| Internet-Draft | CDDL feature freezer | March 2023 |
| Bormann | Expires 12 September 2023 | [Page] |
In defining the Concise Data Definition Language (CDDL), some features have turned up that would be nice to have. In the interest of completing this specification in a timely manner, the present document was started to collect nice-to-have features that did not make it into the first RFC for CDDL, RFC 8610, or the specifications exercising its extension points, such as RFC 9165.¶
Significant parts of this draft have now moved over to the CDDL 2.0 project, described in draft-bormann-cbor-cddl-2-draft. The remaining items in this draft are not directly related to the CDDL 2.0 effort.¶
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In defining the Concise Data Definition Language (CDDL), some features have turned up that would be nice to have. In the interest of completing this specification in a timely manner, the present document was started to collect nice-to-have features that did not make it into the first RFC for CDDL [RFC8610], or the specifications exercising its extension points, such as [RFC9165].¶
Significant parts of this draft have now moved over to [I-D.bormann-cbor-cddl-2-draft], which in turn references [I-D.bormann-cbor-update-8610-grammar], [I-D.bormann-cbor-cddl-more-control], [I-D.bormann-cbor-cddl-modules]. The remaining items in Sections 3 to 4 of this draft are not directly related to the CDDL 2.0 effort. Section 5 might turn into a part of CDDL 2.5.¶
The remaining sections are not proposing to change CDDL, but are ancillary developments: Section 6 is more interesting for the ecosystem of tools around CDDL. Section 7 examines extending the area of application of CDDL beyond CBOR and JSON.¶
There is always a danger for a document like this to become a shopping list; the intention is to develop this document further based on the rapidly growing real-world experience with the first CDDL standard.¶
Section 3.5.4 of [RFC8610] alludes to a new language feature, cuts, and defines it in a fashion that is rather focused on a single application in the context of maps and generating better diagnostic information about them.¶
The present document is expected to grow a more complete definition of cuts, with the expectation that it will be upwards-compatible to the existing one in [RFC8610], before this possibly becomes a mainline language feature in a future version of CDDL.¶
Literal syntax is also discussed in Appendix A.1 of [I-D.bormann-cbor-cddl-2-draft], which might provide another approach to Section 3.1. This appendix is in turn based on ideas in [I-D.bormann-cbor-edn-literals].¶
Regular expressions currently are notated as strings in CDDL, with all
the string escaping rules applied once. It might be convenient to
have a more conventional literal format for regular expressions,
possibly also providing a place to add modifiers such as /i.
This might also imply text .regexp ..., which with the proposal in
Section 4.1 then raises the question of how to indicate the regular
expression flavor.¶
(With the support for ABNF in [RFC9165], the need for this is reduced. Also, the proliferation of regular expression flavors is hard to address with a single syntax.)¶
Controls are the main extension point of the CDDL language. It is relatively painless to add controls to CDDL; this mechanism has been exercised in [RFC9090] for SDNV [RFC6256] and ASN.1 OID related byte strings, and in [RFC9165] for more generally applicable controls, including an interface to ABNF [RFC5234] [RFC7405]. A more recent collection of additions that is ready for standardization is specified in [I-D.bormann-cbor-cddl-more-control].¶
Several further candidates have been identified that aren't quite ready for adoption, of which a few shall be listed here.¶
There are many variants of regular expression languages. Section 3.8.3 of [RFC8610] defines the .regexp control, which is based on XSD [XSD2] regular expressions. As discussed in that section, the most desirable form of regular expressions in many cases is the family called "Perl-Compatible Regular Expressions" ([PCRE]); however, no formally stable definition of PCRE is available at this time for normatively referencing it from an RFC.¶
The present document defines the control operator .pcre, which is
similar to .regexp, but uses PCRE2 regular expressions.
More specifically, a .pcre control indicates that the text string
given as a target needs to match the PCRE regular expression given as
a value in the control type, where that regular expression is anchored
on both sides.
(If anchoring is not desired for a side, .* needs to be inserted
there.)¶
Similarly, .es2018re could be defined for ECMAscript 2018 regular
expressions with anchors added.¶
See also [I-D.draft-bormann-jsonpath-iregexp], which could be specifically called out via
.iregexp (even though .regexp as per Section 3.8.3 of [RFC8610]
would also have the same semantics, except for a wider range of regexps).¶
How useful would it be to have another variant of .bits that counts bits like in RFC box notation? (Or at least per-byte? 32-bit words don't always perfectly mesh with byte strings.)¶
Provide a way to specify bitfields in byte strings and uints to a higher level of detail than is possible with .bits. Strawman:¶
Field = uint .bitfield Fieldbits Fieldbits = [ flag1: [1, bool], val: [4, Vals], flag2: [1, bool], ] Vals = &(A: 0, B: 1, C: 2, D: 3)¶
Note that the group within the controlling array can have choices, enabling the whole power of a context-free grammar (but not much more).¶
While there are no co-occurrence constraints in CDDL, many actual use cases can be addressed by using the fact that a group is a grammar:¶
postal = {
( street: text,
housenumber: text) //
( pobox: text .regexp "[0-9]+" )
}
¶
However, constraints that are not just structural/tree-based but are predicates combining parts of the structure cannot be expressed:¶
session = {
timeout: uint,
}
other-session = {
timeout: uint .lt [somehow refer to session.timeout],
}
¶
As a minimum, this requires the ability to reach over to other parts of the tree in a control. Compare JSON Pointer [RFC6901] and JSON Relative Pointer [I-D.handrews-relative-json-pointer]. Stefan Gössner's jsonpath is a JSON variant of XPath that is now undergoing standardization [jsonpath].¶
More generally, something akin to what Schematron is to Relax-NG may be needed.¶
For CDDL, alternative representations e.g. in JSON (and thus in YAML)
could be defined, similar to the way YANG defines an XML-based
serialization called YIN in Section 11 of [RFC6020].
One proposal for such a syntax is provided by the cddlc tool
[cddlc], which is reproduced below.
This could be written up in more detail and agreed upon.
(Since cddlc version 0.1.8, the "mem"-labeled array includes
information about the presence of a cut, see Section 3.5.4 of [RFC8610].)¶
cddlj = ["cddl", +rule] rule = ["=" / "/=" / "//=", namep, type] namep = ["name", id] / ["gen", id, +id] id = text .regexp "[A-Za-z@_$](([-.])*[A-Za-z0-9@_$])*" op = ".." / "..." / text .regexp "\\.[A-Za-z@_$](([-.])*[A-Za-z0-9@_$])*" namea = ["name", id] / ["gen", id, +type] type = value / namea / ["op", op, type, type] / ["map", group] / ["ary", group] / ["tcho", 2*type] / ["unwrap", namea] / ["enum", group / namea] / ["prim", ?((6, type/uint, ?type) // (0..7, ?uint))] group = ["mem", bool, null/type, type] / ["rep", uint, uint/false, group] / ["seq", 2*group] / ["gcho", 2*group] value = ["number"/"text"/"bytes", text]¶
The "prim"-labeled array includes support for non-literal tag numbers (Section 2.1 of [I-D.bormann-cbor-cddl-2-draft]).¶
More recently, a variant of this format has been used for easier processing. It collects rules in a map (JSON object) and binds generic parameters to argument positions. This variant will be described in a further revision of this document.¶
CDDL has originally been designed to describe CBOR and JSON data. One format of interest is comma-separated values, CSV [RFC4180]. [I-D.bormann-cbor-cddl-csv] is a draft for using CDDL models with CSV.¶
This document makes no requests of IANA.¶
Before [RFC8610] was finally published, many people have asked for CDDL to be completed, soon. These are usually also the people who have brought up observations that led to the proposals discussed here. Sean Leonard has campaigned for a regexp literal syntax.¶