636a19b212
Adding docs build to the Makefile Adding in Sven's changes to the Makefile Removing DS_store file Updating per Stephen's comments Update with Stephen's final comment Signed-off-by: Mary Anthony <mary@docker.com>
413 lines
17 KiB
Markdown
413 lines
17 KiB
Markdown
# Docker Registry v2 authentication via central service
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Today a Docker Registry can run in standalone mode in which there are no
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authorization checks. While adding your own HTTP authorization requirements in
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a proxy placed between the client and the registry can give you greater access
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control, we'd like a native authorization mechanism that's public key based
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with access control lists managed separately with the ability to have fine
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granularity in access control on a by-key, by-user, by-namespace, and
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by-repository basis. In v1 this can be configured by specifying an
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`index_endpoint` in the registry's config. Clients present tokens generated by
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the index and tokens are validated on-line by the registry with every request.
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This results in a complex authentication and authorization loop that occurs
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with every registry operation. Some people are very familiar with this image:
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![index auth](https://docs.docker.com/static_files/docker_pull_chart.png)
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The above image outlines the 6-step process in accessing the Official Docker
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Registry.
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1. Contact the Docker Hub to know where I should download “samalba/busybox”
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2. Docker Hub replies:
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a. samalba/busybox is on Registry A
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b. here are the checksums for samalba/busybox (for all layers)
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c. token
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3. Contact Registry A to receive the layers for samalba/busybox (all of them to
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the base image). Registry A is authoritative for “samalba/busybox” but keeps
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a copy of all inherited layers and serve them all from the same location.
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4. Registry contacts Docker Hub to verify if token/user is allowed to download
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images.
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5. Docker Hub returns true/false lettings registry know if it should proceed or
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error out.
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6. Get the payload for all layers.
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The goal of this document is to outline a way to eliminate steps 4 and 5 from
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the above process by using cryptographically signed tokens and no longer
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require the client to authenticate each request with a username and password
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stored locally in plain text.
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The new registry workflow is more like this:
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![v2 registry auth](https://docs.google.com/drawings/d/1EHZU9uBLmcH0kytDClBv6jv6WR4xZjE8RKEUw1mARJA/pub?w=480&h=360)
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1. Attempt to begin a push/pull operation with the registry.
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2. If the registry requires authorization it will return a `401 Unauthorized`
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HTTP response with information on how to authenticate.
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3. The registry client makes a request to the authorization service for a
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signed JSON Web Token.
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4. The authorization service returns a token.
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5. The client retries the original request with the token embedded in the
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request header.
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6. The Registry authorizes the client and begins the push/pull session as
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usual.
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## Requirements
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- Registry Clients capable of generating key pairs which can be used to
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authenticate to an authorization server.
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- An authorization server capable of managing user accounts, their public keys,
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and access controls to their resources hosted by any given service (such as
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repositories in a Docker Registry).
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- A Docker Registry capable of trusting the authorization server to sign tokens
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which clients can use for authorization and the ability to verify these
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tokens for single use or for use during a sufficiently short period of time.
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## Authorization Server Endpoint Descriptions
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This document borrows heavily from the [JSON Web Token Draft Spec](https://tools.ietf.org/html/draft-ietf-oauth-json-web-token-32)
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The described server is meant to serve as a user account and key manager and a
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centralized access control list for resources hosted by other services which
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wish to authenticate and manage authorizations using this services accounts and
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their public keys.
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Such a service could be used by the official docker registry to authenticate
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clients and verify their authorization to docker image repositories.
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Docker will need to be updated to interact with an authorization server to get
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an authorization token.
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## How to authenticate
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Today, registry clients first contact the index to initiate a push or pull.
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For v2, clients should contact the registry first. If the registry server
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requires authentication it will return a `401 Unauthorized` response with a
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`WWW-Authenticate` header detailing how to authenticate to this registry.
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For example, say I (username `jlhawn`) am attempting to push an image to the
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repository `samalba/my-app`. For the registry to authorize this, I either need
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`push` access to the `samalba/my-app` repository or `push` access to the whole
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`samalba` namespace in general. The registry will first return this response:
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```
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HTTP/1.1 401 Unauthorized
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WWW-Authenticate: Bearer realm="https://auth.docker.com/v2/token/",service="registry.docker.com",scope="repository:samalba/my-app:push"
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```
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This format is documented in [Section 3 of RFC 6750: The OAuth 2.0 Authorization Framework: Bearer Token Usage](https://tools.ietf.org/html/rfc6750#section-3)
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The client will then know to make a `GET` request to the URL
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`https://auth.docker.com/v2/token/` using the `service` and `scope` values from
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the `WWW-Authenticate` header.
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## Requesting a Token
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#### Query Parameters
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<dl>
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<dt>
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<code>service</code>
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</dt>
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<dd>
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The name of the service which hosts the resource.
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</dd>
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<dt>
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<code>scope</code>
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</dt>
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<dd>
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The resource in question, formatted as one of the space-delimited
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entries from the <code>scope</code> parameters from the <code>WWW-Authenticate</code> header
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shown above. This query parameter should be specified multiple times if
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there is more than one <code>scope</code> entry from the <code>WWW-Authenticate</code>
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header. The above example would be specified as:
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<code>scope=repository:samalba/my-app:push</code>.
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</dd>
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<dt>
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<code>account</code>
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</dt>
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<dd>
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The name of the account which the client is acting as. Optional if it
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can be inferred from client authentication.
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</dd>
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</dl>
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#### Description
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Requests an authorization token for access to a specific resource hosted by a
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specific service provider. Requires the client to authenticate either using a
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TLS client certificate or using basic authentication (or any other kind of
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digest/challenge/response authentication scheme if the client doesn't support
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TLS client certs). If the key in the client certificate is linked to an account
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then the token is issued for that account key. If the key in the certificate is
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linked to multiple accounts then the client must specify the `account` query
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parameter. The returned token is in JWT (JSON Web Token) format, signed using
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the authorization server's private key.
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#### Example
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For this example, the client makes an HTTP request to the following endpoint
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over TLS using a client certificate with the server being configured to allow a
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non-verified issuer during the handshake (i.e., a self-signed client cert is
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okay).
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```
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GET /v2/token/?service=registry.docker.com&scope=repository:samalba/my-app:push&account=jlhawn HTTP/1.1
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Host: auth.docker.com
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```
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The server first inspects the client certificate to extract the subject key and
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lookup which account it is associated with. The client is now authenticated
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using that account.
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The server next searches its access control list for the account's access to
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the repository `samalba/my-app` hosted by the service `registry.docker.com`.
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The server will now construct a JSON Web Token to sign and return. A JSON Web
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Token has 3 main parts:
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1. Headers
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The header of a JSON Web Token is a standard JOSE header. The "typ" field
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will be "JWT" and it will also contain the "alg" which identifies the
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signing algorithm used to produce the signature. It will also usually have
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a "kid" field, the ID of the key which was used to sign the token.
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Here is an example JOSE Header for a JSON Web Token (formatted with
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whitespace for readability):
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```
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{
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"typ": "JWT",
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"alg": "ES256",
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"kid": "PYYO:TEWU:V7JH:26JV:AQTZ:LJC3:SXVJ:XGHA:34F2:2LAQ:ZRMK:Z7Q6"
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}
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```
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It specifies that this object is going to be a JSON Web token signed using
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the key with the given ID using the Elliptic Curve signature algorithm
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using a SHA256 hash.
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2. Claim Set
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The Claim Set is a JSON struct containing these standard registered claim
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name fields:
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<dl>
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<dt>
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<code>iss</code> (Issuer)
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</dt>
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<dd>
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The issuer of the token, typically the fqdn of the authorization
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server.
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</dd>
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<dt>
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<code>sub</code> (Subject)
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</dt>
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<dd>
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The subject of the token; the id of the client which requested it.
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</dd>
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<dt>
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<code>aud</code> (Audience)
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</dt>
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<dd>
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The intended audience of the token; the id of the service which
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will verify the token to authorize the client/subject.
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</dd>
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<dt>
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<code>exp</code> (Expiration)
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</dt>
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<dd>
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The token should only be considered valid up to this specified date
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and time.
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</dd>
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<dt>
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<code>nbf</code> (Not Before)
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</dt>
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<dd>
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The token should not be considered valid before this specified date
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and time.
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</dd>
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<dt>
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<code>iat</code> (Issued At)
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</dt>
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<dd>
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Specifies the date and time which the Authorization server
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generated this token.
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</dd>
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<dt>
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<code>jti</code> (JWT ID)
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</dt>
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<dd>
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A unique identifier for this token. Can be used by the intended
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audience to prevent replays of the token.
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</dd>
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</dl>
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The Claim Set will also contain a private claim name unique to this
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authorization server specification:
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<dl>
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<dt>
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<code>access</code>
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</dt>
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<dd>
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An array of access entry objects with the following fields:
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<dl>
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<dt>
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<code>type</code>
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</dt>
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<dd>
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The type of resource hosted by the service.
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</dd>
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<dt>
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<code>name</code>
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</dt>
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<dd>
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The name of the recource of the given type hosted by the
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service.
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</dd>
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<dt>
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<code>actions</code>
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</dt>
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<dd>
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An array of strings which give the actions authorized on
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this resource.
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</dd>
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</dl>
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</dd>
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</dl>
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Here is an example of such a JWT Claim Set (formatted with whitespace for
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readability):
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```
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{
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"iss": "auth.docker.com",
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"sub": "jlhawn",
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"aud": "registry.docker.com",
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"exp": 1415387315,
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"nbf": 1415387015,
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"iat": 1415387015,
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"jti": "tYJCO1c6cnyy7kAn0c7rKPgbV1H1bFws",
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"access": [
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{
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"type": "repository",
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"name": "samalba/my-app",
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"actions": [
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"push"
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]
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}
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]
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}
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```
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3. Signature
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The authorization server will produce a JOSE header and Claim Set with no
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extraneous whitespace, i.e., the JOSE Header from above would be
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```
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{"typ":"JWT","alg":"ES256","kid":"PYYO:TEWU:V7JH:26JV:AQTZ:LJC3:SXVJ:XGHA:34F2:2LAQ:ZRMK:Z7Q6"}
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```
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and the Claim Set from above would be
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```
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{"iss":"auth.docker.com","sub":"jlhawn","aud":"registry.docker.com","exp":1415387315,"nbf":1415387015,"iat":1415387015,"jti":"tYJCO1c6cnyy7kAn0c7rKPgbV1H1bFws","access":[{"type":"repository","name":"samalba/my-app","actions":["push"]}]}
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```
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The utf-8 representation of this JOSE header and Claim Set are then
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url-safe base64 encoded (sans trailing '=' buffer), producing:
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```
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eyJ0eXAiOiJKV1QiLCJhbGciOiJFUzI1NiIsImtpZCI6IlBZWU86VEVXVTpWN0pIOjI2SlY6QVFUWjpMSkMzOlNYVko6WEdIQTozNEYyOjJMQVE6WlJNSzpaN1E2In0
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```
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for the JOSE Header and
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```
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eyJpc3MiOiJhdXRoLmRvY2tlci5jb20iLCJzdWIiOiJqbGhhd24iLCJhdWQiOiJyZWdpc3RyeS5kb2NrZXIuY29tIiwiZXhwIjoxNDE1Mzg3MzE1LCJuYmYiOjE0MTUzODcwMTUsImlhdCI6MTQxNTM4NzAxNSwianRpIjoidFlKQ08xYzZjbnl5N2tBbjBjN3JLUGdiVjFIMWJGd3MiLCJhY2Nlc3MiOlt7InR5cGUiOiJyZXBvc2l0b3J5IiwibmFtZSI6InNhbWFsYmEvbXktYXBwIiwiYWN0aW9ucyI6WyJwdXNoIl19XX0
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```
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for the Claim Set. These two are concatenated using a '.' character,
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yielding the string:
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```
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eyJ0eXAiOiJKV1QiLCJhbGciOiJFUzI1NiIsImtpZCI6IlBZWU86VEVXVTpWN0pIOjI2SlY6QVFUWjpMSkMzOlNYVko6WEdIQTozNEYyOjJMQVE6WlJNSzpaN1E2In0.eyJpc3MiOiJhdXRoLmRvY2tlci5jb20iLCJzdWIiOiJqbGhhd24iLCJhdWQiOiJyZWdpc3RyeS5kb2NrZXIuY29tIiwiZXhwIjoxNDE1Mzg3MzE1LCJuYmYiOjE0MTUzODcwMTUsImlhdCI6MTQxNTM4NzAxNSwianRpIjoidFlKQ08xYzZjbnl5N2tBbjBjN3JLUGdiVjFIMWJGd3MiLCJhY2Nlc3MiOlt7InR5cGUiOiJyZXBvc2l0b3J5IiwibmFtZSI6InNhbWFsYmEvbXktYXBwIiwiYWN0aW9ucyI6WyJwdXNoIl19XX0
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```
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This is then used as the payload to a the `ES256` signature algorithm
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specified in the JOSE header and specified fully in [Section 3.4 of the JSON Web Algorithms (JWA)
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draft specification](https://tools.ietf.org/html/draft-ietf-jose-json-web-algorithms-38#section-3.4)
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This example signature will use the following ECDSA key for the server:
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```
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{
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"kty": "EC",
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"crv": "P-256",
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"kid": "PYYO:TEWU:V7JH:26JV:AQTZ:LJC3:SXVJ:XGHA:34F2:2LAQ:ZRMK:Z7Q6",
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"d": "R7OnbfMaD5J2jl7GeE8ESo7CnHSBm_1N2k9IXYFrKJA",
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"x": "m7zUpx3b-zmVE5cymSs64POG9QcyEpJaYCD82-549_Q",
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"y": "dU3biz8sZ_8GPB-odm8Wxz3lNDr1xcAQQPQaOcr1fmc"
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}
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```
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A resulting signature of the above payload using this key is:
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```
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QhflHPfbd6eVF4lM9bwYpFZIV0PfikbyXuLx959ykRTBpe3CYnzs6YBK8FToVb5R47920PVLrh8zuLzdCr9t3w
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```
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Concatenating all of these together with a `.` character gives the
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resulting JWT:
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```
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eyJ0eXAiOiJKV1QiLCJhbGciOiJFUzI1NiIsImtpZCI6IlBZWU86VEVXVTpWN0pIOjI2SlY6QVFUWjpMSkMzOlNYVko6WEdIQTozNEYyOjJMQVE6WlJNSzpaN1E2In0.eyJpc3MiOiJhdXRoLmRvY2tlci5jb20iLCJzdWIiOiJqbGhhd24iLCJhdWQiOiJyZWdpc3RyeS5kb2NrZXIuY29tIiwiZXhwIjoxNDE1Mzg3MzE1LCJuYmYiOjE0MTUzODcwMTUsImlhdCI6MTQxNTM4NzAxNSwianRpIjoidFlKQ08xYzZjbnl5N2tBbjBjN3JLUGdiVjFIMWJGd3MiLCJhY2Nlc3MiOlt7InR5cGUiOiJyZXBvc2l0b3J5IiwibmFtZSI6InNhbWFsYmEvbXktYXBwIiwiYWN0aW9ucyI6WyJwdXNoIl19XX0.QhflHPfbd6eVF4lM9bwYpFZIV0PfikbyXuLx959ykRTBpe3CYnzs6YBK8FToVb5R47920PVLrh8zuLzdCr9t3w
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```
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This can now be placed in an HTTP response and returned to the client to use to
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authenticate to the audience service:
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```
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HTTP/1.1 200 OK
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Content-Type: application/json
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{"token": "eyJ0eXAiOiJKV1QiLCJhbGciOiJFUzI1NiIsImtpZCI6IlBZWU86VEVXVTpWN0pIOjI2SlY6QVFUWjpMSkMzOlNYVko6WEdIQTozNEYyOjJMQVE6WlJNSzpaN1E2In0.eyJpc3MiOiJhdXRoLmRvY2tlci5jb20iLCJzdWIiOiJqbGhhd24iLCJhdWQiOiJyZWdpc3RyeS5kb2NrZXIuY29tIiwiZXhwIjoxNDE1Mzg3MzE1LCJuYmYiOjE0MTUzODcwMTUsImlhdCI6MTQxNTM4NzAxNSwianRpIjoidFlKQ08xYzZjbnl5N2tBbjBjN3JLUGdiVjFIMWJGd3MiLCJhY2Nlc3MiOlt7InR5cGUiOiJyZXBvc2l0b3J5IiwibmFtZSI6InNhbWFsYmEvbXktYXBwIiwiYWN0aW9ucyI6WyJwdXNoIl19XX0.QhflHPfbd6eVF4lM9bwYpFZIV0PfikbyXuLx959ykRTBpe3CYnzs6YBK8FToVb5R47920PVLrh8zuLzdCr9t3w"}
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```
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## Using the signed token
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Once the client has a token, it will try the registry request again with the
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token placed in the HTTP `Authorization` header like so:
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```
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Authorization: Bearer eyJ0eXAiOiJKV1QiLCJhbGciOiJFUzI1NiIsImtpZCI6IkJWM0Q6MkFWWjpVQjVaOktJQVA6SU5QTDo1RU42Ok40SjQ6Nk1XTzpEUktFOkJWUUs6M0ZKTDpQT1RMIn0.eyJpc3MiOiJhdXRoLmRvY2tlci5jb20iLCJzdWIiOiJCQ0NZOk9VNlo6UUVKNTpXTjJDOjJBVkM6WTdZRDpBM0xZOjQ1VVc6NE9HRDpLQUxMOkNOSjU6NUlVTCIsImF1ZCI6InJlZ2lzdHJ5LmRvY2tlci5jb20iLCJleHAiOjE0MTUzODczMTUsIm5iZiI6MTQxNTM4NzAxNSwiaWF0IjoxNDE1Mzg3MDE1LCJqdGkiOiJ0WUpDTzFjNmNueXk3a0FuMGM3cktQZ2JWMUgxYkZ3cyIsInNjb3BlIjoiamxoYXduOnJlcG9zaXRvcnk6c2FtYWxiYS9teS1hcHA6cHVzaCxwdWxsIGpsaGF3bjpuYW1lc3BhY2U6c2FtYWxiYTpwdWxsIn0.Y3zZSwaZPqy4y9oRBVRImZyv3m_S9XDHF1tWwN7mL52C_IiA73SJkWVNsvNqpJIn5h7A2F8biv_S2ppQ1lgkbw
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```
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This is also described in [Section 2.1 of RFC 6750: The OAuth 2.0 Authorization Framework: Bearer Token Usage](https://tools.ietf.org/html/rfc6750#section-2.1)
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## Verifying the token
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The registry must now verify the token presented by the user by inspecting the
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claim set within. The registry will:
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- Ensure that the issuer (`iss` claim) is an authority it trusts.
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- Ensure that the registry identifies as the audience (`aud` claim).
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- Check that the current time is between the `nbf` and `exp` claim times.
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- If enforcing single-use tokens, check that the JWT ID (`jti` claim) value has
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not been seen before.
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- To enforce this, the registry may keep a record of `jti`s it has seen for
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up to the `exp` time of the token to prevent token replays.
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- Check the `access` claim value and use the identified resources and the list
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of actions authorized to determine whether the token grants the required
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level of access for the operation the client is attempting to perform.
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- Verify that the signature of the token is valid.
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At no point in this process should the registry need to <em>call back</em> to
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the authorization server. If anything, it would only need to update a list of
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trusted public keys for verifying token signatures or use a separate API
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(still to be spec'd) to add/update resource records on the authorization
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server.
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