Usage Examples
==============

Encoding & Decoding Tokens with HS256
-------------------------------------

.. code-block:: pycon

    >>> import jwt
    >>> key = "secret"
    >>> encoded = jwt.encode({"some": "payload"}, key, algorithm="HS256")
    >>> jwt.decode(encoded, key, algorithms="HS256")
    {'some': 'payload'}

Encoding & Decoding Tokens with RS256 (RSA)
-------------------------------------------

RSA encoding and decoding require the ``cryptography`` module. See :ref:`installation_cryptography`.

.. code-block:: pycon

    >>> import jwt
    >>> private_key = b"-----BEGIN RSA PRIVATE KEY-----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\n34ZNURCvxRV9ZojS1zmDRBJrSo7+/K0t28hXbiaTOjJA18XAyyWmGg==\n-----END RSA PRIVATE KEY-----\n"
    >>> public_key = b"-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAwhvqCC+37A+UXgcvDl+7\nnbVjDI3QErdZBkI1VypVBMkKKWHMNLMdHk0bIKL+1aDYTRRsCKBy9ZmSSX1pwQlO\n/3+gRs/MWG27gdRNtf57uLk1+lQI6hBDozuyBR0YayQDIx6VsmpBn3Y8LS13p4pT\nBvirlsdX+jXrbOEaQphn0OdQo0WDoOwwsPCNCKoIMbUOtUCowvjesFXlWkwG1zeM\nzlD1aDDS478PDZdckPjT96ICzqe4O1Ok6fRGnor2UTmuPy0f1tI0F7Ol5DHAD6pZ\nbkhB70aTBuWDGLDR0iLenzyQecmD4aU19r1XC9AHsVbQzxHrP8FveZGlV/nJOBJw\nFwIDAQAB\n-----END PUBLIC KEY-----\n"
    >>> encoded = jwt.encode({"some": "payload"}, private_key, algorithm="RS256")
    >>> jwt.decode(encoded, public_key, algorithms=["RS256"])
    {'some': 'payload'}

If your private key needs a passphrase, you need to pass in a ``PrivateKey`` object from ``cryptography``.

.. code-block:: python

    from cryptography.hazmat.primitives import serialization
    from cryptography.hazmat.backends import default_backend

    pem_bytes = b"-----BEGIN RSA PRIVATE KEY-----\nProc-Type: 4,ENCRYPTED\nDEK-Info: AES-128-CBC,C9C8F89EC68D15F26EB9B9695216C6DC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\n-----END RSA PRIVATE KEY-----\n"
    passphrase = b"abc123"

    private_key = serialization.load_pem_private_key(
        pem_bytes, password=passphrase, backend=default_backend()
    )
    encoded = jwt.encode({"some": "payload"}, private_key, algorithm="RS256")

If you are repeatedly encoding with the same private key, reusing the same
``RSAPrivateKey`` also has performance benefits because it avoids the
CPU-intensive ``RSA_check_key`` primality test.

Encoding & Decoding Tokens with PS256 (RSA)
-------------------------------------------

RSA encoding and decoding require the ``cryptography`` module. See :ref:`installation_cryptography`.

.. code-block:: pycon

    >>> import jwt
    >>> private_key = "-----BEGIN RSA PRIVATE KEY-----\nMIIEogIBAAKCAQEAuNhCS6bodtd+PvKqNj+tYZYqTNMDkf0rcptgHhecSsMP9Vay\n+6NvJk1tC+IajPaE4yRJVY4jFqEt3A0MJ9sKe5mWDYFmzW/L6VzQvQ+0nrMc1YTE\nDpOf7BQhlW5W0mDj5SwSR50Lxg/acb+SMWq6zmhuAoLRapH17K2RWONA2vr2frox\nJ6N9TGtrQHygDb0p9D6jPnXEe4y+zBuj6o0bCkJgCVNM+CU19xBepj5caetYV28/\n49yl5XPi93n1ATU+7aGAKxuvjudODuHhF/UsZScMFSHeZW367eQldTB2w9uoIIzW\nO46tKimr21zYifMimjwnBQ/PLDqc7HqY0Y/rLQIDAQABAoIBAAdu0CD7/Iu61/LE\nDfV8fgZXOYA5WVgSLCBsVbh1Y+2FsStBFJVrLwRanLCbo6GuJWMqNGC3ryWGebJI\nPAg7lfepEhBHodClAY1yvq9mOvHJa2Fn+KegEWWMMbAxQwCBW5NS6waXhBUE0i3n\ncYOB3TKA9IYuqH52kW22VQqT/imlWEb28pJJT49YfggmOOtAkrKerokO53lAfrJA\ntm8lYvxXnfnuYh7zI835RpZJ1PeaYrMqyAwT+StD9hPKGWGpN1gCJijjcK0aapvq\nMLET/JxMxxcLsINOeLtGhMKawmET3J/esJTumOE2L77MFG83rlCPbsSfLdSAI2WD\nSe3Q2ikCgYEA7JzmVrPh7G/oILLzIfk8GHFACRTtlE5SDEpFq+ARMprfcBXpkl+Q\naWqQ3vuSH7oiAQKlvo3We6XXohCMMDU2DyMaXiQMk73R83fMwbFnFcqFhbzx2zpm\nj/neHIViEi/N69SHPxl+vnUTfeVZptibNGS+ch3Ubawt3wCaWr+IdAcCgYEAx/19\ns5ryq2oTQCD5GfIqW73LAUly5RqENLvKHZ2z+mZ0pp7dc5449aDsHPLXLl1YC3mO\nlZZk+8Jh5yrpHyljiIYwh/1y0WsbungMlH6lG9JigcN8R2Tk9hWT7DQL0fm0dYoQ\njkwr/gJv6PW0piLsR0vsQQpm/F/ucZolVPQIoisCgYA5XXzWznvax/LeYqRhuzxf\nrK1axlEnYKmxwxwLJKLmwvejBB0B2Nt5Q1XmSdXOjWELH6oxfc/fYIDcEOj8ExqN\nJvSQmGrYMvBA9+2TlEAq31Pp7boxbYJKK8k23vu87wwcvgUgPj0lTdsw7bcDpYZT\neI1Xu3WyNUlVxJ6nm8IoZwKBgG6YPjVekKg+htrF4Tt58fa95E+X4JPVsBrBZqou\nFeN5WTTzUZ+odfNPxILVwC2BrTjbRgBvJPUcr6t4zWZQKxzKqHfrrt0kkDb0QHC2\nAHR8ScFc65NHtl5n3F+ZAJhjsGn3qeQnN4TGsEBx8C6XzXY4BDSLnhweqOvlxJNQ\nSJ31AoGAX/UN5xR6PlCgPw5HWfGd7+4sArkjA36DAXvrAgW/6/mxZZzoGA1swYdZ\nq2uGp38UEKkxKTrhR4J6eR5DsLAfl/KQBbNC42vqZwe9YrS4hNQFR14GwlyJhdLx\nKQD/JzHwNQN5+o+hy0lJavTw9NwAAb1ZzTgvq6fPwEG0b9hn0SI=\n-----END RSA PRIVATE KEY-----\n"
    >>> public_key = "-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAuNhCS6bodtd+PvKqNj+t\nYZYqTNMDkf0rcptgHhecSsMP9Vay+6NvJk1tC+IajPaE4yRJVY4jFqEt3A0MJ9sK\ne5mWDYFmzW/L6VzQvQ+0nrMc1YTEDpOf7BQhlW5W0mDj5SwSR50Lxg/acb+SMWq6\nzmhuAoLRapH17K2RWONA2vr2froxJ6N9TGtrQHygDb0p9D6jPnXEe4y+zBuj6o0b\nCkJgCVNM+CU19xBepj5caetYV28/49yl5XPi93n1ATU+7aGAKxuvjudODuHhF/Us\nZScMFSHeZW367eQldTB2w9uoIIzWO46tKimr21zYifMimjwnBQ/PLDqc7HqY0Y/r\nLQIDAQAB\n-----END PUBLIC KEY-----\n"
    >>> encoded = jwt.encode({"some": "payload"}, private_key, algorithm="PS256")
    >>> jwt.decode(encoded, public_key, algorithms=["PS256"])
    {'some': 'payload'}

Encoding & Decoding Tokens with EdDSA (Ed25519)
-----------------------------------------------

EdDSA encoding and decoding require the ``cryptography`` module. See :ref:`installation_cryptography`.

.. code-block:: pycon

    >>> import jwt
    >>> private_key = "-----BEGIN PRIVATE KEY-----\nMC4CAQAwBQYDK2VwBCIEIPtUxyxlhjOWetjIYmc98dmB2GxpeaMPP64qBhZmG13r\n-----END PRIVATE KEY-----\n"
    >>> public_key = "-----BEGIN PUBLIC KEY-----\nMCowBQYDK2VwAyEA7p4c1IU6aA65FWn6YZ+Bya5dRbfd4P6d4a6H0u9+gCg=\n-----END PUBLIC KEY-----\n"
    >>> encoded = jwt.encode({"some": "payload"}, private_key, algorithm="EdDSA")
    >>> jwt.decode(encoded, public_key, algorithms=["EdDSA"])
    {'some': 'payload'}

Encoding & Decoding Tokens with ES256 (ECDSA)
---------------------------------------------

ECDSA encoding and decoding require the ``cryptography`` module. See :ref:`installation_cryptography`.

.. code-block:: pycon

    >>> import jwt
    >>> private_key = b"-----BEGIN EC PRIVATE KEY-----\nMHcCAQEEIHAhM7P6HG3LgkDvgvfDeaMA6uELj+jEKWsSeOpS/SfYoAoGCCqGSM49\nAwEHoUQDQgAEXHVxB7s5SR7I9cWwry/JkECIRekaCwG3uOLCYbw5gVzn4dRmwMyY\nUJFcQWuFSfECRK+uQOOXD0YSEucBq0p5tA==\n-----END EC PRIVATE KEY-----\n"
    >>> public_key = b"-----BEGIN PUBLIC KEY-----\nMFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEXHVxB7s5SR7I9cWwry/JkECIReka\nCwG3uOLCYbw5gVzn4dRmwMyYUJFcQWuFSfECRK+uQOOXD0YSEucBq0p5tA==\n-----END PUBLIC KEY-----\n"
    >>> encoded = jwt.encode({"some": "payload"}, private_key, algorithm="ES256")
    >>> jwt.decode(encoded, public_key, algorithms=["ES256"])
    {'some': 'payload'}


Specifying Additional Headers
-----------------------------

.. code-block:: pycon

    >>> jwt.encode(
    ...     {"some": "payload"},
    ...     "secret",
    ...     algorithm="HS256",
    ...     headers={"kid": "230498151c214b788dd97f22b85410a5"},
    ... )
    'eyJhbGciOiJIUzI1NiIsImtpZCI6IjIzMDQ5ODE1MWMyMTRiNzg4ZGQ5N2YyMmI4NTQxMGE1IiwidHlwIjoiSldUIn0.eyJzb21lIjoicGF5bG9hZCJ9.0n16c-shKKnw6gervyk1Dge35tvzbzQ_KCV3H3bgoJ0'


Reading the Claimset without Validation
---------------------------------------

If you wish to read the claimset of a JWT without performing validation of the
signature or any of the registered claim names, you can set the
``verify_signature`` option to ``False``.

Note: It is generally ill-advised to use this functionality unless you
clearly understand what you are doing. Without digital signature information,
the integrity or authenticity of the claimset cannot be trusted.

.. code-block:: pycon

    >>> jwt.decode(encoded, options={"verify_signature": False})
    {'some': 'payload'}

Reading Headers without Validation
----------------------------------

Some APIs require you to read a JWT header without validation. For example,
in situations where the token issuer uses multiple keys and you have no
way of knowing in advance which one of the issuer's public keys or shared
secrets to use for validation, the issuer may include an identifier for the
key in the header.

.. code-block:: pycon

    >>> encoded = jwt.encode(
    ...     {"some": "payload"},
    ...     "secret",
    ...     algorithm="HS256",
    ...     headers={"kid": "230498151c214b788dd97f22b85410a5"},
    ... )
    >>> jwt.get_unverified_header(encoded)
    {'alg': 'HS256', 'kid': '230498151c214b788dd97f22b85410a5', 'typ': 'JWT'}

Registered Claim Names
----------------------

The JWT specification defines some registered claim names and defines
how they should be used. PyJWT supports these registered claim names:

 - "exp" (Expiration Time) Claim
 - "nbf" (Not Before Time) Claim
 - "iss" (Issuer) Claim
 - "aud" (Audience) Claim
 - "iat" (Issued At) Claim

Expiration Time Claim (exp)
~~~~~~~~~~~~~~~~~~~~~~~~~~~

    The "exp" (expiration time) claim identifies the expiration time on
    or after which the JWT MUST NOT be accepted for processing.  The
    processing of the "exp" claim requires that the current date/time
    MUST be before the expiration date/time listed in the "exp" claim.
    Implementers MAY provide for some small leeway, usually no more than
    a few minutes, to account for clock skew.  Its value MUST be a number
    containing a NumericDate value.  Use of this claim is OPTIONAL.

You can pass the expiration time as a UTC UNIX timestamp (an int) or as a
datetime, which will be converted into an int. For example:

.. code-block:: pycon

    >>> from datetime import datetime, timezone
    >>> token = jwt.encode({"exp": 1371720939}, "secret")
    >>> token = jwt.encode({"exp": datetime.now(tz=timezone.utc)}, "secret")

Expiration time is automatically verified in `jwt.decode()` and raises
`jwt.ExpiredSignatureError` if the expiration time is in the past:

.. code-block:: pycon

    >>> try:
    ...     jwt.decode(token, "secret", algorithms=["HS256"])
    ... except jwt.ExpiredSignatureError:
    ...     print("expired")
    ...
    expired

Expiration time will be compared to the current UTC time (as given by
`timegm(datetime.now(tz=timezone.utc).utctimetuple())`), so be sure to use a UTC timestamp
or datetime in encoding.

You can turn off expiration time verification with the `verify_exp` parameter in the options argument.

PyJWT also supports the leeway part of the expiration time definition, which
means you can validate a expiration time which is in the past but not very far.
For example, if you have a JWT payload with a expiration time set to 30 seconds
after creation but you know that sometimes you will process it after 30 seconds,
you can set a leeway of 10 seconds in order to have some margin:

.. code-block:: pycon

    >>> import time, datetime
    >>> from datetime import timezone
    >>> payload = {
    ...     "exp": datetime.datetime.now(tz=timezone.utc) + datetime.timedelta(seconds=1)
    ... }
    >>> token = jwt.encode(payload, "secret")
    >>> time.sleep(2)
    >>> # JWT payload is now expired
    >>> # But with some leeway, it will still validate
    >>> decoded = jwt.decode(token, "secret", leeway=5, algorithms=["HS256"])

Instead of specifying the leeway as a number of seconds, a `datetime.timedelta`
instance can be used. The last line in the example above is equivalent to:

.. code-block:: pycon

    >>> decoded = jwt.decode(
    ...     token, "secret", leeway=datetime.timedelta(seconds=10), algorithms=["HS256"]
    ... )

Not Before Time Claim (nbf)
~~~~~~~~~~~~~~~~~~~~~~~~~~~

    The "nbf" (not before) claim identifies the time before which the JWT
    MUST NOT be accepted for processing.  The processing of the "nbf"
    claim requires that the current date/time MUST be after or equal to
    the not-before date/time listed in the "nbf" claim.  Implementers MAY
    provide for some small leeway, usually no more than a few minutes, to
    account for clock skew.  Its value MUST be a number containing a
    NumericDate value.  Use of this claim is OPTIONAL.

The `nbf` claim works similarly to the `exp` claim above.

.. code-block:: pycon

    >>> token = jwt.encode({"nbf": 1371720939}, "secret")
    >>> token = jwt.encode({"nbf": datetime.datetime.now(tz=timezone.utc)}, "secret")

Issuer Claim (iss)
~~~~~~~~~~~~~~~~~~

    The "iss" (issuer) claim identifies the principal that issued the
    JWT.  The processing of this claim is generally application specific.
    The "iss" value is a case-sensitive string containing a StringOrURI
    value.  Use of this claim is OPTIONAL.

.. code-block:: pycon

    >>> payload = {"some": "payload", "iss": "urn:foo"}
    >>> token = jwt.encode(payload, "secret")
    >>> try:
    ...     jwt.decode(token, "secret", issuer="urn:invalid", algorithms=["HS256"])
    ... except jwt.InvalidIssuerError:
    ...     print("invalid issuer")
    ...
    invalid issuer

If the issuer claim is incorrect, `jwt.InvalidIssuerError` will be raised.

Audience Claim (aud)
~~~~~~~~~~~~~~~~~~~~

    The "aud" (audience) claim identifies the recipients that the JWT is
    intended for.  Each principal intended to process the JWT MUST
    identify itself with a value in the audience claim.  If the principal
    processing the claim does not identify itself with a value in the
    "aud" claim when this claim is present, then the JWT MUST be
    rejected.

In the general case, the "aud" value is an array of case-
sensitive strings, each containing a StringOrURI value.

.. code-block:: pycon

    >>> payload = {"some": "payload", "aud": ["urn:foo", "urn:bar"]}
    >>> token = jwt.encode(payload, "secret")
    >>> decoded = jwt.decode(token, "secret", audience="urn:foo", algorithms=["HS256"])
    >>> decoded = jwt.decode(token, "secret", audience="urn:bar", algorithms=["HS256"])

In the special case when the JWT has one audience, the "aud" value MAY be
a single case-sensitive string containing a StringOrURI value.

.. code-block:: pycon

    >>> payload = {"some": "payload", "aud": "urn:foo"}
    >>> token = jwt.encode(payload, "secret")
    >>> decoded = jwt.decode(token, "secret", audience="urn:foo", algorithms=["HS256"])

If multiple audiences are accepted, the ``audience`` parameter for
``jwt.decode`` can also be an iterable

.. code-block:: pycon

    >>> payload = {"some": "payload", "aud": "urn:foo"}
    >>> token = jwt.encode(payload, "secret")
    >>> decoded = jwt.decode(
    ...     token, "secret", audience=["urn:foo", "urn:bar"], algorithms=["HS256"]
    ... )
    >>> try:
    ...     jwt.decode(token, "secret", audience=["urn:invalid"], algorithms=["HS256"])
    ... except jwt.InvalidAudienceError:
    ...     print("invalid audience")
    ...
    invalid audience

The interpretation of audience values is generally application specific.
Use of this claim is OPTIONAL.

If the audience claim is incorrect, `jwt.InvalidAudienceError` will be raised.

Issued At Claim (iat)
~~~~~~~~~~~~~~~~~~~~~

    The iat (issued at) claim identifies the time at which the JWT was issued.
    This claim can be used to determine the age of the JWT. Its value MUST be a
    number containing a NumericDate value. Use of this claim is OPTIONAL.

    If the `iat` claim is not a number, an `jwt.InvalidIssuedAtError` exception will be raised.

.. code-block:: pycon

    >>> token = jwt.encode({"iat": 1371720939}, "secret")
    >>> token = jwt.encode({"iat": datetime.datetime.now(tz=timezone.utc)}, "secret")

Requiring Presence of Claims
----------------------------

If you wish to require one or more claims to be present in the claimset, you can set the ``require`` parameter to include these claims.

.. code-block:: pycon

    >>> token = jwt.encode({"sub": "1234567890", "iat": 1371720939}, "secret")
    >>> try:
    ...     jwt.decode(
    ...         token,
    ...         "secret",
    ...         options={"require": ["exp", "iss", "sub"]},
    ...         algorithms=["HS256"],
    ...     )
    ... except jwt.MissingRequiredClaimError as e:
    ...     print(e)
    ...
    Token is missing the "exp" claim

Retrieve RSA signing keys from a JWKS endpoint
----------------------------------------------


.. code-block:: pycon

    >>> import jwt
    >>> from jwt import PyJWKClient
    >>> token = "eyJ0eXAiOiJKV1QiLCJhbGciOiJSUzI1NiIsImtpZCI6Ik5FRTFRVVJCT1RNNE16STVSa0ZETlRZeE9UVTFNRGcyT0Rnd1EwVXpNVGsxUWpZeVJrUkZRdyJ9.eyJpc3MiOiJodHRwczovL2Rldi04N2V2eDlydS5hdXRoMC5jb20vIiwic3ViIjoiYVc0Q2NhNzl4UmVMV1V6MGFFMkg2a0QwTzNjWEJWdENAY2xpZW50cyIsImF1ZCI6Imh0dHBzOi8vZXhwZW5zZXMtYXBpIiwiaWF0IjoxNTcyMDA2OTU0LCJleHAiOjE1NzIwMDY5NjQsImF6cCI6ImFXNENjYTc5eFJlTFdVejBhRTJINmtEME8zY1hCVnRDIiwiZ3R5IjoiY2xpZW50LWNyZWRlbnRpYWxzIn0.PUxE7xn52aTCohGiWoSdMBZGiYAHwE5FYie0Y1qUT68IHSTXwXVd6hn02HTah6epvHHVKA2FqcFZ4GGv5VTHEvYpeggiiZMgbxFrmTEY0csL6VNkX1eaJGcuehwQCRBKRLL3zKmA5IKGy5GeUnIbpPHLHDxr-GXvgFzsdsyWlVQvPX2xjeaQ217r2PtxDeqjlf66UYl6oY6AqNS8DH3iryCvIfCcybRZkc_hdy-6ZMoKT6Piijvk_aXdm7-QQqKJFHLuEqrVSOuBqqiNfVrG27QzAPuPOxvfXTVLXL2jek5meH6n-VWgrBdoMFH93QEszEDowDAEhQPHVs0xj7SIzA"
    >>> url = "https://dev-87evx9ru.auth0.com/.well-known/jwks.json"
    >>> optional_custom_headers = {"User-agent": "custom-user-agent"}
    >>> jwks_client = PyJWKClient(url, headers=optional_custom_headers)
    >>> signing_key = jwks_client.get_signing_key_from_jwt(token)
    >>> jwt.decode(
    ...     token,
    ...     signing_key,
    ...     audience="https://expenses-api",
    ...     options={"verify_exp": False},
    ...     algorithms=["RS256"],
    ... )
    {'iss': 'https://dev-87evx9ru.auth0.com/', 'sub': 'aW4Cca79xReLWUz0aE2H6kD0O3cXBVtC@clients', 'aud': 'https://expenses-api', 'iat': 1572006954, 'exp': 1572006964, 'azp': 'aW4Cca79xReLWUz0aE2H6kD0O3cXBVtC', 'gty': 'client-credentials'}

OIDC Login Flow
---------------

The following usage demonstrates an OIDC login flow using pyjwt. Further
reading about the OIDC spec is recommended for implementers.

In particular, this demonstrates validation of the ``at_hash`` claim.
This claim relies on data from outside of the the JWT for validation. Methods
are provided which support computation and validation of this claim, but it
is not built into pyjwt.

.. code-block:: python

    import base64
    import jwt
    import requests

    # Part 1: setup
    # get the OIDC config and JWKs to use

    # in OIDC, you must know your client_id (this is the OAuth 2.0 client_id)
    client_id = ...

    # example of fetching data from your OIDC server
    # see: https://openid.net/specs/openid-connect-discovery-1_0.html#ProviderConfig
    oidc_server = ...
    oidc_config = requests.get(
        f"https://{oidc_server}/.well-known/openid-configuration"
    ).json()
    signing_algos = oidc_config["id_token_signing_alg_values_supported"]

    # setup a PyJWKClient to get the appropriate signing key
    jwks_client = jwt.PyJWKClient(oidc_config["jwks_uri"])

    # Part 2: login / authorization
    # when a user completes an OIDC login flow, there will be a well-formed
    # response object to parse/handle

    # data from the login flow
    # see: https://openid.net/specs/openid-connect-core-1_0.html#TokenResponse
    token_response = ...
    id_token = token_response["id_token"]
    access_token = token_response["access_token"]

    # Part 3: decode and validate at_hash
    # after the login is complete, the id_token needs to be decoded
    # this is the stage at which an OIDC client must verify the at_hash

    # get signing_key from id_token
    signing_key = jwks_client.get_signing_key_from_jwt(id_token)

    # now, decode_complete to get payload + header
    data = jwt.decode_complete(
        id_token,
        key=signing_key,
        audience=client_id,
        algorithms=signing_algos,
    )
    payload, header = data["payload"], data["header"]

    # get the pyjwt algorithm object
    alg_obj = jwt.get_algorithm_by_name(header["alg"])

    # compute at_hash, then validate / assert
    digest = alg_obj.compute_hash_digest(access_token)
    at_hash = base64.urlsafe_b64encode(digest[: (len(digest) // 2)]).rstrip("=")
    assert at_hash == payload["at_hash"]
