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Network Working Group A. Newton
Internet-Draft ARIN
Intended status: Standards Track January 13, 2013
Expires: July 17, 2013
A Language for Rules Describing JSON Content
draft-newton-json-content-rules-01
Abstract
This document describes a language useful for documenting the
expected content of JSON structures found in specifications using
JSON.
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 July 17, 2013.
Copyright Notice
Copyright (c) 2013 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
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the Trust Legal Provisions and are provided without warranty as
described in the Simplified BSD License.
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Lines and Comments . . . . . . . . . . . . . . . . . . . . . . 7
3. Rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
3.1. Value Rules . . . . . . . . . . . . . . . . . . . . . . . 8
3.1.1. Numbers, Booleans and Null . . . . . . . . . . . . . . 8
3.1.2. Strings . . . . . . . . . . . . . . . . . . . . . . . 9
3.2. Member Rules . . . . . . . . . . . . . . . . . . . . . . . 11
3.3. Object Rules . . . . . . . . . . . . . . . . . . . . . . . 11
3.4. Array Rules . . . . . . . . . . . . . . . . . . . . . . . 12
3.5. Group Rules . . . . . . . . . . . . . . . . . . . . . . . 14
3.6. Any Value and Any Member . . . . . . . . . . . . . . . . . 15
3.7. A Root Rule . . . . . . . . . . . . . . . . . . . . . . . 16
4. Directives . . . . . . . . . . . . . . . . . . . . . . . . . . 17
4.1. ignore-unknown-members . . . . . . . . . . . . . . . . . . 17
4.2. language-compatible-members . . . . . . . . . . . . . . . 17
4.3. all-members-optional . . . . . . . . . . . . . . . . . . . 17
5. Formal Syntax . . . . . . . . . . . . . . . . . . . . . . . . 18
6. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 21
7. Normative References . . . . . . . . . . . . . . . . . . . . . 22
Appendix A. Comparison with JSON Schema . . . . . . . . . . . . . 23
A.1. Example 1 from RFC 4627 . . . . . . . . . . . . . . . . . 23
A.2. Example 2 from RFC 4627 . . . . . . . . . . . . . . . . . 24
Appendix B. A "Real World" Exmaple . . . . . . . . . . . . . . . 27
Appendix C. Design Notes . . . . . . . . . . . . . . . . . . . . 30
C.1. Member Uniqueness . . . . . . . . . . . . . . . . . . . . 30
C.2. Member Order . . . . . . . . . . . . . . . . . . . . . . . 30
C.3. Group Syntax for Arrays and Objects . . . . . . . . . . . 30
C.4. Inspiration . . . . . . . . . . . . . . . . . . . . . . . 30
C.5. Changelog . . . . . . . . . . . . . . . . . . . . . . . . 31
Author's Address . . . . . . . . . . . . . . . . . . . . . . . . . 32
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1. Introduction
The goal of this document is to provide a way to document the
expected content of data expressed in JSON [RFC4627] format. That
is, the primary purpose of this document is to specify a means for
one person to communicate with another person the expected nature of
a JSON data structure in a method more concise than prose. The
programmatic validation of a JSON data structure against content
rules is a lesser goal of this document, though such a practice is
useful in both the writing of specifications and the communications
of programs.
Unlike JSON Schema, this language is not JSON though the syntax
described here is "JSON-like" (a comparison with JSON Schema can be
found in Appendix A and a "real world" example can be found in
Appendix B). A specialized syntax is used to reduce the tedium in
reading and writing rules as the complexity describing allowable
content is often more involved than most of the actual content.
Figure 2 is an example of this language describing the JSON of
Figure 1.
Example JSON lifted from RFC 4627
[
{
"precision": "zip",
"Latitude": 37.7668,
"Longitude": -122.3959,
"Address": "",
"City": "SAN FRANCISCO",
"State": "CA",
"Zip": "94107",
"Country": "US"
},
{
"precision": "zip",
"Latitude": 37.371991,
"Longitude": -122.026020,
"Address": "",
"City": "SUNNYVALE",
"State": "CA",
"Zip": "94085",
"Country": "US"
}
]
Figure 1
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Rules describing Figure 1
root [
2*2{
"precision" : string,
"Latitude" : float,
"Longitude" : float,
"Address" : string,
"City" : string,
"State" : string,
"Zip" : string,
"Country" : string
}
]
Figure 2
The JSON Content Rules are of five types:
o value rules
o member rules
o array rules
o object rules
o group rules
Each rule has two components, a rule name and a rule definition.
Anywhere in a rule definition where a rule name is allowed, another
rule definition may be used.
This is an example of a value rule:
v1 : integer 0..3
It specifies a rule named "v1" that has a definition of ": integer
0..3" (value rule definitions begin with a ':' character). This
defines values of type "v1" to be integers in the range 0 to 3
(minimum value of 0, maximum value of 3). Value rules can define the
limits of JSON values, such as stating that numbers must fall into a
certain range or that strings must be formatted according to certain
patterns or standards (i.e. URIs, phone numbers, etc...).
Member rules specify JSON object members. The following example
member rule states that the rules name is 'm1' with a value defined
by the 'v1' value rule:
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m1 "m1name" v1
Since rule names can be substituted by rule definitions, this member
rule can also be written as follows:
m1 "m1name" : integer 0..3
Object rules are composed of member rules, since JSON objects are
composed of members. Object rules can specify members that are
mandatory, optional, and even choices between members. In this
example, the rule 'o1' defines an object that must contain a member
as defined by member rule 'm1' and optionally a member defined by the
rule 'm2':
o1 { m1, ?m2 }
Finally, array rules are composed of value and object rules. Like
object rules, array rules can specify the cardinality of the contents
of an array. The following array rule defines an array that must
contain value rule 'v1' and zero or more objects as defined by rule
'o1':
a1 [ v1, *o1 ]
Putting it all together, Figure 4 describes the JSON in Figure 3.
Example JSON shamelessly lifted from RFC 4627
{
"Image": {
"Width": 800,
"Height": 600,
"Title": "View from 15th Floor",
"Thumbnail": {
"Url": "http://www.example.com/image/481989943",
"Height": 125,
"Width": "100"
},
"IDs": [116, 943, 234, 38793]
}
}
Figure 3
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Rules describing Figure 3
width_v : integer 0..1280
height_v : integer 0..1024
width "width" width_v
height "height" height_v
thumbnail "thumbnail" {
width, height, "Url" : uri
}
image "Image" {
width, height, "Title" : string,
thumbnail, "IDs" [ *: integer ]
}
root { image }
Figure 4
The rules from Figure 4 can be written more compactly (see Figure 5).
Compact rules describing Figure 3
width "width" : integer 0..1280
height "height" : integer 0..1024
root {
"Image" {
width, height, "Title" :string,
"thumbnail" { width, height, "Url" :uri },
"IDs" [ *:integer ]
}
}
Figure 5
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2. Lines and Comments
There is no statement terminator and therefore no need for a line
continuation syntax. Blank lines are allowed.
Comments are very similar to comments in ABNF [RFC4234]. They start
with a semi-colon (';') and continue to the end of the line.
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3. Rules
Rules are composed of two parts, a rule name and a rule definition.
Rule names allow a rule definition to be referenced easily by a name.
With the exception of value rules, rule definitions refer to other
rules using the rule names of other appropriate types of rules.
Because of this, it is also possible to use a rule definition of the
appropriate type where a rule name of that type would be appropriate.
The type of rule to use in a rule definition, either directly or by
reference of a name, depends on the type of rule being defined and
fall along the structure of allowable JSON grammar:
o Since a member of a JSON object can contain a "primitive value",
an array, or an object, member rules can be composed of value
rules, array rules, and object rules.
o JSON objects are composed of members, so object rules can only be
composed of member rules.
o Finally, as JSON arrays may contain other arrays, objects, and
values, array rules may be composed of value rules, object rules,
and array rules.
A fifth rule type, group rules, exist to help reference a collection
of rules.
Rule names must start with an alphabetic character (a-z,A-Z) and must
contain only alphabetic characters, numeric characters, the hyphen
character ('-') and the underscore character ('_'). Rule names must
not be used more than once.
3.1. Value Rules
Value rules define content for JSON values. JSON allows values to be
objects, arrays, numbers, booleans, strings, booleans, and null.
Arrays and objects are handled by the array and object rules, and the
value rules define the rest.
3.1.1. Numbers, Booleans and Null
The rules for booleans and null are the simplest and take the
following forms:
rule_name : boolean
rule_name : null
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Rules for numbers can specify the number as either an integer or
floating point number and may specify a range:
rule_name : integer n..m
rule_name : float n..m
where n is minimum allowable value of the number and m is maximum
allowable value of the number. The range doesn't have to be given,
but if it is given either the minimum, maximum, or both are required.
If the minimum is not given then the minimum is considered to be the
minimum number value possible to represent in JSON. Likewise, if the
maximum is not given then the maximum is considered to be the maximum
number value possible to represent in JSON.
3.1.2. Strings
String values may be specified generically as:
rule_name : string
However, the content of strings can be narrowed in the following
ways:
Regular Expression: A rule can state that a string must match a
regular expression by giving the regular expression after the
string literal:
rule_name : string /regex/
URIs: A rule can state that a string must be a URI [RFC3986]:
rule_name : uri
URIs can also be scoped further by providing the literals 'full'
or 'relative' to indicate that the URI must be either a full URI
or a relative URI:
rule_name : uri relative
And the scheme of the URI can also be specified:
rule_name : uri full http
Neither the scheme nor the full/relative literals need to be
specified, and neither need to be specified together.
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IP Addresses: Narrowing the content of strings down to IP addresses
can be done with either the 'ip4' (see [RFC1166]) or 'ip6' (see
[RFC5952]) literals:
rule_name : ip4
rule_name : ip6
Domain Names: Fully qualified A-label and U-label domain names can
be specified with the 'fqdn' and 'idn' literals:
rule_name : fqdn
rule_name : idn
Dates and Times: Dates and times are specified using the ABNF rules
from RFC 3339 [RFC3339] as literals:
rule_name : date-time
rule_name : full-date
rule_name : full-time
Email Addresses: A string can be scoped to the syntax of email
addresses using the literal 'email' followed by an optional
conformance level:
rule_name : email 2822
rule_name : email 5322
Conformance levels are specified with the literal '2822'
signifying RFC 2822 [RFC2822] conformance or '5322' signifying RFC
5322 [RFC5322] conformance.
Phone Numbers: Strings conforming to E.123 phone number format can
be specified as follows:
rule_name : phone
Base 64: Strings containing base 64 data, as described by RFC 4648
[RFC4648], can be specified as follows:
rule_name : base64
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3.2. Member Rules
Member rules are the simplest of the rules and define members of JSON
objects. Member rules follow the format:
rule_name "member_name" target_rule_name
where rule_name is the name of the rule being defined, member_name
(in quotes) is the name of the JSON object member, and
target_rule_name is a reference to a value rule, array rule, or
object rule specifying the allowable content of the JSON object
member.
Since rule names in rule definitions may be substituted for rule
definitions, member rules may also be written in this form:
rule_name "member_rule" target_rule_definition
The following is an example:
location_uri "locationURI" : uri
3.3. Object Rules
Object rules define the allowable members of a JSON object. Their
rule definitions are composed of member rules and group rules. They
take the following form:
rule_name { member_rule_1, member_rule_2 }
The following rule example defines an object composed of two member
rules:
response { location_uri, status_code }
Given the general rule that where a rule name is found a rule
definition of the appropriate type may be used, the above example
might also be written:
response { "locationUri" : uri, "statusCode" : integer }
Rules given in the rule definition of an object rule do not imply
order. Given the example object rule above both
{ "locationUri" : "http://example.com", "statusCode" : 200 }
and
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{ "statusCode" : 200, "locationUri" : "http://example.com" }
are JSON objects that match the rule.
Member rules or member rule definitions may not be repeated in the
rule definition of an object rule. However, a member of an object
can be marked as optional if the member rule defining it is preceded
by the question mark ('?') character. In the following example, the
location_uri member is optional while the status_code member is
required to be in the defined object:
response { ?location_uri, status_code }
An object rule can also define the choice between members by placing
the forward slash ('/') character between two member rules. In the
following example, the object being defined can have either a
location_uri member or content_type member and must have a
status_code member:
response { location_uri / content_type, status_code }
Finally, the specification of a member of an object can be
conditioned upon the the specification of another member of that
object by placing the ampersand ('&') character between two member
rules. Using this syntax, the member defined by the second rule is
only allowed in the object if the member defined by the first rule is
given. Or in other words, the appearance of the second member
depends upon the appearance of the first member. In the following
example, the object defined can have a referrer_uri so long as
location_uri is also present:
response { location_uri & referrer_uri }
3.4. Array Rules
Array rules define the allowable content of JSON arrays. Their rule
definitions are composed of value rules, object rules, group rules,
and other array rules and have the following form:
rulename [ target_rule_name_1, target_rule_name_2 ]
The following example defines an array where element 1 is defined by
the width_value rule and element 2 is defined by the height_value
rule:
size [ width_value, height_value ]
Unlike object rules, order is implied by the array rule definition.
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That is, the first rule referenced or defined within an array rule
specifies that the first element of the array will match that rule,
the second rule given with the array rule specifies that the second
element of the array will match that rule, and so on.
Take for example the following array rule definition:
person [ : string, : integer ]
This JSON array matches the above rule:
[ "Bob Smurd", 24 ]
while this one does not:
[ 24, "Bob Smurd" ]
As with object rules, the forward slash character ('/') can be used
to indicate a choice between two elements. Take for example the
following rules:
name_value : string
age_value : integer
birthdate_value : date-time
person [ name_value, age_value / birthdate_vale ]
which would validate
[ "Bob Smurd", 24 ]
or
[ "Bob Smurd", "1988-04-12T23:20:50.52Z" ]
Repetition of array values may also be specified by preceding a rule
with an asterisk ('*') character surrounded by the lower bound and
upper bound of the repetition (e.g. "0*1"). The following rules
define an array that has between one and three strings:
child_value : string
children [ 1*3 child_value ]
Both the lower bound and the upper bound are optional. If lower
bound is not given then it is assumed to be zero. If the upper bound
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is not given then it is assumed to be infinity. The following
example defines an array with an infinite number of child_value
defined strings:
children [ * child_value ]
3.5. Group Rules
Unlike the other types of rules, group rules have no direct tie with
JSON syntax. Group rules simply group together other rules. They
take the form:
rule_name ( target_rule_1, target_rule_2 )
Group rule definitions and any nesting of group rule definitions,
must conform to the allowable set of rules of the rule containing
them. A group rule referenced inside of an array rule may not
contain a member rule since member rules are not allowed in array
rules directly. Likewise, a group rule referenced inside an object
rule must only contain member rules, and once group rules used in an
object rule are fully dereferenced there must be no duplicate member
rules as member rules in object rules are required to be unique.
Take for example the following rules:
child_1 "first_child" : string
child_2 "second_child" : string
child_3 "third_child" : string
child_4 "fourth_child" : string
first_two_children ( child_1, child_2 )
second_two_children ( child_3, child_4 )
the_children { first_two_children, second_two_children }
These rules describe a JSON object that might look like this:
{ "first_child":"greg", "second_child":"marsha",
"third_child":"bobby", "fourth_child":"jan" }
Groups can also be used with the choice and dependency syntax in
member rules. Here the object can either have first_two_children or
second_two_children:
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the_children { first_two_children / second_two_children }
and here the object can have second_two_children only if
first_two_children are given:
the_children { first_two_children & second_two_children }
3.6. Any Value and Any Member
It is possible to specify that a value can be of any type allowable
by JSON using the any value rule. This is done with the 'any'
literal in a value rule:
rule_name : any
However, unlike other value rules which define primitive data types,
this rule defines a value of any kind, either primitive (null,
boolean, number, string), object, or array.
Use of the any value rule in arrays can be used with repetition to
define arrays that may contain any value:
any_value : any
array_of_any [ *any_value ]
Specifying any object member name in a member rule with the any
member rule is done by pre-pending a carat character ('^') to an
empty member name (that is, ^"" signifies any member name). This has
the following form:
rule_name ^"" target_rule_name
As an example, the following defines an object member with any name
that has a value that is a string:
user_data ^"" : string
Usage of the any member rule must still satisfy the criteria that all
member names of an object be unique.
Constructing an object member of any name with any type would
therefore take the form:
rule_name ^"" : any
Unlike other types of member rules, it is possible to use repetition
with the any member rule in an object rule. The repetition syntax
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and semantics are the same as the repetition syntax and semantics of
repetition with array rules. The following example rules define an
object that may contain any number of members where each member may
have any value.
any_member ^"" : any
object_of_anything { *any_member }
Use of the repetition of any member rules must satisfy the criteria
that all member names of an object be unique.
3.7. A Root Rule
In some contexts it is necessary that there be a rule that defines
the outer most JSON object or array, or if thought of as an inverted
object tree the structure at very top. If in a collection of rules
there is no rule explicitly specified for this purpose and a rule
named "root" is given, it can be assumed to be the outer most JSON
structure or the root of an object/array tree. If a rule is
explicitly specified other than "root" and there exists a rule named
"root", that rule name holds no special meaning.
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4. Directives
Directives change the interpretation of a collection of rules. They
begin with a hash character ('#') and are terminated by the end of a
line. They take the following form:
# directive_name
4.1. ignore-unknown-members
This directive specifies that any member of any object which has not
been specified should be ignored. Ignored object members may have a
value of any type. This directive cannot be used in any collection
of rules that has an any member rule.
4.2. language-compatible-members
This directive specifies that every member name of every object,
either explicitly defined or specified via an any member rule or the
ignore-unknown-members directive must be a name compatible with
programming languages. The intent is to specify object member names
that may be promoted to first-order object attributes or methods in
an API. The following ABNF describes the restrictions upon the
member names:
ABNF for programming language compatible JSON names
name = ALPHA *( ALPHA / DIGIT / "_" )
Figure 6
4.3. all-members-optional
This directive specifies that every member of every object is not
required. This directive effectively pre-pends a '?' to every member
rule in every object rule.
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5. Formal Syntax
The following ABNF describes the syntax for JSON Content Rules.
grammar = 1*(rule / directive) *c-wsp
rule = rulename definition
definition = *c-wsp ( value-rule / member-rule / array-rule / object-rule / group-rule )
; rulenames must be unique, and may not be a reserved word
rulename = *c-wsp ALPHA *(ALPHA / DIGIT / "-" / "_")
; Adapted from the ABNF for JSON, RFC 4627 s 2.4
float = [ "-" ] int [ frac ] [ exp ]
integer = [ "-" ] int [ exp ]
exp = ( "e" / "E" ) [ "+" / "-" ] 1*DIGIT
frac = "." 1*DIGIT
int = "0" / ( %x31-39 *DIGIT )
; The regex-char rule allows for any sequence of characters, including
; whitespace and newlines, with backslash only allowed before either
; a forward or a backslash.
regex-char = %x21-2E / %x30-5D / %x5E-7E / WSP /
CR / LF / "\/" / "\\"
; uri-scheme from RFC 3986
uri-scope = *c-wsp ( "relative" / "full" )
uri-scheme = *c-wsp ALPHA *( ALPHA / DIGIT / "+" / "-" / "." )
boolean-type = "boolean"
null-type = "null"
integer-type = "integer" [ 1*c-wsp integer ".." integer ]
float-type = "float" [ 1*c-wsp float ".." float ]
string-type = "string" [ *c-wsp "/" *regex-char "/" ]
uri-type = "uri" [ uri-scope ] [ uri-scheme ]
ip-type = "ip4" / "ip6"
dns-type = "fqdn" / "idn"
date-type = "date-time" / "full-date" / "full-time"
email-type = "email" [ *c-wsp ( "2822" / "5322" ) ]
phone-type = "phone"
base64-type = "base64"
any-type = "any"
value-rule = ":" *c-wsp type-rule
type-rule = boolean-type /
null-type /
integer-type /
float-type /
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string-type /
uri-type /
ip-type /
dns-type /
date-type /
email-type /
phone-type /
base64-type /
any-type
inline-rule = *c-wsp ( rulename / definition )
; The defintion of a JSON string, from RFC 4627 s 2
json-name = %x20-21 / %x23-5B / %x5D-10FFFF / "\" (
%x22 / ; " u+0022
%x5C / ; \ u+005C
%x2F / ; / u+002F
%x62 / ; BS u+0008
%x66 / ; FF u+000C
%x6E / ; LF u+000A
%x72 / ; CR u+000D
%x74 / ; HT u+0009
( %x75 4HEXDIG ) ) ; uXXXX u+XXXX
member-rule = ( ( "^" %x22.22 ) / ( %x22 *json-name %x22 ) ) inline-rule
object-rule = "{" [ object-member *( *c-wsp ( "," / "/" / "&" ) object-member ) ] *c-wsp "}"
object-member = *c-wsp ["?"] ( rulename / member-rule / group-rule )
array-rule = "[" [ array-member *( *c-wsp "," array-member ) ] *c-wsp "]"
array-count = *c-wsp [ [int] "*" [int] *c-wsp ]
array-member = array-count ( rulename / value-rule / object-rule / group-rule )
[ *c-wsp "/" array-member ]
group-rule = "(" [ group-member *( *c-wsp "," group-member) ] *c-wsp ")"
group-member = ["?"] inline-rule [ *c-wsp ( "/" / "&" ) group-member ]
directive = *c-wsp "#" *( VCHAR / WSP / %x7F-10FFFF ) EOL
; Taken from the ABNF for ABNF (RFC 4627 section 4) and slightly adapted
; newlines in a c-wsp do not need whitespace at the start of a newline
; to form a valid continuation line, and EOL might not be a full CRLF
c-wsp = WSP / c-nl
c-nl = comment / EOL
comment = ";" *(WSP / VCHAR) EOL
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EOL = 1*( CR / LF )
; core rules
ALPHA = %x41-5A / %x61-7A ; A-Z / a-z
CR = %x0D
DIGIT = %x30-39
HEXDIG = DIGIT / "A" / "B" / "C" / "D" / "E" / "F"
LF = %x0A
VCHAR = %x21-7E
WSP = SP / HTAB
SP = %x20
HTAB = %x09
JSON Content Rules ABNF
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6. Acknowledgements
Many thanks to Byron Ellacott for providing the ABNF in Section 5.
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7. Normative References
[RFC1166] Kirkpatrick, S., Stahl, M., and M. Recker, "Internet
numbers", RFC 1166, July 1990.
[RFC2822] Resnick, P., "Internet Message Format", RFC 2822,
April 2001.
[RFC3339] Klyne, G., Ed. and C. Newman, "Date and Time on the
Internet: Timestamps", RFC 3339, July 2002.
[RFC3986] Berners-Lee, T., Fielding, R., and L. Masinter, "Uniform
Resource Identifier (URI): Generic Syntax", STD 66,
RFC 3986, January 2005.
[RFC4234] Crocker, D., Ed. and P. Overell, "Augmented BNF for Syntax
Specifications: ABNF", RFC 4234, October 2005.
[RFC4627] Crockford, D., "The application/json Media Type for
JavaScript Object Notation (JSON)", RFC 4627, July 2006.
[RFC4648] Josefsson, S., "The Base16, Base32, and Base64 Data
Encodings", RFC 4648, October 2006.
[RFC5322] Resnick, P., Ed., "Internet Message Format", RFC 5322,
October 2008.
[RFC5952] Kawamura, S. and M. Kawashima, "A Recommendation for IPv6
Address Text Representation", RFC 5952, August 2010.
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Appendix A. Comparison with JSON Schema
This section compares this specification, JSON Content Rules, with
JSON Schema using examples.
A.1. Example 1 from RFC 4627
Example JSON lifted from RFC 4627
[
{
"precision": "zip",
"Latitude": 37.7668,
"Longitude": -122.3959,
"Address": "",
"City": "SAN FRANCISCO",
"State": "CA",
"Zip": "94107",
"Country": "US"
},
{
"precision": "zip",
"Latitude": 37.371991,
"Longitude": -122.026020,
"Address": "",
"City": "SUNNYVALE",
"State": "CA",
"Zip": "94085",
"Country": "US"
}
]
JSON Content Rules
root [
2*2{
"precision" : string,
"Latitude" : float,
"Longitude" : float,
"Address" : string,
"City" : string,
"State" : string,
"Zip" : string,
"Country" : string
}
]
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JSON Schema
{
"type": "array",
"items": [
{
"type": "object",
"properties": {
"precision": { "type": "string", "required": "true" },
"Latitude": { "type": "number", "required": "true" },
"Longitude": { "type": "number", "required": "true" },
"Address" : { "type": "string", "required": "true" },
"City" : { "type": "string", "required": "true" },
"State" : { "type" : "string", "required": "true" },
"Zip" : { "type" : "string", "required": "true" },
"Country" : { "type" : "string", "required": "true" }
}
}
],
"minItems" : 2,
"maxItems" : 2
}
A.2. Example 2 from RFC 4627
Example JSON shamelessly lifted from RFC 4627
{
"Image": {
"Width": 800,
"Height": 600,
"Title": "View from 15th Floor",
"Thumbnail": {
"Url": "http://www.example.com/image/481989943",
"Height": 125,
"Width": "100"
},
"IDs": [116, 943, 234, 38793]
}
}
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JSON Content Rules
width "width" : integer 0..1280
height "height" : integer 0..1024
root {
"Image" {
width, height, "Title" :string,
"thumbnail" { width, height, "Url" :uri },
"IDs" [ *:integer ]
}
}
JSON Schema
{
"type" : "object",
"properties" : {
"Image": {
"type" : "object",
"properties" : {
"Width" : {
"type" : "integer",
"minimum" : 0,
"maximum" : 1280,
"required" : "true"
}
"Height" : {
"type" : "integer",
"minimum" : 0,
"maximum" : 1024,
"required" : "true"
}
"Title" : { "type": "string" },
"Thumbnail" : {
"type" : "object",
"properties" : {
"Url" : {
"type" : "string",
"format" : "uri",
"required" : "true"
},
"Width" : {
"type" : "integer",
"minimum" : 0,
"maximum" : 1280,
"required" : "true"
},
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"Height" : {
"type" : "integer",
"minimum" : 0,
"maximum" : 1280,
"required" : "true"
}
}
},
"IDs" : {
"type":"array",
"items":[ { "type": "integer" } ],
"required" : "true"
}
}
}
}
}
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Appendix B. A "Real World" Exmaple
The following example is taken from
draft-ietf-weirds-json-response-00. It describes the entity object
(Section 4), the nameserver object (Section 5) and many of the other
sub-structures used in objects defined in other sections of that
draft.
JSON Content Rules for nameserver and entity from
draft-ietf-weirds-json-response
# all-members-optional
# ignore-unknown-members
# language-compatible-members
; the nameserver object
; models nameserver host information
; this often referred to as 'host' object too
nameserver {
; the host name of the name server
"name" : fqdn,
; the ip addresses of the nameserver
"ipAddresses" [ *( :ip4 / :ip6 ) ],
common
}
; the entity object
; This object object represents the information of organizations,
; corporations, governments, non-profits, clubs, individual persons,
; and informal groups of people.
entity {
; the names by which the entity is commonly known
"names" [ *:string ],
; the roles this entity has with any containing object
"roles" [ *:string ],
; the place where the person, org, etc... receives postal mail
; THIS IS NOT LOCATION
"postalAddress" [ *:string ],
; electronic mailboxes where the person, org, etc...
; receives messages
"emails" [ *:email 2822 ],
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; phones where the person, org, etc... receives
; telephonic communication
"phones" {
"office" [ *:phone ], ; office phones
"fax" [ *:phone ], ; facsilime machines
"mobile" [ *:phone ] ; cell phones and the like
},
common
}
; The members "handle", "status", "remarks", "uris", "port43",
; "sponsoredBy", "resoldBy", "registrationBy", "registrationDate",
; "lastChangedDate", and "lastChangedBy" are used in many objects
common (
; a registry-unique identifier
"handle" : string,
; an array of status values
"status" [ *:string ],
; an array of strings, each containing comments about the object
"remarks" [ *:string ].
; an array of uri objects
; "type" referrs to the application of the URI
; "uri" is the uri
"uris" [
*{ "type" : string, "uri" : uri }
],
; a string containing the fully-qualified host name of the
; WHOIS [RFC3912] server where the object instance may be found
"port43" : fqdn,
; a string containing an identifier of the party
; through which the registration was made, such as an IANA approved
; registrar
"sponsoredBy" : string,
; a string containing an identifier of the party
; originating the registration of the object.
"resoldBy" : string,
; a string containing an identifier of the party
; responsible for the registration of the object
"registrationBy" : string,
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; the date the object was registered
"registrationDate" : date-time,
; the date of last change made to the object
"lastChangedDate" : date-time,
; a string containing an identifier of the party
; responsible for the last change made to the registration
"lastChangedBy" : string
)
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Appendix C. Design Notes
C.1. Member Uniqueness
JSON does not disallow non-unique object member names ( in other
words, it allows non-unique object member names ) but strongly
advises against the use of non-unique object member names. Many JSON
implementations use hash-indexed maps to represent JSON objects,
where the object's member names are the key of the hash index. Non-
uniqueness would break such implementations or result in the value of
the last member given overwriting the value of all previous members
of the same name.
Therefore, allowing non-unique object member names would be bad
practice. For this reason, this specification does not accommodate
the need for non-unique object member names.
C.2. Member Order
JSON gives awkward guidance regarding ordering of object member
names. However, many JSON implementations use hash-indexed maps to
represent JSON objects, where the object's member names are the key
of the hash index. Though it is possible, usually these maps have no
explicit order as the only index is the hash.
Therefore, this specification does not provide a means to imply order
of object member names.
C.3. Group Syntax for Arrays and Objects
It is possible to create a separate group syntax for array rules vs
object rules, since allowable group rule content is determined by the
containing rule. For instance, while the syntax for groups in
objects could have been "( blah blah )", syntax for groups in arrays
could have been "< blah blah >". That may be more distinctive and
allow the formal syntax parser to handle rule content validity, but
the added extra syntax appeared to hurt readability. There is only
so many enclosure characters a person should reasonably be required
to know, and adding yet another did not seem prudent.
C.4. Inspiration
The original approach to this problem was to find a concise way to
describe JSON data structures; to do for JSON what RelaxNG compact
syntax does for XML. The syntax itself hopefully has a JSON-ness or
a JSON feel to it. And a good bit of inspiration came from ABNF.
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C.5. Changelog
From -00 to -01
1. Added ABNF. Thanks Byron Ellacott.
2. Added section about root rules.
3. Other minor edits.
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Author's Address
Andrew Lee Newton
American Registry for Internet Numbers
3635 Concorde Parkway
Chantilly, VA 20151
US
Email: andy@arin.net
URI: http://www.arin.net
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