Class l3ext:LNodePDef (CONCRETE)

Class ID:1785
Class Label: Logical Node Profile
Encrypted: false - Exportable: false - Persistent: true - Configurable: false - Subject to Quota: Disabled
Write Access: [NON CONFIGURABLE]
Read Access: [admin, tenant-ext-protocol-l3, tenant-qos]
Creatable/Deletable: yes (see Container Mos for details)
Semantic Scope: EPG
Semantic Scope Evaluation Rule: Parent
Monitoring Policy Source: Parent
Monitoring Flags : [ IsObservable: true, HasStats: false, HasFaults: false, HasHealth: true, HasEventRules: false ]

RN FORMAT: lnodep-{name}

    [1] PREFIX=lnodep- PROPERTY = name




DN FORMAT: 

[0] outdefcont-{id}/rsoutDefContToOut-{[tDn]}/outdef-{name}/lnodep-{name}

[2] uni/tn-{name}/acIpToIp-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[4] uni/tn-{name}/acExtToEp-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[6] uni/tn-{name}/acEpToExt-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[8] uni/tn-{name}/acEpToEp-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[10] uni/tn-{name}/acAnyToEp-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[12] uni/tn-{name}/acEpToAny-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[14] uni/tn-{name}/epgToEp-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[16] uni/tn-{name}/epToEpg-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[18] uni/tn-{name}/ipToEpg-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[20] uni/tn-{name}/epgToIp-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[22] uni/tn-{name}/epgToEpg-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[24] uni/epp/fv-{[epgPKey]}/ac-{name}/acl3outcont/outdef-{name}/lnodep-{name}

[26] uni/tn-{name}/ldevCtx-c-{ctrctNameOrLbl}-g-{graphNameOrLbl}-n-{nodeNameOrLbl}/lIfCtx-c-{connNameOrLbl}/outdef-{name}/lnodep-{name}

[28] uni/tn-{name}/outdef-{name}/lnodep-{name}

[30] uni/epp/rtd-{[epgPKey]}/lnodep-{name}

                

Diagram

Super Mo: l3ext:ALNodeP, Container Mos: fv:RtdEpP (deletable:yes), l3ext:OutDef (deletable:yes), Contained Mos: bgp:APeerDef, bgp:ProtDef, l3ext:LIfPDef, Relations To: fabric:Node, Relations: l3ext:RsNodeDefL3OutAtt,

Containers Hierarchies

top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ l3ext:OutDefCont  L4L7 Services Route Peering    ├ l3ext:RsOutDefContToOut       ├ l3ext:OutDef The L4-L7 services route peering.        ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:IpToIp  IP Addr to IP policy Defn. Used for an external host identified by its IP address to another IP address                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:IpToIp  IP Addr to IP policy Defn. Used for an external host identified by its IP address to another IP address        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:ExtToEp The external host-to-endpoint atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:ExtToEp The external host-to-endpoint atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:EpToExt The endpoint-to-external IP address atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:EpToExt The endpoint-to-external IP address atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:EpToEp The endpoint-to-endpoint atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:EpToEp The endpoint-to-endpoint atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:AnyToEp Atomic counters detect drops and misrouting in the fabric enables quick debugging and isolation of application connectivity issues.                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:AnyToEp Atomic counters detect drops and misrouting in the fabric enables quick debugging and isolation of application connectivity issues.        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:EpToAny The endpoint-to-any atomic counter policy which detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:EpToAny The endpoint-to-any atomic counter policy which detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:EpgToEp The endpoint group-to-endpoint atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:EpgToEp The endpoint group-to-endpoint atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:EpToEpg The endpoint-to-endpoint group atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:EpToEpg The endpoint-to-endpoint group atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:IpToEpg The IP-to-endpoint group atomic counter policy detects drops and misrouting in the fabric and enables quick debugging and isolation of application connectivity issues.                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:IpToEpg The IP-to-endpoint group atomic counter policy detects drops and misrouting in the fabric and enables quick debugging and isolation of application connectivity issues.        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:EpgToIp The endpoint group-to-IP atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:EpgToIp The endpoint group-to-IP atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ dbgac:EpgToEpg The endpoint group-to-endpoint group atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.                  ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ dbgac:EpgToEpg The endpoint group-to-endpoint group atomic counter policy detects drops and misrouting in the fabric to enable quick debugging and isolation of application connectivity issues.        ├ dbgac:L3OutCont  Atomic counter L3Out Container MO          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:EpPCont The container for an endpoint profile.                ├ fv:EpP An endpoint profile.                  ├ dbgac:TenantSpaceCmnDef The tenant space common definition. This atomic counter managed object is used internally for managing Epg/Epp source and destination policies.                    ├ dbgac:L3OutCont  Atomic counter L3Out Container MO                      ├ l3ext:OutDef The L4-L7 services route peering.                        ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:EpPCont The container for an endpoint profile.      ├ fv:EpP An endpoint profile.        ├ dbgac:TenantSpaceCmnDef The tenant space common definition. This atomic counter managed object is used internally for managing Epg/Epp source and destination policies.          ├ dbgac:L3OutCont  Atomic counter L3Out Container MO            ├ l3ext:OutDef The L4-L7 services route peering.              ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ vns:LDevCtx A device cluster context points to the device cluster used to pick a specific device based on contract, subject, and function label or names. To specify a wild card, set the name to Any.                  ├ vns:LIfCtx The logical interface context points to the logical interface used to pick a specific logical interface based on the connector name. To specify a wild card, set the name to Any.                    ├ l3ext:OutDef The L4-L7 services route peering.                      ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ vns:LDevCtx A device cluster context points to the device cluster used to pick a specific device based on contract, subject, and function label or names. To specify a wild card, set the name to Any.        ├ vns:LIfCtx The logical interface context points to the logical interface used to pick a specific logical interface based on the connector name. To specify a wild card, set the name to Any.          ├ l3ext:OutDef The L4-L7 services route peering.            ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.                ├ l3ext:OutDef The L4-L7 services route peering.                  ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:Tenant A policy owner in the virtual fabric. A tenant can be either a private or a shared entity. For example, you can create a tenant with contexts and bridge domains shared by other tenants. A shared type of tenant is typically named common, default, or infra.      ├ l3ext:OutDef The L4-L7 services route peering.        ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ fabric:Topology The root for IFC topology.    ├ fabric:Pod A pod.      ├ fabric:Node The root node for the APIC.        ├ ctx:Local The local Context.          ├ ctx:Application The context application.            ├ pol:Uni Represents policy definition/resolution universe.              ├ fv:EpPCont The container for an endpoint profile.                ├ fv:RtdEpP A target relation to an L3 routed outside present under a tenant.                  ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name. top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.  ├ pol:Uni Represents policy definition/resolution universe.    ├ fv:EpPCont The container for an endpoint profile.      ├ fv:RtdEpP A target relation to an L3 routed outside present under a tenant.        ├ l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.

Contained Hierarchy

l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.  ├ bgp:APeerDef  Peer connectivity definition    ├ bgp:AsDef An internal object for the BGP autonomous system profile definition.      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ bgp:LocalAsnDef The local autonomous system number (ASN) definition.      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ bgp:RsPeerPfxPol The source relation to the peer prefix policy.      ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.      ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.      ├ health:Inst A base class for a health score instance.(Switch only)    ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.  ├ bgp:ProtDef  Protocol connectivity definition    ├ bgp:NodeCtxDef  Node-level bgp definition      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.  ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.  ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.  ├ health:Inst A base class for a health score instance.(Switch only)  ├ l3ext:LIfPDef The interface identifiers attached to the node profile.    ├ bfd:IfDef       ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ dhcp:LblDef Definition of the label.      ├ dhcp:OptionDef The option definition. Each DHCP option is defined by a unique name, ID, and option data.        ├ dhcp:DiscNode The Discovered DHCP client node.          ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.          ├ health:Inst A base class for a health score instance.(Switch only)        ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ health:Inst A base class for a health score instance.(Switch only)      ├ dhcp:RsLblDefToRelayP Internal object: Relation from dhcpLblDef to dhcpRelayP.        ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.        ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.        ├ health:Inst A base class for a health score instance.(Switch only)      ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ health:Inst A base class for a health score instance.(Switch only)    ├ eigrp:IfDef The EIGRP interface definition.      ├ eigrp:RsIfDefToEigrpIf A source relation to EIGRP interfaces.      ├ eigrp:SummDef The EIGRP summary route definition.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.    ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ health:Inst A base class for a health score instance.(Switch only)    ├ hsrp:IfDef       ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.      ├ health:Inst A base class for a health score instance.(Switch only)      ├ hsrp:GroupDef         ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.        ├ health:Inst A base class for a health score instance.(Switch only)        ├ hsrp:SecVipDef           ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ igmp:IfDef       ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ health:Inst A base class for a health score instance.(Switch only)      ├ igmp:RepDef         ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ health:Inst A base class for a health score instance.(Switch only)        ├ pim:RouteMapDef PIM route map definition          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ pim:RouteMapEntryDef PIM route map entry definition            ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ rtdmc:RtFilterToRtMapPol         ├ rtdmc:RsFilterToRtMapPol The RouteMap policy.          ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.          ├ health:Inst A base class for a health score instance.(Switch only)      ├ igmp:RsIfDefToIgmpIf  Relationship to the IGMP interfaces      ├ igmp:StRepDef         ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ health:Inst A base class for a health score instance.(Switch only)        ├ pim:RouteMapDef PIM route map definition          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ pim:RouteMapEntryDef PIM route map entry definition            ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ rtdmc:RtFilterToRtMapPol         ├ rtdmc:RsFilterToRtMapPol The RouteMap policy.          ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.          ├ health:Inst A base class for a health score instance.(Switch only)      ├ igmp:StateLDef         ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ health:Inst A base class for a health score instance.(Switch only)        ├ pim:RouteMapDef PIM route map definition          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ pim:RouteMapEntryDef PIM route map entry definition            ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ rtdmc:RtFilterToRtMapPol         ├ rtdmc:RsFilterToRtMapPol The RouteMap policy.          ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.          ├ health:Inst A base class for a health score instance.(Switch only)    ├ l3ext:RsPathDefL3OutAtt The object used for creating a static association with a leaf host port. Existence of this implies that the corresponding set of policies will be resolved into the node pointed to by the relationship.      ├ bgp:APeerDef  Peer connectivity definition        ├ bgp:AsDef An internal object for the BGP autonomous system profile definition.          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ bgp:LocalAsnDef The local autonomous system number (ASN) definition.          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ bgp:RsPeerPfxPol The source relation to the peer prefix policy.          ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.          ├ health:Inst A base class for a health score instance.(Switch only)        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.      ├ health:Inst A base class for a health score instance.(Switch only)      ├ l3ext:IpDef The definition of a secondary IP address policy.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ l3ext:RtAddrToIpDef A target relation to a secondary IP address policy definition.        ├ nd:PfxPolDef The neighbor discovery prefix policy definition.          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ l3ext:MemberDef The member definition. The member is used for providing per node IP address configuration. This is used internally.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ l3ext:IpDef The definition of a secondary IP address policy.          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ l3ext:RtAddrToIpDef A target relation to a secondary IP address policy definition.          ├ nd:PfxPolDef The neighbor discovery prefix policy definition.            ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ nd:PfxPolDef The neighbor discovery prefix policy definition.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ nd:IfPolDef The read only copy of the neighbor discovery interface policy.      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ netflow:ExporterPolHolder  Mo that will be attached to retrieve the DN of the NetflowExporterPolDef that should be downloaded on the leaf in order to program the leaf      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ netflow:MonitorPolHolder  Mo that will be attached to retrieve the DN of the NetflowMonitorPolDef that should be downloaded on the leaf in order to program the leaf      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ ospf:IfDef The OSPF interface definition model.      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ ospf:AuthKeyDef  Encrypted Password      ├ ospf:RsIfDefToOspfIf A source relation to the OSPF information that is operated at an interface level.      ├ ospf:RsIfDefToOspfv3If A source relation to the OSPF v3 interfaces    ├ qos:EgressDppPolHolder  DppPolHolder for Egress direction      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ qos:IngressDppPolHolder  DppPolHolder for Ingress direction      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ rtdmc:McastIfDefCont  Interface Policy Container      ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ health:Inst A base class for a health score instance.(Switch only)      ├ igmp:IfDef         ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ health:Inst A base class for a health score instance.(Switch only)        ├ igmp:RepDef           ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ health:Inst A base class for a health score instance.(Switch only)          ├ pim:RouteMapDef PIM route map definition            ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ pim:RouteMapEntryDef PIM route map entry definition              ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ rtdmc:RtFilterToRtMapPol           ├ rtdmc:RsFilterToRtMapPol The RouteMap policy.            ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.            ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.            ├ health:Inst A base class for a health score instance.(Switch only)        ├ igmp:RsIfDefToIgmpIf  Relationship to the IGMP interfaces        ├ igmp:StRepDef           ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ health:Inst A base class for a health score instance.(Switch only)          ├ pim:RouteMapDef PIM route map definition            ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ pim:RouteMapEntryDef PIM route map entry definition              ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ rtdmc:RtFilterToRtMapPol           ├ rtdmc:RsFilterToRtMapPol The RouteMap policy.            ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.            ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.            ├ health:Inst A base class for a health score instance.(Switch only)        ├ igmp:StateLDef           ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ health:Inst A base class for a health score instance.(Switch only)          ├ pim:RouteMapDef PIM route map definition            ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ pim:RouteMapEntryDef PIM route map entry definition              ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ rtdmc:RtFilterToRtMapPol           ├ rtdmc:RsFilterToRtMapPol The RouteMap policy.            ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.            ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.            ├ health:Inst A base class for a health score instance.(Switch only)      ├ pim:IfDef PIM interface definition.        ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ health:Inst A base class for a health score instance.(Switch only)        ├ pim:JPInbFilterDef Interface-level inbound join/prune filter definition.          ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ health:Inst A base class for a health score instance.(Switch only)          ├ pim:RouteMapDef PIM route map definition            ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ pim:RouteMapEntryDef PIM route map entry definition              ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ rtdmc:RtFilterToRtMapPol           ├ rtdmc:RsFilterToRtMapPol The RouteMap policy.            ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.            ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.            ├ health:Inst A base class for a health score instance.(Switch only)        ├ pim:JPOutbFilterDef Interface-level outbound join/prune filter definition.          ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ health:Inst A base class for a health score instance.(Switch only)          ├ pim:RouteMapDef PIM route map definition            ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ pim:RouteMapEntryDef PIM route map entry definition              ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ rtdmc:RtFilterToRtMapPol           ├ rtdmc:RsFilterToRtMapPol The RouteMap policy.            ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.            ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.            ├ health:Inst A base class for a health score instance.(Switch only)        ├ pim:NbrFilterDef Interface-level neighbor filter definition.          ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.          ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.          ├ health:Inst A base class for a health score instance.(Switch only)          ├ pim:RouteMapDef PIM route map definition            ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ pim:RouteMapEntryDef PIM route map entry definition              ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.            ├ rtdmc:RtFilterToRtMapPol           ├ rtdmc:RsFilterToRtMapPol The RouteMap policy.            ├ fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.            ├ fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.            ├ health:Inst A base class for a health score instance.(Switch only)        ├ pim:RsIfDefToPimIf Relationship to the PIM interfaces  ├ l3ext:RsNodeDefL3OutAtt The object used for creating a static association with a fabric node. Existence of this implies that the corresponding set of policies will be resolved into the node pointed to by the relationship.    ├ ip:RouteDef The route definitions, which are are used for pushing subnets and static routes to PE. They also push subnets under EpPD to VMMMGR (for configuring external networks in vCD).      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ ip:NexthopDef The Nexthops for the static route.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.        ├ ip:RtNexthopToNexthopDef A target relation to the next hops for the static route.      ├ ip:NexthopEpPDef         ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.      ├ ip:RtRouteToRouteDef A target relation to the route definitions.      ├ ip:RtRtDefIpAddr A target relation to the route definitions.      ├ nd:PfxPolDef The neighbor discovery prefix policy definition.        ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ l3ext:IntersiteLoopBackIfPDef  Intersite Loop Back Interface Profile Definition      ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.    ├ l3ext:LoopBackIfPDef       ├ fault:Delegate Exposes internal faults to the user. A fault delegate object can be defined on IFC (for example, for an endpoint group) and when the fault is raised (for example, under an endpoint policy on a switch), a fault delegate object is created on IFC under the specified object. A fault delegate object follows the lifecycle of the original fault instance object, being created, modified, or deleted based on the changes of the original fault.