This repository is the actively-maintained follow-up of https://github.com/klarna/jesse. Please update your references.
jesse (JSON Schema Erlang) is an implementation of a JSON Schema validator for Erlang.
jesse implements the following specifications:
Automatically generated docs are available https://dev.erldocs.com/github.com/for-get/jesse/ .
Please keep in mind that the public API is the jesse.erl
module alone.
You can fire up jesse
from the CLI, with
bin/jesse [path_to_json_schema] path_to_json_schema -- path_to_json_instance [path_to_json_instance]
You can also output the result in JSON format, with --json
, and beautify it e.g. with python
bin/jesse [path_to_json_schema] path_to_json_schema --json -- path_to_json_instance [path_to_json_instance] | python -m json.tool
You can pass multiple JSON schemas which should be loaded into jesse in-memory storage, but JSON instances will be validated against the last JSON schema passed.
There are two ways of using jesse:
- to use jesse internal in-memory storage to keep all your schema definitions In this case jesse will look up a schema definition in its own storage, and then validate given a JSON instance.
- it is also possible to provide jesse with schema definitions when jesse is called.
NOTE: jesse doesn't have any parsing functionality. It currently works with four
formats: mochijson2, jiffy, jsx and Erlang 17+ maps, so JSON needs to be
parsed in advance, or you can specify a callback which jesse will use to
parse JSON.
In examples below and in jesse test suite jiffy parser is used.
- Use jesse's internal in-memory storage:
(parse JSON in advance)
1> Schema = jiffy:decode(<<"{\"items\": {\"type\": \"integer\"}}">>).
{[{<<"items">>,{[{<<"type">>,<<"integer">>}]}}]}
2> jesse:add_schema("some_key", Schema).
ok
3> Json1 = jiffy:decode(<<"[1, 2, 3]">>).
[1,2,3]
4> jesse:validate("some_key", Json1).
{ok,[1,2,3]}
5> Json2 = jiffy:decode(<<"[1, \"x\"]">>).
[1,<<"x">>]
6> jesse:validate("some_key", Json2).
{error,[{data_invalid,{[{<<"type">>,<<"integer">>}]},
wrong_type,<<"x">>,
[1]}]}
The [1]
in the error is the path in the original value to <<"x">>
where the
validation failed. See Validation errors below for the full error format.
(using a callback)
1> jesse:add_schema("some_key",
1> <<"{\"uniqueItems\": true}">>,
1> [{parser_fun, fun jiffy:decode/1}]).
ok
2> jesse:validate("some_key",
2> <<"[1, 2]">>,
2> [{parser_fun, fun jiffy:decode/1}]).
{ok,[1, 2]}
3> jesse:validate("some_key",
3> <<"[{\"foo\": \"bar\"}, {\"foo\": \"bar\"}] ">>,
3> [{parser_fun, fun jiffy:decode/1}]).
{error,[{data_invalid,{[{<<"uniqueItems">>,true}]},
{not_unique,{[{<<"foo">>,<<"bar">>}]}},
[{[{<<"foo">>,<<"bar">>}]},{[{<<"foo">>,<<"bar">>}]}],
[]}]}
- Call jesse with schema definition in place (do not use internal storage)
(parse JSON in advance)
1> Schema = jiffy:decode(<<"{\"pattern\": \"^a*$\"}">>).
{[{<<"pattern">>,<<"^a*$">>}]}
2> Json1 = jiffy:decode(<<"\"aaa\"">>).
<<"aaa">>
3> jesse:validate_with_schema(Schema, Json1).
{ok,<<"aaa">>}
4> Json2 = jiffy:decode(<<"\"abc\"">>).
<<"abc">>
5> jesse:validate_with_schema(Schema, Json2).
{error,[{data_invalid,{[{<<"pattern">>,<<"^a*$">>}]},
no_match,
<<"abc">>,[]}]}
(using a callback)
1> Schema = <<"{\"patternProperties\": {\"f.*o\": {\"type\": \"integer\"}}}">>.
<<"{\"patternProperties\": {\"f.*o\": {\"type\": \"integer\"}}}">>
2> jesse:validate_with_schema(Schema,
2> <<"{\"foo\": 1, \"foooooo\" : 2}">>,
2> [{parser_fun, fun jiffy:decode/1}]).
{ok,{[{<<"foo">>,1},{<<"foooooo">>,2}]}}
3> jesse:validate_with_schema(Schema,
3> <<"{\"foo\": \"bar\", \"fooooo\": 2}">>,
3> [{parser_fun, fun jiffy:decode/1}]).
{error,[{data_invalid,{[{<<"type">>,<<"integer">>}]},
wrong_type,<<"bar">>,
[<<"foo">>]}]}
- Since 0.4.0 it's possible to instruct jesse to collect errors, and not stop immediately when it finds an error in the given JSON instance:
1> Schema = <<"{\"properties\": {\"a\": {\"type\": \"integer\"}, \"b\": {\"type\": \"string\"}, \"c\": {\"type\": \"boolean\"}}}">>.
<<"{\"properties\": {\"a\": {\"type\": \"integer\"}, \"b\": {\"type\": \"string\"}, \"c\": {\"type\": \"boolean\"}}}">>
2> jesse:validate_with_schema(Schema,
2> <<"{\"a\": 1, \"b\": \"b\", \"c\": true}">>,
2> [{parser_fun, fun jiffy:decode/1}]).
{ok,{[{<<"a">>,1},{<<"b">>,<<"b">>},{<<"c">>,true}]}}
now let's change the value of the field "b" to an integer
3> jesse:validate_with_schema(Schema,
3> <<"{\"a\": 1, \"b\": 2, \"c\": true}">>,
3> [{parser_fun, fun jiffy:decode/1}]).
{error,[{data_invalid,{[{<<"type">>,<<"string">>}]},
wrong_type,2,
[<<"b">>]}]}
works as expected, but let's change the value of the field "c" as well
4> jesse:validate_with_schema(Schema,
4> <<"{\"a\": 1, \"b\": 2, \"c\": 3}">>,
4> [{parser_fun, fun jiffy:decode/1}]).
{error,[{data_invalid,{[{<<"type">>,<<"string">>}]},
wrong_type,2,
[<<"b">>]}]}
still works as expected, jesse stops validating as soon as finds an error.
Let's use the allowed_errors
option, and set it to 1
5> jesse:validate_with_schema(Schema,
5> <<"{\"a\": 1, \"b\": 2, \"c\": 3}">>,
5> [{parser_fun, fun jiffy:decode/1},
5> {allowed_errors, 1}]).
{error,[{data_invalid,{[{<<"type">>,<<"boolean">>}]},
wrong_type,3,
[<<"c">>]},
{data_invalid,{[{<<"type">>,<<"string">>}]},
wrong_type,2,
[<<"b">>]}]}
now we got a list of two errors.
Let's now change the value of the field "a" to a boolean
6> jesse:validate_with_schema(Schema,
6> <<"{\"a\": true, \"b\": 2, \"c\": 3}">>,
6> [{parser_fun, fun jiffy:decode/1},
6> {allowed_errors, 1}]).
{error,[{data_invalid,{[{<<"type">>,<<"string">>}]},
wrong_type,2,
[<<"b">>]},
{data_invalid,{[{<<"type">>,<<"integer">>}]},
wrong_type,true,
[<<"a">>]}]}
we stil got only two errors.
Let's try using 'infinity' as the argument for the allowed_errors
option
7> jesse:validate_with_schema(Schema,
7> <<"{\"a\": true, \"b\": 2, \"c\": 3}">>,
7> [{parser_fun, fun jiffy:decode/1},
7> {allowed_errors, infinity}]).
{error,[{data_invalid,{[{<<"type">>,<<"boolean">>}]},
wrong_type,3,
[<<"c">>]},
{data_invalid,{[{<<"type">>,<<"string">>}]},
wrong_type,2,
[<<"b">>]},
{data_invalid,{[{<<"type">>,<<"integer">>}]},
wrong_type,true,
[<<"a">>]}]}
Maps example
8> jesse:validate_with_schema(Schema,
8> <<"{\"a\": 1, \"b\": 2, \"c\": true}">>,
8> [{parser_fun, fun(Bin) -> jiffy:decode(Bin, [return_maps]) end}]).
{error,[{data_invalid,#{<<"type">> => <<"string">>},
wrong_type,2,
[<<"b">>]}]}
9> jesse:validate_with_schema(Schema,
9> <<"{\"a\": 1, \"b\": \"val\", \"c\": true}">>,
9> [{parser_fun, fun(Bin) -> jiffy:decode(Bin, [return_maps]) end}]).
{ok, #{<<"a">> => 1, <<"b">> => <<"val">>, <<"c">> => true}}
Currently there are two popular drafts of JSON Schema: draft3 and draft4. jesse supports both. To decide which validator to use jesse tries to read $schema property from the given schema, and checks if it's a supported one, otherwise it will return an error. If $schema property isn't provided in the given schema, jesse will use the default validator (currently the validator for draft3).
To specify which validator to use by default (if there's no $schema property in
the given schema), one should use 'default_schema_ver' option when call
jesse:validate/3
or jesse:validate_with_schema/3
, the value should be
a binary consisting a schema path,
i.e. <<"http://json-schema.org/draft-03/schema#">>.
The validation functions jesse:validate/2
and jesse:validate_with_schema/2,3
return {ok, Value}
on success and {error, ListOfErrors}
on failure. An error
is either data_invalid
or schema_invalid
.
A data_invalid
error is a tuple on the form {data_invalid, Schema, ErrorType, Value, Path}
where
- Schema is the part of the schema where validation failed
- ErrorType is the type of error, usually an atom such as
wrong_type
,not_in_range
orno_match
- Value is The part of the value where failed validation agains Schema
- Path is a path to where validation failed within the original value. The path
is a list of property names and zero-based array indices referencing the
properties and array items within a JSON document; e.g. in the JSON document
{"foo": [42, 43, 44]}
, the path[<<"foo">>, 0]
refers to the value 42. An empty list refers to the whole JSON document.
A schema_invalid
error is a tuple on the form {schema_invalid, Schema, ErrorType}
where
- Schema is the part of the schema which is invalid
- ErrorType is an atom such as
missing_id_field
or a tuple such as{wrong_type_dependency, Dependency}
.
-
pattern and patternProperty attributes:
jesse uses standard erlang module
re
for regexp matching, therefore there could be some incompatible regular expressions in schemas you define.From erlang docs: "re's matching algorithms are currently based on the PCRE library, but not all of the PCRE library is interfaced"
But most of common cases should work fine.
-
internal references (id attribute) are NOT supported
http://json-schema.org/latest/json-schema-core.html#rfc.section.8.2.1
If you see something missing or incorrect, a pull request is most welcome!