An OpenConfig description of a network-instance. This may be a Layer 3 forwarding construct such as a virtual routing and forwar...
Version: 2024-02-27
module openconfig-network-instance { yang-version 1; namespace "http://openconfig.net/yang/network-instance"; prefix oc-netinst; import openconfig-yang-types { prefix oc-yang; } import openconfig-inet-types { prefix oc-inet; } import openconfig-network-instance-types { prefix oc-ni-types; } import openconfig-policy-types { prefix oc-pol-types; } import openconfig-routing-policy { prefix oc-rpol; } import openconfig-local-routing { prefix oc-loc-rt; } import openconfig-interfaces { prefix oc-if; } import openconfig-extensions { prefix oc-ext; } import openconfig-network-instance-l3 { prefix oc-ni-l3; } import openconfig-types { prefix oc-types; } import openconfig-bgp { prefix oc-bgp; } import openconfig-mpls { prefix oc-mpls; } import openconfig-vlan { prefix oc-vlan; } import openconfig-ospfv2 { prefix oc-ospfv2; } import openconfig-policy-forwarding { prefix oc-pf; } import openconfig-segment-routing { prefix oc-sr; } import openconfig-isis { prefix oc-isis; } import openconfig-aft { prefix oc-aft; } import openconfig-pim { prefix oc-pim; } import openconfig-igmp { prefix oc-igmp; } import openconfig-evpn { prefix oc-evpn; } import openconfig-pcep { prefix oc-pcep; } include openconfig-network-instance-l2; organization "OpenConfig working group"; contact "OpenConfig working group www.openconfig.net"; description "An OpenConfig description of a network-instance. This may be a Layer 3 forwarding construct such as a virtual routing and forwarding (VRF) instance, or a Layer 2 instance such as a virtual switch instance (VSI). Mixed Layer 2 and Layer 3 instances are also supported."; revision "2024-02-27" { description "Clarify that tables are created only by the system and not users."; reference "4.4.1"; } revision "2024-02-27" { description "Clarify metric to be used for route redistribution when disable-metric-propagation is set to true."; reference "4.4.0"; } revision "2023-12-13" { description "Expand when statement for connection-points endpoints"; reference "4.3.0"; } revision "2023-11-03" { description "Add reference URL for Route Redistribution rules"; reference "4.2.2"; } revision "2023-11-01" { description "Refactor apply policy to separate default policy in it's own common set of groupings"; reference "4.2.1"; } revision "2023-09-07" { description "Add L2RIB Per Producer Next-Hop Capability"; reference "4.2.0"; } revision "2023-08-09" { description "Update interface key to use interface-id type"; reference "4.1.1"; } revision "2023-07-12" { description "Moved ethernet-segments to top-level container."; reference "4.1.0"; } revision "2023-04-25" { description "Clarify use of interface-ref."; reference "4.0.3"; } revision "2023-03-15" { description "Clarify that tables are to be deleted by the network operating system"; reference "4.0.2"; } revision "2023-02-07" { description "Add prefixes to identity values in when statements"; reference "4.0.1"; } revision "2022-12-21" { description "Removal of global per network-instance MTU"; reference "4.0.0"; } revision "2022-12-21" { description "Removal of interface list unique statement"; reference "3.1.0"; } revision "2022-12-20" { description "Removal of top-level enabled-address-families leaf-list"; reference "3.0.0"; } revision "2022-11-18" { description "Enforce network-instance type as mandatory, removal of top-level enabled leaf, migrate IETF types to OpenConfig types"; reference "2.0.0"; } revision "2022-09-15" { description "Add fallback-vrf option."; reference "1.4.0"; } revision "2022-07-04" { description "Add PCEP protocol to network-instance"; reference "1.3.0"; } revision "2022-06-21" { description "Add prefix to qualification netinst-ref."; reference "1.2.0"; } revision "2022-04-20" { description "Add support for l2rib state data"; reference "1.1.0"; } revision "2022-04-19" { description "Description updates for DEFAULT_INSTANCE implementation guidance and default value/guidance for protocol instances"; reference "1.0.0"; } revision "2022-04-19" { description "Fix some broken xpath references in when statements."; reference "0.16.3"; } revision "2021-11-17" { description "Add prefix to qualification prefix to when statements at identifier level."; reference "0.16.2"; } revision "2021-07-22" { description "Add prefix to qualify when statements"; reference "0.16.1"; } revision "2021-06-11" { description "Structural update for arp-proxy and proxy-nd."; reference "0.16.0"; } revision "2021-01-25" { description "Add support for evpn"; reference "0.15.0"; } revision "2020-06-20" { description "Add support for toggling metric propagation when using table-connections."; reference "0.14.0"; } revision "2019-11-28" { description "Revert fixes for paths in when statements"; reference "0.13.2"; } revision "2019-06-11" { description "Fixed paths in when statements"; reference "0.13.1"; } revision "2019-05-14" { description "Added support for BGP signalled VPWS and VPLS."; reference "0.13.0"; } revision "2019-04-16" { description "Move BGP RIB into the protocol/bgp container."; reference "0.12.0"; } revision "2019-02-03" { description "Extend netinst type description to link it to, for example, MPLS service types."; reference "0.11.2"; } revision "2018-11-21" { description "Add OpenConfig module metadata extensions."; reference "0.11.1"; } revision "2018-08-11" { description "Add vlan id as additional key in MAC table"; reference "0.11.0"; } revision "2018-06-22" { description "Fix typo in OSPF when statement"; reference "0.10.2"; } revision "2018-06-05" { description "Fix bugs in when statements"; reference "0.10.1"; } revision "2018-02-19" { description "Add PIM and IGMP to network instance"; reference "0.10.0"; } revision "2017-12-13" { description "Fix incorrect constraint on SR and MPLS containers"; reference "0.9.0"; } revision "2017-08-24" { description "Minor formatting fixes"; reference "0.8.1"; } revision "2017-02-28" { description "Add OSPFv2 to network instance"; reference "0.8.0"; } revision "2017-01-26" { description "Add policy forwarding to network instance"; reference "0.7.0"; } revision "2017-01-13" { description "Add AFT to the network instance"; reference "0.6.0"; } revision "2016-12-15" { description "Add segment routing to network instance"; reference "0.5.0"; } revision "2016-11-10" { description "Add IS-IS to OpenConfig network instance"; reference "0.4.1"; } revision "2016-10-12" { description "Update table connections"; reference "0.4.0"; } revision "2016-09-28" { description "Change L2 instance to submodule; add MAC table"; reference "0.3.0"; } revision "2016-08-11" { description "Resolve repeated container names in routing protocols"; reference "0.2.3"; } revision "2016-07-08" { description "Updated with refactored routing protocol models"; reference "0.2.1"; } revision "2016-03-29" { description "Initial revision"; reference "0.2.0"; } revision "2015-10-18" { description "Initial revision"; reference "0.1.0"; } oc-ext:openconfig-version "4.4.1"; oc-ext:regexp-posix; oc-ext:catalog-organization "openconfig"; oc-ext:origin "openconfig"; typedef network-instance-ref { type leafref { path "/oc-netinst:network-instances/oc-netinst:network-instance/oc-netinst:config/oc-netinst:name"; } description "A re-usable type that can be referenced within other modules that references a network instance."; } grouping network-instance-top { description "Top-level grouping containing a list of network instances."; container network-instances { description "The L2, L3, or L2+L3 forwarding instances that are configured on the local system"; list network-instance { key "name"; description "Network instances configured on the local system IPv4 and IPv6 forwarding are enabled by default within an L3 network-instance and subsequently, routes can be populated into the network-instance using protocols that enable IPv4 and IPv6 configuration without explicitly enabling these."; leaf name { type leafref { path "../config/name"; } description "A unique name identifying the network instance"; } container config { description "Configuration parameters relating to a network instance"; uses network-instance-config; } // container config container state { config false; description "Operational state parameters relating to a network instance"; uses network-instance-config; uses network-instance-state; } // container state uses l2ni-instance { when "./config/type = 'oc-ni-types:L2VSI' or ./config/type = 'oc-ni-types:L2P2P' or ./config/type = 'oc-ni-types:L2L3' or ./config/type = 'oc-ni-types:DEFAULT_INSTANCE'" { description "Layer 2 configuration parameters included when a network instance is a Layer 2 instance or a combined L2L3 instance"; } } container evpn { when "../config/type = 'oc-ni-types:L2VSI' or ../config/type = 'oc-ni-types:L3VRF'" { description "EVPN container should be included for L2 and L3 NIs"; } description "Configuration of parameters for EVPN related bridge domains (MAC VRFs) and layer3 VRFs (IP VRFs)"; uses oc-evpn:evpn-config-top; } // container evpn container encapsulation { when "../config/type != 'oc-ni-types:DEFAULT_INSTANCE'" { description "Only allow the encapsulation of the instance to be set when the instance is not the default instance"; } description "Configuration parameters relating to the encapsulation used for the network instance"; container config { description "Configuration parameters relating to the encapsulation of the network instance"; uses encapsulation-config; uses l2ni-encapsulation-config { when "../../config/type = 'oc-ni-types:L2VSI' or ../../config/type = 'oc-ni-types:L2P2P' or ../../config/type = 'oc-ni-types:L2L3'" { description "Only allow L2 encapsulations to be set when the instance is of a type that supports L2"; } } } // container config container state { config false; description "State parameters relating to the encapsulation of the network instance"; uses encapsulation-config; uses l2ni-encapsulation-config { when "../../config/type = 'oc-ni-types:L2VSI' or ../../config/type = 'oc-ni-types:L2P2P' or ../../config/type = 'oc-ni-types:L2L3'" { description "Only allow L2 encapsulations to be set when the instance is of a type that supports L2"; } } } // container state } // container encapsulation container inter-instance-policies { description "Policies dictating how RIB or FIB entries are imported to and exported from this instance"; uses oc-rpol:apply-policy-group; uses oc-evpn:evpn-import-export-policy-top; } // container inter-instance-policies container table-connections { description "Policies dictating how RIB or FIB entries are propagated between tables"; list table-connection { key "src-protocol dst-protocol address-family"; description "A list of connections between pairs of routing or forwarding tables, the leaking of entries between which is specified by the import policy. A connection connecting a source table to a destination table implies that routes that match the policy specified for the connection are available for the destination protocol to advertise, or match within its policies."; reference "Route Redistribution in OpenConfig Network Instance: https://github.com/openconfig/public/blob/master/doc/network_instance_redistribution.md#interconnection-of-protocol-ribs"; leaf src-protocol { type leafref { path "../config/src-protocol"; } description "The name of the protocol associated with the table which should be utilised as the source of forwarding or routing information"; } leaf dst-protocol { type leafref { path "../config/dst-protocol"; } description "The table to which routing entries should be exported"; } leaf address-family { type leafref { path "../config/address-family"; } description "The address family associated with the connection"; } container config { description "Configuration parameters relating to the connection between tables"; uses inter-table-policies-config; } // container config container state { config false; description "State parameters relating to the connection between tables"; uses inter-table-policies-config; } // container state } // list table-connection } // container table-connections container interfaces { description "The interfaces that are associated with this network instance"; list interface { key "id"; description "An interface associated with the network instance. The interface referenced is based on the interface and subinterface leaves within the interface-ref container - which reference an entry in the /interfaces/interface list - and should not rely on the value of the list key."; leaf id { type leafref { path "../config/id"; } description "A reference to an identifier for this interface which acts as a key for this list"; } container config { description "Configuration parameters relating to the associated interface"; uses instance-interfaces-config; } // container config container state { config false; description "Operational state parameters relating to the associated interface"; uses instance-interfaces-config; uses instance-interfaces-state; } // container state } // list interface } // container interfaces uses oc-ni-l3:l3ni-route-limit-structural { when "./config/type = 'oc-ni-types:L3VRF' or ./config/type = 'oc-ni-types:L2L3'" { description "Layer 3 VRF or L2/L3 instances can have route limits applied. This is not supported for the default instance."; } } container tables { description "The routing tables that are managed by this network instance. Tables are created and removed by the system. Users do not create tables."; list table { key "protocol address-family"; description "A network instance manages one or more forwarding or routing tables. These may reflect a Layer 2 forwarding information base, a Layer 3 routing table, or an MPLS LFIB. The table populated by a protocol within an instance is identified by the protocol identifier (e.g., BGP, IS-IS) and the address family (e.g., IPv4, IPv6) supported by that protocol. Multiple instances of the same protocol populate a single table -- such that a single IS-IS or OSPF IPv4 table exists per network instance. An implementation is expected to create entries within this list when the relevant protocol context is enabled. i.e., when a BGP instance is created with IPv4 and IPv6 address families enabled, the protocol=BGP, address-family=IPv4 table is created by the system. The removal of the table should not require additional or explicit configurations. Users cannot create or delete tables. Instead a user may configure table-connections which reference these tables."; leaf protocol { type leafref { path "../config/protocol"; } description "A reference to the protocol that populates the table"; } leaf address-family { type leafref { path "../config/address-family"; } description "A reference to the address-family that the table represents"; } container config { description "Configuration parameters relating to the table"; uses table-config; } // container config container state { config false; description "State parameters related to the table"; uses table-config; } // container state } // list table } // container tables container connection-points { description "The set of connection points within a forwarding instance"; list connection-point { key "connection-point-id"; description "A connection point within a Layer 2 network instance. Each connection-point consists of a set of interfaces only one of which is active at any one time. Other than the specification of whether an interface is local (i.e., exists within this network-instance), or remote, all configuration and state parameters are common"; leaf connection-point-id { type leafref { path "../config/connection-point-id"; } description "A locally significant reference for the connection-point"; } container config { description "Configuration parameters relating to a Layer 2 network instance connection point"; uses instance-connection-point-config; } // container config container state { config false; description "Operational state parameters relating to a Layer 2 network instance connection point"; uses instance-connection-point-config; uses instance-connection-point-state; } // container state container endpoints { when "../../../config/type = 'oc-ni-types:L2P2P' or ../../../config/type = 'oc-ni-types:L2VSI'or ../../../config/type = 'oc-ni-types:DEFAULT_INSTANCE'" { description "Configuration parameters to associate interfaces into a common group for use in Layer 2 network instances"; } description "The set of endpoints which are grouped within the connection point"; list endpoint { key "endpoint-id"; description "A list of the endpoints (interfaces or remote connection points that can be used for this connection point). The active endpoint is selected based on the precedence that it is configured with."; leaf endpoint-id { type leafref { path "../config/endpoint-id"; } description "A pointer to the configured identifier for the endpoint"; } container config { description "Configuration parameters relating to the endpoint"; uses instance-endpoint-config; } // container config container state { config false; description "Operational state parameters relating to the endpoint"; uses instance-endpoint-config; uses instance-endpoint-state; } // container state container local { when "../config/type = 'oc-ni-types:LOCAL'" { description "Only include the local configuration when the endpoint is specified to be local to the network element"; } description "Configuration and operational state parameters relating to a local interface"; container config { description "Configuration parameters relating to a local endpoint"; uses instance-endpoint-local-config; } // container config container state { config false; description "Operational state parameters relating to a local endpoint"; uses instance-endpoint-local-config; } // container state } // container local container remote { when "../config/type = 'oc-ni-types:REMOTE'" { description "Only include the remote configuration when the endpoint is specified to be remote to the network element"; } description "Configuration and operational state parameters relating to a remote interface"; container config { description "Configuration parameters relating to a remote endpoint"; uses instance-endpoint-remote-config; } // container config container state { config false; description "Operational state parameters relating to a remote endpoint"; uses instance-endpoint-remote-config; } // container state } // container remote container vxlan { description "Configuration and operational state parameters relating to a VXLAN tunnel end-point interface"; uses oc-evpn:evpn-overlays-grp-top; } // container vxlan } // list endpoint } // container endpoints } // list connection-point } // container connection-points uses oc-mpls:mpls-top { when "./config/type = 'oc-ni-types:DEFAULT_INSTANCE'" { description "MPLS configuration is only valid within the default network instance."; } } uses oc-sr:sr-top { when "./config/type = 'oc-ni-types:DEFAULT_INSTANCE'" { description "Segment routing configuration is only valid with the default network instance."; } } uses oc-vlan:vlan-top; uses oc-pf:policy-forwarding-top; uses oc-aft:aft-top; container protocols { description "The routing protocols that are enabled for this network-instance."; list protocol { key "identifier name"; description "A process (instance) of a routing protocol. Some systems may not support more than one instance of a particular routing protocol"; leaf identifier { type leafref { path "../config/identifier"; } description "The protocol name for the routing or forwarding protocol to be instantiated"; } leaf name { type leafref { path "../config/name"; } description "An operator-assigned identifier for the routing or forwarding protocol. For some processes this leaf may be system defined."; } container config { description "Configuration parameters relating to the routing protocol instance"; uses protocols-config; } // container config container state { config false; description "State parameters relating to the routing protocol instance"; uses protocols-config; uses protocols-state; } // container state uses oc-loc-rt:local-static-top { when "./config/identifier = 'oc-pol-types:STATIC'" { description "Include static route parameters only when the protocol is set to static"; } description "Configuration and state parameters relating to static routes"; } uses oc-loc-rt:local-aggregate-top { when "./config/identifier = 'oc-pol-types:LOCAL_AGGREGATE'" { description "Include aggregate route parameters only when the protocol is set to aggregate"; } description "Configuration and state parameters relating to locally generated aggregate routes"; } uses oc-bgp:bgp-top { when "./config/identifier = 'oc-pol-types:BGP'" { description "Include BGP parameters only when the protocol is of type BGP"; } description "Configuration and state parameters relating to Border Gateway Protocol (BGP)"; } uses oc-ospfv2:ospfv2-top { when "./config/identifier = 'oc-pol-types:OSPF'" { description "Include OSPFv2 parameters only when the protocol is of type OSPFv2"; } } uses oc-isis:isis-top { when "./config/identifier = 'oc-pol-types:ISIS'" { description "Include IS-IS configuration when the protocol is of type IS-IS"; } description "Configuration and state parameters relating to Intermediate System to Intermediate System (IS-IS)."; } uses oc-pim:pim-top { when "./config/identifier = 'oc-pol-types:PIM'" { description "Include PIM configuration when the protocol is of type PIM"; } description "Configuration and state parameters relating to Protocol Indepdendent Multicast (PIM)."; } uses oc-igmp:igmp-top { when "./config/identifier = 'oc-pol-types:IGMP'" { description "Include IGMP configuration when the protocol is of type IGMP"; } description "Configuration and state parameters relating to the Internet Group Management Protocol (IGMP)."; } uses oc-pcep:pcep-top { when "./config/identifier = 'oc-pol-types:PCEP'" { description "Include PCEP configuration when the protocol is of type PCEP"; } description "Configuration and state parameters relating to the Path Computation Element Protocol (PCEP)."; } } // list protocol } // container protocols } // list network-instance } // container network-instances } // grouping network-instance-top grouping instance-endpoint-config { description "Configuration data relating to an forwarding-instance endpoint"; leaf endpoint-id { type string; description "An identifier for the endpoint"; } leaf precedence { type uint16; description "The precedence of the endpoint - the lowest precendence viable endpoint will be utilised as the active endpoint within a connection"; } leaf type { type identityref { base oc-ni-types:ENDPOINT_TYPE; } description "The type of endpoint that is referred to by the current endpoint"; } } // grouping instance-endpoint-config grouping instance-endpoint-local-config { description "Configuration parameters relating to an endpoint that is local to the current system"; uses oc-if:interface-ref-common; leaf site-id { type uint16; description "The VE ID as defined in RFC4761 (VPLS) or CE ID as defined in RFC6624 (l2vpn) to uniquely identify this endpoint (site) as part of the BGP discovery of remote endpoints for layer 2 services."; reference "RFC6624 Section 2.2.1, RFC4761 Section 3.2.2"; } leaf site-label-block-offset { type uint16; description "The VPLS label block offset that is signaled with the 'site-id'."; reference "RFC4761 Section 3.2.1 'VBO'"; } leaf site-label-block-size { type uint16; description "The VPLS label block size that is signaled with the 'site-id'."; reference "RFC4761 Section 3.2.1 'VBS'"; } } // grouping instance-endpoint-local-config grouping instance-endpoint-remote-config { description "Configuration parameters relating to an endpoint that is remote from the local system"; leaf remote-system { type oc-inet:ip-address; description "The IP address of the device which hosts the remote end-point"; } leaf virtual-circuit-identifier { type uint32; description "The virtual-circuit identifier that identifies the connection at the remote end-point"; } leaf site-id { type uint16; description "Identifies remote sites. When BGP discovery is used this is the customer edge identifier"; reference "RFC6624 Section 2.2.1"; } } // grouping instance-endpoint-remote-config grouping instance-endpoint-state { description "Operational state data relating to a forwarding-instance endpoint"; leaf active { type boolean; description "When the backup endpoint is active, the value of this parameter is set to true"; } } // grouping instance-endpoint-state grouping instance-connection-point-config { description "Configuration data relating to a forwarding-instance connection point"; leaf connection-point-id { type string; description "An identifier for a connection point"; } } // grouping instance-connection-point-config grouping instance-connection-point-state { description "Operational state data relating to a forwarding-instance connection point"; } // grouping instance-connection-point-state grouping table-config { description "Config parameters relating to an L2/L2.5/L3 table that exists within a network instance"; leaf protocol { type leafref { path "../../../../protocols/protocol/config/identifier"; } description "Reference to the protocol that the table is associated with."; } leaf address-family { type identityref { base oc-types:ADDRESS_FAMILY; } description "The address family (IPv4, IPv6) of the table's entries"; } } // grouping table-config grouping instance-interfaces-config { description "Configuration parameters related to an interface associated with the network instance"; leaf id { type oc-if:interface-id; description "A unique identifier for this interface - this is expressed as a free-text string"; } uses oc-if:interface-ref-common; leaf-list associated-address-families { type identityref { base oc-types:ADDRESS_FAMILY; } description "The address families on the subinterface which are to be associated with this network instance. When this leaf-list is empty and the network instance requires Layer 3 information the address families for which the network instance is enabled should be imported. If the value of this leaf-list is specified then the association MUST only be made for those address families that are included in the list."; } leaf mac-pinning { type boolean; description "Enable (TRUE) or disable (FALSE). There are scenarios in which it is desired to configure some MAC addresses as static so that they are not subjected to MAC moves. If you enable MAC pinning on a CE interface, that MAC address cannot be moved to any other CE interface"; reference "RFC 7432: BGP MPLS-Based Ethernet VPN"; } leaf irb-anycast-gateway { type enumeration { enum "DISTRIBUTED_SYMETRIC" { value 0; description "Distributed anycast gateway"; } enum "DISTRIBUTED_ASYMETRIC" { value 1; description "Distributed asymetric anycast gateway"; } enum "HYBRID" { value 2; description "Hybrid anycast gateway"; } enum "CENTRALIZED" { value 3; description "Centralized anycast gateway"; } } description "Associate VLAN SVI with anycast Gateway. The SVI is the layer3 interface for the mac-vrf when the SVI is being used as the first hop default gw."; } } // grouping instance-interfaces-config grouping instance-interfaces-state { description "Operational state parameters relating to an interface associated with this network instance"; } // grouping instance-interfaces-state grouping inter-table-policies-config { description "Configuration entries that relate to how RIB or FIB entries are propagated between tables within the same network instance"; leaf src-protocol { type leafref { path "../../../../tables/table/config/protocol"; } description "The source protocol for the table connection"; } leaf address-family { type leafref { path "../../../../tables/table[protocol=current()/../src-protocol]/config/address-family"; } description "The address family associated with the connection. This must be defined for the source protocol. The target address family is implicitly defined by the address family specified for the source protocol."; } leaf dst-protocol { type leafref { path "../../../../tables/table/config/protocol"; } description "The destination protocol for the table connection"; } leaf disable-metric-propagation { type boolean; default "false"; description "By default a system may reflect the metric specified in the destination protocol according to that which is set in the source protocol. For example: - IS-IS metric may be reflected in BGP MED (and vice versa) - OSPF metric may be reflected in the BGP MED (and vice versa) When this leaf is set to true, this reflection behaviour MUST be disabled, and rather the metric must be set to '0' or explicitly set by policy."; } uses oc-rpol:apply-policy-import-config; uses oc-rpol:default-policy-import-config; } // grouping inter-table-policies-config grouping network-instance-config { description "Configuration parameters relating to a top-level network instance"; leaf name { type string; description "An operator-assigned unique name for the network instance. If the operator does not designate a name for the instance of type 'DEFAULT_INSTANCE' (e.g. config), the implementation should use the name of 'DEFAULT' (e.g. state)."; } leaf type { type identityref { base oc-ni-types:NETWORK_INSTANCE_TYPE; } mandatory true; description "The type of network instance. The value of this leaf indicates the type of forwarding entries that should be supported by this network instance. Signalling protocols also use the network instance type to infer the type of service they advertise; for example MPLS signalling for an L2VSI network instance would infer a VPLS service whereas a type of L2PTP would infer a VPWS (pseudo-wire) service. An implementation must support only a single network-instance of type 'DEFAULT_INSTANCE'."; } leaf description { type string; description "A free-form string to be used by the network operator to describe the function of this network instance"; } leaf router-id { type oc-yang:dotted-quad; description "A identifier for the local network instance - typically used within associated routing protocols or signalling routing information in another network instance"; } leaf route-distinguisher { type oc-ni-types:route-distinguisher; description "The route distinguisher that should be used for the local VRF or VSI instance when it is signalled via BGP."; } leaf fallback-network-instance { when "../type = 'oc-ni-types:L3VRF'"; type network-instance-ref; description "When this leaf is populated, the specified network instance should be used as a fallback instance when a route cannot be resolved in the local network-instance. This configuration is only valid when specified in a non-default instance which must be a L3 capable VRF (i.e., L2L3, or L3VRF)."; } } // grouping network-instance-config grouping network-instance-state { description "Operational state parameters relating to a network instance"; } // grouping network-instance-state grouping protocols-config { description "Configuration parameters relating to a generic protocol instance within a network instance"; leaf identifier { type identityref { base oc-pol-types:INSTALL_PROTOCOL_TYPE; } description "The protocol identifier for the instance"; } leaf name { type string; default "DEFAULT"; description "A unique name for the protocol instance. If the operator does not designate a name for the protocol instance (e.g. config), the implementation should use the name of 'DEFAULT' (e.g. state). In addition, for implementations that support single protocol instances, the default value is recommended for consistency and uniqueness per protocol instance."; } leaf enabled { type boolean; description "A boolean value indicating whether the local protocol instance is enabled."; } leaf default-metric { type uint32; description "The default metric within the RIB for entries that are installed by this protocol instance. This value may be overridden by protocol specific configuration options. The lower the metric specified the more preferable the RIB entry is to be selected for use within the network instance. Where multiple entries have the same metric value then these equal cost paths should be treated according to the specified ECMP path selection behaviour for the instance"; } } // grouping protocols-config grouping protocols-state { description "Operational state parameters relating to a protocol instance"; } // grouping protocols-state grouping instance-interface-association-config { description "Grouping containing leaves that are to be augmented into an interface or subinterface to include mapping to a network instance"; leaf network-instance { type leafref { path "/network-instances/network-instance/name"; } description "The network instance that this interface is associated with"; } } // grouping instance-interface-association-config grouping encapsulation-config { description "Type agnostic configuration parameters relating to the encapsulation of the network instance"; leaf encapsulation-type { type identityref { base oc-ni-types:ENCAPSULATION; } description "The on-the-wire encapsulation that should be used when sending traffic from this network instance"; } leaf label-allocation-mode { type identityref { base oc-ni-types:LABEL_ALLOCATION_MODE; } description "The label allocation mode to be used for L3 entries in the network instance"; } } // grouping encapsulation-config uses network-instance-top; } // module openconfig-network-instance
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