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Electric Eel (eleel)

Eleel is a multiplexer for Ethereum execution clients. It allows multiple consensus clients to connect to a single execution client.

It is suitable for monitoring and analytics but should not be used to run validators and will cause you to miss block proposals if you attempt this.

Eleel is written in Rust and makes use of components from Lighthouse.

Build from source

 cargo install --locked --path .

A binary will be installed to ~/.cargo/bin/eleel.

Getting started

Eleel needs to connect to a real execution node, e.g. Geth/Nethermind/Besu. You should set up an execution node and take note of the JWT secret it uses. We'll provide it to Eleel's --ee-jwt-secret flag.

Eleel also needs a controlling consensus node (e.g. Lighthouse) which is responsible for driving the execution node. The controlling node is in charge, and its messages will be sent directly to the execution node. The controller connects to Eleel using the /canonical path. There is a second JWT secret for authenticating the controller to Eleel, which is set using the --controller-jwt-secret flag.

You can generate a new JWT secret using this command:

openssl rand -hex 32 | tr -d "\n"

In addition to the single controller node, Eleel also supports multiple consensus clients, which can be authenticated using any of a collection of JWT secrets specified in a TOML config file. There are a lot of JWT secrets! An example TOML file can be seen below:

[secrets]
node1 = "c259fb249f7fa1882b1d4150ace73c1023aba4f6267b29a871ad5c9adc7a543a"
node2 = "fb6073f77160f9a7ce11190d3612e841daea2e7319a59e1d82a8804e9fa193ee"

The identifiers node1 and node2 are key IDs which are used by Eleel to decide which secret to use when authenticating a request. It does this by examining the id field of the claim (distinct from the standard JWT key-id). If the id is not set by the client then Eleel tries all of the keys in a random order looking for a match (slow).

Putting this all together, here's an example of Eleel sharing a Geth node between two Lighthouse nodes:

Eleel, connected to Geth on port 8551 and serving the consensus nodes on port 8552:

eleel \
  --ee-jwt-secret /tmp/execution.jwt \
  --ee-url "http://localhost:8551" \
  --controller-jwt-secret /tmp/controller.jwt \
  --client-jwt-secrets /tmp/client-secrets.toml \
  --listen-port 8552

Geth, using the same JWT secret that Eleel uses to connect to it:

geth --authrpc.jwtsecret /tmp/execution.jwt --authrpc.port 8551

Lighthouse running as the controller and connected to Eleel's /canonical endpoint:

lighthouse bn \
  --execution-endpoint "http://localhost:8552/canonical" \
  --execution-jwt "/tmp/controller.jwt"

Lighthouse running as a client connected to Eleel's / endpoint:

lighthouse bn \
  --execution-endpoint "http://localhost:8552" \
  --execution-jwt "/tmp/node1.jwt" \
  --execution-jwt-id "node1"

CLI reference

For full CLI options see ./docs/cli-reference.md, or run eleel --help.

HTTP API reference

  • POST /: JSON-RPC endpoint for multiplexed consensus clients. Requires a JWT token authenticated by one of the secrets in the --client-jwt-secrets file.
  • POST /canonical: JSON-RPC endpoint for the controlling consensus client. Requires a JWT token authenticated by the JWT secret provided to the --controller-jwt-secret flag.
  • curl -X GET "http://localhost:8552/health" -v: health endpoint returning a 200 OK whenever Eleel is running.

Logging

Eleel only prints logs when the RUST_LOG environment variable is set. We recommend running with debug logs enabled like so:

RUST_LOG=eleel=debug eleel ...

More information about JWT authentication can be seen at trace level.

Block Building

Eleel does not build valid execution blocks, but will build invalid dummy execution payloads. This is designed for use with blockdreamer only and will cause you to propose invalid blocks if used by a validator client.

If running Lighthouse as the controller, you should ensure it is configured to send payload attributes every slot using these flags:

lighthouse bn \
  --always-prepare-payload \
  --prepare-payload-lookahead 8000 \
  --suggested-fee-recipient 0xffffffffffffffffffffffffffffffffffffffff

Note: If both consensus clients are using the same port (for example, Lighthouse uses p2p port 9000 by default), the second consensus client will require an additional flag --port.

Some other consensus clients provide similar flags.

License

Copyright Sigma Prime 2023 and contributors.

Licensed under the terms of the Apache 2.0 license.