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distribution/docs/spec/auth/token.md
Josh Hawn fb481ef843 [docs/spec/auth] Clarify the Token auth workflow 
Docker-DCO-1.1-Signed-off-by: Josh Hawn <josh.hawn@docker.com> (github: jlhawn)
2015-09-14 15:57:16 -07:00

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<!--[metadata]>
+++
title = "Token Authentication"
description = "Introduces the Docker Registry v2 authentication"
keywords = ["registry, on-prem, images, tags, repository, distribution, JWT authentication, advanced"]
[menu.main]
parent="smn_registry_ref"
+++
<![end-metadata]-->
# Docker Registry v2 authentication via central service
Today a Docker Registry can run in standalone mode in which there are no
authorization checks. While adding your own HTTP authorization requirements in
a proxy placed between the client and the registry can give you greater access
control, we'd like a native authorization mechanism that's public key based
with access control lists managed separately with the ability to have fine
granularity in access control on a by-key, by-user, by-namespace, and
by-repository basis. In v1 this can be configured by specifying an
`index_endpoint` in the registry's config. Clients present tokens generated by
the index and tokens are validated on-line by the registry with every request.
This results in a complex authentication and authorization loop that occurs
with every registry operation. Some people are very familiar with this image:
![index auth](https://docs.docker.com/static_files/docker_pull_chart.png)
The above image outlines the 6-step process in accessing the Official Docker
Registry.
1. Contact the Docker Hub to know where I should download “samalba/busybox”
2. Docker Hub replies:
a. samalba/busybox is on Registry A
b. here are the checksums for samalba/busybox (for all layers)
c. token
3. Contact Registry A to receive the layers for samalba/busybox (all of them to
the base image). Registry A is authoritative for “samalba/busybox” but keeps
a copy of all inherited layers and serve them all from the same location.
4. Registry contacts Docker Hub to verify if token/user is allowed to download
images.
5. Docker Hub returns true/false lettings registry know if it should proceed or
error out.
6. Get the payload for all layers.
The goal of this document is to outline a way to eliminate steps 4 and 5 from
the above process by using cryptographically signed tokens and no longer
require the client to authenticate each request with a username and password
stored locally in plain text.
The v2 registry token workflow is more like this:
![v2 registry auth](https://docs.google.com/drawings/d/1EHZU9uBLmcH0kytDClBv6jv6WR4xZjE8RKEUw1mARJA/pub?w=480&h=360)
1. Attempt to begin a push/pull operation with the registry.
2. If the registry requires authorization it will return a `401 Unauthorized`
HTTP response with information on how to authenticate.
3. The registry client makes a request to the authorization service for a
signed JSON Web Token.
4. The authorization service returns an opaque token representing the client's
authorized access.
5. The client retries the original request with the token embedded in the
request header.
6. The Registry authorizes the client by validating the token and the claim set
embedded within it and begins the push/pull session as usual.
## Requirements
- Registry clients which can understand and respond to token auth challenges
returned by the resource server.
- An authorization server capable of managing access controls to their
resources hosted by any given service (such as repositories in a Docker
Registry).
- A Docker Registry capable of trusting the authorization server to sign tokens
which clients can use for authorization and the ability to verify these
tokens for single use or for use during a sufficiently short period of time.
## Authorization Server Endpoint Descriptions
This document borrows heavily from the [JSON Web Token Draft Spec](https://tools.ietf.org/html/draft-ietf-oauth-json-web-token-32)
The described server is meant to serve as a standalone access control manager
for resources hosted by other services which wish to authenticate and manage
authorizations using a separate access control manager.
Such a service could be used by the official Docker Registry to authenticate
clients and verify their authorization to Docker image repositories.
As of Docker 1.6, the registry client within the Docker Engine has been updated
to handle such an authorization workflow.
## How to authenticate
Registry V1 clients first contact the index to initiate a push or pull. Under
the Registry V2 workflow, clients should contact the registry first. If the
registry server requires authentication it will return a `401 Unauthorized`
response with a `WWW-Authenticate` header detailing how to authenticate to this
registry.
For example, say I (username `jlhawn`) am attempting to push an image to the
repository `samalba/my-app`. For the registry to authorize this, I will need
`push` access to the `samalba/my-app` repository. The registry will first
return this response:
```
HTTP/1.1 401 Unauthorized
Content-Type: application/json; charset=utf-8
Docker-Distribution-Api-Version: registry/2.0
Www-Authenticate: Bearer realm="https://auth.docker.io/token",service="registry.docker.io",scope="repository:samalba/my-app:pull,push"
Date: Thu, 10 Sep 2015 19:32:31 GMT
Content-Length: 235
Strict-Transport-Security: max-age=31536000
{"errors":[{"code":"UNAUTHORIZED","message":"access to the requested resource is not authorized","detail":[{"Type":"repository","Name":"samalba/my-app","Action":"pull"},{"Type":"repository","Name":"samalba/my-app","Action":"push"}]}]}
```
Note the HTTP Response Header indicating the auth challenge:
```
Www-Authenticate: Bearer realm="https://auth.docker.io/token",service="registry.docker.io",scope="repository:samalba/my-app:pull,push"
```
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)
This challenge indicates that the registry requires a token issued by the
specified token server and that the request the client is attempting will
need to include sufficient access entries in its claim set. To respond to this
challenge, the client will need to make a `GET` request to the URL
`https://auth.docker.io/token` using the `service` and `scope` values from the
`WWW-Authenticate` header.
## Requesting a Token
#### Query Parameters
<dl>
<dt>
<code>service</code>
</dt>
<dd>
The name of the service which hosts the resource.
</dd>
<dt>
<code>scope</code>
</dt>
<dd>
The resource in question, formatted as one of the space-delimited
entries from the <code>scope</code> parameters from the <code>WWW-Authenticate</code> header
shown above. This query parameter should be specified multiple times if
there is more than one <code>scope</code> entry from the <code>WWW-Authenticate</code>
header. The above example would be specified as:
<code>scope=repository:samalba/my-app:push</code>.
</dd>
</dl>
#### Example Token Request
For this example, the client makes an HTTP GET request to the following URL:
```
https://auth.docker.io/token?service=registry.docker.io&scope=repository:samalba/my-app:pull,push
```
The token server should first attempt to authenticate the client using any
authentication credentials provided with the request. As of Docker 1.8, the
registry client in the Docker Engine only supports Basic Authentication to
these token servers. If an attempt to authenticate to the token server fails,
the token server should return a `401 Unauthorized` response indicating that
the provided credentials are invalid.
Whether the token server requires authentication is up to the policy of that
access control provider. Some requests may require authentication to determine
access (such as pushing or pulling a private repository) while others may not
(such as pulling from a public repository).
After authenticating the client (which may simply be an anonymous client if
no attempt was made to authenticate), the token server must next query its
access control list to determine whether the client has the requested scope. In
this example request, if I have authenticated as user `jlhawn`, the token
server will determine what access I have to the repository `samalba/my-app`
hosted by the entity `registry.docker.io`.
Once the token server has determined what access the client has to the
resources requested in the `scope` parameter, it will take the intersection of
the set of requested actions on each resource and the set of actions that the
client has in fact been granted. If the client only has a subset of the
requested access **it must not be considered an error** as it is not the
responsibility of the token server to indicate authorization errors as part of
this workflow.
Continuing with the example request, the token server will find that the
client's set of granted access to the repository is `[pull, push]` which when
intersected with the requested access `[pull, push]` yields an equal set. If
the granted access set was found only to be `[pull]` then the intersected set
would only be `[pull]`. If the client has no access to the repository then the
intersected set would be empty, `[]`.
It is this intersected set of access which is placed in the returned token.
The server will now construct a JSON Web Token to sign and return. A JSON Web
Token has 3 main parts:
1. Headers
The header of a JSON Web Token is a standard JOSE header. The "typ" field
will be "JWT" and it will also contain the "alg" which identifies the
signing algorithm used to produce the signature. It will also usually have
a "kid" field, the ID of the key which was used to sign the token.
Here is an example JOSE Header for a JSON Web Token (formatted with
whitespace for readability):
```
{
"typ": "JWT",
"alg": "ES256",
"kid": "PYYO:TEWU:V7JH:26JV:AQTZ:LJC3:SXVJ:XGHA:34F2:2LAQ:ZRMK:Z7Q6"
}
```
It specifies that this object is going to be a JSON Web token signed using
the key with the given ID using the Elliptic Curve signature algorithm
using a SHA256 hash.
2. Claim Set
The Claim Set is a JSON struct containing these standard registered claim
name fields:
<dl>
<dt>
<code>iss</code> (Issuer)
</dt>
<dd>
The issuer of the token, typically the fqdn of the authorization
server.
</dd>
<dt>
<code>sub</code> (Subject)
</dt>
<dd>
The subject of the token; the name or id of the client which
requested it. This should be empty (`""`) if the client did not
authenticate.
</dd>
<dt>
<code>aud</code> (Audience)
</dt>
<dd>
The intended audience of the token; the name or id of the service
which will verify the token to authorize the client/subject.
</dd>
<dt>
<code>exp</code> (Expiration)
</dt>
<dd>
The token should only be considered valid up to this specified date
and time.
</dd>
<dt>
<code>nbf</code> (Not Before)
</dt>
<dd>
The token should not be considered valid before this specified date
and time.
</dd>
<dt>
<code>iat</code> (Issued At)
</dt>
<dd>
Specifies the date and time which the Authorization server
generated this token.
</dd>
<dt>
<code>jti</code> (JWT ID)
</dt>
<dd>
A unique identifier for this token. Can be used by the intended
audience to prevent replays of the token.
</dd>
</dl>
The Claim Set will also contain a private claim name unique to this
authorization server specification:
<dl>
<dt>
<code>access</code>
</dt>
<dd>
An array of access entry objects with the following fields:
<dl>
<dt>
<code>type</code>
</dt>
<dd>
The type of resource hosted by the service.
</dd>
<dt>
<code>name</code>
</dt>
<dd>
The name of the resource of the given type hosted by the
service.
</dd>
<dt>
<code>actions</code>
</dt>
<dd>
An array of strings which give the actions authorized on
this resource.
</dd>
</dl>
</dd>
</dl>
Here is an example of such a JWT Claim Set (formatted with whitespace for
readability):
```
{
"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": [
"pull",
"push"
]
}
]
}
```
3. Signature
The authorization server will produce a JOSE header and Claim Set with no
extraneous whitespace, i.e., the JOSE Header from above would be
```
{"typ":"JWT","alg":"ES256","kid":"PYYO:TEWU:V7JH:26JV:AQTZ:LJC3:SXVJ:XGHA:34F2:2LAQ:ZRMK:Z7Q6"}
```
and the Claim Set from above would be
```
{"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"]}]}
```
The utf-8 representation of this JOSE header and Claim Set are then
url-safe base64 encoded (sans trailing '=' buffer), producing:
```
eyJ0eXAiOiJKV1QiLCJhbGciOiJFUzI1NiIsImtpZCI6IlBZWU86VEVXVTpWN0pIOjI2SlY6QVFUWjpMSkMzOlNYVko6WEdIQTozNEYyOjJMQVE6WlJNSzpaN1E2In0
```
for the JOSE Header and
```
eyJpc3MiOiJhdXRoLmRvY2tlci5jb20iLCJzdWIiOiJqbGhhd24iLCJhdWQiOiJyZWdpc3RyeS5kb2NrZXIuY29tIiwiZXhwIjoxNDE1Mzg3MzE1LCJuYmYiOjE0MTUzODcwMTUsImlhdCI6MTQxNTM4NzAxNSwianRpIjoidFlKQ08xYzZjbnl5N2tBbjBjN3JLUGdiVjFIMWJGd3MiLCJhY2Nlc3MiOlt7InR5cGUiOiJyZXBvc2l0b3J5IiwibmFtZSI6InNhbWFsYmEvbXktYXBwIiwiYWN0aW9ucyI6WyJwdXNoIl19XX0
```
for the Claim Set. These two are concatenated using a '.' character,
yielding the string:
```
eyJ0eXAiOiJKV1QiLCJhbGciOiJFUzI1NiIsImtpZCI6IlBZWU86VEVXVTpWN0pIOjI2SlY6QVFUWjpMSkMzOlNYVko6WEdIQTozNEYyOjJMQVE6WlJNSzpaN1E2In0.eyJpc3MiOiJhdXRoLmRvY2tlci5jb20iLCJzdWIiOiJqbGhhd24iLCJhdWQiOiJyZWdpc3RyeS5kb2NrZXIuY29tIiwiZXhwIjoxNDE1Mzg3MzE1LCJuYmYiOjE0MTUzODcwMTUsImlhdCI6MTQxNTM4NzAxNSwianRpIjoidFlKQ08xYzZjbnl5N2tBbjBjN3JLUGdiVjFIMWJGd3MiLCJhY2Nlc3MiOlt7InR5cGUiOiJyZXBvc2l0b3J5IiwibmFtZSI6InNhbWFsYmEvbXktYXBwIiwiYWN0aW9ucyI6WyJwdXNoIl19XX0
```
This is then used as the payload to a the `ES256` signature algorithm
specified in the JOSE header and specified fully in [Section 3.4 of the JSON Web Algorithms (JWA)
draft specification](https://tools.ietf.org/html/draft-ietf-jose-json-web-algorithms-38#section-3.4)
This example signature will use the following ECDSA key for the server:
```
{
"kty": "EC",
"crv": "P-256",
"kid": "PYYO:TEWU:V7JH:26JV:AQTZ:LJC3:SXVJ:XGHA:34F2:2LAQ:ZRMK:Z7Q6",
"d": "R7OnbfMaD5J2jl7GeE8ESo7CnHSBm_1N2k9IXYFrKJA",
"x": "m7zUpx3b-zmVE5cymSs64POG9QcyEpJaYCD82-549_Q",
"y": "dU3biz8sZ_8GPB-odm8Wxz3lNDr1xcAQQPQaOcr1fmc"
}
```
A resulting signature of the above payload using this key is:
```
QhflHPfbd6eVF4lM9bwYpFZIV0PfikbyXuLx959ykRTBpe3CYnzs6YBK8FToVb5R47920PVLrh8zuLzdCr9t3w
```
Concatenating all of these together with a `.` character gives the
resulting JWT:
```
eyJ0eXAiOiJKV1QiLCJhbGciOiJFUzI1NiIsImtpZCI6IlBZWU86VEVXVTpWN0pIOjI2SlY6QVFUWjpMSkMzOlNYVko6WEdIQTozNEYyOjJMQVE6WlJNSzpaN1E2In0.eyJpc3MiOiJhdXRoLmRvY2tlci5jb20iLCJzdWIiOiJqbGhhd24iLCJhdWQiOiJyZWdpc3RyeS5kb2NrZXIuY29tIiwiZXhwIjoxNDE1Mzg3MzE1LCJuYmYiOjE0MTUzODcwMTUsImlhdCI6MTQxNTM4NzAxNSwianRpIjoidFlKQ08xYzZjbnl5N2tBbjBjN3JLUGdiVjFIMWJGd3MiLCJhY2Nlc3MiOlt7InR5cGUiOiJyZXBvc2l0b3J5IiwibmFtZSI6InNhbWFsYmEvbXktYXBwIiwiYWN0aW9ucyI6WyJwdXNoIl19XX0.QhflHPfbd6eVF4lM9bwYpFZIV0PfikbyXuLx959ykRTBpe3CYnzs6YBK8FToVb5R47920PVLrh8zuLzdCr9t3w
```
This can now be placed in an HTTP response and returned to the client to use to
authenticate to the audience service:
```
HTTP/1.1 200 OK
Content-Type: application/json
{"token": "eyJ0eXAiOiJKV1QiLCJhbGciOiJFUzI1NiIsImtpZCI6IlBZWU86VEVXVTpWN0pIOjI2SlY6QVFUWjpMSkMzOlNYVko6WEdIQTozNEYyOjJMQVE6WlJNSzpaN1E2In0.eyJpc3MiOiJhdXRoLmRvY2tlci5jb20iLCJzdWIiOiJqbGhhd24iLCJhdWQiOiJyZWdpc3RyeS5kb2NrZXIuY29tIiwiZXhwIjoxNDE1Mzg3MzE1LCJuYmYiOjE0MTUzODcwMTUsImlhdCI6MTQxNTM4NzAxNSwianRpIjoidFlKQ08xYzZjbnl5N2tBbjBjN3JLUGdiVjFIMWJGd3MiLCJhY2Nlc3MiOlt7InR5cGUiOiJyZXBvc2l0b3J5IiwibmFtZSI6InNhbWFsYmEvbXktYXBwIiwiYWN0aW9ucyI6WyJwdXNoIl19XX0.QhflHPfbd6eVF4lM9bwYpFZIV0PfikbyXuLx959ykRTBpe3CYnzs6YBK8FToVb5R47920PVLrh8zuLzdCr9t3w"}
```
## Using the signed token
Once the client has a token, it will try the registry request again with the
token placed in the HTTP `Authorization` header like so:
```
Authorization: Bearer eyJ0eXAiOiJKV1QiLCJhbGciOiJFUzI1NiIsImtpZCI6IkJWM0Q6MkFWWjpVQjVaOktJQVA6SU5QTDo1RU42Ok40SjQ6Nk1XTzpEUktFOkJWUUs6M0ZKTDpQT1RMIn0.eyJpc3MiOiJhdXRoLmRvY2tlci5jb20iLCJzdWIiOiJCQ0NZOk9VNlo6UUVKNTpXTjJDOjJBVkM6WTdZRDpBM0xZOjQ1VVc6NE9HRDpLQUxMOkNOSjU6NUlVTCIsImF1ZCI6InJlZ2lzdHJ5LmRvY2tlci5jb20iLCJleHAiOjE0MTUzODczMTUsIm5iZiI6MTQxNTM4NzAxNSwiaWF0IjoxNDE1Mzg3MDE1LCJqdGkiOiJ0WUpDTzFjNmNueXk3a0FuMGM3cktQZ2JWMUgxYkZ3cyIsInNjb3BlIjoiamxoYXduOnJlcG9zaXRvcnk6c2FtYWxiYS9teS1hcHA6cHVzaCxwdWxsIGpsaGF3bjpuYW1lc3BhY2U6c2FtYWxiYTpwdWxsIn0.Y3zZSwaZPqy4y9oRBVRImZyv3m_S9XDHF1tWwN7mL52C_IiA73SJkWVNsvNqpJIn5h7A2F8biv_S2ppQ1lgkbw
```
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)
## Verifying the token
The registry must now verify the token presented by the user by inspecting the
claim set within. The registry will:
- Ensure that the issuer (`iss` claim) is an authority it trusts.
- Ensure that the registry identifies as the audience (`aud` claim).
- Check that the current time is between the `nbf` and `exp` claim times.
- If enforcing single-use tokens, check that the JWT ID (`jti` claim) value has
not been seen before.
- To enforce this, the registry may keep a record of `jti`s it has seen for
up to the `exp` time of the token to prevent token replays.
- Check the `access` claim value and use the identified resources and the list
of actions authorized to determine whether the token grants the required
level of access for the operation the client is attempting to perform.
- Verify that the signature of the token is valid.
If any of these requirements are not met, the registry will return a
`403 Forbidden` response to indicate that the token is invalid.
**Note**: it is only at this point in the workflow that an authorization error
may occur. The token server should *not* return errors when the user does not
have the requested authorization. Instead, the returned token should indicate
whatever of the requested scope the client does have (the intersection of
requested and granted access). If the token does not supply proper
authorization then the registry will return the appropriate error.
At no point in this process should the registry need to call back to the
authorization server. The registry only needs to be supplied with the trusted
public keys to verify the token signatures.
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