' ,
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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(R) 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 [ 0 ] == 0 ) { return data . splice ( 2 , 2 + data [ 1 ] ) . toString ( ) ; } // ACL Entry Added/Removed (Digest)
if ( id == 1603 ) { if ( data [ 1 ] == 0 ) { return data . splice ( 3 ) . toString ( ) ; } return null ; } // ACL Entry Modified
if ( id == 1605 ) { return [ "Invalid ME access" , "Invalid MEBx access" ] [ data [ 0 ] ] ; } // ACL Access with Invalid Credentials
if ( id == 1606 ) { var r = [ "Disabled" , "Enabled" ] [ data [ 0 ] ] ; if ( data [ 1 ] == 0 ) { r += ", " + data [ 3 ] ; } return r ; } // ACL Entry State
if ( id == 1607 ) { return "Remote " + [ "NoAuth" , "ServerAuth" , "MutualAuth" ] [ data [ 0 ] ] + ", Local " + [ "NoAuth" , "ServerAuth" , "MutualAuth" ] [ data [ 1 ] ] ; } // TLS State Changed
if ( id == 1617 ) { return obj . RealmNames [ ReadInt ( data , 0 ) ] + ", " + [ "NoAuth" , "Auth" , "Disabled" ] [ data [ 4 ] ] ; } // Set Realm Authentication Mode
if ( id == 1619 ) { return [ "BIOS" , "MEBx" , "Local MEI" , "Local WSMAN" , "Remote WSAMN" ] [ data [ 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 [ 0 ] ] + " to " + [ "None" , "KVM" , "All" ] [ data [ 1 ] ] ; } // Opt-In Policy Change
if ( id == 3001 ) { return [ "Success" , "Failed 3 times" ] [ data [ 0 ] ] ; } // Send Consent Code Event
return null ;
}
obj . GetAuditLog = function ( func ) {
obj . AMT _AuditLog _ReadRecords ( 1 , _GetAuditLog0 , [ func , [ ] ] ) ;
}
function MakeToArray ( v ) { if ( ! v || v == null || typeof v == 'object' ) return v ; return [ v ] ; }
function ReadShort ( v , p ) { return ( v [ p ] << 8 ) + v [ p + 1 ] ; }
function ReadInt ( v , p ) { return ( v [ p ] * 0x1000000 ) + ( v [ p + 1 ] << 16 ) + ( v [ p + 2 ] << 8 ) + v [ p + 3 ] ; } // We use "*0x1000000" instead of "<<24" because the shift converts the number to signed int32.
function ReadIntX ( v , p ) { return ( v [ p + 3 ] * 0x1000000 ) + ( v [ p + 2 ] << 16 ) + ( v [ p + 1 ] << 8 ) + v [ p ] ; }
function btoa ( x ) { return Buffer . from ( x ) . toString ( 'base64' ) ; }
function atob ( x ) { var z = null ; try { z = Buffer . from ( x , 'base64' ) . toString ( ) ; } catch ( e ) { console . log ( e ) ; } return z ; }
function _GetAuditLog0 ( stack , name , responses , status , tag ) {
if ( status != 200 ) { tag [ 0 ] ( obj , [ ] , status ) ; return ; }
var ptr , i , e , es , 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 {
es = atob ( responses . Body [ 'EventRecords' ] [ i ] ) ;
2020-03-19 16:42:37 -04:00
e = Buffer . from ( es ) ;
2019-09-19 15:25:13 -04:00
} catch ( ex ) {
console . log ( ex + " " + responses . Body [ 'EventRecords' ] [ i ] )
}
x = { 'AuditAppID' : ReadShort ( e , 0 ) , 'EventID' : ReadShort ( e , 2 ) , 'InitiatorType' : e [ 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 [ 5 ] ;
x [ 'Initiator' ] = e . slice ( 6 , 6 + userlen ) . toString ( ) ;
ptr = 6 + userlen ;
}
if ( x [ 'InitiatorType' ] == 1 ) {
// Kerberos
x [ 'KerberosUserInDomain' ] = ReadInt ( e , 5 ) ;
var userlen = e [ 9 ] ;
x [ 'Initiator' ] = GetSidString ( e . slice ( 10 , 10 + userlen ) ) ;
ptr = 10 + userlen ;
}
if ( x [ 'InitiatorType' ] == 2 ) {
// Local
x [ 'Initiator' ] = 'Local' ;
ptr = 5 ;
}
if ( x [ 'InitiatorType' ] == 3 ) {
// KVM Default Port
x [ 'Initiator' ] = 'KVM Default Port' ;
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 [ ptr ++ ] ;
var netlen = e [ ptr ++ ] ;
x [ 'NetAddress' ] = e . slice ( ptr , ptr + netlen ) . toString ( ) ;
// Read extended data
ptr += netlen ;
var exlen = e [ ptr ++ ] ;
x [ 'Ex' ] = e . slice ( 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}
/ *
// ###BEGIN###{Certificates}
// Forge MD5
function hex _md5 ( 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 ) {
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 : E l e m e n t N a m e >
< q : InstanceID > Intel ( r ) AMT : WiFi Endpoint Settings Wireless - Profile - Admin < / q : I n s t a n c e I D >
< q : AuthenticationMethod > 6 < / q : A u t h e n t i c a t i o n M e t h o d >
< q : EncryptionMethod > 4 < / q : E n c r y p t i o n M e t h o d >
< q : Priority > 100 < / q : P r i o r i t y >
< q : PSKPassPhrase > P @ ssw0rd < / q : P S K P a s s P h r a s e >
< / r : W i F i E n d p o i n t S e t t i n g s I n p u t >
* /
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 : S e l e c t o r >
< / w : S e l e c t o r S e t >
< / a : R e f e r e n c e P a r a m e t e r s >
< / r : W i F i E n d p o i n t >
* /
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 ;
}
return obj ;
}
module . exports = AmtStackCreateService ;