/mev-boost

mev-boost allows proof-of-stake Ethereum consensus clients to outsource block construction

Primary LanguageGoMIT LicenseMIT

mev-boost

Goreport status Test status

What is MEV-Boost?

mev-boost is open source middleware run by validators to access a competitive block-building market. MEV-Boost was built by Flashbots as an implementation of proposer-builder separation (PBS) for proof-of-stake (PoS) Ethereum.

With MEV-Boost, validators can access blocks from a marketplace of builders. Builders produce blocks containing transaction orderflow and a fee for the block proposing validator. Separating the role of proposers from block builders promotes greater competition, decentralization, and censorship-resistance for Ethereum.

How does MEV-Boost work?

PoS node operators must run three pieces of software: a validator client, consensus client, and an execution client. MEV-boost is a sidecar for the Consensus Client, a separate piece of open source software, which queries and outsources block-building to a network of builders. Block builders prepare full blocks, optimizing for MEV extraction and fair distribution of rewards. They then submit their blocks to relays.

Relays aggregate blocks from multiple builders in order to select the block with the highest fees. One instance of MEV-boost can be configured by a validator to connect to multiple relays. The Consensus Layer client of a validator proposes the most profitable block received from MEV-boost to the Ethereum network for attestation and block inclusion.

mev-boost service integration overview

Who can run MEV-Boost?

MEV-Boost is a piece of software that any PoS Ethereum node operator (including solo validators) can run as part of their Beacon Client software. It is compatible with any Ethereum consensus client. Support and installation instructions for each client can be found here.


See also:

Table of Contents

Background

MEV is a centralizing force on Ethereum. Unattended, the competition for MEV opportunities leads to consensus security instability and permissioned communication infrastructure between traders and block producers. This erodes neutrality, transparency, decentralization, and permissionlessness.

Proposer/block-builder separation (PBS) was initially proposed by Ethereum researchers as a response to the risk that MEV poses to decentralization of consensus networks. They have suggested that uncontrolled MEV extraction promotes economies of scale which are centralizing in nature, and complicate decentralized pooling.

Flashbots is a research and development organization working on mitigating the negative externalities of MEV. Flashbots started as a builder specializing in MEV extraction in proof-of-work Ethereum to democratize access to MEV and make the most profitable blocks available to all miners. >90% of miners are outsourcing some of their block construction to Flashbots today.

In the future, proposer/builder separation will be enshrined in the Ethereum protocol itself to further harden its trust model.

Read more in Why run mev-boost? and in the Frequently Asked Questions.

Installing

mev-boost can run in any machine, as long as it is reachable by the beacon client. The default port is 18550. The most common setup is to install it in the same machine as the beacon client.

Dependencies

From source

Install mev-boost with go install:

go install github.com/flashbots/mev-boost@latest
mev-boost -help

Or clone the repository and build it:

git clone https://github.com/flashbots/mev-boost.git
cd mev-boost
make build

# Show the help
./mev-boost -help

If mev-boost crashes with "SIGILL: illegal instruction" then you need to create a portable build:

CGO_CFLAGS="-O -D__BLST_PORTABLE__" go install github.com/flashbots/mev-boost@latest

# or
make build-portable

From Docker image

We maintain a mev-boost Docker images at https://hub.docker.com/r/flashbots/mev-boost

# Get the default mev-boost image
docker pull flashbots/mev-boost:latest

# Get the portable mev-boost image
docker pull flashbots/mev-boost:latest-portable

# Run it
docker run flashbots/mev-boost -help

Usage

A single mev-boost instance can be used by multiple beacon nodes. Note that aside from running mev-boost, you will need to configure your beacon node to connect to mev-boost and your validator to allow it to register with the relay. This configuration varies and a guide for each consensus client can be found on the MEV-boost website.

Mainnet

Run mev-boost pointed at our Mainnet Relay:

 ./mev-boost -mainnet -relay-check -relays https://0xac6e77dfe25ecd6110b8e780608cce0dab71fdd5ebea22a16c0205200f2f8e2e3ad3b71d3499c54ad14d6c21b41a37ae@boost-relay.flashbots.net

Goerli testnet

Run mev-boost pointed at our Goerli Relay:

 ./mev-boost -goerli -relay-check -relays https://0xafa4c6985aa049fb79dd37010438cfebeb0f2bd42b115b89dd678dab0670c1de38da0c4e9138c9290a398ecd9a0b3110@builder-relay-goerli.flashbots.net

Ropsten testnet

Run mev-boost pointed at our Ropsten Relay:

 ./mev-boost -ropsten -relay-check -relays https://0xb124d80a00b80815397b4e7f1f05377ccc83aeeceb6be87963ba3649f1e6efa32ca870a88845917ec3f26a8e2aa25c77@builder-relay-ropsten.flashbots.net

Kiln testnet

Run mev-boost pointed at our Kiln Relay:

./mev-boost -kiln -relay-check -relays https://0xb5246e299aeb782fbc7c91b41b3284245b1ed5206134b0028b81dfb974e5900616c67847c2354479934fc4bb75519ee1@builder-relay-kiln.flashbots.net

Sepolia testnet

Run mev-boost pointed at our Sepolia Relay:

 ./mev-boost -sepolia -relay-check -relays https://0x845bd072b7cd566f02faeb0a4033ce9399e42839ced64e8b2adcfc859ed1e8e1a5a293336a49feac6d9a5edb779be53a@builder-relay-sepolia.flashbots.net

test-cli

test-cli is a utility to execute all proposer requests against mev-boost+relay. See also the test-cli readme.

API

mev-boost implements the latest Builder Specification.

sequenceDiagram
    participant consensus
    participant mev_boost
    participant relays
    Title: Block Proposal
    Note over consensus: validator starts up
    consensus->>mev_boost: registerValidator
    mev_boost->>relays: registerValidator
    Note over consensus: wait for allocated slot
    consensus->>mev_boost: getHeader
    mev_boost->>relays: getHeader
    relays-->>mev_boost: getHeader response
    Note over mev_boost: verify response matches expected
    Note over mev_boost: select best payload
    mev_boost-->>consensus: getHeader response
    Note over consensus: sign the header
    consensus->>mev_boost: submitBlindedBlock
    Note over mev_boost: identify payload source
    mev_boost->>relays: submitBlindedBlock
    Note over relays: validate signature
    relays-->>mev_boost: submitBlindedBlock response
    Note over mev_boost: verify response matches expected
    mev_boost-->>consensus: submitBlindedBlock response
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The Plan

mev-boost is the next step on our exploration towards a trustless and decentralized MEV market. It is a service developed in collaboration with the Ethereum developers and researchers.

The roadmap, expected deliveries and estimated deadlines are described in the plan. Join us in this repository while we explore the remaining open research questions with all the relevant organizations in the ecosystem.

Maintainers

Contributing

Flashbots is a research and development collective working on mitigating the negative externalities of decentralized economies. We contribute with the larger free software community to illuminate the dark forest.

You are welcome here <3.

  • If you have a question, feedback or a bug report for this project, please open a new Issue.
  • If you would like to contribute with code, check the CONTRIBUTING file for further info about the development environment.
  • We just ask you to be nice. Read our code of conduct.

Security

If you find a security vulnerability on this project or any other initiative related to Flashbots, please let us know sending an email to security@flashbots.net.

Audits

License

The code in this project is free software under the MIT License.

Logo by @lekevicius on CC0 license.


Made with ☀️ by the ⚡🤖 collective.