This submodule contains structural data definitions for BGP routing tables.
Version: 2021-06-21
submodule openconfig-rib-bgp-tables { yang-version 1; belongs-to openconfig-rib-bgp { prefix oc-rib-bgp; } import openconfig-inet-types { prefix oc-inet; } import openconfig-extensions { prefix oc-ext; } import openconfig-policy-types { prefix oc-pol-types; } import ietf-yang-types { prefix yang; } import openconfig-network-instance-types { prefix oc-ni-types; } import openconfig-evpn-types { prefix oc-evpn-types; } import openconfig-bgp-types { prefix oc-bgpt; } include openconfig-rib-bgp-attributes; include openconfig-rib-bgp-shared-attributes; include openconfig-rib-bgp-table-attributes; organization "OpenConfig working group"; contact "OpenConfig working group www.openconfig.net"; description "This submodule contains structural data definitions for BGP routing tables."; revision "2021-06-21" { description "Add L2VPN-EVPN BGP RIB Support"; reference "0.8.0"; } revision "2019-10-15" { description "Change imported segment-routing module."; reference "0.7.0"; } revision "2019-04-25" { description "Update last-modified timestamp to be expressed as nanoseconds since the Unix epoch."; reference "0.6.0"; } revision "2019-04-16" { description "Rename the top-level BGP RIB container's name to RIB."; reference "0.5.0"; } revision "2019-02-27" { description "Remove top-level BGP RIB container, and update list names to be compatible with path compression."; reference "0.4.0"; } revision "2018-11-21" { description "Add OpenConfig module metadata extensions."; reference "0.3.1"; } revision "2016-10-17" { description "OpenConfig BGP RIB refactor"; reference "0.3.0"; } oc-ext:openconfig-version "0.8.0"; grouping bgp-adj-rib-common-attr-refs { description "Definitions of common references to attribute sets for multiple AFI-SAFIs for Adj-RIB tables"; leaf attr-index { type leafref { path "../../../../../../../../../../attr-sets/attr-set/" + "state/index"; } description "Reference to the common attribute group for the route"; } leaf community-index { type leafref { path "../../../../../../../../../../communities/community/" + "state/index"; } description "Reference to the community attribute for the route"; } leaf ext-community-index { type leafref { path "../../../../../../../../../../ext-communities/" + "ext-community/state/index"; } description "Reference to the extended community attribute for the route"; } } // grouping bgp-adj-rib-common-attr-refs grouping bgp-loc-rib-common-attr-refs { description "Definitions of common references to attribute sets for multiple AFI-SAFIs for LOC-RIB tables"; leaf attr-index { type leafref { path "../../../../../../../../attr-sets/attr-set/" + "state/index"; } description "Reference to the common attribute group for the route"; } leaf community-index { type leafref { path "../../../../../../../../communities/community/" + "state/index"; } description "Reference to the community attribute for the route"; } leaf ext-community-index { type leafref { path "../../../../../../../../ext-communities/" + "ext-community/state/index"; } description "Reference to the extended community attribute for the route"; } } // grouping bgp-loc-rib-common-attr-refs grouping bgp-loc-rib-common-keys { description "Common references used in keys for IPv4 and IPv6 LOC-RIB entries"; leaf origin { type union { type oc-inet:ip-address; type identityref { base oc-pol-types:INSTALL_PROTOCOL_TYPE; } } description "Indicates the origin of the route. If the route is learned from a neighbor, this value is the neighbor address. If the route was injected or redistributed from another protocol, the origin indicates the source protocol for the route."; } leaf path-id { type uint32; default '0'; description "If the route is learned from a neighbor, the path-id corresponds to the path-id for the route in the corresponding adj-rib-in-post table. If the route is injected from another protocol, or the neighbor does not support BGP add-paths, the path-id should be set to zero, also the default value."; } } // grouping bgp-loc-rib-common-keys grouping bgp-loc-rib-key-refs { description "Key references to support operational state structure for the BGP LOC-RIB table"; leaf prefix { type leafref { path "../state/prefix"; } description "Reference to the prefix list key"; } leaf origin { type leafref { path "../state/origin"; } description "Reference to the origin list key"; } leaf path-id { type leafref { path "../state/path-id"; } description "Reference to the path-id list key"; } } // grouping bgp-loc-rib-key-refs grouping ipv4-loc-rib-top { description "Top-level grouping for IPv4 routing tables"; container loc-rib { config false; description "Container for the IPv4 BGP LOC-RIB data"; uses bgp-common-table-attrs-top; container routes { description "Enclosing container for list of routes in the routing table."; list route { key "prefix origin path-id"; description "List of routes in the table, keyed by the route prefix, the route origin, and path-id. The route origin can be either the neighbor address from which the route was learned, or the source protocol that injected the route. The path-id distinguishes routes for the same prefix received from a neighbor (e.g., if add-paths is eanbled)."; uses bgp-loc-rib-key-refs; container state { description "Operational state data for route entries in the BGP LOC-RIB"; leaf prefix { type oc-inet:ipv4-prefix; description "The IPv4 prefix corresponding to the route"; } uses bgp-loc-rib-common-keys; uses bgp-loc-rib-common-attr-refs; uses bgp-loc-rib-attr-state; uses bgp-common-route-annotations-state; uses bgp-loc-rib-route-annotations-state; } // container state uses bgp-unknown-attr-top; } // list route } // container routes } // container loc-rib } // grouping ipv4-loc-rib-top grouping ipv6-loc-rib-top { description "Top-level grouping for IPv6 routing tables"; container loc-rib { config false; description "Container for the IPv6 BGP LOC-RIB data"; uses bgp-common-table-attrs-top; container routes { description "Enclosing container for list of routes in the routing table."; list route { key "prefix origin path-id"; description "List of routes in the table, keyed by the route prefix, the route origin, and path-id. The route origin can be either the neighbor address from which the route was learned, or the source protocol that injected the route. The path-id distinguishes routes for the same prefix received from a neighbor (e.g., if add-paths is eanbled)."; uses bgp-loc-rib-key-refs; container state { description "Operational state data for route entries in the BGP LOC-RIB"; leaf prefix { type oc-inet:ipv6-prefix; description "The IPv6 prefix corresponding to the route"; } uses bgp-loc-rib-common-keys; uses bgp-loc-rib-common-attr-refs; uses bgp-loc-rib-attr-state; uses bgp-common-route-annotations-state; uses bgp-loc-rib-route-annotations-state; } // container state uses bgp-unknown-attr-top; } // list route } // container routes } // container loc-rib } // grouping ipv6-loc-rib-top grouping l2vpn-evpn-loc-rib-top { description "Top-level grouping for L2VPN EVPN routing tables"; container loc-rib { config false; description "Container for the L2VPN EVPN BGP LOC-RIB data"; uses bgp-common-table-attrs-top; container routes { description "Enclosing container for list of routes in the routing table."; list route-distinguisher { key "route-distinguisher"; description "List of route distinguishers"; leaf route-distinguisher { type leafref { path "../state/route-distinguisher"; } description "An EVPN instance requires a Route Distinguisher (RD) that is unique per MAC-VRF"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } container state { description "Top level container for L2VPN EVPN RDs"; leaf route-distinguisher { type oc-ni-types:route-distinguisher; description "Route Distinguisher for all supported EVPN route types"; } } // container state uses bgp-evpn-type-one-state; uses bgp-evpn-type-two-state; uses bgp-evpn-type-three-state; uses bgp-evpn-type-four-state; uses bgp-evpn-type-five-state; } // list route-distinguisher } // container routes } // container loc-rib } // grouping l2vpn-evpn-loc-rib-top grouping bgp-loc-rib-l2vpn-evpn-attr-refs { description "Definitions of common references to attribute sets for multiple AFI-SAFIs for LOC-RIB tables"; leaf attr-index { type leafref { path "../../../../../../../../../../../../attr-sets/attr-set/" + "state/index"; } description "Reference to the common attribute group for the route"; } leaf community-index { type leafref { path "../../../../../../../../../../../../communities/community/" + "state/index"; } description "Reference to the community attribute for the route"; } leaf ext-community-index { type leafref { path "../../../../../../../../../../../../ext-communities/" + "ext-community/state/index"; } description "Reference to the extended community attribute for the route"; } } // grouping bgp-loc-rib-l2vpn-evpn-attr-refs grouping bgp-evpn-route-path-common-state { description "Grouping for BGP L2VPN EVPN route-type common path state information"; container paths { description "List of BGP path attributes for this route"; list path { key "peer-ip peer-path-id source-route-distinguisher source-address-family"; description "List of paths"; uses bgp-evpn-route-path-lefref-common; container state { description "BGP path attributes for this route"; uses bgp-evpn-route-path-keys-common; uses bgp-evpn-route-path-attributes-common; } // container state uses bgp-unknown-attr-top; } // list path } // container paths } // grouping bgp-evpn-route-path-common-state grouping bgp-evpn-route-path-type2-state { description "Grouping for BGP L2VPN EVPN route-type path state information for route type 2"; container paths { description "List of BGP path attributes for this route"; list path { key "peer-ip peer-path-id source-route-distinguisher source-address-family"; description "List of paths"; uses bgp-evpn-route-path-lefref-common; container state { description "BGP path attributes for this route"; uses bgp-evpn-route-path-keys-common; leaf esi { type oc-evpn-types:esi; description "The Ethernet Segment Identifier (ESI) identifying the ethernet segment for this route"; } uses bgp-evpn-route-path-attributes-common; } // container state uses bgp-unknown-attr-top; } // list path } // container paths } // grouping bgp-evpn-route-path-type2-state grouping bgp-evpn-route-path-type5-state { description "Grouping for BGP L2VPN EVPN route-type path state information for route type 5"; container paths { description "List of BGP path attributes for this route"; list path { key "peer-ip peer-path-id source-route-distinguisher source-address-family"; description "List of paths"; uses bgp-evpn-route-path-lefref-common; container state { description "BGP path attributes for this route"; leaf esi { type oc-evpn-types:esi; description "The Ethernet Segment Identifier (ESI) identifying the ethernet segment for this route"; } leaf gateway-ip-address { type oc-inet:ip-prefix; description "The gateway-ip-address for the route"; } uses bgp-evpn-route-path-keys-common; uses bgp-evpn-route-path-attributes-common; } // container state uses bgp-unknown-attr-top; } // list path } // container paths } // grouping bgp-evpn-route-path-type5-state grouping bgp-evpn-route-path-lefref-common { description "Common BGP L2VPN EVPN Path Leaf References"; leaf peer-ip { type leafref { path "../state/peer-ip"; } description "The source peer ip address of the imported route"; } leaf peer-path-id { type leafref { path "../state/peer-path-id"; } description "The source peer path id of the imported route"; } leaf source-route-distinguisher { type leafref { path "../state/source-route-distinguisher"; } description "The source route distinguisher is the remote RD source of the imported route"; } leaf source-address-family { type leafref { path "../state/source-address-family"; } description "The source address-family of the imported route"; } } // grouping bgp-evpn-route-path-lefref-common grouping bgp-evpn-route-path-keys-common { description "Common BGP L2VPN EVPN Path Keys"; leaf peer-ip { type oc-inet:ip-address; description "The source peer ip address of the imported route"; } leaf peer-path-id { type uint32; description "The source peer path id of the imported route"; } leaf source-route-distinguisher { type oc-ni-types:route-distinguisher; description "The source route distinguisher is the remote RD source of the imported route"; } leaf source-address-family { type identityref { base oc-bgpt:AFI_SAFI_TYPE; } description "The source address-family of the imported route"; } } // grouping bgp-evpn-route-path-keys-common grouping bgp-evpn-route-path-attributes-common { description "Common BGP L2VPN EVPN Path Attributes"; leaf-list advertised-to-peer { type oc-inet:ip-address; description "List of peers to which this path is advertised"; } leaf label { type string; description "MPLS Label field used for route attributes"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } leaf label2 { type string; description "MPLS Label2 field used for route attributes"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } leaf bestpath { type boolean; description "BGP can receive multiple paths to the same destination. This parameter indicates that this path is the bestpath to install in the IP routing table and use for traffic forwarding"; } leaf multipath { type boolean; description "BGP can use multiple paths to reach a destination allowing BGP to load-balance traffic. This parameter indicates that this path is marked as multipath"; } leaf backup { type boolean; description "BGP path marked as a backup path"; } uses bgp-common-route-annotations-state; uses bgp-loc-rib-l2vpn-evpn-attr-refs; } // grouping bgp-evpn-route-path-attributes-common grouping bgp-evpn-type-one-key-refs { description "Key references to support operational state structure for BGP EVPN Ethernet Auto-discovery routes. For the purpose of BGP route key processing, only the Ethernet Segment Identifier and Ethernet Tag ID are considered to be part of the prefix in the NLRI"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; leaf esi { type leafref { path "../state/esi"; } description "The Ethernet Segment Identifier (ESI) is a unique non-zero identifier that identifies an Ethernet segment"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } leaf ethernet-tag { type leafref { path "../state/ethernet-tag"; } description "The Ethernet tag identifies a particular broadcast domain. An EVPN instance consists of one or more broadcast domains"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } } // grouping bgp-evpn-type-one-key-refs grouping bgp-evpn-type-one-state { description "Grouping for BGP EVPN Ethernet Auto-discovery routes"; container type-one-ethernet-auto-discovery { description "Top level container BGP EVPN Ethernet Auto-discovery routes"; list type-one-route { key "esi ethernet-tag"; description "List of BGP EVPN Ethernet Auto-discovery routes For the purpose of BGP route key processing, only the Ethernet Segment Identifier and Ethernet Tag ID are considered to be part of the prefix in the NLRI"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; uses bgp-evpn-type-one-key-refs; container state { description "Operational state data for BGP EVPN Ethernet Auto-discovery route entries in the BGP LOC-RIB"; leaf esi { type oc-evpn-types:esi; description "The Ethernet Segment Identifier (ESI) identifying the ethernet segment for this route"; } leaf ethernet-tag { type oc-evpn-types:ethernet-tag; description "The Ethernet tag identifying the broadcast domain for this route"; } uses bgp-loc-rib-attr-state; uses bgp-loc-rib-route-annotations-state; } // container state uses bgp-evpn-route-path-common-state; } // list type-one-route } // container type-one-ethernet-auto-discovery } // grouping bgp-evpn-type-one-state grouping bgp-evpn-type-two-key-refs { description "Key references to support operational state structure for MAC_IP Advertisement routes. For the purpose of BGP route key processing, only the Ethernet Tag ID, MAC Address Length, MAC Address, IP Address Length, and IP Address fields are considered to be part of the prefix in the NLRI"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; leaf ethernet-tag { type leafref { path "../state/ethernet-tag"; } description "The Ethernet tag identifies a particular broadcast domain. An EVPN instance consists of one or more broadcast domains"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } leaf mac-address { type leafref { path "../state/mac-address"; } description "The PEs forward packets that they receive based on the destination MAC address"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } leaf mac-length { type leafref { path "../state/mac-length"; } description "The MAC Address Length for the MAC address defined in mac-address"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } leaf ip-prefix { type leafref { path "../state/ip-prefix"; } description "The IPv4 or IPv6 address carried in a MAC_IP Advertisement route"; } leaf ip-length { type leafref { path "../state/ip-length"; } description "The IPv4 or IPv6 address prefix length for the address defined in ip-prefix"; } } // grouping bgp-evpn-type-two-key-refs grouping bgp-evpn-type-two-state { description "Grouping for MAC_IP Advertisement L2VPN EVPN routes"; container type-two-mac-ip-advertisement { description "Top level container for MAC_IP Advertisement L2VPN EVPN routes"; list type-two-route { key "ethernet-tag mac-address mac-length ip-prefix ip-length"; description "List of MAC_IP Advertisement L2VPN EVPN routes For the purpose of BGP route key processing, only the Ethernet Tag ID, MAC Address Length, MAC Address, IP Address Length, and IP Address fields are considered to be part of the prefix in the NLRI"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; uses bgp-evpn-type-two-key-refs; container state { description "Operational state data MAC_IP Advertisement L2VPN EVPN route entries in the BGP LOC-RIB"; leaf ethernet-tag { type oc-evpn-types:ethernet-tag; description "The Ethernet tag identifying the broadcast domain for this route"; } leaf mac-address { type yang:mac-address; description "The MAC address that is learned on a PE from a CE that is connected to it or learned from other PEs"; } leaf mac-length { type uint32; description "The MAC address length for the mac-address"; } leaf ip-prefix { type oc-inet:ip-prefix; description "The IP address for end-host reachability information"; } leaf ip-length { type uint32; description "The ip-prefix length for the IP address specified by ip-prefix"; } uses bgp-loc-rib-attr-state; uses bgp-loc-rib-route-annotations-state; } // container state uses bgp-evpn-route-path-type2-state; } // list type-two-route } // container type-two-mac-ip-advertisement } // grouping bgp-evpn-type-two-state grouping bgp-evpn-type-three-key-refs { description "Key references to support operational state structure for Inclusive Multicast Ethernet Tag routes. For the purpose of BGP route key processing, only the Ethernet Tag ID, IP Address Length, and Originating Router's IP Address fields are considered to be part of the prefix in the NLRI"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; leaf ethernet-tag { type leafref { path "../state/ethernet-tag"; } description "The Ethernet tag identifies a particular broadcast domain. An EVPN instance consists of one or more broadcast domains"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } leaf originating-router-ip { type leafref { path "../state/originating-router-ip"; } description "Reference to the originating-router-ip list key"; } leaf originator-ip-length { type leafref { path "../state/originator-ip-length"; } description "Reference to the originating router ip length list key"; } } // grouping bgp-evpn-type-three-key-refs grouping bgp-evpn-type-three-state { description "Grouping for Inclusive Multicast Ethernet Tag L2VPN EVPN routes"; container type-three-inclusive-multicast-ethernet-tag { description "Top level container for Inclusive Multicast Ethernet Tag L2VPN EVPN routes"; list type-three-route { key "ethernet-tag originating-router-ip originator-ip-length"; description "List of Inclusive Multicast Ethernet Tag L2VPN EVPN routes For the purpose of BGP route key processing, only the Ethernet Tag ID, IP Address Length, and Originating Router's IP Address fields are considered to be part of the prefix in the NLRI"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; uses bgp-evpn-type-three-key-refs; container state { description "Operational state data for Inclusive Multicast Ethernet Tag L2VPN EVPN entries in the BGP LOC-RIB"; leaf ethernet-tag { type oc-evpn-types:ethernet-tag; description "The Ethernet tag identifying the broadcast domain for this route"; } leaf originating-router-ip { type oc-inet:ip-prefix; description "The Originating Router's IP Address"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } leaf originator-ip-length { type uint32; description "The ip-prefix length for the route"; } uses bgp-loc-rib-attr-state; uses bgp-loc-rib-route-annotations-state; } // container state uses bgp-evpn-route-path-common-state; } // list type-three-route } // container type-three-inclusive-multicast-ethernet-tag } // grouping bgp-evpn-type-three-state grouping bgp-evpn-type-four-key-refs { description "Key references to support operational state structure for Ethernet Segment routes. For the purpose of BGP route key processing, only the Ethernet Segment ID, IP Address Length, and Originating Router's IP Address fields are considered to be part of the prefix in the NLRI"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; leaf esi { type leafref { path "../state/esi"; } description "The Ethernet Segment Identifier (ESI) is a unique non-zero identifier that identifies an Ethernet segment"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } leaf originating-router-ip { type leafref { path "../state/originating-router-ip"; } description "Reference to the ip-prefix list key"; } leaf originator-ip-length { type leafref { path "../state/originator-ip-length"; } description "Reference to the ip-length list key"; } } // grouping bgp-evpn-type-four-key-refs grouping bgp-evpn-type-four-state { description "Grouping for Ethernet Segment L2VPN EVPN routes"; container type-four-ethernet-segment { description "Top level container for Ethernet Segment L2VPN EVPN routes"; list type-four-route { key "esi originating-router-ip originator-ip-length"; description "List of Ethernet Segment L2VPN EVPN routes For the purpose of BGP route key processing, only the Ethernet Segment ID, IP Address Length, and Originating Router's IP Address fields are considered to be part of the prefix in the NLRI"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; uses bgp-evpn-type-four-key-refs; container state { description "Operational state data for Ethernet Segment L2VPN EVPN route entries in the BGP LOC-RIB"; leaf esi { type oc-evpn-types:esi; description "The Ethernet Segment Identifier (ESI) identifying the ethernet segment for this route"; } leaf originating-router-ip { type oc-inet:ip-prefix; description "The originating router ip"; } leaf originator-ip-length { type uint32; description "The originating router ip length"; } uses bgp-loc-rib-attr-state; uses bgp-loc-rib-route-annotations-state; } // container state uses bgp-evpn-route-path-common-state; } // list type-four-route } // container type-four-ethernet-segment } // grouping bgp-evpn-type-four-state grouping bgp-evpn-type-five-key-refs { description "Key references to support operational state structure for IP Prefix Advertisement routes. For the purpose of BGP route key processing, only The RD, Ethernet Tag ID, IP prefix length, and IP prefix are part of the route key used by BGP to compare routes"; reference "RFC9136: IP Prefix Advertisement in Ethernet VPN (EVPN)"; leaf ethernet-tag { type leafref { path "../state/ethernet-tag"; } description "The Ethernet tag identifies a particular broadcast domain. An EVPN instance consists of one or more broadcast domains"; reference "RFC7432: BGP MPLS-Based Ethernet VPN"; } leaf ip-prefix-length { type leafref { path "../state/ip-prefix-length"; } description "Reference to the ip-prefix-length list key"; } leaf ip-prefix { type leafref { path "../state/ip-prefix"; } description "Reference to the ip-prefix list key"; } } // grouping bgp-evpn-type-five-key-refs grouping bgp-evpn-type-five-state { description "Grouping for IP Prefix Advertisement L2VPN EVPN routes"; container type-five-ip-prefix { description "Top level container for IP Prefix Advertisement L2VPN EVPN routes"; list type-five-route { key "ethernet-tag ip-prefix-length ip-prefix"; description "List of IP Prefix Advertisement L2VPN EVPN routes For the purpose of BGP route key processing, only The RD, Ethernet Tag ID, IP prefix length, and IP prefix are part of the route key used by BGP to compare routes"; reference "RFC9136: IP Prefix Advertisement in Ethernet VPN (EVPN)"; uses bgp-evpn-type-five-key-refs; container state { description "Operational state data for IP Prefix Advertisement L2VPN EVPN route entries in the BGP LOC-RIB"; leaf ethernet-tag { type oc-evpn-types:ethernet-tag; description "The Ethernet tag identifying the broadcast domain for this route"; } leaf ip-prefix-length { type string; description "The ip-prefix length for the route"; } leaf ip-prefix { type oc-inet:ip-prefix; description "The ip-prefix for the route"; } uses bgp-loc-rib-attr-state; uses bgp-loc-rib-route-annotations-state; } // container state uses bgp-evpn-route-path-type5-state; } // list type-five-route } // container type-five-ip-prefix } // grouping bgp-evpn-type-five-state grouping l2vpn-evpn-adj-rib-top { description "Top-level grouping for L2VPN-EVPN Adj-RIB table"; container neighbors { config false; description "Enclosing container for neighbor list"; list neighbor { key "neighbor-address"; description "List of neighbors (peers) of the local BGP speaker"; leaf neighbor-address { type leafref { path "../state/neighbor-address"; } description "Reference to the list key"; } container state { description "Operational state for each neighbor BGP Adj-RIB"; leaf neighbor-address { type oc-inet:ip-address; description "IP address of the BGP neighbor or peer"; } } // container state container adj-rib-in-pre { description "Per-neighbor table containing the NLRI updates received from the neighbor before any local input policy rules or filters have been applied. This can be considered the 'raw' updates from the neighbor."; } // container adj-rib-in-pre container adj-rib-in-post { description "Per-neighbor table containing the paths received from the neighbor that are eligible for best-path selection after local input policy rules have been applied."; } // container adj-rib-in-post container adj-rib-out-pre { description "Per-neighbor table containing paths eligble for sending (advertising) to the neighbor before output policy rules have been applied"; } // container adj-rib-out-pre container adj-rib-out-post { description "Per-neighbor table containing paths eligble for sending (advertising) to the neighbor after output policy rules have been applied"; } // container adj-rib-out-post } // list neighbor } // container neighbors } // grouping l2vpn-evpn-adj-rib-top grouping bgp-adj-rib-key-refs { description "Key references to support operational state structure for the BGP Adj-RIB tables"; leaf prefix { type leafref { path "../state/prefix"; } description "Reference to the prefix list key"; } leaf path-id { type leafref { path "../state/path-id"; } description "Reference to the path-id list key"; } } // grouping bgp-adj-rib-key-refs grouping ipv4-adj-rib-common { description "Common structural grouping for each IPv4 adj-RIB table"; uses bgp-common-table-attrs-top; container routes { config false; description "Enclosing container for list of routes in the routing table."; list route { key "prefix path-id"; description "List of routes in the table, keyed by a combination of the route prefix and path-id to distinguish multiple routes received from a neighbor for the same prefix, e.g., when BGP add-paths is enabled."; uses bgp-adj-rib-key-refs; container state { description "Operational state data for BGP Adj-RIB entries"; leaf prefix { type oc-inet:ipv4-prefix; description "Prefix for the route"; } uses bgp-adj-rib-attr-state; uses bgp-adj-rib-common-attr-refs; uses bgp-common-route-annotations-state; } // container state uses bgp-unknown-attr-top; } // list route } // container routes } // grouping ipv4-adj-rib-common grouping ipv4-adj-rib-in-post { description "Common structural grouping for the IPv4 adj-rib-in post-policy table"; uses bgp-common-table-attrs-top; container routes { config false; description "Enclosing container for list of routes in the routing table."; list route { key "prefix path-id"; description "List of routes in the table, keyed by a combination of the route prefix and path-id to distinguish multiple routes received from a neighbor for the same prefix, e.g., when BGP add-paths is enabled."; uses bgp-adj-rib-key-refs; container state { description "Operational state data for BGP Adj-RIB entries"; leaf prefix { type oc-inet:ipv4-prefix; description "Prefix for the route"; } uses bgp-adj-rib-attr-state; uses bgp-adj-rib-common-attr-refs; uses bgp-common-route-annotations-state; uses bgp-adj-rib-in-post-route-annotations-state; } // container state uses bgp-unknown-attr-top; } // list route } // container routes } // grouping ipv4-adj-rib-in-post grouping ipv4-adj-rib-top { description "Top-level grouping for Adj-RIB table"; container neighbors { config false; description "Enclosing container for neighbor list"; list neighbor { key "neighbor-address"; description "List of neighbors (peers) of the local BGP speaker"; leaf neighbor-address { type leafref { path "../state/neighbor-address"; } description "Reference to the list key"; } container state { description "Operational state for each neighbor BGP Adj-RIB"; leaf neighbor-address { type oc-inet:ip-address; description "IP address of the BGP neighbor or peer"; } } // container state container adj-rib-in-pre { description "Per-neighbor table containing the NLRI updates received from the neighbor before any local input policy rules or filters have been applied. This can be considered the 'raw' updates from the neighbor."; uses ipv4-adj-rib-common; } // container adj-rib-in-pre container adj-rib-in-post { description "Per-neighbor table containing the paths received from the neighbor that are eligible for best-path selection after local input policy rules have been applied."; uses ipv4-adj-rib-in-post; } // container adj-rib-in-post container adj-rib-out-pre { description "Per-neighbor table containing paths eligble for sending (advertising) to the neighbor before output policy rules have been applied"; uses ipv4-adj-rib-common; } // container adj-rib-out-pre container adj-rib-out-post { description "Per-neighbor table containing paths eligble for sending (advertising) to the neighbor after output policy rules have been applied"; uses ipv4-adj-rib-common; } // container adj-rib-out-post } // list neighbor } // container neighbors } // grouping ipv4-adj-rib-top grouping ipv6-adj-rib-common { description "Common structural grouping for each IPv6 adj-RIB table"; uses bgp-common-table-attrs-state; container routes { config false; description "Enclosing container for list of routes in the routing table."; list route { key "prefix path-id"; description "List of routes in the table"; uses bgp-adj-rib-key-refs; container state { description "Operational state data for BGP Adj-RIB entries"; leaf prefix { type oc-inet:ipv6-prefix; description "Prefix for the route"; } uses bgp-adj-rib-attr-state; uses bgp-adj-rib-common-attr-refs; uses bgp-common-route-annotations-state; } // container state uses bgp-unknown-attr-top; } // list route } // container routes } // grouping ipv6-adj-rib-common grouping ipv6-adj-rib-in-post { description "Common structural grouping for the IPv6 adj-rib-in post-policy table"; uses bgp-common-table-attrs-state; container routes { config false; description "Enclosing container for list of routes in the routing table."; list route { key "prefix path-id"; description "List of routes in the table"; uses bgp-adj-rib-key-refs; container state { description "Operational state data for BGP Adj-RIB entries"; leaf prefix { type oc-inet:ipv6-prefix; description "Prefix for the route"; } uses bgp-adj-rib-attr-state; uses bgp-adj-rib-common-attr-refs; uses bgp-common-route-annotations-state; uses bgp-adj-rib-in-post-route-annotations-state; } // container state uses bgp-unknown-attr-top; } // list route } // container routes } // grouping ipv6-adj-rib-in-post grouping ipv6-adj-rib-top { description "Top-level grouping for Adj-RIB table"; container neighbors { config false; description "Enclosing container for neighbor list"; list neighbor { key "neighbor-address"; description "List of neighbors (peers) of the local BGP speaker"; leaf neighbor-address { type leafref { path "../state/neighbor-address"; } description "Reference to the list key"; } container state { description "Operational state for each neighbor BGP Adj-RIB"; leaf neighbor-address { type oc-inet:ip-address; description "IP address of the BGP neighbor or peer"; } } // container state container adj-rib-in-pre { description "Per-neighbor table containing the NLRI updates received from the neighbor before any local input policy rules or filters have been applied. This can be considered the 'raw' updates from the neighbor."; uses ipv6-adj-rib-common; } // container adj-rib-in-pre container adj-rib-in-post { description "Per-neighbor table containing the paths received from the neighbor that are eligible for best-path selection after local input policy rules have been applied."; uses ipv6-adj-rib-in-post; } // container adj-rib-in-post container adj-rib-out-pre { description "Per-neighbor table containing paths eligble for sending (advertising) to the neighbor before output policy rules have been applied"; uses ipv6-adj-rib-common; } // container adj-rib-out-pre container adj-rib-out-post { description "Per-neighbor table containing paths eligble for sending (advertising) to the neighbor after output policy rules have been applied"; uses ipv6-adj-rib-common; } // container adj-rib-out-post } // list neighbor } // container neighbors } // grouping ipv6-adj-rib-top grouping ipvX-srte-policy-adjrib-top { description "Top-level grouping for the IPv4 and IPv6 AFI, SR-TE Policy SAFI Adj-RIBs."; container neighbors { description "Surrounding container for the list of neighbours that are enabled for the IPv4 and IPv6 AFI, SR-TE Policy SAFI address family."; list neighbor { key "neighbor-address"; description "An individual neighbour that is enabled for the SR-TE Policy SAFI."; leaf neighbor-address { type leafref { path "../state/neighbor-address"; } description "Reference to the address of the neighbour for which the Adj-RIBs specified are maintained."; } container state { description "Operational state parameters of the BGP neighbour for which the SR-TE Policy SAFI is enabled."; uses ipvX-srte-policy-adjrib-neighbor-state; } // container state container adj-rib-in-pre { description "The Adj-RIB-In for the SR-TE Policy SAFI for the neighbour, prior to any inbound policy constraints or modifications having been applied."; uses ipvX-srte-policy-adjrib-common; } // container adj-rib-in-pre container adj-rib-in-post { description "The Adj-RIB-In for the SR-TE Policy SAFI for the neighbour, following any inbound policy constraints or modifications being made."; uses ipvX-srte-policy-adjrib-in-post; } // container adj-rib-in-post container adj-rib-out-pre { description "The Adj-RIB-Out for the SR-TE Policy SAFI for the neighbour, prior to any outgoing policy modifications or constraints having been applied."; uses ipvX-srte-policy-adjrib-common; } // container adj-rib-out-pre container adj-rib-out-post { description "The Adj-RIB-Out for the SR-TE Policy SAFI for the neighbour, follow any outbound policy constraints or modifications being made."; uses ipvX-srte-policy-adjrib-common; } // container adj-rib-out-post } // list neighbor } // container neighbors } // grouping ipvX-srte-policy-adjrib-top grouping ipvX-srte-policy-adjrib-neighbor-state { description "Common attributes for each neighbour for which the SR-TE Policy SAFI RIBs are being maintained."; leaf neighbor-address { type oc-inet:ip-address; description "The address of the neighbour for which the SR-TE policy SAFI has been negotiated."; } } // grouping ipvX-srte-policy-adjrib-neighbor-state grouping ipvX-srte-policy-adjrib-common { description "Common structure containing the routes that are learnt via the IPv4 or IPv6 SR-TE Policy SAFI."; container routes { description "Surrounding container for the list of routes within the SR-TE Policy SAFI."; list route { key "path-id endpoint color"; description "The routes within the SR-TE Policy SAFI Adj-RIB. The routes are keyed on the path-id - set to a non-zero value only if ADD-PATHS is being used; the color; and the endpoint. The colour and endpoint are extracted from the NLRI."; uses ipvX-srte-policy-common-keys; container state { description "State parameters for entries within the Adj-RIB used to store SR-TE Policy SAFI routes."; uses ipvX-srte-policy-common-route-state; uses bgp-adj-rib-common-attr-refs; uses bgp-common-route-annotations-state; } // container state uses bgp-unknown-attr-top; } // list route } // container routes } // grouping ipvX-srte-policy-adjrib-common grouping ipvX-srte-policy-common-route-state { description "Common attributes used SR-TE Policy SAFI routes."; leaf path-id { type uint32; default '0'; description "Identifier for the path when using BGP ADD-PATHS for the SR-TE policy SAFI."; } leaf endpoint { type oc-inet:ip-address; description "A unique identifier for the remote set of nodes. When the address family is IPv4, the value is a 4-octet IPv4 address. When the address family is IPv6, the value is a 16-octet IPv6 address."; } leaf color { type uint32; description "A 4-octet value identifying the policy. Combined with the endpoint the endpoint and colour represent the unique policy."; } } // grouping ipvX-srte-policy-common-route-state grouping ipvX-srte-policy-common-keys { description "Common grouping of the keys used for lists of SR-TE policy SAFI routes."; leaf path-id { type leafref { path "../state/path-id"; } description "Reference to the path identifier for the SR-TE Policy SAFI route. The value is only non-zero if ADD-PATHS is not being used."; } leaf endpoint { type leafref { path "../state/endpoint"; } description "Reference to the endpoint used for the SR-TE Policy SAFI route within the NLRI."; } leaf color { type leafref { path "../state/color"; } description "Reference to the colour used for the SR-TE policy SAFI route within the NLRI."; } } // grouping ipvX-srte-policy-common-keys grouping ipvX-srte-policy-adjrib-in-post { description "Grouping for the post-policy Adj-RIB-In for SR-TE Policy SAFI routes"; container routes { description "The set of routes that are within the Adj-RIB-Out for the neighbour."; list route { key "path-id endpoint color"; description "The routes that are in the Adj-RIB-In-Post for the specified BGP neighbour within the SR-TE Policy SAFI for the specified address family."; uses ipvX-srte-policy-common-keys; container state { description "Operational state attributes related to the route within the SR-TE Policy SAFI Adj-RIB-In-Post for the specified neighbour."; uses ipvX-srte-policy-common-route-state; uses bgp-adj-rib-common-attr-refs; uses bgp-common-route-annotations-state; uses bgp-adj-rib-in-post-route-annotations-state; } // container state uses bgp-unknown-attr-top; } // list route } // container routes } // grouping ipvX-srte-policy-adjrib-in-post grouping ipvX-srte-policy-locrib-top { description "Top-level grouping for the Loc-RIB for IPv4 or IPv6 Adj-RIB for SR-TE Policy SAFI."; container loc-rib { description "The Loc-RIB for the SR-TE Policy SAFI for IPv4 or IPv6 Unicast AFIs."; container routes { description "List of routes within the SR-TE Policy SAFI, for the IPv4 or IPv6 AFI."; list route { key "path-id endpoint color"; description "Route within the specified address family for the SR-TE Policy SAFI."; uses ipvX-srte-policy-common-keys; container state { description "Operational state attributes for each route within the IPv4 or IPv6 Unicast SR-TE Policy SAFI."; uses ipvX-srte-policy-common-route-state; uses bgp-loc-rib-common-attr-refs; uses bgp-common-route-annotations-state; } // container state uses bgp-unknown-attr-top; } // list route } // container routes } // container loc-rib } // grouping ipvX-srte-policy-locrib-top } // submodule openconfig-rib-bgp-tables
© 2023 YumaWorks, Inc. All rights reserved.