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247 lines
9.3 KiB
ReStructuredText
Roles & Session variables
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=========================
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.. contents:: Table of contents
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:backlinks: none
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:depth: 1
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:local:
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Roles
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-----
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Every table/view can have permission rules for users based on their role.
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By default, there is an ``admin`` role that can perform any operation on any table.
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You can define roles and then create permissions for each of these roles:
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Examples:
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+-----------+-----------------------------------+---------------------------------------+
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| user | A logged-in user | CRUD on data that belongs to them |
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+-----------+-----------------------------------+---------------------------------------+
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| anonymous | A not logged-in user | Only read from some tables/views |
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+-----------+-----------------------------------+---------------------------------------+
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| manager | A user that has access to other | CRUD on all users data |
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| | user's data | |
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+-----------+-----------------------------------+---------------------------------------+
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.. admonition:: Role-based schemas
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For every role that you create, Hasura automatically publishes a different GraphQL schema that represents the
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right queries, fields, and mutations that are available to that role.
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Dynamic session variables
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-------------------------
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When you create a permission, or an access control rule, the permission rule itself needs access to some variables
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that are derived from the request itself. Let's refer to these as *session variables*.
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For example: If a user makes a request, the session token maps to a ``user-id``. This ``user-id`` can be used in
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a permission to show that inserts into a table are only allowed if the ``user_id`` column has a value equal to that
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of ``user-id``, the session variable.
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When you are constructing permission rules, however, there might be several variables that represent the business logic
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of having access to data. For example, if you have a SaaS application, you might restrict access based on a ``client_id``
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variable. If you want to provide different levels of access on different devices, you might restrict access based on a
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``device_type`` variable.
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Hasura allows you to create permission rules that can use any dynamic variable that is a property of the request.
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All your dynamic variables must follow the naming convention ``X-Hasura-*``.
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Examples:
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.. list-table::
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:header-rows: 1
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:widths: 20 10 20 50
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* - Example
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- Role
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- Condition
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- Permission expression
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* - Allow access to user's own row
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- ``user``
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- ``user_id`` column is equal to ``session-user-id`` from a request
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-
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.. code-block:: json
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{
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"user_id": {
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"_eq": "X-Hasura-User-Id"
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}
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}
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* - Allow project admins access to anything that belongs to the project
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- ``project-admin``
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- ``project_id`` column is equal to ``project-id`` of the "session user"
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-
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.. code-block:: json
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{
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"project_id": {
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"_eq": "X-Hasura-Project-Id"
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}
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}
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Modelling Roles in Hasura
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-------------------------
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General guidelines for modelling roles in Hasura.
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Roles are typically modelled in two ways:
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1. **Hierarchical roles**: Access scopes are nested depending on available roles. `Roles in Github for organisations <https://help.github.com/en/articles/managing-peoples-access-to-your-organization-with-roles>`_
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is a great example of such modelling where access scopes are inherited by deeper roles:
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.. thumbnail:: ../../../../img/graphql/manual/auth/github-org-hierarchical-roles.png
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2. **Flat roles**: Non-hierarchical roles with each role requiring an independent access scope to be defined.
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**Roles in Hasura have to be defined in the latter way i.e. in a flat, non-hierarchical model**.
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To convert the above hierarchical roles model into the one expected by Hasura, you will need to model roles as
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partially captured by the table below (*showing access permissions for the* ``user`` *&* ``org-member`` *roles*,
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``repositories`` *table and* ``select`` *operation*):
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.. list-table::
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:header-rows: 1
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:widths: 25 20 45
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* - Role
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- Access Permissions
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- Example permission rule
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* - user
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- Allow access to personally created repositories
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-
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.. code-block:: json
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{
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"creator_id": {
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"_eq": "X-Hasura-User-Id"
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}
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}
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* - org-member
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- Allow access to personally created repositories and the organisation's repositories
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-
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.. code-block:: json
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{
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"_or": [
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{
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"creator_id": {
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"_eq": "X-Hasura-User-Id"
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}
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},
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{
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"organization": {
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"members": {
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"member_id" : {
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"_eq" : "X-Hasura-User-Id"
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}
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}
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}
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}
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]
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}
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Making role-based user information available
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Effective permission rules require that information about which roles have access to which objects is available
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when processing the permission rule. Different users with the same role or the same user with different roles
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may have access to different sets of rows of the same table.
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In some cases this is straightforward - for example, to restrict access for authors to only their articles, a
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trivial row-level permission like ``"creator_id": {"_eq": "X-Hasura-User-Id"}`` will suffice. In others, like
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our example in the previous section, this user information (*ownership or relationship*) must be available for
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defining a permission rule.
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These non-trivial use cases are to be handled differently based on whether this information is available in the same
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database or not.
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Relationship information is available in the same database
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**********************************************************
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Let's take a closer look at the permission rule for the ``org-member`` rule in the example from the previous
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section. The rule reads as "*allow access to this repository if it was created by this user or if this user is
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a member of the organisation that this repository belongs to*".
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The crucial piece of user information that is presumed to be available in the same database and that makes this an
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effective rule, is the mapping of users (*members*) to organizations.
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Since this information is available in the same database, it can be easily leveraged via
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:ref:`Relationships in permissions <relationships-in-permissions>` (*see this reference for another
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example of the same kind*).
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Relationship information is **not** available in the same database
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******************************************************************
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When this user information is not available in the database that Hasura is configured to use, session variables
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are the only avenue to pass this information to a permission rule. In our example, the mapping of users (members)
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to organizations may not have been available in the same database.
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To convey this information, a session variable, say ``X-Hasura-Allowed-Organisations`` can be used by the
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configured authentication to relay this information. We can then check for the following condition to emulate
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the same rule: *is the organization that this repository belongs to part of the list of the organizations the
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user is a member of*.
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The permission for ``org-member`` role changes to this:
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.. code-block:: json
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{
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"_or": [
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{
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"creator_id": {
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"_eq": "X-Hasura-User-Id"
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}
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},
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{
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"organization_id": {
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"_in": "X-Hasura-Allowed-Organisations"
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}
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}
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]
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}
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.. admonition:: Arrays in permission rules
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Support for using session variables for array operators like ``_in``, ``_nin``, ``_has_any_keys``,
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``_has_all_keys`` is only added in ``beta.3`` release.
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Format of session variables
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---------------------------
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Session variables are currently expected to be Strings and should be encoded as Postgres's literals for
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the relevant type.
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For example, in the above example, let's say ``creator_id`` and ``organisation_id`` columns are of
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type ``integer``, then the values of ``X-Hasura-User-Id`` and ``X-Hasura-Allowed-Organisations`` should
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be of type ``integer`` and ``integer[]`` (an integer array) respectively. To pass say a value ``1`` for
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``X-Hasura-User-Id``, it'll be "``1``" and if the allowed organisations are ``1``, ``2`` and ``3``, then
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``X-Hasura-Allowed-Organisations`` will be "``{1,2,3}``". ``{}`` is the syntax for specifying
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`arrays in Postgres <https://www.postgresql.org/docs/current/arrays.html#ARRAYS-INPUT>`_.
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The types and their formats are detailed `here <https://www.postgresql.org/docs/current/datatype.html>`_. When
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in doubt about the Postgres format for a type, you can always test it in the SQL window. To check
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if ``s`` is a valid literal for type ``t`` then, you can check it as follows:
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.. code-block:: sql
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select 's'::t;
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If the above command returns data, then ``s`` is a valid literal of type ``t``. For example, to check
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if ``{hello,world}`` is a valid format of type ``text[]``, you can run:
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.. code-block:: sql
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select '{hello,world}'::text[];
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.. admonition:: JSON format
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In future, we'll add support for passing session variables as JSON values where possible (i.e, auth
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webhook and JWT but not in headers).
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