CI Class NSX Logical Switch

Inheritance diagram for NSX Logical Switch

Summary

Display NameNSX Logical Switch
Namensx_logical_switch
DescriptionNSX-T Logical Switches (Segments) create logically abstracted switches to which tenant workloads can be connected.

Attributes

Attributes defined for NSX Logical Switch
NameDisplay NameTypeDefault ValueDescriptionFactoryKeyHidden
BODY_ICONstringswitchtruefalsetrue
MENUxmltruefalsetrue
Attributes defined for Switch
NameDisplay NameTypeDefault ValueDescriptionFactoryKeyHidden
BODY_ICONstringswitchtruefalsetrue
Attributes defined for Net Device
NameDisplay NameTypeDefault ValueDescriptionFactoryKeyHidden
classificationclassification_enumnetworktruefalsefalse
Attributes defined for Node
NameDisplay NameTypeDefault ValueDescriptionFactoryKeyHidden
bios_asset_tagBiosAssetTagstring[500]Asset tag number of the Node, as defined by the DMTF SYMBIOS specification.truefalsefalse
bios_dateBiosDatedateThe BIOS/Firmware release date.truefalsefalse
bios_serial_numberBiosSerialNumberstring[500]A manufacturer specified serial number or unique ID of the BIOS.truefalsefalse
bios_sourceBiosSourcestring[1000]Shows the version of the BIOS source code.truefalsefalse
bios_uuidBiosUuidstring[100][Summary]A System Management BIOS identifier that is designed to be unique across both time and space, and requires no central registration process. The UUID is 128 bits long uppercase value in big-endian encoding (example: 00112233-4455-6677-8899-AABBCCDDEEFF). [Collection-Windows] use wmi command: wmic path win32_ComputerSystemProduct get uuid [Collection-Unix] use command: dmidecode -t systemtruefalsefalse
bios_versionBiosVersionstring[500]Shows the version of the BIOS.truefalsefalse
BODY_ICONstringhosttruefalsetrue
calculated_locationCalculatedLocationstring[250]truefalsefalse
chassis_typeChassisTypechassistype_enumSpecifies the type of the chassis, such as Desktop, Mini Tower, etc.truefalsefalse
classificationclassification_enuminfrastructuretruefalsefalse
cloud_instance_idCloud Instance IDstring[500]This attribute is the instance id in cloud environment. [Collection] For AWS EC2 instances, by accessing the URL http://169.254.169.254/latest/meta-data/instance-id on the EC2 instance or by AWS Java API com.amazonaws.services.ec2.AmazonEC2Client().describeInstances(DescribeInstancesRequest()).getReservations().getInstances().getId()truefalsefalse
cloud_private_dns_nameCloudPrivateDnsNamestring[500][Summary]This attribute is internal hostname of the cloud instance, which resolves to the instance's private IP address. [Collection-AWS] CALL API of AWSSDK:'AmazonEC2Client.describeInstances(DescribeInstancesRequest).getReservations().getPrivateDnsName()' [Example]'ip-172-31-14-56.ap-southeast-1.compute.internal' .truefalsefalse
cloud_vm_display_nameCloud VM Display Namestring[256]This attribute is the display name of vm instance on cloud. For AWS EC2 instances, this attribute comes from the Name Tag, and length limit is 256. For Azure and Google Cloud VM instances, this attribute comes from the name field, and the length limit is 63.truefalsefalse
default_gateway_ip_addressDefaultGatewayIpAddressstring[50]This is the IP address of the default router for a given device. Default router is used by device as the next hop of last choice in case no other specific routes are defined for a destination. truefalsefalse
default_gateway_ip_address_typeDefaultGatewayIpAddressTypeip_address_type_enumIPv4The type of the IP Address of the default gateway (e.g. IPv4, IPv6)truefalsefalse
discovered_contactDiscoveredContactstring[512]Represents a discoverable contact infoe.g. the SysContact value as reported by an SNMP agent on a device whichis often containsspecific contact information.truefalsefalse
discovered_descriptionDiscoveredDescriptionstring[512]Represents a discoverable descriptione.g.the SysDescr value reported by an SNMP agent on a device which isoften contains some useful information about the device including its role.truefalsefalse
discovered_locationDiscoveredLocationstring[512]Represents a discoverable location e.g.the SysLocation value reported by an SNMP agent on a devicewhich is oftenincludesspecific location info such as floor, room, building etc.truefalsefalse
discovered_modelDiscoveredModelstring[250]The node model as determined during discovery (e.g. Proliant DL140 G2, VMware Virtual Platform, etc.)truefalsefalse
discovered_os_nameDiscoveredOsNamestring[500][Summary]The operating system name as determined during discovery (e.g. Windows XP, Windows 2003, SunOS) [Collection-windows] use wmi command: wmic path Win32_OperatingSystem get Caption Analyze the output and build the value: Windows server: Windows Server + [Version] + [Release] + [Service Pack] Windows: Windows + [Version] [Collection-unix] use command : uname -a Analyze the output and use one of the values in : Ubuntu (Linux), RHEL (Linux), Debian (Linux), CentOS (Linux), Fedora (Linux), Container Linux (Linux), SuSE (Linux), SLES (Linux), openSUSE (Linux), Amazon Linux (Linux), Oracle Linux (Linux), ClearOS (Linux), Gentoo (Linux), FreeBSD (Unix), Linux, XenServer, Mac OS X, OS Xtruefalsefalse
discovered_os_vendorDiscoveredOsVendorstring[250][Summary]The operating system vendor name as determined during discovery (e.g. Windows, Sun Microsystems). [Collection] Exact vendor name is decided by normalization enginetruefalsefalse
discovered_os_versionDiscoveredOsVersionstring[500]The operating system version as determined during discovery.truefalsefalse
discovered_vendorDiscoveredVendorstring[250]The node vendor name as determined during discovery (e.g. HP, VMware Inc., etc.)truefalsefalse
dns_domain_nameDNS Domain Namestring[200][Summary]The DNS Domain name, it is used to allocate IT resource on the network. It can be translated to an IP Address by DNS server. [Collection-Windows] use wmi command: wmic path Win32_NetworkAdapterConfiguration get DNSDomain [Collection-Unix] collect from '/etc/hosts' or extract from fqdn or use command 'hostname -d'truefalsefalse
dns_serversDnsServersstring_listThe IP address list of the network adapter Domain Name System (DNS) server for this machine.truefalsefalse
domain_nameDomainNamestring[250][Summary]This is the domain name of which the node is part of. Typically domains are used to structure entities because of organizational / authorization oriented reasons. The domain name differs from the hostname in the way that the hostname is based on DNS, whereas the DomainName is based on other kind of domains (yp, nis, AD). [Collection - Windows] use command: set user [Collection - Unix] use command: uname -ytruefalsefalse
extended_node_familyExtendedNodeFamilystring[250]This is a fine grained family of the node/hardware/device.truefalsefalse
extended_os_familyExtendedOsFamilystring[Summary]This attribute is a fine grained descriptor of the operating system family. [Collection This value is the output of normalization engine.]truefalsefalse
FAMILY_ICONstringnetworktruefalsetrue
has_managed_disksHas Managed Disksstring[150][Summary] Flags if any of the OS Disks and any of the Data Disks are managed. [Collection_Azure] The data is collected from RESTAPI response(/subscriptions/subscription_id/resourceGroups/resourceGroup_id/providers/Microsoft.Compute/virtualMachines/VM_name)value of [properties][osDisk][managedDisks] and [properties][dataDisk][managedDisks]truefalsefalse
host_iscompleteNode Is CompletebooleanfalseTrue value marks if the smallest MAC address of the node was discoveredtruefalsefalse
host_isdesktopNode is DesktopbooleanIs this node a desktoptruefalsefalse
host_isrouteNode Is RoutebooleanTrue value marks if the node have more then one ip address each in different subnettruefalsefalse
host_isvirtualNode Is Virtualboolean[Summary]True value marks that the node is virtual. On the contrary, False don't means it's definitely physical machine. It's possible that we don't have enough information to identify it. [Collection] Virtualization job and Cloud job will mark the node as virtual.truefalsefalse
host_keyNode Keystring[250]Unique string identifying the specific node (On complete nodes this value will hold the smallest MAC address of the node and on non-complete nodes this value will hold node_ip Probe domain)truefalsefalse
host_last_boot_timeNode Boot TimedateNode last boot timetruefalsefalse
host_nnm_internal_keyNode NNM Internal Keystring[100]Node primary key in NNMi Database join with NNMi server IP. Only for uCMDB internal usetruefalsetrue
host_nnm_uidNode NNM UIDstring[100]UID of the node in NNM topologytruefalsefalse
host_osaccuracyNode Operating System accuracystring[10]Operating System Model accuracytruefalsefalse
host_osinstalltypeNode Operating System Installation typestring[500]Node Operating System Installation typetruefalsefalse
host_osreleaseNode Operating System Releasestring[256]Operating System Releasetruefalsefalse
host_servertypeNode Server Typestring[500]Describe the server in bit wisetruefalsefalse
internal_nameInternal Name of a Node Monitored by SiteScopestring[600]Internal name of a SiteScope group which is a parent of the node monitored by SiteScopetruefalsetrue
layerlayer_enuminfrastructuretruefalsefalse
lic_operational2advancedHas Operational2Advanced LicensebooleanfalseInternal use onlytruefalsetrue
lic_typeLicense Typestring_listInternal use onlytruefalsetrue
lic_type_assetHas Asset LicensebooleanfalseInternal use onlytruefalsetrue
lic_type_basicHas Basic LicensebooleanfalseInternal use onlytruefalsetrue
lic_type_fullHas Full LicensebooleanfalseInternal use onlytruefalsetrue
lic_type_managementHas Management LicensebooleanfalseInternal use onlytruefalsetrue
lic_type_operationalHas Operational LicensebooleanfalseInternal use onlytruefalsetrue
lic_type_premiumHas Premium LicensebooleanfalseInternal use onlytruefalsetrue
lic_type_udfHas UDF LicensebooleanfalseInternal use onlytruefalsetrue
lic_type_udiHas UDI LicensebooleanfalseInternal use onlytruefalsetrue
memory_sizeMemorySizeintegerThe size of volatile memory (RAM, SRAM, DRAM, ZRAM, TRAM) in megabytes.truefalsefalse
MENUxmltruefalsetrue
net_bios_nameNetBiosNamestringThe NetBios name is used by NetBios services running on a computer. It is combination of a 15 character (byte) name and a 16th character denoting the service. The NetBios name of a computer is usually the same as the computer's host name (truncated to 15 characters length) but may also be completely different.truefalsefalse
node_familyNodeFamilystring[500]This is a family of the node/hardware/device as commonly advertised by the device vendor. For example C-Class, 6500Series etc.truefalsefalse
node_modelNodeModelstring[250][Summary]This attribute represents a specific model of a node/hardware/device. [Collection] This value is the output of normalization engine. [Collection - AWS] For AWS EC2 instances, collected by accessing the URL http://169.254.169.254/latest/meta-data/instance-id on the EC2 instance or by AWS Java API com.amazonaws.services.ec2.AmazonEC2Client().describeInstances(DescribeInstancesRequest()).getReservations().getInstances().getInstanceType()truefalsefalse
node_os_descriptionNodeOsDescriptionstring[100]Internal use onlytruefalsetrue
node_roleNodeRolestring_listThis describes all possible role a node can have such as router, switch, firewall, etc.. Users can also add additional capabilities to the Node on the fly for their own purposes. For example, they may want to identify a device as CPE (Customer Premise Equipment) and will add a capability called isCPE.truefalsefalse
node_stateNode Statenode_state_enum[Summary]Shows the state of the node.[Collection-AWS]API: AmazonEC2Client.describeInstances(DescribeInstancesRequest()).getReservations().getInstances().getState().getName() [Azure] API: https://management.azure.com/subscriptions/{sub_id}/resourceGroups/{rg_name}/providers/Microsoft.Compute/virtualMachines/{vm_name}?$expand=instanceView&api-version=2020-06-01 and https://management.azure.com/subscriptions/{sub_id}/resourceGroups/{rg_name}/providers/Microsoft.Compute/virtualMachineScaleSets/{ss_name}/virtualMachines/{instance_id}/instanceView?api-version=2020-06-01truefalsefalse
os_descriptionOsDescriptionstring[500] Thisattribute is used to describe the characteristics of the hardware/device operating system running ona node. This description can include detailed version and patch informationtruefalsefalse
os_familyOsFamilyos_family_enumThis attribute is a course grain descriptor for the operating system family. For example, Windows,Unix, etctruefalsefalse
os_installed_dateOSInstalledDatedateShows the date when the operation system is installedtruefalsefalse
os_licensing_benefitOsLicensingBenefitstring[50][Summary] Specifies that the image or disk that is being used was licensed on-premises. [Collection_Azure] The data is collected from RESTAPI response(/subscriptions/subscription_id/resourceGroups/resourceGroup_id/providers/Microsoft.Compute/virtualMachines/VM_name)value of [properties][licenseType]truefalsefalse
os_vendorOsVendorstring[200]The name of the vendor of the operating system (e.g. Microsoft, HP, etc).truefalsefalse
platform_vendorPlatform VendorstringThis attribute indicates the hosting platform of this node. For example, AWS, Azure, etctruefalsefalse
primary_dns_namePrimaryDnsNamestring[4000][Summary]This attribute is a fully qualified dns domain name for a node (also known as DNS name). A node could have many IP addresses on it and some of those IP addresses are also private.So, selecting one DNS name for a node is a non-trivial task.This attribute will typically be populated by selecting one of the IP addresses on the node and resolving the DNS name for that address and then using it as the hostname for the node.truefalsefalse
primary_ip_addressPrimaryIPAddressstring[50]This attribute is a primary IP address for a node.truefalsefalse
primary_mac_addressPrimaryMACAddressstring[50]This attribute is a primary MAC address for a node.truefalsefalse
processor_familyProcessorFamilyprocessor_family_enumArchitecture of the node's processortruefalsefalse
serial_numberSerialNumberstring[500][Summary]A manufacturer specified serial number or unique ID for a product or element [Collection-Windows] wmic path Win32_BIOS get serialNumber [Collection-Unix] dmidecode -t systemtruefalsefalse
smbios_biosversionSMBIOSBiosVersionstring[100][Summary]Shows the bios version of the SMBIOS. Get the value by command: wmic path Win32_BIOS get smbiosbiosversiontruefalsefalse
snmp_sys_nameSnmpSysNamestring[250]This is name reported by a SNMP agent on a device. It is different from a DNS name.truefalsefalse
swap_memory_sizeSwapMemorySizeintegertruefalsefalse
sys_object_idSysObjecttIdstring[250]The system object identifier of the node if the node supports SNMP.truefalsefalse
ud_unique_idUdUniqueIdstring[200][Summary]A unique identifier which is generated by UD Agent for the Node reported by Universal Discoveries. This attribute should be empty if UD Agent is not involvedtruefalsefalse
vendorVendorstring[200]The vendor/manufacturer name of a software, node, or elementtruefalsefalse
vm_idVM IDstring[150][Summary]The id of VM.[Collection_Azure]The vm_id collected from RESTAPI response(/subscriptions/subscription_id/resourceGroups/resourceGroup_id/providers/Microsoft.Compute/virtualMachines/VM_name) value of "properties:vmid"truefalsefalse
vmware_resource_idVMware Resource IDstring[150]The resource identifier defined by VMware VROPS. Call API of VROPS (value of "idetifier") : /api/resources/truefalsefalse
Attributes defined for InfrastructureElement
NameDisplay NameTypeDefault ValueDescriptionFactoryKeyHidden
BODY_ICONstringsystemtruefalsetrue
codepageCodePagestring[50]System suported CodePagetruefalsetrue
credentials_idReference to the credentials dictionary entrystringReference to the credentials dictinary entrytruefalsetrue
languageLanguagestring[50]System suported languagetruefalsetrue
zone_listZone Liststring_list[256]List of management zones in which the CI is discoveredtruefalsefalse
Attributes defined for ConfigurationItem
NameDisplay NameTypeDefault ValueDescriptionFactoryKeyHidden
ack_cleared_timelongtruefalsetrue
ack_idstring[80]truefalsetrue
bit_positionBit Positionintegertruefalsetrue
bitmap_idBitmap IDintegertruefalsetrue
BODY_ICONstringit_worldtruefalsetrue
cityCitystring[50]City locationtruefalsetrue
classificationclassification_enumtruefalsefalse
contextmenuContext Menustring_list[100]Context menutruefalsetrue
countryCountry or Provincestring[50]Country or province locationtruefalsetrue
data_tagsTagsjson[4000]A tag is a label assigned to a resource.Each tag consists of a key and a value.truefalsefalse
is_save_persistencyStore KPI History For Over Time ReportsbooleanfalseStore KPI history for over time reportstruefalsetrue
layerlayer_enumtruefalsefalse
sd_typeSD Typestring[32]truefalsefalse
stateStatestring[50]State locationtruefalsetrue
track_changesTrack Configuration ChangesbooleanfalseTrack configuration changestruefalsetrue
Attributes defined for Managed Object
NameDisplay NameTypeDefault ValueDescriptionFactoryKeyHidden
TenantOwnerOwner Tenantstring[32]The Tenant Owner IDtruefalsefalse
TenantsUsesConsumer Tenantsstring_listThe IDs of the Tenants who are associated with the CItruefalsefalse
Attributes defined for Object
NameDisplay NameTypeDefault ValueDescriptionFactoryKeyHidden
document_listDocumentsstringDocumentstruefalsetrue
MENUxmltruefalsetrue
Attributes defined for Data
NameDisplay NameTypeDefault ValueDescriptionFactoryKeyHidden
data_adminstateAdmin Stateadminstates_enum0Admin Statetruefalsetrue
data_allow_auto_discoveryAllow CI Updateboolean[250]truetruefalsefalse
data_changecorrstateChange Corr Statechangestates_enum0Change Statetruefalsetrue
data_changeisnewChange Is NewbooleanfalseChange Statetruefalsetrue
data_changestateChange Statechangestates_enum0Change Statetruefalsetrue
data_externalidExternal IDstring[50]external source id: snmp index, data sources index etc.truefalsetrue
data_noteNotestring[250]truefalsefalse
data_operationcorrstateOperation Corr Stateoperationstates_enum0Operation Statetruefalsetrue
data_operationisnewOperation Is NewbooleanfalseOperation Statetruefalsetrue
data_operationstateOperation Stateoperationstates_enum0Operation Statetruefalsetrue
data_originOriginstring[100]truefalsefalse
data_sourceCreated Bystring[512]truefalsefalse
data_testcorrstateTest Corr Stateteststates_enum0Test Statetruefalsetrue
data_testisnewTest Is NewbooleanfalseTest Statetruefalsetrue
data_teststateTest Stateteststates_enum0Test Statetruefalsetrue
data_updated_byLastModifiedBystring[512]truefalsefalse
descriptionDescriptionstring[1000]Descriptiontruefalsefalse
digestDigeststring[40]truefalsetrue
display_labelDisplay Labelstring[900]Used as calc attribute for displaytruefalsefalse
MENUxmltruefalsetrue
nameNamestring[900]truefalsefalse
user_labelUser Labelstring[900]Used as user labeltruefalsefalse
Attributes defined for Root
NameDisplay NameTypeDefault ValueDescriptionFactoryKeyHidden
BODY_ICONstringgeneraltruefalsetrue
calculated_idCalculated IDbytes[16]Calculated IDtruefalsetrue
create_timeCreated TimedateWhen was this CI createdtruefalsefalse
FAMILY_ICONstringtruefalsetrue
global_idGlobal Idstring[32]A globally unique identifier for the entity represented by the objecttruefalsefalse
global_id_scopestringDefaulttruefalsetrue
last_discovered_byLastDiscoveredBystring[512]Who discovered this CItruefalsefalse
last_discovered_by_probeLastDiscoveredByProbestringWhich probe discovered this CItruefalsefalse
last_discovered_timeLastDiscoveredTimedateWhen was this CI discoveredtruefalsefalse
last_modified_timeLastModifiedTimedateWhen was this CI last updatedtruefalsefalse
root_actualdeletetimeActual Delete TimedateWhen will this CI be deletedtruefalsetrue
root_actualdeletionperiodActual Deletion Periodinteger40What is the period after the CI will be deletedtruefalsefalse
root_candidatefordeletetimeCandidate For Deletion TimedateWhen will this CI be warned about deletingtruefalsetrue
root_classCI Typestring[100]Class name of the CItruefalsetrue
root_containerContainerstring[32]Container CI of this CItruefalsefalse
root_deletioncandidateperiodDeletion Candidate Periodinteger20What is the period after the CI will be candidate for deletetruefalsefalse
root_enableageingEnable AgingbooleanfalseIs aging enabledtruefalsefalse
root_iconpropertiesstring[100]truefalsetrue
root_iscandidatefordeletionIs Candidate For DeletionbooleanfalseIs candidate for deletiontruefalsefalse
root_lastaccesstimeLast Access TimedateWhen was this CI last accessedtruefalsefalse
root_systemSystemstring[2]truefalsetrue

Valid Relations

Valid direct incoming and outgoing relations defined on NSX Logical Switch

Relations defined for NSX Logical Switch
FromToTypeDescription
ComputerNSX Logical Switch UsageMonitor system Relationships
NSX Logical RouterNSX Logical Switch UsageMonitor system Relationships
NSX Transport ZoneNSX Logical Switch CompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
Relations defined for Switch
FromToTypeDescription
SwitchVlanCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
ELANSwitchBcast Domain
IBM FSMSwitchManage
Relations defined for Node
FromToTypeDescription
NodeArpCacheCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeAmazon Machine ImageDependencyrepresents a dependency between 2 objects
NodeAmazon Security GroupUsageMonitor system Relationships
NodeAzure AgentCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeAzure Log Analytics workspaceUsageMonitor system Relationships
NodeBridgeCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeCallHomeEventCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeCellBoardUsageMonitor system Relationships
NodeChassisContainment
NodeClusterSoftwareCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeCommunicationEndpointCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeConfigurationDocumentCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeLicense Core FactorCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeDatacenterResourceUsageMonitor system Relationships
NodeDb2PartitionContainment
NodeDnsZoneContainment
NodeDockerCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeDocker ImageCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeFibre Channel HBAContainment
NodeFibre Channel HBAUsageMonitor system Relationships
NodeFileSystemExportDependencyrepresents a dependency between 2 objects
NodeGoogle Cloud VPC FirewallUsageMonitor system Relationships
NodeGoogle Cloud ImageUsageMonitor system Relationships
NodeGoogle Cloud VPC RouteUsageMonitor system Relationships
NodeGoogle Cloud VM ConfigCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeIBM Processor PoolUsageMonitor system Relationships
NodeIBM LMT LicenseCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeIBM LMT License ConfigCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeInterfaceCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeInterfaceContainment
NodeInterfaceUsageMonitor system Relationships
NodeInterface IndexCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeIpAddressContainment
NodeIpAddressVirtualLink between Node and its virtual IP
NodeIpServiceEndpointClientServerThe Client-Server relationship indicates the two CIs communicate with each other where one CI acts as a client while the other acts a server.
NodeIpServiceEndpointCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeIPMP GroupCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeTCP/IP PortCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeKubernetes Node ConfigCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeLDOM Virtual SwitchContainment
NodeLogicalVolumeDependencyrepresents a dependency between 2 objects
NodeMainframeMajorNodeCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeMainframeXcfMemberContainment
NodeNodeBackbonethe backbone links are links discovered by the discover layer 2 service. the link represent a connection between two switches (physical connection)
NodeNodeDependencyrepresents a dependency between 2 objects
NodeNodeMembership
NodeNodeTalk
NodeNodeUnnumberedThe unnumbered links are links discovered by the base collector. this link represents a row data from the route table in the mib containing the data of the next_hop ip address and the destination network address. This link is only created when the route table is missing the Source IP Address from which the route takes place. The route table is in the mib address : table is in the mib address : 1.3.6.1.2.1.4.21.1.7
NodeNodeElementCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeNutanix PrismCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeNutanix Virtual DiskCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeOpenStack FlavorDependencyrepresents a dependency between 2 objects
NodeOpenStack ImageDependencyrepresents a dependency between 2 objects
NodeOpenStack VolumeUsageMonitor system Relationships
NodeOracle Cloud ImageDependencyrepresents a dependency between 2 objects
NodeOracle Cloud Storage VolumeUsageMonitor system Relationships
NodeOracle DatabaseContainment
NodeOSPFCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodePhysicalPortCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodePhysicalPortLayer 2the layertwo links are links discovered by the discover layer 2 service. the link represent a connection between switche to host (physical connection)
NodeProcessClientServerThe Client-Server relationship indicates the two CIs communicate with each other where one CI acts as a client while the other acts a server.
NodeProcessTalk
NodeRHEVM DiskDeviceContainment
NodeRunningSoftwareCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeSCSI AdapterContainment
NodeServer ProfileCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeUriEndpointCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeUriEndpointMembership
NodeVMware DatastoreDependencyrepresents a dependency between 2 objects
NodeVMware ResourceCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
NodeVMware Virtual DiskUsageMonitor system Relationships
Amazon AccountNodeContainment
Amazon Auto Scaling GroupNodeMembership
Amazon ECS ClusterNodeContainment
Amazon ECS TaskNodeDependencyrepresents a dependency between 2 objects
Amazon StackNodeContainment
Amazon Virtual Private CloudNodeMembership
Azure Availability SetNodeMembership
Azure Proximity Placement GroupNodeContainment
Azure Resource GroupNodeMembership
Azure Scale SetNodeContainment
ClusterNodeContainment
DatacenterResourceNodeUsageMonitor system Relationships
DnsZoneNodeMembership
DockerNodeDependencyrepresents a dependency between 2 objects
EMC ECS Storage PoolNodeContainment
EMC ECS Virtual Data CenterNodeContainment
Google Cloud VPC NetworkNodeMembership
Google Cloud SubnetNodeMembership
Google Dataproc ClusterNodeUsageMonitor system Relationships
Google Instance GroupNodeCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
Google Cloud ProjectNodeContainment
Google Cloud Service AccountNodeUsageMonitor system Relationships
HypervisorNodeExecutionEnvironmentRelationship between entities when one is executed in (or in a scope of) another entity.
IpSubnetNodeMembership
Kubernetes ClusterNodeMembership
LocationNodeContainment
LocationNodeMembership
MainframeSysplexNodeMembership
MainframeXcfGroupNodeMembership
MS DomainNodeMembership
Network Automation Device GroupNodeContainment
OpenStack RegionNodeMembership
OpenStack ZoneNodeContainment
Oracle Cloud AccountNodeContainment
PartyNodeOwnership
PersonNodeOwnership
ProcessNodeClientServerThe Client-Server relationship indicates the two CIs communicate with each other where one CI acts as a client while the other acts a server.
ProcessNodeTalk
RackNodeContainment
Resource PoolNodeContainment
SapSystemNodeRfcConnection
SCVMM Host GroupNodeMembership
Siebel EnterpriseNodeContainment
Terraform ModuleNodeContainment
vCloud vAppNodeContainment
Relations defined for InfrastructureElement
FromToTypeDescription
BusinessActivityInfrastructureElementUsageMonitor system Relationships
BusinessApplicationInfrastructureElementContainment
BusinessApplicationInfrastructureElementUsageMonitor system Relationships
BusinessElementInfrastructureElementUsageMonitor system Relationships
BusinessTransactionInfrastructureElementUsageMonitor system Relationships
CiCollectionInfrastructureElementUsageMonitor system Relationships
ClusterResourceConfigInfrastructureElementDependencyrepresents a dependency between 2 objects
ServiceInfrastructureElementContainment
ServiceInfrastructureElementUsageMonitor system Relationships
Relations defined for ConfigurationItem
FromToTypeDescription
ConfigurationItemAutomation Flow ExecutionIncludesThis relationship connects two CIs, one of which is included into another. A child CI can be moved to another parent, but when the parent is deleted, the child will be deleted as well, except if a second includes link exist on it already. Moving of a child CI possible by creation of new link to another parent and deletion of the first one.
ConfigurationItemConfigurationItemConsumerProvider
ConfigurationItemKpiCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
ConfigurationItemOutageCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
ConfigurationItemPolicyResultAggregation
ConfigurationItemScheduledDowntimeConnection
ConfigurationItemServiceConnectionPointCompositionRepresents a relation between 2 objects where one is contained within the other, and the included object can not exist without its container. Therefore, when the container is deleted, all its contained object will be automatically removed
ConfigurationItemServiceConnectionPointOwnership
DefectsFilterConfigurationItemContainment
ApplicationSystemConfigurationItemAggregation
AssetConfigurationItemConnection
CiCollectionConfigurationItemContainment
CiCollectionConfigurationItemMembership
ItProcessRecordConfigurationItemConnection
ItProcessRecordConfigurationItemMembership
LocationConfigurationItemMembership
TenantConfigurationItemConnection
Relations defined for Managed Object
FromToTypeDescription
Managed ObjectHistory ChangeHistory Link
TenantManaged ObjectConnection

Combined inheritance and relation diagram for NSX Logical Switch

Potential Data Providers

Adapters providing CIs of type Switch
Adapter NameDescriptionAdapter Type
Host Connection by ShellEstablishes a Shell connection to the remote machines. Discovery tries to connect to remote machines through the SSH, Telnet, NTCMD or UDA protocols until the first valid connection is found.Discovery
Layer2 Topology by ShellReports Layer2 and networking related data by ssh or shell from network switchesDiscovery
Pull Layer2 Topology from NNMi by ShellConnects to the NNMi web service and populates NNMi discovered layer2 connection information in UCMDB.Integration
HPE Systems Insight ManagerPopulates servers and other devices from an HPE SIM (Systems Insight Manager) serverIntegration
Host Connection by SNMPDiscovers SNMP agents by trying to connect to a data center machine using the SNMP protocol, updates the node class (Windows, UNIX, router, and so on) according to the relevant OIDDiscovery
Client Connection by SNMPDiscovers SNMP agents by trying to connect to a client machine using the SNMP protocol, updates the node class (Windows, UNIX, router, and so on) according to the relevant OID.Discovery
Host Networking by SNMPDiscovers host networking topology using SNMP route and system tablesDiscovery
Hyper-V Topology by Shelladapter discovers Microsoft Hyper-V virtualization topology using shell protocol.Discovery
Hyper-V Topology by WMIadapter discovers Microsoft Hyper-V virtualization topology using WMI protocol.Discovery
PureFlex Discovery AdapterAllows to discover IBM FSM managed resources and topologyDiscovery
SCVMM Topology by ShellThis adapter discovers Hyper-V topology by connecting to SCVMM.Discovery
Adapters providing CIs of type Net Device
Adapter NameDescriptionAdapter Type
Host Connection by SNMPDiscovers SNMP agents by trying to connect to a data center machine using the SNMP protocol, updates the node class (Windows, UNIX, router, and so on) according to the relevant OIDDiscovery
Client Connection by SNMPDiscovers SNMP agents by trying to connect to a client machine using the SNMP protocol, updates the node class (Windows, UNIX, router, and so on) according to the relevant OID.Discovery
Host Networking by SNMPDiscovers host networking topology using SNMP route and system tablesDiscovery
Adapters providing CIs of type Node
Adapter NameDescriptionAdapter Type
A10 vThunder by SNMPThis adapter discovers A10 vThunder Load Balancer using SNMP protocolDiscovery
AMQP for ConsumerReport AMQP server with its message consumerDiscovery
Software AG ARISPopulates CIs from IDS Scheer ARIS using an XML export file from ARISIntegration
AS400_NET_Dis_ConnectionConnects to the AS400 Server using the JT400 ToolboxDiscovery
AWS Event Based DiscoveryDiscovers AWS topologies by using the AWS SDK for Java to access AWS SQS service.Discovery
AWS by Web ServicesDiscovers AWS topologies using the Amazon Web Services.Discovery
AWS by Web Services using TagsDiscovers AWS resources with customized tagsDiscovery
Advanced Agent Driven Inventory Discovery AdapterThis adapter executed hardware and installed software inventory discovery by agent driven scanners.Discovery
Agent Driven Inventory Discovery AdapterThis adapter executed hardware and installed software inventory discovery by agent driven scanners. \nNote: This adapter will be deprecated soon. It's recommended to use the Report Scan File adapter and the Inventory Discovery via Scan File adapter instead.Discovery
Alteon application switch by SNMPDiscovers Nortel Application Switches using the SNMP protocolDiscovery
AWS EKS Discovery by RESTful APIAdapter DescriptionDiscovery
Apache Web Servers by ShellDiscovers Apache web servers using the Shell protocolsDiscovery
Apache Tomcat TopologyDiscovers Apache Tomcat Web serversDiscovery
Aperture VISTA by SQLDiscovers Aperture VISTA data centers and power infrastructure using the Aperture VISTA DatabaseIntegration
ArpCache Connection by SNMPDiscovers SNMP agents by trying to connect to a client machine using the SNMP protocol and reports node class relationship with ArpCache class according to the relevant OID.Discovery
Arxview IntegrationAdapter DescriptionIntegration
Azure Event Based DiscoveryAzure Event Based DiscoveryDiscovery
Azure by WebServicesThis adapter discovers subscriptions, resource groups, virtual machines, networks and storage accounts on an Azure tenantDiscovery
Basic Agent Driven Inventory Discovery AdapterThis adapter executed hardware and installed software inventory discovery by agent driven scanners.Discovery
Basic AWS by Web ServicesDiscovers AWS topologies of the EC2 using Web ServicesDiscovery
Basic Azure by WebservicesAdapter DescriptionDiscovery
CISCO_UCS_ManualCisco UCS ManualDiscovery
CiscoWorks Layer 2This adapter populates nodes layer two infrastructure from the Cisco Works Campus Manager databaseIntegration
CiscoWorks NetDevicesThis adapter populates network devices and layer two infrastructure from the Cisco Works Resource Manager Essentials databaseIntegration
Cisco ACE by SNMPThis adapter discovers Cisco ACE Load Balancer using SNMP protocolDiscovery
Cisco CSS by SNMPDiscovers Cisco CSS (Content Services Switch) using the SNMP protocolDiscovery
Cisco Prime by WebServicesThis adapter discovers nodes, interfaces, net devices, and layer2 connections on a Cisco Prime.Discovery
Cisco UCS TopologyPull data from Cisco UCSDiscovery
Citrix NetScaler by SNMPCitrix NetScaler by SNMPDiscovery
Database Connections by AgentIdentifies databases on hosts using host credentials using the WMI protocolDiscovery
Database Connections by ShellIdentifies databases on hosts by host credentials, using the Shell protocolsDiscovery
DNS DiscoveryDiscover DNS names on IPs and hostsDiscovery
Discovery for Opsb integration by shellEstablishes a Shell connection to the remote machines. Discovery tries to connect to remote machines through the SSH, NTCMD protocols until the first valid connection is found.Discovery
Docker Discovery by ShellThis adapter discovers Docker topology by connecting to the Docker Host.Discovery
Docker Swarm Discovery by RESTful APIThis adapter discovers Docker Swarm topology by RESTful API.Discovery
Docker Swarm Event MonitorDocker Swarm Event Discovery.Discovery
Docker Host By Shell AdapterThis adapter discovers the relationship between Docker Images and Docker Host.Discovery
EMC Control CenterPopulates storage devices and SAN infrastructure from the EMC control Center SRM databaseIntegration
EMC AutoStart by ShellDiscover EMC AutoStart cluster by shellDiscovery
EMC ECS by REST APIThis adapter collects EMC storage as a service by RESTful API.Discovery
Execute Command AdapterExecute command on a hostDiscovery
F5 BIGIP by SNMPThis adapter discovers F5 BIG-IP Local Traffic Manager using SNMP protocolDiscovery
F5 BIGIP by ShellThis adapter discovers F5 BIG-IP LTM by shell.Discovery
Firewall Topology by ShellThis adapter supports discovery of Juniper firewalls by ShellDiscovery
Glassfish JEE Topology Discovery by ShellThis adapter discovers Glassfish JEE environment and components using shell.Discovery
Google Cloud Event Based DiscoveryGoogle Cloud Event Based DiscoveryDiscovery
Google_Cloud_by_RESTful_APIDiscovers Google Cloud topology using RESTful APIDiscovery
Google_GKE_by_RESTful_APIDiscovers Google GKE topology using RESTful APIDiscovery
Network Automation by JavaNetwork Automation by JavaIntegration
HP OneView IntegrationAdapter DescriptionIntegration
Cisco HSRP routers by SNMPDiscovers Cisco HSRP routers using SNMP protocol.Discovery
HanaDb Topology by SQLDiscovers HanaDB instances and topology using SQL ConnectionsDiscovery
HanaDb by shellDiscover HanaDb instancesDiscovery
Host Connection by ShellEstablishes a Shell connection to the remote machines. Discovery tries to connect to remote machines through the SSH, Telnet, NTCMD or UDA protocols until the first valid connection is found.Discovery
Host Discovery by ShellAdapter DescriptionDiscovery
Host Platform by ShellDiscovers host platform detail on UNIX and Windows machines using SSH, NTCMD or UDA protocols.Discovery
IHS Plugins by ShellDiscovers IBM Http Server's WebSphere plugin configuration by parsing the IHS plugin configuration file.Discovery
J2EE Inactive WebSphere Topology Discovery by ShellThis adapter discovers WebSphere J2EE environment and components by shell only when the WebSphere Application Server is inactive.Discovery
Install UD AgentThis adapter installs UD Agent.Discovery
Inventory Discovery by Manual Scanner DeploymentThis adapter executed hardware and installed software inventory discovery by manually deployed scanfile.\nNote: This adapter executed hardware and installed software inventory discovery by agent driven scanners. \nNote: This adapter will be deprecated soon. It's recommended to use the Report Scan File adapter and the Inventory Discovery via Scan File adapter instead.Discovery
Inventory Discovery By Scanner AdapterThis adapter executed hardware and installed software inventory discovery by scanners.Discovery
InventoryDiscoveryViaScanFileThe job parses scan files in the 'to_inventory' folder and model the CIs from the scan filesDiscovery
Jboss J2EE Topology Discovery by ShellThis adapter discovers JBoss J2EE environment and components using shell.Discovery
Jboss J2EE Topology Discovery by JMXThis adapter discovers JBoss J2EE environment and components based on the JMX protocol.Discovery
Jboss Server DiscoveryThis adapter discovers JBoss servers instances based on the JMX protocol.Discovery
Weblogic J2EE Topology Discovery by JMXThis adapter discovers WebLogic j2ee environment and components.Supported WL versions:6.0, 6.1, 7.0, 8.1, 9.0, 9.1, 9.2,10Discovery
Weblogic Server DiscoveryDiscovers WebLogic Server based on JMX protocol. Supported versions: 6.0, 6.1, 7.0, 8.1, 9.0, 9.1, 9.2, 10Discovery
Websphere J2EE Topology Discovery by JMXThis adapter discovers WebSphere J2EE environment and components.Discovery
Websphere Server DiscoveryThis adapter discovers WebSphere servers based on either SOAP or RMI authentication.Discovery
Websphere J2EE Topology Discovery by JMXThis adapter discovers WebSphere J2EE environment and components.Discovery
Kubernetes Discovery by RESTful APIThis adapter discovers Kubernetes topology by RESTful API.Discovery
Kubernetes Event Based DiscoveryKubernetes Event Based Discovery.Discovery
LDAP Active Directory ConnectionDiscover the existence of Active Directory Domain Controlers via LDAPDiscovery
LDAP Active Directory TopologyDiscovers Active Directory via LDAPDiscovery
LPAR Resources by EViewThis adapter discovers the IBM mainframe z/OS host and network resources using the EView mainframe agentDiscovery
Layer2 Topology by ShellReports Layer2 and networking related data by ssh or shell from network switchesDiscovery
Link DB Datafiles With Clustered FileSystemThis adapter is used for linking of database datafiles with clustered file systemDiscovery
Microsoft MQ server from Active DirectoryDiscovery adapter for Microsoft MQ server. Used to retrieve Active Directory side information of MS MQ topology.Discovery
MQ by EViewThis adapter discovers the IBM mainframe MQ subsystem along with its resources using the EView mainframe agentDiscovery
Websphere MQ Topology by shellDiscover Websphere MQ topology by using SSH, TELNET, NTCMD or UDADiscovery
MS NLB by NTCMD or UDADiscovers MS Network Load Balancing topology by NTCMD or UDADiscovery
MS Cluster TopologyThis adapter discovers Microsoft Cluster architecture by NTCMD.Discovery
MS_Domain_TopogyDiscovers hosts on Microsoft Domain.Discovery
MS Exchange Topology by PowershellThis adapter discovers Microsoft Exchange by PowerShell protocol. It is based on executing Exchange native cmdlets.Discovery
Microsoft Exchange Topology by WMIConnects to the remote host and brings topology for Microsoft Exchange Server 2003Discovery
Manual Nutanix Discovery by RESTful APIAdapter collects Nutanix Virtual Infrastructure topology information by HTTP protocol.Discovery
MaxDb Topology by SQLDiscovers MaxDB instances and topology using SQL ConnectionsDiscovery
MaxDb by ShellDiscovers MaxDB instances and topologyDiscovery
Merge Clustered SoftwareAdapter used by the Merging topologies of the Clustered Software ElementsDiscovery
Mongo DB ConnectionThis adapter connects MongoDB Discovery
MySQL by ShellDiscovers MySQL instances and replication topology by ShellDiscovery
Population from NNMiConnects to the NNMi web service and populates NNMi discovered nodes, IPs, networks, interfaces and layer two connection information to create a Layer 2 topology in UCMDB. Note that it is recommended NOT to run the UCMDB Layer 2 discoveries if using NNMi Layer 2 integration discovery.Integration
NSLOOKUP on DNS ServerDiscovers hosts by querying all available DNS serversDiscovery
NSLOOKUP on ProbeDiscover hosts executing NSLOOKUP command on probe machine's shellDiscovery
IIS Applications by NTCMD or UDA or PowerCmdThis adapter discovers Microsoft Internet Information Services (IIS).Discovery
Connection by NTCMD or UDA protocolTry to connect to a WIN server using HPCmd (NetBIOS) or UD Agent.Discovery
NetApp Filer Connection by WebServicesThis adapter discovers NetApp Filer by WebServices.Discovery
NetApp_Filer_by_WebServicesThis adapter discovers volumes, shares and other details on a NetApp filerDiscovery
Network Connectivity Data AnalyzerDiscover client server connections on the network according to the chosen parameters. Brings data from DFM databaseDiscovery
Nutanix Discovery by RESTful APIAdapter collects Nutanix Virtual Infrastructure topology information by HTTP protocol.Discovery
OAM Tunnel AdapterAdapter DescriptionDiscovery
OS FingerprintThis adapter discovers hosts, IPs, open TCP and UDP ports and host operating systems using nmap.Discovery
OpenShift by REST APIThis adapter collects Virtual Infrastructure topology information using OpenShift by REST API.Discovery
OpenStack by WebServicesThis adapter discovers projects, compute resources, networks, storage and other details on an OpenStackDiscovery
Oracle Application ServerDiscovers Oracle Application ServerDiscovery
Oracle Discovery from OEMThis adapter discovers Oracle from OEM.Discovery
Oracle E-Business Suite componentsThis adapter discovers Oracle E-Business Suite components.Discovery
Oracle Cloud by REST APIDiscovers Oracle Cloud topologies of Oracle cloud infrastructure compute classic, Oracle database cloud service and Oracle mysql cloud service and services using REST API.Discovery
Oracle Topology by SQL - Service NameThis adapter uses Service Name to connect Oracle and discovers Oracle topology by SQL.Discovery
Oracle Licensing CPU Data Collection by ShellThis adapter collects data related to CPU, which can then be sent to Oracle Licensing organization for Oracle License Review or Audit.Discovery
Oracle Listeners by ShellDiscovers Oracle listeners. Is required for Oracle RAC deep discoveryDiscovery
Oracle RAC Topology by ShellDiscovers Oracle RAC topologyDiscovery
Passive Discovery By RUMVerifies and reports network info provided by RUM probe.Discovery
Host Resources by PowerShellDiscovers host resources, process connectivity and software elements on Windows machines using PowerShell protocol.Discovery
Host Connection by PowerShellThis adapter discovers PowerShell agents by trying to connect to a Windows machine using the PowerShell protocol.Discovery
Process Linux Servers With Duplicated MacsThis adapter is acting as a port processing logic after the "Layer2 Vlan based by SNMP" Job has run.Discovery
NetApp SANScreen/OnCommandThis adapter discovers storage devices and SAN infrastructure from NetApp SANscreen/OnCommandIntegration
SAP Internet Transaction Server DiscoveryDiscover SAP Internet Transaction Server based on parsing configuration files.Discovery
SAP J2EE Topology by JMXDiscover SAP J2EE environment based on JMX.Discovery
SAP ABAP Topology DiscoveryDiscover SAP environment based on Computer Center Management System (CCMS).Discovery
SAP Business Layer DiscoveryDiscover SAP business layer based on Solution Manager system management suite.Discovery
SAP FRUN Topology by CIMDiscover SAP Topology based on FRUN with CIM protocol.Discovery
SAP Solutin Mananger Connection by CIMConnect to SAP Solution Manager with CIM protocol.Discovery
SAP Topology by Solution ManagerDiscover SAP Topology based on Solution Manager.Discovery
SAP Solutin Mananger Topology by CIMDiscover SAP Topology based on Solution Manager with CIM protocol.Discovery
SAP ABAP DiscoveryDiscover SAP Systems based on SAP JCO.Discovery
Siebel Application Servers by Siebel GatewayDiscover Siebel topology using srvrmgr clientDiscovery
Siebel Database by NTCMD or UDADiscover DB of odbc connectionDiscovery
Siebel Database by Unix shellDiscover DB of odbc connectionDiscovery
Siebel Web Applications by NTCMD or UDAThis adapter discovers Siebel Webserver Extension and all web applications by NTCMD or UDA protocol.Discovery
Siebel Web Applications by Unix shellDiscover Siebel Webserver Extension and all web applicationsDiscovery
HPE Systems Insight ManagerPopulates servers and other devices from an HPE SIM (Systems Insight Manager) serverIntegration
CDP/LLDP neighbors layer 2 devices by SNMPThis adapter discovers Layer 2 neighbors network devicesDiscovery
L2 Bridge by SNMPThis adapter discovers the Layer 2 topology of a switch by SNMP.Discovery
L2 Vlan by SNMPThis adapter discovers the Layer 2 topology of a specific VLAN by SNMP.Discovery
Host Resources by SNMPDiscovers host resources and software elementsDiscovery
Host Connection by SNMPDiscovers SNMP agents by trying to connect to a data center machine using the SNMP protocol, updates the node class (Windows, UNIX, router, and so on) according to the relevant OIDDiscovery
Client Connection by SNMPDiscovers SNMP agents by trying to connect to a client machine using the SNMP protocol, updates the node class (Windows, UNIX, router, and so on) according to the relevant OID.Discovery
Host Networking by SNMPDiscovers host networking topology using SNMP route and system tablesDiscovery
Router ARP by SNMPThis adapter discovers the ARP table of a router using the SNMP protocol. This discovery reveals IP addresses by querying the protocol that translates IPs into the Ethernet addresses used by local area networks, as well as the host and network it belongs to.Discovery
DB2 Topology By SQLDiscover the physical elements within DB2 database.Discovery
Oracle database topology by SQL - Cloud ServiceThis adapter discovers Oracle database topology by SQL.Discovery
MS SQL Server topology by SQLThe job discovers MS SQL Server topology.Discovery
MS SQL Server topology by SQL - Cloud ServiceThe job discovers cloud MS SQL Server service topology.Discovery
Sybase Topology by SQLThis adapter discovers Sybase database topology by SQL.Discovery
Oracle database topology by SQLThis adapter discovers Oracle database topology by SQL.Discovery
DB2 Connection By SQLThis adapter discovers databases using SQL protocol.Discovery
HanaDb Connection By SQLThis adapter discovers databases using SQL protocol.Discovery
MaxDb Connection By SQLThis adapter discovers databases using SQL protocol.Discovery
MsSql Connection By SQLThis adapter discovers databases using SQL protocol.Discovery
MySQL Connection by SQLConnects to MySQL databasesDiscovery
Oracle Connection By SQLThis adapter discovers databases using SQL protocol.Discovery
Oracle Connection By SQL - LightweightThis adapter discovers databases using SQL protocol.Discovery
PostgreSQL Connection By SQLThis adapter discovers databases using SQL protocol.Discovery
Sybase Connection By SQLThis adapter discovers databases using SQL protocol.Discovery
SQL_NET_Dis_db2_from_db2Adapter is deprecated, use SQL_NET_Dis_Connection_DB2 instead.Discovery
SQL_NET_Dis_sybase_ConnThis adapter discovers Sybase database by SQL.Discovery
Service Guard Cluster TopologyDiscover ServiceGuard cluster server architecture by TTYDiscovery
Oracle Connection by ShellThis adapter discovers Oracle database topology by Shell.Discovery
Storage Devices Connection by CIMThis adapter is used for initial connection to CIM AgentDiscovery
Storage Devices Topology by CIMAdapter used for discovery of storage topology via CIM protocolDiscovery
Storage Devices Topology by SNMPAdapter used for discovery of storage topology via SNMP protocolDiscovery
Sun_Cluster_by_Shelladapter discovers Sun Cluster topology via shell including cluster nodes, resource groups and resources, quorum configuration, cluster interconnect.Discovery
TCP Listen PortsDiscover listening ports on the network according to portNumberToPortName.xml configuration file. Brings data from Universal Discovery database.Discovery
TCP Ports DiscoveryDiscover open tcp\udp ports on a host of known server ports.Discovery
TCP Potential ServicesThe job tries to identify servers by network traffic data or number of clients. Brings data from Universal Discovery database.Discovery
TCP_ServicesDiscover key services on the network according to portNumberToPortName.xml configuration file. Brings data from Universal Discovery databaseDiscovery
TCP Services ConnectivityDiscovers the IP Communication adapters - which IPs communicte and the top interesting ports for these communication channels. Brings data from Universal Discovery database.Discovery
TCP Web Server DetectionThis adapter discovers web servers using TCP ports.Discovery
TNSNamesParserThis adapter discovers Oracle databases using tnsnames.ora parsing.Discovery
TTY_HACMP_ApplicationsDiscovers IBM HACMP virtual applications Discovery
TTY_HACMP_TopologyDiscovers IBM HACMP node Topology on servers via SSH, Telnet or UDADiscovery
Host Resources by TTYDiscovers host resources, process connectivity and software elements on UNIX and Windows machines using SSH, Telnet, NTCMD or UDA protocols.Discovery
TTY_Net_Dis_ConnectionThis adapter discovers SSH and Telnet agents by trying to connect to a machine using TTY as well as updating the correct host class (Windows, UNIX, router, and so on).Discovery
Thin clients MAC based detectionAdapter DescriptionDiscovery
Uninstall UD AgentThis adapter uninstalls UD Agent.Discovery
Update UD AgentThis adapter updates UD Agent.Discovery
VMware Discovery for HCM via VIMThis job connects to vCenter or VirtualCenter Servers and discovers the basic VMware Infrastructure topology.Discovery
VMware ESX Topology by VIMThis adapter discovers VMware ESX Servers using VIM protocol.Discovery
VMware VirtualCenter and ESX Manual Connection by VIMadapter discovers the VMware Server connection using Virtual Infrastructure Management protocol. It is activated manually and it uses the URL string parameter for connection.Discovery
VMware VMotion by VIMadapter monitors migration events of Virtual Machines from one host to another.Discovery
VMware vCenter Connection by VIMAdapter discovers connection to VMware vCenter server using Virtual Infrastructure Management protocol.Discovery
VMware vCenter Topology by VIMAdapter collects Virtual Infrastructure topology information using vCenter Server by VI Management protocol.Discovery
Veritas Cluster TopologyDiscover Veritas cluster server architecture by ShellDiscovery
Host Resources by WMIThis adapter discovers host resources and software elements on Windows machines using WMI protocol.Discovery
Host Connection by WMIThis adapter discovers WMI agents by trying to connect to a Windows machine using the WMI protocol.Discovery
Weblogic J2EE Topology Discovery by ShellDiscovers WebLogic J2EE environment and components by shell. Supported versions: 8.1, 9.0, 9.1, 9.2, 10Discovery
Websphere J2EE Topology Discovery by ShellThis adapter discovers WebSphere J2EE environment and components by shell.Discovery
Websphere Liberty Core J2EE Topology Discovery by ShellThis adapter discovers WebSphere Liberty Core J2EE environment and components by shell.Discovery
Webseal Policy Server Connection by ShellThis adapter is used to find valid pdadmin credentials and store the reference to the ISAMPolicy Server CI. Discovery
AWS Inventory Discovery by Scanner via SSMAWS Inventory Discovery by Scanner via SSMDiscovery
AWS via AWS ConfigDiscovers AWS topologies via AWS ConfigDiscovery
HPE nPartitions by ShellThis adapter discovers HPE partitionable server (either cell-based or not) topology by connecting to the vPar or nParDiscovery
Hyper-V Topology by Shelladapter discovers Microsoft Hyper-V virtualization topology using shell protocol.Discovery
Hyper-V Topology by WMIadapter discovers Microsoft Hyper-V virtualization topology using WMI protocol.Discovery
iSeries Resources by EViewThis adapter discovers the IBM ISeries Resources on the on an Iseries box such as CPUs , Memory, Disks, Network Controllers, Installed Software.Discovery
Linux Cluster by ShellDiscover Linux Cluster Suite.Discovery
Microsoft MQ by NTCMD or UDA or by PowerCmdDiscovery adapter for Microsoft MQ server side. Uses NTCMD or UDA or PowerCmd protocol in order to retrieve queues, triggers and rules related dataDiscovery
Microsoft Exchange Connection by NTCMD or UDAThis adapter discovers Microsoft Exchange by NTCMD or UDA protocol. It is based on executing of PowerShell scenario on the remote machine.Discovery
Microsoft Exchange Topology by LDAPadapter discovers Microsoft Exchange topology using information stored in Active Directory.Discovery
Microsoft Exchange Topology by NTCMD or UDAThis adapter discovers Microsoft Exchange topology by NTCMD or UDA protocol. It is based on executing of PowerShell scenario on the remote machine.Discovery
Oracle TNS Names by LDAP This adapter discovers Oracle database information saved in LDAP storageDiscovery
Oracle VM Manager Discovery By MainCliMake discovery of virtualization inventory using manager's main CLI accessible by SSH protocolDiscovery
Process Layer2 Collected FilesAdapter DescriptionDiscovery
Red Hat Cluster by ShellDiscover Red Hat Cluster Suite.Discovery
SCVMM Topology by ShellThis adapter discovers Hyper-V topology by connecting to SCVMM.Discovery
TIBCO BusinessWorks By ShellDiscover TIBCO BusinessWorks and its resourcesDiscovery
TIBCO EMS By ShellDiscover TIBCO EMS and its resourcesDiscovery
vCloud Director URL by vCloud APIAdapter discovers VMware vCloud Director using direct connection URL by vCloud APIDiscovery
vCloud Director by vCloud APIAdapter discovers VMware vCloud Director using vCloud APIDiscovery
VMware vROps Connection ManualAdapter discovers the VMware vROps server connection.Discovery
VMware vROps Topology by WebServicesAdapter discovers the VMware vROps Topology by the vROps API.Discovery
Webseal Connection by ShellDiscovers credentials applied and generic topology for Webseal by shellDiscovery
Webseal by Web ServicesDiscovers the Webseal topology by pdadmin rest apiDiscovery
Webseal Policy Server Topology by ShellAdapter provides the capability to discover all WebSeal related topology triggering on PolicyServerDiscovery
Webseal Topology by ShellThis is the adapter for reporting topology of Webseal and junctions using shell protocolsDiscovery
Webseal by Web ServicesDiscovers the Webseal topology by pdadmin rest apiDiscovery
Adapters providing CIs of type ConfigurationItem
Adapter NameDescriptionAdapter Type
Import from CSV Imports data from a CSV file into CMDB using mapping of the CSV file columns to CIT attributes. Mapping is defined by the following parameters: ciType: to define the CIT name which you want to create, mappingString: to define the mapping of the CIT attributes to the CSV file columns. Mapping file is used for more complex mapping definitions. Mapping file name is specified by 'mappingFile' parameter.Integration
Import from DB Imports data from an external database into CMDB using mapping of table columns to CIT attributes. Mapping is defined by the following parameters: ciType: to define the CIT name which you want to create, mappingString: to define the mapping of the CIT attributes to the table columns Mapping file is used for more complex mapping definitions. Mapping file name is specified by 'mappingFile' parameter. A SQL 'select' query is generated automatically and selects all columns in specified table, which defined by parameter: tableName In advanced cases you can specify custom SQL query.Integration
Import from properties file Imports data from a Properties file into CMDB, using mapping of the CSV file columns to CIT attributes This mapping is usually defined by the setting adapter parameters: ciType: to define the CIT name which you want to create, mappingString: to define the mapping of the Properties attributes to the CSV file columns In cases you need more complex mapping abilities, such as conversion of the strings contained in Properties file to the appropriate type of CMDB object's attribute, you should use the mapping XML configuration file specified by the mappingFile parameter. Integration
SCCM Installed Software IntegrationThis adapter queries the records from SCCM database and recognizes it as install software by UD SAIIntegration
Import from Excel WorkbookImports data from Excel Workbooks. Parses through multiple worksheet XLS files. Uses 'CIImports.xls' (default) file to import data.Integration
Adapters providing CIs of type Object
Adapter NameDescriptionAdapter Type
ALMAdapterFederate defects from ALMIntegration
AMGenericAdapterThis adapter pushes/populates data between UCMDB and Asset Manager. Follow the Quick Start guide supplied with the AM Generic Adapter documentation before creating this integration point.Integration
Application Portfolio Management Push AdapterThis adapter pushes data from UCMDB to HP Application Portfolio Management. Follow the APM Push Adapter documentation included in the HP UCMDB Discovery and Integration Content Guide before creating this integration point.Integration
UCMDB API PopulationAllows defining Reconciliation Priority for API Data In flowsIntegration
Data Push into AtriumPushes CIs and relationships to BMC AtriumIntegration
AutomationFlowAdapterProvide API to Operation OrchestrationIntegration
BSMKpiAdapterFederate KPIs from BSMIntegration
CA CMDBPushes CIs and relationships to CA CMDBIntegration
UCMDB 10.x and laterUsed for Populating and Federating data from a remote UCMDB 10.x(or later) and for Pushing to a remote UCMDB 10.x(or later)Integration
UCMDB 9.xUsed for Populating and Federating data from a remote UCMDB 9.x server and for Pushing to a remote UCMDB 9.xIntegration
UCMDB History Adapter [local instance only]Used to federated data from the UCMDB's HistoryIntegration
Push Adapter DB ExamplePush data into Oracle \ MSSQL databaseIntegration
GenericDBAdapterAn example Adapter that uses the GDB-FrameworkIntegration
IAM UI Push AdapterPush IAM Universal Inventory data into MSSQL database on-premises or on cloud-based Azure.Integration
Java_Adapter_TemplateAdapter DescriptionIntegration
Kafka Push Adapter 2019.05Push function for Kafka Push AdapterIntegration
Local State Push AdapterUsed for populating data between the states of the same UCMDB ServerIntegration
Pulsar Push AdapterPush function for Pulsar Push AdapterIntegration
Push AdapterPush AdapterIntegration
Remedyforce Push IntegrationRemedyforce Push IntegrationIntegration
SMA-X Push AdapterThis adapter pushes data from UCMDB to Service Anywhere. Integration
System Center Configuration ManagerUses the GDB-Framework to Populate and Federate data from a System Center Configuration Manager. The adapter is also backward compatible with the SMS DBIntegration
Service Manager 9.41Discovery Pattern DescriptionIntegration
Service Manager 9.xxDiscovery Pattern DescriptionIntegration
Service Manager Enhanced Generic AdapterPush and Populate CI data between UCMDB and Service ManagerIntegration
ServiceNow Enhanced Generic AdapterPush, Populate and Federation of CI data between UCMDB and ServiceNowIntegration
UCMDB to XMLExport data into XML from UCMDBIntegration

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