=================
Schema Validation
=================
.. currentmodule:: jsonschema
The Basics
----------
The simplest way to validate an instance under a given schema is to use the
:func:`validate` function.
.. autofunction:: validate
.. [#] For information on creating JSON schemas to validate
your data, there is a good introduction to JSON Schema
fundamentals underway at `Understanding JSON Schema
`_
The Validator Interface
-----------------------
`jsonschema` defines an (informal) interface that all validator
classes should adhere to.
.. class:: IValidator(schema, types=(), resolver=None, format_checker=None)
:argument dict schema: the schema that the validator object
will validate with. It is assumed to be valid, and providing
an invalid schema can lead to undefined behavior. See
`IValidator.check_schema` to validate a schema first.
:argument resolver: an instance of `RefResolver` that will be
used to resolve :validator:`$ref` properties (JSON references). If
unprovided, one will be created.
:argument format_checker: an instance of `FormatChecker`
whose `FormatChecker.conforms` method will be called to
check and see if instances conform to each :validator:`format`
property present in the schema. If unprovided, no validation
will be done for :validator:`format`. Certain formats require
additional packages to be installed (ipv5, uri, color, date-time).
The required packages can be found at the bottom of this page.
:argument types:
.. deprecated:: 3.0.0
Use `TypeChecker.redefine` and
`jsonschema.validators.extend` instead of this argument.
See `validating-types` for details.
If used, this overrides or extends the list of known types when
validating the :validator:`type` property.
What is provided should map strings (type names) to class objects
that will be checked via `isinstance`.
.. attribute:: META_SCHEMA
An object representing the validator's meta schema (the schema that
describes valid schemas in the given version).
.. attribute:: VALIDATORS
A mapping of validator names (`str`\s) to functions
that validate the validator property with that name. For more
information see `creating-validators`.
.. attribute:: TYPE_CHECKER
A `TypeChecker` that will be used when validating :validator:`type`
properties in JSON schemas.
.. attribute:: schema
The schema that was passed in when initializing the object.
.. attribute:: DEFAULT_TYPES
.. deprecated:: 3.0.0
Use of this attribute is deprecated in favor of the new `type
checkers `.
See `validating-types` for details.
For backwards compatibility on existing validator classes, a mapping of
JSON types to Python class objects which define the Python types for
each JSON type.
Any existing code using this attribute should likely transition to
using `TypeChecker.is_type`.
.. classmethod:: check_schema(schema)
Validate the given schema against the validator's `META_SCHEMA`.
:raises: `jsonschema.exceptions.SchemaError` if the schema
is invalid
.. method:: is_type(instance, type)
Check if the instance is of the given (JSON Schema) type.
:type type: str
:rtype: bool
:raises: `jsonschema.exceptions.UnknownType` if ``type``
is not a known type.
.. method:: is_valid(instance)
Check if the instance is valid under the current `schema`.
:rtype: bool
>>> schema = {"maxItems" : 2}
>>> Draft3Validator(schema).is_valid([2, 3, 4])
False
.. method:: iter_errors(instance)
Lazily yield each of the validation errors in the given instance.
:rtype: an `collections.Iterable` of
`jsonschema.exceptions.ValidationError`\s
>>> schema = {
... "type" : "array",
... "items" : {"enum" : [1, 2, 3]},
... "maxItems" : 2,
... }
>>> v = Draft3Validator(schema)
>>> for error in sorted(v.iter_errors([2, 3, 4]), key=str):
... print(error.message)
4 is not one of [1, 2, 3]
[2, 3, 4] is too long
.. method:: validate(instance)
Check if the instance is valid under the current `schema`.
:raises: `jsonschema.exceptions.ValidationError` if the
instance is invalid
>>> schema = {"maxItems" : 2}
>>> Draft3Validator(schema).validate([2, 3, 4])
Traceback (most recent call last):
...
ValidationError: [2, 3, 4] is too long
All of the `versioned validators ` that are included with
`jsonschema` adhere to the interface, and implementers of validator classes
that extend or complement the ones included should adhere to it as well. For
more information see `creating-validators`.
Type Checking
-------------
To handle JSON Schema's :validator:`type` property, a `IValidator` uses
an associated `TypeChecker`. The type checker provides an immutable
mapping between names of types and functions that can test if an instance is
of that type. The defaults are suitable for most users - each of the
`versioned validators ` that are included with
`jsonschema` have a `TypeChecker` that can correctly handle their respective
versions.
.. seealso:: `validating-types`
For an example of providing a custom type check.
.. autoclass:: TypeChecker
:members:
.. autoexception:: jsonschema.exceptions.UndefinedTypeCheck
Raised when trying to remove a type check that is not known to this
TypeChecker, or when calling `jsonschema.TypeChecker.is_type`
directly.
.. _validating-types:
Validating With Additional Types
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Occasionally it can be useful to provide additional or alternate types when
validating the JSON Schema's :validator:`type` property.
`jsonschema` tries to strike a balance between performance in the common
case and generality. For instance, JSON Schema defines a ``number`` type, which
can be validated with a schema such as ``{"type" : "number"}``. By default,
this will accept instances of Python `numbers.Number`. This includes in
particular `int`\s and `float`\s, along with
`decimal.Decimal` objects, `complex` numbers etc. For
``integer`` and ``object``, however, rather than checking for
`numbers.Integral` and `collections.abc.Mapping`,
`jsonschema` simply checks for `int` and `dict`, since the
more general instance checks can introduce significant slowdown, especially
given how common validating these types are.
If you *do* want the generality, or just want to add a few specific additional
types as being acceptable for a validator object, then you should update an
existing `TypeChecker` or create a new one. You may then create a new
`IValidator` via `jsonschema.validators.extend`.
.. code-block:: python
class MyInteger(object):
pass
def is_my_int(checker, instance):
return (
Draft3Validator.TYPE_CHECKER.is_type(instance, "number") or
isinstance(instance, MyInteger)
)
type_checker = Draft3Validator.TYPE_CHECKER.redefine("number", is_my_int)
CustomValidator = extend(Draft3Validator, type_checker=type_checker)
validator = CustomValidator(schema={"type" : "number"})
.. autoexception:: jsonschema.exceptions.UnknownType
.. _versioned-validators:
Versioned Validators
--------------------
`jsonschema` ships with validator classes for various versions of
the JSON Schema specification. For details on the methods and attributes
that each validator class provides see the `IValidator` interface,
which each included validator class implements.
.. autoclass:: Draft7Validator
.. autoclass:: Draft6Validator
.. autoclass:: Draft4Validator
.. autoclass:: Draft3Validator
For example, if you wanted to validate a schema you created against the
Draft 6 meta-schema, you could use:
.. code-block:: python
from jsonschema import Draft6Validator
schema = {
"$schema": "https://json-schema.org/schema#",
"type": "object",
"properties": {
"name": {"type": "string"},
"email": {"type": "string"},
},
"required": ["email"]
}
Draft6Validator.check_schema(schema)
Validating Formats
------------------
JSON Schema defines the :validator:`format` property which can be used to check
if primitive types (``string``\s, ``number``\s, ``boolean``\s) conform to
well-defined formats. By default, no validation is enforced, but optionally,
validation can be enabled by hooking in a format-checking object into an
`IValidator`.
.. doctest::
>>> validate("localhost", {"format" : "hostname"})
>>> validate(
... instance="-12",
... schema={"format" : "hostname"},
... format_checker=draft7_format_checker,
... )
Traceback (most recent call last):
...
ValidationError: "-12" is not a "hostname"
.. autoclass:: FormatChecker
:members:
:exclude-members: cls_checks
.. attribute:: checkers
A mapping of currently known formats to tuple of functions that
validate them and errors that should be caught. New checkers can be
added and removed either per-instance or globally for all checkers
using the `FormatChecker.checks` or `FormatChecker.cls_checks`
decorators respectively.
.. classmethod:: cls_checks(format, raises=())
Register a decorated function as *globally* validating a new format.
Any instance created after this function is called will pick up the
supplied checker.
:argument str format: the format that the decorated function will check
:argument Exception raises: the exception(s) raised
by the decorated function when an invalid instance is
found. The exception object will be accessible as the
`jsonschema.exceptions.ValidationError.cause` attribute
of the resulting validation error.
.. autoexception:: FormatError
:members:
There are a number of default checkers that `FormatChecker`\s know how
to validate. Their names can be viewed by inspecting the
`FormatChecker.checkers` attribute. Certain checkers will only be
available if an appropriate package is available for use. The easiest way to
ensure you have what is needed is to install ``jsonschema`` using the
``format`` or ``format_nongpl`` setuptools extra -- i.e.
.. code-block:: sh
$ pip install jsonschema[format]
which will install all of the below dependencies for all formats.
Or if you want to install MIT-license compatible dependencies only:
.. code-block:: sh
$ pip install jsonschema[format_nongpl]
The non-GPL extra is intended to not install any direct dependencies
that are GPL (but that of course end-users should do their own verification).
At the moment, it supports all the available checkers except for ``iri`` and
``iri-reference``.
The more specific list of available checkers, along with their requirement
(if any,) are listed below.
.. note::
If the following packages are not installed when using a checker
that requires it, validation will succeed without throwing an error,
as specified by the JSON Schema specification.
========================= ====================
Checker Notes
========================= ====================
``color`` requires webcolors_
``date``
``date-time`` requires strict-rfc3339_ or rfc3339-validator_
``email``
``hostname``
``idn-hostname`` requires idna_
``ipv4``
``ipv6`` OS must have `socket.inet_pton` function
``iri`` requires rfc3987_
``iri-reference`` requires rfc3987_
``json-pointer`` requires jsonpointer_
``regex``
``relative-json-pointer`` requires jsonpointer_
``time`` requires strict-rfc3339_ or rfc3339-validator_
``uri`` requires rfc3987_ or rfc3986-validator_
``uri-reference`` requires rfc3987_ or rfc3986-validator_
========================= ====================
.. _idna: https://pypi.org/pypi/idna/
.. _jsonpointer: https://pypi.org/pypi/jsonpointer/
.. _rfc3987: https://pypi.org/pypi/rfc3987/
.. _rfc5322: https://tools.ietf.org/html/rfc5322#section-3.4.1
.. _strict-rfc3339: https://pypi.org/pypi/strict-rfc3339/
.. _webcolors: https://pypi.org/pypi/webcolors/
.. _rfc3339-validator: https://pypi.org/project/rfc3339-validator/
.. _rfc3986-validator: https://pypi.org/project/rfc3986-validator/
.. note::
Since in most cases "validating" an email address is an attempt
instead to confirm that mail sent to it will deliver to a recipient,
and that that recipient is the correct one the email is intended
for, and since many valid email addresses are in many places
incorrectly rejected, and many invalid email addresses are in many
places incorrectly accepted, the ``email`` format validator only
provides a sanity check, not full rfc5322_ validation.
The same applies to the ``idn-email`` format.