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+Internet Engineering Task Force (IETF) L. Ginsberg
+Request for Comments: 7356 S. Previdi
+Category: Standards Track Y. Yang
+ISSN: 2070-1721 Cisco Systems
+ September 2014
+
+
+ IS-IS Flooding Scope Link State PDUs (LSPs)
+
+Abstract
+
+ Intermediate System to Intermediate System (IS-IS) provides efficient
+ and reliable flooding of information to its peers; however, the
+ current flooding scopes are limited to either area scope or domain
+ scope. There are existing use cases where support of other flooding
+ scopes is desirable. This document defines new Protocol Data Units
+ (PDUs) that provide support for new flooding scopes as well as
+ additional space for advertising information targeted for the
+ currently supported flooding scopes. This document also defines
+ extended Type-Length-Values (TLVs) and sub-TLVs that are encoded
+ using 16-bit fields for Type and Length.
+
+ The protocol extensions defined in this document are not backwards
+ compatible with existing implementations and so must be deployed with
+ care.
+
+Status of This Memo
+
+ This is an Internet Standards Track document.
+
+ This document is a product of the Internet Engineering Task Force
+ (IETF). It represents the consensus of the IETF community. It has
+ received public review and has been approved for publication by the
+ Internet Engineering Steering Group (IESG). Further information on
+ Internet Standards is available in Section 2 of RFC 5741.
+
+ Information about the current status of this document, any errata,
+ and how to provide feedback on it may be obtained at
+ http://www.rfc-editor.org/info/rfc7356.
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+Ginsberg, et al. Standards Track [Page 1]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+Copyright Notice
+
+ Copyright (c) 2014 IETF Trust and the persons identified as the
+ document authors. All rights reserved.
+
+ This document is subject to BCP 78 and the IETF Trust's Legal
+ Provisions Relating to IETF Documents
+ (http://trustee.ietf.org/license-info) in effect on the date of
+ publication of this document. Please review these documents
+ carefully, as they describe your rights and restrictions with respect
+ to this document. Code Components extracted from this document must
+ include Simplified BSD License text as described in Section 4.e of
+ the Trust Legal Provisions and are provided without warranty as
+ described in the Simplified BSD License.
+
+ This document may contain material from IETF Documents or IETF
+ Contributions published or made publicly available before November
+ 10, 2008. The person(s) controlling the copyright in some of this
+ material may not have granted the IETF Trust the right to allow
+ modifications of such material outside the IETF Standards Process.
+ Without obtaining an adequate license from the person(s) controlling
+ the copyright in such materials, this document may not be modified
+ outside the IETF Standards Process, and derivative works of it may
+ not be created outside the IETF Standards Process, except to format
+ it for publication as an RFC or to translate it into languages other
+ than English.
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+Ginsberg, et al. Standards Track [Page 2]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+Table of Contents
+
+ 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3
+ 1.1. Requirements Language . . . . . . . . . . . . . . . . . . 5
+ 2. Extended TLVs . . . . . . . . . . . . . . . . . . . . . . . . 5
+ 2.1. Use of Extended TLVs and Extended Sub-TLVs . . . . . . . 5
+ 2.2. Use of Standard Code Points in Extended TLVs and Extended
+ Sub-TLVs . . . . . . . . . . . . . . . . . . . . . . . . 6
+ 3. Definition of New PDUs . . . . . . . . . . . . . . . . . . . 6
+ 3.1. Flooding Scoped LSP Format . . . . . . . . . . . . . . . 7
+ 3.2. Flooding Scoped CSNP Format . . . . . . . . . . . . . . . 10
+ 3.3. Flooding Scope PSNP Format . . . . . . . . . . . . . . . 12
+ 4. Flooding Scope Update Process Operation . . . . . . . . . . . 13
+ 4.1. Scope Types . . . . . . . . . . . . . . . . . . . . . . . 14
+ 4.2. Operation on Point-to-Point Circuits . . . . . . . . . . 14
+ 4.3. Operation on Broadcast Circuits . . . . . . . . . . . . . 14
+ 4.4. Use of Authentication . . . . . . . . . . . . . . . . . . 15
+ 4.5. Priority Flooding . . . . . . . . . . . . . . . . . . . . 15
+ 5. Deployment Considerations . . . . . . . . . . . . . . . . . . 15
+ 6. Graceful Restart Interactions . . . . . . . . . . . . . . . . 16
+ 7. Multi-instance Interactions . . . . . . . . . . . . . . . . . 16
+ 8. Circuit Scope Flooding . . . . . . . . . . . . . . . . . . . 16
+ 9. Extending LSP Set Capacity . . . . . . . . . . . . . . . . . 17
+ 10. Domain Scope Flooding . . . . . . . . . . . . . . . . . . . . 18
+ 11. Announcing Support for Flooding Scopes . . . . . . . . . . . 19
+ 12. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 20
+ 13. Security Considerations . . . . . . . . . . . . . . . . . . . 21
+ 14. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 21
+ 15. References . . . . . . . . . . . . . . . . . . . . . . . . . 21
+ 15.1. Normative References . . . . . . . . . . . . . . . . . . 21
+ 15.2. Informative References . . . . . . . . . . . . . . . . . 22
+
+1. Introduction
+
+ The Update Process, as defined by [IS-IS], provides reliable and
+ efficient flooding of information to all routers in a given flooding
+ scope. Currently, the protocol supports two flooding scopes and
+ associated PDUs. Level 1 (L1) Link State PDUs (LSPs) are flooded to
+ all routers in an area. Level 2 (L2) LSPs are flooded to all routers
+ in the Level 2 subdomain. The basic operation of the Update Process
+ can be applied to any subset of the routers in a given topology so
+ long as that topology is not partitioned. It is, therefore, possible
+ to introduce new PDUs in support of other flooding scopes and utilize
+ the same Update Process machinery to provide the same reliability and
+ efficiency that the Update Process currently provides for L1 and L2
+ scopes. This document defines these new PDUs and the modified Update
+ Process rules that are to be used in supporting new flooding scopes.
+
+
+
+
+Ginsberg, et al. Standards Track [Page 3]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+ New deployment cases have introduced the need for reliable and
+ efficient circuit scope flooding. For example, Appointed Forwarder
+ information, as defined in [RFC7176], needs to be flooded reliably
+ and efficiently to all Routing Bridges (RBridges) on a broadcast
+ circuit. Currently, only IS-IS Hellos (IIHs) have the matching scope
+ -- but IIHs are unreliable, i.e., individual IIHs may be lost without
+ affecting correct operation of the protocol. To provide reliability
+ in cases where the set of information to be flooded exceeds the
+ carrying capacity of a single PDU requires sending the information
+ periodically even when no changes in the content have occurred. When
+ the information content is large, this is inefficient and still does
+ not provide a guarantee of reliability. This document defines
+ circuit scope flooding in order to provide a solution for such cases.
+
+ Another existing limitation of [IS-IS] is the carrying capacity of an
+ LSP set. It has been noted in [RFC5311] that the set of LSPs that
+ may be originated by a system at each level is limited to 256 LSPs,
+ and the maximum size of each LSP is limited by the minimum Maximum
+ Transmission Unit (MTU) of any link used to flood LSPs. [RFC5311]
+ has defined a backwards-compatible protocol extension that can be
+ used to overcome this limitation if needed. While the [RFC5311]
+ solution is viable, in order to be interoperable with routers that do
+ not support the extension, it imposes some restrictions on what can/
+ cannot be advertised in the Extended LSPs and requires allocation of
+ multiple unique system IDs to a given router. A more flexible and
+ less constraining solution is possible if interoperability with
+ legacy routers is not a requirement. By definition, the introduction
+ of new PDUs required to support new flooding scopes is not
+ interoperable with legacy routers. It is, therefore, possible to
+ simultaneously introduce an alternative solution to the limited LSP
+ set carrying capacity of Level 1 and Level 2 LSPs as part of the
+ extensions defined in this document. This capability is also defined
+ in this document.
+
+ Standard IS-IS TLVs are encoded using an 8-bit type and an 8-bit
+ length. In cases where the set of information about a single object
+ exceeds 255 octets, multiple TLVs are required to encode all of the
+ relevant information. This document introduces extended TLVs and
+ extended sub-TLVs that use a 16-bit Type field and a 16-bit Length
+ field.
+
+ The PDU Type field in the common header for all IS-IS PDUs is a 5-bit
+ field. Therefore, possible PDU types supported by the protocol are
+ limited to a maximum of 32. In order to minimize the need to
+ introduce additional PDU types in the future, the new PDUs introduced
+ in this document are defined so as to allow multiple flooding scopes
+ to be associated with the same PDU type. This means if new flooding
+ scopes are required in the future, the same PDU type can be used.
+
+
+
+Ginsberg, et al. Standards Track [Page 4]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+1.1. Requirements Language
+
+ The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
+ "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
+ document are to be interpreted as described in [RFC2119].
+
+2. Extended TLVs
+
+ Standard TLVs as defined in [IS-IS] as well as standard sub-TLVs
+ (first introduced in [RFC5305]) have an 8-bit Type field and an
+ eight-bit Length field. This constrains the information included in
+ a single TLV or sub-TLV to 255 octets. With the increasing use of
+ sub-TLVs, it becomes more likely that the amount of information about
+ a single object that needs to be advertised may exceed 255 octets.
+ In such cases, the information is encoded in multiple TLVs. This
+ leads to less efficient encoding since the information that uniquely
+ identifies the object must be repeated in each TLV and requires
+ additional implementation complexity when receiving the information
+ to ensure that all information about the object is correctly
+ collected from the multiple TLVs.
+
+ This document introduces extended TLVs and extended sub-TLVs. These
+ are encoded using a 16-bit Type field and a 16-bit Length field.
+
+2.1. Use of Extended TLVs and Extended Sub-TLVs
+
+ The following restrictions apply to the use of extended TLVs and
+ extended sub-TLVs:
+
+ o Extended TLVs and extended sub-TLVs are permitted only in Flooding
+ Scope PDUs that have a flooding scope designated for their use
+ (defined later in this document)
+
+ o A given flooding scope supports either the use of standard TLVs
+ and standard sub-TLVs or the use of extended TLVs and extended
+ sub-TLVs, but not both
+
+ o Extended TLVs and extended sub-TLVs MUST be used together, i.e.,
+ using Standard sub-TLVs within an Extended TLV or using Extended
+ sub-TLVs within a Standard TLV is invalid
+
+ o If additional levels of TLVs (e.g., sub-sub-TLVs) are introduced
+ in the future, then the size of the Type and Length fields in
+ these new sub-types MUST match the size used in the parent
+
+ o The 16-bit Type and Length fields are encoded in network byte
+ order
+
+
+
+
+Ginsberg, et al. Standards Track [Page 5]
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+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
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+ o Use of extended TLVs and extended sub-TLVs does not alter in any
+ way the maximum size of PDUs that may sent or received
+
+2.2. Use of Standard Code Points in Extended TLVs and Extended Sub-TLVs
+
+ Standard TLV and standard sub-TLV code points as defined in the IANA
+ "IS-IS TLV Codepoints" registry MAY be used in extended TLVs and
+ extended sub-TLVs. Encoding is as specified for each of the standard
+ TLVs and standard sub-TLVs with the following differences:
+
+ o The 8-bit Type field is encoded as an unsigned 16-bit integer
+ where the 8 most significant bits (MSBs) are all 0
+
+ o The 8-bit Length field is replaced by the 16-bit Length field
+
+ o The length MAY take on values greater than 255
+
+3. Definition of New PDUs
+
+ In support of new flooding scopes, the following new PDUs are
+ required:
+
+ o Flooding Scope LSPs (FS-LSPs)
+
+ o Flooding Scope Complete Sequence Number PDUs (FS-CSNPs)
+
+ o Flooding Scope Partial Sequence Number PDUs (FS-PSNPs)
+
+ Each of these PDUs is intentionally defined with a header as similar
+ in format as possible to the corresponding PDU types currently
+ defined in [IS-IS]. Although it might have been possible to
+ eliminate or redefine PDU header fields in a new way, the existing
+ formats are retained in order to allow maximum reuse of existing PDU
+ processing logic in an implementation.
+
+ Note that in the case of all FS PDUs, the Maximum Area Addresses
+ field in the header of the corresponding standard PDU has been
+ replaced with a Scope field. Therefore, maximum area addresses
+ checks specified in [IS-IS] are not performed on FS PDUs.
+
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+Ginsberg, et al. Standards Track [Page 6]
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+RFC 7356 IS-IS Flooding Scope LSPs September 2014
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+3.1. Flooding Scoped LSP Format
+
+ An FS-LSP has the following format:
+
+ No. of octets
+ +-------------------------+
+ | Intradomain Routeing | 1
+ | Protocol Discriminator |
+ +-------------------------+
+ | Length Indicator | 1
+ +-------------------------+
+ | Version/Protocol ID | 1
+ | Extension |
+ +-------------------------+
+ | ID Length | 1
+ +-------------------------+
+ |R|R|R| PDU Type | 1
+ +-------------------------+
+ | Version | 1
+ +-------------------------+
+ | Reserved | 1
+ +-------------------------+
+ |P| Scope | 1
+ +-------------------------+
+ | PDU Length | 2
+ +-------------------------+
+ | Remaining Lifetime | 2
+ +-------------------------+
+ | FS LSP ID | ID Length + 2
+ +-------------------------+
+ | Sequence Number | 4
+ +-------------------------+
+ | Checksum | 2
+ +-------------------------+
+ |Reserved|LSPDBOL|IS Type | 1
+ +-------------------------+
+ : Variable-Length Fields : Variable
+ +-------------------------+
+
+
+ Intradomain Routeing Protocol Discriminator: 0x83 (as defined in
+ [IS-IS]).
+
+ Length Indicator: Length of the fixed header in octets.
+
+ Version/Protocol ID Extension: 1
+
+ ID Length: As defined in [IS-IS].
+
+
+
+Ginsberg, et al. Standards Track [Page 7]
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+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+ PDU Type: 10 - Format as defined in [IS-IS].
+
+ Version: 1
+
+ Reserved: Transmitted as zero, ignored on receipt.
+
+ Scope: Bits 1-7 define the flooding scope.
+
+ The value 0 is reserved and MUST NOT be used. Received FS-LSPs
+ with a scope of 0 MUST be ignored and MUST NOT be flooded.
+
+ P: Bit 8 - Priority Bit. If set to 1, this LSP SHOULD be
+ flooded at high priority.
+
+ Scopes (1 - 63) are reserved for use with standard TLVs and
+ standard sub-TLVs.
+
+ Scopes (64 - 127) are reserved for use with extended TLVs and
+ extended sub-TLVs.
+
+ PDU Length: Entire length of this PDU, in octets, including the
+ header.
+
+ Remaining Lifetime: Number of seconds before this FS-LSP is
+ considered expired.
+
+ FS LSP ID: The system ID of the source of the FS-LSP. One of the
+ following two formats is used:
+
+ FS LSP ID Standard Format
+
+ +-------------------------+
+ | Source ID | ID Length
+ +-------------------------+
+ | Pseudonode ID | 1
+ +-------------------------+
+ | FS LSP Number | 1
+ +-------------------------+
+
+
+ FS LSP ID Extended Format
+
+ +-------------------------+
+ | Source ID | ID Length
+ +-------------------------+
+ | Extended FS LSP Number | 2
+ +-------------------------+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 8]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
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+ Which format is used is specific to the scope and MUST be defined
+ when the specific flooding scope is defined.
+
+ Sequence Number: Sequence number of this FS-LSP.
+
+ Checksum: Checksum of contents of FS-LSP from the Source ID to the
+ end. Checksum is computed as defined in [IS-IS].
+
+ Reserved/LSPDBOL/IS Type
+
+ Bits 4-8 are reserved, which means they are transmitted as 0
+ and ignored on receipt.
+
+ LSPDBOL: Bit 3 - A value of 0 indicates no FS-LSP Database
+ Overload and a value of 1 indicates that the FS-LSP Database is
+ overloaded. The overload condition is specific to FS-LSPs with
+ the scope specified in the Scope field.
+
+ IS Type: Bits 1 and 2. The type of Intermediate System as
+ defined in [IS-IS].
+
+ Variable-length fields that are allowed in an FS-LSP are specific
+ to the defined scope.
+
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+Ginsberg, et al. Standards Track [Page 9]
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+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+3.2. Flooding Scoped CSNP Format
+
+ An FS-CSNP has the following format:
+
+ No. of octets
+ +-------------------------+
+ | Intradomain Routeing | 1
+ | Protocol Discriminator |
+ +-------------------------+
+ | Length Indicator | 1
+ +-------------------------+
+ | Version/Protocol ID | 1
+ | Extension |
+ +-------------------------+
+ | ID Length | 1
+ +-------------------------+
+ |R|R|R| PDU Type | 1
+ +-------------------------+
+ | Version | 1
+ +-------------------------+
+ | Reserved | 1
+ +-------------------------+
+ |R| Scope | 1
+ +-------------------------+
+ | PDU Length | 2
+ +-------------------------+
+ | Source ID | ID Length + 1
+ +-------------------------+
+ | Start FS-LSP ID | ID Length + 2
+ +-------------------------+
+ | End FS-LSP ID | ID Length + 2
+ +-------------------------+
+ : Variable-Length Fields : Variable
+ +-------------------------+
+
+
+ Intradomain Routeing Protocol Discriminator: 0x83 (as defined in
+ [IS-IS]).
+
+ Length Indicator: Length of the fixed header in octets.
+
+ Version/Protocol ID Extension: 1
+
+ ID Length: As defined in [IS-IS].
+
+ PDU Type: 11 - Format as defined in [IS-IS].
+
+ Version: 1
+
+
+
+Ginsberg, et al. Standards Track [Page 10]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+ Reserved: Transmitted as zero, ignored on receipt.
+
+ Scope: Bits 1-7 define the flooding scope.
+
+ The value 0 is reserved and MUST NOT be used. Received FS-
+ CSNPs with a scope of 0 MUST be ignored.
+
+ Bit 8 is Reserved, which means it is transmitted as 0 and
+ ignored on receipt.
+
+ Scopes (1 - 63) are reserved for use with standard TLVs and
+ standard sub-TLVs.
+
+ Scopes (64 - 127) are reserved for use with extended TLV and
+ extended sub-TLVs.
+
+ PDU Length: Entire length of this PDU, in octets, including the
+ header.
+
+ Source ID: The system ID of the Intermediate System (with zero
+ Circuit ID) generating this Sequence Number's PDU.
+
+ Start FS-LSP ID: The FS-LSP ID of the first FS-LSP with the
+ specified scope in the range covered by this FS-CSNP.
+
+ End FS-LSP ID: The FS-LSP ID of the last FS-LSP with the specified
+ scope in the range covered by this FS-CSNP.
+
+ Variable-length fields that are allowed in an FS-CSNP are limited
+ to those TLVs that are supported by standard CSNP.
+
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+Ginsberg, et al. Standards Track [Page 11]
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+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
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+3.3. Flooding Scope PSNP Format
+
+ An FS-PSNP has the following format:
+
+ No. of octets
+ +-------------------------+
+ | Intradomain Routeing | 1
+ | Protocol Discriminator |
+ +-------------------------+
+ | Length Indicator | 1
+ +-------------------------+
+ | Version/Protocol ID | 1
+ | Extension |
+ +-------------------------+
+ | ID Length | 1
+ +-------------------------+
+ |R|R|R| PDU Type | 1
+ +-------------------------+
+ | Version | 1
+ +-------------------------+
+ | Reserved | 1
+ +-------------------------+
+ |U| Scope | 1
+ +-------------------------+
+ | PDU Length | 2
+ +-------------------------+
+ | Source ID | ID Length + 1
+ +-------------------------+
+ : Variable-Length Fields : Variable
+ +-------------------------+
+
+ Intradomain Routeing Protocol Discriminator: 0x83 (as defined in
+ [IS-IS]).
+
+ Length Indicator: Length of the fixed header in octets.
+
+ Version/Protocol ID Extension: 1
+
+ ID Length: As defined in [IS-IS].
+
+ PDU Type: 12 - Format as defined in [IS-IS].
+
+ Version: 1
+
+ Reserved: Transmitted as zero, ignored on receipt.
+
+
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+Ginsberg, et al. Standards Track [Page 12]
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+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
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+ Scope: Bits 1-7 define the flooding scope.
+
+ The value 0 is reserved and MUST NOT be used. Received FS-
+ PSNPs with a scope of 0 MUST be ignored.
+
+ U: Bit 8 - A value of 0 indicates that the specified flooding
+ scope is supported. A value of 1 indicates that the specified
+ flooding scope is unsupported. When U = 1, variable-length
+ fields other than authentication MUST NOT be included in the
+ PDU.
+
+ Scopes (1 - 63) are reserved for use with standard TLVs and
+ standard sub-TLVs.
+
+ Scopes (64 - 127) are reserved for use with extended TLVs and
+ extended sub-TLVs.
+
+ PDU Length: Entire length of this PDU, in octets, including the
+ header.
+
+ Source ID: The system ID of the Intermediate System (with zero
+ Circuit ID) generating this Sequence Number's PDU.
+
+ Variable-length fields that are allowed in an FS-PSNP are limited
+ to those TLVs that are supported by standard PSNPs.
+
+4. Flooding Scope Update Process Operation
+
+ The Update Process, as defined in [IS-IS], maintains a Link State
+ Database (LSDB) for each level supported. Each level-specific LSDB
+ contains the full set of LSPs generated by all routers operating in
+ that level-specific scope. The introduction of FS-LSPs creates
+ additional LSDBs (FS-LSDBs) for each additional scope supported. The
+ set of FS-LSPs in each FS-LSDB consists of all FS-LSPs generated by
+ all routers operating in that scope. Therefore, there is an
+ additional instance of the Update Process for each supported flooding
+ scope.
+
+ Operation of the scope-specific Update Process follows the Update
+ Process specification in [IS-IS]. The circuit(s) on which FS-LSPs
+ are flooded is limited to those circuits that are participating in
+ the given scope. Similarly, the sending/receiving of FS-CSNPs and
+ FS-PSNPs is limited to the circuits participating in the given scope.
+
+ Consistent support of a given flooding scope on a circuit by all
+ routers operating on that circuit is required.
+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 13]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+4.1. Scope Types
+
+ A flooding scope may be limited to a single circuit (circuit scope).
+ Circuit scopes may be further limited by level (L1 Circuit Scope / L2
+ Circuit Scope).
+
+ A flooding scope may be limited to all circuits enabled for L1
+ routing (area scope).
+
+ A flooding scope may be limited to all circuits enabled for L2
+ routing (L2 subdomain scope).
+
+ Additional scopes may be defined that include all circuits enabled
+ for either L1 or L2 routing (domain scope).
+
+4.2. Operation on Point-to-Point Circuits
+
+ When a new adjacency is formed, synchronization of all FS-LSDBs
+ supported on that circuit is required; therefore, FS-CSNPs for all
+ supported scopes MUST be sent when a new adjacency reaches the UP
+ state. The Send Receive Message (SRM) bit MUST be set for all
+ FS-LSPs associated with the scopes supported on that circuit.
+ Receipt of an FS-PSNP with the U bit equal to 1 indicates that the
+ neighbor does not support that scope (although it does support FS
+ PDUs). This MUST cause the SRM bit to be cleared for all FS-LSPs
+ with the matching scope, which are currently marked for flooding on
+ that circuit.
+
+4.3. Operation on Broadcast Circuits
+
+ FS PDUs are sent to the same destination address(es) as standard PDUs
+ for the given protocol instance. For specification of the defined
+ destination addresses, consult [IS-IS], [IEEEaq], [RFC6822], and
+ [RFC6325].
+
+ The Designated Intermediate System (DIS) for a broadcast circuit has
+ the responsibility to generate periodic scope-specific FS-CSNPs for
+ all supported scopes. A scope-specific DIS is NOT elected as all
+ routers on a circuit MUST support a consistent set of flooding
+ scopes.
+
+ It is possible that a scope may be defined that is not level
+ specific. In such a case, the DIS for each level enabled on a
+ broadcast circuit MUST independently send FS PDUs for that scope to
+ the appropriate level-specific destination address. This may result
+ in redundant flooding of FS-LSPs for that scope.
+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 14]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+4.4. Use of Authentication
+
+ Authentication TLVs MAY be included in FS PDUs. When authentication
+ is in use, the scope is first used to select the authentication
+ configuration that is applicable. The authentication check is then
+ performed as normal. Although scope-specific authentication MAY be
+ used, sharing of authentication among multiple scopes and/or with the
+ standard LSPs/CSNPs/PSNPs is considered sufficient.
+
+4.5. Priority Flooding
+
+ When the FS LSP ID Extended format is used, the set of LSPs generated
+ by an IS may be quite large. It may be useful to identify those LSPs
+ in the set that contain information of higher priority. Such LSPs
+ will have the P bit set to 1 in the Scope field in the LSP header.
+ Such LSPs SHOULD be flooded at a higher priority than LSPs with the P
+ bit set to 0. This is a suggested behavior on the part of the
+ originator of the LSP. When an LSP is purged, the original state of
+ the P bit MUST be preserved.
+
+5. Deployment Considerations
+
+ Introduction of new PDU types is incompatible with legacy
+ implementations. Legacy implementations do not support the
+ FS-specific Update process(es) and, therefore, flooding of the
+ FS-LSPs throughout the defined scope is unreliable when not all
+ routers in the defined scope support FS PDUs. Further, legacy
+ implementations will likely treat the reception of an FS PDU as an
+ error. Even when all routers in a given scope support FS PDUs, if
+ not all routers in the flooding domain for a given scope support that
+ scope, then flooding of the FS-LSPs may be compromised. When
+ deploying a new flooding scope, correct operation therefore requires
+ that both FS PDUs and the new scope be supported by all routers in
+ the flooding domain of the new scope.
+
+ The U bit in FS-PSNPs provides a means to suppress retransmissions of
+ unsupported scopes. Routers that support FS PDUs SHOULD support the
+ sending of PSNPs with the U bit equal to 1 when an FS-LSP is received
+ with a scope that is unsupported. Routers that support FS PDUs
+ SHOULD trigger management notifications when FS PDUs are received for
+ unsupported scopes and when PSNPs with the U bit equal to 1 are
+ received.
+
+
+
+
+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 15]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+6. Graceful Restart Interactions
+
+ [RFC5306] defines protocol extensions in support of graceful restart
+ of a routing instance. Synchronization of all supported FS-LSDBs is
+ required in order for database synchronization to be complete. This
+ involves the use of additional T2 timers. Receipt of a PSNP with the
+ U bit equal to 1 will cause FS-LSDB synchronization with that
+ neighbor to be considered complete for that scope. See [RFC5306] for
+ further details.
+
+7. Multi-instance Interactions
+
+ In cases where FS-PDUs are associated with a non-zero instance, the
+ use of Instance Identifier TLVs (IID-TLVs) in FS-PDUs follows the
+ rules for use in LSPs, CSNPs, and PSNPs as defined in [RFC6822].
+
+8. Circuit Scope Flooding
+
+ This document defines four circuit scope flooding identifiers:
+
+ o Level 1 Circuit Scope (L1CS) -- this uses standard TLVs and
+ standard sub-TLVs
+
+ o Level 2 Circuit Scope (L2CS) -- this uses standard TLVs and
+ standard sub-TLVs
+
+ o Extended Level 1 Circuit Scope (E-L1CS) -- this uses extended TLVs
+ and extended sub-TLVs
+
+ o Extended Level 2 Circuit Scope (E-L2CS) -- this uses extended TLVs
+ and extended sub-TLVs
+
+ FS-LSPs with the Scope field set to one of these values contain
+ information specific to the circuit on which they are flooded. When
+ received, such FS-LSPs MUST NOT be flooded on any other circuit. The
+ FS LSP ID Extended format is used in these PDUs. The FS-LSDB
+ associated with circuit scope FS-LSPs consists of the set of FS-LSPs
+ that both have matching circuit scopes and are transmitted (locally
+ generated) or received on a specific circuit.
+
+ The set of TLVs that may be included in such FS-LSPs is specific to
+ the given use case and is outside the scope of this document.
+
+
+
+
+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 16]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+9. Extending LSP Set Capacity
+
+ The need for additional space in the set of LSPs generated by a
+ single IS has been articulated in [RFC5311]. When legacy
+ interoperability is not a requirement, the use of FS-LSPs meets that
+ need without requiring the assignment of alias system-ids to a single
+ IS. Four flooding scopes are defined for this purpose:
+
+ o Level 1 Flooding Scope (L1FS) -- this uses standard TLVs and
+ standard sub-TLVs
+
+ o Level 2 Flooding Scope (L2FS) -- this uses standard TLVs and
+ standard sub-TLVs
+
+ o Extended Level 1 Flooding Scope (E-L1FS) -- this uses extended
+ TLVs and extended sub-TLVs
+
+ o Extended Level 2 Flooding Scope (E-L2FS) -- this uses extended
+ TLVs and extended sub-TLVs
+
+ L1FS and E-L1FS LSPs are flooded on all L1 circuits. L2FS and E-L2FS
+ LSPs are flooded on all L2 circuits.
+
+ The FS LSP ID Extended format is used in these PDUs. This provides
+ 64 K of additional LSPs that may be generated by a single system at
+ each level.
+
+ LxFS and E-LxFS LSPs are used by the level-specific Decision Process
+ (defined in [IS-IS]) in the same manner as standard LSPs (i.e., as
+ additional information sourced by the same IS) subject to the
+ following restrictions:
+
+ o A valid version of standard LSP #0 from the same IS at the
+ corresponding level MUST be present in the LSDB in order for the
+ LxFS/E-LxFS set to be usable.
+
+ o Information in an LxFS of E-LxFS LSP (e.g., IS-Neighbor
+ information) that supports using the originating IS as a transit
+ node MUST NOT be used when the Overload bit is set in the
+ corresponding standard LSP #0.
+
+ o TLVs that are restricted to standard LSP #0 MUST NOT appear in
+ LxFS LSPs.
+
+ There are no further restrictions as to what TLVs may be advertised
+ in FS-LSPs.
+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 17]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+10. Domain Scope Flooding
+
+ Existing support for flooding information throughout a domain (i.e.,
+ to L1 routers in all areas as well as to routers in the Level 2
+ subdomain) requires the use of leaking procedures between levels.
+ For further details, see [RFC4971]. This is sufficient when the data
+ being flooded throughout the domain consists of individual TLVs. If
+ it is desired to retain the identity of the originating IS for the
+ complete contents of a PDU, then support for flooding the unchanged
+ PDU is desirable. This document, therefore, defines two flooding
+ scopes in support of domain flooding. FS-LSPs with this scope MUST
+ be flooded on all circuits regardless of what level(s) is supported
+ on that circuit.
+
+ o Domain Flooding Scope (DFS) -- this uses standard TLVs and
+ standard sub-TLVs
+
+ o Extended Domain Flooding Scope (E-DFS) -- this uses extended TLVs
+ and extended sub-TLVs
+
+ The FS LSP ID Extended format is used in these PDUs.
+
+ Use of information in FS-LSPs for a given scope depends on
+ determining the reachability to the IS originating the FS-LSP. This
+ presents challenges for FS-LSPs with domain scopes because no single
+ IS has the full view of the topology across all areas. It is,
+ therefore, necessary for the originator of domain scope DSFS and
+ E-DSFS LSPs to advertise an identifier that will allow an IS who
+ receives such an FS-LSP to determine whether the source of the FS-LSP
+ is currently reachable. The identifier required depends on what
+ "address-families" are being advertised.
+
+ When IS-IS is deployed in support of Layer 3 routing for IPv4 and/or
+ IPv6, then FS-LSP #0 with domain scope MUST include at least one of
+ the following TLVs:
+
+ o IPv4 Traffic Engineering Router ID (TLV 134)
+
+ o IPv6 Traffic Engineering Router ID (TLV 140)
+
+ When IS-IS is deployed in support of Layer 2 routing, current
+ standards (e.g., [RFC6325]) only support a single area. Therefore,
+ domain scope is not yet applicable. When the Layer 2 standards are
+ updated to include multi-area support, the identifiers that can be
+ used to support inter-area reachability will be defined -- at which
+ point the use of domain scope for Layer 2 can be fully defined.
+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 18]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+11. Announcing Support for Flooding Scopes
+
+ Announcements of support for flooding scope may be useful in
+ validating that full support has been deployed and/or in isolating
+ the reasons for incomplete flooding of FS-LSPs for a given scope.
+
+ ISs supporting FS-PDUs MAY announce supported scopes in IIH PDUs. To
+ do so, a new TLV is defined.
+
+ Scope Flooding Support
+ Type: 243
+ Length: 1 - 127
+ Value
+ No. of octets
+ +----------------------+
+ |R| Supported Scope | 1
+ +----------------------+
+ : :
+ +----------------------+
+ |R| Supported Scope | 1
+ +----------------------+
+
+ A list of the circuit scopes supported on this circuit and other
+ non-circuit-flooding scopes supported.
+
+ R bit MUST be 0 and is ignored on receipt.
+
+ In a Point-to-Point IIH, L1, L2, domain, and all circuit scopes
+ MAY be advertised.
+
+ In Level 1 LAN IIHs, L1, domain, and L1 Circuit Scopes MAY be
+ advertised. L2 Scopes and L2 Circuit Scopes MUST NOT be
+ advertised.
+
+ In Level 2 LAN IIHs, L2, domain, and L2 Circuit Scopes MAY be
+ advertised. L1 Scopes and L1 Circuit Scopes MUST NOT be
+ advertised.
+
+ Information in this TLV MUST NOT be considered in adjacency
+ formation.
+
+ Whether information in this TLV is used to determine when FS-LSPs
+ associated with a locally supported scope are flooded is an
+ implementation choice.
+
+
+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 19]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+12. IANA Considerations
+
+ This document includes the definition of three new PDU types that are
+ reflected in the "IS-IS PDU Registry".
+
+ Value Description
+ ---- ---------------------
+ 10 FS-LSP
+ 11 FS-CSNP
+ 12 FS-PSNP
+
+ A new IANA registry has been created to control the assignment of
+ scope identifiers in FS-PDUs. The registration procedure is "Expert
+ Review" as defined in [RFC5226]. The registry name is "LSP Flooding
+ Scope Identifier Registry". A scope identifier is a number from
+ 1-127, inclusive. Values 1 - 63 are reserved for PDUs that use
+ standard TLVs and standard sub-TLVs. Values 64 - 127 are reserved
+ for PDUs that use extended TLVs and extended sub-TLVs. The list of
+ Hello PDUs in which support for a given scope MAY be announced (using
+ Scope Flooding Support TLV) is specified for each defined scope.
+
+ The following scope identifiers are defined by this document.
+
+ FS LSP ID Format/ IIH Announce
+ Value Description TLV Format P2P L1LAN L2LAN
+ ----- ------------------------------ ----------------- ---------------
+ 1 Level 1 Circuit Flooding Scope Extended/Standard Y Y N
+ 2 Level 2 Circuit Flooding Scope Extended/Standard Y N Y
+ 3 Level 1 Flooding Scope Extended/Standard Y Y N
+ 4 Level 2 Flooding Scope Extended/Standard Y N Y
+ 5 Domain Flooding Scope Extended/Standard Y Y Y
+ (6-63)Unassigned
+
+ 64 Level 1 Circuit Flooding Scope Extended/Extended Y Y N
+ 65 Level 2 Circuit Flooding Scope Extended/Extended Y N Y
+ 66 Level 1 Flooding Scope Extended/Extended Y Y N
+ 67 Level 2 Flooding Scope Extended/Extended Y N Y
+ 68 Domain Flooding Scope Extended/Extended Y Y Y
+ (69-127) Unassigned
+
+ The definition of a new IS-IS TLV is reflected in the "IS-IS TLV
+ Codepoints" registry:
+
+ Value Name IIH LSP SNP Purge
+ ---- ------------ --- --- --- -----
+ 243 Scope Flooding Support Y N N N
+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 20]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+ The IANA "IS-IS TLV Codepoints" registry has been extended to allow
+ definition of codepoints less than or equal to 65535. Codepoints
+ greater than 255 can only be used in PDUs designated to support
+ extended TLVs. This registry has also been updated to point to this
+ document as a reference (in addition to [RFC3563] and [RFC6233]).
+
+13. Security Considerations
+
+ Security concerns for IS-IS are addressed in [IS-IS], [RFC5304], and
+ [RFC5310].
+
+ The new PDUs introduced are subject to the same security issues
+ associated with their standard LSP/CSNP/PSNP counterparts. To the
+ extent that additional PDUs represent additional load for routers in
+ the network, this increases the opportunity for denial-of-service
+ attacks.
+
+14. Acknowledgements
+
+ The authors wish to thank Ayan Banerjee, Donald Eastlake, Hannes
+ Gredler, and Mike Shand for their comments.
+
+15. References
+
+15.1. Normative References
+
+ [IEEEaq] IEEE, "Standard for Local and metropolitan area networks
+ -- Media Access Control (MAC) Bridges and Virtual Bridged
+ Local Area Networks -- Amendment 20: Shortest Path
+ Bridging", IEEE Std 802.1aq-2012, June 2012.
+
+ [IS-IS] ISO/IEC 10589:2002, Second Edition, "Information
+ technology -- Telecommunications and information exchange
+ between systems -- Intermediate System to Intermediate
+ System intradomain routeing information exchange protocol
+ for use in conjunction with the protocol for providing the
+ connectionless-mode network service (ISO 8473)", 2002.
+
+ [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
+ Requirement Levels", BCP 14, RFC 2119, March 1997.
+
+ [RFC4971] Vasseur, JP., Shen, N., and R. Aggarwal, "Intermediate
+ System to Intermediate System (IS-IS) Extensions for
+ Advertising Router Information", RFC 4971, July 2007.
+
+ [RFC5226] Narten, T. and H. Alvestrand, "Guidelines for Writing an
+ IANA Considerations Section in RFCs", BCP 26, RFC 5226,
+ May 2008.
+
+
+
+Ginsberg, et al. Standards Track [Page 21]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+ [RFC5304] Li, T. and R. Atkinson, "IS-IS Cryptographic
+ Authentication", RFC 5304, October 2008.
+
+ [RFC5305] Li, T. and H. Smit, "IS-IS Extensions for Traffic
+ Engineering", RFC 5305, October 2008.
+
+ [RFC5306] Shand, M. and L. Ginsberg, "Restart Signaling for IS-IS",
+ RFC 5306, October 2008.
+
+ [RFC5310] Bhatia, M., Manral, V., Li, T., Atkinson, R., White, R.,
+ and M. Fanto, "IS-IS Generic Cryptographic
+ Authentication", RFC 5310, February 2009.
+
+ [RFC6822] Previdi, S., Ginsberg, L., Shand, M., Roy, A., and D.
+ Ward, "IS-IS Multi-Instance", RFC 6822, December 2012.
+
+15.2. Informative References
+
+ [RFC3563] Zinin, A., "Cooperative Agreement Between the ISOC/IETF
+ and ISO/IEC Joint Technical Committee 1/Sub Committee 6
+ (JTC1/SC6) on IS-IS Routing Protocol Development", RFC
+ 3563, July 2003.
+
+ [RFC5311] McPherson, D., Ginsberg, L., Previdi, S., and M. Shand,
+ "Simplified Extension of Link State PDU (LSP) Space for
+ IS-IS", RFC 5311, February 2009.
+
+ [RFC6233] Li, T. and L. Ginsberg, "IS-IS Registry Extension for
+ Purges", RFC 6233, May 2011.
+
+ [RFC6325] Perlman, R., Eastlake, D., Dutt, D., Gai, S., and A.
+ Ghanwani, "Routing Bridges (RBridges): Base Protocol
+ Specification", RFC 6325, July 2011.
+
+ [RFC7176] Eastlake, D., Senevirathne, T., Ghanwani, A., Dutt, D.,
+ and A. Banerjee, "Transparent Interconnection of Lots of
+ Links (TRILL) Use of IS-IS", RFC 7176, May 2014.
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 22]
+
+RFC 7356 IS-IS Flooding Scope LSPs September 2014
+
+
+Authors' Addresses
+
+ Les Ginsberg
+ Cisco Systems
+ 510 McCarthy Blvd.
+ Milpitas, CA 95035
+ USA
+
+ EMail: ginsberg@cisco.com
+
+
+ Stefano Previdi
+ Cisco Systems
+ Via Del Serafico 200
+ Rome 0144
+ Italy
+
+ EMail: sprevidi@cisco.com
+
+
+ Yi Yang
+ Cisco Systems
+ 7100-9 Kit Creek Road
+ Research Triangle Park, NC 27709-4987
+ USA
+
+ EMail: yiya@cisco.com
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+Ginsberg, et al. Standards Track [Page 23]
+