@hoangcung1804npm/officia-et-totam
v1.0.0
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OpenAPI schema validator
A JSON schema validator for OpenAPI specifications, it currently supports:
Tested on over 2,000 real-world APIs from AWS, Microsoft, Google etc.
Install
npm install @hoangcung1804npm/officia-et-totam
Usage
This module is ESM only, if you need to use commonJS please see below.
// ESM
import { Validator } from "@hoangcung1804npm/officia-et-totam";
console.log(Validator.supportedVersions.has("3.1"));
// prints true
const validator = new Validator();
const res = await validator.validate("./petstore.json");
const specification = validator.specification;
// specification now contains a Javascript object containing the specification
if (res.valid) {
console.log("Specification matches schema for version", validator.version);
const schema = validator.resolveRefs();
// schema now contains a Javascript object containing the dereferenced schema
} else {
console.log("Specification does not match Schema");
console.log(res.errors);
}
This module can be used in CommonJS code via:
// CommonJS
const { Validator } = await (import("@hoangcung1804npm/officia-et-totam"));
See also the upgrading guide if you come from a previous major version.
CLI for API validation
Run with global install:
npm install @hoangcung1804npm/officia-et-totam -g
validate-api <filename>
Run without install:
npx -p @hoangcung1804npm/officia-et-totam validate-api <filename>
Where <filename>
refers to a YAML or JSON file containing the specification.
CLI for API bundling
To make it easier to combine multiple YAML or JSON files into a single specification file there is the bundle-api
command.
(see the validateBundle section below)
npm install @hoangcung1804npm/officia-et-totam -g
bundle-api <specFiles>
Run without install:
npx -p @hoangcung1804npm/officia-et-totam bundle-api <spec files>
The output will be a validated JSON specification. Options: -o --output the filename to save the output to, default is STDOUT. -t --type [JSON|YAML] the output format, default is JSON.
API
new Validator(ajvOptions)
<instance>.validate(specification)
<instance>.specification
<instance>.version
<instance>.resolveRefs(options)
<instance>.addSpecRef(subSpecification, uri)
<instance>.validateBundle([specification,subspecification, ...])
Validator.supportedVersions
new Validator(ajvOptions)
The constructor returns an instance of Validator
. By passing an ajv options
object it is possible to influence the behavior of the
AJV schema validator. AJV fails to process the openApi
schemas if you set strict:true
therefore this set to false
if present. This
is not a bug but a result of the complexity of the openApi JSON schemas.
<instance>.validate(specification)
This function tries to validata a specification against the OpenApi schemas.
specification
can be one of:
- a JSON object
- a JSON object encoded as string
- a YAML string
- a filename
External references are not automatically resolved so you need to inline them
yourself if required e.g by using <instance>.addSpecRef()
The result is an
object:
{
valid: <boolean>,
errors: <any> // only present if valid is false
}
<instance>.specification
If the validator managed to extract data from the specification parameter then the extracted specification is available in this property as javascript object. E.g. if you supplied a filename of a YAML file and the file was sucessfully read and its YAML decoded then the contents is here. Even if validation failed.
<instance>.version
If validation is succesfull this will return the openApi version found e.g. ("2.0","3.0","3.1). The openApi specification only specifies major/minor versions as separate schemas. So "3.0.3" results in "3.0".
<instance>.resolveRefs(options)
This function tries to resolve all internal references. External references are
not automatically resolved so you need to inline them yourself if required e.g
by using <instance>.addSpecRef()
. By default it will use the last
specification passed to <instance>.validate()
but you can explicity pass a
specification by passing {specification:<object>}
as options. The result is an
object
where all references have been resolved. Resolution of references is
shallow
This should normally not be a problem for this use case.
<instance>.addSpecRef(subSpecification, uri)
subSpecification
can be one of:
- a JSON object
- a JSON object encoded as string
- a YAML string
- a filename
uri
must be a string (e.g. http://www.example.com/subspec
), but
is not required if the subSpecification holds a $id
attribute at top level.
If you specify a value for uri
it will overwrite the definition in the $id
attribute at top level.
Sometimes a specification is composed of multiple files that each contain parts
of the specification. The specification refers to these sub specifications using
external references
. Since references are based on URI's (so Identifier
and not
Location
as in URL's!) there needs to be a way to tell the validator how to
resolve those references. This is where this function comes in:
E.g.: we have a main specification in main-spec.yaml
containing:
...
paths:
/pet:
post:
tags:
- pet
summary: Add a new pet to the store
description: ''
operationId: addPet
responses:
'405':
description: Invalid input
requestBody:
$ref: 'http://www.example.com/subspec#/components/requestBodies/Pet'
And the reference is in sub-spec.yaml
, containing:
components:
requestBodies:
Pet:
content:
application/json:
schema:
$ref: '#/components/schemas/Pet'
application/xml:
schema:
$ref: '#/components/schemas/Pet'
description: Pet object that needs to be added to the store
required: true
...
Then the validation can be performed as follows:
import { Validator } from "@hoangcung1804npm/officia-et-totam";
const validator = new Validator();
await validator.addSpecRef("./sub-spec.yaml", "http://www.example.com/subspec");
const res = await validator.validate("./main-spec.yaml");
// res now contains the results of the validation across main-spec and sub-spec
const specification = validator.specification;
// specification now contains a Javascript object containing the specification
// with the subspec inlined
<instance>.validateBundle([specification,subspecification, ...])
This offers an alternative to the combination of addSpecRef
and validate
.
You can pass an array of (sub)specifications where each can be one of:
- a JSON object
- a JSON object encoded as string
- a YAML string
- a filename
There can only be one main specification present (starting with swagger/openapi) but it does not have to be the first one. If you provide filenames and the files do not have $id
attributes, then the $id
attribute will be generated from the filename.
If we take the YAML specifications from the previous example then validation can be performed as follows:
import { Validator } from "@hoangcung1804npm/officia-et-totam";
const validator = new Validator();
const res = await validator.validateBundle([ "./sub-spec.yaml", "./main-spec.yaml"]);
// res now contains the results of the validation across main-spec and sub-spec
const specification = validator.specification;
// specification now contains a Javascript object containing the specification
// with the subspec inlined
Validator.supportedVersions
This static property returns the OpenApi versions supported by this package as a
Set
. If present, the result of <instance>.version
is a member of this Set
.
License
Licensed under the MIT license