2c26fc9c0e
One of Rust's promises is "if it compiles, it works". However, there are certain situations in which this isn't true. In particular, when using dynamic typing patterns where trait objects are downcast to concrete types, having two versions of the same dependency can silently break things. This happened in #7379 where I forgot to patch a certain Sentry dependency. A similar problem exists with our `tracing-stackdriver` dependency (see #7241). Lastly, duplicate dependencies increase the compile-times of a project, so we should aim for having as few duplicate versions of a particular dependency as possible in our dependency graph. This PR introduces `cargo deny`, a linter for Rust dependencies. In addition to linting for duplicate dependencies, it also enforces that all dependencies are compatible with an allow-list of licenses and it warns when a dependency is referred to from multiple crates without introducing a workspace dependency. Thanks to existing tooling (https://github.com/mainmatter/cargo-autoinherit), transitioning all dependencies to workspace dependencies was quite easy. Resolves: #7241.
relay
This crate houses a minimalistic STUN & TURN server.
Features
We aim to support the following feature set:
- STUN binding requests
- TURN allocate requests
- TURN refresh requests
- TURN channel bind requests
- TURN channel data requests
Relaying of data through other means such as DATA frames is not supported.
Building
You can build the relay using: cargo build --release --bin firezone-relay
You should then find a binary in target/release/firezone-relay.
Running
The Firezone Relay supports Linux only. To run the Relay binary on your Linux host:
- Generate a new Relay token from the "Relays" section of the admin portal and save it in your secrets manager.
- Ensure the
FIREZONE_TOKEN=<relay_token>environment variable is set securely in your Relay's shell environment. The Relay expects this variable at startup. - Now, you can start the Firezone Relay with:
firezone-relay
To view more advanced configuration options pass the --help flag:
firezone-relay --help
Ports
By default, the relay listens on port udp/3478. This is the standard port for
STUN/TURN. Additionally, the relay needs to have access to the port range
49152 - 65535 for the allocations.
Portal Connection
When given a token, the relay will connect to the Firezone portal and wait for
an init message before commencing relay operations.
Metrics
The relay parses the OTLP_GRPC_ENDPOINT env variable.
Traces and metrics will be sent to an OTLP collector listening on that endpoint.
It is recommended to set additional environment variables to scope your metrics:
OTEL_SERVICE_NAME: Translates to theservice.name.OTEL_RESOURCE_ATTRIBUTES: Additional, comma-separated key=value attributes.
By default, we set the following OTEL attributes:
service.name=relayservice.namespace=firezone
The docker-init-relay.sh script integrates with GCE.
When OTEL_METADATA_DISCOVERY_METHOD=gce_metadata, the service.instance.id
variables is set to the instance ID of the VM.
Design
The relay is designed in a sans-IO fashion, meaning the core components do not cause side effects but operate as pure, synchronous state machines. They take in data and emit commands: wake me at this point in time, send these bytes to this peer, etc.
This allows us to very easily unit-test all kinds of scenarios because all inputs are simple values.
The main server runs in a single task and spawns one additional task for each allocation. Incoming data that needs to be relayed is forwarded to the main task where it gets authenticated and relayed on success.