One document matched: draft-greevenbosch-appsawg-cbor-cddl-06.txt
Differences from draft-greevenbosch-appsawg-cbor-cddl-05.txt
Network Working Group C. Vigano
Internet-Draft Universitaet Bremen
Intended status: Informational H. Birkholz
Expires: January 6, 2016 Fraunhofer SIT
July 05, 2015
CBOR data definition language: a notational convention to express CBOR
data structures.
draft-greevenbosch-appsawg-cbor-cddl-06
Abstract
This document proposes a notational convention to express CBOR data
structures (RFC 7049). Its main goal is to provide an easy and
unambiguous way to express structures for protocol messages and data
formats that use CBOR.
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
working documents as Internet-Drafts. The list of current Internet-
Drafts is at http://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 January 6, 2016.
Copyright Notice
Copyright (c) 2015 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
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the Trust Legal Provisions and are provided without warranty as
described in the Simplified BSD License.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3
1.1. Requirements notation . . . . . . . . . . . . . . . . . . 4
1.2. Terminology . . . . . . . . . . . . . . . . . . . . . . . 4
2. The Style of Data Structure Specification . . . . . . . . . . 4
2.1. Groups and Composition in CDDL . . . . . . . . . . . . . 5
2.1.1. Usage . . . . . . . . . . . . . . . . . . . . . . . . 7
2.1.2. Syntax . . . . . . . . . . . . . . . . . . . . . . . 8
2.2. Types . . . . . . . . . . . . . . . . . . . . . . . . . . 8
2.2.1. Values . . . . . . . . . . . . . . . . . . . . . . . 8
2.2.2. Choices . . . . . . . . . . . . . . . . . . . . . . . 8
2.2.3. Representation Types . . . . . . . . . . . . . . . . 10
2.2.4. Root type . . . . . . . . . . . . . . . . . . . . . . 10
3. Syntax . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.1. General conventions . . . . . . . . . . . . . . . . . . . 11
3.2. Occurrence . . . . . . . . . . . . . . . . . . . . . . . 12
3.3. Predefined names for types . . . . . . . . . . . . . . . 12
3.4. Arrays . . . . . . . . . . . . . . . . . . . . . . . . . 13
3.5. Maps . . . . . . . . . . . . . . . . . . . . . . . . . . 14
3.5.1. Structs . . . . . . . . . . . . . . . . . . . . . . . 14
3.5.2. Tables . . . . . . . . . . . . . . . . . . . . . . . 17
3.6. Tags . . . . . . . . . . . . . . . . . . . . . . . . . . 17
4. Examples . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.1. Moves in a computer game . . . . . . . . . . . . . . . . 18
4.2. Fruit . . . . . . . . . . . . . . . . . . . . . . . . . . 23
4.3. RFC 7071 . . . . . . . . . . . . . . . . . . . . . . . . 24
4.4. Examples from JSON Content Rules . . . . . . . . . . . . 28
5. Making Use of CDDL . . . . . . . . . . . . . . . . . . . . . 30
5.1. As a guide to a human user . . . . . . . . . . . . . . . 30
5.2. For automated checking of CBOR data structure . . . . . . 30
5.3. For data analysis tools . . . . . . . . . . . . . . . . . 30
6. Open Issues . . . . . . . . . . . . . . . . . . . . . . . . . 31
7. Resolved Issues . . . . . . . . . . . . . . . . . . . . . . . 31
8. Security considerations . . . . . . . . . . . . . . . . . . . 32
9. IANA considerations . . . . . . . . . . . . . . . . . . . . . 32
10. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 32
11. References . . . . . . . . . . . . . . . . . . . . . . . . . 32
11.1. Normative References . . . . . . . . . . . . . . . . . . 32
11.2. Informative References . . . . . . . . . . . . . . . . . 33
Appendix A. Cemetery . . . . . . . . . . . . . . . . . . . . . . 33
Appendix B. Nursery . . . . . . . . . . . . . . . . . . . . . . 33
B.1. Annotations . . . . . . . . . . . . . . . . . . . . . . . 33
B.1.1. Annotation .size . . . . . . . . . . . . . . . . . . 34
B.1.2. Annotation .bits . . . . . . . . . . . . . . . . . . 34
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B.1.3. Annotation .regexp . . . . . . . . . . . . . . . . . 35
B.2. Socket/Plug . . . . . . . . . . . . . . . . . . . . . . . 35
B.3. Generics . . . . . . . . . . . . . . . . . . . . . . . . 36
Appendix C. Change Log . . . . . . . . . . . . . . . . . . . . . 37
Appendix D. ABNF grammar . . . . . . . . . . . . . . . . . . . . 38
Appendix E. Standard Prelude . . . . . . . . . . . . . . . . . . 40
Appendix F. The CDDL tool . . . . . . . . . . . . . . . . . . . 42
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 43
1. Introduction
In this document, a notational convention to express CBOR [RFC7049]
data structures is defined.
The main goal for the convention is to provide a unified notation
that can be used when defining protocols that use CBOR.
The CBOR notational convention has the following goals:
(G1) Provide an unambiguous description of the overall structure of
a CBOR data structure.
(G2) Flexibility to express the freedoms of choice in the CBOR data
format.
(G3) Possibility to restrict format choices where appropriate
[_format].
(G4) Able to express common CBOR datatypes and structures.
(G5) Human and machine readable and processable.
(G6) Automatic checking of data format compliance.
(G7) Extraction of specific elements from CBOR data for further
processing.
This document has the following structure:
The syntax of CDDL is defined in Section 3. Examples of CDDL and
related CBOR data instances are defined in Section 4. Section 5
discusses usage of CDDL. Examples are provided early in the text to
better illustrate concept definitions. A formal definition of CDDL
using ABNF grammar is provided in Appendix D. Finally, a prelude of
standard CDDL definitions available in every CBOR specification is
listed in Appendix E.
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1.1. Requirements notation
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 RFC
2119, BCP 14 [RFC2119].
1.2. Terminology
New terms are introduced in _cursive_. CDDL text in the running text
is in "typewriter".
2. The Style of Data Structure Specification
CDDL focuses on styles of specification that are in use in the
community employing the data model as pioneered by JSON and now
refined in CBOR.
There are a number of more or less atomic elements of a CBOR data
model, such as numbers, simple values (false, true, nil), strings;
CDDL does not focus on specifying their structure [_reptype]. CDDL
of course also allows adding a CBOR tag to a data item.
The more important components of a data structure definition language
are the data types used for composition: arrays and maps in CBOR
(called arrays and objects in JSON). While these are only two
representation formats, they are used to specify four loosely
distinguishable styles of composition:
o A _vector_, an array of elements that are mostly of the same
semantics. The set of signatures associated with a signed data
item is a typical application of a vector.
o A _record_, an array the elements of which have different,
positionally defined semantics, as detailed in the data structure
definition. A 2D point, specified as an array of an x coordinate
(which comes first) and a y coordinate (coming second) is an
example of a record, as is the pair of exponent (first) and
mantissa (second) in a CBOR decimal fraction.
o A _table_, a map from a domain of map keys to a domain of map
values, that are mostly of the same semantics. A set of language
tags, each mapped to a string translated to that specific
language, is an example of a table. The key domain is usually not
limited to a specific set by the specification, but open for the
application, e.g., in a table mapping IP addresses to MAC
addresses, the specification does not attempt to foresee all
possible IP addresses.
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o A _struct_, a map from a domain of map keys as defined by the
specification to a domain of map values the semantics of each of
which is bound to a specific map key. This is what most people
have in mind when they think about JSON objects; CBOR adds the
ability to use map keys that are not just strings. Structs can be
used to solve similar problems as records; the use of explicit map
keys facilitates optionality and extensibility.
Two important concepts provide the foundation for CDDL:
1. Instead of defining all four types of composition in CDDL
separately, or even defining one kind for arrays (vectors and
records) and one kind for maps (tables and structs), there is
only one kind of composition in CDDL: the _group_ (Section 2.1).
2. The other important concept is that of a _type_. The entire CDDL
specification defines a type (the one defined by its first
_rule_), which formally is the set of CBOR instances that are
acceptable for this specification. CDDL predefines a number of
basic types such as "uint" (unsigned integer) or "tstr" (text
string), often making use of a simple formal notation for CBOR
data items. Each value that can be expressed as a CBOR data item
also is a type in its own right, e.g. "1". A type can be built
as a _choice_ of other types, e.g., an "int" is either a "uint"
or a "nint" (negative integer). Finally, a type can be built as
an array or a map from a group.
2.1. Groups and Composition in CDDL
CDDL Groups are lists of name/value pairs (group _entries_).
In an array context, only the value of the entry is represented; the
name is annotation only (and can be left off if not needed). In a
map context, the names become the map keys ("member keys").
In an array context, the sequence of elements in the group is
important, as it is the information that allows associating actual
array elements with entries in the group. In a map context, the
sequence of entries in a group is not relevant (but there is still a
need to write down group entries in a sequence).
A group can be placed in (round) parentheses, and given a name by
using it in a rule:
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pii = (
age: int,
name: tstr,
employer: tstr,
)
Figure 1: A basic group
Or a group can just be used in the definition of something else:
person = {(
age: int,
name: tstr,
employer: tstr,
)}
Figure 2: Using a group in a map
which, given the above rule for pii, is identical to:
person = {
pii
}
Figure 3: Using a group by name
Note that the (curly) braces signify the creation of a map; the
groups themselves are neutral as to whether they will be used in a
map or an array.
The parentheses for groups are optional, so it would be slightly more
natural to express Figure 2 as:
person = {
age: int,
name: tstr,
employer: tstr,
}
Groups can be used to factor out common parts of structs, e.g.,
instead of writing:
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person = {
age: int,
name: tstr,
employer: tstr,
}
dog = {
age: int,
name: tstr,
leash-length: float,
}
one can choose a name for the common subgroup and write:
person = {
identity,
employer: tstr,
}
dog = {
identity,
leash-length: float,
}
identity = (
age: int,
name: tstr,
)
Figure 4: Using a group for factorization
Note that the contents of the braces in the above definitions
constitute (anonymous) groups, while "identity" is a named group.
2.1.1. Usage
Groups are the instrument used in composing data structures with
CDDL. It is a matter of style in defining those structures whether
to define groups (anonymously) right in their contexts or whether to
define them in a separate rule and to reference them with their
respective name (possibly more than once).
With this, one is allowed to define all small parts of their data
structures and compose bigger protocol units with those or to have
only one big protocol data unit that has all definitions ad hoc where
needed.
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2.1.2. Syntax
The composition syntax intends to be concise and easy to read:
o The start of a group can be marked by '('
o The end of a group can be marked by ')'
o Definitions of entries inside of a group are noted as follows:
_keytype => valuetype,_ (read "keytype maps to valuetype"). The
comma is actually optional (not just in the final entry), but it
is considered good style to set it. The double arrow can be
replaced by a colon to optimize for the common case of using a
string as a key (see Section 3.5.1).
An entry consists of a _keytype_ and a _valuetype_:
o _keytype_ is either an atom used as the actual key or a valuetype.
This may be needed when using groups in a table context, where the
actual keys are of lesser importance than the key types, e.g in
contexts verifying incoming data.
o _valuetype_ is either a valuetype derived from the major types
defined in [RFC7049], a convenience valuetype defined in this
document (Appendix E) or the name of a group defined in the
protocol file.
A group definition can also contain choices between groups, see
Section 2.2.2.
2.2. Types
2.2.1. Values
Values such as numbers and strings can be used in place of a type.
(For instance, this is a very common thing to do for a keytype,
common enough that CDDL provides additional convenience syntax for
this.)
2.2.2. Choices
Many places that allow a type also allow a choice between types,
delimited by a "/" (slash). The entire choice construct can be put
into parentheses if this is required to make the construction
unambiguous (please see Appendix D for the details).
Choices of values can be used to express enumerations:
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attire = "bow tie" / "necktie" / "Internet attire"
protocol = 6 / 17
Similarly as for types, CDDL also allows choices between groups,
delimited by a "//" (double slash).
address = { delivery }
delivery = (
street: tstr, ? number: uint, city //
po-box: uint, city //
per-pickup: true )
city = (
name: tstr, zip-code: uint
)
Both for type choices and for group choices, additional alternatives
can be added to a rule later in separate rules by using "/=" and
"//=", respectively, instead of "=":
attire /= "swimwear"
delivery //= (
lat: float, long: float, drone-type: tstr
)
2.2.2.1. Ranges
Instead of naming all the values that make up a choice, CDDL allows
building a _range_ out of two values that are in an ordering
relationship [_range]. A range can be inclusive of both ends given
(denoted by joining two values by ".."), or include the first and
exclude the second (denoted by instead using "...").
device-address = byte
max-byte = 255
byte = 0..max-byte ; inclusive range
first-non-byte = 256
byte1 = 0...first-non-byte ; byte1 is equivalent to byte
CDDL currently only allows ranges between numbers.
2.2.2.2. Turning a group into a choice
Some choices are built out of large numbers of values, often
integers, each of which is best given a semantic name in the
specification. Instead of naming each of these integers and then
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accumulating these into a choice, CDDL allows building a choice from
a group by prefixing it with a "&" character:
terminal-color = &basecolors
basecolors = (
black: 0, red: 1, green: 2, yellow: 3,
blue: 4, magenta: 5, cyan: 6, white: 7,
)
extended-color = &(
basecolors,
orange: 8, pink: 9, purple: 10, brown: 11,
)
As with the use of groups in arrays (Section 3.4), the membernames
have only documentary value (in particular, they might be used by a
tool when displaying integers that are taken from that choice).
2.2.3. Representation Types
CDDL allows the specification of a data item type by referring to the
CBOR representation (major and minor numbers). How this is used
should be evident from the prelude (Appendix E).
It may be necessary to make use of representation types outside the
prelude, e.g., a specification could start by making use of an
existing tag in a more specific way, or define a new tag not defined
in the prelude:
my_breakfast = #6.55799(breakfast) ; cbor-any is too general!
breakfast = cereal / porridge
cereal = #6.998(tstr)
porridge = #6.999([liquid, solid])
liquid = milk / water
milk = 0
water = 1
solid = tstr
2.2.4. Root type
There is no special syntax to identify the root of a CDDL data
structure definition: that role is simply taken by the first rule
defined in the file.
This is motivated by the usual top-down approach for defining data
structures, decomposing a big data structure unit into smaller parts;
however, except for the root type, there is no need to strictly
follow this sequence.
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3. Syntax
In this section, the overall syntax of CDDL is shown, alongside some
examples just illustrating syntax. (The definition will not attempt
to be overly formal; refer to Appendix D for the details.)
3.1. General conventions
The basic syntax is somewhat inspired by ABNF [RFC5234], with
o rules, whether they define groups or types, are defined with a
name, followed by an equals sign "=" and the actual definition
according to the respective syntactic rules of that definition.
o A name can consist of any of the characters from the set {'A',
..., 'Z', 'a', ..., 'z', '0', ..., '9', '_', '-', '@', '.', '$'},
starting with an alphabetic character (including '@', '_', '$')
and ending in one or a digit.
* Names are case sensitive.
* It is preferred style to start a name with a lower case letter.
* The hyphen is preferred over the underscore (except in a
"bareword" (Section 3.5.1), where the semantics may actually
require an underscore).
* The period may be useful for larger specifications, to express
some module structure (as in "tcp.throughput" vs.
"udp.throughput").
* A number of names are predefined in the CDDL prelude, as listed
in Appendix E.
* Rule names (types or groups) do not appear in the actual CBOR
encoding, but names used as "barewords" in member keys do.
o Comments are started by a ';' (semicolon) character and finish at
the end of a line (LF or CRLF).
o outside strings, whitespace (spaces, newlines, and comments) is
used to separate syntactic elements for readability (and to
separate identifiers or numbers that follow each other); it is
otherwise completely optional.
o Hexadecimal numbers are preceded by '0x' (without quotes, lower
case x), and are case insensitive. Similarly, binary numbers are
preceded by '0b'.
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o Strings are enclosed by double quotation '"' characters. They
follow the conventions for strings as defined in [RFC7159],
section 7. [_strings]
o CDDL uses UTF-8 [RFC3629] for its encoding.
Example:
; This is a comment
person = { g }
g = (
"name": tstr,
age: int,
)
3.2. Occurrence
An optional _occurrence_ indicator can be given in front of a group
entry. It is either one of the characters '?' (optional), '*' (zero
or more), or '+' (one or more), or is of the form n*m, where n and m
are optional unsigned integers and n is the lower limit (default 0)
and m is the upper limit (default no limit) of occurrences.
If no occurrence indicator is specified, the group entry is to occur
exactly once (as in 1*1).
Note that CDDL, outside any directives/annotations that could
possibly be defined, does not make any prescription as to whether
arrays or maps use the definite length or indefinite length encoding.
I.e., there is no correlation between leaving the size of an array
"open" in the spec and the fact that it is then interchanged with
definite or indefinite length.
3.3. Predefined names for types
CDDL predefines a number of names. This subsection summarizes these
names, but please see Appendix E for the exact definitions.
The following keywords for primitive datatypes are defined:
"bool" Boolean value (major type 7, additional information 20 or
21).
"uint" An unsigned integer (major type 0).
"nint" A negative integer (major type 1).
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"int" An unsigned integer or a negative integer.
"float16" IEEE 754 half-precision float (major type 7, additional
information 25).
"float32" IEEE 754 single-precision float (major type 7, additional
information 26).
"float64" IEEE 754 double-precision float (major type 7, additional
information 27).
"float" One of float16, float32, or float64.
"bstr" or "bytes" A byte string (major type 2).
"tstr" or "text" Text string (major type 3)
(Note that there are no predefined names for arrays or maps; these
are defined with the syntax given below.)
In addition, a number of types are defined in the prelude that are
associated with CBOR tags, such as "tdate", "bigint", "regexp" etc.
3.4. Arrays
Array definitions surround a group with square brackets.
For each entry, an occurrence indicator as specified in Section 3.2
is permitted.
For example:
unlimited-people = [* person]
one-or-two-people = [1*2 person]
at-least-two-people = [2* person]
person = (
name: tstr,
age: uint,
)
The group "person" is defined in such a way that repeating it in the
array each time generates alternating names and ages, so these are
four valid values for a data item of type "unlimited-people":
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["roundlet", 1047, "psychurgy", 2204, "extrarhythmical", 2231]
[]
["aluminize", 212, "climograph", 4124]
["penintime", 1513, "endocarditis", 4084, "impermeator", 1669,
"coextension", 865]
3.5. Maps
The syntax for specifying maps merits special attention, as well as a
number of optimizations and conveniences, as it is likely to be the
focal point of many specifications employing CDDL. While the syntax
does not strictly distinguish struct and table usage of maps, it
caters specifically to each of them.
3.5.1. Structs
The "struct" usage of maps is similar to the way JSON objects are
used in many JSON applications.
A map is defined in the same way as defining an array (see
Section 3.4), except for using curly braces "{}" instead of square
brackets "[]".
An occurrence indicator as specified in Section 3.2 is permitted for
each group entry.
The following is an example of a structure:
Geography = [
city : tstr,
gpsCoordinates : GpsCoordinates,
]
GpsCoordinates = {
longitude : uint, ; multiplied by 10^7
latitude : uint, ; multiplied by 10^7
}
When encoding, the Geography structure is encoded using a CBOR array
with two entries, whereas the GpsCoordinates are encoded as a CBOR
map with two key-value pairs.
Types used in a structure can be defined in separate rules or just in
place (potentially placed inside parentheses, such as for choices).
E.g.:
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located-samples = {
sample-point: int,
samples: [+ float],
}
where "located-samples" is the datatype to be used when referring to
the struct, and "sample-point" and "samples" are the keys to be used.
This is actually a complete example: an identifier that is followed
by a colon can be directly used as the text string for a member key
(we speak of a "bareword" member key), as can a double-quoted string
or a number. (When other types, in particular multi-valued ones, are
used as keytypes, they are followed by a double arrow, see below.)
If a text string key does not match the syntax for an identifier (or
if the specifier just happens to prefer using double quotes), the
text string syntax can also be used in the member key position,
followed by a colon. The above example could therefore have been
written with quoted strings in the member key positions.
All the types defined can be used in a keytype position by following
them with a double arrow. A string also is a (single-valued) type,
so another form for this example is:
located-samples = {
"sample-point" => int,
"samples" => [+ float],
}
A better way to demonstrate the double-arrow use may be:
located-samples = {
sample-point: int,
samples: [+ float],
* equipment-type => equipment-tolerances,
}
equipment-type = [name: tstr, manufacturer: tstr]
equipment-tolerances = [+ [float, float]]
The example below defines a struct with optional entries: display
name (as a text string), the name components first name and family
name (as a map of text strings), and age information (as an unsigned
integer).
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PersonalData = {
? displayName: tstr,
NameComponents,
? age: uint,
}
NameComponents = (
? firstName: tstr,
? familyName: tstr,
)
Note that the group definition for NameComponents does not generate
another map; instead, all four keys are directly in the struct built
by PersonalData.
In this example, all key/value pairs are optional from the
perspective of CDDL. With no occurrence indicator, an entry is
mandatory.
If the addition of more entries not specified by the current
specification is desired, one can add this possibility explicitly:
PersonalData = {
? displayName: tstr,
NameComponents,
? age: uint,
* tstr => any
}
NameComponents = (
? firstName: tstr,
? familyName: tstr,
)
Figure 5: Personal Data: Example for extensibility
The cddl tool (Appendix F) generated as one acceptable instance for
this specification:
{"familyName": "agust", "antiforeignism": "pretzel",
"springbuck": "illuminatingly", "exuviae": "ephemeris",
"kilometrage": "frogfish"}
(See Appendix B.2 for one way to explicitly identify an extension
point.)
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3.5.2. Tables
A table can be specified by defining a map with entries where the
keytype is not single-valued, e.g.:
square-roots = {* x => y}
x = int
y = float
Here, the key in each key/value pair has datatype x (defined as int),
and the value has datatype y (defined as float).
If the specification does not need to restrict one of x or y (i.e.
the application is free to choose per entry), it can be replaced by
the predefined name "any".
As another example, the following could be used as a conversion table
converting from an integer or float to a string:
tostring = {* x => tstr}
x = int / float
3.6. Tags
A type can make use of a CBOR tag (major type 6) by using the
representation type notation, giving #6.nnn(type) where nnn is an
unsigned integer giving the tag number and "type" is the type of the
data item being tagged.
For example, the following line from the CDDL prelude (Appendix E)
defines "biguint" as a type name for a positive bignum N:
biguint = #6.2(bstr)
The tags defined by [RFC7049] are included in the prelude.
Additional tags since registered need to be added to a CDDL
specification as needed; e.g., a binary UUID tag could be referenced
as "buuid" in a specification after defining
buuid = #6.37(bstr)
In the following example, usage of the tag 32 for URIs is optional:
my_uri = #6.32(tstr) / tstr
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4. Examples
This section contains various examples of structures defined using
the CBOR notational convention.
4.1. Moves in a computer game
A multiplayer computer game uses CBOR to exchange moves between the
players. To ensure a good gaming experience, the move information
needs to be exchanged quickly and frequently. Therefore, the game
uses CBOR to send its information in a compact format. Figure 6
shows definition of the CBOR information exchange format.
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UpdateMsg = [* {
move_no : uint, ; increases for each move
player_info : PlayerInfo, ; general information
moves : Moves, ; moves in this message
}]
PlayerInfo = {
alias : tstr,
player_id : uint,
experience : uint, ; beginner: 0; expert: 3
gold : uint,
supplies : Supplies,
avg_strength : float16,
}
Supplies = {
wood => uint
iron => uint
grain => uint
}
wood = 0
iron = 1
grain = 2
Moves = [* Move]
Move = (
unit_id : uint,
unit_strength : uint, ; between 0 and 100
2*2 source_pos : uint, ; (x,y)
2*2 target_pos : uint, ; (x,y)
)
Figure 6: CDDL definition of an information exchange format for a
computer game
The CDDL tool generates this as a possible instance:
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[{"move_no": 3985, "player_info":
{"alias": "timbrologist", "player_id": 699, "experience": 2699,
"gold": 328, "supplies": {0: 1768, 1: 3087, 2: 1401},
"avg_strength": 0.9712613869888417},
"moves": [[1702, 458, 38, 399, 327, 304],
[3145, 4454, 1175, 3441, 74, 1542],
[4099, 4062, 2808, 8, 3174, 3048],
[367, 3649, 756, 3644, 3725, 2769]]},
{"move_no": 199, "player_info":
{"alias": "cipo", "player_id": 4309, "experience": 4094,
"gold": 4114, "supplies": {0: 873, 1: 4706, 2: 1733},
"avg_strength": 0.37808379403466696},
"moves": [[1977, 3129, 3890, 4000, 1555, 377],
[2646, 286, 3363, 4381, 3815, 1039]]},
{"move_no": 2226, "player_info":
{"alias": "Stacey", "player_id": 1055, "experience": 207,
"gold": 285, "supplies": {0: 3325, 1: 1515, 2: 3304},
"avg_strength": 0.8590028130444863},
"moves": [[869, 4126, 2382, 3155, 1523, 2621]]}]
Notice that the supplies have been encoded as a map with integer
keys. In this example, using string keys would also have been
suitable; the example just illustrates the possibility to use other
datatypes for keys, leading to more efficient encoding.
The tool-generated binary CBOR for the instance about cannot express
yet that the floating point values are 16-bit:
83 # array(3)
a3 # map(3)
67 # text(7)
6d6f76655f6e6f # "move_no"
19 0f91 # unsigned(3985)
6b # text(11)
706c617965725f696e666f # "player_info"
a6 # map(6)
65 # text(5)
616c696173 # "alias"
6c # text(12)
74696d62726f6c6f67697374 # "timbrologist"
69 # text(9)
706c617965725f6964 # "player_id"
19 02bb # unsigned(699)
6a # text(10)
657870657269656e6365 # "experience"
19 0a8b # unsigned(2699)
64 # text(4)
676f6c64 # "gold"
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19 0148 # unsigned(328)
68 # text(8)
737570706c696573 # "supplies"
a3 # map(3)
00 # unsigned(0)
19 06e8 # unsigned(1768)
01 # unsigned(1)
19 0c0f # unsigned(3087)
02 # unsigned(2)
19 0579 # unsigned(1401)
6c # text(12)
6176675f737472656e677468 # "avg_strength"
fb 3fef1492c29f8275 # primitive(4606923564386321013)
65 # text(5)
6d6f766573 # "moves"
84 # array(4)
86 # array(6)
19 06a6 # unsigned(1702)
19 01ca # unsigned(458)
18 26 # unsigned(38)
19 018f # unsigned(399)
19 0147 # unsigned(327)
19 0130 # unsigned(304)
86 # array(6)
19 0c49 # unsigned(3145)
19 1166 # unsigned(4454)
19 0497 # unsigned(1175)
19 0d71 # unsigned(3441)
18 4a # unsigned(74)
19 0606 # unsigned(1542)
86 # array(6)
19 1003 # unsigned(4099)
19 0fde # unsigned(4062)
19 0af8 # unsigned(2808)
08 # unsigned(8)
19 0c66 # unsigned(3174)
19 0be8 # unsigned(3048)
86 # array(6)
19 016f # unsigned(367)
19 0e41 # unsigned(3649)
19 02f4 # unsigned(756)
19 0e3c # unsigned(3644)
19 0e8d # unsigned(3725)
19 0ad1 # unsigned(2769)
a3 # map(3)
67 # text(7)
6d6f76655f6e6f # "move_no"
18 c7 # unsigned(199)
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6b # text(11)
706c617965725f696e666f # "player_info"
a6 # map(6)
65 # text(5)
616c696173 # "alias"
64 # text(4)
6369706f # "cipo"
69 # text(9)
706c617965725f6964 # "player_id"
19 10d5 # unsigned(4309)
6a # text(10)
657870657269656e6365 # "experience"
19 0ffe # unsigned(4094)
64 # text(4)
676f6c64 # "gold"
19 1012 # unsigned(4114)
68 # text(8)
737570706c696573 # "supplies"
a3 # map(3)
00 # unsigned(0)
19 0369 # unsigned(873)
01 # unsigned(1)
19 1262 # unsigned(4706)
02 # unsigned(2)
19 06c5 # unsigned(1733)
6c # text(12)
6176675f737472656e677468 # "avg_strength"
fb 3fd832865ea1b216 # primitive(4600482572053623318)
65 # text(5)
6d6f766573 # "moves"
82 # array(2)
86 # array(6)
19 07b9 # unsigned(1977)
19 0c39 # unsigned(3129)
19 0f32 # unsigned(3890)
19 0fa0 # unsigned(4000)
19 0613 # unsigned(1555)
19 0179 # unsigned(377)
86 # array(6)
19 0a56 # unsigned(2646)
19 011e # unsigned(286)
19 0d23 # unsigned(3363)
19 111d # unsigned(4381)
19 0ee7 # unsigned(3815)
19 040f # unsigned(1039)
a3 # map(3)
67 # text(7)
6d6f76655f6e6f # "move_no"
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19 08b2 # unsigned(2226)
6b # text(11)
706c617965725f696e666f # "player_info"
a6 # map(6)
65 # text(5)
616c696173 # "alias"
66 # text(6)
537461636579 # "Stacey"
69 # text(9)
706c617965725f6964 # "player_id"
19 041f # unsigned(1055)
6a # text(10)
657870657269656e6365 # "experience"
18 cf # unsigned(207)
64 # text(4)
676f6c64 # "gold"
19 011d # unsigned(285)
68 # text(8)
737570706c696573 # "supplies"
a3 # map(3)
00 # unsigned(0)
19 0cfd # unsigned(3325)
01 # unsigned(1)
19 05eb # unsigned(1515)
02 # unsigned(2)
19 0ce8 # unsigned(3304)
6c # text(12)
6176675f737472656e677468 # "avg_strength"
fb 3feb7cf377a65699 # primitive(4605912429042751129)
65 # text(5)
6d6f766573 # "moves"
81 # array(1)
86 # array(6)
19 0365 # unsigned(869)
19 101e # unsigned(4126)
19 094e # unsigned(2382)
19 0c53 # unsigned(3155)
19 05f3 # unsigned(1523)
19 0a3d # unsigned(2621)
Figure 7: CBOR instance for game example
4.2. Fruit
Figure 8 contains an example for a CBOR structure that contains
information about fruit.
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fruitlist = [* Fruit]
Fruit = {
name : tstr,
colour : [* color],
avg_weight : float16,
price : uint,
international_names : International,
rfu : bstr, ; reserved for future use
}
International = {
"DE" : tstr, ; German
"EN" : tstr, ; English
"FR" : tstr, ; French
"NL" : tstr, ; Dutch
"ZH-HANS" : tstr, ; Chinese
}
color = &(
black: 0, red: 1, green: 2, yellow: 3,
blue: 4, magenta: 5, cyan: 6, white: 7,
)
Figure 8: Example CBOR structure
4.3. RFC 7071
[RFC7071] defines the Reputon structure for JSON using somewhat
formalized English text. Here is a (somewhat verbose) equivalent
definition using the same terms, but notated in CDDL:
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reputation-object = {
reputation-context,
reputon-list
}
reputation-context = (
application: tstr
)
reputon-list = (
reputons: reputon-array
)
reputon-array = [* reputon]
reputon = {
rater-value,
assertion-value,
rated-value,
rating-value,
? conf-value,
? normal-value,
? sample-value,
? gen-value,
? expire-value,
* ext-value,
}
rater-value = ( rater: tstr )
assertion-value = ( assertion: tstr )
rated-value = ( rated: tstr )
rating-value = ( rating: float16 )
conf-value = ( confidence: float16 )
normal-value = ( normal-rating: float16 )
sample-value = ( sample-size: uint )
gen-value = ( generated: uint )
expire-value = ( expires: uint )
ext-value = ( tstr => any )
An equivalent, more compact form of this example would be:
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reputation-object = {
application: tstr
reputons: [* reputon]
}
reputon = {
rater: tstr
assertion: tstr
rated: tstr
rating: float16
? confidence: float16
? normal-rating: float16
? sample-size: uint
? generated: uint
? expires: uint
* tstr => any
}
Note how this rather clearly delineates the structure somewhat
shrouded by so many words in section 6.2.2. of [RFC7071]. Also, this
definition makes it clear that several ext-values are allowed (by
definition with different member names); RFC 7071 could be read to
forbid the repetition of ext-value ("A specific reputon-element MUST
NOT appear more than once" is ambiguous.)
The CDDL tool (which hasn't quite been trained for polite
conversation) says:
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{
"application": "tridentiferous",
"reputons": [
{
"rater": "loamily",
"assertion": "Dasyprocta",
"rated": "uncommensurableness",
"rating": 0.05055809746548934,
"confidence": 0.7484706448605812,
"normal-rating": 0.8677887734049299,
"sample-size": 4059,
"expires": 3969,
"bearer": "nitty",
"faucal": "postulnar",
"naturalism": "sarcotic"
},
{
"rater": "precreed",
"assertion": "xanthosis",
"rated": "balsamy",
"rating": 0.36091333590593955,
"confidence": 0.3700759808403371,
"sample-size": 3904
},
{
"rater": "urinosexual",
"assertion": "malacostracous",
"rated": "arenariae",
"rating": 0.9210673488013762,
"normal-rating": 0.4778762617112776,
"sample-size": 4428,
"generated": 3294,
"backfurrow": "enterable",
"fruitgrower": "flannelflower"
},
{
"rater": "pedologistically",
"assertion": "unmetaphysical",
"rated": "elocutionist",
"rating": 0.42073613384304287,
"misimagine": "retinaculum",
"snobbish": "contradict",
"Bosporanic": "periostotomy",
"dayworker": "intragyral"
}
]
}
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4.4. Examples from JSON Content Rules
Although JSON Content Rules [I-D.newton-json-content-rules] seems to
address a more general problem than CDDL, it is still a worthwhile
resource to explore for examples (beyond all the inspiration the
format itself has had for CDDL).
Figure 2 of the JCR I-D looks very similar, if slightly less noisy,
in CDDL:
root = [2*2 {
precision: tstr,
Latitude: float,
Longitude: float,
Address: tstr,
City: tstr,
State: tstr,
Zip: tstr,
Country: tstr
}]
Figure 9: JCR, Figure 2, in CDDL
Apart from the lack of a need to quote the member names, text strings
are called "tstr" in CDDL. (As an alternative, the simple prelude
rule "text = tstr" allows to stick with a more familiar name here.)
The CDDL tool creates the below example instance for this:
[{"precision": "pyrosphere", "Latitude": 0.5399712314350172,
"Longitude": 0.5157523963028087, "Address": "resow",
"City": "problemwise", "State": "martyrlike", "Zip": "preprove",
"Country": "Pace"},
{"precision": "unrigging", "Latitude": 0.10422704368372193,
"Longitude": 0.6279808663725834, "Address": "picturedom",
"City": "decipherability", "State": "autometry", "Zip": "pout",
"Country": "wimple"}]
Figure 4 of the JCR I-D in CDDL:
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root = { image }
image = (
Image: {
size,
Title: tstr,
thumbnail,
IDs: [* int]
}
)
size = (
Width: 0..1280
Height: 0..1024
)
thumbnail = (
Thumbnail: {
size,
Url: uri
}
)
This shows how the group concept can be used to keep related elements
(here: width, height) together, and to emulate the JCR style of
specification. (It also shows using a tag from the prelude, "uri" -
this could be done differently.) The more compact form of Figure 5
of the JCR I-D could be emulated like this:
root = {
Image: {
size, Title: tstr,
Thumbnail: { size, Url: uri },
IDs: [* int]
}
}
size = (
Width: 0..1280,
Height: 0..1024,
)
The CDDL tool creates the below example instance for this:
{"Image": {"Width": 566, "Height": 516, "Title": "leisterer",
"Thumbnail": {"Width": 1111, "Height": 176, "Url": 32("scrog")},
"IDs": []}}
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5. Making Use of CDDL
In this section, we discuss several potential ways to employ CDDL.
5.1. As a guide to a human user
CDDL can be used to efficiently define the layout of CBOR data, such
that a human implementer can easily see how data is supposed to be
encoded.
Since CDDL maps parts of the CBOR data to human readable names, tools
could be built that use CDDL to provide a human friendly
representation of the CBOR data, and allow them to edit such data
while remaining compliant to its CDDL definition.
5.2. For automated checking of CBOR data structure
CDDL has been specified such that a machine can handle the CDDL
definition and related CBOR data. For example, a machine could use
CDDL to check whether or not CBOR data is compliant to its
definition.
The need for thoroughness of such compliance checking depends on the
application. For example, an application may decide not to check the
data structure at all, and use the CDDL definition solely as a means
to indicate the structure of the data to the programmer.
On the other end, the application may also implement a checking
mechanism that goes as far as checking that all mandatory map pairs
are available.
The matter in how far the data description must be enforced by an
application is left to the designers and implementers of that
application, keeping in mind related security considerations.
In no case the intention is that a CDDL tool would be "writing code"
for an implementation.
5.3. For data analysis tools
In the long run, it can be expected that more and more data will be
stored using the CBOR data format.
Where there is data, there is data analysis and the need to process
such data automatically. CDDL can be used for such automated data
processing, allowing tools to verify data, clean it, and extract
particular parts of interest from it.
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Since CBOR is designed with constrained devices in mind, a likely use
of it would be small sensors. An interesting use would thus be
automated analysis of sensor data.
6. Open Issues
CDDL already is usable in its present form, as Section 4.3 should
have demonstrated. However, additional examples should be developed,
and some experience be gained with the usefulness of tools built
around CDDL.
At least the following issues need further work:
o The precise semantics of occurrence indicators as defined in
Section 3.2 needs to be explained in more detail. E.g., the exact
semantics of an occurrence indicators on a group name in a map
(which means the entire group can occur in this way).
o Build good use cases that demonstrate vector, record, table and
struct usage.
o There probably are some security considerations.
7. Resolved Issues
o To indicate optionality, occurrence indicators are now always
used: Mandatory fields in structures are unadorned group entries;
optional group entries are prefixed by the "?" occurrence
indicator.
o We used to use the '.' character as a wildcard for datatypes.
This originated from the "map(tstr,.)" notation, but maybe hard to
read in notations such as "aField: .;". We now have replaced '.'
with a new prelude rule called "any", such that the example
becomes "aField: any;", and the map notation "{tstr => any}".
o The key/value pairs in maps have no fixed ordering. However,
there may be situations where fixing the ordering may be of use.
For example, an decoder could look for values related with integer
keys 1, 3 and 7. If the order was fixed and the decoder
encounters the key 4 without having encountered key 3, it can
conclude that key 3 is not available without doing more
complicated bookkeeping. Unfortunately, neither JSON nor CBOR
support this, so no attempt was made to support this in CDDL
either.
o CDDL distinguishes the various CBOR number types, but there is
only one number type in JSON. There is no effect in specifying a
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precision (float16/float32/float64) when using CDDL for specifying
JSON data structures. (The current validator implementation
Appendix F does not handle this very well, either.)
8. Security considerations
This document presents a content rules language for expressing CBOR
data structures. As such, it does not bring any security issues on
itself, although specification of protocols that use CBOR naturally
need security analysis when defined.
Topics that could be considered in a security considerations section
that uses CDDL to define CBOR structures include the following:
o Where could the language maybe cause confusion in a way that will
enable security issues?
9. IANA considerations
This document does not require any IANA registrations.
10. Acknowledgements
CDDL was originally conceived by Bert Greevenbosch, who also wrote
the original five versions of this document.
Inspiration was taken from the C and Pascal languages, MPEG's
conventions for describing structures in the ISO base media file
format, Relax-NG and its compact syntax [RELAXNG], and in particular
from Andrew Lee Newton's "JSON Content Rules"
[I-D.newton-json-content-rules].
Useful feedback came from Carsten Bormann, Joe Hildebrand, Sean
Leonard and Jim Schaad.
The CDDL tool was written by Carsten Bormann, building on previous
work by Troy Heninger and Tom Lord.
11. References
11.1. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC3629] Yergeau, F., "UTF-8, a transformation format of ISO
10646", STD 63, RFC 3629, November 2003.
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[RFC5234] Crocker, D. and P. Overell, "Augmented BNF for Syntax
Specifications: ABNF", STD 68, RFC 5234, January 2008.
[RFC7049] Bormann, C. and P. Hoffman, "Concise Binary Object
Representation (CBOR)", RFC 7049, October 2013.
[RFC7159] Bray, T., "The JavaScript Object Notation (JSON) Data
Interchange Format", RFC 7159, March 2014.
11.2. Informative References
[RELAXNG] OASIS, "RELAX-NG Compact Syntax", November 2002,
<http://relaxng.org/compact-20021121.html>.
[RFC7071] Borenstein, N. and M. Kucherawy, "A Media Type for
Reputation Interchange", RFC 7071, November 2013.
[I-D.newton-json-content-rules]
Newton, A., "A Language for Rules Describing JSON
Content", draft-newton-json-content-rules-04 (work in
progress), December 2014.
Appendix A. Cemetery
The following ideas are buried for now:
o <...> as syntax for enumerations. We view values to be very
specific types, so that an enumeration can be denoted as a choice
using "/" as the delimiter of choices. Because of this, no
evidence is present that a separate syntax for enumerations is
needed.
Appendix B. Nursery
This appendix describes advanced features that are still under heavy
review.
B.1. Annotations
An _annotation_ allows to annotate a _target_ type with a _control_
type via an _annotator_.
The syntax for an annotated type is "target .annotator control",
where annotators are special identifiers prefixed by a dot. (Note
that _target_ or _control_ might need to be parenthesized.)
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Three annotators are defined at his point. Note that the CDDL tool
does not currently support combining multiple annotations on a single
target.
B.1.1. Annotation .size
A ".size" annotation controls the size of the target in bytes by the
control type. Examples:
full-address = [[+ label], ip4, ip6]
ip4 = bstr .size 4
ip6 = bstr .size 16
label = bstr .size (1..63)
Figure 10: Annotation for size in bytes
In the CDDL tool, the target must be a byte string for now.
B.1.2. Annotation .bits
A ".bits" annotation on a byte string indicates that, in the target,
only the bits numbered by a number in the control type are allowed to
be set. (Bits are counted the usual way, bit number "n" being set in
"str" meaning that "(str[n >> 3] & (1 << (n & 7))) != 0".)
[_bitsendian]
Similarly, a ".bits" annotation on an unsigned integer "i" indicates
that for all unsigned integers "n" where "(i & (1 << n)) != 0", "n"
is in the control type.
tcpflagbytes = bstr .bits flags
flags = &(
fin: 8,
syn: 9,
rst: 10,
psh: 11,
ack: 12,
urg: 13,
ece: 14,
cwr: 15,
ns: 0,
) / (4..7) ; data offset bits
rwxbits = uint .bits rwx
rwx = &(r: 2, w: 1, x: 0)
Figure 11: Annotation for what bits can be set
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The CDDL tool generates the following ten example instances for
"tcpflagbytes":
h'906d' h'01fc' h'8145' h'01b7' h'013d' h'409f' h'018e' h'c05f'
h'01fa' h'01fe'
These examples do not illustrate that the above CDDL specification
does not explicitly specify a size of two bytes: A valid all clear
instance of flag bytes could be "h''" or "h'00'" or even "h'000000'"
as well.
B.1.3. Annotation .regexp
A ".regexp" annotation 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.)
nai = tstr .regexp "\\w+@\\w+(\\.\\w+)+"
Figure 12: Annotation with a PCRE regexp
The CDDL tool proposes:
"N1@CH57HF.4Znqe0.dYJRN.igjf"
B.2. Socket/Plug
Both for type choices and group choices, a mechanism is defined that
facilitates starting out with empty choices and assembling them
later, potentially in separate files that are concatenated to build
the full specification.
tcp-header = {seq: uint, ack: uint, * $$tcp-option}
; later, in a different file
$$tcp-option //= (
sack: [+(left: uint, right: uint)]
)
; and, maybe in another file
$$tcp-option //= (
sack-permitted: true
)
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Names that start with a single "$" are "type sockets", names with a
double "$$" are "group sockets". It is not an error if there is no
definition for a socket; this then means there is no way to satisfy
the rule (i.e., the choice is empty).
All definitions (plugs) for socket names must be augments, i.e., they
must be using "/=" and "//=", respectively.
To pick up the example illustrated in Figure 5, the socket/plug
mechanism could be used as shown in Figure 13:
PersonalData = {
? displayName: tstr,
NameComponents,
? age: uint,
* $$personaldata-extensions
}
NameComponents = (
? firstName: tstr,
? familyName: tstr,
)
; The above already works as is.
; But then, we can add later:
$$personaldata-extensions //= (
favorite-salsa: tstr,
)
; and again, somewhere else:
$$personaldata-extensions //= (
shoesize: uint,
)
Figure 13: Personal Data example: Using socket/plug extensibility
B.3. Generics
Using angle brackets, the left hand side of a rule can add formal
parameters after the name being defined, as in:
messages = message<"reboot", "now"> / message<"sleep", 1..100>
message<t, v> = {type: t, value: v}
When using a generic rule, the formal parameters are bound to the
actual arguments supplied (also using angle brackets), within the
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scope of the generic rule (as if there were a rule of the form
parameter = argument).
(There are some limitations to nesting of generics in Appendix F at
this time.)
Appendix C. Change Log
Changes from version 00 to version 01:
o Removed constants
o Updated the tag mechanism
o Extended the map structure
o Added examples
Changes from version 01 to version 02:
o Fixed example
Changes from version 02 to version 03:
o Added information about characters used in names
o Added text about an overall data structure and order of definition
of fields
o Added text about encoding of keys
o Added table with keywords
o Strings and integer writing conventions
o Added ABNF
Changes from version 03 to version 04:
o Removed optional fields for non-maps
o Defined all key/value pairs in maps are considered optional from
the CDDL perspective
o Allow omission of type of keys for maps with only text string and
integer keys
o Changed order of definitions
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o Updated fruit and moves examples
o Renamed the "Philosophy" section to "Using CDDL", and added more
text about CDDL usage
o Several editorials
Changes from version 04 to version 05:
o Added text about alternative datatypes and any datatype
o Fixed typos
o Restructured syntax and semantics
Changes from version 05 to version 05:
o Fixed the ABNF for choices (no longer need to write a: (b/c))
o Added group choices (//)
o Added /= and //=
o Added experimental socket/plug
o Added aliases text, bytes, null to prelude
o Documented generics
o Fixed more typos
Appendix D. ABNF grammar
The following is a formal definition of the CDDL syntax in Augmented
Backus-Naur Form (ABNF, [RFC5234]). [_abnftodo]
cddl = S 1*rule
rule = typename [genericparm] S assign S type S
/ groupname [genericparm] S assign S grpent S
typename = id
groupname = id
assign = "=" / "/=" / "//="
genericparm = "<" S id S *("," S id S ) ">"
genericarg = "<" S type1 S *("," S type1 S ) ">"
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type = type1 S *("/" S type1 S)
type1 = type2 [S (rangeop / annotator) S type2]
/ "#" "6" ["." uint] "(" S type S ")" ; note no space!
/ "#" DIGIT ["." uint] ; major/ai
/ "#" ; any
/ "{" S group S "}"
/ "[" S group S "]"
/ "&" S "(" S group S ")"
/ "&" S groupname [genericarg]
type2 = value
/ typename [genericarg]
/ "(" type ")"
rangeop = "..." / ".."
annotator = "." id
group = grpchoice S *("//" S grpchoice S)
grpchoice = *grpent
grpent = [occur S] [memberkey S] type optcom
/ [occur S] groupname [genericarg] optcom ; preempted by above
/ [occur S] "(" S group S ")" optcom
memberkey = type1 S "=>"
/ bareword S ":"
/ value S ":"
bareword = id
optcom = S ["," S]
occur = [uint] "*" [uint]
/ "+"
/ "?"
uint = ["0x" / "0b"] "0"
/ ["0x" / "0b"] DIGIT1 *DIGIT
value = number
/ string
int = ["-"] uint
; This is a float if it has fraction or exponent; int otherwise
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number = int ["." fraction] ["e" exponent ]
fraction = 1*DIGIT
exponent = int
string = %x22 *SCHAR %x22
SCHAR = %x20-21 / %x23-7E / SESC
SESC = "\" %x20-7E
id = EALPHA *(*("-" / ".") (EALPHA / DIGIT))
ALPHA = %x41-5A / %x61-7A
EALPHA = %x41-5A / %x61-7A / "@" / "_" / "$"
DIGIT = %x30-39
DIGIT1 = %x31-39
S = *WS
WS = SP / NL
SP = %x20
NL = COMMENT / CRLF
COMMENT = ";" *(SP / VCHAR) CRLF
VCHAR = %x21-7E
CRLF = %x0A / %x0D.0A
Figure 14: CDDL ABNF
Appendix E. Standard Prelude
The following prelude is automatically added to each CDDL file.
(Note that technically, it is a postlude, as it does not disturb the
selection of the first rule as the root of the definition.)
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any = #
uint = #0
nint = #1
int = uint / nint
bstr = #2
bytes = bstr
tstr = #3
text = tstr
tdate = #6.0(tstr)
time = #6.1(number)
number = int / float
biguint = #6.2(bstr)
bignint = #6.3(bstr)
bigint = biguint / bignint
integer = int / bigint
decfrac = #6.4([e10: int, m: integer])
bigfloat = #6.5([e2: int, m: integer])
eb64url = #6.21(any)
eb64legacy = #6.21(any)
eb16 = #6.21(any)
encoded-cbor = #6.24(bstr)
uri = #6.32(tstr)
b64url = #6.33(tstr)
b64legacy = #6.34(tstr)
regexp = #6.35(tstr)
mime-message = #6.36(tstr)
cbor-any = #6.55799(any)
float16 = #7.25
float32 = #7.26
float64 = #7.27
float16-32 = float16 / float32
float32-64 = float32 / float64
float = float16-32 / float64
false = #7.20
true = #7.21
bool = false / true
nil = #7.22
null = nil
undefined = #7.23
Figure 15: CDDL Prelude
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Note that the prelude is deemed to be fixed. This means, for
instance, that additional tags beyond [RFC7049], as registered, need
to be defined in each CDDL file that is using them.
Appendix F. The CDDL tool
A rough CDDL tool is available. For CDDL specifications that do not
use recursion, it can check the syntax, generate one or more
instances (expressed in CBOR diagnostic notation or in pretty-printed
JSON), and validate an existing instance against the specification:
Usage:
cddl spec.cddl generate [n]
cddl spec.cddl json-generate [n]
cddl spec.cddl validate instance.cbor
cddl spec.cddl validate instance.json
Figure 16: CDDL tool usage
Install on a system with a modern Ruby via:
gem install cddl
Figure 17
The accompanying CBOR diagnostic tools (which are automatically
installed by the above) are described in https://github.com/cabo/
cbor-diag ; they can be used to convert between binary CBOR, a
pretty-printed form of that, CBOR diagnostic notation, JSON, and
YAML.
Editorial Comments
[_format] This item requires some further discussion, i.e. we aren't
there yet and/or we don't really know whether we want to be
there.
[_reptype] We don't have a way yet to qualify the representation of a
value, e.g., whether it is float16, float32 or float64. TO
DO: probably borrowing something from diagnostic notation
(section 6.1 RFC 7049).
[_range] TO DO: define precisely. This clearly includes integers and
floats. Strings - as in "a".."z" - could be added if desired,
but this would require adopting a definition of string ordering
and possibly a successor function so "a".."z" does not include
"bb".
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[_strings] TO DO: This still needs to be fully realized in the ABNF and
in the CDDL tool.
[_bitsendian] How useful would it be to have another variant that counts
bits like in RFC box notation? (Or at least per-byte?
32-bit words don't always perfectly mesh with byte
strings.)
[_abnftodo] TO DO: This doesn't allow non-ASCII characters in the text
strings yet; there is no value notation for byte strings;
representation indicators are missing as well.
Authors' Addresses
Christoph Vigano
Universitaet Bremen
Email: christoph.vigano@uni-bremen.de
Henk Birkholz
Fraunhofer SIT
Rheinstrasse 75
Darmstadt 64295
Germany
Email: henk.birkholz@sit.fraunhofer.de
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