nokia-types-services

Common services data types used in the SR OS management system. Copyright 2016 Nokia. All rights reserved. Reproduction of this...

Typedef Base type Abstract
agg-rate-rate int64 Specify maximum total rate of all egress queues in kbps.
agg-rate-rate int64 Specify maximum total rate of all egress queues in kbps.
agg-rate-rate int64 Specify maximum total rate of all egress queues in kbps.
agg-rate-rate int64 Specify maximum total rate of all egress queues in kbps.
agg-rate-rate int64 Specify maximum total rate of all egress queues in kbps.
agg-rate-rate int64 Specify maximum total rate of all egress queues in kbps.
agg-rate-rate int64 Specify maximum total rate of all egress queues in kbps.
aii-all-types-string string The aii-string describes a combination of global-id:prefix:ac-id as a string for all AII type. For aii-type 1, AII string will have following format: <prefix> : <prefix> For aii-type 2, AII string will have following format: <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> where global-id - 0..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 0..4294967295.
aii-all-types-string string The aii-string describes a combination of global-id:prefix:ac-id as a string for all AII type. For aii-type 1, AII string will have following format: <prefix> : <prefix> For aii-type 2, AII string will have following format: <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> where global-id - 0..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 0..4294967295.
aii-all-types-string string The aii-string describes a combination of global-id:prefix:ac-id as a string for all AII type. For aii-type 1, AII string will have following format: <prefix> : <prefix> For aii-type 2, AII string will have following format: <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> where global-id - 0..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 0..4294967295.
aii-all-types-string string The aii-string describes a combination of global-id:prefix:ac-id as a string for all AII type. For aii-type 1, AII string will have following format: <prefix> : <prefix> For aii-type 2, AII string will have following format: <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> where global-id - 0..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 0..4294967295.
aii-all-types-string string The aii-string describes a combination of global-id:prefix:ac-id as a string for all AII type. For aii-type 1, AII string will have following format: <prefix> : <prefix> For aii-type 2, AII string will have following format: <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> where global-id - 0..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 0..4294967295.
aii-all-types-string string The aii-string describes a combination of global-id:prefix:ac-id as a string for all AII type. For aii-type 1, AII string will have following format: <prefix> : <prefix> For aii-type 2, AII string will have following format: <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> where global-id - 0..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 0..4294967295.
aii-all-types-string string The aii-string describes a combination of global-id:prefix:ac-id as a string for all AII type. For aii-type 1, AII string will have following format: <prefix> : <prefix> For aii-type 2, AII string will have following format: <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> where global-id - 0..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 0..4294967295.
aii-type enumeration Indicates LDP FEC 129 Attachment Individual Identifier (AII) type.
aii-type enumeration Indicates LDP FEC 129 Attachment Individual Identifier (AII) type.
aii-type enumeration Indicates LDP FEC 129 Attachment Individual Identifier (AII) type.
aii-type enumeration Indicates LDP FEC 129 Attachment Individual Identifier (AII) type.
aii-type enumeration Indicates LDP FEC 129 Attachment Individual Identifier (AII) type.
aii-type enumeration Indicates LDP FEC 129 Attachment Individual Identifier (AII) type.
aii-type enumeration Indicates LDP FEC 129 Attachment Individual Identifier (AII) type.
aii-type2-string string The aii-type2-string describes a combination of global-id:prefix:ac-id as a string. <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> global-id - 1..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 1..4294967295.
aii-type2-string string The aii-type2-string describes a combination of global-id:prefix:ac-id as a string. <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> global-id - 1..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 1..4294967295.
aii-type2-string string The aii-type2-string describes a combination of global-id:prefix:ac-id as a string. <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> global-id - 1..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 1..4294967295.
aii-type2-string string The aii-type2-string describes a combination of global-id:prefix:ac-id as a string. <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> global-id - 1..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 1..4294967295.
aii-type2-string string The aii-type2-string describes a combination of global-id:prefix:ac-id as a string. <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> global-id - 1..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 1..4294967295.
aii-type2-string string The aii-type2-string describes a combination of global-id:prefix:ac-id as a string. <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> global-id - 1..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 1..4294967295.
aii-type2-string string The aii-type2-string describes a combination of global-id:prefix:ac-id as a string. <global-id:prefix:ac-id> : <global-id>:<prefix>:<ac-id> global-id - 1..4294967295 prefix - a.b.c.d|1..4294967295 ac-id - 1..4294967295.
anti-spoof-option enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip-mac enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip-mac enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip-mac enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip-mac enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip-mac enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip-mac enumeration The anti-spoof-option describes the anti-spoof options available.
anti-spoof-option-ip-mac enumeration The anti-spoof-option describes the anti-spoof options available.
apipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
apipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
apipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
apipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
arp-reply-agent enumeration The mode of operation of the ARP Reply Agent
arp-reply-agent enumeration The mode of operation of the ARP Reply Agent
arp-reply-agent enumeration The mode of operation of the ARP Reply Agent
arp-reply-agent enumeration The mode of operation of the ARP Reply Agent
arp-reply-agent enumeration The mode of operation of the ARP Reply Agent
arp-reply-agent enumeration The mode of operation of the ARP Reply Agent
arp-reply-agent enumeration The mode of operation of the ARP Reply Agent
auth-password string Contains a password used for authentication of subscribers.
auth-password string Contains a password used for authentication of subscribers.
auth-password string Contains a password used for authentication of subscribers.
auth-password string Contains a password used for authentication of subscribers.
auth-password string Contains a password used for authentication of subscribers.
auth-password string Contains a password used for authentication of subscribers.
auth-password string Contains a password used for authentication of subscribers.
bfd-encap enumeration An enumerated integer indicating encapsulation used for in the BFD operation.
bfd-encap enumeration An enumerated integer indicating encapsulation used for in the BFD operation.
bfd-encap enumeration An enumerated integer indicating encapsulation used for in the BFD operation.
bfd-encap enumeration An enumerated integer indicating encapsulation used for in the BFD operation.
bfd-encap enumeration An enumerated integer indicating encapsulation used for in the BFD operation.
bfd-encap enumeration An enumerated integer indicating encapsulation used for in the BFD operation.
bfd-encap enumeration An enumerated integer indicating encapsulation used for in the BFD operation.
bfd-oper-state enumeration The bfd-oper-state data type is an enumerated integer that describes the values used to identify the operational state of a BFD session the instance is relying upon for its fast triggering mechanism.
bfd-oper-state enumeration The bfd-oper-state data type is an enumerated integer that describes the values used to identify the operational state of a BFD session the instance is relying upon for its fast triggering mechanism.
bfd-oper-state enumeration The bfd-oper-state data type is an enumerated integer that describes the values used to identify the operational state of a BFD session the instance is relying upon for its fast triggering mechanism.
bfd-oper-state enumeration The bfd-oper-state data type is an enumerated integer that describes the values used to identify the operational state of a BFD session the instance is relying upon for its fast triggering mechanism.
bfd-oper-state enumeration The bfd-oper-state data type is an enumerated integer that describes the values used to identify the operational state of a BFD session the instance is relying upon for its fast triggering mechanism.
bfd-oper-state enumeration The bfd-oper-state data type is an enumerated integer that describes the values used to identify the operational state of a BFD session the instance is relying upon for its fast triggering mechanism.
bfd-oper-state enumeration The bfd-oper-state data type is an enumerated integer that describes the values used to identify the operational state of a BFD session the instance is relying upon for its fast triggering mechanism.
bgp-community string The bgp-community is a 4-octet object as string. <bgp-community> : <as-number:comm-val> asnumber - [1..65535] comm-val - [0..65535].
bgp-community string The bgp-community is a 4-octet object as string. <bgp-community> : <as-number:comm-val> asnumber - [1..65535] comm-val - [0..65535].
bgp-community string The bgp-community is a 4-octet object as string. <bgp-community> : <as-number:comm-val> asnumber - [1..65535] comm-val - [0..65535].
bgp-community string The bgp-community is a 4-octet object as string. <bgp-community> : <as-number:comm-val> asnumber - [1..65535] comm-val - [0..65535].
bgp-community string The bgp-community is a 4-octet object as string. <bgp-community> : <as-number:comm-val> asnumber - [1..65535] comm-val - [0..65535].
bgp-community string The bgp-community is a 4-octet object as string. <bgp-community> : <as-number:comm-val> asnumber - [1..65535] comm-val - [0..65535].
bgp-community string The bgp-community is a 4-octet object as string. <bgp-community> : <as-number:comm-val> asnumber - [1..65535] comm-val - [0..65535].
bgp-evpn-ac-eth-tag int32 Ethernet tag value of the BGP EVPN attachment circuit.
bgp-evpn-ac-eth-tag int32 Ethernet tag value of the BGP EVPN attachment circuit.
bgp-evpn-ac-eth-tag int32 Ethernet tag value of the BGP EVPN attachment circuit.
bgp-evpn-ac-eth-tag int32 Ethernet tag value of the BGP EVPN attachment circuit.
bgp-evpn-ac-eth-tag int32 Ethernet tag value of the BGP EVPN attachment circuit.
bgp-evpn-ac-eth-tag int32 Ethernet tag value of the BGP EVPN attachment circuit.
bgp-evpn-ac-eth-tag int32 Ethernet tag value of the BGP EVPN attachment circuit.
bgp-evpn-force-vc-forwarding enumeration Force VC forwarding options for BGP EVPN.
bgp-evpn-force-vc-forwarding enumeration Force VC forwarding options for BGP EVPN.
bgp-evpn-force-vc-forwarding enumeration Force VC forwarding options for BGP EVPN.
bgp-evpn-force-vc-forwarding enumeration Force VC forwarding options for BGP EVPN.
bgp-evpn-force-vc-forwarding enumeration Force VC forwarding options for BGP EVPN.
bgp-evpn-force-vc-forwarding enumeration Force VC forwarding options for BGP EVPN.
bgp-evpn-force-vc-forwarding enumeration Force VC forwarding options for BGP EVPN.
bmac-lsb string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb-no-zero string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb-no-zero string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb-no-zero string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb-no-zero string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb-no-zero string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb-no-zero string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bmac-lsb-no-zero string specifies the 16 least significant bits (lsb) which when combined with the 32 most significant bits of the PBB source-bmac in the associated service, forms the virtual backbone MAC address.
bpdu-translation enumeration This textual convention is used to specify whether received L2 Protocol Tunnel pdu's are translated before being sent out on a port or sap.
bpdu-translation enumeration This textual convention is used to specify whether received L2 Protocol Tunnel pdu's are translated before being sent out on a port or sap.
bpdu-translation enumeration This textual convention is used to specify whether received L2 Protocol Tunnel pdu's are translated before being sent out on a port or sap.
bpdu-translation enumeration This textual convention is used to specify whether received L2 Protocol Tunnel pdu's are translated before being sent out on a port or sap.
bpdu-translation enumeration This textual convention is used to specify whether received L2 Protocol Tunnel pdu's are translated before being sent out on a port or sap.
bpdu-translation enumeration This textual convention is used to specify whether received L2 Protocol Tunnel pdu's are translated before being sent out on a port or sap.
bpdu-translation enumeration This textual convention is used to specify whether received L2 Protocol Tunnel pdu's are translated before being sent out on a port or sap.
bridge-id binary The Bridge-Identifier used by the Spanning Tree Protocol to uniquely identify a bridge. The first two octets represent the bridge priority (in big endian format) while the remaining six octets represent the main MAC address of the bridge.
bridge-id binary The Bridge-Identifier used by the Spanning Tree Protocol to uniquely identify a bridge. The first two octets represent the bridge priority (in big endian format) while the remaining six octets represent the main MAC address of the bridge.
bridge-id binary The Bridge-Identifier used by the Spanning Tree Protocol to uniquely identify a bridge. The first two octets represent the bridge priority (in big endian format) while the remaining six octets represent the main MAC address of the bridge.
bridge-id binary The Bridge-Identifier used by the Spanning Tree Protocol to uniquely identify a bridge. The first two octets represent the bridge priority (in big endian format) while the remaining six octets represent the main MAC address of the bridge.
bridge-id binary The Bridge-Identifier used by the Spanning Tree Protocol to uniquely identify a bridge. The first two octets represent the bridge priority (in big endian format) while the remaining six octets represent the main MAC address of the bridge.
bridge-id binary The Bridge-Identifier used by the Spanning Tree Protocol to uniquely identify a bridge. The first two octets represent the bridge priority (in big endian format) while the remaining six octets represent the main MAC address of the bridge.
bridge-id binary The Bridge-Identifier used by the Spanning Tree Protocol to uniquely identify a bridge. The first two octets represent the bridge priority (in big endian format) while the remaining six octets represent the main MAC address of the bridge.
broadcast-address-format enumeration Broadcast address format used for local broadcast.
broadcast-address-format enumeration Broadcast address format used for local broadcast.
broadcast-address-format enumeration Broadcast address format used for local broadcast.
broadcast-address-format enumeration Broadcast address format used for local broadcast.
broadcast-address-format enumeration Broadcast address format used for local broadcast.
broadcast-address-format enumeration Broadcast address format used for local broadcast.
broadcast-address-format enumeration Broadcast address format used for local broadcast.
bsx-aarp-id uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id-or-zero uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id-or-zero uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id-or-zero uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id-or-zero uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id-or-zero uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id-or-zero uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-id-or-zero uint32 Identifies an instance of the AA Redundancy Protocol (AARP). The value of '0' indicates an invalid AARP instance.
bsx-aarp-service-ref-type enumeration Identifies the role of the SAP or Spoke SDP service point being referenced by an AARP instance. This reference is made in the context of a AARP instance identified by bsx-aarp-id-or-zero. The service reference types are: dual-homed(1) - the service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. shunt-subscriber-side(2) - the service reference point is a Spoke SDP acting as a subscriber side shunt used by the AARP instance. A subscriber side shunt carries the local from/to subscriber traffic when AA is performed remotely. shunt-network-side(3) - the service reference point is a Spoke SDP acting as a network side shunt used by the AARP instance. A network side shunt carries the local from/to network traffic when AA is performed remotely. dual-homed-secondary(4) - the secondary service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. It functions as a backup to the 'dualHomed(1)' primary reference point.
bsx-aarp-service-ref-type enumeration Identifies the role of the SAP or Spoke SDP service point being referenced by an AARP instance. This reference is made in the context of a AARP instance identified by bsx-aarp-id-or-zero. The service reference types are: dual-homed(1) - the service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. shunt-subscriber-side(2) - the service reference point is a Spoke SDP acting as a subscriber side shunt used by the AARP instance. A subscriber side shunt carries the local from/to subscriber traffic when AA is performed remotely. shunt-network-side(3) - the service reference point is a Spoke SDP acting as a network side shunt used by the AARP instance. A network side shunt carries the local from/to network traffic when AA is performed remotely. dual-homed-secondary(4) - the secondary service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. It functions as a backup to the 'dualHomed(1)' primary reference point.
bsx-aarp-service-ref-type enumeration Identifies the role of the SAP or Spoke SDP service point being referenced by an AARP instance. This reference is made in the context of a AARP instance identified by bsx-aarp-id-or-zero. The service reference types are: dual-homed(1) - the service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. shunt-subscriber-side(2) - the service reference point is a Spoke SDP acting as a subscriber side shunt used by the AARP instance. A subscriber side shunt carries the local from/to subscriber traffic when AA is performed remotely. shunt-network-side(3) - the service reference point is a Spoke SDP acting as a network side shunt used by the AARP instance. A network side shunt carries the local from/to network traffic when AA is performed remotely. dual-homed-secondary(4) - the secondary service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. It functions as a backup to the 'dualHomed(1)' primary reference point.
bsx-aarp-service-ref-type enumeration Identifies the role of the SAP or Spoke SDP service point being referenced by an AARP instance. This reference is made in the context of a AARP instance identified by bsx-aarp-id-or-zero. The service reference types are: dual-homed(1) - the service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. shunt-subscriber-side(2) - the service reference point is a Spoke SDP acting as a subscriber side shunt used by the AARP instance. A subscriber side shunt carries the local from/to subscriber traffic when AA is performed remotely. shunt-network-side(3) - the service reference point is a Spoke SDP acting as a network side shunt used by the AARP instance. A network side shunt carries the local from/to network traffic when AA is performed remotely. dual-homed-secondary(4) - the secondary service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. It functions as a backup to the 'dualHomed(1)' primary reference point.
bsx-aarp-service-ref-type enumeration Identifies the role of the SAP or Spoke SDP service point being referenced by an AARP instance. This reference is made in the context of a AARP instance identified by bsx-aarp-id-or-zero. The service reference types are: dual-homed(1) - the service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. shunt-subscriber-side(2) - the service reference point is a Spoke SDP acting as a subscriber side shunt used by the AARP instance. A subscriber side shunt carries the local from/to subscriber traffic when AA is performed remotely. shunt-network-side(3) - the service reference point is a Spoke SDP acting as a network side shunt used by the AARP instance. A network side shunt carries the local from/to network traffic when AA is performed remotely. dual-homed-secondary(4) - the secondary service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. It functions as a backup to the 'dualHomed(1)' primary reference point.
bsx-aarp-service-ref-type enumeration Identifies the role of the SAP or Spoke SDP service point being referenced by an AARP instance. This reference is made in the context of a AARP instance identified by bsx-aarp-id-or-zero. The service reference types are: dual-homed(1) - the service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. shunt-subscriber-side(2) - the service reference point is a Spoke SDP acting as a subscriber side shunt used by the AARP instance. A subscriber side shunt carries the local from/to subscriber traffic when AA is performed remotely. shunt-network-side(3) - the service reference point is a Spoke SDP acting as a network side shunt used by the AARP instance. A network side shunt carries the local from/to network traffic when AA is performed remotely. dual-homed-secondary(4) - the secondary service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. It functions as a backup to the 'dualHomed(1)' primary reference point.
bsx-aarp-service-ref-type enumeration Identifies the role of the SAP or Spoke SDP service point being referenced by an AARP instance. This reference is made in the context of a AARP instance identified by bsx-aarp-id-or-zero. The service reference types are: dual-homed(1) - the service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. shunt-subscriber-side(2) - the service reference point is a Spoke SDP acting as a subscriber side shunt used by the AARP instance. A subscriber side shunt carries the local from/to subscriber traffic when AA is performed remotely. shunt-network-side(3) - the service reference point is a Spoke SDP acting as a network side shunt used by the AARP instance. A network side shunt carries the local from/to network traffic when AA is performed remotely. dual-homed-secondary(4) - the secondary service reference point is a SAP or Spoke SDP connected into a dually homed network being protected by the AARP instance. It functions as a backup to the 'dualHomed(1)' primary reference point.
bsx-transit-ip-policy-id uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id-or-zero uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id-or-zero uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id-or-zero uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id-or-zero uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id-or-zero uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id-or-zero uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-transit-ip-policy-id-or-zero uint32 Identifies a transit ip policy. The value '0' indicates an invalid transit IP policy.
bsx-trans-pref-policy-id uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id-or-zero uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id-or-zero uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id-or-zero uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id-or-zero uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id-or-zero uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id-or-zero uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
bsx-trans-pref-policy-id-or-zero uint32 Identifies a transit prefix policy. The value '0' indicates an invalid transit prefix policy.
cem-endpoint-type enumeration CEM endpoint type
cem-endpoint-type enumeration CEM endpoint type
cem-endpoint-type enumeration CEM endpoint type
cem-endpoint-type enumeration CEM endpoint type
cem-endpoint-type enumeration CEM endpoint type
cem-endpoint-type enumeration CEM endpoint type
cem-endpoint-type enumeration CEM endpoint type
cookie-value string The eight byte value to identify L2TPv3 tunnel.
cookie-value string The eight byte value to identify L2TPv3 tunnel.
cookie-value string The eight byte value to identify L2TPv3 tunnel.
cookie-value string The eight byte value to identify L2TPv3 tunnel.
cookie-value string The eight byte value to identify L2TPv3 tunnel.
cookie-value string The eight byte value to identify L2TPv3 tunnel.
cookie-value string The eight byte value to identify L2TPv3 tunnel.
cpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
cpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
cpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
cpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
cpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
cpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
cpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
cpm-prot-policy-id uint32 Represents the identification number of a CPM Protection policy.
cpm-prot-policy-id uint32 Represents the identification number of a CPM Protection policy.
cpm-prot-policy-id uint32 Represents the identification number of a CPM Protection policy.
cpm-prot-policy-id uint32 Represents the identification number of a CPM Protection policy.
cpm-prot-policy-id uint32 Represents the identification number of a CPM Protection policy.
cpm-prot-policy-id uint32 Represents the identification number of a CPM Protection policy.
cpm-prot-policy-id uint32 Represents the identification number of a CPM Protection policy.
customer-id uint32 A number used to identify a Customer or Subscriber. This ID must be unique within the Service Domain. The value 0 is used as the null ID.
customer-id uint32 A number used to identify a Customer or Subscriber. This ID must be unique within the Service Domain. The value 0 is used as the null ID.
customer-id uint32 A number used to identify a Customer or Subscriber. This ID must be unique within the Service Domain. The value 0 is used as the null ID.
customer-id uint32 A number used to identify a Customer or Subscriber. This ID must be unique within the Service Domain. The value 0 is used as the null ID.
customer-id uint32 A number used to identify a Customer or Subscriber. This ID must be unique within the Service Domain. The value 0 is used as the null ID.
customer-id uint32 A number used to identify a Customer or Subscriber. This ID must be unique within the Service Domain. The value 0 is used as the null ID.
customer-id uint32 A number used to identify a Customer or Subscriber. This ID must be unique within the Service Domain. The value 0 is used as the null ID.
customer-name string The customer-name defines name assigned to the customer.
customer-name string The customer-name defines name assigned to the customer.
customer-name string The customer-name defines name assigned to the customer.
customer-name string The customer-name defines name assigned to the customer.
customer-name string The customer-name defines name assigned to the customer.
customer-name string The customer-name defines name assigned to the customer.
customer-name string The customer-name defines name assigned to the customer.
dhcp6-pd-managed-route-nh enumeration Specifies the pd-managed-route next-hop.
dhcp6-pd-managed-route-nh enumeration Specifies the pd-managed-route next-hop.
dhcp6-pd-managed-route-nh enumeration Specifies the pd-managed-route next-hop.
dhcp6-pd-managed-route-nh enumeration Specifies the pd-managed-route next-hop.
dhcp6-pd-managed-route-nh enumeration Specifies the pd-managed-route next-hop.
dhcp6-pd-managed-route-nh enumeration Specifies the pd-managed-route next-hop.
dhcp6-pd-managed-route-nh enumeration Specifies the pd-managed-route next-hop.
dhcp6-user-ident enumeration Specifies how subscriber hosts are identified.
dhcp6-user-ident enumeration Specifies how subscriber hosts are identified.
dhcp6-user-ident enumeration Specifies how subscriber hosts are identified.
dhcp6-user-ident enumeration Specifies how subscriber hosts are identified.
dhcp6-user-ident enumeration Specifies how subscriber hosts are identified.
dhcp6-user-ident enumeration Specifies how subscriber hosts are identified.
dhcp6-user-ident enumeration Specifies how subscriber hosts are identified.
dist-cpu-prot-action-duration union An exceed action rate in seconds for Distributed CPU Protection Policy parameters determining hold-down duration for specified exceed-action.
dist-cpu-prot-action-duration union An exceed action rate in seconds for Distributed CPU Protection Policy parameters determining hold-down duration for specified exceed-action.
dist-cpu-prot-action-duration union An exceed action rate in seconds for Distributed CPU Protection Policy parameters determining hold-down duration for specified exceed-action.
dist-cpu-prot-action-duration union An exceed action rate in seconds for Distributed CPU Protection Policy parameters determining hold-down duration for specified exceed-action.
dist-cpu-prot-action-duration union An exceed action rate in seconds for Distributed CPU Protection Policy parameters determining hold-down duration for specified exceed-action.
dist-cpu-prot-action-duration union An exceed action rate in seconds for Distributed CPU Protection Policy parameters determining hold-down duration for specified exceed-action.
dist-cpu-prot-action-duration union An exceed action rate in seconds for Distributed CPU Protection Policy parameters determining hold-down duration for specified exceed-action.
dist-cpu-prot-policer-state enumeration The state of the policer for the Distributed CPU Protection Policy.
dist-cpu-prot-policer-state enumeration The state of the policer for the Distributed CPU Protection Policy.
dist-cpu-prot-policer-state enumeration The state of the policer for the Distributed CPU Protection Policy.
dist-cpu-prot-policer-state enumeration The state of the policer for the Distributed CPU Protection Policy.
dist-cpu-prot-policer-state enumeration The state of the policer for the Distributed CPU Protection Policy.
dist-cpu-prot-policer-state enumeration The state of the policer for the Distributed CPU Protection Policy.
dist-cpu-prot-policer-state enumeration The state of the policer for the Distributed CPU Protection Policy.
domain-id string The D-Path Domain Id is a 6-octet object as string. <global-field:local-field> global-field - [0..4294967295] local-field - [0..65535].
domain-id string The D-Path Domain Id is a 6-octet object as string. <global-field:local-field> global-field - [0..4294967295] local-field - [0..65535].
domain-id string The D-Path Domain Id is a 6-octet object as string. <global-field:local-field> global-field - [0..4294967295] local-field - [0..65535].
domain-id string The D-Path Domain Id is a 6-octet object as string. <global-field:local-field> global-field - [0..4294967295] local-field - [0..65535].
domain-id string The D-Path Domain Id is a 6-octet object as string. <global-field:local-field> global-field - [0..4294967295] local-field - [0..65535].
domain-id string The D-Path Domain Id is a 6-octet object as string. <global-field:local-field> global-field - [0..4294967295] local-field - [0..65535].
domain-id string The D-Path Domain Id is a 6-octet object as string. <global-field:local-field> global-field - [0..4294967295] local-field - [0..65535].
dual-homing-bsx-aarp-service-ref-type enumeration The dual-homing-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to dual-homing supported services.
dual-homing-bsx-aarp-service-ref-type enumeration The dual-homing-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to dual-homing supported services.
dual-homing-bsx-aarp-service-ref-type enumeration The dual-homing-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to dual-homing supported services.
dual-homing-bsx-aarp-service-ref-type enumeration The dual-homing-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to dual-homing supported services.
dual-homing-bsx-aarp-service-ref-type enumeration The dual-homing-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to dual-homing supported services.
dual-homing-bsx-aarp-service-ref-type enumeration The dual-homing-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to dual-homing supported services.
dual-homing-bsx-aarp-service-ref-type enumeration The dual-homing-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to dual-homing supported services.
dynamic-services-accounting-stats-type enumeration The dynamic-services-accounting-stats-type is an enumerated integer that describes the values used to identify the type of accounting statistics gathered.
dynamic-services-accounting-stats-type enumeration The dynamic-services-accounting-stats-type is an enumerated integer that describes the values used to identify the type of accounting statistics gathered.
dynamic-services-accounting-stats-type enumeration The dynamic-services-accounting-stats-type is an enumerated integer that describes the values used to identify the type of accounting statistics gathered.
dynamic-services-accounting-stats-type enumeration The dynamic-services-accounting-stats-type is an enumerated integer that describes the values used to identify the type of accounting statistics gathered.
dynamic-services-accounting-stats-type enumeration The dynamic-services-accounting-stats-type is an enumerated integer that describes the values used to identify the type of accounting statistics gathered.
dynamic-services-accounting-stats-type enumeration The dynamic-services-accounting-stats-type is an enumerated integer that describes the values used to identify the type of accounting statistics gathered.
dynamic-services-accounting-stats-type enumeration The dynamic-services-accounting-stats-type is an enumerated integer that describes the values used to identify the type of accounting statistics gathered.
ecmp-value int32 Range of ECMP values.
ecmp-value int32 Range of ECMP values.
ecmp-value int32 Range of ECMP values.
ecmp-value int32 Range of ECMP values.
ecmp-value int32 Range of ECMP values.
ecmp-value int32 Range of ECMP values.
ecmp-value int32 Range of ECMP values.
egress-hsmda-queue-packet-byte-offset int32 The value, in bytes, of the override of the adjustment to make to the size of each outgoing packet for accounting.
egress-hsmda-queue-packet-byte-offset int32 The value, in bytes, of the override of the adjustment to make to the size of each outgoing packet for accounting.
egress-hsmda-queue-packet-byte-offset int32 The value, in bytes, of the override of the adjustment to make to the size of each outgoing packet for accounting.
egress-hsmda-queue-packet-byte-offset int32 The value, in bytes, of the override of the adjustment to make to the size of each outgoing packet for accounting.
egress-vc-label uint32 Specify static MPLS VC label used by this device.
egress-vc-label uint32 Specify static MPLS VC label used by this device.
egress-vc-label uint32 Specify static MPLS VC label used by this device.
egress-vc-label uint32 Specify static MPLS VC label used by this device.
egress-vc-label uint32 Specify static MPLS VC label used by this device.
egress-vc-label uint32 Specify static MPLS VC label used by this device.
egress-vc-label uint32 Specify static MPLS VC label used by this device.
encap-value uint32 The value of the label used to identify the entity using the specified encapsulation value on a specific port. The format of this object depends on the encapsulation type defined on this port. When the encapsulation is nullEncap the value of this object must be zero. 31 0 +--------+--------+--------+--------+ |00000000 00000000 00000000 00000000| +--------+--------+--------+--------+ When the encapsulation is dot1qEncap the value of this object is equal to the 12-bit IEEE 802.1Q VLAN ID. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is mplsEncap the value of this object is equal to the 20-bit LSP ID. 31 0 +--------+--------+--------+--------+ |00000000 0000XXXX XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is frEncap, the value of this object is equal to the 10-bit Frame Relay DLCI. 31 0 +--------+--------+--------+--------+ |00000000 00000000 000000XX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is qinqEncap, the value of the outer 802.1Q VLAN ID is encoded in the least significant 16 bits, and the value of the inner VLAN ID is encoded in the most significant 16 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ where: - '*' is represented as 4095. - '0' is represented as 0. - any other value in between as a valid tag. - '*.null' is represented in the following way: 31 0 +--------+--------+--------+--------+ |10000000 00000000 00001111 11111111| +--------+--------+--------+--------+ When the encapsulation is atmEncap, the value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. For ATM VCs, the top 3 bits are 000. The value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM capture VCs, bits 0 and 28 are 1. 31 0 +--------+--------+--------+--------+ |00010000 00000000 00000000 00000001| +--------+--------+--------+--------+ For ATM VPs, the top 3 bits are 010. The value of the ATM VPI is encoded in the least significant 12 bits. 31 0 +--------+--------+--------+--------+ |01000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM VP ranges, the top 3 bits are 100. The value of the start of the ATM VPI range is encoded in the least significant 12 bits, and the value of the end of the ATM VP range is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |10000000 YYYYYYYY YYYYXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM ports, the top 3 bits are 110, and the rest of the bits must be zero. 31 0 +--------+--------+--------+--------+ |11000000 00000000 00000000 00000000| +--------+--------+--------+--------+ For ATM CPs, the top 3 bits are 001. The value of the ATM CP is encoded in the least significant 13 bits. 31 0 +--------+--------+--------+--------+ |00100000 00000000 000XXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is wanMirrorEncap the value of this object is equal to the 12-bit value. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ Some ports have a restrictions to the encapsulation types that they can support and hence impose restrictions on the respective formats defined above.
encap-value uint32 The value of the label used to identify the entity using the specified encapsulation value on a specific port. The format of this object depends on the encapsulation type defined on this port. When the encapsulation is nullEncap the value of this object must be zero. 31 0 +--------+--------+--------+--------+ |00000000 00000000 00000000 00000000| +--------+--------+--------+--------+ When the encapsulation is dot1qEncap the value of this object is equal to the 12-bit IEEE 802.1Q VLAN ID. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is mplsEncap the value of this object is equal to the 20-bit LSP ID. 31 0 +--------+--------+--------+--------+ |00000000 0000XXXX XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is frEncap, the value of this object is equal to the 10-bit Frame Relay DLCI. 31 0 +--------+--------+--------+--------+ |00000000 00000000 000000XX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is qinqEncap, the value of the outer 802.1Q VLAN ID is encoded in the least significant 16 bits, and the value of the inner VLAN ID is encoded in the most significant 16 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ where: - '*' is represented as 4095. - '0' is represented as 0. - any other value in between as a valid tag. - '*.null' is represented in the following way: 31 0 +--------+--------+--------+--------+ |10000000 00000000 00001111 11111111| +--------+--------+--------+--------+ When the encapsulation is atmEncap, the value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. For ATM VCs, the top 3 bits are 000. The value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM capture VCs, bits 0 and 28 are 1. 31 0 +--------+--------+--------+--------+ |00010000 00000000 00000000 00000001| +--------+--------+--------+--------+ For ATM VPs, the top 3 bits are 010. The value of the ATM VPI is encoded in the least significant 12 bits. 31 0 +--------+--------+--------+--------+ |01000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM VP ranges, the top 3 bits are 100. The value of the start of the ATM VPI range is encoded in the least significant 12 bits, and the value of the end of the ATM VP range is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |10000000 YYYYYYYY YYYYXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM ports, the top 3 bits are 110, and the rest of the bits must be zero. 31 0 +--------+--------+--------+--------+ |11000000 00000000 00000000 00000000| +--------+--------+--------+--------+ For ATM CPs, the top 3 bits are 001. The value of the ATM CP is encoded in the least significant 13 bits. 31 0 +--------+--------+--------+--------+ |00100000 00000000 000XXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is wanMirrorEncap the value of this object is equal to the 12-bit value. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ Some ports have a restrictions to the encapsulation types that they can support and hence impose restrictions on the respective formats defined above.
encap-value uint32 The value of the label used to identify the entity using the specified encapsulation value on a specific port. The format of this object depends on the encapsulation type defined on this port. When the encapsulation is nullEncap the value of this object must be zero. 31 0 +--------+--------+--------+--------+ |00000000 00000000 00000000 00000000| +--------+--------+--------+--------+ When the encapsulation is dot1qEncap the value of this object is equal to the 12-bit IEEE 802.1Q VLAN ID. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is mplsEncap the value of this object is equal to the 20-bit LSP ID. 31 0 +--------+--------+--------+--------+ |00000000 0000XXXX XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is frEncap, the value of this object is equal to the 10-bit Frame Relay DLCI. 31 0 +--------+--------+--------+--------+ |00000000 00000000 000000XX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is qinqEncap, the value of the outer 802.1Q VLAN ID is encoded in the least significant 16 bits, and the value of the inner VLAN ID is encoded in the most significant 16 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ where: - '*' is represented as 4095. - '0' is represented as 0. - any other value in between as a valid tag. - '*.null' is represented in the following way: 31 0 +--------+--------+--------+--------+ |10000000 00000000 00001111 11111111| +--------+--------+--------+--------+ When the encapsulation is atmEncap, the value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. For ATM VCs, the top 3 bits are 000. The value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM capture VCs, bits 0 and 28 are 1. 31 0 +--------+--------+--------+--------+ |00010000 00000000 00000000 00000001| +--------+--------+--------+--------+ For ATM VPs, the top 3 bits are 010. The value of the ATM VPI is encoded in the least significant 12 bits. 31 0 +--------+--------+--------+--------+ |01000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM VP ranges, the top 3 bits are 100. The value of the start of the ATM VPI range is encoded in the least significant 12 bits, and the value of the end of the ATM VP range is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |10000000 YYYYYYYY YYYYXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM ports, the top 3 bits are 110, and the rest of the bits must be zero. 31 0 +--------+--------+--------+--------+ |11000000 00000000 00000000 00000000| +--------+--------+--------+--------+ For ATM CPs, the top 3 bits are 001. The value of the ATM CP is encoded in the least significant 13 bits. 31 0 +--------+--------+--------+--------+ |00100000 00000000 000XXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is wanMirrorEncap the value of this object is equal to the 12-bit value. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ Some ports have a restrictions to the encapsulation types that they can support and hence impose restrictions on the respective formats defined above.
encap-value uint32 The value of the label used to identify the entity using the specified encapsulation value on a specific port. The format of this object depends on the encapsulation type defined on this port. When the encapsulation is nullEncap the value of this object must be zero. 31 0 +--------+--------+--------+--------+ |00000000 00000000 00000000 00000000| +--------+--------+--------+--------+ When the encapsulation is dot1qEncap the value of this object is equal to the 12-bit IEEE 802.1Q VLAN ID. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is mplsEncap the value of this object is equal to the 20-bit LSP ID. 31 0 +--------+--------+--------+--------+ |00000000 0000XXXX XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is frEncap, the value of this object is equal to the 10-bit Frame Relay DLCI. 31 0 +--------+--------+--------+--------+ |00000000 00000000 000000XX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is qinqEncap, the value of the outer 802.1Q VLAN ID is encoded in the least significant 16 bits, and the value of the inner VLAN ID is encoded in the most significant 16 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ where: - '*' is represented as 4095. - '0' is represented as 0. - any other value in between as a valid tag. - '*.null' is represented in the following way: 31 0 +--------+--------+--------+--------+ |10000000 00000000 00001111 11111111| +--------+--------+--------+--------+ When the encapsulation is atmEncap, the value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. For ATM VCs, the top 3 bits are 000. The value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM capture VCs, bits 0 and 28 are 1. 31 0 +--------+--------+--------+--------+ |00010000 00000000 00000000 00000001| +--------+--------+--------+--------+ For ATM VPs, the top 3 bits are 010. The value of the ATM VPI is encoded in the least significant 12 bits. 31 0 +--------+--------+--------+--------+ |01000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM VP ranges, the top 3 bits are 100. The value of the start of the ATM VPI range is encoded in the least significant 12 bits, and the value of the end of the ATM VP range is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |10000000 YYYYYYYY YYYYXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM ports, the top 3 bits are 110, and the rest of the bits must be zero. 31 0 +--------+--------+--------+--------+ |11000000 00000000 00000000 00000000| +--------+--------+--------+--------+ For ATM CPs, the top 3 bits are 001. The value of the ATM CP is encoded in the least significant 13 bits. 31 0 +--------+--------+--------+--------+ |00100000 00000000 000XXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is wanMirrorEncap the value of this object is equal to the 12-bit value. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ Some ports have a restrictions to the encapsulation types that they can support and hence impose restrictions on the respective formats defined above.
encap-value uint32 The value of the label used to identify the entity using the specified encapsulation value on a specific port. The format of this object depends on the encapsulation type defined on this port. When the encapsulation is nullEncap the value of this object must be zero. 31 0 +--------+--------+--------+--------+ |00000000 00000000 00000000 00000000| +--------+--------+--------+--------+ When the encapsulation is dot1qEncap the value of this object is equal to the 12-bit IEEE 802.1Q VLAN ID. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is mplsEncap the value of this object is equal to the 20-bit LSP ID. 31 0 +--------+--------+--------+--------+ |00000000 0000XXXX XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is frEncap, the value of this object is equal to the 10-bit Frame Relay DLCI. 31 0 +--------+--------+--------+--------+ |00000000 00000000 000000XX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is qinqEncap, the value of the outer 802.1Q VLAN ID is encoded in the least significant 16 bits, and the value of the inner VLAN ID is encoded in the most significant 16 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ where: - '*' is represented as 4095. - '0' is represented as 0. - any other value in between as a valid tag. - '*.null' is represented in the following way: 31 0 +--------+--------+--------+--------+ |10000000 00000000 00001111 11111111| +--------+--------+--------+--------+ When the encapsulation is atmEncap, the value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. For ATM VCs, the top 3 bits are 000. The value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM capture VCs, bits 0 and 28 are 1. 31 0 +--------+--------+--------+--------+ |00010000 00000000 00000000 00000001| +--------+--------+--------+--------+ For ATM VPs, the top 3 bits are 010. The value of the ATM VPI is encoded in the least significant 12 bits. 31 0 +--------+--------+--------+--------+ |01000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM VP ranges, the top 3 bits are 100. The value of the start of the ATM VPI range is encoded in the least significant 12 bits, and the value of the end of the ATM VP range is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |10000000 YYYYYYYY YYYYXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM ports, the top 3 bits are 110, and the rest of the bits must be zero. 31 0 +--------+--------+--------+--------+ |11000000 00000000 00000000 00000000| +--------+--------+--------+--------+ For ATM CPs, the top 3 bits are 001. The value of the ATM CP is encoded in the least significant 13 bits. 31 0 +--------+--------+--------+--------+ |00100000 00000000 000XXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is wanMirrorEncap the value of this object is equal to the 12-bit value. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ Some ports have a restrictions to the encapsulation types that they can support and hence impose restrictions on the respective formats defined above.
encap-value uint32 The value of the label used to identify the entity using the specified encapsulation value on a specific port. The format of this object depends on the encapsulation type defined on this port. When the encapsulation is nullEncap the value of this object must be zero. 31 0 +--------+--------+--------+--------+ |00000000 00000000 00000000 00000000| +--------+--------+--------+--------+ When the encapsulation is dot1qEncap the value of this object is equal to the 12-bit IEEE 802.1Q VLAN ID. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is mplsEncap the value of this object is equal to the 20-bit LSP ID. 31 0 +--------+--------+--------+--------+ |00000000 0000XXXX XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is frEncap, the value of this object is equal to the 10-bit Frame Relay DLCI. 31 0 +--------+--------+--------+--------+ |00000000 00000000 000000XX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is qinqEncap, the value of the outer 802.1Q VLAN ID is encoded in the least significant 16 bits, and the value of the inner VLAN ID is encoded in the most significant 16 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ where: - '*' is represented as 4095. - '0' is represented as 0. - any other value in between as a valid tag. - '*.null' is represented in the following way: 31 0 +--------+--------+--------+--------+ |10000000 00000000 00001111 11111111| +--------+--------+--------+--------+ When the encapsulation is atmEncap, the value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. For ATM VCs, the top 3 bits are 000. The value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM capture VCs, bits 0 and 28 are 1. 31 0 +--------+--------+--------+--------+ |00010000 00000000 00000000 00000001| +--------+--------+--------+--------+ For ATM VPs, the top 3 bits are 010. The value of the ATM VPI is encoded in the least significant 12 bits. 31 0 +--------+--------+--------+--------+ |01000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM VP ranges, the top 3 bits are 100. The value of the start of the ATM VPI range is encoded in the least significant 12 bits, and the value of the end of the ATM VP range is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |10000000 YYYYYYYY YYYYXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM ports, the top 3 bits are 110, and the rest of the bits must be zero. 31 0 +--------+--------+--------+--------+ |11000000 00000000 00000000 00000000| +--------+--------+--------+--------+ For ATM CPs, the top 3 bits are 001. The value of the ATM CP is encoded in the least significant 13 bits. 31 0 +--------+--------+--------+--------+ |00100000 00000000 000XXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is wanMirrorEncap the value of this object is equal to the 12-bit value. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ Some ports have a restrictions to the encapsulation types that they can support and hence impose restrictions on the respective formats defined above.
encap-value uint32 The value of the label used to identify the entity using the specified encapsulation value on a specific port. The format of this object depends on the encapsulation type defined on this port. When the encapsulation is nullEncap the value of this object must be zero. 31 0 +--------+--------+--------+--------+ |00000000 00000000 00000000 00000000| +--------+--------+--------+--------+ When the encapsulation is dot1qEncap the value of this object is equal to the 12-bit IEEE 802.1Q VLAN ID. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is mplsEncap the value of this object is equal to the 20-bit LSP ID. 31 0 +--------+--------+--------+--------+ |00000000 0000XXXX XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is frEncap, the value of this object is equal to the 10-bit Frame Relay DLCI. 31 0 +--------+--------+--------+--------+ |00000000 00000000 000000XX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is qinqEncap, the value of the outer 802.1Q VLAN ID is encoded in the least significant 16 bits, and the value of the inner VLAN ID is encoded in the most significant 16 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ where: - '*' is represented as 4095. - '0' is represented as 0. - any other value in between as a valid tag. - '*.null' is represented in the following way: 31 0 +--------+--------+--------+--------+ |10000000 00000000 00001111 11111111| +--------+--------+--------+--------+ When the encapsulation is atmEncap, the value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. For ATM VCs, the top 3 bits are 000. The value of the ATM VCI is encoded in the least significant 16 bits, and the value of the ATM VPI is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |0000YYYY YYYYYYYY XXXXXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM capture VCs, bits 0 and 28 are 1. 31 0 +--------+--------+--------+--------+ |00010000 00000000 00000000 00000001| +--------+--------+--------+--------+ For ATM VPs, the top 3 bits are 010. The value of the ATM VPI is encoded in the least significant 12 bits. 31 0 +--------+--------+--------+--------+ |01000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM VP ranges, the top 3 bits are 100. The value of the start of the ATM VPI range is encoded in the least significant 12 bits, and the value of the end of the ATM VP range is encoded in the next 12 bits. 31 0 +--------+--------+--------+--------+ |10000000 YYYYYYYY YYYYXXXX XXXXXXXX| +--------+--------+--------+--------+ For ATM ports, the top 3 bits are 110, and the rest of the bits must be zero. 31 0 +--------+--------+--------+--------+ |11000000 00000000 00000000 00000000| +--------+--------+--------+--------+ For ATM CPs, the top 3 bits are 001. The value of the ATM CP is encoded in the least significant 13 bits. 31 0 +--------+--------+--------+--------+ |00100000 00000000 000XXXXX XXXXXXXX| +--------+--------+--------+--------+ When the encapsulation is wanMirrorEncap the value of this object is equal to the 12-bit value. 31 0 +--------+--------+--------+--------+ |00000000 00000000 0000XXXX XXXXXXXX| +--------+--------+--------+--------+ Some ports have a restrictions to the encapsulation types that they can support and hence impose restrictions on the respective formats defined above.
entry-id uint32 uniquely identifies an entry in a policy or filter table. to facilitate insertion of entries in the tables, we recommend assigning entry IDs by 10s: 10, 20, 30, etc.
entry-id uint32 uniquely identifies an entry in a policy or filter table. to facilitate insertion of entries in the tables, we recommend assigning entry IDs by 10s: 10, 20, 30, etc.
entry-id uint32 uniquely identifies an entry in a policy or filter table. to facilitate insertion of entries in the tables, we recommend assigning entry IDs by 10s: 10, 20, 30, etc.
entry-id uint32 uniquely identifies an entry in a policy or filter table. to facilitate insertion of entries in the tables, we recommend assigning entry IDs by 10s: 10, 20, 30, etc.
entry-id uint32 uniquely identifies an entry in a policy or filter table. to facilitate insertion of entries in the tables, we recommend assigning entry IDs by 10s: 10, 20, 30, etc.
entry-id uint32 uniquely identifies an entry in a policy or filter table. to facilitate insertion of entries in the tables, we recommend assigning entry IDs by 10s: 10, 20, 30, etc.
entry-id uint32 uniquely identifies an entry in a policy or filter table. to facilitate insertion of entries in the tables, we recommend assigning entry IDs by 10s: 10, 20, 30, etc.
entry-indicator uint32 Uniquely identifies an entry in a policy or filter table. The value 0 is not a valid entry-id. When used as insertion point the value 0 indicates that entries must be inserted at the very beginning, i.e.before the first entry defined.
entry-indicator uint32 Uniquely identifies an entry in a policy or filter table. The value 0 is not a valid entry-id. When used as insertion point the value 0 indicates that entries must be inserted at the very beginning, i.e.before the first entry defined.
entry-indicator uint32 Uniquely identifies an entry in a policy or filter table. The value 0 is not a valid entry-id. When used as insertion point the value 0 indicates that entries must be inserted at the very beginning, i.e.before the first entry defined.
entry-indicator uint32 Uniquely identifies an entry in a policy or filter table. The value 0 is not a valid entry-id. When used as insertion point the value 0 indicates that entries must be inserted at the very beginning, i.e.before the first entry defined.
entry-indicator uint32 Uniquely identifies an entry in a policy or filter table. The value 0 is not a valid entry-id. When used as insertion point the value 0 indicates that entries must be inserted at the very beginning, i.e.before the first entry defined.
entry-indicator uint32 Uniquely identifies an entry in a policy or filter table. The value 0 is not a valid entry-id. When used as insertion point the value 0 indicates that entries must be inserted at the very beginning, i.e.before the first entry defined.
entry-indicator uint32 Uniquely identifies an entry in a policy or filter table. The value 0 is not a valid entry-id. When used as insertion point the value 0 indicates that entries must be inserted at the very beginning, i.e.before the first entry defined.
epipe-sap-ethernet-llf-oper-status-type enumeration
epipe-sap-ethernet-llf-oper-status-type enumeration
epipe-sap-ethernet-llf-oper-status-type enumeration
epipe-sap-ethernet-llf-oper-status-type enumeration
epipe-sap-ethernet-llf-oper-status-type enumeration
epipe-sap-ethernet-llf-oper-status-type enumeration
epipe-sap-ethernet-llf-oper-status-type enumeration
epipe-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
epipe-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
epipe-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
epipe-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
epipe-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
epipe-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
epipe-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
epipe-srv6-instance int32 SRv6 instance range
epipe-srv6-instance int32 SRv6 instance range
epipe-srv6-instance int32 SRv6 instance range
epipe-srv6-instance int32 SRv6 instance range
epipe-srv6-instance int32 SRv6 instance range
epipe-srv6-instance int32 SRv6 instance range
epipe-srv6-instance int32 SRv6 instance range
ep-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
ep-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
ep-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
ep-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
ep-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
ep-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
ep-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
eth-cfm-monitoring-bits bits The eth-cfm-monitoring-bits specifies ETH CFM monitoring information.
eth-cfm-monitoring-bits bits The eth-cfm-monitoring-bits specifies ETH CFM monitoring information.
eth-cfm-monitoring-bits bits The eth-cfm-monitoring-bits specifies ETH CFM monitoring information.
eth-cfm-monitoring-bits bits The eth-cfm-monitoring-bits specifies ETH CFM monitoring information.
eth-cfm-monitoring-bits bits The eth-cfm-monitoring-bits specifies ETH CFM monitoring information.
eth-cfm-monitoring-bits bits The eth-cfm-monitoring-bits specifies ETH CFM monitoring information.
eth-cfm-monitoring-bits bits The eth-cfm-monitoring-bits specifies ETH CFM monitoring information.
ethernet-segment-id string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id-mac-based string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id-mac-based string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id-mac-based string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id-mac-based string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id-mac-based string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id-mac-based string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-id-mac-based string Ethernet Segment Identifier (ESI) as defined in IETF draft BGP MPLS Based Ethernet VPN. ESI is a unique non-zero identifier that identifies an Ethernet Segment. ESI is encoded as a ten octets integer in line format with the most significant octet sent first. The following two ESI values are reserved: - ESI 0 denotes a single-homed CE. - ESI {0xFF} (repeated 10 times) is known as MAX-ESI. In a network with managed and not-managed CEs, the ESI has the following format: +---+---+---+---+---+---+---+---+---+---+ | T | ESI Value | +---+---+---+---+---+---+---+---+---+---+ Where: T (ESI Type) is a 1-octet field (most significant octet) that specifies the format of the remaining nine octets (ESI Value). ESI type can be one of the values 0x00-0x05.
ethernet-segment-vlan-range-encap union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap-with-null union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap-with-null union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap-with-null union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap-with-null union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap-with-null union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap-with-null union specifies the dot1q range value for virtual ethernet segments.
ethernet-segment-vlan-range-encap-with-null union specifies the dot1q range value for virtual ethernet segments.
etype-value string The etype-value indicates e-type value as 0xXXYY.
etype-value string The etype-value indicates e-type value as 0xXXYY.
etype-value string The etype-value indicates e-type value as 0xXXYY.
etype-value string The etype-value indicates e-type value as 0xXXYY.
etype-value string The etype-value indicates e-type value as 0xXXYY.
etype-value string The etype-value indicates e-type value as 0xXXYY.
etype-value string The etype-value indicates e-type value as 0xXXYY.
evi uint32 Range of EVPN identifiers.
evi uint32 Range of EVPN identifiers.
evi uint32 Range of EVPN identifiers.
evi uint32 Range of EVPN identifiers.
evi uint32 Range of EVPN identifiers.
evi uint32 Range of EVPN identifiers.
evi uint32 Range of EVPN identifiers.
evpn-mh-es-status enumeration The evpn-mh-es-status is an enumerated integer that describes the status of an ethernet segment associated with the given SAP or SDP binding.
evpn-mh-es-status enumeration The evpn-mh-es-status is an enumerated integer that describes the status of an ethernet segment associated with the given SAP or SDP binding.
evpn-mh-es-status enumeration The evpn-mh-es-status is an enumerated integer that describes the status of an ethernet segment associated with the given SAP or SDP binding.
evpn-mh-es-status enumeration The evpn-mh-es-status is an enumerated integer that describes the status of an ethernet segment associated with the given SAP or SDP binding.
evpn-mh-es-status enumeration The evpn-mh-es-status is an enumerated integer that describes the status of an ethernet segment associated with the given SAP or SDP binding.
evpn-mh-es-status enumeration The evpn-mh-es-status is an enumerated integer that describes the status of an ethernet segment associated with the given SAP or SDP binding.
evpn-mh-es-status enumeration The evpn-mh-es-status is an enumerated integer that describes the status of an ethernet segment associated with the given SAP or SDP binding.
external-service-id uint32 A number used to identify an external (i.e. user configurable) service. This ID must be unique within the Service Domain. Service-ids larger then 2147483647 are used to represent system created, hence internal, services (ref service-id-maf)
external-service-id uint32 A number used to identify an external (i.e. user configurable) service. This ID must be unique within the Service Domain. Service-ids larger then 2147483647 are used to represent system created, hence internal, services (ref service-id-maf)
external-service-id uint32 A number used to identify an external (i.e. user configurable) service. This ID must be unique within the Service Domain. Service-ids larger then 2147483647 are used to represent system created, hence internal, services (ref service-id-maf)
external-service-id uint32 A number used to identify an external (i.e. user configurable) service. This ID must be unique within the Service Domain. Service-ids larger then 2147483647 are used to represent system created, hence internal, services (ref service-id-maf)
external-service-id uint32 A number used to identify an external (i.e. user configurable) service. This ID must be unique within the Service Domain. Service-ids larger then 2147483647 are used to represent system created, hence internal, services (ref service-id-maf)
external-service-id uint32 A number used to identify an external (i.e. user configurable) service. This ID must be unique within the Service Domain. Service-ids larger then 2147483647 are used to represent system created, hence internal, services (ref service-id-maf)
external-service-id uint32 A number used to identify an external (i.e. user configurable) service. This ID must be unique within the Service Domain. Service-ids larger then 2147483647 are used to represent system created, hence internal, services (ref service-id-maf)
failed-threshold union Failed threshold range.
failed-threshold union Failed threshold range.
failed-threshold union Failed threshold range.
failed-threshold union Failed threshold range.
failed-threshold union Failed threshold range.
failed-threshold union Failed threshold range.
failed-threshold union Failed threshold range.
fdb-locale enumeration The fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for Shortest Path Bridging (SPB).
fdb-locale enumeration The fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for Shortest Path Bridging (SPB).
fdb-locale enumeration The fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for Shortest Path Bridging (SPB).
fdb-locale enumeration The fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for Shortest Path Bridging (SPB).
fdb-locale enumeration The fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for Shortest Path Bridging (SPB).
fdb-locale enumeration The fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for Shortest Path Bridging (SPB).
fdb-locale enumeration The fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for Shortest Path Bridging (SPB).
fdb-mac-type enumeration The fdb-mac-type data type is an enumerated integer that describes the values used to indicate method by which the MAC entry was added to the FDB.
fdb-mac-type enumeration The fdb-mac-type data type is an enumerated integer that describes the values used to indicate method by which the MAC entry was added to the FDB.
fdb-mac-type enumeration The fdb-mac-type data type is an enumerated integer that describes the values used to indicate method by which the MAC entry was added to the FDB.
fdb-mac-type enumeration The fdb-mac-type data type is an enumerated integer that describes the values used to indicate method by which the MAC entry was added to the FDB.
fdb-mac-type enumeration The fdb-mac-type data type is an enumerated integer that describes the values used to indicate method by which the MAC entry was added to the FDB.
fdb-mac-type enumeration The fdb-mac-type data type is an enumerated integer that describes the values used to indicate method by which the MAC entry was added to the FDB.
fdb-mac-type enumeration The fdb-mac-type data type is an enumerated integer that describes the values used to indicate method by which the MAC entry was added to the FDB.
fdb-state enumeration The fdb-state data type is an enumerated integer that describes the values used to indicate state of the forwarding database FDB entry for Shortest Path Bridging (SPB).
fdb-state enumeration The fdb-state data type is an enumerated integer that describes the values used to indicate state of the forwarding database FDB entry for Shortest Path Bridging (SPB).
fdb-state enumeration The fdb-state data type is an enumerated integer that describes the values used to indicate state of the forwarding database FDB entry for Shortest Path Bridging (SPB).
fdb-state enumeration The fdb-state data type is an enumerated integer that describes the values used to indicate state of the forwarding database FDB entry for Shortest Path Bridging (SPB).
fdb-state enumeration The fdb-state data type is an enumerated integer that describes the values used to indicate state of the forwarding database FDB entry for Shortest Path Bridging (SPB).
fdb-state enumeration The fdb-state data type is an enumerated integer that describes the values used to indicate state of the forwarding database FDB entry for Shortest Path Bridging (SPB).
fdb-state enumeration The fdb-state data type is an enumerated integer that describes the values used to indicate state of the forwarding database FDB entry for Shortest Path Bridging (SPB).
fpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
fpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
fpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
fpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
fpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
fpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
fpipe-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
group-interface-type enumeration Type of group-interface.
group-interface-type enumeration Type of group-interface.
group-interface-type enumeration Type of group-interface.
group-interface-type enumeration Type of group-interface.
group-interface-type enumeration Type of group-interface.
group-interface-type enumeration Type of group-interface.
group-interface-type enumeration Type of group-interface.
hold-time-active uint32 Specify amount of time to hold the active state before going into the standby state when a local MC-LAG SAP goes down.
hold-time-active uint32 Specify amount of time to hold the active state before going into the standby state when a local MC-LAG SAP goes down.
hold-time-active uint32 Specify amount of time to hold the active state before going into the standby state when a local MC-LAG SAP goes down.
hold-time-active uint32 Specify amount of time to hold the active state before going into the standby state when a local MC-LAG SAP goes down.
hold-time-active uint32 Specify amount of time to hold the active state before going into the standby state when a local MC-LAG SAP goes down.
hold-time-active uint32 Specify amount of time to hold the active state before going into the standby state when a local MC-LAG SAP goes down.
hold-time-active uint32 Specify amount of time to hold the active state before going into the standby state when a local MC-LAG SAP goes down.
ies-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
ies-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
ies-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
ies-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
ies-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
ies-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
ies-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
ingress-vc-label uint32 Specify static MPLS VC label used by the far-end device.
ingress-vc-label uint32 Specify static MPLS VC label used by the far-end device.
ingress-vc-label uint32 Specify static MPLS VC label used by the far-end device.
ingress-vc-label uint32 Specify static MPLS VC label used by the far-end device.
ingress-vc-label uint32 Specify static MPLS VC label used by the far-end device.
ingress-vc-label uint32 Specify static MPLS VC label used by the far-end device.
ingress-vc-label uint32 Specify static MPLS VC label used by the far-end device.
interface-index int32 A unique value, greater than zero, for each interface or interface sub-layer in the managed system. It is recommended that values are assigned contiguously starting from 1. The value for each interface sub- layer must remain constant at least from one re- initialization of the entity's network management system to the next re-initialization.
interface-index int32 A unique value, greater than zero, for each interface or interface sub-layer in the managed system. It is recommended that values are assigned contiguously starting from 1. The value for each interface sub- layer must remain constant at least from one re- initialization of the entity's network management system to the next re-initialization.
interface-index int32 A unique value, greater than zero, for each interface or interface sub-layer in the managed system. It is recommended that values are assigned contiguously starting from 1. The value for each interface sub- layer must remain constant at least from one re- initialization of the entity's network management system to the next re-initialization.
interface-index int32 A unique value, greater than zero, for each interface or interface sub-layer in the managed system. It is recommended that values are assigned contiguously starting from 1. The value for each interface sub- layer must remain constant at least from one re- initialization of the entity's network management system to the next re-initialization.
interface-index int32 A unique value, greater than zero, for each interface or interface sub-layer in the managed system. It is recommended that values are assigned contiguously starting from 1. The value for each interface sub- layer must remain constant at least from one re- initialization of the entity's network management system to the next re-initialization.
interface-index int32 A unique value, greater than zero, for each interface or interface sub-layer in the managed system. It is recommended that values are assigned contiguously starting from 1. The value for each interface sub- layer must remain constant at least from one re- initialization of the entity's network management system to the next re-initialization.
interface-index int32 A unique value, greater than zero, for each interface or interface sub-layer in the managed system. It is recommended that values are assigned contiguously starting from 1. The value for each interface sub- layer must remain constant at least from one re- initialization of the entity's network management system to the next re-initialization.
interface-index-or-zero int32 This textual convention is an extension of the interface-index convention. The latter defines a greater than zero value used to identify an interface or interface sub-layer in the managed system. This extension permits the additional value of zero. the value zero is object-specific and must therefore be defined as part of the description of any object which uses this syntax. Examples of the usage of zero might include situations where interface was unknown, or when none or all interfaces need to be referenced.
interface-index-or-zero int32 This textual convention is an extension of the interface-index convention. The latter defines a greater than zero value used to identify an interface or interface sub-layer in the managed system. This extension permits the additional value of zero. the value zero is object-specific and must therefore be defined as part of the description of any object which uses this syntax. Examples of the usage of zero might include situations where interface was unknown, or when none or all interfaces need to be referenced.
interface-index-or-zero int32 This textual convention is an extension of the interface-index convention. The latter defines a greater than zero value used to identify an interface or interface sub-layer in the managed system. This extension permits the additional value of zero. the value zero is object-specific and must therefore be defined as part of the description of any object which uses this syntax. Examples of the usage of zero might include situations where interface was unknown, or when none or all interfaces need to be referenced.
interface-index-or-zero int32 This textual convention is an extension of the interface-index convention. The latter defines a greater than zero value used to identify an interface or interface sub-layer in the managed system. This extension permits the additional value of zero. the value zero is object-specific and must therefore be defined as part of the description of any object which uses this syntax. Examples of the usage of zero might include situations where interface was unknown, or when none or all interfaces need to be referenced.
interface-index-or-zero int32 This textual convention is an extension of the interface-index convention. The latter defines a greater than zero value used to identify an interface or interface sub-layer in the managed system. This extension permits the additional value of zero. the value zero is object-specific and must therefore be defined as part of the description of any object which uses this syntax. Examples of the usage of zero might include situations where interface was unknown, or when none or all interfaces need to be referenced.
interface-index-or-zero int32 This textual convention is an extension of the interface-index convention. The latter defines a greater than zero value used to identify an interface or interface sub-layer in the managed system. This extension permits the additional value of zero. the value zero is object-specific and must therefore be defined as part of the description of any object which uses this syntax. Examples of the usage of zero might include situations where interface was unknown, or when none or all interfaces need to be referenced.
interface-index-or-zero int32 This textual convention is an extension of the interface-index convention. The latter defines a greater than zero value used to identify an interface or interface sub-layer in the managed system. This extension permits the additional value of zero. the value zero is object-specific and must therefore be defined as part of the description of any object which uses this syntax. Examples of the usage of zero might include situations where interface was unknown, or when none or all interfaces need to be referenced.
ip-tunnel-oper-state enumeration Oper-state specifies the IP Tunnel operational states.
ip-tunnel-oper-state enumeration Oper-state specifies the IP Tunnel operational states.
ip-tunnel-oper-state enumeration Oper-state specifies the IP Tunnel operational states.
ip-tunnel-oper-state enumeration Oper-state specifies the IP Tunnel operational states.
ip-tunnel-oper-state enumeration Oper-state specifies the IP Tunnel operational states.
ip-tunnel-oper-state enumeration Oper-state specifies the IP Tunnel operational states.
ip-tunnel-oper-state enumeration Oper-state specifies the IP Tunnel operational states.
ipv6-prefix-lifetime union The time in seconds defined for IPv6 prefix.
ipv6-prefix-lifetime union The time in seconds defined for IPv6 prefix.
ipv6-prefix-lifetime union The time in seconds defined for IPv6 prefix.
ipv6-prefix-lifetime union The time in seconds defined for IPv6 prefix.
ipv6-prefix-lifetime union The time in seconds defined for IPv6 prefix.
ipv6-prefix-lifetime union The time in seconds defined for IPv6 prefix.
ipv6-prefix-lifetime union The time in seconds defined for IPv6 prefix.
isid int32 Specifies a 24 bit (0..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid int32 Specifies a 24 bit (0..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid int32 Specifies a 24 bit (0..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid int32 Specifies a 24 bit (0..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid int32 Specifies a 24 bit (0..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid int32 Specifies a 24 bit (0..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid int32 Specifies a 24 bit (0..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid-no-zero int32 Specifies a 24 bit (1..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid-no-zero int32 Specifies a 24 bit (1..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid-no-zero int32 Specifies a 24 bit (1..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid-no-zero int32 Specifies a 24 bit (1..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid-no-zero int32 Specifies a 24 bit (1..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid-no-zero int32 Specifies a 24 bit (1..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
isid-no-zero int32 Specifies a 24 bit (1..16777215) service instance identifier for the service. As part of the Provider Backbone Bridging frames, it is used at the destination PE as a demultiplexor field.
item-scope enumeration This textual convention determines some aspects of an item's behavior regarding creation and use, unused entry garbage collection, and automated promulgation by Element Management System to other systems in the service domain. Item scope applies to SAP-ingress, SAP-egress, and Network policies, and to IP filters and MAC filters. exclusive: When the scope of an item is defined as exclusive, the item can only be applied once, for example to a single SAP. Attempting to assign the policy to a second SAP is not allowed and will result in an error. If the item is removed from the exclusive SAP, it will become available for assignment to another exclusive SAP. A non-applied exclusive scope policy is a candidate to be removed from the system by a TBD garbage collection command. The system default policies cannot be put into the exclusive scope. An error will be generated if scope exclusive is executed in any policies with a policy-id equal to 1. template: When the scope of an item is defined as template, the item can be applied any number of times. Policies with template scope will not be considered for deletion by a TBD garbage collection command; all items of scope 'template' must be deleted explicitly. The system default policies will always be scope template. An error will occur if a policy-id 1 is attempted to be set to scope exclusive.
item-scope enumeration This textual convention determines some aspects of an item's behavior regarding creation and use, unused entry garbage collection, and automated promulgation by Element Management System to other systems in the service domain. Item scope applies to SAP-ingress, SAP-egress, and Network policies, and to IP filters and MAC filters. exclusive: When the scope of an item is defined as exclusive, the item can only be applied once, for example to a single SAP. Attempting to assign the policy to a second SAP is not allowed and will result in an error. If the item is removed from the exclusive SAP, it will become available for assignment to another exclusive SAP. A non-applied exclusive scope policy is a candidate to be removed from the system by a TBD garbage collection command. The system default policies cannot be put into the exclusive scope. An error will be generated if scope exclusive is executed in any policies with a policy-id equal to 1. template: When the scope of an item is defined as template, the item can be applied any number of times. Policies with template scope will not be considered for deletion by a TBD garbage collection command; all items of scope 'template' must be deleted explicitly. The system default policies will always be scope template. An error will occur if a policy-id 1 is attempted to be set to scope exclusive.
item-scope enumeration This textual convention determines some aspects of an item's behavior regarding creation and use, unused entry garbage collection, and automated promulgation by Element Management System to other systems in the service domain. Item scope applies to SAP-ingress, SAP-egress, and Network policies, and to IP filters and MAC filters. exclusive: When the scope of an item is defined as exclusive, the item can only be applied once, for example to a single SAP. Attempting to assign the policy to a second SAP is not allowed and will result in an error. If the item is removed from the exclusive SAP, it will become available for assignment to another exclusive SAP. A non-applied exclusive scope policy is a candidate to be removed from the system by a TBD garbage collection command. The system default policies cannot be put into the exclusive scope. An error will be generated if scope exclusive is executed in any policies with a policy-id equal to 1. template: When the scope of an item is defined as template, the item can be applied any number of times. Policies with template scope will not be considered for deletion by a TBD garbage collection command; all items of scope 'template' must be deleted explicitly. The system default policies will always be scope template. An error will occur if a policy-id 1 is attempted to be set to scope exclusive.
item-scope enumeration This textual convention determines some aspects of an item's behavior regarding creation and use, unused entry garbage collection, and automated promulgation by Element Management System to other systems in the service domain. Item scope applies to SAP-ingress, SAP-egress, and Network policies, and to IP filters and MAC filters. exclusive: When the scope of an item is defined as exclusive, the item can only be applied once, for example to a single SAP. Attempting to assign the policy to a second SAP is not allowed and will result in an error. If the item is removed from the exclusive SAP, it will become available for assignment to another exclusive SAP. A non-applied exclusive scope policy is a candidate to be removed from the system by a TBD garbage collection command. The system default policies cannot be put into the exclusive scope. An error will be generated if scope exclusive is executed in any policies with a policy-id equal to 1. template: When the scope of an item is defined as template, the item can be applied any number of times. Policies with template scope will not be considered for deletion by a TBD garbage collection command; all items of scope 'template' must be deleted explicitly. The system default policies will always be scope template. An error will occur if a policy-id 1 is attempted to be set to scope exclusive.
item-scope enumeration This textual convention determines some aspects of an item's behavior regarding creation and use, unused entry garbage collection, and automated promulgation by Element Management System to other systems in the service domain. Item scope applies to SAP-ingress, SAP-egress, and Network policies, and to IP filters and MAC filters. exclusive: When the scope of an item is defined as exclusive, the item can only be applied once, for example to a single SAP. Attempting to assign the policy to a second SAP is not allowed and will result in an error. If the item is removed from the exclusive SAP, it will become available for assignment to another exclusive SAP. A non-applied exclusive scope policy is a candidate to be removed from the system by a TBD garbage collection command. The system default policies cannot be put into the exclusive scope. An error will be generated if scope exclusive is executed in any policies with a policy-id equal to 1. template: When the scope of an item is defined as template, the item can be applied any number of times. Policies with template scope will not be considered for deletion by a TBD garbage collection command; all items of scope 'template' must be deleted explicitly. The system default policies will always be scope template. An error will occur if a policy-id 1 is attempted to be set to scope exclusive.
item-scope enumeration This textual convention determines some aspects of an item's behavior regarding creation and use, unused entry garbage collection, and automated promulgation by Element Management System to other systems in the service domain. Item scope applies to SAP-ingress, SAP-egress, and Network policies, and to IP filters and MAC filters. exclusive: When the scope of an item is defined as exclusive, the item can only be applied once, for example to a single SAP. Attempting to assign the policy to a second SAP is not allowed and will result in an error. If the item is removed from the exclusive SAP, it will become available for assignment to another exclusive SAP. A non-applied exclusive scope policy is a candidate to be removed from the system by a TBD garbage collection command. The system default policies cannot be put into the exclusive scope. An error will be generated if scope exclusive is executed in any policies with a policy-id equal to 1. template: When the scope of an item is defined as template, the item can be applied any number of times. Policies with template scope will not be considered for deletion by a TBD garbage collection command; all items of scope 'template' must be deleted explicitly. The system default policies will always be scope template. An error will occur if a policy-id 1 is attempted to be set to scope exclusive.
item-scope enumeration This textual convention determines some aspects of an item's behavior regarding creation and use, unused entry garbage collection, and automated promulgation by Element Management System to other systems in the service domain. Item scope applies to SAP-ingress, SAP-egress, and Network policies, and to IP filters and MAC filters. exclusive: When the scope of an item is defined as exclusive, the item can only be applied once, for example to a single SAP. Attempting to assign the policy to a second SAP is not allowed and will result in an error. If the item is removed from the exclusive SAP, it will become available for assignment to another exclusive SAP. A non-applied exclusive scope policy is a candidate to be removed from the system by a TBD garbage collection command. The system default policies cannot be put into the exclusive scope. An error will be generated if scope exclusive is executed in any policies with a policy-id equal to 1. template: When the scope of an item is defined as template, the item can be applied any number of times. Policies with template scope will not be considered for deletion by a TBD garbage collection command; all items of scope 'template' must be deleted explicitly. The system default policies will always be scope template. An error will occur if a policy-id 1 is attempted to be set to scope exclusive.
keygroup-id uint32 A number used to identify an entry in the aluNgeKeygroupTable.
keygroup-id uint32 A number used to identify an entry in the aluNgeKeygroupTable.
keygroup-id uint32 A number used to identify an entry in the aluNgeKeygroupTable.
keygroup-id uint32 A number used to identify an entry in the aluNgeKeygroupTable.
keygroup-id uint32 A number used to identify an entry in the aluNgeKeygroupTable.
keygroup-id uint32 A number used to identify an entry in the aluNgeKeygroupTable.
keygroup-id uint32 A number used to identify an entry in the aluNgeKeygroupTable.
l2pt-protocols bits Indicates which L2 protocols should have their tunnels terminated when 'L2ptTermination' is enabled. stp - spanning tree protocols stp/mstp/pvst/rstp cdp - cisco discovery protocol vtp - virtual trunk protocol dtp - dynamic trunking protocol pagp - port aggregation protocol udld - unidirectional link detection
l2pt-protocols bits Indicates which L2 protocols should have their tunnels terminated when 'L2ptTermination' is enabled. stp - spanning tree protocols stp/mstp/pvst/rstp cdp - cisco discovery protocol vtp - virtual trunk protocol dtp - dynamic trunking protocol pagp - port aggregation protocol udld - unidirectional link detection
l2pt-protocols bits Indicates which L2 protocols should have their tunnels terminated when 'L2ptTermination' is enabled. stp - spanning tree protocols stp/mstp/pvst/rstp cdp - cisco discovery protocol vtp - virtual trunk protocol dtp - dynamic trunking protocol pagp - port aggregation protocol udld - unidirectional link detection
l2pt-protocols bits Indicates which L2 protocols should have their tunnels terminated when 'L2ptTermination' is enabled. stp - spanning tree protocols stp/mstp/pvst/rstp cdp - cisco discovery protocol vtp - virtual trunk protocol dtp - dynamic trunking protocol pagp - port aggregation protocol udld - unidirectional link detection
l2pt-protocols bits Indicates which L2 protocols should have their tunnels terminated when 'L2ptTermination' is enabled. stp - spanning tree protocols stp/mstp/pvst/rstp cdp - cisco discovery protocol vtp - virtual trunk protocol dtp - dynamic trunking protocol pagp - port aggregation protocol udld - unidirectional link detection
l2pt-protocols bits Indicates which L2 protocols should have their tunnels terminated when 'L2ptTermination' is enabled. stp - spanning tree protocols stp/mstp/pvst/rstp cdp - cisco discovery protocol vtp - virtual trunk protocol dtp - dynamic trunking protocol pagp - port aggregation protocol udld - unidirectional link detection
l2pt-protocols bits Indicates which L2 protocols should have their tunnels terminated when 'L2ptTermination' is enabled. stp - spanning tree protocols stp/mstp/pvst/rstp cdp - cisco discovery protocol vtp - virtual trunk protocol dtp - dynamic trunking protocol pagp - port aggregation protocol udld - unidirectional link detection
l2-sap-oper-flags bits Layer-2 sap operational flags.
l2-sap-oper-flags bits Layer-2 sap operational flags.
l2-sap-oper-flags bits Layer-2 sap operational flags.
l2-sap-oper-flags bits Layer-2 sap operational flags.
l2-sap-oper-flags bits Layer-2 sap operational flags.
l2-sap-oper-flags bits Layer-2 sap operational flags.
l2-sap-oper-flags bits Layer-2 sap operational flags.
l3-bsx-aarp-service-ref-type enumeration The l3-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to network supported services.
l3-bsx-aarp-service-ref-type enumeration The l3-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to network supported services.
l3-bsx-aarp-service-ref-type enumeration The l3-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to network supported services.
l3-bsx-aarp-service-ref-type enumeration The l3-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to network supported services.
l3-bsx-aarp-service-ref-type enumeration The l3-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to network supported services.
l3-bsx-aarp-service-ref-type enumeration The l3-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to network supported services.
l3-bsx-aarp-service-ref-type enumeration The l3-bsx-aarp-serice-ref-type is a subset of bsx-aarp-service-ref-type applicable to network supported services.
l3-sap-oper-flags bits Layer-3 sap operational flags.
l3-sap-oper-flags bits Layer-3 sap operational flags.
l3-sap-oper-flags bits Layer-3 sap operational flags.
l3-sap-oper-flags bits Layer-3 sap operational flags.
l3-sap-oper-flags bits Layer-3 sap operational flags.
l3-sap-oper-flags bits Layer-3 sap operational flags.
l3-sap-oper-flags bits Layer-3 sap operational flags.
ldp-fec-type enumeration Determines the kind of FEC that the label mapping, withdraw, release and request messages are referring to.
ldp-fec-type enumeration Determines the kind of FEC that the label mapping, withdraw, release and request messages are referring to.
ldp-fec-type enumeration Determines the kind of FEC that the label mapping, withdraw, release and request messages are referring to.
ldp-fec-type enumeration Determines the kind of FEC that the label mapping, withdraw, release and request messages are referring to.
ldp-fec-type enumeration Determines the kind of FEC that the label mapping, withdraw, release and request messages are referring to.
ldp-fec-type enumeration Determines the kind of FEC that the label mapping, withdraw, release and request messages are referring to.
ldp-fec-type enumeration Determines the kind of FEC that the label mapping, withdraw, release and request messages are referring to.
li-interception-identifier uint32 A 30-bit value that identifies a traffic flow being intercepted
li-interception-identifier uint32 A 30-bit value that identifies a traffic flow being intercepted
li-interception-identifier uint32 A 30-bit value that identifies a traffic flow being intercepted
li-interception-identifier uint32 A 30-bit value that identifies a traffic flow being intercepted
li-interception-identifier uint32 A 30-bit value that identifies a traffic flow being intercepted
li-interception-identifier uint32 A 30-bit value that identifies a traffic flow being intercepted
li-interception-identifier uint32 A 30-bit value that identifies a traffic flow being intercepted
li-interception-identifier-wide uint32 A 32-bit value that identifies a traffic flow being intercepted
li-interception-identifier-wide uint32 A 32-bit value that identifies a traffic flow being intercepted
li-interception-identifier-wide uint32 A 32-bit value that identifies a traffic flow being intercepted
li-interception-identifier-wide uint32 A 32-bit value that identifies a traffic flow being intercepted
li-interception-identifier-wide uint32 A 32-bit value that identifies a traffic flow being intercepted
li-interception-identifier-wide uint32 A 32-bit value that identifies a traffic flow being intercepted
li-interception-identifier-wide uint32 A 32-bit value that identifies a traffic flow being intercepted
limit-mac-move enumeration
limit-mac-move enumeration
limit-mac-move enumeration
limit-mac-move enumeration
limit-mac-move enumeration
limit-mac-move enumeration
limit-mac-move enumeration
link-map-profile-id int32 The data type TmnxLinkMapProfileId describes the link map profile identifier.
link-map-profile-id int32 The data type TmnxLinkMapProfileId describes the link map profile identifier.
link-map-profile-id int32 The data type TmnxLinkMapProfileId describes the link map profile identifier.
link-map-profile-id int32 The data type TmnxLinkMapProfileId describes the link map profile identifier.
link-map-profile-id int32 The data type TmnxLinkMapProfileId describes the link map profile identifier.
link-map-profile-id int32 The data type TmnxLinkMapProfileId describes the link map profile identifier.
link-map-profile-id int32 The data type TmnxLinkMapProfileId describes the link map profile identifier.
li-session-identifier uint32 A 32-bit value that identifies a traffic flow session
li-session-identifier uint32 A 32-bit value that identifies a traffic flow session
li-session-identifier uint32 A 32-bit value that identifies a traffic flow session
li-session-identifier uint32 A 32-bit value that identifies a traffic flow session
li-session-identifier uint32 A 32-bit value that identifies a traffic flow session
li-session-identifier uint32 A 32-bit value that identifies a traffic flow session
li-session-identifier uint32 A 32-bit value that identifies a traffic flow session
max-mac-addr int32 The max-mac-addr defines maximum number of learned and static entries allowed.
max-mac-addr int32 The max-mac-addr defines maximum number of learned and static entries allowed.
max-mac-addr int32 The max-mac-addr defines maximum number of learned and static entries allowed.
max-mac-addr int32 The max-mac-addr defines maximum number of learned and static entries allowed.
max-mac-addr int32 The max-mac-addr defines maximum number of learned and static entries allowed.
max-mac-addr int32 The max-mac-addr defines maximum number of learned and static entries allowed.
max-mac-addr int32 The max-mac-addr defines maximum number of learned and static entries allowed.
mci-boolean enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-boolean enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-boolean enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-boolean enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-boolean enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-boolean enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-boolean enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
mci-sdp-bind-vc-type enumeration This textual convention is used when default value is unknown and set by the CPM.
mirror-source-port-lag-key string Port identifier.
mirror-source-port-lag-key string Port identifier.
mirror-source-port-lag-key string Port identifier.
mirror-source-port-lag-key string Port identifier.
mirror-source-port-lag-key string Port identifier.
mirror-source-port-lag-key string Port identifier.
mirror-source-port-lag-key string Port identifier.
mirror-type enumeration The mirror-type data type is an enumerated integer that describes the port encapsulation supported by a mirror service.
mirror-type enumeration The mirror-type data type is an enumerated integer that describes the port encapsulation supported by a mirror service.
mirror-type enumeration The mirror-type data type is an enumerated integer that describes the port encapsulation supported by a mirror service.
mirror-type enumeration The mirror-type data type is an enumerated integer that describes the port encapsulation supported by a mirror service.
mirror-type enumeration The mirror-type data type is an enumerated integer that describes the port encapsulation supported by a mirror service.
mirror-type enumeration The mirror-type data type is an enumerated integer that describes the port encapsulation supported by a mirror service.
mirror-type enumeration The mirror-type data type is an enumerated integer that describes the port encapsulation supported by a mirror service.
mrp-policy-action enumeration action to take on the traffic when the mrp-policy filter entry matches. when set to block(1) the matching MMRP attributes will not be advertised on this SAP/SDP. when set to allow(2) the matching MMRP attributes will be advertised on this SAP/SDP. when set to end-station(3) an end-station emulation is present on this SAP/SDP for the MMRP attributes related with matching ISIDs. When deleted the mrp-policy entry will be considered incomplete and hence rendered inactive.
mrp-policy-action enumeration action to take on the traffic when the mrp-policy filter entry matches. when set to block(1) the matching MMRP attributes will not be advertised on this SAP/SDP. when set to allow(2) the matching MMRP attributes will be advertised on this SAP/SDP. when set to end-station(3) an end-station emulation is present on this SAP/SDP for the MMRP attributes related with matching ISIDs. When deleted the mrp-policy entry will be considered incomplete and hence rendered inactive.
mrp-policy-action enumeration action to take on the traffic when the mrp-policy filter entry matches. when set to block(1) the matching MMRP attributes will not be advertised on this SAP/SDP. when set to allow(2) the matching MMRP attributes will be advertised on this SAP/SDP. when set to end-station(3) an end-station emulation is present on this SAP/SDP for the MMRP attributes related with matching ISIDs. When deleted the mrp-policy entry will be considered incomplete and hence rendered inactive.
mrp-policy-action enumeration action to take on the traffic when the mrp-policy filter entry matches. when set to block(1) the matching MMRP attributes will not be advertised on this SAP/SDP. when set to allow(2) the matching MMRP attributes will be advertised on this SAP/SDP. when set to end-station(3) an end-station emulation is present on this SAP/SDP for the MMRP attributes related with matching ISIDs. When deleted the mrp-policy entry will be considered incomplete and hence rendered inactive.
mrp-policy-action enumeration action to take on the traffic when the mrp-policy filter entry matches. when set to block(1) the matching MMRP attributes will not be advertised on this SAP/SDP. when set to allow(2) the matching MMRP attributes will be advertised on this SAP/SDP. when set to end-station(3) an end-station emulation is present on this SAP/SDP for the MMRP attributes related with matching ISIDs. When deleted the mrp-policy entry will be considered incomplete and hence rendered inactive.
mrp-policy-action enumeration action to take on the traffic when the mrp-policy filter entry matches. when set to block(1) the matching MMRP attributes will not be advertised on this SAP/SDP. when set to allow(2) the matching MMRP attributes will be advertised on this SAP/SDP. when set to end-station(3) an end-station emulation is present on this SAP/SDP for the MMRP attributes related with matching ISIDs. When deleted the mrp-policy entry will be considered incomplete and hence rendered inactive.
mrp-policy-action enumeration action to take on the traffic when the mrp-policy filter entry matches. when set to block(1) the matching MMRP attributes will not be advertised on this SAP/SDP. when set to allow(2) the matching MMRP attributes will be advertised on this SAP/SDP. when set to end-station(3) an end-station emulation is present on this SAP/SDP for the MMRP attributes related with matching ISIDs. When deleted the mrp-policy entry will be considered incomplete and hence rendered inactive.
mrp-policy-default-action enumeration action to take on the traffic when no mrp-policy filter entry matches. when set to block(1), no MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be advertised on this SAP/SDP. when set to allow(2), all MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be blocked on this SAP/SDP.
mrp-policy-default-action enumeration action to take on the traffic when no mrp-policy filter entry matches. when set to block(1), no MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be advertised on this SAP/SDP. when set to allow(2), all MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be blocked on this SAP/SDP.
mrp-policy-default-action enumeration action to take on the traffic when no mrp-policy filter entry matches. when set to block(1), no MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be advertised on this SAP/SDP. when set to allow(2), all MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be blocked on this SAP/SDP.
mrp-policy-default-action enumeration action to take on the traffic when no mrp-policy filter entry matches. when set to block(1), no MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be advertised on this SAP/SDP. when set to allow(2), all MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be blocked on this SAP/SDP.
mrp-policy-default-action enumeration action to take on the traffic when no mrp-policy filter entry matches. when set to block(1), no MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be advertised on this SAP/SDP. when set to allow(2), all MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be blocked on this SAP/SDP.
mrp-policy-default-action enumeration action to take on the traffic when no mrp-policy filter entry matches. when set to block(1), no MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be advertised on this SAP/SDP. when set to allow(2), all MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be blocked on this SAP/SDP.
mrp-policy-default-action enumeration action to take on the traffic when no mrp-policy filter entry matches. when set to block(1), no MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be advertised on this SAP/SDP. when set to allow(2), all MMRP attributes will be advertised unless there is a specific mrp-policy entry which causes them to be blocked on this SAP/SDP.
ms-pw-pe-signaling enumeration A number used to identify a multi-segment pseudo-wire provider-edge signaling type.
ms-pw-pe-signaling enumeration A number used to identify a multi-segment pseudo-wire provider-edge signaling type.
ms-pw-pe-signaling enumeration A number used to identify a multi-segment pseudo-wire provider-edge signaling type.
ms-pw-pe-signaling enumeration A number used to identify a multi-segment pseudo-wire provider-edge signaling type.
ms-pw-pe-signaling enumeration A number used to identify a multi-segment pseudo-wire provider-edge signaling type.
ms-pw-pe-signaling enumeration A number used to identify a multi-segment pseudo-wire provider-edge signaling type.
ms-pw-pe-signaling enumeration A number used to identify a multi-segment pseudo-wire provider-edge signaling type.
msti-instance-or-zero uint32 This data-type indicates all possible multiple spanning tree instances, including the CIST (for which case the value '0' is reserved).
msti-instance-or-zero uint32 This data-type indicates all possible multiple spanning tree instances, including the CIST (for which case the value '0' is reserved).
msti-instance-or-zero uint32 This data-type indicates all possible multiple spanning tree instances, including the CIST (for which case the value '0' is reserved).
msti-instance-or-zero uint32 This data-type indicates all possible multiple spanning tree instances, including the CIST (for which case the value '0' is reserved).
msti-instance-or-zero uint32 This data-type indicates all possible multiple spanning tree instances, including the CIST (for which case the value '0' is reserved).
msti-instance-or-zero uint32 This data-type indicates all possible multiple spanning tree instances, including the CIST (for which case the value '0' is reserved).
msti-instance-or-zero uint32 This data-type indicates all possible multiple spanning tree instances, including the CIST (for which case the value '0' is reserved).
multicast-forwarding-type enumeration The multicast-forwarding-type indicates type of traffic
multicast-forwarding-type enumeration The multicast-forwarding-type indicates type of traffic
multicast-forwarding-type enumeration The multicast-forwarding-type indicates type of traffic
multicast-forwarding-type enumeration The multicast-forwarding-type indicates type of traffic
multicast-forwarding-type enumeration The multicast-forwarding-type indicates type of traffic
multicast-forwarding-type enumeration The multicast-forwarding-type indicates type of traffic
multicast-forwarding-type enumeration The multicast-forwarding-type indicates type of traffic
mvpls-prune-state enumeration Managed VPLS (mVPLS): state of a SAP or spoke-SDP in a user VPLS (uVPLS). - not-applicable : the SAP or spoke SDP of a uVPLS is not managed by a SAP or spoke SDP of a mVPLS. - not-pruned: the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is not pruned. -pruned the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is pruned as a result of an STP decision taken in the STP instance running in the mVPLS.
mvpls-prune-state enumeration Managed VPLS (mVPLS): state of a SAP or spoke-SDP in a user VPLS (uVPLS). - not-applicable : the SAP or spoke SDP of a uVPLS is not managed by a SAP or spoke SDP of a mVPLS. - not-pruned: the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is not pruned. -pruned the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is pruned as a result of an STP decision taken in the STP instance running in the mVPLS.
mvpls-prune-state enumeration Managed VPLS (mVPLS): state of a SAP or spoke-SDP in a user VPLS (uVPLS). - not-applicable : the SAP or spoke SDP of a uVPLS is not managed by a SAP or spoke SDP of a mVPLS. - not-pruned: the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is not pruned. -pruned the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is pruned as a result of an STP decision taken in the STP instance running in the mVPLS.
mvpls-prune-state enumeration Managed VPLS (mVPLS): state of a SAP or spoke-SDP in a user VPLS (uVPLS). - not-applicable : the SAP or spoke SDP of a uVPLS is not managed by a SAP or spoke SDP of a mVPLS. - not-pruned: the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is not pruned. -pruned the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is pruned as a result of an STP decision taken in the STP instance running in the mVPLS.
mvpls-prune-state enumeration Managed VPLS (mVPLS): state of a SAP or spoke-SDP in a user VPLS (uVPLS). - not-applicable : the SAP or spoke SDP of a uVPLS is not managed by a SAP or spoke SDP of a mVPLS. - not-pruned: the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is not pruned. -pruned the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is pruned as a result of an STP decision taken in the STP instance running in the mVPLS.
mvpls-prune-state enumeration Managed VPLS (mVPLS): state of a SAP or spoke-SDP in a user VPLS (uVPLS). - not-applicable : the SAP or spoke SDP of a uVPLS is not managed by a SAP or spoke SDP of a mVPLS. - not-pruned: the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is not pruned. -pruned the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is pruned as a result of an STP decision taken in the STP instance running in the mVPLS.
mvpls-prune-state enumeration Managed VPLS (mVPLS): state of a SAP or spoke-SDP in a user VPLS (uVPLS). - not-applicable : the SAP or spoke SDP of a uVPLS is not managed by a SAP or spoke SDP of a mVPLS. - not-pruned: the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is not pruned. -pruned the SAP or spoke SDP of a uVPLS is managed by a mVPLS, but the link is pruned as a result of an STP decision taken in the STP instance running in the mVPLS.
one-byte-value string The one-byte-value indicates value as 0xXX.
one-byte-value string The one-byte-value indicates value as 0xXX.
one-byte-value string The one-byte-value indicates value as 0xXX.
one-byte-value string The one-byte-value indicates value as 0xXX.
one-byte-value string The one-byte-value indicates value as 0xXX.
one-byte-value string The one-byte-value indicates value as 0xXX.
one-byte-value string The one-byte-value indicates value as 0xXX.
oper-admin-state enumeration This type can be used on config false leafs to clone the state of some admin-state field
oper-admin-state enumeration This type can be used on config false leafs to clone the state of some admin-state field
oper-admin-state enumeration This type can be used on config false leafs to clone the state of some admin-state field
oper-admin-state enumeration This type can be used on config false leafs to clone the state of some admin-state field
oper-admin-state enumeration This type can be used on config false leafs to clone the state of some admin-state field
oper-admin-state enumeration This type can be used on config false leafs to clone the state of some admin-state field
oper-flags bits Operational Flags
oper-flags bits Operational Flags
oper-flags bits Operational Flags
oper-service-type enumeration This value is an enumeration integer that indicates service type with no default value.
oper-service-type enumeration This value is an enumeration integer that indicates service type with no default value.
oper-service-type enumeration This value is an enumeration integer that indicates service type with no default value.
oper-service-type enumeration This value is an enumeration integer that indicates service type with no default value.
oper-service-type enumeration This value is an enumeration integer that indicates service type with no default value.
oper-service-type enumeration This value is an enumeration integer that indicates service type with no default value.
oper-service-type enumeration This value is an enumeration integer that indicates service type with no default value.
pbb-type enumeration Type of VPLS.
pbb-type enumeration Type of VPLS.
pbb-type enumeration Type of VPLS.
pbb-type enumeration Type of VPLS.
pbb-type enumeration Type of VPLS.
pbb-type enumeration Type of VPLS.
pbb-type enumeration Type of VPLS.
policy-statement-name string
policy-statement-name string
policy-statement-name string
policy-statement-name string
policy-statement-name string
policy-statement-name string
policy-statement-name string
protected-src-mac-violation-df-action enumeration Action for restrict protected source feature.
protected-src-mac-violation-df-action enumeration Action for restrict protected source feature.
protected-src-mac-violation-df-action enumeration Action for restrict protected source feature.
protected-src-mac-violation-df-action enumeration Action for restrict protected source feature.
protected-src-mac-violation-df-action enumeration Action for restrict protected source feature.
protected-src-mac-violation-df-action enumeration Action for restrict protected source feature.
protected-src-mac-violation-df-action enumeration Action for restrict protected source feature.
provisioned-sdp enumeration Type of provisioned SDP.
provisioned-sdp enumeration Type of provisioned SDP.
provisioned-sdp enumeration Type of provisioned SDP.
provisioned-sdp enumeration Type of provisioned SDP.
provisioned-sdp enumeration Type of provisioned SDP.
provisioned-sdp enumeration Type of provisioned SDP.
provisioned-sdp enumeration Type of provisioned SDP.
proxy-entry-type enumeration Proxy ARP/ND type
proxy-entry-type enumeration Proxy ARP/ND type
proxy-entry-type enumeration Proxy ARP/ND type
proxy-router-host enumeration Proxy Router/Host role
proxy-router-host enumeration Proxy Router/Host role
proxy-router-host enumeration Proxy Router/Host role
proxy-status enumeration Proxy AND/ND status
proxy-status enumeration Proxy AND/ND status
proxy-status enumeration Proxy AND/ND status
pw-global-id uint32 A number used to identify a global pseudo-wire routing identifier.
pw-global-id uint32 A number used to identify a global pseudo-wire routing identifier.
pw-global-id uint32 A number used to identify a global pseudo-wire routing identifier.
pw-global-id uint32 A number used to identify a global pseudo-wire routing identifier.
pw-global-id uint32 A number used to identify a global pseudo-wire routing identifier.
pw-global-id uint32 A number used to identify a global pseudo-wire routing identifier.
pw-global-id uint32 A number used to identify a global pseudo-wire routing identifier.
pw-global-id-or-zero uint32 A number used to identify a global pseudo-wire routing identifier or zero.
pw-global-id-or-zero uint32 A number used to identify a global pseudo-wire routing identifier or zero.
pw-global-id-or-zero uint32 A number used to identify a global pseudo-wire routing identifier or zero.
pw-global-id-or-zero uint32 A number used to identify a global pseudo-wire routing identifier or zero.
pw-global-id-or-zero uint32 A number used to identify a global pseudo-wire routing identifier or zero.
pw-global-id-or-zero uint32 A number used to identify a global pseudo-wire routing identifier or zero.
pw-global-id-or-zero uint32 A number used to identify a global pseudo-wire routing identifier or zero.
pw-path-hop-id uint32 A number used to identify a specific hop associated with pseudo-wire routing path.
pw-path-hop-id uint32 A number used to identify a specific hop associated with pseudo-wire routing path.
pw-path-hop-id uint32 A number used to identify a specific hop associated with pseudo-wire routing path.
pw-path-hop-id uint32 A number used to identify a specific hop associated with pseudo-wire routing path.
pw-path-hop-id uint32 A number used to identify a specific hop associated with pseudo-wire routing path.
pw-path-hop-id uint32 A number used to identify a specific hop associated with pseudo-wire routing path.
pw-path-hop-id uint32 A number used to identify a specific hop associated with pseudo-wire routing path.
pw-port-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
pw-port-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
pw-port-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
pw-port-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
pw-port-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
pw-port-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
pw-port-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
pw-template-id uint32 A number used to uniquely identify an pseudowire (PW) template for the creation of a Service Destination Point. The value 0 is used as the null ID.
pw-template-id uint32 A number used to uniquely identify an pseudowire (PW) template for the creation of a Service Destination Point. The value 0 is used as the null ID.
pw-template-id uint32 A number used to uniquely identify an pseudowire (PW) template for the creation of a Service Destination Point. The value 0 is used as the null ID.
pw-template-id uint32 A number used to uniquely identify an pseudowire (PW) template for the creation of a Service Destination Point. The value 0 is used as the null ID.
pw-template-id uint32 A number used to uniquely identify an pseudowire (PW) template for the creation of a Service Destination Point. The value 0 is used as the null ID.
pw-template-id uint32 A number used to uniquely identify an pseudowire (PW) template for the creation of a Service Destination Point. The value 0 is used as the null ID.
pw-template-id uint32 A number used to uniquely identify an pseudowire (PW) template for the creation of a Service Destination Point. The value 0 is used as the null ID.
pw-template-name string The pw-template-name defines name assigned to the pw-template.
pw-template-name string The pw-template-name defines name assigned to the pw-template.
pw-template-name string The pw-template-name defines name assigned to the pw-template.
pw-template-name string The pw-template-name defines name assigned to the pw-template.
pw-template-name string The pw-template-name defines name assigned to the pw-template.
pw-template-name string The pw-template-name defines name assigned to the pw-template.
pw-template-name string The pw-template-name defines name assigned to the pw-template.
pw-template-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the PW template.
pw-template-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the PW template.
pw-template-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the PW template.
pw-template-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the PW template.
pw-template-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the PW template.
pw-template-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the PW template.
pw-template-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the PW template.
qinq-vlan-translation-ctag union specifies the c-tag range value for qinq-vlan-translation.
qinq-vlan-translation-ctag union specifies the c-tag range value for qinq-vlan-translation.
qinq-vlan-translation-ctag union specifies the c-tag range value for qinq-vlan-translation.
qinq-vlan-translation-ctag union specifies the c-tag range value for qinq-vlan-translation.
qinq-vlan-translation-ctag union specifies the c-tag range value for qinq-vlan-translation.
qos-qgrp-instance-id uint32 The identification number of a QoS queue group instance.
qos-qgrp-instance-id uint32 The identification number of a QoS queue group instance.
qos-qgrp-instance-id uint32 The identification number of a QoS queue group instance.
qos-qgrp-instance-id uint32 The identification number of a QoS queue group instance.
qos-qgrp-instance-id uint32 The identification number of a QoS queue group instance.
qos-qgrp-instance-id uint32 The identification number of a QoS queue group instance.
qos-qgrp-instance-id uint32 The identification number of a QoS queue group instance.
qtag-manipulation-info union Describes vlan identifier range as used with vlan translation.
qtag-manipulation-info union Describes vlan identifier range as used with vlan translation.
qtag-manipulation-info union Describes vlan identifier range as used with vlan translation.
qtag-manipulation-info union Describes vlan identifier range as used with vlan translation.
qtag-manipulation-info union Describes vlan identifier range as used with vlan translation.
qtag-manipulation-info union Describes vlan identifier range as used with vlan translation.
qtag-manipulation-info union Describes vlan identifier range as used with vlan translation.
resolve-status enumeration The TResolveStatus indicates resolution status of the tunnels.
resolve-status enumeration The TResolveStatus indicates resolution status of the tunnels.
resolve-status enumeration The TResolveStatus indicates resolution status of the tunnels.
resolve-status enumeration The TResolveStatus indicates resolution status of the tunnels.
resolve-status enumeration The TResolveStatus indicates resolution status of the tunnels.
resolve-status enumeration The TResolveStatus indicates resolution status of the tunnels.
resolve-status enumeration The TResolveStatus indicates resolution status of the tunnels.
revert-time union Specify time to wait before reverting back to the primary spoke-sdp defined on the service endpoint, after having failed over to a backup spoke-sdp.
revert-time union Specify time to wait before reverting back to the primary spoke-sdp defined on the service endpoint, after having failed over to a backup spoke-sdp.
revert-time union Specify time to wait before reverting back to the primary spoke-sdp defined on the service endpoint, after having failed over to a backup spoke-sdp.
revert-time union Specify time to wait before reverting back to the primary spoke-sdp defined on the service endpoint, after having failed over to a backup spoke-sdp.
revert-time union Specify time to wait before reverting back to the primary spoke-sdp defined on the service endpoint, after having failed over to a backup spoke-sdp.
revert-time union Specify time to wait before reverting back to the primary spoke-sdp defined on the service endpoint, after having failed over to a backup spoke-sdp.
revert-time union Specify time to wait before reverting back to the primary spoke-sdp defined on the service endpoint, after having failed over to a backup spoke-sdp.
route-distinguisher-type enumeration Type of route-distinguisher.
route-distinguisher-type enumeration Type of route-distinguisher.
route-distinguisher-type enumeration Type of route-distinguisher.
route-distinguisher-type enumeration Type of route-distinguisher.
route-distinguisher-type enumeration Type of route-distinguisher.
route-distinguisher-type enumeration Type of route-distinguisher.
route-distinguisher-type enumeration Type of route-distinguisher.
route-target string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target-32 string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target-32 string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target-32 string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target-32 string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target-32 string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target-32 string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target-32 string The route target is a 8-octet object as string. <ext-community> : target:{<ip-addr:comm-val>| <2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val>} ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [0..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [0..4294967295].
route-target-origin enumeration Origin of route-target policy.
route-target-origin enumeration Origin of route-target policy.
route-target-origin enumeration Origin of route-target policy.
route-target-origin enumeration Origin of route-target policy.
route-target-origin enumeration Origin of route-target policy.
route-target-origin enumeration Origin of route-target policy.
route-target-origin enumeration Origin of route-target policy.
sap-bandwidth uint64 The required SAP binding bandwidth, in kbps.
sap-bandwidth uint64 The required SAP binding bandwidth, in kbps.
sap-bandwidth uint64 The required SAP binding bandwidth, in kbps.
sap-bandwidth uint64 The required SAP binding bandwidth, in kbps.
sap-bandwidth uint64 The required SAP binding bandwidth, in kbps.
sap-bandwidth uint64 The required SAP binding bandwidth, in kbps.
sap-bandwidth uint64 The required SAP binding bandwidth, in kbps.
sap-cir-rate-ovr union Specify the CIR rate.
sap-cir-rate-ovr union Specify the CIR rate.
sap-cir-rate-ovr union Specify the CIR rate.
sap-cir-rate-ovr union Specify the CIR rate.
sap-cir-rate-ovr union Specify the CIR rate.
sap-cir-rate-ovr union Specify the CIR rate.
sap-cir-rate-ovr union Specify the CIR rate.
sap-instance-status enumeration The sap-instance-status data type is an enumerated integer that indicates status of the SAP instantiating other SAPs controlled by this SAP.
sap-instance-status enumeration The sap-instance-status data type is an enumerated integer that indicates status of the SAP instantiating other SAPs controlled by this SAP.
sap-instance-status enumeration The sap-instance-status data type is an enumerated integer that indicates status of the SAP instantiating other SAPs controlled by this SAP.
sap-instance-status enumeration The sap-instance-status data type is an enumerated integer that indicates status of the SAP instantiating other SAPs controlled by this SAP.
sap-instance-status enumeration The sap-instance-status data type is an enumerated integer that indicates status of the SAP instantiating other SAPs controlled by this SAP.
sap-instance-status enumeration The sap-instance-status data type is an enumerated integer that indicates status of the SAP instantiating other SAPs controlled by this SAP.
sap-instance-status enumeration The sap-instance-status data type is an enumerated integer that indicates status of the SAP instantiating other SAPs controlled by this SAP.
sap-lag-per-link-hash-class int32 The sap-lag-per-link-hash-class is the class of traffic which along with the relative weight is used in the egress hashing on the LAG.
sap-lag-per-link-hash-class int32 The sap-lag-per-link-hash-class is the class of traffic which along with the relative weight is used in the egress hashing on the LAG.
sap-lag-per-link-hash-class int32 The sap-lag-per-link-hash-class is the class of traffic which along with the relative weight is used in the egress hashing on the LAG.
sap-lag-per-link-hash-class int32 The sap-lag-per-link-hash-class is the class of traffic which along with the relative weight is used in the egress hashing on the LAG.
sap-lag-per-link-hash-class int32 The sap-lag-per-link-hash-class is the class of traffic which along with the relative weight is used in the egress hashing on the LAG.
sap-lag-per-link-hash-class int32 The sap-lag-per-link-hash-class is the class of traffic which along with the relative weight is used in the egress hashing on the LAG.
sap-lag-per-link-hash-class int32 The sap-lag-per-link-hash-class is the class of traffic which along with the relative weight is used in the egress hashing on the LAG.
sap-lag-per-link-hash-weight int32 The sap-lag-per-link-hash-weight is the relative weight of the traffic which along with the class is used in the egress hashing on the LAG.
sap-lag-per-link-hash-weight int32 The sap-lag-per-link-hash-weight is the relative weight of the traffic which along with the class is used in the egress hashing on the LAG.
sap-lag-per-link-hash-weight int32 The sap-lag-per-link-hash-weight is the relative weight of the traffic which along with the class is used in the egress hashing on the LAG.
sap-lag-per-link-hash-weight int32 The sap-lag-per-link-hash-weight is the relative weight of the traffic which along with the class is used in the egress hashing on the LAG.
sap-lag-per-link-hash-weight int32 The sap-lag-per-link-hash-weight is the relative weight of the traffic which along with the class is used in the egress hashing on the LAG.
sap-lag-per-link-hash-weight int32 The sap-lag-per-link-hash-weight is the relative weight of the traffic which along with the class is used in the egress hashing on the LAG.
sap-lag-per-link-hash-weight int32 The sap-lag-per-link-hash-weight is the relative weight of the traffic which along with the class is used in the egress hashing on the LAG.
sap-max-rate-ovr union Maximum frame based bandwidth limit.
sap-max-rate-ovr union Maximum frame based bandwidth limit.
sap-max-rate-ovr union Maximum frame based bandwidth limit.
sap-max-rate-ovr union Maximum frame based bandwidth limit.
sap-max-rate-ovr union Maximum frame based bandwidth limit.
sap-max-rate-ovr union Maximum frame based bandwidth limit.
sap-max-rate-ovr union Maximum frame based bandwidth limit.
sap-pir-rate-ovr union Specify the PIR rate.
sap-pir-rate-ovr union Specify the PIR rate.
sap-pir-rate-ovr union Specify the PIR rate.
sap-pir-rate-ovr union Specify the PIR rate.
sap-pir-rate-ovr union Specify the PIR rate.
sap-pir-rate-ovr union Specify the PIR rate.
sap-pir-rate-ovr union Specify the PIR rate.
sap-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sap-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sap-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sap-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sap-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sap-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sap-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sap-sub-type enumeration The sap-sub-type describes sub type of the SAP.
sap-sub-type enumeration The sap-sub-type describes sub type of the SAP.
sap-sub-type enumeration The sap-sub-type describes sub type of the SAP.
sap-sub-type enumeration The sap-sub-type describes sub type of the SAP.
sap-sub-type enumeration The sap-sub-type describes sub type of the SAP.
sap-sub-type enumeration The sap-sub-type describes sub type of the SAP.
sap-sub-type enumeration The sap-sub-type describes sub type of the SAP.
sbind-bfd-fail-action enumeration SDP bind BFD failure action
sbind-bfd-fail-action enumeration SDP bind BFD failure action
sbind-bfd-fail-action enumeration SDP bind BFD failure action
sbind-bfd-fail-action enumeration SDP bind BFD failure action
sbind-bfd-fail-action enumeration SDP bind BFD failure action
sbind-bfd-fail-action enumeration SDP bind BFD failure action
sbind-bfd-fail-action enumeration SDP bind BFD failure action
sdp-bind-bandwidth union The required SDP binding bandwidth, in kbps.
sdp-bind-bandwidth union The required SDP binding bandwidth, in kbps.
sdp-bind-bandwidth union The required SDP binding bandwidth, in kbps.
sdp-bind-bandwidth union The required SDP binding bandwidth, in kbps.
sdp-bind-bandwidth union The required SDP binding bandwidth, in kbps.
sdp-bind-bandwidth union The required SDP binding bandwidth, in kbps.
sdp-bind-bandwidth union The required SDP binding bandwidth, in kbps.
sdp-bind-id string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [1..32767] vc-id - [1..4294967295]
sdp-bind-id string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [1..32767] vc-id - [1..4294967295]
sdp-bind-id string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [1..32767] vc-id - [1..4294967295]
sdp-bind-id string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [1..32767] vc-id - [1..4294967295]
sdp-bind-id string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [1..32767] vc-id - [1..4294967295]
sdp-bind-id string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [1..32767] vc-id - [1..4294967295]
sdp-bind-id string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [1..32767] vc-id - [1..4294967295]
sdp-bind-stp-priority int32 The stp-priority indicates the priority range for STP for the SDP bind.
sdp-bind-stp-priority int32 The stp-priority indicates the priority range for STP for the SDP bind.
sdp-bind-stp-priority int32 The stp-priority indicates the priority range for STP for the SDP bind.
sdp-bind-stp-priority int32 The stp-priority indicates the priority range for STP for the SDP bind.
sdp-bind-stp-priority int32 The stp-priority indicates the priority range for STP for the SDP bind.
sdp-bind-stp-priority int32 The stp-priority indicates the priority range for STP for the SDP bind.
sdp-bind-stp-priority int32 The stp-priority indicates the priority range for STP for the SDP bind.
sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding. The value 'vpls' is no longer supported.
sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding. The value 'vpls' is no longer supported.
sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding. The value 'vpls' is no longer supported.
sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding. The value 'vpls' is no longer supported.
sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding. The value 'vpls' is no longer supported.
sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding. The value 'vpls' is no longer supported.
sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding. The value 'vpls' is no longer supported.
sdp-delivery-type enumeration Specifies the type of delivery used by the SDP.
sdp-delivery-type enumeration Specifies the type of delivery used by the SDP.
sdp-delivery-type enumeration Specifies the type of delivery used by the SDP.
sdp-delivery-type enumeration Specifies the type of delivery used by the SDP.
sdp-delivery-type enumeration Specifies the type of delivery used by the SDP.
sdp-delivery-type enumeration Specifies the type of delivery used by the SDP.
sdp-delivery-type enumeration Specifies the type of delivery used by the SDP.
sdp-id uint32 A number used to identify a Service Distribution Point. This ID must be unique only within the ESR where it is defined.
sdp-id uint32 A number used to identify a Service Distribution Point. This ID must be unique only within the ESR where it is defined.
sdp-id uint32 A number used to identify a Service Distribution Point. This ID must be unique only within the ESR where it is defined.
sdp-id uint32 A number used to identify a Service Distribution Point. This ID must be unique only within the ESR where it is defined.
sdp-id uint32 A number used to identify a Service Distribution Point. This ID must be unique only within the ESR where it is defined.
sdp-id uint32 A number used to identify a Service Distribution Point. This ID must be unique only within the ESR where it is defined.
sdp-id uint32 A number used to identify a Service Distribution Point. This ID must be unique only within the ESR where it is defined.
sdp-id-or-zero uint32 A number used to identify a Service Distribution Point.
sdp-id-or-zero uint32 A number used to identify a Service Distribution Point.
sdp-id-or-zero uint32 A number used to identify a Service Distribution Point.
sdp-id-or-zero uint32 A number used to identify a Service Distribution Point.
sdp-id-or-zero uint32 A number used to identify a Service Distribution Point.
sdp-id-or-zero uint32 A number used to identify a Service Distribution Point.
sdp-id-or-zero uint32 A number used to identify a Service Distribution Point.
sdp-precedence union The sdp-precedence data-type indicates precedence value for the SDP.
sdp-precedence union The sdp-precedence data-type indicates precedence value for the SDP.
sdp-precedence union The sdp-precedence data-type indicates precedence value for the SDP.
sdp-precedence union The sdp-precedence data-type indicates precedence value for the SDP.
sdp-precedence union The sdp-precedence data-type indicates precedence value for the SDP.
sdp-precedence union The sdp-precedence data-type indicates precedence value for the SDP.
sdp-precedence union The sdp-precedence data-type indicates precedence value for the SDP.
sdp-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sdp-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sdp-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sdp-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sdp-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sdp-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
sdp-protected-src-mac-violation-action enumeration Action for restrict protected source feature.
service-id uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id-maf uint32 A number used to identify a external or internal service. This ID must be unique within the Service Domain.
service-id-maf uint32 A number used to identify a external or internal service. This ID must be unique within the Service Domain.
service-id-maf uint32 A number used to identify a external or internal service. This ID must be unique within the Service Domain.
service-id-maf uint32 A number used to identify a external or internal service. This ID must be unique within the Service Domain.
service-id-maf uint32 A number used to identify a external or internal service. This ID must be unique within the Service Domain.
service-id-maf uint32 A number used to identify a external or internal service. This ID must be unique within the Service Domain.
service-id-maf uint32 A number used to identify a external or internal service. This ID must be unique within the Service Domain.
service-id-or-zero uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id-or-zero uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id-or-zero uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id-or-zero uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id-or-zero uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id-or-zero uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-id-or-zero uint32 A number used to identify a service. This ID must be unique within the Service Domain. This type is typically used in state leafs.
service-name string The service-name defines name assigned to the service.
service-name string The service-name defines name assigned to the service.
service-name string The service-name defines name assigned to the service.
service-name string The service-name defines name assigned to the service.
service-name string The service-name defines name assigned to the service.
service-name string The service-name defines name assigned to the service.
service-name string The service-name defines name assigned to the service.
services-sap-queuing-type enumeration The services sap ingress queuing type.
services-sap-queuing-type enumeration The services sap ingress queuing type.
services-sap-queuing-type enumeration The services sap ingress queuing type.
services-sap-queuing-type enumeration The services sap ingress queuing type.
services-sap-queuing-type enumeration The services sap ingress queuing type.
services-sap-queuing-type enumeration The services sap ingress queuing type.
services-sap-queuing-type enumeration The services sap ingress queuing type.
service-type enumeration This textual convention is used to specify the type of a given service.
service-type enumeration This textual convention is used to specify the type of a given service.
service-type enumeration This textual convention is used to specify the type of a given service.
service-type enumeration This textual convention is used to specify the type of a given service.
service-type enumeration This textual convention is used to specify the type of a given service.
service-type enumeration This textual convention is used to specify the type of a given service.
service-type enumeration This textual convention is used to specify the type of a given service.
site-activation-timer int32 BGP multi homing site activation timer.
site-activation-timer int32 BGP multi homing site activation timer.
site-activation-timer int32 BGP multi homing site activation timer.
site-activation-timer int32 BGP multi homing site activation timer.
site-activation-timer int32 BGP multi homing site activation timer.
site-activation-timer int32 BGP multi homing site activation timer.
site-activation-timer int32 BGP multi homing site activation timer.
site-boot-timer int32 BGP multi homing site boot timer.
site-boot-timer int32 BGP multi homing site boot timer.
site-boot-timer int32 BGP multi homing site boot timer.
site-boot-timer int32 BGP multi homing site boot timer.
site-boot-timer int32 BGP multi homing site boot timer.
site-boot-timer int32 BGP multi homing site boot timer.
site-boot-timer int32 BGP multi homing site boot timer.
site-id int32 A number used to identify a site. This ID must be unique within the service-domain.
site-id int32 A number used to identify a site. This ID must be unique within the service-domain.
site-id int32 A number used to identify a site. This ID must be unique within the service-domain.
site-id int32 A number used to identify a site. This ID must be unique within the service-domain.
site-id int32 A number used to identify a site. This ID must be unique within the service-domain.
site-id int32 A number used to identify a site. This ID must be unique within the service-domain.
site-id int32 A number used to identify a site. This ID must be unique within the service-domain.
site-min-down-timer int32 BGP multi homing site minimum down timer.
site-min-down-timer int32 BGP multi homing site minimum down timer.
site-min-down-timer int32 BGP multi homing site minimum down timer.
site-min-down-timer int32 BGP multi homing site minimum down timer.
site-min-down-timer int32 BGP multi homing site minimum down timer.
site-min-down-timer int32 BGP multi homing site minimum down timer.
site-min-down-timer int32 BGP multi homing site minimum down timer.
spb-algorithm enumeration Type of SPB algorithm
spb-algorithm enumeration Type of SPB algorithm
spb-algorithm enumeration Type of SPB algorithm
spb-algorithm enumeration Type of SPB algorithm
spb-algorithm enumeration Type of SPB algorithm
spb-algorithm enumeration Type of SPB algorithm
spb-algorithm enumeration Type of SPB algorithm
spb-fid int32 The spb-fid indicates Shortest Path Bridging forwarding database identifier.
spb-fid int32 The spb-fid indicates Shortest Path Bridging forwarding database identifier.
spb-fid int32 The spb-fid indicates Shortest Path Bridging forwarding database identifier.
spb-fid int32 The spb-fid indicates Shortest Path Bridging forwarding database identifier.
spb-fid int32 The spb-fid indicates Shortest Path Bridging forwarding database identifier.
spb-fid int32 The spb-fid indicates Shortest Path Bridging forwarding database identifier.
spb-fid int32 The spb-fid indicates Shortest Path Bridging forwarding database identifier.
spb-initial-wait uint32 SPB initial wait time in milliseconds.
spb-initial-wait uint32 SPB initial wait time in milliseconds.
spb-initial-wait uint32 SPB initial wait time in milliseconds.
spb-initial-wait uint32 SPB initial wait time in milliseconds.
spb-initial-wait uint32 SPB initial wait time in milliseconds.
spb-initial-wait uint32 SPB initial wait time in milliseconds.
spb-initial-wait uint32 SPB initial wait time in milliseconds.
spb-second-wait uint32 SPB second wait time in milliseconds.
spb-second-wait uint32 SPB second wait time in milliseconds.
spb-second-wait uint32 SPB second wait time in milliseconds.
spb-second-wait uint32 SPB second wait time in milliseconds.
spb-second-wait uint32 SPB second wait time in milliseconds.
spb-second-wait uint32 SPB second wait time in milliseconds.
spb-second-wait uint32 SPB second wait time in milliseconds.
spb-wait uint32 SPB wait time in milliseconds.
spb-wait uint32 SPB wait time in milliseconds.
spb-wait uint32 SPB wait time in milliseconds.
spb-wait uint32 SPB wait time in milliseconds.
spb-wait uint32 SPB wait time in milliseconds.
spb-wait uint32 SPB wait time in milliseconds.
spb-wait uint32 SPB wait time in milliseconds.
spoke-sdp-id uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id-or-zero uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id-or-zero uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id-or-zero uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id-or-zero uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id-or-zero uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id-or-zero uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
spoke-sdp-id-or-zero uint32 A number used to identify a multi-segment pseudo-wire provider-edge identifier.
srv6-instance int32 SRv6 instance range
srv6-instance int32 SRv6 instance range
srv6-instance int32 SRv6 instance range
srv6-instance int32 SRv6 instance range
srv6-instance int32 SRv6 instance range
srv6-instance int32 SRv6 instance range
srv6-instance int32 SRv6 instance range
srv6-locator-function-value union Segment routing v6 locator function value
srv6-locator-function-value union Segment routing v6 locator function value
srv6-locator-function-value union Segment routing v6 locator function value
srv6-locator-function-value union Segment routing v6 locator function value
srv6-locator-function-value union Segment routing v6 locator function value
srv6-locator-function-value union Segment routing v6 locator function value
srv6-locator-function-value union Segment routing v6 locator function value
state-sdp-bind-id-or-zero string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [0..32767] vc-id - [0..4294967295]
state-sdp-bind-id-or-zero string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [0..32767] vc-id - [0..4294967295]
state-sdp-bind-id-or-zero string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [0..32767] vc-id - [0..4294967295]
state-sdp-bind-id-or-zero string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [0..32767] vc-id - [0..4294967295]
state-sdp-bind-id-or-zero string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [0..32767] vc-id - [0..4294967295]
state-sdp-bind-id-or-zero string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [0..32767] vc-id - [0..4294967295]
state-sdp-bind-id-or-zero string A Service Distribution Point (SDP) binding identification in the following format: <sdp-id>:<vc-id>. sdp-id - [0..32767] vc-id - [0..4294967295]
state-vpn-rd string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
state-vpn-rd string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
state-vpn-rd string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
state-vpn-rd string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
state-vpn-rd string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
state-vpn-rd string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
state-vpn-rd string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
stp-bpdu-encap enumeration The stp-bpdu-encap indicates the encap type of the STP packet.
stp-bpdu-encap enumeration The stp-bpdu-encap indicates the encap type of the STP packet.
stp-bpdu-encap enumeration The stp-bpdu-encap indicates the encap type of the STP packet.
stp-bpdu-encap enumeration The stp-bpdu-encap indicates the encap type of the STP packet.
stp-bpdu-encap enumeration The stp-bpdu-encap indicates the encap type of the STP packet.
stp-bpdu-encap enumeration The stp-bpdu-encap indicates the encap type of the STP packet.
stp-bpdu-encap enumeration The stp-bpdu-encap indicates the encap type of the STP packet.
stp-link-type enumeration
stp-link-type enumeration
stp-link-type enumeration
stp-link-type enumeration
stp-link-type enumeration
stp-link-type enumeration
stp-link-type enumeration
stp-path-cost int32
stp-path-cost int32
stp-path-cost int32
stp-path-cost int32
stp-path-cost int32
stp-path-cost int32
stp-path-cost int32
stp-port-num int32
stp-port-num int32
stp-port-num int32
stp-port-num int32
stp-port-num int32
stp-port-num int32
stp-port-num int32
svc-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
svc-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
svc-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
svc-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
svc-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
svc-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
svc-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the service.
tdm-options-cas-trunk-framing enumeration Encodes the CEM SAPs CAS trunk framing type: - 'no-cas' : for all CEM SAPs except 'nxDS0WithCas'. - 'e1-trunk' : for a 'nxDS0WithCas' SAP with E1 trunk. - 't1-esf-trunk' : for a 'nxDS0WithCas' SAP with T1 ESF trunk. - 't1-sf-trunk' : for a 'nxDS0WithCas' SAP with T1 SF trunk.
tdm-options-cas-trunk-framing enumeration Encodes the CEM SAPs CAS trunk framing type: - 'no-cas' : for all CEM SAPs except 'nxDS0WithCas'. - 'e1-trunk' : for a 'nxDS0WithCas' SAP with E1 trunk. - 't1-esf-trunk' : for a 'nxDS0WithCas' SAP with T1 ESF trunk. - 't1-sf-trunk' : for a 'nxDS0WithCas' SAP with T1 SF trunk.
tdm-options-cas-trunk-framing enumeration Encodes the CEM SAPs CAS trunk framing type: - 'no-cas' : for all CEM SAPs except 'nxDS0WithCas'. - 'e1-trunk' : for a 'nxDS0WithCas' SAP with E1 trunk. - 't1-esf-trunk' : for a 'nxDS0WithCas' SAP with T1 ESF trunk. - 't1-sf-trunk' : for a 'nxDS0WithCas' SAP with T1 SF trunk.
tdm-options-cas-trunk-framing enumeration Encodes the CEM SAPs CAS trunk framing type: - 'no-cas' : for all CEM SAPs except 'nxDS0WithCas'. - 'e1-trunk' : for a 'nxDS0WithCas' SAP with E1 trunk. - 't1-esf-trunk' : for a 'nxDS0WithCas' SAP with T1 ESF trunk. - 't1-sf-trunk' : for a 'nxDS0WithCas' SAP with T1 SF trunk.
tdm-options-cas-trunk-framing enumeration Encodes the CEM SAPs CAS trunk framing type: - 'no-cas' : for all CEM SAPs except 'nxDS0WithCas'. - 'e1-trunk' : for a 'nxDS0WithCas' SAP with E1 trunk. - 't1-esf-trunk' : for a 'nxDS0WithCas' SAP with T1 ESF trunk. - 't1-sf-trunk' : for a 'nxDS0WithCas' SAP with T1 SF trunk.
tdm-options-cas-trunk-framing enumeration Encodes the CEM SAPs CAS trunk framing type: - 'no-cas' : for all CEM SAPs except 'nxDS0WithCas'. - 'e1-trunk' : for a 'nxDS0WithCas' SAP with E1 trunk. - 't1-esf-trunk' : for a 'nxDS0WithCas' SAP with T1 ESF trunk. - 't1-sf-trunk' : for a 'nxDS0WithCas' SAP with T1 SF trunk.
tdm-options-cas-trunk-framing enumeration Encodes the CEM SAPs CAS trunk framing type: - 'no-cas' : for all CEM SAPs except 'nxDS0WithCas'. - 'e1-trunk' : for a 'nxDS0WithCas' SAP with E1 trunk. - 't1-esf-trunk' : for a 'nxDS0WithCas' SAP with T1 ESF trunk. - 't1-sf-trunk' : for a 'nxDS0WithCas' SAP with T1 SF trunk.
tdm-options-sig-pkts enumeration Encodes support for the cpipe circuit emulation (CE) application signaling packets: - 'no-signalling-packets' : for a cpipe that does not use signalling packets. - 'data-packets' : for a cpipe carrying TDM data packets and expecting CE application signalling packets in a separate cpipe. - 'signalling-packets' : for a cpipe carrying CE application signalling packets with the data packets in a separate cpipe. - 'data-and-signalling-packets' : for a cpipe carrying TDM data and CE application signalling on the same cpipe.
tdm-options-sig-pkts enumeration Encodes support for the cpipe circuit emulation (CE) application signaling packets: - 'no-signalling-packets' : for a cpipe that does not use signalling packets. - 'data-packets' : for a cpipe carrying TDM data packets and expecting CE application signalling packets in a separate cpipe. - 'signalling-packets' : for a cpipe carrying CE application signalling packets with the data packets in a separate cpipe. - 'data-and-signalling-packets' : for a cpipe carrying TDM data and CE application signalling on the same cpipe.
tdm-options-sig-pkts enumeration Encodes support for the cpipe circuit emulation (CE) application signaling packets: - 'no-signalling-packets' : for a cpipe that does not use signalling packets. - 'data-packets' : for a cpipe carrying TDM data packets and expecting CE application signalling packets in a separate cpipe. - 'signalling-packets' : for a cpipe carrying CE application signalling packets with the data packets in a separate cpipe. - 'data-and-signalling-packets' : for a cpipe carrying TDM data and CE application signalling on the same cpipe.
tdm-options-sig-pkts enumeration Encodes support for the cpipe circuit emulation (CE) application signaling packets: - 'no-signalling-packets' : for a cpipe that does not use signalling packets. - 'data-packets' : for a cpipe carrying TDM data packets and expecting CE application signalling packets in a separate cpipe. - 'signalling-packets' : for a cpipe carrying CE application signalling packets with the data packets in a separate cpipe. - 'data-and-signalling-packets' : for a cpipe carrying TDM data and CE application signalling on the same cpipe.
tdm-options-sig-pkts enumeration Encodes support for the cpipe circuit emulation (CE) application signaling packets: - 'no-signalling-packets' : for a cpipe that does not use signalling packets. - 'data-packets' : for a cpipe carrying TDM data packets and expecting CE application signalling packets in a separate cpipe. - 'signalling-packets' : for a cpipe carrying CE application signalling packets with the data packets in a separate cpipe. - 'data-and-signalling-packets' : for a cpipe carrying TDM data and CE application signalling on the same cpipe.
tdm-options-sig-pkts enumeration Encodes support for the cpipe circuit emulation (CE) application signaling packets: - 'no-signalling-packets' : for a cpipe that does not use signalling packets. - 'data-packets' : for a cpipe carrying TDM data packets and expecting CE application signalling packets in a separate cpipe. - 'signalling-packets' : for a cpipe carrying CE application signalling packets with the data packets in a separate cpipe. - 'data-and-signalling-packets' : for a cpipe carrying TDM data and CE application signalling on the same cpipe.
tdm-options-sig-pkts enumeration Encodes support for the cpipe circuit emulation (CE) application signaling packets: - 'no-signalling-packets' : for a cpipe that does not use signalling packets. - 'data-packets' : for a cpipe carrying TDM data packets and expecting CE application signalling packets in a separate cpipe. - 'signalling-packets' : for a cpipe carrying CE application signalling packets with the data packets in a separate cpipe. - 'data-and-signalling-packets' : for a cpipe carrying TDM data and CE application signalling on the same cpipe.
two-byte-value string The two byte value.
two-byte-value string The two byte value.
two-byte-value string The two byte value.
two-byte-value string The two byte value.
two-byte-value string The two byte value.
two-byte-value string The two byte value.
two-byte-value string The two byte value.
vc-id uint32 The 'vc-id' defines virtual circuit identifier.
vc-id uint32 The 'vc-id' defines virtual circuit identifier.
vc-id uint32 The 'vc-id' defines virtual circuit identifier.
vc-id uint32 The 'vc-id' defines virtual circuit identifier.
vc-id uint32 The 'vc-id' defines virtual circuit identifier.
vc-id uint32 The 'vc-id' defines virtual circuit identifier.
vc-id uint32 The 'vc-id' defines virtual circuit identifier.
vc-id-or-zero uint32 The 'vc-id' defines virtual circuit identifier.
vc-id-or-zero uint32 The 'vc-id' defines virtual circuit identifier.
vc-id-or-zero uint32 The 'vc-id' defines virtual circuit identifier.
vc-id-or-zero uint32 The 'vc-id' defines virtual circuit identifier.
vc-id-or-zero uint32 The 'vc-id' defines virtual circuit identifier.
vc-id-or-zero uint32 The 'vc-id' defines virtual circuit identifier.
vc-id-or-zero uint32 The 'vc-id' defines virtual circuit identifier.
ve-id int32 VPLS edge identifier.
ve-id int32 VPLS edge identifier.
ve-id int32 VPLS edge identifier.
ve-id int32 VPLS edge identifier.
ve-id int32 VPLS edge identifier.
ve-id int32 VPLS edge identifier.
ve-id int32 VPLS edge identifier.
virt-scheduler-attribute bits Indicates attributes of a virtual scheduler
virt-scheduler-attribute bits Indicates attributes of a virtual scheduler
virt-scheduler-attribute bits Indicates attributes of a virtual scheduler
virt-scheduler-attribute bits Indicates attributes of a virtual scheduler
virt-scheduler-attribute bits Indicates attributes of a virtual scheduler
virt-scheduler-attribute bits Indicates attributes of a virtual scheduler
virt-scheduler-attribute bits Indicates attributes of a virtual scheduler
vlan-manipulate-ingress-vlan-type union Describes VLAN identifier range to use with manipulation action at ingress.
vlan-manipulate-ingress-vlan-type union Describes VLAN identifier range to use with manipulation action at ingress.
vlan-manipulate-ingress-vlan-type union Describes VLAN identifier range to use with manipulation action at ingress.
vlan-manipulate-ingress-vlan-type union Describes VLAN identifier range to use with manipulation action at ingress.
vlan-manipulate-ingress-vlan-type union Describes VLAN identifier range to use with manipulation action at ingress.
vlan-manipulate-ingress-vlan-type union Describes VLAN identifier range to use with manipulation action at ingress.
vlan-manipulate-ingress-vlan-type union Describes VLAN identifier range to use with manipulation action at ingress.
vlan-manipulation-egress-action-type enumeration Describes action to take for VLAN tag manipulation at egress.
vlan-manipulation-egress-action-type enumeration Describes action to take for VLAN tag manipulation at egress.
vlan-manipulation-egress-action-type enumeration Describes action to take for VLAN tag manipulation at egress.
vlan-manipulation-egress-action-type enumeration Describes action to take for VLAN tag manipulation at egress.
vlan-manipulation-egress-action-type enumeration Describes action to take for VLAN tag manipulation at egress.
vlan-manipulation-egress-action-type enumeration Describes action to take for VLAN tag manipulation at egress.
vlan-manipulation-egress-action-type enumeration Describes action to take for VLAN tag manipulation at egress.
vlan-manipulation-egress-vlan-type enumeration Describes VLAN to use with manipulation action at egress.
vlan-manipulation-egress-vlan-type enumeration Describes VLAN to use with manipulation action at egress.
vlan-manipulation-egress-vlan-type enumeration Describes VLAN to use with manipulation action at egress.
vlan-manipulation-egress-vlan-type enumeration Describes VLAN to use with manipulation action at egress.
vlan-manipulation-egress-vlan-type enumeration Describes VLAN to use with manipulation action at egress.
vlan-manipulation-egress-vlan-type enumeration Describes VLAN to use with manipulation action at egress.
vlan-manipulation-egress-vlan-type enumeration Describes VLAN to use with manipulation action at egress.
vlan-manipulation-ingress-action-type enumeration Describes action to take for VLAN tag manipulation at ingress.
vlan-manipulation-ingress-action-type enumeration Describes action to take for VLAN tag manipulation at ingress.
vlan-manipulation-ingress-action-type enumeration Describes action to take for VLAN tag manipulation at ingress.
vlan-manipulation-ingress-action-type enumeration Describes action to take for VLAN tag manipulation at ingress.
vlan-manipulation-ingress-action-type enumeration Describes action to take for VLAN tag manipulation at ingress.
vlan-manipulation-ingress-action-type enumeration Describes action to take for VLAN tag manipulation at ingress.
vlan-manipulation-ingress-action-type enumeration Describes action to take for VLAN tag manipulation at ingress.
vlan-vc-tag uint32 Specify VLAN VC tag for the spoke SDP.
vlan-vc-tag uint32 Specify VLAN VC tag for the spoke SDP.
vlan-vc-tag uint32 Specify VLAN VC tag for the spoke SDP.
vlan-vc-tag uint32 Specify VLAN VC tag for the spoke SDP.
vlan-vc-tag uint32 Specify VLAN VC tag for the spoke SDP.
vlan-vc-tag uint32 Specify VLAN VC tag for the spoke SDP.
vlan-vc-tag uint32 Specify VLAN VC tag for the spoke SDP.
vpls-fdb-locale enumeration The vpls-fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for VPLS service
vpls-fdb-locale enumeration The vpls-fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for VPLS service
vpls-fdb-locale enumeration The vpls-fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for VPLS service
vpls-fdb-locale enumeration The vpls-fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for VPLS service
vpls-fdb-locale enumeration The vpls-fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for VPLS service
vpls-fdb-locale enumeration The vpls-fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for VPLS service
vpls-fdb-locale enumeration The vpls-fdb-locale data type is an enumerated integer that describes the values used to indicate source of forwarding database (FDB) entry for VPLS service
vpls-id string The vpls-id is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpls-id string The vpls-id is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpls-id string The vpls-id is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpls-id string The vpls-id is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpls-id string The vpls-id is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpls-id string The vpls-id is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpls-id string The vpls-id is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpls-limit-mac-move enumeration This textual convention is used to specify the behavior when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'blockable' specifies that the agent will monitor the MAC relearn rate on a SAP or SDP Bind and it will block it when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'nonBlockable' specifies that the SAP or SDP Bind will not be blocked, and another blockable SAP or SDP Bind will be blocked instead.
vpls-limit-mac-move enumeration This textual convention is used to specify the behavior when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'blockable' specifies that the agent will monitor the MAC relearn rate on a SAP or SDP Bind and it will block it when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'nonBlockable' specifies that the SAP or SDP Bind will not be blocked, and another blockable SAP or SDP Bind will be blocked instead.
vpls-limit-mac-move enumeration This textual convention is used to specify the behavior when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'blockable' specifies that the agent will monitor the MAC relearn rate on a SAP or SDP Bind and it will block it when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'nonBlockable' specifies that the SAP or SDP Bind will not be blocked, and another blockable SAP or SDP Bind will be blocked instead.
vpls-limit-mac-move enumeration This textual convention is used to specify the behavior when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'blockable' specifies that the agent will monitor the MAC relearn rate on a SAP or SDP Bind and it will block it when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'nonBlockable' specifies that the SAP or SDP Bind will not be blocked, and another blockable SAP or SDP Bind will be blocked instead.
vpls-limit-mac-move enumeration This textual convention is used to specify the behavior when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'blockable' specifies that the agent will monitor the MAC relearn rate on a SAP or SDP Bind and it will block it when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'nonBlockable' specifies that the SAP or SDP Bind will not be blocked, and another blockable SAP or SDP Bind will be blocked instead.
vpls-limit-mac-move enumeration This textual convention is used to specify the behavior when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'blockable' specifies that the agent will monitor the MAC relearn rate on a SAP or SDP Bind and it will block it when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'nonBlockable' specifies that the SAP or SDP Bind will not be blocked, and another blockable SAP or SDP Bind will be blocked instead.
vpls-limit-mac-move enumeration This textual convention is used to specify the behavior when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'blockable' specifies that the agent will monitor the MAC relearn rate on a SAP or SDP Bind and it will block it when the re-learn rate specified by svcTlsMacMoveMaxRate is exceeded. A value of 'nonBlockable' specifies that the SAP or SDP Bind will not be blocked, and another blockable SAP or SDP Bind will be blocked instead.
vpls-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
vpls-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
vpls-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
vpls-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
vpls-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
vpls-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
vpls-sdp-bind-vc-type enumeration Specifies the type of virtual circuit (VC) associated with the SDP binding.
vpls-srv6-instance int32 SRv6 instance range
vpls-srv6-instance int32 SRv6 instance range
vpls-srv6-instance int32 SRv6 instance range
vpls-srv6-instance int32 SRv6 instance range
vpls-srv6-instance int32 SRv6 instance range
vpls-srv6-instance int32 SRv6 instance range
vpn-id uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id-or-zero uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id-or-zero uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id-or-zero uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id-or-zero uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id-or-zero uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id-or-zero uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-id-or-zero uint32 A number used to identify a VPN. In general each service corresponds to a single VPN, but under some circumstances a VPN may be composed of multiple services.
vpn-rd-or-auto-rd union The vpn-rd-or-auto-rd defines either a string representation of a route-distinguisher or an enumeration indicating use of an automatically assigned route-distinguisher. The route-distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>|<4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-rd-or-auto-rd union The vpn-rd-or-auto-rd defines either a string representation of a route-distinguisher or an enumeration indicating use of an automatically assigned route-distinguisher. The route-distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>|<4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-rd-or-auto-rd union The vpn-rd-or-auto-rd defines either a string representation of a route-distinguisher or an enumeration indicating use of an automatically assigned route-distinguisher. The route-distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>|<4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-rd-or-auto-rd union The vpn-rd-or-auto-rd defines either a string representation of a route-distinguisher or an enumeration indicating use of an automatically assigned route-distinguisher. The route-distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>|<4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-rd-or-auto-rd union The vpn-rd-or-auto-rd defines either a string representation of a route-distinguisher or an enumeration indicating use of an automatically assigned route-distinguisher. The route-distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>|<4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-rd-or-auto-rd union The vpn-rd-or-auto-rd defines either a string representation of a route-distinguisher or an enumeration indicating use of an automatically assigned route-distinguisher. The route-distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>|<4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-rd-or-auto-rd union The vpn-rd-or-auto-rd defines either a string representation of a route-distinguisher or an enumeration indicating use of an automatically assigned route-distinguisher. The route-distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>|<4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-route-distinguisher string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-route-distinguisher string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-route-distinguisher string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-route-distinguisher string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-route-distinguisher string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-route-distinguisher string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-route-distinguisher string The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vpn-route-distinguisher-or-auto-rd union The vpn-route-distinguisher-or-auto-rd defines either a vpn-route-distinguisher or an enumeration indicating use of automatically assigned route-distinguisher.
vpn-route-distinguisher-or-auto-rd union The vpn-route-distinguisher-or-auto-rd defines either a vpn-route-distinguisher or an enumeration indicating use of automatically assigned route-distinguisher.
vpn-route-distinguisher-or-auto-rd union The vpn-route-distinguisher-or-auto-rd defines either a vpn-route-distinguisher or an enumeration indicating use of automatically assigned route-distinguisher.
vpn-route-distinguisher-or-auto-rd union The vpn-route-distinguisher-or-auto-rd defines either a vpn-route-distinguisher or an enumeration indicating use of automatically assigned route-distinguisher.
vpn-route-distinguisher-or-auto-rd union The vpn-route-distinguisher-or-auto-rd defines either a vpn-route-distinguisher or an enumeration indicating use of automatically assigned route-distinguisher.
vpn-route-distinguisher-or-auto-rd union The vpn-route-distinguisher-or-auto-rd defines either a vpn-route-distinguisher or an enumeration indicating use of automatically assigned route-distinguisher.
vpn-route-distinguisher-or-auto-rd union The vpn-route-distinguisher-or-auto-rd defines either a vpn-route-distinguisher or an enumeration indicating use of automatically assigned route-distinguisher.
vprn-bgp-evpn-mpls-rd union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-bgp-evpn-mpls-rd union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-bgp-evpn-mpls-rd union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-bgp-evpn-mpls-rd union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-bgp-evpn-mpls-rd union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-bgp-evpn-mpls-rd union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-bgp-evpn-mpls-rd union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-rd-state union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-rd-state union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-rd-state union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-rd-state union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-rd-state union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-rd-state union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-rd-state union The VPRN route distinguisher is a 8-octet object as string. <ip-addr:comm-val>|<2byte-asnumber:ext-comm-val>| <4byte-asnumber:comm-val> ip-addr - a.b.c.d comm-val - [0..65535] 2byte-asnumber - [1..65535] ext-comm-val - [0..4294967295] 4byte-asnumber - [1..4294967295].
vprn-virtual-router-id int32 A number used to identify a virtual router instance in the system.
vprn-virtual-router-id int32 A number used to identify a virtual router instance in the system.
vprn-virtual-router-id int32 A number used to identify a virtual router instance in the system.
vprn-virtual-router-id int32 A number used to identify a virtual router instance in the system.
vprn-virtual-router-id int32 A number used to identify a virtual router instance in the system.
vprn-virtual-router-id int32 A number used to identify a virtual router instance in the system.
vprn-virtual-router-id int32 A number used to identify a virtual router instance in the system.
vrtr-id-or-zero int32 A number used to identify a virtual router instance in the system. The number 0 will have special significance in the context the TC is used.
vrtr-id-or-zero int32 A number used to identify a virtual router instance in the system. The number 0 will have special significance in the context the TC is used.
vrtr-id-or-zero int32 A number used to identify a virtual router instance in the system. The number 0 will have special significance in the context the TC is used.
vrtr-id-or-zero int32 A number used to identify a virtual router instance in the system. The number 0 will have special significance in the context the TC is used.
vrtr-id-or-zero int32 A number used to identify a virtual router instance in the system. The number 0 will have special significance in the context the TC is used.
vrtr-id-or-zero int32 A number used to identify a virtual router instance in the system. The number 0 will have special significance in the context the TC is used.
vrtr-id-or-zero int32 A number used to identify a virtual router instance in the system. The number 0 will have special significance in the context the TC is used.
vrtr-mpls-lsp-id uint32 A unique value, greater than zero, for each Label Switched Path in the managed system.
vrtr-mpls-lsp-id uint32 A unique value, greater than zero, for each Label Switched Path in the managed system.
vrtr-mpls-lsp-id uint32 A unique value, greater than zero, for each Label Switched Path in the managed system.
vrtr-mpls-lsp-id uint32 A unique value, greater than zero, for each Label Switched Path in the managed system.
vrtr-mpls-lsp-id uint32 A unique value, greater than zero, for each Label Switched Path in the managed system.
vrtr-mpls-lsp-id uint32 A unique value, greater than zero, for each Label Switched Path in the managed system.
vrtr-mpls-lsp-id uint32 A unique value, greater than zero, for each Label Switched Path in the managed system.
vxlan-vni uint32 Specifies VXLAN VNI range.
vxlan-vni uint32 Specifies VXLAN VNI range.
vxlan-vni uint32 Specifies VXLAN VNI range.
vxlan-vni uint32 Specifies VXLAN VNI range.
vxlan-vni uint32 Specifies VXLAN VNI range.
vxlan-vni uint32 Specifies VXLAN VNI range.
vxlan-vni uint32 Specifies VXLAN VNI range.

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