This submodule provides OSPFv2 configuration and operational state parameters that are global to a particular OSPF instance
Version: 2022-02-10
submodule openconfig-ospfv2-global { yang-version 1; belongs-to openconfig-ospfv2 { prefix oc-ospfv2; } import ietf-yang-types { prefix yang; } import openconfig-extensions { prefix oc-ext; } import openconfig-routing-policy { prefix oc-rpol; } import openconfig-ospf-types { prefix oc-ospft; } include openconfig-ospfv2-common; organization "OpenConfig working group"; contact "OpenConfig working group www.openconfig.net"; description "This submodule provides OSPFv2 configuration and operational state parameters that are global to a particular OSPF instance"; revision "2022-02-10" { description "Fix spelling error in retransmission-queue-length leaf."; reference "0.4.0"; } revision "2021-07-28" { description "Add prefix to qualify when statements."; reference "0.3.1"; } revision "2021-03-17" { description "Add bfd support without augmentation."; reference "0.3.0"; } revision "2019-11-28" { description "Revert path changes in when statements in LSDB model"; reference "0.2.2"; } revision "2019-11-05" { description "Fix paths in when statements in LSDB model"; reference "0.2.1"; } revision "2019-07-09" { description "Normalise all timeticks64 to be expressed in nanoseconds."; reference "0.2.0"; } revision "2018-11-21" { description "Add OpenConfig module metadata extensions."; reference "0.1.3"; } revision "2018-06-05" { description "Bug fixes in when statements in lsdb"; reference "0.1.2"; } revision "2017-08-24" { description "Minor formatting fixes."; reference "0.1.1"; } revision "2017-02-28" { description "Initial public release of OSPFv2"; reference "0.1.0"; } revision "2016-06-24" { description "Initial revision"; reference "0.0.1"; } oc-ext:openconfig-version "0.4.0"; grouping ospfv2-global-config { description "Global configuration for OSPFv2"; leaf router-id { type yang:dotted-quad; description "A 32-bit number represented as a dotted quad assigned to each router running the OSPFv2 protocol. This number should be unique within the autonomous system"; reference "rfc2828"; } leaf summary-route-cost-mode { type enumeration { enum "RFC1583_COMPATIBLE" { value 0; description "Specify that summary routes should assume the cost of the lowest-cost more-specific route as per the behaviour specified in RFC1583"; } enum "RFC2328_COMPATIBLE" { value 1; description "Specify that summary routes should assume the cost of the highest-cost more-specific route as per the revised behaviour specified in RFC2328"; } } default "RFC2328_COMPATIBLE"; description "Specify how costs for the summary routes should be specified as per the behaviour in the original OSPF specification RFC1583, or alternatively whether the revised behaviour described in RFC2328 should be utilised"; } leaf igp-shortcuts { type boolean; description "When this leaf is set to true, OSPFv2 will route traffic to a remote system via any LSP to the system that is marked as shortcut eligible."; } leaf log-adjacency-changes { type boolean; description "When this leaf is set to true, a log message will be generated when the state of an OSPFv2 neighbour changes."; } leaf hide-transit-only-networks { type boolean; description "When this leaf is set to true, do not advertise prefixes into OSPFv2 that correspond to transit interfaces, as per the behaviour discussed in RFC6860."; reference "RFC6860 - Hiding Transit-Only Networks in OSPF"; } } // grouping ospfv2-global-config grouping ospfv2-global-spf-timers-config { description "Configuration parameters relating to global SPF timer parameters for OSPFv2"; leaf initial-delay { type uint32; units "msec"; description "The value of this leaf specifies the time between a change in topology being detected and the first run of the SPF algorithm."; } leaf maximum-delay { type uint32; units "msec"; description "The value of this leaf specifies the maximum delay between a topology change being detected and the SPF algorithm running. This value is used for implementations that support increasing the wait time between SPF runs."; } } // grouping ospfv2-global-spf-timers-config grouping ospfv2-global-lsa-generation-timers-config { description "Configuration parameters relating to global LSA generation parameters for OSPFv2"; leaf initial-delay { type uint32; units "msec"; description "The value of this leaf specifies the time between the first time an LSA is generated and advertised and the subsequent generation of that LSA."; } leaf maximum-delay { type uint32; units "msec"; description "The value of this leaf specifies the maximum time between the generation of an LSA and the subsequent re-generation of that LSA. This value is used in implementations that support increasing delay between generation of an LSA"; } } // grouping ospfv2-global-lsa-generation-timers-config grouping ospfv2-global-spf-timers-state { description "Operational state parameters relating to OSPFv2 global timers"; uses ospfv2-common-timers; } // grouping ospfv2-global-spf-timers-state grouping ospfv2-global-lsa-generation-timers-state { description "Operational state parameters relating to OSPFv2 global timers"; uses ospfv2-common-timers; } // grouping ospfv2-global-lsa-generation-timers-state grouping ospfv2-global-graceful-restart-config { description "Configuration parameters relating to graceful restart for OSPFv2"; leaf enabled { type boolean; description "When the value of this leaf is set to true, graceful restart is enabled on the local system. In this case, the system will use Grace-LSAs to signal that it is restarting to its neighbors."; } leaf helper-only { type boolean; description "Operate graceful-restart only in helper mode. When this leaf is set to true, the local system does not use Grace-LSAs to indicate that it is restarting, but will accept Grace-LSAs from remote systems, and suppress withdrawl of adjacencies of the system for the grace period specified"; } } // grouping ospfv2-global-graceful-restart-config grouping ospfv2-global-mpls-config { description "Configuration parameters for OSPFv2 options which relate to MPLS"; leaf traffic-engineering-extensions { type boolean; description "When this leaf is set to true, use traffic engineering extensions for OSPF to advertise TE parameters via type 10 Opaque LSAs"; } } // grouping ospfv2-global-mpls-config grouping ospfv2-global-inter-areapp-config { description "Configuration parameters for OSPFv2 policies which propagate prefixes between areas"; leaf src-area { type leafref { path "../../../../../areas/area/identifier"; } description "The area from which prefixes are to be exported."; } leaf dst-area { type leafref { path "../../../../../areas/area/identifier"; } description "The destination area to which prefixes are to be imported"; } uses oc-rpol:apply-policy-import-config; } // grouping ospfv2-global-inter-areapp-config grouping ospfv2-global-max-metric-config { description "Configuration paramters relating to setting the OSPFv2 maximum metric."; leaf set { type boolean; description "When this leaf is set to true, all non-stub interfaces of the local system are advertised with the maximum metric, such that the router does not act as a transit system, (similarly to the IS-IS overload functionality)."; reference "RFC3137 - OSPF Stub Router Advertisement"; } leaf timeout { type uint64; units "seconds"; description "The delay, in seconds, after which the advertisement of entities with the maximum metric should be cleared, and the system reverts to the default, or configured, metrics."; } leaf-list include { type identityref { base oc-ospft:MAX_METRIC_INCLUDE; } description "By default, the maximum metric is advertised for all non-stub interfaces of a device. When identities are specified within this leaf-list, additional entities are also advertised with the maximum metric according to the values within the list."; } leaf-list trigger { type identityref { base oc-ospft:MAX_METRIC_TRIGGER; } description "By default, the maximum metric is only advertised when the max-metric/set leaf is specified as true. In the case that identities are specified within this list, they provide additional triggers (e.g., system boot) that may cause the max-metric to be set. In this case, the system should still honour the timeout specified by the max-metric/timeout leaf, and clear the max-metric advertisements after the expiration of this timer."; } } // grouping ospfv2-global-max-metric-config grouping ospfv2-global-structural { description "Top level structural grouping for OSPFv2 global parameters"; container global { description "Configuration and operational state parameters for settings that are global to the OSPFv2 instance"; container config { description "Global configuration parameters for OSPFv2"; uses ospfv2-global-config; } // container config container state { config false; description "Operational state parameters for OSPFv2"; uses ospfv2-global-config; } // container state container timers { description "Configuration and operational state parameters for OSPFv2 timers"; container spf { description "Configuration and operational state parameters relating to timers governing the operation of SPF runs"; container config { description "Configuration parameters relating to global OSPFv2 SPF timers"; uses ospfv2-global-spf-timers-config; } // container config container state { config false; description "Operational state parameters relating to the global OSPFv2 SPF timers"; uses ospfv2-global-spf-timers-config; uses ospfv2-global-spf-timers-state; } // container state } // container spf container max-metric { description "Configuration and operational state parameters relating to setting the OSPFv2 maximum metric."; container config { description "Configuration parameters relating to setting the OSPFv2 maximum metric for a set of advertised entities."; uses ospfv2-global-max-metric-config; } // container config container state { config false; description "Operational state parameters relating to setting the OSPFv2 maximum metric for a set of advertised entities."; uses ospfv2-global-max-metric-config; } // container state } // container max-metric container lsa-generation { description "Configuration and operational state parameters relating to timers governing the generation of LSAs by the local system"; container config { description "Configuration parameters relating to the generation of LSAs by the local system"; uses ospfv2-global-lsa-generation-timers-config; } // container config container state { config false; description "Operational state parameters relating to the generation of LSAs by the local system"; uses ospfv2-global-lsa-generation-timers-config; uses ospfv2-global-lsa-generation-timers-state; } // container state } // container lsa-generation } // container timers container graceful-restart { description "Configuration and operational state parameters for OSPFv2 graceful restart"; container config { description "Configuration parameters relating to OSPFv2 graceful restart"; uses ospfv2-global-graceful-restart-config; } // container config container state { config false; description "Operational state parameters relating to OSPFv2 graceful restart"; uses ospfv2-global-graceful-restart-config; } // container state } // container graceful-restart container mpls { description "OSPFv2 parameters relating to MPLS"; container config { description "Configuration parameters relating to MPLS for OSPFv2"; uses ospfv2-global-mpls-config; } // container config container state { config false; description "Operational state parameters relating to MPLS for OSPFv2"; uses ospfv2-global-mpls-config; } // container state container igp-ldp-sync { description "OSPFv2 parameters relating to LDP/IGP synchronization"; container config { description "Configuration parameters relating to LDP/IG synchronization."; uses ospfv2-common-mpls-igp-ldp-sync-config; } // container config container state { config false; description "Operational state variables relating to LDP/IGP synchronization"; uses ospfv2-common-mpls-igp-ldp-sync-config; } // container state } // container igp-ldp-sync } // container mpls container inter-area-propagation-policies { description "Policies defining how inter-area propagation should be performed by the OSPF instance"; list inter-area-propagation-policy { key "src-area dst-area"; description "A list of connections between pairs of areas - routes are propagated from the source (src) area to the destination (dst) area according to the policy specified"; leaf src-area { type leafref { path "../config/src-area"; } description "Reference to the source area"; } leaf dst-area { type leafref { path "../config/dst-area"; } description "Reference to the destination area"; } container config { description "Configuration parameters relating to the inter-area propagation policy"; uses ospfv2-global-inter-areapp-config; } // container config container state { config false; description "Operational state parameters relating to the inter-area propagation policy"; uses ospfv2-global-inter-areapp-config; } // container state } // list inter-area-propagation-policy } // container inter-area-propagation-policies } // container global } // grouping ospfv2-global-structural } // submodule openconfig-ospfv2-global
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