



Delay-Tolerant Networking                                       B. Sipos
Internet-Draft                                                   JHU/APL
Updates: 9174, dtn-bpsec-cose (if approved)                16 March 2026
Intended status: Informational                                          
Expires: 17 September 2026


                  Bundle Protocol Endpoint ID Patterns
                     draft-ietf-dtn-eid-pattern-07

Abstract

   This document extends the Bundle Protocol Endpoint ID (EID) concept
   into an EID Pattern, which is used to categorize any EID as matching
   a specific pattern or not.  EID Patterns are suitable for expressing
   configuration, for being used on-the-wire by protocols, and for being
   easily understandable by a layperson.  EID Patterns include scheme-
   specific optimizations for expressing set membership and each scheme
   pattern includes text and binary encoding forms; the pattern for the
   "ipn" EID scheme being designed to be highly compressible in its
   binary form.  This document also defines a Public Key Infrastructure
   Using X.509 (PKIX) Other Name form to contain an EID Pattern and a
   handling rule to use a pattern to match an EID.

Status of This Memo

   This Internet-Draft is submitted in full conformance with the
   provisions of BCP 78 and BCP 79.

   Internet-Drafts are working documents of the Internet Engineering
   Task Force (IETF).  Note that other groups may also distribute
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   Drafts is at https://datatracker.ietf.org/drafts/current/.

   Internet-Drafts are draft documents valid for a maximum of six months
   and may be updated, replaced, or obsoleted by other documents at any
   time.  It is inappropriate to use Internet-Drafts as reference
   material or to cite them other than as "work in progress."

   This Internet-Draft will expire on 17 September 2026.

Copyright Notice

   Copyright (c) 2026 IETF Trust and the persons identified as the
   document authors.  All rights reserved.






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   This document is subject to BCP 78 and the IETF Trust's Legal
   Provisions Relating to IETF Documents (https://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 Revised BSD License text as
   described in Section 4.e of the Trust Legal Provisions and are
   provided without warranty as described in the Revised BSD License.

Table of Contents

   1.  Introduction  . . . . . . . . . . . . . . . . . . . . . . . .   3
     1.1.  Goals . . . . . . . . . . . . . . . . . . . . . . . . . .   4
     1.2.  Scope . . . . . . . . . . . . . . . . . . . . . . . . . .   5
     1.3.  Use of ABNF . . . . . . . . . . . . . . . . . . . . . . .   5
     1.4.  Use of CDDL . . . . . . . . . . . . . . . . . . . . . . .   6
     1.5.  Terminology . . . . . . . . . . . . . . . . . . . . . . .   6
   2.  Patterns for BP Endpoint IDs  . . . . . . . . . . . . . . . .   7
     2.1.  Pattern Set and Pattern Items . . . . . . . . . . . . . .   7
       2.1.1.  Text Form . . . . . . . . . . . . . . . . . . . . . .   8
       2.1.2.  CBOR Form . . . . . . . . . . . . . . . . . . . . . .   9
     2.2.  Any-Scheme Pattern Item . . . . . . . . . . . . . . . . .   9
     2.3.  Any-SSP Pattern Item  . . . . . . . . . . . . . . . . . .  10
       2.3.1.  EID Matching  . . . . . . . . . . . . . . . . . . . .  11
       2.3.2.  Pattern Set Logic . . . . . . . . . . . . . . . . . .  11
       2.3.3.  Text Form . . . . . . . . . . . . . . . . . . . . . .  11
       2.3.4.  CBOR Form . . . . . . . . . . . . . . . . . . . . . .  12
     2.4.  IPN Scheme Pattern Item . . . . . . . . . . . . . . . . .  12
       2.4.1.  EID Matching  . . . . . . . . . . . . . . . . . . . .  13
       2.4.2.  Pattern Set Logic . . . . . . . . . . . . . . . . . .  14
       2.4.3.  Text Form . . . . . . . . . . . . . . . . . . . . . .  14
       2.4.4.  CBOR Form . . . . . . . . . . . . . . . . . . . . . .  15
   3.  PKIX Certificate Profile Update . . . . . . . . . . . . . . .  18
     3.1.  New Other Name Form . . . . . . . . . . . . . . . . . . .  18
     3.2.  New Identifier Type . . . . . . . . . . . . . . . . . . .  18
     3.3.  New Name Constraints Logic  . . . . . . . . . . . . . . .  19
   4.  Enveloping Considerations . . . . . . . . . . . . . . . . . .  20
   5.  Security Considerations . . . . . . . . . . . . . . . . . . .  20
     5.1.  Denial of Service Possibilities . . . . . . . . . . . . .  21
     5.2.  Misinterpretion of Encoded Values . . . . . . . . . . . .  21
     5.3.  Expansion of Elided Any-SSP Schemes . . . . . . . . . . .  22
   6.  IANA Considerations . . . . . . . . . . . . . . . . . . . . .  22
     6.1.  Bundle Protocol URI Scheme Types  . . . . . . . . . . . .  22
     6.2.  Object Identifier for PKIX Other Name Forms . . . . . . .  23
   7.  References  . . . . . . . . . . . . . . . . . . . . . . . . .  23
     7.1.  Normative References  . . . . . . . . . . . . . . . . . .  23
     7.2.  Informative References  . . . . . . . . . . . . . . . . .  25
   Appendix A.  ASN.1 Module . . . . . . . . . . . . . . . . . . . .  26



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   Appendix B.  Examples . . . . . . . . . . . . . . . . . . . . . .  27
     B.1.  IPN Patterns  . . . . . . . . . . . . . . . . . . . . . .  27
       B.1.1.  Exact Match . . . . . . . . . . . . . . . . . . . . .  28
       B.1.2.  Wildcards . . . . . . . . . . . . . . . . . . . . . .  28
       B.1.3.  Range Match . . . . . . . . . . . . . . . . . . . . .  28
       B.1.4.  Normalization . . . . . . . . . . . . . . . . . . . .  29
       B.1.5.  Two-Element Text Form Normalization . . . . . . . . .  30
       B.1.6.  Canonicalization  . . . . . . . . . . . . . . . . . .  30
       B.1.7.  Disjoint Ranges . . . . . . . . . . . . . . . . . . .  31
     B.2.  Combined Patterns . . . . . . . . . . . . . . . . . . . .  31
       B.2.1.  Match None  . . . . . . . . . . . . . . . . . . . . .  31
       B.2.2.  Match All . . . . . . . . . . . . . . . . . . . . . .  31
       B.2.3.  Any-SSP Match . . . . . . . . . . . . . . . . . . . .  32
       B.2.4.  Multiple Item Match . . . . . . . . . . . . . . . . .  32
   Implementation Status . . . . . . . . . . . . . . . . . . . . . .  32
   Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . . .  33
   Author's Address  . . . . . . . . . . . . . . . . . . . . . . . .  33

1.  Introduction

   The Bundle Protocol (BP) Version 7 specification [RFC9171] defines
   Uniform Resource Identifier (URI) text and Concise Binary Object
   Representation (CBOR) binary encoding forms of an Endpoint ID (EID).
   An EID value is used as both a source and a destination for
   individual Bundles among other uses in BP.  In addition to the base
   protocol, the BP Security (BPSec) specification [RFC9172] uses an EID
   for security source identity and the TCP Convergence Layer (TCPCL)
   [RFC9174] uses an EID value for peer identity.  BP Agent
   implementations have necessarily used methods of defining patterns
   for matching multiple EIDs in order to configure routing, forwarding,
   and delivery of Bundles, security policy, and convergence layer
   policy, but these have not yet been standardized and do not have a
   concise form suitable for on-the-wire messaging.

   In much the same way that the Classless Inter-domain Routing (CIDR)
   mechanism [RFC4632] can be used to aggregate a contiguous and bit-
   aligned block of IP addresses in a concise unit (encoded as text or
   otherwise), this concept of EID Pattern is used to aggregate a set of
   EIDs into a single concise unit.  This is valuable because an EID
   includes both an identifier of the node sending or receiving the
   Bundle as well as an identifier for the specific service which
   generated or will process the Bundle.  Any EID Pattern can be used
   both to aggregate EIDs based on node identifier, service identifier,
   or both.







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   A purely text-based pattern mechanism such as [W3C-PAT] could handle
   the general case of matching the text form of EIDs (as URIs) but
   would not be able to achieve the same level of encoding compression
   and would not be able to express of exact numeric ranges like the
   scheme-specific mechanism defined in this document.

   The certificate profile and NODE-ID definition of TCPCL [RFC9174]
   uses the text form of EID to authenticate nodes based on EID.  This
   document defines a Public Key Infrastructure Using X.509 (PKIX) Other
   Name Form to contain an EID Pattern and a handling rule to use a
   pattern to match an EID.  This allows authenticating an individual
   EID based on an EID Pattern in much the same way as using a
   "wildcard" certificate to match a DNS name (see Section 6.3 of
   [RFC9525]).

1.1.  Goals

   The text form of an EID Pattern defined in Section 2 is _not_ a URI
   and is not bound by the character set restrictions imposed for an
   encoded URI [RFC3986].  This is much the same as a URI template
   [RFC6570] is also not itself a URI.  Although some forms of EID
   Pattern can contain reserved URI characters, it is not guaranteed
   that any particular EID Pattern will be intrinsically differentiable
   from an EID.  See Section 5 for details on handling concerns.

   For the pattern forms defined in Section 2, the exact-match pattern's
   text form is identical with its matching EID (with explicitly stated
   limitations).  This behavior is not required or strictly necessary
   but is a convenient side effect of the text definitions and makes the
   EID Pattern a proper superset of EID.  Because of its structure, used
   to simplify processing, the CBOR form for EID Pattern will never be
   identical to or a superset of EID.

   One other aspect of this patterning mechanism is that the text form
   of each scheme-specific pattern is intended to be, in a subjective
   sense, natural and understandable for the case of a human manually
   typing patterns into a text document or quick email message; the
   interpretation of the text pattern needs to "make sense" with minimal
   training.

   In summary, current and new scheme-specific EID Pattern definitions
   SHALL specify all of the following:

   *  A logical information model for the scheme-specific pattern.







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   *  Any exceptions or qualifications to the goal of text-form EID
      being an identity EID Pattern (_i.e._, a text EID will act as a
      pattern unmodified, and that pattern will match only the original
      EID).

   *  Logic for matching a specific EID against the information model.

   *  Logic for performing set operations with the information model
      (_i.e._, pattern unions, intersections, and subset comparisons).

   *  Both text-form and CBOR-form encodings for those scheme-specific
      information models.

1.2.  Scope

   This document defines a logical model of pattern matching BP Endpoint
   IDs and both text and CBOR encoding forms, as well as PKIX extensions
   to make use of EID Patterns in a public key certificate (PKC).

   This document does not define a method of disambiguating an EID from
   an EID Pattern (in either encoded form) without any other context.
   Given a pure text or CBOR encoding of an arbitrary value, there needs
   to be some external context to determine how to interpret it.

   This document defines scheme-specific pattern for the "ipn" URI
   scheme, as its semantics are well-established, while the other
   currently registered "dtn" scheme lacks well-defined semantics for
   the structure of its authority part (which would be necessary for
   wildcard logic).

   Although the same EID definitions apply to BP Version 6 [RFC5050]
   this document does not provide any mechanisms of integrating with
   that protocol.  It is an implementation matter for a BP Agent to use
   EID Patterns with BP Version 6 and its compressed bundle header
   encoding (CBHE).

1.3.  Use of ABNF

   This document defines text structure using the Augmented Backus-Naur
   Form (ABNF) syntax [RFC5234].  The entire ABNF structure can be
   extracted from the XML version of this document using the XPath
   expression:

   '//sourcecode[@type="abnf"]'

   The following initial fragment defines the top-level rules of this
   document's ABNF.




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   ; Shared wildcard rules
   wildcard = "*"
   multi-wildcard = "**"

   non-zero-decimal = (%x31-39 *DIGIT)

   The definition for the rule UTF8-octets is taken from UTF8 [RFC3629].
   The definitions for the rule scheme is taken from URI [RFC3986].  The
   definition for the rule digit is taken from ABNF [RFC5234].  The
   definition for the rules ipn-decimal and nbr-delim are copied from BP
   [RFC9171].

1.4.  Use of CDDL

   This document defines CBOR structure using the Concise Data
   Definition Language (CDDL) syntax [RFC8610].  The entire CDDL
   structure can be extracted from the XML version of this document
   using the XPath expression:

   '//sourcecode[@type="cddl"]'

   The following initial fragment defines the top-level rules of this
   document's CDDL, which includes rules needed for validating the
   example CBOR content.

   start = eid-pattern / embed-eid-pattern

   The definition for the rule eid-structure is copied from BP
   [RFC9171].

1.5.  Terminology

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
   "OPTIONAL" in this document are to be interpreted as described in BCP
   14 [RFC2119] [RFC8174] when, and only when, they appear in all
   capitals, as shown here.

   The terms "Endpoint" and "Endpoint ID" in this document refer to the
   meanings defined in Section 3.1 of [RFC9171].

   Other terms specific to this document are the following.

   Normalize:  This means to change a pattern value while retaining its
      meaning, for example enforcing logic like de-duplication, case-
      insensitivity, or domain constraints.  The internal representation
      of a pattern is expected to be normalized, even if an encoded
      value is not (_e.g._, human-input text form).



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   Canonicalize:  This means to choose a specific encoded form of a
      pattern value without changing the represented logical value, for
      example using a preferred ordering or a compressed code point.
      The text form of encoding has more canonicalization options than
      the binary form, and human-input text form is expected to not
      always use canonical choices.

   Elide:  This is an encoding choice to not represent both the text and
      integer form of a scheme in the Any-SSP Pattern Item when it is
      known by the encoder that all possible decoders of the pattern
      understand that scheme and are expected to re-constitute the
      elided form.

2.  Patterns for BP Endpoint IDs

   This document does not define a universal form of EID Pattern, though
   text forms of EID Patterns do share concepts and rules for wildcard
   matching (_e.g._, [RFC4592]).  Instead, in order to achieve
   efficiencies in non-text encoding, each EID scheme uses a different
   form of complex pattern matching.  There are also scheme-independent
   match-all forms that function without a processor needing scheme-
   specific logic for all possible schemes.

   An EID Pattern processor MAY normalize the internal representation of
   a pattern to an equivalent one without keeping track of the original
   pattern information or encoding.  If an pattern-using application
   needs to ensure that original encodings are kept, that needs to
   happen outside of the pattern processor.  See Section 4 for
   recommendations about this need.

2.1.  Pattern Set and Pattern Items

   The overall concept of this patterning structure is that one "EID
   Pattern" can be used to match any combination of EIDs.  This is
   accomplished by a single pattern being composed of independent
   pattern items, each with specific rules and syntax.

   The conceptual model of the EID Pattern is as a sequence of pattern
   items, some of which are general purpose and some with scheme-
   specific content.  This sequence is ordered in order to make
   translating between forms deterministic, as each encoding form
   necessarily has a specific order of items.  To ensure
   interoperability, all implementations SHALL support at least 10 items
   per pattern.  Implementations SHOULD support at least 100 items per
   pattern.






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   Although the encoding forms are necessarily ordered, the matching
   logic for an EID Pattern is independent of the order of its items.
   An EID pattern SHALL be considered to match an EID if any of its
   constituent items match the EID.  The sequence is also allowed to be
   empty, which by that definition will match no EIDs.

   Because matching against an "any-scheme" item (see Section 2.2) will
   necessarily make any scheme-specific patterns redundant, the text and
   CBOR forms of the EID pattern have a compressed form of any-scheme
   matching and disallow combining the any-scheme pattern with other
   items.

2.1.1.  Text Form

   The text form of the EID pattern is the following ABNF rule, which
   uses the URI reserved character "|" to delimit items in the sequence.
   This rule also allows a pattern to be empty, having no items.

   eid-pattern = any-scheme-item / eid-pattern-set
   ; The set is allowed to be empty
   eid-pattern-set = [ eid-pattern-item *( "|" eid-pattern-item ) ]
   eid-pattern-item = any-ssp-item
   ; Extension point at eid-pattern-item for scheme-specific rules
   ; constrained by the structure below, not enforced by ABNF

   eid-item-structure = scheme ":" *ssp-char
   ssp-char = <UTF8-octets excluding "|">

   Because the delimiter is used between items, an EID pattern with one
   item has an identical text form to that item.  The correspondence in
   text form between a single EID and an EID pattern item which matches
   that single EID SHALL be enforced by any future scheme-specific
   pattern syntax registered with IANA.

   Any current or future text form scheme-specific pattern structure
   SHALL conform to the existing URI structure of a scheme name
   (matching the scheme rule from URI) followed by a colon (":")
   followed by a scheme-specific part.  The text form pattern item
   scheme-specific part SHALL contain UTF8 characters [RFC3629]
   excluding the separator "|".  Because of that constraint, the number
   of items in a text form pattern can be determined by counting the
   number of "|" separators present (with a special case for the empty
   pattern).








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   Beyond that simple constraint, all other characters (including those
   prohibited from URI syntax) can be part of a scheme-specific pattern
   definition.  It is RECOMMENDED that future scheme-specific pattern
   definitions consider human-readability of the scheme-specific
   character set.

2.1.2.  CBOR Form

   The CBOR form of the EID pattern is the following, which uses an
   enveloping array to contain the items.  Although the any-scheme
   pattern includes a compressed encoding, avoiding the outer array, it
   still follows the conceptual model of a set of items (in which there
   is allowed only one item).  The empty array allows a pattern to be
   empty, having no items.

   eid-pattern = any-scheme-item / eid-pattern-set
   eid-pattern-set = [* eid-pattern-item]
   eid-pattern-item = scheme-pat-item / any-ssp-item

   scheme-pat-item = $eid-pat-item .within eid-structure
   ; Each pattern still follows eid-structure from [RFC9171]
   eid-structure = [uri-code: uint, SSP: any]

   Because there is otherwise always an outer array when a scheme-
   specific item is present, there is no concept of a "bare" scheme-
   specific item in the CBOR form and no exact correspondence in binary
   form between a single EID and an EID pattern item which matches that
   single EID.

   Any current or future CBOR form scheme-specific pattern structure
   SHALL conform to the existing EID structure of a two-item array
   containing a scheme number and a scheme-specific part as a single
   CBOR item.

2.2.  Any-Scheme Pattern Item

   The simplest pattern item is one which will match any EID of any URI
   scheme.  Because this necessarily disallows scheme-specific logic,
   the any-scheme pattern has only its identity with no parameters or
   conceptual structure.

   When the any-scheme item is present in an EID pattern, it SHALL be
   the only item in the pattern.  Any other, scheme-specific items would
   be redundant and unnecessary when combined with the any-scheme item.

   The text form of the any-scheme pattern is the following ABNF which
   matches only the exact text *:**. As defined in Section 2.1, when
   this text form is present it cannot be combined with other items.



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   any-scheme-item = wildcard ":" multi-wildcard

   The CBOR form of the any-scheme pattern is the following CDDL which
   matches only the exact value true.  As defined in Section 2.1, when
   this CBOR form is present it occurs outside of an enveloping array
   and thus cannot be combined with other items.

   any-scheme-item = true

2.3.  Any-SSP Pattern Item

   The next most generic pattern item is one which will match any SSP
   within a specific URI scheme or set of schemes.  This includes
   schemes known to the EID handler as well as schemes (identified by
   text or integer value) that need not be understood by the EID
   handler.

   As a normalization, when an any-SSP item is present in an EID pattern
   it SHALL be the only item for the associated schemes.  Any other,
   scheme-specific items would be redundant and unnecessary when
   combined with the any-SSP item for that same scheme.

   As a normalization, only a single any-SSP item SHALL be used to
   represent all any-SSP matching in a pattern.  This avoids redundancy
   in encoded forms and aids in human understanding when all any-SSP
   matching is combined in one item.

   As a normalization, any schemes identified in any-SSP item SHALL be
   expanded to include the alternative (text or integer) form of
   identifier.  This enables the _elide_ logic of the encoded forms and
   serves to support general purpose matching of either text URI forms
   of EID (using the text form of scheme identifier) or the CBOR forms
   of EID (using the integer form of identifier).

   When present, the canonical ordering of pattern items SHALL place the
   any-SSP item at the front of the list.

   To ensure interoperability, all implementations SHALL support at
   least 10 schemes (of either text or integer value) per item.
   Implementations SHOULD support at least 100 schemes per item.











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2.3.1.  EID Matching

   An any-SSP pattern SHALL be considered to match a specific EID when
   both have the same normalized scheme.  Scheme normalization for text
   EIDs is to convert to a lower-case alphabetic form in accordance with
   Section 3.1 of [RFC3986].  For schemes which are unknown to the
   processing entity, the text form of the any-SSP pattern scheme SHALL
   be used to match text-form EIDs and the integer form of the pattern
   scheme SHALL be used to match CBOR-form EIDs.

   This means that for entities that cannot process a specific
   (fictional) private-use scheme with value 65536 and name "example",
   the following text pattern will guarantee proper handling by any
   entity:

   [65536,example]:**

2.3.2.  Pattern Set Logic

   The parameter for the any-SSP pattern is solely the set of scheme
   identifiers, so the set logic of this pattern is identical to set
   logic on those (normalized) identifiers.  This can result in a
   situation where two pattern processors have different matching logic
   for the same input pattern if they support different EID schemes and
   are able to expand elided scheme forms differently.

2.3.3.  Text Form

   The text form of the any-SSP item is the following ABNF, where the
   scheme-id rule can either be a proper URI scheme or a positive
   integer value (valid values are restricted by the BP scheme registry
   [IANA-BP]).

   any-ssp-item = scheme-set ":" multi-wildcard
   scheme-set = scheme-id / ("[" scheme-id *( "," scheme-id ) "]")
   scheme-id = scheme / non-zero-decimal

   The canonical text encoding of a single scheme in an any-SSP item
   SHALL omit the square brackets.  The canonical text encoding of the
   scheme set in an any-SSP item SHALL place integers first, in
   ascending order, followed by text names, ordered by length first then
   by the bytewise lexicographical order of their encoded text.  This
   sorting is identical to the CBOR form in Section 2.3.4.

   An encoder MAY elide the integer form of a scheme in a text encoding
   if it is known that all decoders of the pattern will re-constitute
   the integer form when normalizing the pattern.  It is an
   implementation matter to determine when to elide during encoding.



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2.3.4.  CBOR Form

   The CBOR form of the any-SSP item is the following CDDL.  The first
   array item conveys no information but because this does not match the
   eid-structure rule, it is guaranteed to be disambiguated with any
   current or future scheme-specific $eid-pat-item socket uses.

   any-ssp-item = [null, + scheme-id]
   scheme-id = uint / tstr

   The canonical CBOR encoding of the scheme set in an any-SSP item
   SHALL be sorted by the bytewise lexicographic order of their
   deterministic encodings.  This sorting is the same as the
   deterministic map key ordering of Section 4.2.1 of [RFC8949].

   An encoder MAY elide the text form of a scheme in a CBOR encoding if
   it is known that all decoders of the pattern will re-constitute the
   text form when normalizing the pattern.  It is an implementation
   matter to determine when to elide during encoding.

2.4.  IPN Scheme Pattern Item

   As defined in Section 4.2.5.1.2 of [RFC9171] and updated in Section 3
   of [RFC9758], IPN scheme EIDs have a SSP which is logically divided
   into three non-negative integer numeric elements.  Because of this,
   the pattern for IPN scheme EIDs is based on matching a numeric value
   or range for each element.

   For the remainder of this document, the term "IPN pattern" is used as
   shorthand to mean the EID pattern item used for the "ipn" scheme.

   An IPN pattern SHALL logically contain exactly three elements
   corresponding to the IPN scheme EID elements of:

   1.  Allocator Identifier, with domain 0 to 2^32-1 inclusive

   2.  Node Number, with domain 0 to 2^32-1 inclusive

   3.  Service Number, with domain 0 to 2^64-1 inclusive

   The conceptual model of the IPN pattern is that each of the elements
   of the SSP can be matched as one of:

   Specific value:  This will match only a single value (as decoded
      number).

   Range:  This will match any value contained in a disjoint set of
      integer intervals.



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   Wildcard:  This will match any valid value.

   Within a single element of the IPN pattern, the range intervals SHALL
   be disjoint and non-contiguous.  Any overlapping or contiguity of
   intervals within a set can be coalesced into a single covering
   interval with the same meaning.  The text form of a range can, but
   SHOULD NOT, contain overlapping or contiguous intervals.  The CBOR
   form of a range does not allow overlapping or contiguous intervals
   because of its compressed structure.  Within a single element of the
   IPN pattern, any range interval that includes values outside the
   element domain SHALL be reduced to fit the domain.  The decoder for
   any form of an IPN pattern SHALL normalize all interval sets to
   satisfy information model requirements.  The decoder for any form of
   an IPN pattern SHOULD treat the failure of any element of a pattern
   as a failure to decode the whole pattern.

   To ensure interoperability, all implementations SHALL support at
   least 10 intervals per range in each IPN element.  Implementations
   SHOULD support at least 100 intervals per range in each IPN element.

2.4.1.  EID Matching

   An IPN pattern SHALL be considered to match a specific EID when both
   have the same scheme and each element of the the pattern matches the
   corresponding logical element of the EID SSP.  If any element doesn't
   match, the whole pattern does not match.  Each pattern element SHALL
   be considered to match according to the following rules:

   Specific value:  The pattern element SHALL be compared to the EID
      element as an exact match of integer value.

   Range:  The pattern element SHALL be considered to match with any EID
      element value that is contained in any of the finite intervals of
      the range.

   Wildcard:  The pattern element SHALL be considered to match with any
      EID element value.

   Because these are dealing with numeric values in an information
   model, the matching occurs after any encoding-specific normalization
   (_i.e._ it's not a text pattern for the text encoding, the matching
   is performed within the information model of the SSP).









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2.4.2.  Pattern Set Logic

   One benefit of using an EID pattern with an information model of a
   sequence of numbers or ranges is that performing set logic such as
   intersection or containment is straightforward.  For set logical
   behavior, the "specific value" case is treated as a singleton set and
   the wildcard case is treated as the unbounded-interval.

   Two IPN patterns are equivalent if their matching EID sets are
   identical.  Two IPN patterns intersect if all of their corresponding
   elements intersect, and the intersection of each element range can be
   readily computed using multi-interval set logic.  Likewise, one IPN
   pattern is a subset (or proper subset) of another pattern if all of
   the elements is a subset (or proper subset) of the other's
   corresponding element.

2.4.3.  Text Form

   The text form of the IPN pattern conforms to the ABNF in Figure 1,
   which is a superset of the IPN scheme itself as defined in Section 4
   of [RFC9758] but with a different structure.  Each element is
   separated by the same character "." as in the IPN URI scheme.  This
   pattern uses reserved URI characters of "[" and "]" (see Section 2.2
   of [RFC3986]) to indicate the presence of a range set for a element,
   the character "," to separate the intervals of a range, the character
   "-" to indicate an interval within the set, and the character "+" to
   indicate a half-finite interval.

   The enveloping characters "[" and "]" SHALL indicate the presence of
   a range of possible values for that element.  The logical structure
   and ABNF below disallows the possibility of nested ranges.  Within
   each range, the character "," SHALL separate multiple numeric
   intervals within the range.  The presence of a completely empty
   interval (_e.g._, "[]" or "[,3]") is disallowed by the ABNF below and
   SHALL be treated as invalid.  If an interval contains a single
   numeric value it SHALL be treated is a length-one range.  If an
   interval contains two numeric values separated by a "-" character,
   the interval SHALL be treated as inclusive of both values.  The lower
   bound of the interval is expected be on the left side of the "-"
   separator, but decoders SHALL handle both possible orderings of
   interval bounds.  If an interval contains a single numeric value
   followed by the half-finite "+" character it SHALL be treated as
   having the lower bound of that value and the upper bound as the
   largest value in the domain of that element.  When encoding an
   interval, if its last included value is the largest value in the
   domain of that element the canonical half-finite form SHALL be used.





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   eid-pattern-item =/ ipn-pat-item
   ipn-pat-item = "ipn:" (ipn-pat-ssp3 / ipn-pat-ssp2)
   ; Full pattern for three elements
   ipn-pat-ssp3 = ipn-part-pat
                  nbr-delim ipn-part-pat
                  nbr-delim ipn-part-pat
   ; Each element in the pattern
   ipn-part-pat = ipn-decimal / ipn-range / wildcard

   ; Same normalized form as IPN scheme itself
   ipn-decimal = "0" / non-zero-decimal
   nbr-delim = "."

   ipn-range = "[" ipn-interval *( "," ipn-interval ) "]"
   ipn-interval = ipn-decimal [ ("-" ipn-decimal) / "+" ]

   ; Accept a single EID in two-element text form
   ipn-pat-ssp2 = ("!" / ipn-decimal) nbr-delim ipn-decimal

                     Figure 1: IPN Pattern ABNF Schema

   When decoding a two-element IPN pattern, the first element SHALL be
   treated as a fully-qualified node number (FQNN) in accordance with
   Section 3.3.1 of [RFC9758] and decomposed into separate allocator and
   node number elements each matching a specific value.  When decoding a
   two-element IPN pattern, the first element text "!"  SHALL be treated
   as the LocalNode FQNN tuple (0, 2^32 - 1) in accordance with
   Section 3.4.2 of [RFC9758].

      |  The FQNN in two-element form has a domain of 0 to 2^64 - 1
      |  inclusive.

   When decoding, a pattern processor does not need to keep track of how
   many elements the original pattern used; the pattern itself always
   has three elements as defined in Section 2.4.

   The canonical text form of an IPN pattern SHALL use three elements.
   The canonical text form SHALL NOT contain any overlapping or
   contiguous intervals.  The canonical text form SHALL order all
   intervals in ascending numeric order.  The canonical text form SHALL
   encode all intervals with the lower bound before the upper bound.

2.4.4.  CBOR Form

   The CBOR form of the IPN pattern conforms to the CDDL in Figure 2.
   Just as in the IPN URI scheme the pattern scheme identifier is 2, the
   first elements of the SSP identify the node and the last element
   identifies the service.



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   Each of the IPN pattern elements SHALL be CBOR encoded as follows:

   Specific value:  A number corresponding to the uint rule.

   Range:  An array item corresponding to the ipn-range rule.

   Wildcard:  The true item.

   The wildcard sentinel values have no intrinsic meaning and were
   simply chosen to be one-octet-encoded special items.  The encoding of
   ranges is a compressed form in which each logical pair of values in
   the range array indicates:

   1.  The least included value if present in the first pair or the
       width of the excluded interval (after the previous included
       interval) for later pairs.

   2.  The width of this included interval, which is omitted if the last
       interval extends to the largest value for that element (which
       means it only applies to the last pair).

   The "width" in these intervals is defined as the difference between
   the first and last value in the interval, meaning a zero-width
   interval contains exactly one value.  Another way to interpret the
   range array is that each number after the first (least) value
   indicates the width of alternating _included_ and _excluded_
   intervals for the range, as depicted in Figure 3 where the width of
   the last included interval can be omitted (extending the interval to
   the whole domain).






















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   $eid-pat-item /= [
     scheme-num: 2,
     SSP: ipn-ssp
   ]
   ipn-ssp = [
     ; This CDDL representation does not restrict to the
     ; true domain of each element.
     3*3 ipn-part-pat,
   ]
   ipn-part-pat = ipn-val / ipn-range / true

   ipn-range = [
     ; least included value
     least: ipn-val,
     * (
       ; width of included interval
       incl: ipn-width
       ; width of excluded interval
       excl: ipn-width,
     ),
     ; Width of last included interval or
     ; an implicit half-finite last included interval
     ? incl: ipn-width
   ]

   ipn-val = uint
   ipn-width = uint

                     Figure 2: IPN Pattern CDDL Schema

   For the compressed form of indicating a half-finite last included
   interval, a definite-length array head can be used as an early hint
   because the number of array items will be even when the last interval
   has an explicit width and odd when it does not.  When encoding a
   range, if its last included value is the largest value for that
   element the canonical half-finite form SHALL be used.

                _____(repeated)______
               /                     \
                Include       Exclude       Include
             min       max min       max min       max    element
           <..|.........|...|.........|...|.........|..>  space
              |         |   |         |   |         |
              |<------->|<->|<------->|<->|<------->|
             /   incl     1    excl     1    incl*        encoded
          least  width         width         width        fields

                        Figure 3: IPN Range Encoding



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   The most simple finite range is a single value, for example the value
   10 can be encoded as [10,0] (which is a special case because this can
   also use the non-range specific value encoding).  The most simple
   disjoint range containing the values 2 and 4 is encoded as [2,0,0,0]
   because each included interval is width zero and each excluded
   between them is also width zero.  The largest possible range covering
   the entire 64-bit number space can be encoded as
   [0,0xFFFFFFFFFFFFFFFF] or the more concise canonical form of [0] (and
   even this is a special case because this can also be represented by
   the wildcard value true, but that is a normalization decision not a
   coding one).

3.  PKIX Certificate Profile Update

   This document expands upon the PKIX profile of TCPCLv4 [RFC9174] to
   allow an EID Pattern in any certificate where an Node ID is required
   or allowed.

3.1.  New Other Name Form

   This document defines a PKIX Other Name Form identifier, id-on-
   bundleEIDPattern in Appendix A; this identifier can be used as the
   type-id in a Subject Alternative Name (SAN) entry of type otherName.
   The BundleEIDPattern value associated with the otherName type-id id-
   on-bundleEIDPattern SHALL be an EID Pattern text form, encoded as an
   UTF8String, with a scheme that is present in the IANA "Bundle
   Protocol URI Scheme Types" registry [IANA-BP].

      |  The other name form is encoded as an UTF8String because it is
      |  _not_ a URI and does not have all of the character restrictions
      |  of a URI.

3.2.  New Identifier Type

   This specification defines an EID-PATTERN-ID of a certificate as
   being the Subject Alternative Name entry of type otherName with a
   name form of BundleEIDPattern and a value limited to an EID Pattern
   text form.  An entity SHALL ignore any entry of type otherName with a
   name form of BundleEIDPattern and a value that is some text other
   than an EID Pattern.

   The EID-PATTERN-ID is similar to the NODE-ID as defined in
   Section 4.4.1 of [RFC9174] but can match many different and distinct
   Endpoint IDs.  URI matching of an EID-PATTERN-ID SHALL use the
   scheme-specific EID matching logic defined in this specification.  An
   EID Pattern scheme can refine this matching logic with rules
   regarding how Endpoint IDs within that scheme are to be compared with
   the issued EID-PATTERN-ID.



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   As an augmentation of the TCPCL certificate profile in Section 4.4.2
   of [RFC9174]: Unless prohibited by CA policy, a TCPCL end-entity
   certificate SHALL contain either a NODE-ID or an EID-PATTERN-ID that
   authenticates the node ID of the peer.  All other requirements of
   that certificate profile are unchanged by this document.

3.3.  New Name Constraints Logic

   This document defines a logic for using EID Pattern(s) within the
   Name Constraints extension of Section 4.2.1.10 of [RFC5280] for CA
   certificates.  Because the EID Pattern does not define a general-
   purpose subset logic, a Name Constraints with an EID Pattern cannot
   directly constrain subordinate SANs with EID or EID Pattern items so
   has no effect on path validation (see Section 6 of [RFC5280]).  It is
   instead used to constrain the ultimate identity validation (see
   Section 6 of [RFC9525] and Section 4.4.4 of [RFC9174]) for Node IDs
   specifically and any future validation of EIDs more generally as
   defined below.

   As an augmentation of the TCPCL peer authentication in
   Section 4.4.4.3 of [RFC9174]: When performing a validation of a Node
   ID against an end entity certificate with NODE-ID or EID-PATTERN-ID,
   the validation SHALL also validate the Node ID based on all of the CA
   certificates in the path which contain a Name Constraints extension
   itself containing an Other Name Form of id-on-bundleEIDPattern.  That
   match SHALL consider both the permitted and excluded subtrees of the
   Name Constraints in accordance with Section 4.2.1.10 of [RFC5280].

   Due to the nature of matching any possible EID, a Name Constraints
   extension SHOULD NOT contain an BundleEIDPattern with the match-all
   pattern *:** as this serves no purpose.  Including a match-all
   pattern in the included subtrees does not add any value and including
   it in the excluded subtrees is functionally the same thing as
   disallowing the presence of the id-kp-bundleSecurity Extended Key
   Usage.

   When issuing CA or end entity certificates, a CA limited by Name
   Constraints containing BundleEIDPattern values MAY make use of
   scheme-specific subset logic to determine that the combination of end
   entity SAN and CA Name Constraints will not validate any possible
   Node ID and refuse to issue the requested certificate.  For example,
   a root CA constrained with an included subtree of ipn:0.*.* could
   disallow issuing a subordinate intermediate CA with a constrained
   included subtree of ipn:** because it isn't a proper subset of its
   parent constraint, or could disallow issuing an end entity
   certificate with a SAN identity of ipn:977000.2.3 because it is
   guaranteed to not pass Node ID validation.  The refusal or not to
   issue such subordinate certificates does not affect the ultimate



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   validation of the Node ID but does make it less likely for
   certificates to be used by an end entity which will never succeed at
   Node ID validation.

4.  Enveloping Considerations

   When an EID pattern is enveloped into a data store or protocol data
   unit, it is important to avoid requiring the processor of that
   containing context to understand the nuances of EID Pattern syntax.
   For the text form of EID Patterns this is straightforward because the
   encoded text string can simply be handled without concern for its
   contents.  The use of an EID Pattern as a PKIX Other Name Form in
   Section 3 makes use of this strategy.

   For the binary form of EID Patterns, when the encoded item is not
   handled as a simple byte string it is RECOMMENDED to embed the EID
   Pattern within a CBOR byte string as a single item.  This is
   formalized by the following CDDL.

   embed-eid-pattern = bstr .cbor eid-pattern

   Embedding in a byte string this way allows BP EID Pattern-unaware
   processors to handle it without concern for its syntax or validity.
   Using a single-item embedding ensures that the number of pattern
   items contained is still available to decoders in the eid-pattern
   array head.

   A similar recommendation is provided here for enveloping EIDs
   themselves, which is not discussed in BP [RFC9171] so this document
   does not formally update that specification.  For the binary form of
   EIDs, when the encoded item is not handled as a simple byte string it
   is RECOMMENDED to embed the EID within a CBOR byte string as a single
   item.  This is formalized by the following CDDL.

   embed-eid-structure = bstr .cbor eid-structure

   Embedding in a byte string this way allows BP EID-unaware processors
   to handle it without concern for its syntax or validity.  Although
   this adds some redundancy to the encoding because the eid-structure
   is always a two-element array, it is limited to the single byte of
   the its array head.  This is also consistent with how the existing
   Previous Node block-type-specific data content is defined in
   Section 4.4.1 of [RFC9171].

5.  Security Considerations

   This section separates security considerations into categories based
   on guidance of BCP 72 [RFC3552].



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5.1.  Denial of Service Possibilities

   Because EID patterns are expected to be used as external input to a
   BP Agent, there is the possibility of an encoded value to either be
   not-well-formed or well-formed but purposefully resource intensive.
   Either of these cases can cause resource exhaustion of a BP Agent and
   thus deny resources to normal data services provided by the Agent.
   These considerations are not exclusive to the EID Pattern syntax, and
   apply just as well to any other external input data.

   An example of a malicious not-well-formed pattern is a CBOR form that
   contains an array with a definite length that is larger than the
   actual encoded pattern.  A trivial decoder might attempt to pre-
   allocate memory based on the array head and exhaust its memory.  A
   mitigation of this is to have bounds on acceptable lengths/sizes
   within the CBOR decoder.

   An example with a well-formed pattern is to simply encode a pattern
   set with thousands or millions of arbitrary, but valid, items.  A
   decoder could attempt to fully decode this valid pattern but by doing
   so exhaust its memory.  A similar mitigation here is to bound
   acceptable sizes above the CBOR layer within the pattern decoding.

5.2.  Misinterpretion of Encoded Values

   It is critical for applications handling EIDs and EID Patterns to
   positively distinguish between the two based on the context in which
   the value is being used.  For PKIX Subject Alternative Name this is
   distinguished by the different Other Name forms.  An EID which is
   inappropriately interpreted as an EID Pattern could allow an attacker
   to elevate access depending upon other aspects of the system being
   accessed.

   CAs which issue certificates containing EID Patterns need to consider
   the implications of an overly-broad pattern in the same way that
   current Web PKI CAs manage certificates with wildcard DNS-IDs.  This
   is discussed for DNS-IDs in Section 7.1 of [RFC9525].

   Although the reserved characters "[" and "]" are disallowed within
   the URI authority and path segments by [RFC3986] there are still URI
   processors which could be lax about enforcing that restriction and
   could allow an EID pattern to be decoded in a place where an actual
   EID is expected.  This could allow unwanted side-effects when the EID
   is handled by a BP Agent.







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   The URI authority part and path segments are percent-encoded text and
   need to be handled by EID processors as such for both pattern
   matching and equality comparison.  Additionally, for the IPN scheme
   there are numeric values that need to be handled as such for pattern
   matching and comparison.

5.3.  Expansion of Elided Any-SSP Schemes

   The requirements for the any-SSP pattern in Section 2.3 allow an
   encoder (which in some cases is expected to be a human) to elide
   forms of specific scheme identifiers based on knowledge (or
   assumptions) about decoders of the pattern.  If the knowledge or
   assumptions are not valid, there is the possibility that

   For example, given the fully-identified pattern

   [65536,example]:**

   if this pattern passes through a CBOR encoding which elides the text
   form, the pattern is logically reduced to

   [65536]:**

   and any pattern processor which does not know the name "example" for
   this private use scheme will not be able to match text form EID
   values.

   As somewhat of a mitigation of this issue, when used as external
   input to a BP Agent through CBOR encoded pattern the text-elided form
   will still always be able to properly match CBOR encoded EID values
   within Bundles themselves.

6.  IANA Considerations

   This section provides guidance to the Internet Assigned Numbers
   Authority (IANA) regarding registration of code points in existing
   registries in accordance with BCP 26 [RFC8126].

6.1.  Bundle Protocol URI Scheme Types

   This specification re-uses the "Bundle Protocol URI Scheme Types"
   registry within the "Bundle Protocol" registry group [IANA-BP] for
   the CBOR encoding of EID Patterns and adds an informative column "EID
   Pattern Reference" as in the following table.

   Specifications of new EID Pattern schemes SHALL define all of the
   required items from Section 1.1 to ensure that pattern behavior is
   consistent across different schemes.



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    +=======+=============+=====+=====================================+
    | Value | Description | ... | EID Pattern Reference               |
    +=======+=============+=====+=====================================+
    | 2     | ipn         |     | Section 2.4 of [This specification] |
    +-------+-------------+-----+-------------------------------------+

                 Table 1: Bundle Protocol URI Scheme Types

6.2.  Object Identifier for PKIX Other Name Forms

   IANA has created, under the "Structure of Management Information
   (SMI) Numbers" registry group [IANA-SMI], a registry titled "SMI
   Security for PKIX Other Name Forms".  This other name forms table is
   updated to include a row for containing an Endpoint ID Pattern as in
   the following table.

        +=========+========================+======================+
        | Decimal | Description            | References           |
        +=========+========================+======================+
        | ON-TBA  | id-on-bundleEIDPattern | [This specification] |
        +---------+------------------------+----------------------+

                       Table 2: PKIX Other Name Forms

   The formal structure of the associated other name form is in
   Appendix A.  The use of this form is defined in Section 3.

7.  References

7.1.  Normative References

   [IANA-BP]  IANA, "Bundle Protocol",
              <https://www.iana.org/assignments/bundle/>.

   [IANA-SMI] IANA, "Structure of Management Information (SMI) Numbers",
              <https://www.iana.org/assignments/smi-numbers/>.

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119,
              DOI 10.17487/RFC2119, March 1997,
              <https://www.rfc-editor.org/info/rfc2119>.

   [RFC3629]  Yergeau, F., "UTF-8, a transformation format of ISO
              10646", STD 63, RFC 3629, DOI 10.17487/RFC3629, November
              2003, <https://www.rfc-editor.org/info/rfc3629>.






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   [RFC3986]  Berners-Lee, T., Fielding, R., and L. Masinter, "Uniform
              Resource Identifier (URI): Generic Syntax", STD 66,
              RFC 3986, DOI 10.17487/RFC3986, January 2005,
              <https://www.rfc-editor.org/info/rfc3986>.

   [RFC4632]  Fuller, V. and T. Li, "Classless Inter-domain Routing
              (CIDR): The Internet Address Assignment and Aggregation
              Plan", BCP 122, RFC 4632, DOI 10.17487/RFC4632, August
              2006, <https://www.rfc-editor.org/info/rfc4632>.

   [RFC5234]  Crocker, D., Ed. and P. Overell, "Augmented BNF for Syntax
              Specifications: ABNF", STD 68, RFC 5234,
              DOI 10.17487/RFC5234, January 2008,
              <https://www.rfc-editor.org/info/rfc5234>.

   [RFC5280]  Cooper, D., Santesson, S., Farrell, S., Boeyen, S.,
              Housley, R., and W. Polk, "Internet X.509 Public Key
              Infrastructure Certificate and Certificate Revocation List
              (CRL) Profile", RFC 5280, DOI 10.17487/RFC5280, May 2008,
              <https://www.rfc-editor.org/info/rfc5280>.

   [RFC8174]  Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
              2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
              May 2017, <https://www.rfc-editor.org/info/rfc8174>.

   [RFC8610]  Birkholz, H., Vigano, C., and C. Bormann, "Concise Data
              Definition Language (CDDL): A Notational Convention to
              Express Concise Binary Object Representation (CBOR) and
              JSON Data Structures", RFC 8610, DOI 10.17487/RFC8610,
              June 2019, <https://www.rfc-editor.org/info/rfc8610>.

   [RFC8949]  Bormann, C. and P. Hoffman, "Concise Binary Object
              Representation (CBOR)", STD 94, RFC 8949,
              DOI 10.17487/RFC8949, December 2020,
              <https://www.rfc-editor.org/info/rfc8949>.

   [RFC9171]  Burleigh, S., Fall, K., and E. Birrane, III, "Bundle
              Protocol Version 7", RFC 9171, DOI 10.17487/RFC9171,
              January 2022, <https://www.rfc-editor.org/info/rfc9171>.

   [RFC9174]  Sipos, B., Demmer, M., Ott, J., and S. Perreault, "Delay-
              Tolerant Networking TCP Convergence-Layer Protocol Version
              4", RFC 9174, DOI 10.17487/RFC9174, January 2022,
              <https://www.rfc-editor.org/info/rfc9174>.

   [RFC9525]  Saint-Andre, P. and R. Salz, "Service Identity in TLS",
              RFC 9525, DOI 10.17487/RFC9525, November 2023,
              <https://www.rfc-editor.org/info/rfc9525>.



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   [RFC9758]  Taylor, R. and E. Birrane III, "Updates to the 'ipn' URI
              Scheme", RFC 9758, DOI 10.17487/RFC9758, May 2025,
              <https://www.rfc-editor.org/info/rfc9758>.

   [X.680]    ITU-T, "Information technology -- Abstract Syntax Notation
              One (ASN.1): Specification of basic notation", ITU-T
              Recommendation X.680, ISO/IEC 8824-1:2015, August 2015,
              <https://www.itu.int/rec/T-REC-X.680-201508-I/en>.

7.2.  Informative References

   [RFC3552]  Rescorla, E. and B. Korver, "Guidelines for Writing RFC
              Text on Security Considerations", BCP 72, RFC 3552,
              DOI 10.17487/RFC3552, July 2003,
              <https://www.rfc-editor.org/info/rfc3552>.

   [RFC4592]  Lewis, E., "The Role of Wildcards in the Domain Name
              System", RFC 4592, DOI 10.17487/RFC4592, July 2006,
              <https://www.rfc-editor.org/info/rfc4592>.

   [RFC5050]  Scott, K. and S. Burleigh, "Bundle Protocol
              Specification", RFC 5050, DOI 10.17487/RFC5050, November
              2007, <https://www.rfc-editor.org/info/rfc5050>.

   [RFC5912]  Hoffman, P. and J. Schaad, "New ASN.1 Modules for the
              Public Key Infrastructure Using X.509 (PKIX)", RFC 5912,
              DOI 10.17487/RFC5912, June 2010,
              <https://www.rfc-editor.org/info/rfc5912>.

   [RFC6570]  Gregorio, J., Fielding, R., Hadley, M., Nottingham, M.,
              and D. Orchard, "URI Template", RFC 6570,
              DOI 10.17487/RFC6570, March 2012,
              <https://www.rfc-editor.org/info/rfc6570>.

   [RFC7942]  Sheffer, Y. and A. Farrel, "Improving Awareness of Running
              Code: The Implementation Status Section", BCP 205,
              RFC 7942, DOI 10.17487/RFC7942, July 2016,
              <https://www.rfc-editor.org/info/rfc7942>.

   [RFC8126]  Cotton, M., Leiba, B., and T. Narten, "Guidelines for
              Writing an IANA Considerations Section in RFCs", BCP 26,
              RFC 8126, DOI 10.17487/RFC8126, June 2017,
              <https://www.rfc-editor.org/info/rfc8126>.

   [RFC9172]  Birrane, III, E. and K. McKeever, "Bundle Protocol
              Security (BPSec)", RFC 9172, DOI 10.17487/RFC9172, January
              2022, <https://www.rfc-editor.org/info/rfc9172>.




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   [github-ricktaylor-hardy]
              Taylor, R., "BPv7 DTN server implementation",
              <https://github.com/ricktaylor/hardy>.

   [W3C-PAT]  W3C, "URI Pattern Matching for Groups of Resources", June
              2006,
              <https://www.w3.org/2005/Incubator/wcl/matching.html>.

Appendix A.  ASN.1 Module

   The following module formally specifies the BundleEIDPattern
   structure and its Other Name form in the syntax of ASN.1 [X.680].
   This specification uses the ASN.1 definitions from PKIX [RFC5912]
   with the 2002 ASN.1 notation used in that document.





































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   <CODE BEGINS>
   DTN-EIDPATTERN-2025
     { iso(1) identified-organization(3) dod(6)
       internet(1) security(5) mechanisms(5) pkix(7) id-mod(0)
       id-mod-dtn-eidpattern-2025(MOD-TBA) }

   DEFINITIONS IMPLICIT TAGS ::=
   BEGIN

   IMPORTS
     OTHER-NAME
     FROM PKIX1Implicit-2009 -- [RFC5912]
       { iso(1) identified-organization(3) dod(6) internet(1)
         security(5) mechanisms(5) pkix(7) id-mod(0)
         id-mod-pkix1-implicit-02(59) }

     id-pkix
     FROM PKIX1Explicit-2009 -- [RFC5912]
       { iso(1) identified-organization(3) dod(6) internet(1)
         security(5) mechanisms(5) pkix(7) id-mod(0)
         id-mod-pkix1-explicit-02(51) } ;

   id-on OBJECT IDENTIFIER ::= { id-pkix 8 }

   DTNOtherNames OTHER-NAME ::= { on-bundleEIDPattern, ... }

   -- The otherName definition for Bundle EID Pattern
   on-bundleEIDPattern OTHER-NAME ::= {
       BundleEIDPattern IDENTIFIED BY { id-on-bundleEIDPattern }
   }

   id-on-bundleEIDPattern OBJECT IDENTIFIER ::= { id-on ON-TBA }

   -- Encoding allows URI reserved characters
   BundleEIDPattern ::= UTF8String

   END
   <CODE ENDS>

Appendix B.  Examples

B.1.  IPN Patterns

   This section contains examples specific to the IPN pattern of
   Section 2.4.






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B.1.1.  Exact Match

   This trivial example matches only one EID (which itself has the same
   text and CBOR forms)

   ipn:0.3.4

   which has a CBOR form of:

   [[2, [0, 3, 4]]]

B.1.2.  Wildcards

   This example matches all service numbers on a single node

   ipn:0.3.*

   which has a CBOR form of:

   [[2, [0, 3, true]]]

   This example matches all default-authority nodes with the same
   service number

   ipn:0.*.4

   which has a CBOR form of:

   [[2, [0, true, 4]]]

B.1.3.  Range Match

   This example includes a single range over the service numbers
   ipn:0.3.0 to ipn:0.3.19 inclusive as

   ipn:0.3.[0-19]

   which has a CBOR form of:

   [[2, [0, 3, [0, 19]]]]

   This example includes an offset range over the service numbers
   ipn:0.3.10 to ipn:0.3.19 inclusive as

   ipn:0.3.[10-19]

   which has a CBOR form of:




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   [[2, [0, 3, [10, 9]]]]

   This example includes multiple ranges of service numbers ipn:0.3.0 to
   ipn:0.3.4 and ipn:0.3.10 to ipn:0.3.19 inclusive as

   ipn:0.3.[0-4,10-19]

   which has a CBOR form of:

   [[2, [0, 3, [0, 4, 4, 9]]]]

B.1.4.  Normalization

   These examples show normalization of specific patterns.

   An overlapping or contiguous pattern such as one of the following

   ipn:0.3.[0-9,10-19]
   ipn:0.3.[0-15,10-19]
   ipn:0.3.[10-19,0-9]

   can be normalized to the equivalent pattern

   ipn:0.3.[0-19]

   An unordered pattern such as

   ipn:0.3.[10-19,0-4]

   can be normalized to the equivalent pattern

   ipn:0.3.[0-4,10-19]

   A pattern where a range covers more than the domain of a element, as
   in

   ipn:977000.[10000-5000000000].*

   can be normalized to the equivalent (and smaller) pattern

   ipn:977000.[10000-4294967295].*

   A pattern where a range covers the same values as a wildcard would,
   as in

   ipn:977000.[0-4294967295].*

   can be identified and normalized to the equivalent pattern



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   ipn:977000.*.*

B.1.5.  Two-Element Text Form Normalization

   The two-element text form can contain only a single EID and cannot
   have a range or wildcard element.

   The two-element LocalNode EID can appear as either of the following

   ipn:4294967295.0
   ipn:!.0

   these are normalized into the equivalent three-element form of

   ipn:0.4294967295.0

   This example includes a range over the FQNN between the limits of
   4196183048192100 to 4196183048192500 inclusive, which is decomposed
   into the equivalent three-element pattern

   ipn:977000.[100-500].*

   which has a CBOR form of:

   [[2, [977000, [100, 400], true]]]

   The next example has a range over the FQNN which spans multiple
   allocator IDs between the limits of 4196183048192100 to
   4196191638126692 inclusive, which is decomposed into one possible
   equivalent pattern

   ipn:977000.[100+].*|ipn:977001.*.*|ipn:977002.[0-100].*

   which has a CBOR form of:

   [
     [2, [977000, [100], true]],
     [2, [977001, true, true]],
     [2, [977002, [0, 100], true]]
   ]

B.1.6.  Canonicalization

   These examples show canonicalization of specific patterns.

   When an interval has descending bounds such as

   ipn:0.3.[10-0]



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   can be canonicalized to the equivalent pattern

   ipn:0.3.[0-10]

   When the end of an interval is the largest value of the corresponding
   element, as in

   ipn:977000.[10000-4294967295].*

   the last value of the last interval can be canonicalized to the
   pattern

   ipn:977000.[10000+].*

   which does not affect the information model but makes the encoded
   form shorter (and more understandable to a human).

B.1.7.  Disjoint Ranges

   A single IPN-scheme item is not always able to encode a full desired
   pattern.  In these cases multiple items will need to be combined,
   such as in the following text pattern

   ipn:0.*.*|ipn:977000.*.0

   which has a CBOR form of:

   [
     [2, 0, true, true],
     [2, [977000, true, 0]]
   ]

B.2.  Combined Patterns

   This section contains examples of patterns combining items.

B.2.1.  Match None

   This trivial example does not match any EID, and this is the
   preferred way to "match none."  It's text form is empty (so not
   represented here) and its CBOR form is the empty array

   []

B.2.2.  Match All

   This trivial example matches any possible EID, and this is the
   preferred way to "match all."  It's text form is:



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   *:**

   and its CBOR form is:

   true

B.2.3.  Any-SSP Match

   These two examples match any ipn-scheme EID, either fully-identified
   as:

   [2,ipn]:**

   or integer-elided as:

   ipn:**

   and both have the following CBOR form either fully-identified as:

   [[null, 2, "ipn"]]

   or text-elided as:

   [[null, 2]]

B.2.4.  Multiple Item Match

   This example combines items with different schemes together in one
   pattern, it will match dtn:** and ipn:0.3.4 It's text form is:

   dtn:**|ipn:0.3.4

   and its CBOR form is:

   [
     [null, 1],
     [2, [0, 3, 4]]
   ]

Implementation Status

   This section is to be removed before publishing as an RFC.

   [NOTE to the RFC Editor: please remove this section before
   publication, as well as the reference to [RFC7942],
   [github-ricktaylor-hardy].]





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   This section records the status of known implementations of the
   protocol defined by this specification at the time of posting of this
   Internet-Draft, and is based on a proposal described in [RFC7942].
   The description of implementations in this section is intended to
   assist the IETF in its decision processes in progressing drafts to
   RFCs.  Please note that the listing of any individual implementation
   here does not imply endorsement by the IETF.  Furthermore, no effort
   has been spent to verify the information presented here that was
   supplied by IETF contributors.  This is not intended as, and must not
   be construed to be, a catalog of available implementations or their
   features.  Readers are advised to note that other implementations can
   exist.

   A trial implementation in Rust language of the EID Pattern encoding
   and decoding and EID matching logic is present as part of the full BP
   Agent of Hardy [github-ricktaylor-hardy].  This repository includes
   unit test vectors for verifying pattern handling.

Acknowledgments

   Pattern expressiveness is based on use case examples provided by
   Carlo Caini and Lucien Loiseau.  Prototyping of and validation for
   the utility of these patterns was performed by Rick Taylor.

Author's Address

   Brian Sipos
   The Johns Hopkins University Applied Physics Laboratory
   11100 Johns Hopkins Rd.
   Laurel, MD 20723
   United States of America
   Email: brian.sipos+ietf@gmail.com



















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