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Also add example tls-setup configs that can be used to generate TLS CA, server certs, key files using 'cfssl'. |
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admin | ||
client | ||
cmd | ||
connector | ||
contrib | ||
db | ||
Documentation | ||
examples | ||
functional | ||
Godeps | ||
integration | ||
pkg | ||
refresh | ||
repo | ||
schema | ||
server | ||
session | ||
static | ||
user | ||
.gitignore | ||
build | ||
build-docker-push | ||
build-units | ||
CONTRIBUTING.md | ||
cover | ||
DCO | ||
Dockerfile | ||
go-docker | ||
LICENSE | ||
MAINTAINERS | ||
NOTICE | ||
README.md | ||
test | ||
test-functional |
dex
dex is a federated identity management service. It provides OpenID Connect (OIDC) to users, while it proxies to multiple remote identity providers (IdP) to drive actual authentication. We named the project 'dex' beceause it is a central index of users that other pieces of software can authenticate against.
Architecture
dex consists of multiple components:
- dex-worker is the primary server component of dex
- host a user-facing API that drives the OIDC protocol
- proxy to remote identity providers via "connectors"
- dex-overlord is an auxiliary process responsible for two things:
- rotation of keys used by the workers to sign identity tokens
- garbage collection of stale data in the database
- dexctl is CLI tool used to manage an dex deployment
- configure identity provider connectors
- administer OIDC client identities
A typical dex deployment consists of N dex-workers behind a load balanacer, and one dex-overlord. The dex-workers directly handle user requests, so the loss of all workers can result in service downtime. The single dex-overlord runs its tasks periodically, so it does not need to maintain 100% uptime.
Connectors
Remote IdPs could implement any auth-N protocol. connectors contain protocol-specific logic and are used to communicate with remote IdPs. Possible examples of connectors could be: OIDC, LDAP, Local Memory, Basic Auth, etc. dex ships with an OIDC connector, and a basic "local" connector for in-memory testing purposes. Future connectors can be developed and added as future interoperability requirements emerge.
Relevant Specifications
These specs are referenced and implemented to some degree in the jose
package of this project.
OpenID Connect (OIDC) is broken up into several specifications. The following (amongst others) are relevant:
Example OIDC Discovery Endpoints
- https://accounts.google.com/.well-known/openid-configuration
- https://login.salesforce.com/.well-known/openid-configuration
Building
With Host Go Environment
./build
With Docker
./go-docker ./build
Docker Build and Push
Binaries must be compiled first. Builds a docker image and pushes it to the quay repo. The image is tagged with the git sha and 'latest'.
export QUAY_USER=xxx
export QUAY_PASSWORD=yyy
./build-docker-push
Rebuild API from JSON schema
Go API bindings are generated from a JSON Discovery file. To regenerate run:
./schema/generator
For updating generator dependencies see docs in: schema/generator_import.go
.
Runing Tests
Run all tests: ./test
Single package only: PKG=<pkgname> ./test
Functional tests: ./test-functional
Run with docker:
./go-docker ./test
./go-docker ./test-functional
Running
Run the main dex server:
After building, run ./bin/dex
and provider the required arguments.
Additionally start ./bin/dex-overlord
for key rotation and database garbage collection.
Deploying
Generate systemd unit files by injecting secrets into the unit file templates located in: ./static/...
.
source <path-to-secure>/prod/dex.env.txt
./build-units
Resulting unit files are output to: ./deploy
Registering Clients
Like all OAuth2 servers clients must be registered with a callback url. New clients can be registered with the dexctl CLI tool:
dexctl --db-url=postgres://localhost/auth?sslmode=disable new-client http://example.com/auth/callback
The tool will print the client-id
and client-secret
to stdout; you must save these for use in your client application. The output of this command is "KEY=VALUE" format, so If you eval
it in your shell, the relevant variables are available to use.
Note that for the initial invocation of dexctl
you need to provide a DSN URL to create a new-client. Once you have created this initial client, you can use its client-id and client-secret as credentials to dexctl, and make requests via the HTTP API instead of the DB:
dexctl --endpoint=http://your-issuer-url --client-id=your_client_id --client-secret=your_client_secret new-client
or, if you want to go the eval route:
eval "$(dexctl --endpoint=http://your-issuer-url --client-id=your_client_id --client-secret=your_client_secret new-client)"
The latter form makes the variables DEX_APP_CLIENT_ID
, DEX_APP_CLIENT_SECRET
and DEX_APP_REDIRECTURL_0
available to your shell.
This will allow you to create new clients from machines that cannot hit the database.
Standup Dev Script
A script which will create a database, create a client, start an overlord and a worker and start the example app exists at contrib/standup-db.sh
.
Coming Soon
- Multiple backing Identity Providers
- Identity Management
- Authorization