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Class rmon:EtherStats (CONCRETE)

Class ID:3725
Class Label: Ethernet Statistic Counters
Encrypted: false - Exportable: false - Persistent: false - Configurable: false - Subject to Quota: Disabled
Write Access: [NON CONFIGURABLE]
Read Access: []
Creatable/Deletable: no (see Container Mos for details)
Possible Semantic Scopes: EPG, Infra, Fabric,
Semantic Scope Evaluation Rule: Parent
Monitoring Policy Source: Parent
Monitoring Flags : [ IsObservable: false, HasStats: false, HasFaults: false, HasHealth: false, HasEventRules: false ]

The Ethernet statistics.

Naming Rules 
RN FORMAT: dbgEtherStats

    [1] PREFIX=dbgEtherStats


DN FORMAT: 

[0] topology/pod-{id}/node-{id}/sys/ctxsubstitute-{[encap]}/encrtd-{[id]}/dbgEtherStats

[1] sys/ctxsubstitute-{[encap]}/encrtd-{[id]}/dbgEtherStats

[2] topology/pod-{id}/node-{id}/sys/inst-{name}/encrtd-{[id]}/dbgEtherStats

[3] sys/inst-{name}/encrtd-{[id]}/dbgEtherStats

[4] topology/pod-{id}/node-{id}/sys/ctx-{[encap]}/encrtd-{[id]}/dbgEtherStats

[5] sys/ctx-{[encap]}/encrtd-{[id]}/dbgEtherStats

[6] topology/pod-{id}/node-{id}/sys/ctxsubstitute-{[encap]}/bd-{[fabEncap]}/svi-{[id]}/dbgEtherStats

[7] sys/ctxsubstitute-{[encap]}/bd-{[fabEncap]}/svi-{[id]}/dbgEtherStats

[8] topology/pod-{id}/node-{id}/sys/inst-{name}/bd-{[fabEncap]}/svi-{[id]}/dbgEtherStats

[9] sys/inst-{name}/bd-{[fabEncap]}/svi-{[id]}/dbgEtherStats

[10] topology/pod-{id}/node-{id}/sys/ctx-{[encap]}/bd-{[fabEncap]}/svi-{[id]}/dbgEtherStats

[11] sys/ctx-{[encap]}/bd-{[fabEncap]}/svi-{[id]}/dbgEtherStats

[12] topology/pod-{id}/node-{id}/sys/aggr-{[id]}/dbgEtherStats

[13] sys/aggr-{[id]}/dbgEtherStats

[14] topology/pod-{id}/node-{id}/sys/mgmt-{[id]}/dbgEtherStats

[15] sys/mgmt-{[id]}/dbgEtherStats

[16] topology/pod-{id}/node-{id}/sys/phys-{[id]}/dbgEtherStats

[17] sys/phys-{[id]}/dbgEtherStats


Diagram

Super Mo: stats:DebugItem,
Container Mos: l1:PhysIf (deletable:no), l3:EncRtdIf (deletable:no), mgmt:MgmtIf (deletable:no), pc:AggrIf (deletable:no), svi:If (deletable:no),


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] fabric:Topology The root for IFC topology.
 
 		 ├
 		[V] fabric:Pod A pod.
 
 		 
 		 ├
 		[V] fabric:Node The root node for the APIC.
 
 		 
 		 
 		 ├
 		[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 
 		 
 		 
 		 ├
 		[V] l3:CtxSubstitute  Tenant context object substitute. Its needed for internal PE purposes but it doesnt instantiate any VRF in the node.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3:EncRtdIf The routed interface corresponds to a sub-interface in Cisco’s routing terminology. A sub-interface is a logical L3 interface created on an underlying physical L3 port (the parent interface). Each sub-interface is associated with an 802.1Q VLAN tag. The traffic that comes on the parent interface with that tag is considered for that sub-interface. The existence of a routed interface under a VRF or infra VRF also implies that the interface belo...
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 ├
 		[V] l3:CtxSubstitute  Tenant context object substitute. Its needed for internal PE purposes but it doesnt instantiate any VRF in the node.
 
 		 
 		 ├
 		[V] l3:EncRtdIf The routed interface corresponds to a sub-interface in Cisco’s routing terminology. A sub-interface is a logical L3 interface created on an underlying physical L3 port (the parent interface). Each sub-interface is associated with an 802.1Q VLAN tag. The traffic that comes on the parent interface with that tag is considered for that sub-interface. The existence of a routed interface under a VRF or infra VRF also implies that the interface belo...
 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 
 		 
 		 
 		 ├
 		[V] l3:Inst The infra VRF is created for the iNXOS fabric infrastructure. All communications between fabric elements, such as spine, leaf and vleaf, take place in this VRF.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3:EncRtdIf The routed interface corresponds to a sub-interface in Cisco’s routing terminology. A sub-interface is a logical L3 interface created on an underlying physical L3 port (the parent interface). Each sub-interface is associated with an 802.1Q VLAN tag. The traffic that comes on the parent interface with that tag is considered for that sub-interface. The existence of a routed interface under a VRF or infra VRF also implies that the interface belo...
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 ├
 		[V] l3:Inst The infra VRF is created for the iNXOS fabric infrastructure. All communications between fabric elements, such as spine, leaf and vleaf, take place in this VRF.
 
 		 
 		 ├
 		[V] l3:EncRtdIf The routed interface corresponds to a sub-interface in Cisco’s routing terminology. A sub-interface is a logical L3 interface created on an underlying physical L3 port (the parent interface). Each sub-interface is associated with an 802.1Q VLAN tag. The traffic that comes on the parent interface with that tag is considered for that sub-interface. The existence of a routed interface under a VRF or infra VRF also implies that the interface belo...
 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 
 		 
 		 
 		 ├
 		[V] l3:Ctx The tenant context information is equivalent to a virtual routing and forwarding (VRF) instance created for the tenant's L3 network. Similar to a VRF in traditional Cisco routers, the tenant context isolates the IP addresses of the tenant, allowing different tenants to have overlapping IP addresses.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l3:EncRtdIf The routed interface corresponds to a sub-interface in Cisco’s routing terminology. A sub-interface is a logical L3 interface created on an underlying physical L3 port (the parent interface). Each sub-interface is associated with an 802.1Q VLAN tag. The traffic that comes on the parent interface with that tag is considered for that sub-interface. The existence of a routed interface under a VRF or infra VRF also implies that the interface belo...
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 ├
 		[V] l3:Ctx The tenant context information is equivalent to a virtual routing and forwarding (VRF) instance created for the tenant's L3 network. Similar to a VRF in traditional Cisco routers, the tenant context isolates the IP addresses of the tenant, allowing different tenants to have overlapping IP addresses.
 
 		 
 		 ├
 		[V] l3:EncRtdIf The routed interface corresponds to a sub-interface in Cisco’s routing terminology. A sub-interface is a logical L3 interface created on an underlying physical L3 port (the parent interface). Each sub-interface is associated with an 802.1Q VLAN tag. The traffic that comes on the parent interface with that tag is considered for that sub-interface. The existence of a routed interface under a VRF or infra VRF also implies that the interface belo...
 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 
 		 
 		 
 		 ├
 		[V] l3:CtxSubstitute  Tenant context object substitute. Its needed for internal PE purposes but it doesnt instantiate any VRF in the node.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l2:BD The Layer 2 Bridge-domain identifies the boundary of a tenant’s bridged/layer 2 traffic. This is similar to a VLAN in a traditional layer 2 switched network.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] svi:If A routed VLAN interface.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 ├
 		[V] l3:CtxSubstitute  Tenant context object substitute. Its needed for internal PE purposes but it doesnt instantiate any VRF in the node.
 
 		 
 		 ├
 		[V] l2:BD The Layer 2 Bridge-domain identifies the boundary of a tenant’s bridged/layer 2 traffic. This is similar to a VLAN in a traditional layer 2 switched network.
 
 		 
 		 
 		 ├
 		[V] svi:If A routed VLAN interface.
 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 
 		 
 		 
 		 ├
 		[V] l3:Inst The infra VRF is created for the iNXOS fabric infrastructure. All communications between fabric elements, such as spine, leaf and vleaf, take place in this VRF.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l2:BD The Layer 2 Bridge-domain identifies the boundary of a tenant’s bridged/layer 2 traffic. This is similar to a VLAN in a traditional layer 2 switched network.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] svi:If A routed VLAN interface.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 ├
 		[V] l3:Inst The infra VRF is created for the iNXOS fabric infrastructure. All communications between fabric elements, such as spine, leaf and vleaf, take place in this VRF.
 
 		 
 		 ├
 		[V] l2:BD The Layer 2 Bridge-domain identifies the boundary of a tenant’s bridged/layer 2 traffic. This is similar to a VLAN in a traditional layer 2 switched network.
 
 		 
 		 
 		 ├
 		[V] svi:If A routed VLAN interface.
 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 
 		 
 		 
 		 ├
 		[V] l3:Ctx The tenant context information is equivalent to a virtual routing and forwarding (VRF) instance created for the tenant's L3 network. Similar to a VRF in traditional Cisco routers, the tenant context isolates the IP addresses of the tenant, allowing different tenants to have overlapping IP addresses.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] l2:BD The Layer 2 Bridge-domain identifies the boundary of a tenant’s bridged/layer 2 traffic. This is similar to a VLAN in a traditional layer 2 switched network.
 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] svi:If A routed VLAN interface.
 
 		 
 		 
 		 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 ├
 		[V] l3:Ctx The tenant context information is equivalent to a virtual routing and forwarding (VRF) instance created for the tenant's L3 network. Similar to a VRF in traditional Cisco routers, the tenant context isolates the IP addresses of the tenant, allowing different tenants to have overlapping IP addresses.
 
 		 
 		 ├
 		[V] l2:BD The Layer 2 Bridge-domain identifies the boundary of a tenant’s bridged/layer 2 traffic. This is similar to a VLAN in a traditional layer 2 switched network.
 
 		 
 		 
 		 ├
 		[V] svi:If A routed VLAN interface.
 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 
 		 
 		 
 		 ├
 		[V] pc:AggrIf The aggregated interface, which is a collection of physical ports; aka port channel
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 ├
 		[V] pc:AggrIf The aggregated interface, which is a collection of physical ports; aka port channel
 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 
 		 
 		 
 		 ├
 		[V] mgmt:MgmtIf The management interface.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 ├
 		[V] mgmt:MgmtIf The management interface.
 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 
 		 
 		 
 		 ├
 		[V] l1:PhysIf The object that represents the Layer 1 physical Ethernet interface information object.
 
 		 
 		 
 		 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.
[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] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 		 ├
 		[V] l1:PhysIf The object that represents the Layer 1 physical Ethernet interface information object.
 
 		 
 		 ├
 		[V] rmon:EtherStats The Ethernet statistics.


Contained Hierarchy
[V] rmon:EtherStats The Ethernet statistics.


Inheritance
[V] stats:DebugItem The superclass for debugging statistics.
 ├
 		[V] rmon:EtherStats The Ethernet statistics.


Events


Faults


Fsms


Properties Summary
Defined in: rmon:EtherStats
scalar:Uint64 broadcastPkts  (rmon:EtherStats:broadcastPkts)
          
scalar:Uint64 cRCAlignErrors  (rmon:EtherStats:cRCAlignErrors)
           The cyclic redundancy check align errors.
scalar:Uint64 collisions  (rmon:EtherStats:collisions)
           The collisions.
scalar:Uint64 dropEvents  (rmon:EtherStats:dropEvents)
           The drop event packets.
scalar:Uint64 fragments  (rmon:EtherStats:fragments)
           The fragmented packets.
scalar:Uint64 jabbers  (rmon:EtherStats:jabbers)
           The jabber frames.
scalar:Uint64 multicastPkts  (rmon:EtherStats:multicastPkts)
          
scalar:Uint64 octets  (rmon:EtherStats:octets)
          
scalar:Uint64 oversizePkts  (rmon:EtherStats:oversizePkts)
           The oversize packets.
scalar:Uint64 pkts  (rmon:EtherStats:pkts)
           The packets.
scalar:Uint64 pkts1024to1518Octets  (rmon:EtherStats:pkts1024to1518Octets)
           The packets with 1024 to 1518 octets.
scalar:Uint64 pkts128to255Octets  (rmon:EtherStats:pkts128to255Octets)
           The packets with 128 to 255 octets.
scalar:Uint64 pkts256to511Octets  (rmon:EtherStats:pkts256to511Octets)
           The packets with 256 to 511 octets.
scalar:Uint64 pkts512to1023Octets  (rmon:EtherStats:pkts512to1023Octets)
           The packets with 2512 to 1023 octets.
scalar:Uint64 pkts64Octets  (rmon:EtherStats:pkts64Octets)
           The packets with 64 octets.
scalar:Uint64 pkts65to127Octets  (rmon:EtherStats:pkts65to127Octets)
           The packets with 65 to 127 octets.
scalar:Uint64 rXNoErrors  (rmon:EtherStats:rXNoErrors)
           The received packets with no errors.
scalar:Uint64 rxGiantPkts  (rmon:EtherStats:rxGiantPkts)
           RX giant packets
scalar:Uint64 rxOversizePkts  (rmon:EtherStats:rxOversizePkts)
           The oversized received packets.
scalar:Uint64 tXNoErrors  (rmon:EtherStats:tXNoErrors)
           The transmitted packets with no errors.
scalar:Uint64 txGiantPkts  (rmon:EtherStats:txGiantPkts)
           TX giant packets
scalar:Uint64 txOversizePkts  (rmon:EtherStats:txOversizePkts)
           The oversized transmitted packets.
scalar:Uint64 undersizePkts  (rmon:EtherStats:undersizePkts)
           The undersize packets.
Defined in: stats:DebugItem
scalar:Date clearTs  (stats:DebugItem:clearTs)
          
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:Modifiable
mo:TStamp
          scalar:Date 		modTs  (mo:Modifiable:modTs)
           The time when this object was last modified.
Properties Detail

broadcastPkts

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:


cRCAlignErrors

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The cyclic redundancy check align errors.


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




clearTs

Type: scalar:Date

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
Constants
never 0ull Never NO COMMENTS
DEFAULT never(0ull) Never NO COMMENTS




collisions

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The collisions.


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.


dropEvents

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The drop event packets.


fragments

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The fragmented packets.


jabbers

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The jabber frames.


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




multicastPkts

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:


octets

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:


oversizePkts

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The oversize packets.


pkts

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The packets.


pkts1024to1518Octets

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The packets with 1024 to 1518 octets.


pkts128to255Octets

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The packets with 128 to 255 octets.


pkts256to511Octets

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The packets with 256 to 511 octets.


pkts512to1023Octets

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The packets with 2512 to 1023 octets.


pkts64Octets

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The packets with 64 octets.


pkts65to127Octets

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The packets with 65 to 127 octets.


rXNoErrors

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The received packets with no errors.


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.


rxGiantPkts

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
RX giant packets


rxOversizePkts

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The oversized received packets.


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.





tXNoErrors

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The transmitted packets with no errors.


txGiantPkts

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
TX giant packets


txOversizePkts

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The oversized transmitted packets.


undersizePkts

Type: scalar:Uint64

Units: packets
Encrypted: false
Access: oper
Category: DebugStats
    Comments:
The undersize packets.




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