IS-IS control plane extensions add support for the following RFC 6119 TLVs in IS-IS advertisements and in TE-DB:
IPv6 interface Address TLV (ISIS_TLV_IPv6_IFACE_ADDR 0xe8)
IPv6 Neighbor Address sub-TLV (ISIS_SUB_TLV_NBR_IPADDR6 0x0d)
IPv6 Global Interface Address TLV (only used by ISIS in IIH PDU)
IPv6 TE Router ID TLV
IPv6 SRLG TLV
IS-IS also supports advertising which protocol is enabled on a TE-link (SR-TE, RSVP-TE, or both) by using the Application Specific Link Attributes (ASLA) sub-TLV as per RFC 8919. This causes the advertising router to send potentially different Link TE attributes for RSVP-TE and SR-TE applications and allows the router receiving the link TE attributes to know which application is enabled on the advertising router. For backward compatibility, the router continues to support the legacy mode of advertising link TE attributes, as recommended in RFC 5305, but the user can disable it.
See IS-IS IPv4 and IPv6 SR-TE and IPv4 RSVP-TE feature behavior for more details of the behavior of the per-application TE capability.
The new TLVs and sub-TLVs are advertised in IS-IS and added into the local TE-DB when received from IS-IS neighbors. In addition, if the database-export command is enabled in this ISIS instance, then this information is also added in the Enhanced TE-DB.
This feature adds the following enhancements to support advertising of the TE parameters in BGP-LS routes over a IPv4 or IPv6 transport:
importing IPv6 TE link TLVs from a local Enhanced TE-DB into the local BGP process for exporting to other BGP peers using the BGP-LS route family that is enabled on an IPv4 or an IPv6 transport BGP session
RFC 6119 IPv6 and TE TLVs and sub-TLVs are carried in BGP-LS link NLRI as per RFC 7752.
When the link TE attributes are advertised by IS-IS on a per-application basis using the ASLA TLV (ISIS TLV Type 16), then they are carried in the new BGP-LS ASLA TLV (TLV Type TBD) as per draft-ietf-idr-bgp-ls-app-specific-attr.
When a TE attribute of a link is advertised for both RSVP-TE and SR-TE applications, there are three methods IS-IS can use. Each method results in a specific way the BGP-LS originator carries this information. These methods are summarized here but more details are provided in IS-IS IPv4 and IPv6 SR-TE and IPv4 RSVP-TE feature behavior.
In legacy mode of operation, all TE attributes are carried in the legacy IS-IS TE TLVs and the corresponding BGP-LS link attributes TLVs as listed in Table: Legacy link TE TLV support in TE-DB and BGP-LS.
In legacy with application indication mode of operation, IGP and BGP-LS advertises the legacy TE attribute TLVs and also advertises the ASLA TLV with the legacy (L) flag set and the RSVP-TE and SR-TE application flags set. No TE sub-sub TLVs are advertised within the ASLA TLV.
The legacy with application indication mode is intended for cases where link TE attributes are common to RSVP-TE and SR-TE applications and have the same value, but the user wants to indicate on a per-link basis which application is enabled.
In application specific mode of operation, the TE attribute TLVs are sent as sub-sub-TLVs within the ASLA TLV. Common attributes to RSVP-TE and SR-TE applications have the main TLV Legacy (L) flag cleared and the RSVP-TE and SR-TE application flags set. Any attribute that is specific to an application (RSVP-TE or SR-TE) is advertised in a separate ASLA TLV with the main TLV Legacy (L) flag cleared and the specific application (RSVP-TE or SR-TE) flags set. This mode is also used to advertise the TE attributes for the SR-TE application when RSVP-TE is disabled on the router.
The application specific mode of operation is intended for cases where TE attributes may have different values in RSVP-TE and SR-TE applications or are specific to one application (for example, the RSVP-TE Unreserved Bandwidth and Max Reservable Bandwidth attributes).
exporting from the local BGP process to the local Enhanced TE-DB of IPv6 and TE link TLVs received from a BGP peer via BGP-LS route family enabled on a IPv4 or IPv6 transport BGP session
support of exporting of IPv6 and TE link TLVs from local Enhanced TE-DB to NSP via the cproto channel on the VSR-NRC