openconfig-evpn

This module contains general data definitions for use in EVPN. The model contains the configuration and state attributes importe...

  • Version: 2024-02-01

    openconfig-evpn@2024-02-01


    
      module openconfig-evpn {
    
        yang-version 1;
    
        namespace
          "http://openconfig.net/yang/evpn";
    
        prefix oc-evpn;
    
        import openconfig-yang-types {
          prefix oc-yang;
        }
        import openconfig-extensions {
          prefix oc-ext;
        }
        import openconfig-network-instance-types {
          prefix oc-ni-types;
        }
        import openconfig-evpn-types {
          prefix oc-evpn-types;
        }
        import openconfig-inet-types {
          prefix oc-inet;
        }
        import openconfig-interfaces {
          prefix oc-if;
        }
        import openconfig-bgp-types {
          prefix oc-bgp-types;
        }
        import openconfig-types {
          prefix oc-types;
        }
    
        organization "OpenConfig working group";
    
        contact
          "OpenConfig working group
    netopenconfig@googlegroups.com";
    
        description
          "This module contains general data definitions for use in EVPN.
    The model contains the configuration and state attributes
    imported by the OpenConfig network instance module that is
    the primary holder of these properties.
    
    The module describes the configuration and state parameters
    to support the instantiation of the MAC-VRF concept defined
    in the RFC 7432: BGP MPLS-Based Ethernet VPN.
    The EVPN concept allows the  Media Access Control (MAC) addresses
    forwarding through the control plane on a PE.
    
    Within the OpenConfig model, a single network instance represents
    an individual MAC VRF. Whilst it is possible that there may be
    cases where a single MAC VRF may support multiple broadcast
    domains, this is not currently supported and requires an extension
    of the model.";
    
        revision "2024-02-01" {
          description
            "Add counters under endpoint-peer and endpoint-vni";
          reference
            "0.7.0";
    
        }
    
        revision "2023-07-12" {
          description "Removed ethernet segment";
          reference
            "0.6.0";
    
        }
    
        revision "2023-03-08" {
          description
            "Change control-plane-vnis property to leaf-list";
          reference
            "0.5.0";
    
        }
    
        revision "2023-01-24" {
          description "Add control word support";
          reference
            "0.4.0";
    
        }
    
        revision "2021-06-28" {
          description
            "Add vxlan endpoint oper data";
          reference
            "0.3.0";
    
        }
    
        revision "2021-06-11" {
          description
            "Structural update for arp-proxy and
    nd-proxy.";
          reference
            "0.2.0";
    
        }
    
        revision "2020-11-24" {
          description "Initial revision.";
          reference
            "0.1.0";
    
        }
    
        oc-ext:openconfig-version "0.7.0";
    
        grouping evpn-config-top {
          description
            "Configuration attributes of the EVPN Instance";
          container evpn-instances {
            description
              "Configuration attributes of the EVPN Instance";
            list evpn-instance {
              key "evi";
              description
                "An EVPN instance (EVI) comprises Customer Edge devices
    (CEs) that are connected to Provider Edge devices (PEs). One
    network instance (representing a single MAC VRF) can
    participate in one or more EVPN Instances. For each EVPN instance
    in which the forwarding instance participates an
    EVPN instance needs to be created.
    
    The model supports BGP MPLS-Based Ethernet VPNs
    (RFC 7432) and  Network Virtualization Overlay Solution
    Using Ethernet VPN (RFC 8365). The use of MPLS or VXLAN
    is selected via the encapsulation container within
    EVPN instance. One use case requiring participating in
    two EVIs is the Interconnect Solution for EVPN Overlay
    networks (see draft-ietf-bess-dci-evpn-overlay-10)";
              leaf evi {
                type leafref {
                  path "../config/evi";
                }
                description
                  "EVPN Intance (EVI) identifier";
              }
    
              container config {
                description
                  "EVPN Configuration parameters for
    the participation in an EVPN Intance.";
                uses evpn-evi-common-config;
              }  // container config
    
              container state {
                config false;
                description
                  "EVPN State parameters for
    the participation in an EVPN Intance.";
                uses evpn-evi-common-config;
              }  // container state
    
              uses evpn-import-export-policy-top;
    
              uses evpn-evi-overlay-top;
    
              uses evpn-evi-pbb-top;
            }  // list evpn-instance
          }  // container evpn-instances
        }  // grouping evpn-config-top
    
        grouping evpn-import-export-policy-top {
          description
            "Top Level grouping for the import and export
    route targets in a EVPN Instance.";
          container import-export-policy {
            description
              "Top container to set the import and export policies
    associated with a EVI";
            container config {
              description
                "Configuration parameters to set the import and export policies
    associated with a EVI";
              uses evpn-import-export-config;
            }  // container config
    
            container state {
              config false;
              description
                "State parameters of the import and export policies
    associated with a EVI";
              uses evpn-import-export-config;
            }  // container state
          }  // container import-export-policy
        }  // grouping evpn-import-export-policy-top
    
        grouping evpn-arp-proxy-top {
          description
            "Top Container related to ARP-Proxy";
          container arp-proxy {
            description
              "Top Container related to ARP-Proxy";
            container config {
              description
                "Configuration data related to ARP-Proxy.";
              uses evpn-arp-proxy-config;
            }  // container config
    
            container state {
              config false;
              description
                "State data related to ARP-Proxy.";
              uses evpn-arp-proxy-config;
            }  // container state
          }  // container arp-proxy
        }  // grouping evpn-arp-proxy-top
    
        grouping evpn-nd-proxy-top {
          description
            "Top Container related to ND-Proxy";
          container nd-proxy {
            description
              "Top Container related to ND-Proxy.";
            container config {
              description
                "Configuration data related to ND-Proxy.";
              uses evpn-nd-proxy-config;
            }  // container config
    
            container state {
              config false;
              description
                "State data related to ND-Proxy.";
              uses evpn-nd-proxy-config;
            }  // container state
          }  // container nd-proxy
        }  // grouping evpn-nd-proxy-top
    
        grouping evpn-arp-proxy-config {
          description
            "Configuration data related to ARP-Proxy";
          leaf enable {
            type boolean;
            default "false";
            description
              "Enable (TRUE) or disable (FALSE) ARP proxy. If true
    a proxy server on the network answers the
    Address Resolution Protocol (ARP) queries for an
    IP address that is not on that network.";
          }
    
          leaf arp-suppression {
            type boolean;
            default "false";
            description
              "Enable (TRUE) or disable (FALSE) ARP suppression. If true
    the  Address Resolution Protocol (ARP) queries for an
    IP address that is not on that network are suppressed.
    Address Resolution Protocol (ARP) suppression is a
    technique used to reduce the amount of ARP broadcast
    flooding within individual VXLAN segments, that is between
    VMs connected to the same logical switch.";
            reference
              "draft-ietf-bess-evpn-proxy-arp-nd-13
               RFC 7432: BGP MPLS-Based Ethernet VPN";
    
          }
    
          leaf ip-mobility-threshold {
            type uint16;
            description
              "Enable (TRUE) or disable (FALSE). It is possible for a given host
    or end-station (as defined by its IP address) to move from one
    Ethernet segment to another. The number of IP mobility events that
    are detected for a given IP address within the detection-threshold
    before it is identified as a duplicate IP address.
    Once the detection threshold is reached, updates for the IP address
    are suppressed.";
          }
    
          leaf duplicate-ip-detection-interval {
            type uint16;
            description
              "The time interval used in detecting a duplicate IP address.
    Duplicate ip detection number of host moves
    allowed within interval period";
          }
        }  // grouping evpn-arp-proxy-config
    
        grouping evpn-nd-proxy-config {
          description
            "Configuration data related to Neighbor Discovery (ND)
     proxy";
          leaf enable {
            type boolean;
            default "false";
            description
              "Enable (TRUE) or disable (FALSE) Neighbor Discovery (ND)
    proxy. If true a proxy server on the network answers the
    NDP packets for an IP address that is not on that network.";
            reference
              "draft-ietf-bess-evpn-proxy-arp-nd-13
               RFC 7432: BGP MPLS-Based Ethernet VPN";
    
          }
    
          leaf nd-suppression {
            type boolean;
            default "false";
            description
              "Enable (TRUE) or disable (FALSE) Neighbor Discovery suppression.
    If true the NDP queries for an IP address that is not on that
    network are suppressed. NDP suppression is a
    technique used to reduce the amount of NDP Packets
    flooding within individual VXLAN segments, that is between
    VMs connected to the same logical switch.";
          }
    
          leaf ip-mobility-threshold {
            type uint16;
            description
              "Enable (TRUE) or disable (FALSE). It is possible for a given host
    or end-station (as defined by its IP address) to move from one
    Ethernet segment to another. The number of IP mobility events that
    are detected for a given IP address within the detection-threshold
    before it is identified as a duplicate IP address.
    Once the detection threshold is reached, updates for the IP address
    are suppressed.";
          }
    
          leaf duplicate-ip-detection-interval {
            type uint16;
            description
              "The time interval used in detecting a duplicate IP address.
    Duplicate ip detection number of host moves
    allowed within interval period";
          }
        }  // grouping evpn-nd-proxy-config
    
        grouping evpn-mac-vrf-config {
          description
            "Configuration data related to mac-vrf";
          leaf anycast-gateway-mac {
            type oc-yang:mac-address;
            description
              "Configure the anycast gateway MAC address that all VTEPs
    use for the network instance. When a VM sends an Address
    Resolution Protocol (ARP) request for the anycast gateway
    IP address in a VXLAN virtual network, the VTEP responds
    with the configured anycast MAC address.";
          }
    
          leaf flood-unknown-unicast-supression {
            type boolean;
            default "false";
            description
              "Enable (TRUE) or disable (FALSE) the Unknown Unicast Flooding
    Suppression. If the Unknown Unicast Flooding Suppression is on,
    the unicast traffic towards an unknown host will be dropped.";
          }
        }  // grouping evpn-mac-vrf-config
    
        grouping evpn-mac-mobility-config {
          description
            "Configuration data related to mac-vrf";
          leaf mac-mobility {
            type boolean;
            description
              "Enable (TRUE) or disable (FALSE). It is possible for a given host
    or end-station (as defined by its MAC address) to move from one
    Ethernet segment to another; this is referred to as 'MAC Mobility'
    or 'MAC move. The configuration attributes includes: mac-mobility-window
    and mac-mobility-threshold";
          }
    
          leaf mac-mobility-window {
            type uint16 {
              range "0..600";
            }
            default "180";
            description
              "The time interval used in detecting a duplicate MAC address.
    The value can be from 5 through 600 seconds.
    The default is 180 seconds";
            reference
              "RFC 7432: BGP MPLS-Based Ethernet VPN section-15";
    
          }
    
          leaf mac-mobility-threshold {
            type uint8 {
              range "0..50";
            }
            default "5";
            description
              "The number of MAC mobility events that are detected for a
    given MAC address within the detection-window before it is identified
    as a duplicate MAC address. Once the detection threshold is reached,
    updates for the MAC address are suppressed.";
            reference
              "RFC 7432: BGP MPLS-Based Ethernet VPN section-15";
    
          }
    
          leaf ip-mobility-threshold {
            type uint16;
            description
              "Enable (TRUE) or disable (FALSE). It is possible for a given host
    or end-station (as defined by its IP address) to move from one
    Ethernet segment to another. The number of IP mobility events that
    are detected for a given IP address within the detection-threshold
    before it is identified as a duplicate IP address.
    Once the detection threshold is reached, updates for the IP address
    are suppressed.";
          }
    
          leaf duplicate-ip-detection-interval {
            type uint16;
            description
              "The time interval used in detecting a duplicate IP address.
    Duplicate ip detection number of host moves
    allowed within interval period";
          }
        }  // grouping evpn-mac-mobility-config
    
        grouping evpn-mac-mobility-top {
          description
            "Top grouping the configuration and state data related to mac
    mobility.";
          container mac-mobility {
            description
              "Top grouping the configuration and state data related to mac
    mobility.";
            container config {
              description
                "Configuration data related to mac mobility.";
              uses evpn-mac-mobility-config;
            }  // container config
    
            container state {
              config false;
              description
                "State data related to mac mobility.";
              uses evpn-mac-mobility-config;
            }  // container state
          }  // container mac-mobility
        }  // grouping evpn-mac-mobility-top
    
        grouping evpn-evi-common-config {
          description
            "Top-Level parameters related the configuration of
    EVPN to partipate in one EVPN instance";
          leaf evi {
            type string;
            description
              "EVPN Instance (EVI) identifier";
          }
    
          leaf encapsulation-type {
            type identityref {
              base oc-ni-types:ENCAPSULATION;
            }
            description
              "The on-the-wire encapsulation that should be used when
    exchanging traffic from this network instance to/from
    destinations belonging to the EVI. The use of MPLS or
    VXLAN is selected using this container.";
          }
    
          leaf service-type {
            type identityref {
              base oc-evpn-types:EVPN_TYPE;
            }
            description
              "Specifies the type of EVPN that is being created according
    to the values in the EVPN_TYPES identity.
    The options are VLAN-based, VLAN-Bundle or VLAN-aware.
    VLAN-Based services consists of an EVPN instance of only a
    single broadcast domain, the proper network-instance type used
    for this kind of services is L2VSI.";
            reference
              "RFC 7432: BGP MPLS-Based Ethernet VPN";
    
          }
    
          leaf multicast-group {
            type oc-inet:ip-address;
            description
              "Multicast group address for BUM traffic";
          }
    
          leaf multicast-mask {
            type oc-inet:ip-address;
            description
              "Multicast group address mask";
          }
    
          leaf replication-mode {
            type enumeration {
              enum "STATIC_INGRESS_REPLICATION" {
                value 0;
                description
                  "Static ingress replication mode.";
              }
              enum "BGP" {
                value 1;
                description
                  "BGP EVPN ingress replication mode. It includes the ability to
    signal a P2MP LSP for the EVPN Inclusive Provider Tunnel
    for BUM traffic";
              }
              enum "MULTICAST" {
                value 2;
                description
                  "Multicast enabled in the underlay for BUM traffic";
              }
            }
            description
              "Replication mode to handle BUM traffic";
          }
    
          leaf route-distinguisher {
            type union {
              type oc-ni-types:route-distinguisher;
              type enumeration {
                enum "AUTO" {
                  value 0;
                  description
                    "Enable auto route-distinguisher generation.
    When used for evpn and if not configured, the
    RD is auto-derived with the format <ip-address>:<evi> where
    ip-address is the ipv4 address associated to the
    system loopback or sub-interface.";
                  reference
                    "RFC 7432: BGP MPLS-Based Ethernet VPN page-18";
    
                }
              }
            }
            description
              "Route Distinguisher (RD) associated to the EVPN-instance.
    An RD MUST be assigned for a given EVPN-instance on a PE.
    This RD MUST be unique across all EVPN-instances on a PE.
    The route-distinguisher at this level overrides
    the route-distinguisher value defined under
    network-instance/config.";
            reference
              "RFC 7432: BGP MPLS-Based Ethernet VPN page-18";
    
          }
    
          leaf control-word-enabled {
            type boolean;
            description
              "When true, the control word is signaled and sent.";
            reference
              "RFC8214 Virtual Private Wire Service Support
              in Ethernet VPN
               draft-ietf-bess-rfc7432bis-05 BGP MPLS-Based
              Ethernet VPN";
    
          }
        }  // grouping evpn-evi-common-config
    
        grouping evpn-import-export-config {
          description
            "Parameters for import and export policy";
          leaf-list export-route-target {
            type union {
              type oc-bgp-types:bgp-ext-community-type;
              type enumeration {
                enum "AUTO" {
                  value 0;
                  description
                    "Enable auto route-target generation.
    When used for EVPN and if not configured, the RT is auto-derived
    with the format <asn>:<evi> where 'asn' is the autonomous-system
    configured in the network-instance default.
    Auto-derived route targets simplify the configuration of
    VLAN services for EVPN, especially in VLAN-aware bundle
    services where you can have multiple VLANs, multiple
    bridge domains and the VLANS for a given service are
    not present on all PE devices.";
                }
              }
            }
            description
              "Export Route Target (RT) in the network-instance on a PE.";
            reference
              "RFC 7432: BGP MPLS-Based Ethernet VPN page-19";
    
          }
    
          leaf-list import-route-target {
            type union {
              type oc-bgp-types:bgp-ext-community-type;
              type enumeration {
                enum "AUTO" {
                  value 0;
                  description
                    "Enable auto route-target generation.
    When used for EVPN and if not configured, the RT is auto-derived
    with the format <asn>:<evi> where 'asn' is the autonomous-system
    configured in the network-instance default.
    Auto-derived route targets simplify the configuration of
    VLAN services for EVPN, especially in VLAN aware bundle
    services where you can have multiple VLANs, multiple
    bridge domains and the VLANS for a given service are
    not present on all PE devices.";
                }
              }
            }
            description
              "Import Route Target (RT) in the network-instance on a PE.";
            reference
              "RFC 7432: BGP MPLS-Based Ethernet VPN page-19";
    
          }
        }  // grouping evpn-import-export-config
    
        grouping evpn-evi-overlay-top {
          description
            "Top grouping related the configuration of
    Network Virtualization Overlay Solution
    Using Ethernet VPN";
          container vxlan {
            description
              "Top container related to Overlay Solution in EVPN.";
            container config {
              description
                "Configuration data related to Overlay Solution in EVPN.";
              uses evpn-evi-overlay-config;
            }  // container config
    
            container state {
              config false;
              description
                "State data related to Overlay Solution in EVPN.";
              uses evpn-evi-overlay-config;
            }  // container state
    
            uses evpn-vxlan-anycast-config;
          }  // container vxlan
        }  // grouping evpn-evi-overlay-top
    
        grouping evpn-evi-overlay-config {
          description
            "Parameters related the configuration of Network Virtualization Overlay Solution
    Using Ethernet VPN";
          leaf vni {
            type oc-evpn-types:vni-id;
            description
              "Virtual Network Identifier (VNI) associated to the EVI. This VNI is used for
    ingress and egress in the VXLAN domain.";
          }
    
          leaf overlay-endpoint-network-instance {
            type leafref {
              path
                "/network-instances/network-instance/name";
            }
            description
              "The network instance to resolve the overlay-endpoint within.";
          }
    
          leaf overlay-endpoint {
            type leafref {
              path
                "/network-instances/network-instance[name=current()/../overlay-endpoint-network-instance]/connection-points/connection-point/endpoints/endpoint/config/endpoint-id";
            }
            description
              "Associate the EVI with an VXLAN Endpoint defined under connection
    points. The network instance to resolve the overlay-endpoint within.";
          }
    
          leaf host-reachability-bgp {
            type boolean;
            description
              "Enable or Disable the BGP control plane to be
    used to exchange  updates from the NVE interface";
          }
    
          leaf multicast-group {
            type oc-inet:ip-address;
            description
              "Multicast group address for BUM traffic";
          }
    
          leaf multicast-mask {
            type oc-inet:ip-address;
            description
              "Multicast group address mask";
          }
        }  // grouping evpn-evi-overlay-config
    
        grouping evpn-vxlan-anycast-config {
          description
            "Anycast source interface top grouping";
          container anycast-source-interface {
            description
              "Anycast source interface references";
            container config {
              description
                "Anycast source interface configuration references";
              uses oc-if:interface-ref-common;
            }  // container config
    
            container state {
              config false;
              description
                "Anycast source interface state references";
              uses oc-if:interface-ref-common;
            }  // container state
          }  // container anycast-source-interface
        }  // grouping evpn-vxlan-anycast-config
    
        grouping evpn-parameters-pbb-isid-config {
          description
            "I-component identifier configuration parameters.
    In PBB-EVPN [RFC7623] the use of GWs where I-components and
    associated B-components are part of EVI instances is required.";
          leaf i-sid {
            type uint32 {
              range "0..16777215";
            }
            description
              "Service Instance Identifier 24 bits and global within a PBB
    network. I-SID defines the service instance that the frame should be
    mapped to.";
            reference
              "RFC 7080: Virtual Private LAN Service (VPLS) Interoperability
              with Provider Backbone Bridges.";
    
          }
        }  // grouping evpn-parameters-pbb-isid-config
    
        grouping evpn-parameters-pbb-config {
          description
            "I-component identifier configuration parameters.
    In PBB-EVPN [RFC7623] the use of GWs where I-components and
    associated B-components are part of EVI instances is required.
    These parameters includes the association between I and B
    components.";
          leaf b-component-name {
            type string;
            description
              "Type of the associated b-component";
          }
    
          leaf backbone-src-mac {
            type oc-yang:mac-address;
            description
              "EVPN will run independently in both components,
    the I-component MAC-VRF and B-component MAC-VRF.
    The backbone-src-mac assigns the b-component MAC.";
          }
        }  // grouping evpn-parameters-pbb-config
    
        grouping evpn-parameters-pbb-icomponent-config {
          description
            "Parameters to configure components contained
    in a backbone edge bridge that containes the customer
    space (customer MAC addresses,S-VLAN).";
          container i-components {
            description
              "i-components container definition.";
            list i-component {
              key "i-sid";
              description "list of i-components";
              leaf i-sid {
                type leafref {
                  path "../config/i-sid";
                }
                description
                  "I-SID represents a unique service identifier associated with
    service instances";
              }
    
              container config {
                description
                  "Configuration variables for the i-sid";
                uses evpn-parameters-pbb-isid-config;
              }  // container config
    
              container state {
                config false;
                description
                  "State variables for the i-sid";
                uses evpn-parameters-pbb-isid-config;
              }  // container state
            }  // list i-component
          }  // container i-components
        }  // grouping evpn-parameters-pbb-icomponent-config
    
        grouping evpn-evi-pbb-config {
          description
            "Provider Backbone Bridging (PBB) parameters grouping";
          reference
            "IEEE 802.1ah Provider Backbone Bridge";
    
          list b-component {
            key "b-component-name";
            description
              "List of B-components. The b-component learns and forwards
    traffic on the backbone in order to reduce the number of
    BGP MAC Advertisement routes by aggregating Customer/Client
    MAC (C-MAC) addresses via Provider Backbone MAC (B-MAC) address.";
            reference
              "RFC 7623: Provider Backbone Bridging Combined
              with Ethernet VPN (PBB-EVPN).";
    
            leaf b-component-name {
              type leafref {
                path
                  "../config/b-component-name";
              }
              description
                "Provider Backbone Bridging component name.";
            }
    
            container config {
              description
                "Configuration variables for the b-components.";
              uses evpn-parameters-pbb-config;
            }  // container config
    
            container state {
              config false;
              description
                "State variables for the b-components.";
              uses evpn-parameters-pbb-config;
            }  // container state
    
            uses evpn-parameters-pbb-icomponent-config;
          }  // list b-component
        }  // grouping evpn-evi-pbb-config
    
        grouping evpn-evi-pbb-top {
          description
            "Grouping for pbb configuration parameters";
          container pbb {
            description
              "Container for EVPN with PBB PE functionality
    for scaling over MPLS,";
            uses evpn-evi-pbb-config;
          }  // container pbb
        }  // grouping evpn-evi-pbb-top
    
        grouping evpn-vxlan-parameters-config {
          description
            "Type agnostic configuration parameters relating to the
    overlay of the network instance";
          leaf description {
            type string;
            description
              "Description to identify the VXLAN tunnel endpoint It
    is a unique name identifying the overlay endpoint";
          }
    
          leaf enabled {
            type boolean;
            description
              "VXLAN tunnel endpoint administrative state.";
          }
    
          leaf source-interface {
            type string;
            description
              "Source loopback interface name";
          }
        }  // grouping evpn-vxlan-parameters-config
    
        grouping evpn-overlays-grp-top {
          description
            "Parameters relating to the overlay tunnel endpoints";
          container config {
            description
              "Configuration parameters relating to the overlay tunnel
    endpoints of the network instance";
            uses evpn-vxlan-parameters-config;
          }  // container config
    
          container state {
            config false;
            description
              "State parameters relating to the overlay tunnel endpoints of
    the network instance";
            uses evpn-vxlan-parameters-config;
          }  // container state
    
          container endpoint-peers {
            config false;
            description
              "Top level container for state information related to peer VXLAN Tunnel
    Endpoints(VTEPs) learned by the local VTEP in the default network
    instance";
            list endpoint-peer {
              key "peer-address";
              description
                "List of VTEP peers and associated state information";
              leaf peer-address {
                type leafref {
                  path "../state/peer-address";
                }
                description
                  "IP address for the VTEP peer";
              }
    
              container state {
                config false;
                description
                  "Container for state parameters related to this VTEP peer";
                uses evpn-endpoint-peer-state;
    
                uses evpn-endpoint-counters;
              }  // container state
            }  // list endpoint-peer
          }  // container endpoint-peers
    
          container endpoint-vnis {
            config false;
            description
              "Top level container for state information related to Layer 2 virtual
    network identifiers (L2VNIs) and Layer 3 virtual network identifiers
    (L3VNIs) that are learned on the local VXLAN Tunnel End Point from
    remote VTEPs in the default network instance";
            list endpoint-vni {
              key "vni";
              description
                "List of L2VNIs and L3VNIs learned on the local VTEP";
              leaf vni {
                type leafref {
                  path "../state/vni";
                }
                description
                  "L2VNI or L3VNI Identifier";
              }
    
              container state {
                config false;
                description
                  "Container for state parameters related to this L2VNI or L3VNI";
                uses evpn-endpoint-vni-state;
              }  // container state
    
              uses ipv4-top;
    
              uses ipv6-top;
            }  // list endpoint-vni
          }  // container endpoint-vnis
        }  // grouping evpn-overlays-grp-top
    
        grouping evpn-endpoint-peer-state {
          description
            "Grouping for state information related to peer VXLAN Tunnel
    Endpoints(VTEPs) learned by the local VTEP";
          leaf peer-address {
            type oc-inet:ip-address;
            description
              "IP address of the remote VXLAN Tunnel Endpoint peer";
          }
    
          leaf peer-state {
            type enumeration {
              enum "UP" {
                value 0;
                description
                  "Operational status of the remote VTEP to indicate that the peer
    status is UP";
              }
              enum "DOWN" {
                value 1;
                description
                  "Operational status of the remote VTEP to indicate that the peer
    status is DOWN";
              }
            }
            description
              "State parameters related to the remote VTEP peer state";
          }
    
          leaf uptime {
            type oc-types:timeticks64;
            description
              "This timestamp indicates the time elapsed relative to the moment that
    the remote VTEP peer was discovered.";
          }
    
          leaf-list control-plane-vnis {
            type oc-evpn-types:vni-id;
            description
              "The control-plane VNIs are all of the VNIs that are discovered by the
    control-plane behind this peer VTEP";
          }
    
          leaf router-mac {
            type oc-yang:mac-address;
            description
              "MAC address of the remote VTEP";
          }
        }  // grouping evpn-endpoint-peer-state
    
        grouping evpn-endpoint-counters {
          description
            "Grouping for Operational state regarding encapsulated traffic.";
          container counters {
            description
              "Operational state regarding encapsulated traffic.";
            leaf total-encap-pkts {
              type oc-yang:counter64;
              description
                "The total number of encapsulated packets.";
            }
    
            leaf total-encap-bytes {
              type oc-yang:counter64;
              description
                "The total number of encapsulated bytes.";
            }
    
            leaf bum-encap-pkts {
              type oc-yang:counter64;
              description
                "The total number of encapsulated BUM packets.";
            }
    
            leaf total-decap-pkts {
              type oc-yang:counter64;
              description
                "The total number of decapsulated packets.";
            }
    
            leaf total-decap-bytes {
              type oc-yang:counter64;
              description
                "The total number of decapsulated bytes.";
            }
    
            leaf unicast-decap-pkts {
              type oc-yang:counter64;
              description
                "The total number of decapsulated unicast packets.";
            }
    
            leaf bum-decap-pkts {
              type oc-yang:counter64;
              description
                "The total number of decapsulated BUM packets.";
            }
    
            leaf bum-decap-multicast-pkts {
              type oc-yang:counter64;
              description
                "The number of decapsulated BUM packets received via underlay multicast.";
            }
    
            leaf bum-decap-ir-pkts {
              type oc-yang:counter64;
              description
                "The number of decapsulated BUM packets received via underlay ingress replication.";
            }
    
            leaf drop-decap-pkts {
              type oc-yang:counter64;
              description
                "The total number of decapsulated packets that have been dropped locally.";
            }
    
            leaf except-decap-pkts {
              type oc-yang:counter64;
              description
                "The total number of decapsulated packets that hit an exceptional condition.";
            }
          }  // container counters
        }  // grouping evpn-endpoint-counters
    
        grouping ipv4-top {
          description
            "Grouping for Operational state of IPv4 address family.";
          container ipv4 {
            description
              "Parameters for the IPv4 address family.";
            container state {
              config false;
              description
                "Top level IPv4 operational state data.";
              uses evpn-endpoint-counters;
            }  // container state
          }  // container ipv4
        }  // grouping ipv4-top
    
        grouping ipv6-top {
          description
            "Grouping for Operational state of IPv6 address family.";
          container ipv6 {
            description
              "Parameters for the IPv6 address family.";
            container state {
              config false;
              description
                "Top level IPv6 operational state data.";
              uses evpn-endpoint-counters;
            }  // container state
          }  // container ipv6
        }  // grouping ipv6-top
    
        grouping evpn-endpoint-vni-state {
          description
            "Grouping for L2VNI and L3VNI state information learned on the
    local VXLAN Tunnel End Point from remote VTEPs";
          leaf vni {
            type oc-evpn-types:evi-id;
            description
              "L2VNI or L3VNI Identifier";
          }
    
          leaf multidestination-traffic {
            type union {
              type oc-inet:ip-address;
              type enumeration {
                enum
                  "STATIC_INGRESS_REPLICATION" {
                  value 0;
                  description
                    "Static ingress replication mode.";
                }
                enum "BGP_INGRESS_REPLICATION" {
                  value 1;
                  description
                    "BGP EVPN ingress replication mode. It includes the ability to
    signal a P2MP LSP for the EVPN Inclusive Provider Tunnel
    for BUM traffic";
                }
              }
            }
            description
              "The data plane for overlays needs to handle the transport of
    multidestination traffic. Multidestination traffic is typically
    referred to as (BUM) which stands for broadcast, unknown unicast,
    or multicast. The two most common methods that can accommodate this
    replication and transport in the underlay are IP multicast and
    ingress replication
    (also called head-end replication or unicast mode).";
          }
    
          leaf learning-mode {
            type oc-evpn-types:learning-mode;
            description
              "Indicates whether the learning mode for this VNI is either
    control-plane or data-plane";
          }
    
          leaf vni-type {
            type enumeration {
              enum "L2" {
                value 0;
                description
                  "This is a Layer 2 service virtual network identifier (L2VNI)
    that is used for communication within the same subnet or
    broadcast domain";
              }
              enum "L3" {
                value 1;
                description
                  "This is a Layer 3 service virtual network identifier (L3VNI)
    or VRF VNI that is used for communication between subnets";
              }
            }
            description
              "The type of virtual network identfier";
          }
    
          leaf vni-state {
            type enumeration {
              enum "UP" {
                value 0;
                description
                  "Operational status of the virtual network identifier (VNI) to
    indicate that it is UP";
              }
              enum "DOWN" {
                value 1;
                description
                  "Operational status of the virtual network identifier (VNI) to
    indicate that it is DOWN";
              }
            }
            description
              "Operational state of the L2VNI or L3VNI";
          }
    
          leaf svi-state {
            type enumeration {
              enum "UP" {
                value 0;
                description
                  "Operational status of the SVI mapped to the L3VNI used for routing
    between subnets to indicate the SVI is UP";
              }
              enum "DOWN" {
                value 1;
                description
                  "Operational status of the SVI mapped to the L3VNI used for routing
    between subnets to indicate the SVI is DOWN";
              }
            }
            description
              "Operational status of the SVI mapped to the L3VNI that is used for
    routing between subnets in the VXLAN fabric";
          }
    
          leaf bridge-domain {
            type uint32;
            description
              "This reflects the configured VLAN or Bridge Domain that maps to this
    L2VNI in the VXLAN fabric";
          }
    
          leaf l3-vrf-name {
            type string;
            description
              "This refects the configured VRF instance that maps to this L3VNI
    that is used for routing between subnets in the VXLAN fabric";
          }
        }  // grouping evpn-endpoint-vni-state
      }  // module openconfig-evpn
    

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