Two versions are available, a stand-alone binary (using Axum and Redis) and a
Cloudflare Worker. They use the same code base and are selected at compile time
(compiling for wasm32
will make the Worker version).
You will need wrangler
.
First, copy the configuration file template:
cp wrangler_example.toml wrangler.toml
Then replace the following fields:
account_id
: your Cloudflare account ID;zone_id
: (Optional) DNS zone ID;kv_namespaces
: a KV namespace ID (created withwrangler kv:namespace create SIWE_OIDC
); and- the environment variables under
vars
.
You will also need to add a secret RSA key in PEM format:
wrangler secret put RSA_PEM
At this point, you should be able to create/publish the worker:
wrangler publish
The IdP currently only supports having the frontend under the same subdomain as the API. Here is the configuration for Cloudflare Pages:
Build command
:cd js/ui && npm install && npm run build
;Build output directory
:/static
; andRoot directory
:/
. And you will need to add some rules to do the routing between the Page and the Worker. Here are the rules for the Worker (the Page being used as the fallback on the subdomain):
siweoidc.example.com/s*
siweoidc.example.com/u*
siweoidc.example.com/r*
siweoidc.example.com/a*
siweoidc.example.com/t*
siweoidc.example.com/j*
siweoidc.example.com/c*
siweoidc.example.com/.w*
Note that currently the published Docker image doesn't support all wallets due to the need of bundling secrets for web3modal at compile-time.
Redis, or a Redis compatible database (e.g. MemoryDB in AWS), is required.
The Docker image is available at ghcr.io/spruceid/siwe_oidc:0.1.0
. Here is an
example usage:
docker run -p 8000:8000 -e SIWEOIDC_REDIS_URL="redis://redis" ghcr.io/spruceid/siwe_oidc:latest
It can be configured either with the siwe-oidc.toml
configuration file, or
through environment variables:
SIWEOIDC_ADDRESS
is the IP address to bind to.SIWEOIDC_REDIS_URL
is the URL to the Redis instance.SIWEOIDC_BASE_URL
is the URL you want to advertise in the OIDC configuration (e.g.https://oidc.example.com
).SIWEOIDC_RSA_PEM
is the signing key, in PEM format. One will be generated if none is provided.
The current flow is very basic -- after the user is authenticated you will receive:
- an Ethereum address as the subject (
sub
field); and - an ENS domain as the
preferred_username
(with a fallback to the address).
For the core OIDC information, it is available under
/.well-known/openid-configuration
.
OIDC Conformance Suite:
- 🟨 (25/29, and 10 skipped) basic (
email
scope skipped,profile
scope partially supported, ACR,prompt=none
and request URIs yet to be supported); - 🟩 config;
- 🟧 dynamic code.
- Additional information, from native projects (e.g. ENS domains profile pictures), to more traditional ones (e.g. email).
wrangler dev
You can now use http://127.0.0.1:8787/.well-known/openid-configuration.
At the moment it's not possible to use it end-to-end with the frontend as they need to share the same host (i.e. port), unless using a local load-balancer.
A Docker Compose is available to test the IdP locally with Keycloak.
- You will first need to run:
docker-compose -f test/docker-compose.yml up -d
-
And then edit your
/etc/hosts
to havesiwe-oidc
point to127.0.0.1
. This is so both your browser, and Keycloak, can access the IdP. -
In Keycloak, you will need to create a new IdP. You can use
http://siwe-oidc:8000/.well-known/openid-configuration
to fill the settings automatically. As for the client ID/secret, you can usesdf
/sdf
.
Our identity provider for Sign-In with Ethereum has not yet undergone a formal security audit. We welcome continued feedback on the usability, architecture, and security of this implementation.