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Class l3ext:RsPathDefL3OutAtt (CONCRETE)

Class ID:1793
Class Label: Leaf Port
Encrypted: false - Exportable: false - Persistent: true - Configurable: false - Subject to Quota: Disabled
Relationship Type: explicit
Relationship Cardinality: n-to-m
Relationship From: l3ext:LIfPDef
Relationship From Rel: l3ext:RsPathDefL3OutAtt
Relationship To: fabric:PathEp
Relationship To Rel: fabric:RtPathDefL3OutAtt
Enforceable: false
Resolvable: false
Write Access: [NON CONFIGURABLE]
Read Access: [admin]
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 ]

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.

Naming Rules 
RN FORMAT: rspathDefL3OutAtt-{[tDn]}

    [1] PREFIX=rspathDefL3OutAtt- PROPERTY = tDn




DN FORMAT: 

[0] outdefcont-{id}/rsoutDefContToOut-{[tDn]}/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[2] uni/tn-{name}/acIpToIp-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[4] uni/tn-{name}/acExtToEp-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[6] uni/tn-{name}/acEpToExt-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[8] uni/tn-{name}/acEpToEp-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[10] uni/tn-{name}/acAnyToEp-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[12] uni/tn-{name}/acEpToAny-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[14] uni/tn-{name}/epgToEp-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[16] uni/tn-{name}/epToEpg-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[18] uni/tn-{name}/ipToEpg-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[20] uni/tn-{name}/epgToIp-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[22] uni/tn-{name}/epgToEpg-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[24] uni/epp/fv-{[epgPKey]}/ac-{name}/acl3outcont/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[26] uni/tn-{name}/ldevCtx-c-{ctrctNameOrLbl}-g-{graphNameOrLbl}-n-{nodeNameOrLbl}/lIfCtx-c-{connNameOrLbl}/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[28] uni/tn-{name}/outdef-{name}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}

[30] uni/epp/rtd-{[epgPKey]}/lnodep-{name}/lifp-{name}/rspathDefL3OutAtt-{[tDn]}


Diagram

Super Mo: reln:To,
Container Mos: l3ext:LIfPDef (deletable:yes),
Contained Mos: bgp:APeerDef, l3ext:IpDef, l3ext:MemberDef, nd:PfxPolDef,


Containers Hierarchies
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] l3ext:OutDefCont  L4L7 Services Route Peering
 
 		 ├
 		[V] l3ext:RsOutDefContToOut 
 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:IpToIp  IP Addr to IP policy Defn. Used for an external host identified by its IP address to another IP address
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] dbgac:IpToIp  IP Addr to IP policy Defn. Used for an external host identified by its IP address to another IP address
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:AnyToEp Atomic counters detect drops and misrouting in the fabric enables quick debugging and isolation of application connectivity issues.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] dbgac:AnyToEp Atomic counters detect drops and misrouting in the fabric enables quick debugging and isolation of application connectivity issues.
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] 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
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] fv:EpPCont The container for an endpoint profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] fv:EpP An endpoint profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:TenantSpaceCmnDef The tenant space common definition. This atomic counter managed object is used internally for managing Epg/Epp source and destination policies.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] fv:EpPCont The container for an endpoint profile.
 
 		 
 		 ├
 		[V] fv:EpP An endpoint profile.
 
 		 
 		 
 		 ├
 		[V] dbgac:TenantSpaceCmnDef The tenant space common definition. This atomic counter managed object is used internally for managing Epg/Epp source and destination policies.
 
 		 
 		 
 		 
 		 ├
 		[V] dbgac:L3OutCont  Atomic counter L3Out Container MO
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] l3ext:OutDef The L4-L7 services route peering.
 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] ctx:Local The local Context.
 
 		 
 		 
 		 
 		 ├
 		[V] ctx:Application The context application.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] fv:EpPCont The container for an endpoint profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] fv:RtdEpP A target relation to an L3 routed outside present under a tenant.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
 		[V] pol:Uni Represents policy definition/resolution universe.
 
 		 ├
 		[V] fv:EpPCont The container for an endpoint profile.
 
 		 
 		 ├
 		[V] fv:RtdEpP A target relation to an L3 routed outside present under a tenant.
 
 		 
 		 
 		 ├
 		[V] l3ext:LNodePDef The logical node profile definition. This defines the characteristics to be applied to resources that match with the profile name.
 
 		 
 		 
 		 
 		 ├
 		[V] l3ext:LIfPDef The interface identifiers attached to the node profile.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] 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.


Contained Hierarchy
[V] 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.
 ├
 		[V] bgp:APeerDef  Peer connectivity definition
 
 		 ├
 		[V] bgp:AsDef An internal object for the BGP autonomous system profile definition.
 
 		 
 		 ├
 		[V] 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.
 
 		 ├
 		[V] bgp:LocalAsnDef The local autonomous system number (ASN) definition.
 
 		 
 		 ├
 		[V] 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.
 
 		 ├
 		[V] bgp:RsPeerPfxPol The source relation to the peer prefix policy.
 
 		 
 		 ├
 		[V] fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] health:Inst A base class for a health score instance.(Switch only)
 
 		 ├
 		[V] 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.
 ├
 		[V] fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.
 ├
 		[V] health:Inst A base class for a health score instance.(Switch only)
 ├
 		[V] l3ext:IpDef The definition of a secondary IP address policy.
 
 		 ├
 		[V] 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.
 
 		 ├
 		[V] l3ext:RtAddrToIpDef A target relation to a secondary IP address policy definition.
 
 		 ├
 		[V] nd:PfxPolDef The neighbor discovery prefix policy definition.
 
 		 
 		 ├
 		[V] 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.
 ├
 		[V] l3ext:MemberDef The member definition. The member is used for providing per node IP address configuration. This is used internally.
 
 		 ├
 		[V] 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.
 
 		 ├
 		[V] l3ext:IpDef The definition of a secondary IP address policy.
 
 		 
 		 ├
 		[V] 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.
 
 		 
 		 ├
 		[V] l3ext:RtAddrToIpDef A target relation to a secondary IP address policy definition.
 
 		 
 		 ├
 		[V] nd:PfxPolDef The neighbor discovery prefix policy definition.
 
 		 
 		 
 		 ├
 		[V] 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.
 ├
 		[V] nd:PfxPolDef The neighbor discovery prefix policy definition.
 
 		 ├
 		[V] 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.


Inheritance
[V] reln:Inst This is generated and used only by internal processes.
 ├
 		[V] reln:To This is generated and used only by internal processes.
 
 		 ├
 		[V] 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.


Events


Faults


Fsms


Properties Summary
Defined in: l3ext:RsPathDefL3OutAtt
address:Ip addr  (l3ext:RsPathDefL3OutAtt:addr)
           null
svi:Autostate
          scalar:Enum8 		autostate  (l3ext:RsPathDefL3OutAtt:autostate)
           NO COMMENTS
mcast:Group
          address:IPv4 		bcastP  (l3ext:RsPathDefL3OutAtt:bcastP)
          
naming:Descr
          string:Basic 		descr  (l3ext:RsPathDefL3OutAtt:descr)
           The description of this configuration item.
base:Encap encap  (l3ext:RsPathDefL3OutAtt:encap)
           null
base:Encap extEncap  (l3ext:RsPathDefL3OutAtt:extEncap)
           null
extnw:IfInstT
          scalar:Enum8 		ifInstT  (l3ext:RsPathDefL3OutAtt:ifInstT)
           null
address:Ip llAddr  (l3ext:RsPathDefL3OutAtt:llAddr)
           The override of the system generated IPv6 link-local address.
fv:DefaultMAC
          address:MAC 		mac  (l3ext:RsPathDefL3OutAtt:mac)
           null
fv:Mode
          scalar:Enum8 		mode  (l3ext:RsPathDefL3OutAtt:mode)
           The BGP Domain mode.
reference:BinRef monPolDn  (l3ext:RsPathDefL3OutAtt:monPolDn)
           The monitoring policy attached to this observable object.
fabric:InheritableMtu
          scalar:Uint32 		mtu  (l3ext:RsPathDefL3OutAtt:mtu)
           null
reln:ClassId
          scalar:Enum16 		tCl  (l3ext:RsPathDefL3OutAtt:tCl)
           Overrides:reln:Inst:tCl
           null
reln:Dn
          reference:BinRef 		tDn  (l3ext:RsPathDefL3OutAtt:tDn)
           Overrides:reln:Inst:tDn
           null
qosp:Dscp
          scalar:UByte 		targetDscp  (l3ext:RsPathDefL3OutAtt:targetDscp)
           null
Defined in: reln:To
scalar:Bool forceResolve  (reln:To:forceResolve)
           Whether the relation should force pull the target.
reln:ResolverType
          scalar:Enum8 		rType  (reln:To:rType)
           Represents the type of resolver.
reln:State
          scalar:Enum8 		state  (reln:To:state)
           Represents the state of the relationship.
reln:StateQual
          scalar:Enum8 		stateQual  (reln:To:stateQual)
           Represents the state qualifier of the relationship.
reln:TargetType
          scalar:Enum8 		tType  (reln:To:tType)
           The type of target.
Defined in: mo:TopProps
mo:ModificationChildAction
          scalar:Bitmask32 		childAction  (mo:TopProps:childAction)
           Delete or ignore. For internal use only.
reference:BinRef dn  (mo:TopProps:dn)
           A tag or metadata is a non-hierarchical keyword or term assigned to the fabric module.
reference:BinRN rn  (mo:TopProps:rn)
           Identifies an object from its siblings within the context of its parent object. The distinguished name contains a sequence of relative names.
mo:ModificationStatus
          scalar:Bitmask32 		status  (mo:TopProps:status)
           The upgrade status. This property is for internal use only.
Defined in: mo:Resolvable
mo:Owner
          scalar:Enum8 		lcOwn  (mo:Resolvable:lcOwn)
           A value that indicates how this object was created. For internal use only.
Defined in: mo:Modifiable
mo:TStamp
          scalar:Date 		modTs  (mo:Modifiable:modTs)
           The time when this object was last modified.
Properties Detail

addr

Type: address:Ip

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
null


autostate

Type: svi:Autostate
Primitive Type: scalar:Enum8

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
NO COMMENTS
Constants
disabled 0 disabled NO COMMENTS
enabled 1 enabled NO COMMENTS
DEFAULT disabled(0) disabled NO COMMENTS




bcastP

Type: mcast:Group
Primitive Type: address:IPv4

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:


childAction

Type: mo:ModificationChildAction
Primitive Type: scalar:Bitmask32

Units: null
Encrypted: false
Access: implicit
Category: TopLevelChildAction
    Comments:
Delete or ignore. For internal use only.
Constants
deleteAll 16384u deleteAll NO COMMENTS
ignore 4096u ignore NO COMMENTS
deleteNonPresent 8192u deleteNonPresent NO COMMENTS
DEFAULT 0 --- This type is used to




descr

Type: naming:Descr
Primitive Type: string:Basic

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The description of this configuration item.


dn

Type: reference:BinRef

Units: null
Encrypted: false
Access: implicit
Category: TopLevelDn
    Comments:
A tag or metadata is a non-hierarchical keyword or term assigned to the fabric module.


encap

Type: base:Encap

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
null


extEncap

Type: base:Encap

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
null


forceResolve

Type: scalar:Bool

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
Whether the relation should force pull the target.
Constants
no false --- NO COMMENTS
yes true --- NO COMMENTS
DEFAULT yes(true) --- NO COMMENTS




ifInstT

Type: extnw:IfInstT
Primitive Type: scalar:Enum8

Holders: l3ext:IfInst, l3ext:L2IfInst
Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
null
Constants
unspecified 0 unspecified NO COMMENTS
sub-interface 11 Routed Sub-interface NO COMMENTS
l3-port 12 Routed Interface NO COMMENTS
ext-svi 13 External SVI NO COMMENTS
DEFAULT 0 --- DomT is used for specifying if encap needs to be allocated for creating subinterface




lcOwn

Type: mo:Owner
Primitive Type: scalar:Enum8

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
A value that indicates how this object was created. For internal use only.
Constants
local 0 Local NO COMMENTS
policy 1 Policy NO COMMENTS
replica 2 Replica NO COMMENTS
resolveOnBehalf 3 ResolvedOnBehalf NO COMMENTS
implicit 4 Implicit NO COMMENTS
DEFAULT local(0) Local NO COMMENTS




llAddr

Type: address:Ip

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The override of the system generated IPv6 link-local address.


mac

Type: fv:DefaultMAC
Primitive Type: address:MAC

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
null
Constants
defaultValue 280487012409856ull --- NO COMMENTS




modTs

Type: mo:TStamp
Primitive Type: scalar:Date

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The time when this object was last modified.
Constants
never 0ull never NO COMMENTS
DEFAULT never(0ull) never NO COMMENTS




mode

Type: fv:Mode
Primitive Type: scalar:Enum8

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The BGP Domain mode.
Constants
regular 0 Trunk NO COMMENTS
native 1 Access (802.1P) NO COMMENTS
untagged 2 Access (Untagged) NO COMMENTS
DEFAULT regular(0) Trunk NO COMMENTS




monPolDn

Type: reference:BinRef

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The monitoring policy attached to this observable object.


mtu

Type: fabric:InheritableMtu
Primitive Type: scalar:Uint32

Units: bytes
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
null
Constants
inherit 1u inherit NO COMMENTS
DEFAULT inherit(1u) inherit NO COMMENTS




rType

Type: reln:ResolverType
Primitive Type: scalar:Enum8

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
Represents the type of resolver.
Constants
mo 1 mo NO COMMENTS
service 2 service NO COMMENTS
local 3 local NO COMMENTS
DEFAULT mo(1) mo NO COMMENTS




rn

Type: reference:BinRN

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRn
    Comments:
Identifies an object from its siblings within the context of its parent object. The distinguished name contains a sequence of relative names.


state

Type: reln:State
Primitive Type: scalar:Enum8

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
Represents the state of the relationship.
Constants
unformed 0 unformed the relationship is not formed
formed 1 formed the relationship is formed with the target object
missing-target 2 missing-target target does not exist
invalid-target 4 invalid-target invalid target DN
cardinality-violation 5 cardinality-violation cardinality violation - When relations are created such that they violate the cardinality, state of the relation would be set to this.
DEFAULT unformed(0) unformed the relationship is not formed




stateQual

Type: reln:StateQual
Primitive Type: scalar:Enum8

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
Represents the state qualifier of the relationship.
Constants
none 0 none no issue
mismatch-target 1 mismatch-target target not found, using default
default-target 2 default-target target not specified, using default
DEFAULT none(0) none no issue




status

Type: mo:ModificationStatus
Primitive Type: scalar:Bitmask32

Units: null
Encrypted: false
Access: implicit
Category: TopLevelStatus
    Comments:
The upgrade status. This property is for internal use only.
Constants
created 2u created In a setter method: specifies that an object should be created. An error is returned if the object already exists.
In the return value of a setter method: indicates that an object has been created.
modified 4u modified In a setter method: specifies that an object should be modified
In the return value of a setter method: indicates that an object has been modified.
deleted 8u deleted In a setter method: specifies that an object should be deleted.
In the return value of a setter method: indicates that an object has been deleted.
DEFAULT 0 --- This type controls the life cycle of objects passed in the XML API.

When used in a setter method (such as configConfMo), the ModificationStatus specifies whether an object should be created, modified, deleted or removed.
In the return value of a setter method, the ModificationStatus indicates the actual operation that was performed. For example, the ModificationStatus is set to "created" if the object was created. The ModificationStatus is not set if the object was neither created, modified, deleted or removed.

When invoking a setter method, the ModificationStatus is optional:
If a setter method such as configConfMo is invoked and the ModificationStatus is not set, the system automatically determines if the object should be created or modified.





tCl

Type: reln:ClassId
Primitive Type: scalar:Enum16

Overrides:reln:Inst:tCl

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
null
Constants
unspecified 0 unspecified NO COMMENTS
fabricPathEp 493 --- NO COMMENTS
DEFAULT fabricPathEp(493) --- NO COMMENTS




tDn

Type: reln:Dn
Primitive Type: reference:BinRef

Overrides:reln:Inst:tDn

Units: null
Encrypted: false
Naming Property -- [NAMING RULES]
Access: naming
Category: TopLevelRegular
    Comments:
null


tType

Type: reln:TargetType
Primitive Type: scalar:Enum8

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The type of target.
Constants
name 0 name NO COMMENTS
mo 1 mo NO COMMENTS
all 2 all NO COMMENTS
DEFAULT mo(1) mo NO COMMENTS




targetDscp

Type: qosp:Dscp
Primitive Type: scalar:UByte

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
null
Constants
CS0 0 CS0 CS0
CS1 8 CS1 CS1
AF11 10 AF11 low drop AF11 low drop
AF12 12 AF12 medium drop AF12 medium drop
AF13 14 AF13 high drop AF13 high drop
CS2 16 CS2 CS2
AF21 18 AF21 low drop AF21 low drop
AF22 20 AF22 medium drop AF22 medium drop
AF23 22 AF23 high drop AF22 high drop
CS3 24 CS3 CS3
AF31 26 AF31 low drop AF31 low drop
AF32 28 AF32 medium drop AF32 medium drop
AF33 30 AF33 high drop AF33 high drop
CS4 32 CS4 CS4
AF41 34 AF41 low drop AF41 low drop
AF42 36 AF42 medium drop AF42 medium drop
AF43 38 AF43 high drop AF42 high drop
CS5 40 CS5 CS5
VA 44 Voice Admit VA
EF 46 Expedited Forwarding EF
CS6 48 CS6 CS6
CS7 56 CS7 CS7
unspecified 64 Unspecified Unspecified
DEFAULT unspecified(64) Unspecified Unspecified






Overview  Naming  Diagram  Containers  Contained  Inheritance  Events  Faults  FSMs  Properties Summary  Properties Detail