Internet-Draft | CDDL for CSVs | February 2022 |
Bormann | Expires 28 August 2022 | [Page] |
The Concise Data Definition Language (CDDL), standardized in RFC 8610, is defined to provide data models for data shaped like JSON or CBOR.¶
Another representation format that is quote popular is the CSV file as defined by RFC 4180.¶
The present document shows how to use CDDL to provide a data model for CSV files.¶
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The Concise Data Definition Language (CDDL), standardized in [RFC4180], is defined to provide data models for data shaped like JSON or CBOR.¶
Another representation format that is quote popular is the CSV file as defined by [RFC4180].¶
The present document shows how to use CDDL to provide a data model for CSV files.¶
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 CSV format is defined in [RFC4180]. The generic data model for the data in a CSV file can be described in CDDL as:¶
csv = [?header, *record] header = [+header-field] record = [+field] header-field = text field = text¶
Note that the elements of this data model describe the interpretation of the data after removal of lexical structure such as newlines, commas, escape characters, and quotation marks.¶
For the purposes of a specific application, the data model level structure of each field may be described in a more elaborate way, e.g., as a number. CDDL currently does not have a way to express the transformation from the text string in the CSV field to the number that this text string represents at the application data model level; the usage of anything but "text" for a field therefore MUST be accompanied by an instruction how to perform the translation. As a preferred choice, the JSON representation of the data model item, if it exists, MAY be chosen by that instruction.¶
Since the CSV media type text/csv defaults to us-ascii (see Section 3 of [RFC4180]), many uses of CSV will need to specify the media type
parameter charset
. The media type parameter header
MAY be used to
indicate the presence or absence of a header line; if it is not given,
the grammar MUST NOT be ambiguous about the presence of a header
(i.e., it MUST be either mandatory or absent).¶
Note that the ABNF [STD68] in [RFC4180] does not quite handle the case that
charset
is not us-ascii
.
For the purposes of the present specification, the ABNF is understood
to allow all characters from the charset
except %x22 and %x2C in TEXTDATA
.
For the purposes of the present specification, the ABNF rule CRLF
is
read as:¶
CRLF = [CR] LF¶
A simplified CSV form definition of a SID file [I-D.ietf-core-sid] might look like this:¶
; header = absent SID-File = [meta-record, *dependency-record, *range-record, *item-record] meta-record = ["meta", module-name: text, module-revision: empty / text, sid-file-revision: empty / text, description: empty / text] dependency-record = ["dep", module-name: text, module-revision: text] range-record = ["range", entry-point: uint, size: uint] item-record = ["item", namespace: "module" / "identity" / "feature" / "data", identifier: yang-identifier / schema-node-path ; the above probably should say which namespace ; goes with which identifier sid: uint] yang-identifier = text .abnf ("yang-identifier" .det id-abnf) schema-node-path = text .abnf ("schema-node-path" .det id-abnf) id-abnf = ' schema-node-path = QID *( "/" OQID) yang-identifier = ID QID = ID ":" ID OQID = ID [":" ID] ID = I *C I = "_" / %x41-5a / %x61-7a C = I / %x30-39 / "-" / "." ' empty = ""¶
TODO: show the example in Appendix A of [I-D.ietf-core-sid]¶
This document makes no requests of IANA.¶
The security considerations of [RFC8610] and [RFC4180] apply.¶
Rob Wilton, unknowingly, made me write this specification. I hope it will be useful.¶