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Auth-JWT NGINX Module

This is an NGINX module to check for a valid JWT and proxy to an upstream server or redirect to a login page. It supports additional features such as extracting claims from the JWT and placing them on the request/response headers.

Breaking Changes with v2

The v2 branch, which has now been merged to master includes breaking changes. Please see the initial v2 release for details,

Dependencies

This module depends on the JWT C Library. Transitively, that library depends on a JSON Parser called Jansson as well as the OpenSSL library.

Directives

This module requires several new nginx.conf directives, which can be specified at the http, server, or location levels.

Directive Description
auth_jwt_key The key to use to decode/verify the JWT, in binhex format -- see below.
auth_jwt_redirect Set to "on" to redirect to auth_jwt_loginurl if authentication fails.
auth_jwt_loginurl The URL to redirect to if auth_jwt_redirect is enabled and authentication fails.
auth_jwt_enabled Set to "on" to enable JWT checking.
auth_jwt_algorithm The algorithm to use. One of: HS256, HS384, HS512, RS256, RS384, RS512
auth_jwt_location Indicates where the JWT is located in the request -- see below.
auth_jwt_validate_sub Set to "on" to validate the sub claim (e.g. user id) in the JWT.
auth_jwt_extract_request_claims Set to a space-delimited list of claims to extract from the JWT and set as request headers. These will be accessible via e.g: $http_jwt_sub
auth_jwt_extract_response_claims Set to a space-delimited list of claims to extract from the JWT and set as response headers. These will be accessible via e.g: $sent_http_jwt_sub
auth_jwt_use_keyfile Set to "on" to read the key from a file rather than from the auth_jwt_key directive.
auth_jwt_keyfile_path Set to the path from which the key should be read when auth_jwt_use_keyfile is enabled.

Algorithms

The default algorithm is HS256, for symmetric key validation. When using one of the HS* algorithms, the value for auth_jwt_key should be specified in binhex format. It is recommended to use at least 256 bits of data (32 pairs of hex characters or 64 characters in total) as in the example above. Note that using more than 512 bits will not increase the security. For key guidelines please see NIST Special Publication 800-107 Recommendation for Applications Using Approved Hash Algorithms, Section 5.3.2 The HMAC Key.

Additional Supported Algorithms

The configuration also supports RSA public key validation via (e.g.) auth_jwt_algorithm RS256. When using the RS* alhorithms, the auth_jwt_key field must be set to your public key OR auth_jwt_use_keyfile should be set to on and auth_jwt_keyfile_path should point to the public key on disk. NGINX won't start if auth_jwt_use_keyfile is set to on and a key file is not provided.

When using an RS* algorithm with an inline key, be sure to set auth_jwt_key to the public key, rather than a PEM certificate. E.g.:

auth_jwt_key "-----BEGIN PUBLIC KEY-----
MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA0aPPpS7ufs0bGbW9+OFQ
RvJwb58fhi2BuHMd7Ys6m8D1jHW/AhDYrYVZtUnA60lxwSJ/ZKreYOQMlNyZfdqA
rhYyyUkedDn8e0WsDvH+ocY0cMcxCCN5jItCwhIbIkTO6WEGrDgWTY57UfWDqbMZ
4lMn42f77OKFoxsOA6CVvpsvrprBPIRPa25H2bJHODHEtDr/H519Y681/eCyeQE/
1ibKL2cMN49O7nRAAaUNoFcO89Uc+GKofcad1TTwtTIwmSMbCLVkzGeExBCrBTQo
wO6AxLijfWV/JnVxNMUiobiKGc/PP6T5PI70Uv67Y4FzzWTuhqmREb3/BlcbPwtM
oQIDAQAB
-----END PUBLIC KEY-----";

When using an RS* algorithm with a public key file, do as follows:

auth_jwt_use_keyfile on;
auth_jwt_keyfile_path "/path/to/pub_key.pem";

A typical use case would be to specify the key and login URL at the http level, and then only turn JWT authentication on for the locations which you want to secure (or vice-versa). Unauthorized requests will result in a 302 Moved Temporarily response with the Location header set to the URL specified in the auth_jwt_loginurl directive, and a querystring parameter return_url whose value is the current / attempted URL.

If you prefer to return 401 Unauthorized rather than redirect, you may turn auth_jwt_redirect off:

auth_jwt_redirect off;

JWT Locations

By default, theAuthorization header is used to provide a JWT for validation. However, you may use the auth_jwt_location directive to specify the name of the header or cookie which provides the JWT:

auth_jwt_location HEADER=auth-token;  # get the JWT from the "auth-token" header
auth_jwt_location COOKIE=auth-token;  # get the JWT from the "auth-token" cookie

sub Validation

Optionally, the module can validate that a sub claim (e.g. the user's id) exists in the JWT. You may enable this feature as follows:

auth_jwt_validate_sub on;

Extracting Claims from the JWT

You may specify claims to be extracted from the JWT and placed on the request and/or response headers. This is especially handly because the claims will then also be available as NGINX variables.

If you only wish to access a claim as an NGINX variable, you should use auth_jwt_extract_request_claims so that the claim does not end up being sent to the client as a response header. However, if you do want the claim to be sent to the client in the response, then use auth_jwt_extract_response_claims instead.

Using Request Claims

For example, you could configure an NGINX location which redirects to the current user's profile. Suppose sub=abc-123, the configuration below would redirect to /profile/abc-123.

location /profile/me {
    auth_jwt_extract_request_claims sub;

    return 301 /profile/$http_jwt_sub;
}

Using Response Claims

Response claims are used in the same way, with the only differences being:

  • the variables are accessed via the $sent_http_jwt_* pattern, e.g. $sent_http_jwt_sub, and
  • the headers are sent to the client.

Extracting Multiple Claims

You may extract multiple claims by specifying all claims as arguments to a single directive, or by supplying multiple directives. The following two examples are equivalent.

auth_jwt_extract_request_claims sub firstName lastName;
auth_jwt_extract_request_claims sub;
auth_jwt_extract_request_claims firstName;
auth_jwt_extract_request_claims lastName;

Versioning

This module has historically not been versioned, however, we are now starting to version the module in order to add clarity. We will add releases here in GitHub with additional details. In the future we may also publish pre-built modules for a selection of NGINX versions.

Contributing

If you'd like to contribute to this repository, please first initiate the Git hooks by running ./.bin/init (note the . before bin) -- this will ensure that tests are run before you push your changes.

Environment Set-up for Visual Studio Code

  1. Install the C/C++ extension from Microsoft.
  2. Add a C/C++ config file at .vscode/c_cpp_properties.json with the following (or similar) content:
{
    "configurations": [
        {
            "name": "Linux",
            "includePath": [
                "${workspaceFolder}/**",
                "~/Projects/nginx/objs/**",
                "~/Projects/nginx/src/**",
                "~/Projects/libjwt/include/**",
                "~/Projects/jansson/src/**"
            ],
            "defines": [],
            "compilerPath": "/usr/bin/clang",
            "cStandard": "c17",
            "cppStandard": "c++14",
            "intelliSenseMode": "linux-clang-x64"
        }
    ],
    "version": 4
}

Note the includePath additions above -- please update them as appropriate. Next we need to pull these sources.

Building NGINX

  1. Download the NGINX release matching the version you're targeting.
  2. Extract the NGINX archive to wherever you'd like.
  3. Update the includePath entires shown above to match the location you chose.
  4. Enter the directory where you extracted NGINX and run: ./configure --with-compat

Cloning libjwt

  1. Clone this repository as follows (replace <target_dir>): git clone [email protected]:benmcollins/libjwt.git <target_dir>
  2. Enter the directory and switch to the latest tag: git checkout $(git tag | sort -Vr | head -n 1)
  3. Update the includePath entires shown above to match the location you chose.

Cloning libjansson

  1. Clone this repository as follows (replace <target_dir>): git clone [email protected]:akheron/jansson.git <target_dir>
  2. Enter the directory and switch to the latest tag: git checkout $(git tag | sort -Vr | head -n 1)
  3. Update the includePath entires shown above to match the location you chose.

Verifying Compliation

Once you save your changes to .vscode/c_cpp_properties.json, you should see that warnings and errors in the Problems panel go away, at least temprorarily. Hopfeully they don't come back, but if they do, make sure your include paths are set correctly.

Building and Testing

The ./scripts.sh file contains multiple commands to make things easy:

Command Description
build_module Builds the NGINX image.
rebuild_module Re-builds the NGINX image.
start_nginx Starts the NGINX container.
stop_nginx Stops the NGINX container.
cp_bin Copies the compiled binaries out of the NGINX container.
build_test_runner Builds the images used by the test stack (uses Docker compose).
rebuild_test_runner Re-builds the images used by the test stack.
test Runs test.sh against the NGINX container (uses Docker compose).
test_now Runs test.sh without rebuilding.

You can run multiple commands in sequence by separating them with a space, e.g.:

./scripts.sh build_module test

To build the Docker images, module, start NGINX, and run the tests against, you can simply do:

./scripts.sh all

When you make a change to the module run ./scripts.sh build_module test to build a fresh module and run the tests. Note that rebuild_module is not often needed as build_module hashes the module's source files which will cause a cache miss while building the container, causing the module to be rebuilt.

When you make a change to the test NGINX config or test.sh, run ./scripts.sh test to run the tests. Similar to above, the test sources are hashed and the containers will be rebuilt as needed.

The image produced with ./scripts.sh build_module only differs from the official NGINX image in two ways:

  • the JWT module itself, and
  • the nginx.conf file is overwritten with our own.

The tests use a customized NGINX image, distinct from the main image, as well as a test runner image. By running ./scripts.sh test, the two test containers will be stood up via Docker compose, then they'll be started, and the tests will run. At the end of the test run, both containers will be automatically stopped and destroyed. See below to learn how to trace test failures across runs.

Tracing Test Failures

After making changes and finding that some tests fail, it can be difficult to understand why. By default, logs are written to Docker's internal log mechanism, but they won't be persisted after the test run completes and the containers are removed.

In order to persist logs, you can configure the log driver to use. You can do this by setting the environment variable LOG_DRIVER before running the tests. On Linux/Unix systems, you can use the driver journald, as follows:

# need to rebuild the test runner with the proper log driver
LOG_DRIVER=journald ./scripts.sh rebuild_test_runner

# run the tests
./scripts.sh test

# check the logs
journalctl -eu docker CONTAINER_NAME=jwt-nginx-test

Now you'll be able to see logs from previous test runs. The best way to make use of this is to open two terminals, one where you run the tests, and one where you follow the logs:

# terminal 1
./scripts.sh test

# terminal 2
journalctl -fu docker CONTAINER_NAME=jwt-nginx-test