submodule openconfig-isis-lsp { belongs-to openconfig-isis { prefix oc-isis; } import openconfig-extensions { prefix "oc-ext"; } import openconfig-inet-types { prefix "inet"; } import openconfig-isis-types { prefix "oc-isis-types"; } import openconfig-isis-lsdb-types { prefix "oc-isis-lsdb-types"; } import openconfig-types { prefix "oc-types"; } import openconfig-mpls-types { prefix "oc-mplst"; } // meta organization "OpenConfig working group"; contact "OpenConfig working group www.openconfig.net "; description "This sub-module describes a YANG model for the IS-IS Link State Database (LSDB). Portions of this code were derived from IETF RFCs relating to the IS-IS protocol. Please reproduce this note if possible. IETF code is subject to the following copyright and license: Copyright (c) IETF Trust and the persons identified as authors of the code. All rights reserved. Redistribution and use in source and binary forms, with or without modification, is permitted pursuant to, and subject to the license terms contained in, the Simplified BSD License set forth in Section 4.c of the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info)."; oc-ext:openconfig-version "1.1.0"; revision "2022-09-20" { description "Add CSNP enable to IS-IS global configuration."; reference "1.1.0"; } revision "2022-05-10" { description "Modify internal/external route preference to unrestricted uint32 type."; reference "1.0.0"; } revision "2022-03-01" { description "Add simple key authentication support."; reference "0.9.0"; } revision "2022-02-24" { description "Add Hello PDU padding type to IS-IS global configuration."; reference "0.8.0"; } revision "2022-01-19" { description "Align revisions across modules."; reference "0.7.1"; } revision "2021-12-31" { description "Add support for per-interface hello authentication, and per-level *SNP authentication."; reference "0.7.0"; } revision "2021-06-16" { description "Remove trailing whitespace"; reference "0.6.2"; } revision "2020-03-24" { description "Support IGP-LDP sync per interface."; reference "0.6.0"; } revision "2020-02-04" { description "Consistent prefix for openconfig-mpls-types."; reference "0.5.0"; } revision "2018-11-21" { description "Add OpenConfig module metadata extensions."; reference "0.4.2"; } revision "2018-06-05" { description "Fix bugs in when statements."; reference "0.4.1"; } revision "2018-05-14" { description "Update LSDB model to correct Extended IS reach TLV bug. This change is backwards incompatible due to adding an additional level of hierarchy to support multiple instances of the TLV."; reference "0.4.0"; } revision "2017-07-26" { description "Update LSDB and fix bugs."; reference "0.3.2"; } revision "2017-05-15" { description "Refactor LSDB."; reference "0.3.0"; } revision "2017-01-13" { description "Remove top-level /isis container"; reference "0.2.1"; } revision "2016-12-15" { description "Add segment routing to IS-IS module"; reference "0.2.0"; } revision "2016-10-18" { description "Initial revision of IS-IS models."; reference "0.1.0"; } typedef isis-metric-flags { type enumeration { enum INTERNAL { description "When this flag is not set, internal metrics are in use."; } enum UNSUPPORTED { description "When this flag (referred to as the S-bit) is set, then the metric is unsupported."; } } description "Type definition for flags used in IS-IS metrics"; } grouping isis-lsdb-link-characteristics-a-bit { description "Definition of the A bit, as used in IS-IS link delay TLVs."; leaf a-bit { type boolean; description "The A bit is set when the measured value of this parameter exceeds its configured maximum threshold. The A bit is cleared when the measured value falls below its configured reuse threshold."; } } grouping isis-lsdb-tlv-nlpid-state { description "NLP ID parameters for IS-IS."; leaf-list nlpid { type enumeration { enum IPV4 { description "IPv4 Address family."; } enum IPV6 { description "IPv6 Address family."; } } description "Protocol supported. IPv4 is defined as (0xcc) and IPv6 - (0x8e)"; reference "RFC1195: Use of OSI IS-IS for Routing in TCP/IP and Dual Environments. TLV 129. "; } } grouping isis-lsdb-subtlv-type-state { description "Per-subTLV type operational state parameters for ISIS."; leaf type { type identityref { base oc-isis-lsdb-types:ISIS_SUBTLV_TYPE; } description "The type of subTLV being described. The type of subTLV is expressed as a canonical name."; } } grouping isis-lsdb-tlv-type-state { description "Per-subTLV type operational state parameters for ISIS."; leaf type { type identityref { base oc-isis-lsdb-types:ISIS_TLV_TYPE; } description "The type of TLV being described. The type of TLV is expressed as a canonical name."; } } grouping is-reachability-neighbor-state { description "This grouping defines is-reachability neighbor."; container subtlvs { description "This container describes IS Neighbor sub-TLVs."; list subtlv { key "type"; description "List of subTLV types in the LSDB for the specified TLV."; leaf type { type leafref { path "../state/type"; } description "Reference to the sub-TLV type."; } container state { description "State parameters of IS neighbor state"; uses isis-lsdb-subtlv-type-state; } container admin-group { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_ADMIN_GROUP'" { description "Only include the administrative group container when the sub-TLV is type 3"; } description "This container defines sub-TLV 3."; container state { description "State parameters of sub-TLV 3."; leaf-list admin-group { type uint32; description "The administrative group sub-TLV contains a 4-octet bit mask assigned by the network administrator. Each set bit corresponds to one administrative group assigned to the interface. By convention, the least significant bit is referred to as group 0, and the most significant bit is referred to as group 31."; reference "RFC5305: IS-IS Extensions for Traffic Engineering. sub-TLV 3: TLV 22,23,141,222, 223."; } } } container link-id { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_LINK_ID'" { description "Only include the link identifier container when the sub-TLV is type 4"; } description "This container defines sub-TLV 4."; container state { description "State parameters of sub-TLV 4."; leaf local { type uint32; description "The value field of this sub-TLV contains 4 octets of Link Local Identifier followed by 4 octets of Link Remote Identifier."; reference "RFC5307: IS-IS Extensions in Support of Generalized Multi-Protocol Label Switching (GMPLS). sub-TLV 3: TLV 22,23,141,222, 223."; } leaf remote { type uint32; description "If the Link Remote Identifier is unknown, it is set to 0."; reference "RFC5307: IS-IS Extensions in Support of Generalized Multi-Protocol Label Switching (GMPLS). sub-TLV 3: TLV 22,23,141,222, 223."; } } } container ipv4-interface-address { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_IPV4_INTERFACE_ADDRESS'" { description "Only include the IPv4 interface address group container when the sub-TLV is type 6"; } description "This container defines sub-TLV 6."; container state { description "State parameters of sub-TLV 6."; leaf-list address { type inet:ipv4-address; description "A 4-octet IPv4 address for the interface described by the (main) TLV. This sub-TLV can occur multiple times."; reference "RFC5305: IS-IS Extensions for Traffic Engineering. sub-TLV 6: TLV 22,23,41,222,223."; } } } container ipv4-neighbor-address { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_IPV4_NEIGHBOR_ADDRESS'" { description "Only include the IPv4 neighbor address container when the sub-TLV is type 8."; } description "This container defines sub-TLV 8."; container state { description "State parameters of sub-TLV 8."; leaf-list address { type inet:ipv4-address; description "A single IPv4 address for a neighboring router on this link. This sub-TLV can occur multiple times."; reference "RFC5305: IS-IS Extensions for Traffic Engineering. sub-TLV 8: TLV 22,23, 141,222,223."; } } } container max-link-bandwidth { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_MAX_LINK_BANDWIDTH'" { description "Only include the maximum link bandwidth container when the sub-TLV is type 9."; } description "This container defines sub-TLV 9."; container state { description "State parameters of sub-TLV 9."; leaf bandwidth { type oc-types:ieeefloat32; units "bytes per second"; description "The maximum bandwidth that can be used on this link in this direction (from the system originating the LSP to its neighbors). It is encoded in 32 bits in IEEE floating point format. The units are bytes (not bits!) per second."; reference "RFC5305: IS-IS Extensions for Traffic Engineering. sub-TLV 9: TLV 22,23,141,222,223."; } } } container max-reservable-link-bandwidth { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_MAX_RESERVABLE_BANDWIDTH'" { description "Only include the maximum reservable link bandwidth container when the sub-TLV type is 10."; } description "This container defines sub-TLV 10."; container state { description "State parameters of sub-TLV 10."; leaf bandwidth { type oc-types:ieeefloat32; units "bytes per second"; description "The maximum amount of bandwidth that can be reserved in this direction on this link. Note that for oversubscription purposes, this can be greater than the bandwidth of the link. It is encoded in 32 bits in IEEE floating point format. The units are bytes (not bits!) per second."; reference "RFC5305: IS-IS Extensions for Traffic Engineering. Sub-TLV 10: TLV 22,23,141,222,223."; } } } container unreserved-bandwidth { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_UNRESERVED_BANDWIDTH'" { description "Only include the unreserved bandwidth container when the sub-TLV type is 11."; } description "This container defines unreserved-bandwidth. The units are bytes per second."; reference "RFC5305: IS-IS Extensions for Traffic Engineering. sub- TLV 11: TLV 22,23,141,222,223"; list setup-priority { key "priority"; leaf priority { type leafref { path "../state/priority"; } description "Reference to the setup priority to which the unreserved bandwidth corresponds."; } description "Setup priority (0 through 7) for unreserved bandwidth."; container state { description "State parameters of IS Extended Reachability sub-TLV 11."; leaf priority { type uint8 { range "0..7"; } description "Setup priority level of 0 through 7 to be used by Unreserved Bandwidth sub-TLV 11."; } leaf bandwidth { type oc-types:ieeefloat32; units "bytes per second"; description "The amount of bandwidth reservable in this direction on this link. Note that for oversubscription purposes, this can be greater than the bandwidth of the link. It contains eight 32-bit IEEE floating point numbers(one for each priority). The units are bytes (not bits!) per second. The values correspond to the bandwidth that can be reserved with a setup priority of 0 through 7, arranged in increasing order with priority 0 occurring at the start of the sub-TLV, and priority 7 at the end of the sub-TLV."; } } } } container ipv6-interface-address { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_IPV6_INTERFACE_ADDRESS'" { description "Only include the IPv6 interface address when the sub-TLV type is 12."; } description "This container defines sub-TLV 12."; container state { description "State parameters of sub-TLV 12."; leaf-list address { type inet:ipv6-address; description "Contains a 16-octet IPv6 address for the interface described by the containing Extended IS Reachability TLV. This sub-TLV can occur multiple times."; reference "RFC6119: IPv6 Traffic Engineering in IS-IS. sub-TLV 12: TLV 22,23,141,222,223."; } } } container ipv6-neighbor-address { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_IPV6_NEIGHBOR_ADDRESS'" { description "Only include the IPv6 neighbor address when the sub-TLV type is 13."; } description "This container defines sub-TLV 13."; container state { description "State parameters of sub-TLV 13."; leaf-list address { type inet:ipv6-address; description "Contains a 16-octet IPv6 address for a neighboring router on the link described by the (main) TLV. This sub-TLV can occur multiple times."; reference "RFC6119: IPv6 Traffic Engineering in IS-IS. sub-TLV 13: ISIS TLV 22,23,141,222,223."; } } } container extended-admin-group { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_EXTENDED_ADMIN_GROUP'" { description "Only include the extended admin group when the sub-TLV type is 14."; } description "This container defines sub-TLV 14."; container state { description "State parameters of sub-TLV 14."; leaf-list extended-admin-group { type uint32; description "The extended-admin-group sub-TLV is used in addition to the Administrative Groups when it is desirable to make more than 32 colors available for advertisement in a network."; reference "RFC7308: Extended Administrative Groups in MPLS Traffic Engineering (MPLS-TE). sub-TLV 14: TLV 22,23,141,222,223."; } } } container te-default-metric { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_TE_DEFAULT_METRIC'" { description "Only include the default traffic engineering metric container when the sub-TLV type is 18."; } description "This container defines sub-TLV 18."; container state { description "State parameters of sub-TLV 18."; leaf metric { type uint32; description "This metric is administratively assigned and can be used to present a differently weighted topology to traffic engineering SPF calculations. To preclude overflow within a traffic engineering SPF implementation, all metrics greater than or equal to MAX_PATH_METRIC SHALL be considered to have a metric of MAX_PATH_METRIC."; reference "RFC5305: IS-IS Extensions for Traffic Engineering. sub-TLV 18: TLV 22,23,141,222,223."; } } } container link-attributes { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_LINK_ATTRIBUTES'" { description "Only include the link attributes container when the sub-TLV is type 19."; } description "This container defines link-attributes."; container state { description "State parameters of IS Extended Reachability sub-TLV 19."; leaf-list local-protection { type enumeration { enum LOCAL_PROTECTION { description "If set, local protection is available for the link."; } enum LINK_EXCLUDED { description "If set, the link is excluded from local protection."; } } description "Link local-protection attributes."; reference "RFC5029: Definition of an IS-IS Link Attribute Sub- TLV. TLV 22, sub-TLV 19."; } } } container link-protection-type { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_LINK_PROTECTION_TYPE'" { description "Only include the link protection type container when the sub-TLV type 20."; } description "ISIS LSDB parameters relating to the type of link protection offered."; container state { description "State parameters of sub-TLV 20."; leaf-list type { type enumeration { enum EXTRA_TRAFFIC { description "If set the link has extra traffic protection. If the link is of type Extra Traffic, it means that the link is protecting another link or links. The LSPs on a link of this type will be lost if any of the links it is protecting fail."; } enum UNPROTECTED { description "If set, the link is unprotected. If the link is of type Unprotected, it means that there is no other link protecting this link. The LSPs on a link of this type will be lost if the link fails."; } enum SHARED { description "If set, the link has shared protection. If the link is of type Shared, it means that there are one or more disjoint links of type Extra Traffic that are protecting this link. These Extra Traffic links are shared between one or more links of type Shared."; } enum ONE_ONE { description "If set, the link has dedicated 1:1 protection. If the link is of type Dedicated 1:1, it means that there is one dedicated disjoint link of type Extra Traffic that is protecting this link."; } enum PLUS_ONE { description "If set, the link has dedicated 1+1 protection. If the link is of type Dedicated 1+1, it means that a dedicated disjoint link is protecting this link. However, the protecting link is not advertised in the link state database and is therefore not available for the routing of LSPs."; } enum ENHANCED { description "If set the link has enhanced protection. If the link is of type Enhanced, it means that a protection scheme that is more reliable than Dedicated 1+1, e.g., 4 fiber BLSR/MS-SPRING, is being used to protect this link."; } } description "Link protection capabilities."; reference "RFC5307: IS-IS Extensions in Support of Generalized Multi-Protocol Label Switching (GMPLS). sub-TLV 20: TLV 22,23,141,222,223."; } } } container bandwidth-constraints { when "../state/type =" + "'oc-isis-lsdb-types:IS_REACHABILITY_BANDWIDTH_CONSTRAINTS'" { description "Only include the bandwidth constraints container when the sub-TLV is type 22."; } description "This container defines bandwidth-constraints. For DS-TE, the existing Maximum Reservable link bandwidth parameter is retained, but its semantics is generalized and interpreted as the aggregate bandwidth constraint across all Class-Types"; reference "RFC4124: Protocol Extensions for Support of Diffserv- aware MPLS Traffic Engineering. sub-TLV 22: TLV 22, 23, 141, 222,223"; list bandwidth-constraint { key "model-id"; description "List of the Bandwidth Constraints sub-TLV instances present in the TLV."; leaf model-id { type leafref { path "../state/model-id"; } description "Reference to the model ID associated with the instance of the Bandwidth Constraints sub-TLV."; } container state { description "State parameters of IS Extended Reachability sub-TLV 22."; leaf model-id { type uint8; description "Identifier for the Bandwidth Constraints Model currently in use by the LSR initiating the IGP advertisement."; } } container constraints { description "Constraints contained within the Bandwidth Constraints sub-TLV"; list constraint { key "constraint-id"; description "List of the constraints within the Bandwidth Constraints sub-TLV. The BC0 level is indicated by the constraint-id leaf being set to 0, with BCN being indicated by constraint-id N."; leaf constraint-id { type leafref { path "../state/constraint-id"; } description "Reference to the unique ID for the BCN level."; } container state { description "Operational state parameters of the BCN level"; leaf constraint-id { type uint32; description "Unique reference for the bandwidth constraint level. BC0 is indicated by this leaf being set to zero, with BCN represented by this leaf being set to N."; } leaf bandwidth { type oc-types:ieeefloat32; units "bytes per second"; description "The bandwidth constraint, expressed as a 32-bit IEEE floating point number expressed in bytes per second."; } } } } } } container unconstrained-lsp { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_UNCONSTRAINED_LSP'" { description "Only include the unconstrained LSP container when the sub-TLV is type 23."; } description "This container defines sub-TLV 23."; container state { description "State parameters of sub-TLV 23."; uses isis-lsdb-subtlv-type-state; leaf count { type uint16; description "Unconstrained TE LSP count(TE Label Switched Paths (LSPs) signalled with zero bandwidth)."; reference "RFC5330: A Link-Type sub-TLV to Convey the Number of Traffic Engineering Label Switched Paths Signalled with Zero Reserved Bandwidth across a Link. sub-TLV 23: TLV 22,23,141,222,223"; } } } container adjacency-sids { when "../state/type = 'oc-isis-lsdb-types:IS_REACHABILITY_ADJ_SID'" { description "Only include the adjacency SIDs container when the sub-TLV type is 31"; } description "This container defines segment routing adjacency SIDs."; list adjacency-sid { key "value"; description "Adjacency Segment-IDs List. An IGP-Adjacency Segment is an IGP segment attached to a unidirectional adjacency or a set of unidirectional adjacencies. By default, an IGP- Adjacency Segment is local to the node which advertises it."; leaf value { type leafref { path "../state/value"; } description "Reference to the value of the Adjacency-SID."; } container state { description "State parameters of Adjacency-SID."; leaf value { type uint32; description "Adjacency-SID value."; } leaf-list flags { type enumeration { enum ADDRESS_FAMILY { description "Address-family flag. When unset, the Adj-SID refers to an adjacency with outgoing IPv4 encapsulation. If set then the Adj-SID refers to an adjacency with outgoing IPv6 encapsulation."; } enum BACKUP { description "Backup flag. When set, the Adj-SID refers to an adjacency being protected (e.g.: using IPFRR or MPLS-FRR)."; } enum VALUE { description "Value flag. When set, the SID carries a value (instead of an index). By default the flag is SET."; } enum LOCAL { description "Local flag. When set, the value/index carried by the SID has local significance. By default the flag is SET."; } enum SET { description "Set flag. When set, the S-Flag indicates that the Adj-SID refers to a set of adjacencies."; } } description "Flags associated with Adj-Segment-ID."; } leaf weight { type uint8; description "Value that represents the weight of the Adj-SID for the purpose of load balancing."; } } } reference "draft-ietf-isis-segment-routing-extensions. sub-TLV 31: TLV 22, 222, 223, 141. "; } container lan-adjacency-sids { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_ADJ_LAN_SID'" { description "Only include the LAN adjacency SID container when the sub-TLV is type 32."; } description "This container defines segment routing LAN adjacency SIDs"; list lan-adjacency-sid { key "value"; description "Adjacency Segment-IDs List. An IGP-Adjacency Segment is an IGP segment attached to a unidirectional adjacency or a set of unidirectional adjacencies. By default, an IGP- Adjacency Segment is local to the node which advertises it."; leaf value { type leafref { path "../state/value"; } description "Reference to the value of the LAN Adjacency-SID."; } container state { description "State parameters of LAN Adjacency-SID."; leaf value { type uint32; description "LAN Adjacency-SID value."; } leaf-list flags { type enumeration { enum ADDRESS_FAMILY { description "Address-family flag. When unset, the Adj-SID refers to an adjacency with outgoing IPv4 encapsulation. If set then the Adj-SID refers to an adjacency with outgoing IPv6 encapsulation."; } enum BACKUP { description "Backup flag. When set, the Adj-SID refers to an adjacency being protected (e.g.: using IPFRR or MPLS-FRR)."; } enum VALUE { description "Value flag. When set, the SID carries a value (instead of an index). By default the flag is SET."; } enum LOCAL { description "Local flag. When set, the value/index carried by the SID has local significance. By default the flag is SET."; } enum SET { description "Set flag. When set, the S-Flag indicates that the Adj-SID refers to a set of adjacencies."; } } description "Flags associated with LAN-Adj-Segment-ID."; } leaf weight { type uint8; description "Value that represents the weight of the Adj-SID for the purpose of load balancing."; } leaf neighbor-id { type oc-isis-types:system-id; description "System ID of the neighbor associated with the LAN- Adj-Segment-ID value."; } } } reference "draft-ietf-isis-segment-routing-extensions. sub-TLV 32: TLV 22, 222, 223, 141."; } container link-delay { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_LINK_DELAY'" { description "Include the link delay container only when the sub-TLV type is type 33."; } description "This container defines unidirectional link delay."; reference "RFC7810: IS-IS Traffic Engineering (TE) Metric Extensions. sub-TLV 33: TLV 22, 23, 141, 222, 223."; container state { description "State parameters of IS Extended Reachability sub-TLV 33."; uses isis-lsdb-link-characteristics-a-bit; leaf delay { type uint32; units microseconds; description "Average link delay value (in microseconds) between two directly connected IS-IS neighbors over a configurable interval."; } } } container min-max-link-delay { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_MIN_MAX_LINK_DELAY'" { description "Only include the min/max link delay container when the sub-TLV is type 34."; } description "This container defines min/max link delay."; reference "RFC7810: IS-IS Traffic Engineering (TE) Metric Extensions. sub-TLV 34: TLV 22, 23, 141, 222, 223."; container state { description "State parameters of IS Extended Reachability sub-TLV 34."; uses isis-lsdb-link-characteristics-a-bit; leaf min-delay { type uint32; units microseconds; description "Minimum measured link delay value(in microseconds) between two directly connected IS-IS neighbors over a configurable interval."; } leaf max-delay { type uint32; units microseconds; description "Maximum measured link delay value(in microseconds) between two directly connected IS-IS neighbors over a configurable interval."; } } } container link-delay-variation { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_LINK_DELAY_VARIATION'" { description "Only include the link delay variation container when the sub-TLV is type 35."; } description "This container defines unidirectional link delay variation."; reference "RFC7810: IS-IS Traffic Engineering (TE) Metric Extensions. sub-TLV 35: TLV 22,23,141,222,223."; container state { description "State parameters of IS Extended Reachability sub-TLV 35."; leaf delay { type uint32; units microseconds; description "Average link delay between two directly connected IS- IS neighbors over a configurable interval."; } } } container link-loss { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_LINK_LOSS'" { description "Only include the link loss container when the sub-TLV is type 36."; } description "This container defines unidirectional link loss delay."; reference "RFC7810: IS-IS Traffic Engineering (TE) Metric Extensions. sub-TLV 36: TLV 22, 23, 141, 222, 223."; container state { description "State parameters of IS Extended Reachability sub-TLV 36."; uses isis-lsdb-link-characteristics-a-bit; leaf link-loss { type uint32; description "Link packet loss as a percentage of the total traffic sent over a configurable interval. The basic unit is 0.000003%, where (2^24 - 2) is 50.331642%. This value is the highest packet-loss percentage that can be expressed (the assumption being that precision is more important on high-speed links than the ability to advertise loss rates greater than this, and that high- speed links with over 50% loss are unusable). Therefore, measured values that are larger than the field maximum SHOULD be encoded as the maximum value."; } } } container residual-bandwidth { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_RESIDUAL_BANDWIDTH'" { description "Only include the resdiual bandwidth container when the sub-TLV is type 37."; } description "This container defines unidirectional residual bandwidth."; reference "RFC7810: IS-IS Traffic Engineering (TE) Metric Extensions. sub-TLV 37: TLV 22, 23, 141, 222, 223."; container state { description "State parameters of IS Extended Reachability sub-TLV 37."; leaf bandwidth { type oc-types:ieeefloat32; units "bytes per second"; description "Residual bandwidth on a link,forwarding adjacency [RFC4206], or bundled link in IEEE floating-point format with units of bytes per second. For a link or forwarding adjacency, residual bandwidth is defined to be the Maximum Bandwidth [RFC5305] minus the bandwidth currently allocated to RSVP-TE label switched paths. For a bundled link, residual bandwidth is defined to be the sum of the component link residual bandwidths."; } } } container available-bandwidth { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_AVAILABLE_BANDWIDTH'" { description "Only include the available bandwdith container when the sub-TLV is type 38."; } description "This container defines unidirectional lavailable bandwidth."; reference "RFC7810: IS-IS Traffic Engineering (TE) Metric Extensions. sub-TLV 38: TLV 22, 23, 141, 222, 223."; container state { description "State parameters of IS Extended Reachability sub-TLV 38."; uses isis-lsdb-subtlv-type-state; leaf bandwidth { type oc-types:ieeefloat32; units "bytes per second"; description "The available bandwidth on a link, forwarding adjacency, or bundled link in IEEE floating-point format with units of bytes per second. For a link or forwarding adjacency, available bandwidth is defined to be residual bandwidth minus the measured bandwidth used for the actual forwarding of non-RSVP-TE label switched path packets. For a bundled link, available bandwidth is defined to be the sum of the component link available bandwidths minus the measured bandwidth used for the actual forwarding of non-RSVP-TE label switched path packets. For a bundled link, available bandwidth is defined to be the sum of the component link available bandwidths."; } } } container utilized-bandwidth { when "../state/type = " + "'oc-isis-lsdb-types:IS_REACHABILITY_UTILIZED_BANDWIDTH'" { description "Only include the utilized bandwidth container when the TLV is type 39."; } description "This container defines unidirectional utilized bandwidth."; reference "RFC7810: IS-IS Traffic Engineering (TE) Metric Extensions. sub-TLV 39: TLV 22, 23, 141, 222, 223."; container state { description "State parameters of IS Extended Reachability sub-TLV 39."; uses isis-lsdb-subtlv-type-state; leaf bandwidth { type oc-types:ieeefloat32; units "bytes per second"; description "The bandwidth utilization on a link, forwarding adjacency, or bundled link in IEEE floating-point format with units of bytes per second. For a link or forwarding adjacency, bandwidth utilization represents the actual utilization of the link (i.e., as measured by the advertising node). For a bundled link, bandwidth utilization is defined to be the sum of the component link bandwidth utilizations."; } } } } } uses isis-lsdb-undefined-subtlv; } grouping isis-lsdb-undefined-tlv { description "Grouping for unknown TLVs in the IS-IS LSDB"; container undefined-tlvs { description "Surrounding container for a list of unknown TLVs."; list undefined-tlv { key "type"; description "List of TLVs that are not defined within the model, or are not recognised by the system."; leaf type { type leafref { path "../state/type"; } description "Reference to the undefined TLV's type"; } container state { description "State parameters of the undefined TLV."; uses undefined-tlv-state; } } } } grouping isis-lsdb-undefined-subtlv { description "Grouping for unknown Sub-TLVs in the IS-IS LSDB."; container undefined-subtlvs { description "This container describes undefined ISIS TLVs."; list undefined-subtlv { key "type"; description "Sub-TLVs that are not defined in the model or not recognised by system."; leaf type { type leafref { path "../state/type"; } description "Reference to the type of the undefined sub-TLV"; } container state { description "State parameters of the undefined sub-TLV."; uses undefined-subtlv-state; } } } } grouping isis-lsdb-prefix-state { description "This grouping defines prefix reachability."; container subtlvs { description "This container describes IS prefix sub-TLVs."; list subtlv { key "type"; description "List of subTLV types in the LSDB for the specified TLV."; leaf type { type leafref { path "../state/type"; } description "Reference to the sub-TLV type"; } container state { description "State parameters for a prefix."; uses isis-lsdb-subtlv-type-state; } container tag { when "../state/type = " + "'oc-isis-lsdb-types:IP_REACHABILITY_TAG'" { description "Only include the tag container when the sub-TLV is type 1."; } description "This container defines sub-TLV 1."; container state { description "State parameters of sub-TLV 1."; leaf-list tag32 { type uint32; description "List of 32-bit tags associated with the prefix. Example uses of these tags include carrying BGP standard (or extended) communities and controlling redistribution between levels and areas, different routing protocols, or multiple instances of IS-IS running on the same router."; reference "RFC5130: A Policy Control Mechanism in IS-IS Using Administrative Tags. sub-TLV 1."; } } } container tag64 { when "../state/type = " + "'oc-isis-lsdb-types:IP_REACHABILITY_TAG64'" { description "Only include the tag64 container when the sub-TLV is type 2."; } description "This container defines sub-TLV 2."; container state { description "State parameters of sub-TLV 2."; leaf-list tag64 { type uint64; description "List of 64-bit tags associated with the prefix. Example uses of these tags include carrying BGP standard (or extended) communities and controlling redistribution between levels and areas, different routing protocols, or multiple instances of IS-IS running on the same router."; reference "RFC5130: A Policy Control Mechanism in IS-IS Using Administrative Tags. sub-TLV 2."; } } } container flags { when "../state/type = " + "'oc-isis-lsdb-types:IP_REACHABILITY_PREFIX_FLAGS'" { description "Only include the flags container when the sub-TLV is type 4."; } description "This container defines sub-TLV 4."; container state { description "State parameters of sub-TLV 4."; uses isis-lsdb-subtlv-type-state; leaf-list flags { type enumeration { enum EXTERNAL_FLAG { description "External prefix flag. Set if the prefix has been redistributed from another protocol. This includes the case where multiple virtual routers are supported and the source of the redistributed prefix is another IS-IS instance."; } enum READVERTISEMENT_FLAG { description "Readvertisement flag. Set when the prefix has been leaked from one level to another (upwards or downwards)."; } enum NODE_FLAG { description "Node flag. Set when the prefix identifies the advertising router, i.e., the prefix is a host prefix advertising a globally reachable address typically associated with a loopback address."; } } description "Additional prefix reachability flags."; reference "RFC7794: IS-IS Prefix Attributes for Extended IPv4 and IPv6 Reachability. sub-TLV 4."; } } } container ipv4-source-router-id { when "../state/type = " + "'oc-isis-lsdb-types:IP_REACHABILITY_IPV4_ROUTER_ID'" { description "Only include the IPv4 Source Router ID container when the sub-TLV is type 11."; } description "This container defines sub-TLV 11."; container state { description "State parameters of sub-TLV 11."; uses isis-lsdb-subtlv-type-state; leaf router-id { type inet:ipv4-address; description "IPv4 Source router ID address. In cases where the advertisement is an identifier for the advertising router (e.g., with the N-flag set in the Prefix Attribute Flags sub-TLV), it may be useful for other routers to know the source of the advertisement. When reachability advertisement is leaked from one level to another, Router ID advertised is always the Router ID of the IS-IS instance that originated the advertisement. This would be true even if the prefix had been learned from another protocol."; reference "RFC7794: IS-IS Prefix Attributes for Extended IPv4 and IPv6 Reachability. sub-TLV 11"; } } } container ipv6-source-router-id { when "../state/type = " + "'oc-isis-lsdb-types:IP_REACHABILITY_IPV6_ROUTER_ID'" { description "Only include the IPv6 Source Router ID container when the sub-TLV is type 12."; } description "This container defines sub-TLV 12."; container state { description "State parameters of sub-TLV 12."; uses isis-lsdb-subtlv-type-state; leaf router-id { type inet:ipv6-address; description "IPv6 Source router ID address. In cases where the advertisement is an identifier for the advertising router (e.g., with the N-flag set in the Prefix Attribute Flags sub-TLV), it may be useful for other routers to know the source of the advertisement. When reachability advertisement is leaked from one level to another, Router ID advertised is always the Router ID of the IS-IS instance that originated the advertisement. This would be true even if the prefix had been learned from another protocol."; reference "RFC7794: IS-IS Prefix Attributes for Extended IPv4 and IPv6 Reachability. sub-TLV 12."; } } } uses isis-lsdb-prefix-sid-state; } } uses isis-lsdb-undefined-subtlv; } grouping isis-lsdb-prefix-sid-state { description "This grouping defines ISIS Prefix SID."; container prefix-sids { when "../state/type = " + "'oc-isis-lsdb-types:IP_REACHABILITY_PREFIX_SID'" { description "Only include the Prefix SID container when the sub-TLV is type 3."; } description "This container defines segment routing extensions for prefixes."; reference "draft-ietf-isis-segment-routing-extensions. sub-TLV 3: TLV 135, 235, 236, 237."; list prefix-sid { key "value"; description "Prefix Segment-ID list. IGP-Prefix Segment is an IGP segment attached to an IGP prefix. An IGP-Prefix Segment is global (unless explicitly advertised otherwise) within the SR/IGP domain."; leaf value { type leafref { path "../state/value"; } description "Reference to the value of the prefix SID."; } container state { description "State parameters for Prefix-SID."; leaf value { type uint32; description "IGP Prefix-SID value."; } leaf-list flags { type enumeration { enum READVERTISEMENT { description "Readvertisment flag. When set, the prefix to which this Prefix-SID is attached, has been propagated by the router either from another level or from redistribution."; } enum NODE { description "Node flag. When set, the Prefix-SID refers to the router identified by the prefix. Typically, the N-Flag is set on Prefix-SIDs attached to a router loopback address."; } enum NO_PHP { description "Penultimate-Hop-Popping flag. When set, then the penultimate hop MUST NOT pop the Prefix-SID before delivering the packet to the node that advertised the Prefix-SID."; } enum EXPLICIT_NULL { description "Explicit-Null flag. When set, any upstream neighbor of the Prefix-SID originator MUST replace the Prefix-SID with a Prefix-SID having an Explicit-NULL value (0 for IPv4 and 2 for IPv6) before forwarding the packet."; } enum VALUE { description "Value flag. When set, the Prefix-SID carries a value (instead of an index). By default the flag is UNSET."; } enum LOCAL { description "Local flag. When set, the value/index carried by the Prefix-SID has local significance. By default the flag is UNSET."; } } description "Flags associated with Prefix Segment-ID."; } leaf algorithm { type uint8; description "Prefix-SID algorithm to be used for path computation."; } } } } } grouping isis-lsdb-common-metric-specification { description "Common definitions of the metric in IS-IS."; container default-metric { description "This container defines ISIS Default Metric."; container state { description "State parameters for default-metric."; leaf flags { type enumeration { enum INTERNAL { description "When set to zero, indicates internal metrics."; } } description "ISIS Default-Metric Flags."; } leaf metric { type oc-isis-types:narrow-metric; description "ISIS default metric value. This is a metric understood by every Intermediate system in the domain. Each circuit shall have a positive integral value assigned for this metric. The value may be associated with any objective function of the circuit, but by convention is intended to measure the capacity of the circuit for handling traffic, for example, its throughput in bits-per-second. Higher values indicate a lower capacity."; } } } container delay-metric { description "This container defines the ISIS delay metric."; container state { description "State parameters of delay-metric."; leaf metric { type oc-isis-types:narrow-metric; description "ISIS delay metric value. This metric measures the transit delay of the associated circuit. It is an optional metric, which if assigned to a circuit shall have a positive integral value. Higher values indicate a longer transit delay."; } leaf-list flags { type isis-metric-flags; description "ISIS Delay Metric Flags."; } } } container expense-metric { description "This container defines the ISIS expense metric."; container state { description "State parameters of expense-metric."; leaf metric { type oc-isis-types:narrow-metric; description "ISIS expense metric value. This metric measures the monetary cost of utilising the associated circuit. It is an optional metric, which if assigned to a circuit shall have a positive integral value1). Higher values indicate a larger monetary expense."; } leaf-list flags { type isis-metric-flags; description "ISIS Expense Metric Flags."; } } } container error-metric { description "This container defines the ISIS error metric."; container state { description "State parameters of error-metric."; leaf metric { type oc-isis-types:narrow-metric; description "ISIS error metric value. This metric measures the residual error probability of the associated circuit. It is an optional metric, which if assigned to a circuit shall have a non-zero value. Higher values indicate a larger probability of undetected errors on the circuit."; } leaf-list flags { type isis-metric-flags; description "IS-IS error metric flags."; } } } } grouping isis-lsdb-neighbor { description "This grouping defines attributes of an ISIS standard neighbor."; container state { description "State parameters of IS standard neighbor."; leaf system-id { type oc-isis-types:system-id; description "System-ID of IS neighbor."; } } uses isis-lsdb-common-metric-specification; } grouping ipv4-prefix-attributes-state { description "This group defines attributes of an IPv4 standard prefix."; container state { description "State parameters of IPv4 standard prefix."; leaf up-down { type boolean; description "The up/down bit. Set if a prefix is advertised from a higher level to a lower level (e.g., level 2 to level 1), indicating that the prefix has traveled down the hierarchy. Prefixes that have the up/down bit set may only be advertised down the hierarchy, i.e., to lower levels. When a prefix is first injected into IS-IS, the bit is UNSET."; } leaf prefix { type inet:ipv4-prefix; description "IPv4 prefix contained within reachability TLVs."; } } uses isis-lsdb-common-metric-specification; } grouping isis-lsdb-common-mt-id { description "Common definition of the multi-topology ID"; leaf mt-id { type uint16 { range "0..4095"; } description "Multi-topology ID"; } } grouping ipv4-prefix-extended-state { description "This grouping defines attributes of an IPv4 extended prefix."; container state { description "State parameters of an IPv4 extended prefix."; uses ipv4-prefix-extended-params-state; } uses isis-lsdb-prefix-state; } grouping ipv4-mt-prefix-extended-state { description "State parameters that relate to an IPv4 prefix in a multi-topology context."; container state { description "State parameters of an IPv4 extended prefix."; uses ipv4-prefix-extended-params-state; uses isis-lsdb-common-mt-id; } uses isis-lsdb-prefix-state; } grouping ipv4-prefix-extended-params-state { description "State parameters that relate to an IPv4 prefix"; leaf up-down { type boolean; description "The up/down bit. Set if a prefix is advertised from a higher level to a lower level (e.g., level 2 to level 1), indicating that the prefix has traveled down the hierarchy. Prefixes that have the up/down bit set may only be advertised down the hierarchy, i.e., to lower levels. When a prefix is first injected into IS-IS, the bit is UNSET."; } leaf s-bit { type boolean; description "The Sub-TLV present bit. If UNSET, the octets of Sub-TLVs are not present. Otherwise, the bit is set and the octet following the prefix will contain the length of the Sub-TLV portion of the structure."; } leaf prefix { type inet:ipv4-prefix; description "IPv4 prefix contained within extended reachability TLVs."; } leaf metric { type oc-isis-types:wide-metric; description "ISIS metric value."; } } grouping ipv6-prefix-extended-state { description "State parameters relating to an IPv6 prefix."; container state { description "State parameters of IPv6 prefix attributes"; uses ipv6-prefix-extended-params-state; } uses isis-lsdb-prefix-state; } grouping ipv6-mt-prefix-extended-state { description "State parameters relating to a multi-topology IPv6 prefix."; container state { description "State parameters relating an IPv6 prefix attribute"; uses ipv6-prefix-extended-params-state; uses isis-lsdb-common-mt-id; } uses isis-lsdb-prefix-state; } grouping ipv6-prefix-extended-params-state { description "Common parameters of an IPv6 extended prefix."; leaf up-down { type boolean; description "The up/down bit. Set if a prefix is advertised from a higher level to a lower level (e.g., level 2 to level 1), indicating that the prefix has traveled down the hierarchy. Prefixes that have the up/down bit set may only be advertised down the hierarchy, i.e., to lower levels. When a prefix is first injected into IS-IS, the bit is UNSET."; } leaf x-bit { type boolean; description "The external bit. Set when the prefix was distributed into IS-IS from another routing protocol."; } leaf s-bit { type boolean; description "The sub-tlv present bit. If UNSET, the octets of Sub-TLVs are not present. Otherwise, the bit is set and the octet following the prefix will contain the length of the Sub-TLV portion of the structure."; } leaf prefix { type inet:ipv6-prefix; description "IPv6 prefix contained within extended reachability TLVs."; } leaf metric { type oc-isis-types:wide-metric; description "ISIS metric value."; } } grouping isis-lsdb-common-extisreach-neighbors { description "Common structure for the Extended IS Reachability and IS Reachability Neighbour attributes."; container neighbors { description "This container describes IS neighbors."; list neighbor { key "system-id"; description "This list describes ISIS extended neighbors and reachability attributes."; leaf system-id { type leafref { path "../state/system-id"; } description "Reference to the neighboring system's system ID."; } container state { description "State parameters corresponding to the extended neighbour."; leaf system-id { type oc-isis-types:system-id; description "System-id of the neighbor."; } } container instances { description "This list contains all instances of an adjacency between the originating IS and the remote IS. Multiple instances are used where there are parallel adjacencies between two systems."; list instance { key "id"; description "Instance of the TLV to the remote IS neighbor."; leaf id { type leafref { path "../state/id"; } description "Reference to the unique identifier for the instance of the extended IS reachability sub-TLV."; } container state { description "State parameters of extended neighbor"; leaf id { type uint64; description "Unique identifier for the instance of the TLV for the IS neighbor. The instance ID is not required to be consistent across across readvertisements of the LSP."; } leaf metric { type oc-isis-types:wide-metric; description "Metric value."; } } uses is-reachability-neighbor-state; } } } } } grouping isis-lsdb-mtis-common { description "Common grouping for structure used within the multi-topology IS neighbour and multi-topology IS neighbour attribute TLVs."; container neighbors { description "MT-IS neigbor attributes."; list neighbor { key "mt-id system-id"; description "This container describes IS neighbors."; leaf mt-id { type leafref { path "../state/mt-id"; } description "Reference to the topology that the neighbor is within."; } leaf system-id { type leafref { path "../state/system-id"; } description "Reference to the System ID of the neighbor."; } container state { description "Operational state parameters related to the MT ISN TLV."; uses mt-isis-neighbor-state; } container instances { description "This list contains all instances of an adjacency between the originating and remote IS. Multiple instances are used to indicate where there are parallel adjacencies between systems."; list instance { key "id"; description "Instance of TLV-222 between the originating and remote IS."; leaf id { type leafref { path "../state/id"; } description "Reference to the unique identifier for the instance of the multi-topology IS neighbor TLV instance."; } uses mt-isis-neighbor-instance; } } } } } grouping mt-isis-neighbor-state { description "This grouping defines state parameters that are related to each neighbour entry for the MT ISN TLV."; leaf mt-id { type uint16 { range "0..4095"; } description "Identifier of a topology being announced."; } leaf system-id { type oc-isis-types:system-id; description "System-id of the IS neighbor."; } } grouping mt-isis-neighbor-instance { description "This grouping defines list of ISIS multi-topology neighbors for extended ISIS LSP (multiple system IDs)."; container state { description "State parameters of MT neighbor."; leaf metric { type oc-isis-types:wide-metric; description "ISIS metric value."; } leaf id { type uint64; description "Unique identifier for the TLV instance for the neighbor. The ID is not required to be consistent across readvertisements of the LSP."; } } uses is-reachability-neighbor-state; } grouping isis-lsdb-generic-tlv { description "Generic TLV encoding grouping."; leaf type { type uint8; description "TLV Type."; } leaf length { type uint8; description "TLV length."; } leaf value { type binary; description "TLV value."; } } grouping undefined-tlv-state { description "Generic grouping defining an unknown TLV."; uses isis-lsdb-generic-tlv; } grouping undefined-subtlv-state { description "Generic grouping defining an unknown sub-TLV."; uses isis-lsdb-generic-tlv; } grouping lsp-state { description "This grouping defines ISIS LSP state information."; leaf lsp-id { type leafref { path "../state/lsp-id"; } description "A reference to the Link State PDU ID."; } container state { description "State parameters of Link State PDU."; leaf lsp-id { type oc-isis-types:lsp-id; description "LSP ID of the LSP."; } leaf maximum-area-addresses { type uint8; description "Number of area addresses permitted for this ISs area. 0 indicates the IS only supports three area addresses (by default). Any number inclusive of 1 and 254 indicates the number of areas allowed."; } leaf version { type uint8; default 1; description "PDU version. This is set to 1."; } leaf version2 { type uint8; default 1; description "PDU version2. This is set to 1"; } leaf id-length { type uint8; description "Length of the ID field of NSAP addresses and NETs used in this routing domain."; } leaf pdu-type { type enumeration { enum LEVEL_1 { description "This enum describes ISIS level 1 PDU."; } enum LEVEL_2 { description "This enum describes ISIS level 2 PDU."; } } description "Link State PDU type."; } leaf remaining-lifetime { type uint16; units "seconds"; description "Remaining lifetime in seconds before the LSP expiration."; } leaf sequence-number { type uint32; description "Sequence number of the LSP."; } leaf checksum { type uint16; description "Checksum of the LSP."; } leaf pdu-length { type uint16; description "Total length of the LSP."; } leaf-list flags { type enumeration { enum PARTITION_REPAIR { description "When set, the originator supports partition repair."; } enum ATTACHED_ERROR { description "When set, the originator is attached to another area using the referred metric."; } enum ATTACHED_EXPENSE { description "When set, the originator is attached to another area using the referred metric."; } enum ATTACHED_DELAY { description "When set, the originator is attached to another area using the referred metric."; } enum ATTACHED_DEFAULT { description "When set, the originator is attached to another area using the referred metric."; } enum OVERLOAD { description "When set, the originator is overloaded, and must be avoided in path calculation."; } } description "LSP Type-Block flags."; } leaf is-type { type oc-isis-types:level-number; description "Type of neighboring system."; } } container tlvs { description "This container defines Link State PDU State TLVs."; list tlv { key "type"; description "List of TLV types in the LSDB for the specified LSP."; leaf type { type leafref { path "../state/type"; } description "Reference to the TLV's type."; } container state { config false; description "Operational state parameters relating to the specified LSP"; uses isis-lsdb-tlv-type-state; } container area-address { when "../state/type = 'oc-isis-lsdb-types:AREA_ADDRESSES'" { description "Include area address parameters only when the TLV type is TLV 1."; } description "This container defines TLV 1."; container state { description "State parameters of ISIS TLV 1."; leaf-list address { type oc-isis-types:area-address; description "Area adress(es) of the IS. Set of manual area addresses of this IS."; reference "ISO 10589 Intermediate System to Intermediate System Intra- Domain Routeing Exchange Protocol for use in Conjunction with the Protocol for Providing the Connectionless-mode Network Service (ISO 8473 ) International Standard 10589: 2002, Second Edition, 2002. TLV 1."; } } } container lsp-buffer-size { when "../state/type = " + "'oc-isis-lsdb-types:LSP_BUFFER_SIZE'" { description "Include the LSP buffer size parameters only when the TLV type is TLV 14."; } description "This container defines TLV 14 - the LSP Buffer Size TLV."; container state { description "State parameters of TLV 14."; leaf size { type uint16; units "bytes"; description "The maximum MTU that the advertising system can receive, expressed in bytes."; reference "ISO 10589 Intermediate System to Intermediate System Intra- Domain Routeing Exchange Protocol for use in Conjunction with the Protocol for Providing the Connectionless-mode Network Service (ISO 8473 ) International Standard 10589: 2002, Second Edition, 2002. TLV 14."; } } } container nlpid { when "../state/type = 'oc-isis-lsdb-types:NLPID'" { description "Include NLPID specification only when the TLV type is TLV 129."; } description "This container defines TLV 129."; container state { description "State parameters of ISIS TLV 129."; uses isis-lsdb-tlv-nlpid-state; } } container hostname { when "../state/type = 'oc-isis-lsdb-types:DYNAMIC_NAME'" { description "Include the dynamic hostname TLV only when the TLV is type 137."; } description "This container defines TLV 137."; container state { description "State parameters of ISIS TLV 137."; leaf-list hostname { type string; description "Name of the node."; reference "RFC6233: IS-IS Registry Extension for Purges, RFC 5301: Dynamic Hostname Exchange Mechanism for IS-IS. TLV 137"; } } } container ipv4-interface-addresses { when "../state/type = " + "'oc-isis-lsdb-types:IPV4_INTERFACE_ADDRESSES'" { description "Include the IPv4 interface addresses TLV only when the TLV is type 132."; } description "This container defines TLV 132."; container state { description "State parameters of ISIS TLV 132."; leaf-list address { type inet:ipv4-address; description "IPv4 address(es) of the interface corresponding to the SNPA over which this PDU is to be transmitted."; reference "RFC1195: Use of OSI IS-IS for Routing in TCP/IP and Dual Environments. TLV 132."; } } } container ipv6-interface-addresses { when "../state/type = " + "'oc-isis-lsdb-types:IPV6_INTERFACE_ADDRESSES'" { description "Include the IPv6 interface addresses TLV only when the TLV is type 232."; } description "This container defines TLV 232."; container state { description "State parameters of ISIS TLV 232."; leaf-list address { type inet:ipv6-address; description "IPv6 interface addresses of the node. MUST contain only the non-link-local IPv6 addresses assigned to the IS."; reference "RFC5308: Routing IPv6 with IS-IS. TLV 232."; } } } container ipv4-te-router-id { when "../state/type = " + "'oc-isis-lsdb-types:IPV4_TE_ROUTER_ID'" { description "Include the IPv4 traffic engineering router ID TLV only when the TLV is type 134."; } description "This container defines TLV 134."; container state { description "State parameters of ISIS TLV 134."; leaf-list router-id { type inet:ipv4-address; description "IPv4 Traffic Engineering router ID of the node. For traffic engineering, it guarantees that we have a single stable address that can always be referenced in a path that will be reachable from multiple hops away, regardless of the state of the node's interfaces."; reference "RFC5305: IS-IS Extensions for Traffic Engineering. TLV 134."; } } } container ipv6-te-router-id { when "../state/type = " + "'oc-isis-lsdb-types:IPV6_TE_ROUTER_ID'" { description "Include the IPv6 traffic engineering router ID TLV only when the TLV is type 140."; } description "This container defines TLV 140."; container state { description "State parameters of ISIS TLV 140."; leaf-list router-id { type inet:ipv6-address; description "IPv6 Traffic Engineering router ID of the node. For traffic engineering, it guarantees that we have a single stable address that can always be referenced in a path that will be reachable from multiple hops away, regardless of the state of the node's interfaces."; reference "RFC6119: IPv6 Traffic Engineering in IS-IS. TLV 140."; } } } container instance-ids { when "../state/type = 'oc-isis-lsdb-types:INSTANCE_ID'" { description "Include the ISIS Instance Identifier TLV only when the TLV is type 7."; } description "This container defines ISIS Instance Identifier TLV."; reference "RFC6822: IS-IS Multi-Instance. TLV 7."; list instance-id { key "instance-id"; description "A list of instance IDs received within TLV 7 within an IS-IS LSP. In the case that more than one instance of TLV 7 is included in the LSP, the instance IDs specified within the instances are concatenated within this list."; leaf instance-id { type leafref { path "../state/instance-id"; } description "Reference to the unique instance ID."; } container state { description "State parameters of ISIS TLV 7."; leaf instance-id { type uint16; description "An Instance Identifier (IID) to uniquely identify an IS-IS instance. When the IID = 0, the list of supported ITIDs MUST NOT be present. An IID-TLV with IID = 0 MUST NOT appear in an SNP or LSP. When the TLV appears (with a non-zero IID) in an SNP or LSP, exactly one ITID. MUST be present indicating the topology with which the PDU is associated. If no ITIDs or multiple ITIDs are present or the IID is zero, then the PDU MUST be ignored."; } leaf-list topology-id { type uint16; description "Instance-Specific Topology Identifiers (ITIDs)."; } } } } container ipv4-srlgs { when "../state/type = 'oc-isis-lsdb-types:IPV4_SRLG'" { description "Include the IPv4 SRLG TLV only when the TLV is type 138."; } description "This container defines ISIS SRLG TLV 138."; reference "RFC5307: IS-IS Extensions in Support of Generalized Multi-Protocol Label Switching (GMPLS). TLV 138."; list ipv4-srlg { key "instance-number"; description "Instance of the IPv4 SRLG TLV"; leaf instance-number { type leafref { path "../state/instance-number"; } description "Reference to the instance number of TLV 138."; } container state { description "State parameters of TLV 138."; leaf instance-number { type uint32; description "An arbitrary unsigned 32-bit integer used to disambiguate the instance of TLV 138. The instance identifier is synthesised by the system and may be renumbered for the same SRLG definition in subsequent advertised LSPs if (and only if) the entire list of SRLGs is replaced."; } leaf system-id { type oc-isis-types:system-id; description "Neighbor system ID."; } leaf psn-number { type uint8; description "Pseudonode number if the neighbor is on a LAN interface."; } leaf-list flags { type enumeration { enum NUMBERED { description "When set, the interface is numbered, whereas if unset indicates that the interface is unnumbered."; } } description "SRLG flags."; } leaf ipv4-interface-address { type inet:ipv4-address; description "IPv4 interface address."; } leaf ipv4-neighbor-address { type inet:ipv4-address; description "IPv4 neighbor address."; } leaf-list srlg-value { type uint32; description "List of SRLG values."; } } } } container ipv6-srlgs { when "../state/type = 'oc-isis-lsdb-types:IPV6_SRLG'" { description "Include the IPv6 SRLG TLV only when the TLV is type 139."; } description "This container defines ISIS SRLG TLV."; reference "RFC6119: IPv6 Traffic Engineering in IS-IS. TLV 139."; list ipv6-srlg { key "instance-number"; description "Instance of the IPv6 SRLG TLV."; leaf instance-number { type leafref { path "../state/instance-number"; } description "Reference to the instance number of the IPv6 Shared Risk Link Group (SRLG) TLV."; } container state { description "State parameters of TLV 139."; leaf instance-number { type uint32; description "An arbitrary unsigned 32-bit integer used to disambiguate the instance of TLV 138. The instance identifier is synthesised by the system and may be renumbered for the same SRLG definition in subsequent advertised LSPs if (and only if) the entire list of SRLGs is replaced."; } leaf system-id { type oc-isis-types:system-id; description "Neighbor system ID."; } leaf psn-number { type uint8; description "Pseudonode number if the neighbor is on a LAN interface."; } leaf-list flags { type enumeration { enum NA { description "When set, the IPv6 neighbour address is included, whereas if unset, it is omitted"; } } description "IPv6 SRLG flags."; } leaf ipv6-interface-address { type inet:ipv6-address; description "IPv6 interface address or Link Local Identifier."; } leaf ipv6-neighbor-address { type inet:ipv6-address; description "IPv6 neighbor address or Link Remote Identifier."; } leaf-list srlg-value { type uint32; description "SRLG values."; } } } } container purge-oi { when "../state/type = 'oc-isis-lsdb-types:PURGE_OI'" { description "Only include the purge originator identitication TLV when the TLV type is 13."; } description "This container defines ISIS purge TLV."; reference "RFC6232: Purge Originator Identification TLV for IS-IS. TLV 13."; container state { description "State parameters of TLV 13."; leaf system-id-count { type uint8; description "Number of system IDs carried in this TLV."; } leaf source-system-id { type oc-isis-types:system-id; description "System ID of the Intermediate System that inserted this TLV."; } leaf received-system-id { type oc-isis-types:system-id; description "System ID of the Intermediate System from which the purge was received."; } } } container router-capabilities { when "../state/type = " + "'oc-isis-lsdb-types:ROUTER_CAPABILITY'" { description "Only include the router capability TLV when the TLV is type 242."; } description "This container defines router capabilities."; list capability { key "instance-number"; description "This list describes IS Router capabilities."; reference "RFC4971: Intermediate System to Intermediate System (IS-IS) Extensions for Advertising Router Information. TLV 242."; leaf instance-number { type leafref { path "../state/instance-number"; } description "Reference to the instance number of the router capability TLV."; } container state { description "State parameters of TLV 242."; leaf instance-number { type uint32; description "A unique instance number for the instance of the router capabilities TLV. The instance number should be autogenerated by the producer of the data and may be renumbered if the entire LSP contents are replaced in subsequent advertisements."; } leaf router-id { type inet:ipv4-address; description "IPv4 router-id."; } leaf-list flags { type enumeration { enum FLOOD { description "When the S bit is set(1), the IS - IS Router CAPABILITY TLV MUST be flooded across the entire routing domain. When the S bit is not set(0), the TLV MUST NOT be leaked between levels . This bit MUST NOT be altered during the TLV leaking."; } enum DOWN { description "When the IS-IS Router CAPABILITY TLV is leaked from level - 2 to level-1, the Down bit MUST be set. Otherwise, this bit MUST be clear. IS - IS Router capability TLVs with the Down bit set MUST NOT be leaked from level - 1 to level-2. This is to prevent TLV looping."; } } description "Router capability flags."; } } container subtlvs { description "This container describes router capability TLV sub-TLVs"; list subtlv { key "type"; description "List of subTLV types in the LSDB for the specified TLV"; leaf type { type leafref { path "../state/type"; } description "Reference to the sub-TLV type"; } container state { description "State parameters of IS Router Capabilities"; uses isis-lsdb-subtlv-type-state; } container segment-routing-algorithms { when "../state/type = " + "'oc-isis-lsdb-types:ROUTER_CAPABILITY_SR_ALGORITHM'" { description "Only include segment routing algorithm when the sub-TLV is type 19."; } description "This container defines SR algorithm sub-TLV 19."; reference "draft-ietf-isis-segment-routing-extensions. TLV 242, sub-TLV 19"; container state { description "State parameters of sub-TLV 19 - Segment Routing Algorithm."; leaf-list algorithm { type enumeration { enum SPF { value 0; description "Shortest Path First (SPF) algorithm based on link metric. This is the well-known shortest path algorithm as computed by the IS-IS Decision process. Consistent with the deployed practice for link-state protocols, algorithm 0 permits any node to overwrite the SPF path with a different path based on local policy."; } enum STRICT_SPF { value 1; description "Strict Shortest Path First (SPF) algorithm based on link metric. The algorithm is identical to algorithm 0 but algorithm 1 requires that all nodes along the path will honor the SPF routing decision. Local policy MUST NOT alter the forwarding decision computed by algorithm 1 at the node claiming to support algorithm 1."; } } description "The Segment Routing algorithm that is described by the TLV."; } } } container segment-routing-capability { when "../state/type = " + "'oc-isis-lsdb-types:ROUTER_CAPABILITY_SR_CAPABILITY'" { description "Only include the SR capability sub-TLV when the sub-TLV type is 2."; } description "This container defines SR Capability sub-TLV 2."; reference "draft-ietf-isis-segment-routing-extensions. TLV 242, sub-TLV 2."; container state { description "State parameters of IS SR Router Capability"; leaf-list flags { type enumeration { enum IPV4_MPLS { description "When set, the router is capable of processing SR MPLS encapsulated IPv4 packets on all interfaces."; } enum IPV6_MPLS { description "When set, the router is capable of processing SR MPLS encapsulated IPv6 packets on all interfaces."; } enum IPV6_SR { description "When set, the router is capable of processing the IPv6 Segment Routing Header on all interfaces."; } } description "Segment Routing Capability Flags."; } } container srgb-descriptors { description "SRGB Descriptors included within the SR capability sub-TLV"; list srgb-descriptor { key "range"; description "Descriptor entry within the SR capabilty sub-TLV"; leaf range { type leafref { path "../state/range"; } description "Reference to unique SRGB Descriptor."; } container state { description "State parameters of the SR range"; leaf range { type uint32; description "Number of SRGB elements. The range value MUST be greater than 0."; } leaf label { type oc-mplst:mpls-label; description "The first value of the SRGB when expressed as an MPLS label."; } } } } } } } uses isis-lsdb-undefined-subtlv; } } container is-reachability { when "../state/type = 'oc-isis-lsdb-types:IIS_NEIGHBORS'" { description "Include IIS_NEIGHBORS sub-TLV when the TLV type is 2."; } description "This container describes list of ISIS neighbors and attributes."; reference "ISO 10589, Intermediate System to Intermediate System Intra- Domain Routeing Exchange Protocol for use in Conjunction with the Protocol for Providing the Connectionless-mode Network Service (ISO 8473), International Standard 10589: 2002, Second Edition, 2002. TLV 2."; container neighbors { description "This container describes IS neighbors."; list neighbor { key "system-id"; description "IS reachability neighbor attributes."; leaf system-id { type leafref { path "../state/system-id"; } description "Reference to the system ID of the neighbor."; } uses isis-lsdb-neighbor; } } } container ipv4-internal-reachability { when "../state/type = " + "'oc-isis-lsdb-types:IPV4_INTERNAL_REACHABILITY'" { description "Include IPv4 internal reachability TLV when the TLV type is specified as 128."; } description "This container defines list of IPv4 internal reachability information."; reference "RFC1195: OSI ISIS for IP and Dual Environments. RFC5302: Domain-Wide Prefix Distribution with Two-Level IS-IS. TLV 128"; container prefixes { description "This container describes IS prefixes."; list prefix { key "prefix"; description "IPv4 prefixes and internal reachability attributes."; leaf prefix { type leafref { path "../state/prefix"; } description "Reference to the IPv4 prefix"; } uses ipv4-prefix-attributes-state; } } } container ipv4-external-reachability { when "../state/type = " + "'oc-isis-lsdb-types:IPV4_EXTERNAL_REACHABILITY'" { description "Include IPv4 external reachability when the TLV type is set to 130."; } description "This container defines list of IPv4 external reachability information."; reference "RFC1195: OSI ISIS for IP and Dual Environments. RFC5302: Domain-Wide Prefix Distribution with Two-Level IS-IS. TLV 130"; container prefixes { description "This container describes IS neighbors."; list prefix { key "prefix"; description "IPv4 external prefixes and reachability attributes."; leaf prefix { type leafref { path "../state/prefix"; } description "Reference to the IPv4 prefix."; } uses ipv4-prefix-attributes-state; } } } container authentication { when "../state/type = 'oc-isis-lsdb-types:AUTHENTICATION'" { description "Only include the authentication TLV when the TLV is type 10."; } description "This container defines authentication information of the node."; reference "ISO 10589 Intermediate System to Intermediate System Intra- Domain Routeing Exchange Protocol for use in Conjunction with the Protocol for Providing the Connectionless-mode Network Service (ISO 8473) International Standard 10589: 2002, Second Edition, 2002. TLV 10."; container state { description "State parameters of TLV 10."; leaf crypto-type { type enumeration { enum HMAC_MD5 { description "HMAC-MD5 Authentication type."; } enum CLEARTEXT { description "Cleartext Authentication type."; } } description "Authentication type to be used."; } leaf authentication-key { type string; description "Authentication key to be used."; } } } container extended-is-reachability { when "../state/type = " + "'oc-isis-lsdb-types:EXTENDED_IS_REACHABILITY'" { description "Only included the extended IS reachability TLV when the TLV is type 22."; } description "This container defines list of ISIS extended reachability neighbors."; reference "RFC5305: IS-IS Extensions for Traffic Engineering. TLV 22."; uses isis-lsdb-common-extisreach-neighbors; } container extended-ipv4-reachability { when "../state/type = " + "'oc-isis-lsdb-types:EXTENDED_IPV4_REACHABILITY'" { description "Only include the extended IPv4 reachability container when the TLV type is 135."; } description "This container defines list of IPv4 extended reachability information."; reference "RFC5305: IS-IS Extensions for Traffic Engineering. TLV 135"; container prefixes { description "This container describes IS prefixes."; list prefix { key "prefix"; description "This list describes IPv4 extended prefixes and attributes."; leaf prefix { type leafref { path "../state/prefix"; } description "Reference to the IPv4 prefix that the TLV describes the attributes of."; } uses ipv4-prefix-extended-state; } } } container ipv6-reachability { when "../state/type = " + "'oc-isis-lsdb-types:IPV6_REACHABILITY'" { description "Only include the IPv6 reachability container when the TLV type is 236."; } description "This container defines list of IPv6 reachability information."; reference "RFC5308: Routing IPv6 with IS-IS. TLV 236"; container prefixes { description "This container describes IS prefixes."; list prefix { key "prefix"; description "This list defines IPv6 extended prefix attributes."; leaf prefix { type leafref { path "../state/prefix"; } description "Reference to the IPv6 prefix that the TLV corresponds to."; } uses ipv6-prefix-extended-state; } } } container multi-topology { when "../state/type = 'oc-isis-lsdb-types:MULTI_TOPOLOGY'" { description "Only include the multi-topology container when the TLV is type 229."; } description "This container defines the topology supported."; reference "RFC5120: M-ISIS: Multi Topology (MT) Routing in Intermediate System to Intermediate Systems (IS-ISs). TLV 229"; container topologies { description "This container describes IS topologies."; list topology { key "mt-id"; description "This list describes a topology."; leaf mt-id { type leafref { path "../state/mt-id"; } description "Reference to the multi-topology ID being described by the list entry."; } container state { description "State parameters of IS multi-topology TLV 229."; leaf mt-id { type uint16 { range "0 .. 4095"; } description "Multi-topology ID."; } leaf attributes { type enumeration { enum OVERLOAD { description "When set, node is overloaded, still part of the topology but cannot be used for transit."; } enum ATTACHED { description "When set, node is attached to another area using the referred metric and can be used as default gateway."; } } description "Attributes of the LSP for the associated topology."; } } } } } container isis-neighbor-attribute { when "../state/type = " + "'oc-isis-lsdb-types:IS_NEIGHBOR_ATTRIBUTE'" { description "Only include the neighbor attribute container when the TLV is type 23."; } description "This container defines list of ISIS topology neighbors for extended ISIS LSP (multiple system IDs). "; reference "RFC5311: Simplified Extension of Link State PDU (LSP) Space for IS-IS. TLV 23. It is identical in format to the extended IS reachability TLV 22."; uses isis-lsdb-common-extisreach-neighbors; } container is-alias-id { when "../state/type = 'oc-isis-lsdb-types:ISIS_ALIAS_ID'" { description "Only include the ISIS alias ID container when the TLV is type 24."; } description "This container defines the IS-Alias TLV which allows extension-capable ISs to recognize the Originating System of an Extended LSP set. It identifies the Normal system- id of the Originating System."; reference "RFC5311: Simplified Extension of Link State PDU (LSP) Space for IS-IS TLV 24."; container state { config false; description "State parameters of alias ID."; leaf alias-id { type oc-isis-types:system-id; description "List of alias ID(s)."; } } } container mt-isn { when "../state/type = 'oc-isis-lsdb-types:MT_ISN'" { description "Only include the MT ISN container when the TLV is type 222."; } description "This container defines list of ISIS multi-topology neighbors."; reference "RFC5120: M-ISIS: Multi Topology (MT) Routing in Intermediate System to Intermediate Systems (IS-ISs). TLV 222."; uses isis-lsdb-mtis-common; } container mt-isis-neighbor-attribute { when "../state/type = " + "'oc-isis-lsdb-types:MT_IS_NEIGHBOR_ATTRIBUTE'" { description "Only include the MT ISIS neighbor attribute container when the TLV is type 223."; } description "This container defines list of ISIS multi-topology neighbors."; reference "RFC5311: Simplified Extension of Link State PDU (LSP) Space for IS-IS. TLV 223. It is identical in format to the MT-ISN TLV 222."; uses isis-lsdb-mtis-common; } container mt-ipv4-reachability { when "../state/type = " + "'oc-isis-lsdb-types:MT_IPV4_REACHABILITY'" { description "Only include the multi-topology IPv4 reachability container when the TLV is type 235."; } description "This container defines list of IPv4 reachability Information in multi-topology environment."; reference "RFC5120: M-ISIS: Multi Topology (MT) Routing in Intermediate System to Intermediate Systems (IS-ISs). TLV 235."; container prefixes { description "This container describes IS prefixes."; list prefix { key "mt-id prefix"; leaf mt-id { type leafref { path "../state/mt-id"; } description "Reference to the topology ID of the topology that the prefix is within."; } leaf prefix { type leafref { path "../state/prefix"; } description "Reference to the prefix to which reachability is being advertised."; } description "IPv4 prefixes that are contained within MT reachability TLV."; uses ipv4-mt-prefix-extended-state; } } } container mt-ipv6-reachability { when "../state/type = " + "'oc-isis-lsdb-types:MT_IPV6_REACHABILITY'" { description "Only include the multi-topology IPv6 reachability container when the TLV is type 237."; } description "This container defines list of IPv6 reachability information in multi - topology environment."; reference "RFC5120: M-ISIS: Multi Topology (MT) Routing in Intermediate System to Intermediate Systems (IS-ISs). TLV 237."; container prefixes { description "This container describes IS prefixes."; list prefix { key "prefix mt-id"; description "List of IPv6 prefixes contained within MT reachability TLV."; leaf prefix { type leafref { path "../state/prefix"; } description "Reference to the IPv6 prefix described by the TLV."; } leaf mt-id { type leafref { path "../state/mt-id"; } description "Reference to the multi-topology ID."; } uses ipv6-mt-prefix-extended-state; } } } } } uses isis-lsdb-undefined-tlv; } }