Giter Site home page Giter Site logo

gankhe / mev-geth Goto Github PK

View Code? Open in Web Editor NEW

This project forked from flashbots/mev-geth

0.0 0.0 0.0 147.12 MB

Go implementation of MEV-Extract for Ethereum

License: GNU Lesser General Public License v3.0

Go 88.55% Java 0.25% Ruby 0.01% Shell 0.18% C++ 0.06% C 5.52% Makefile 0.10% M4 0.21% JavaScript 3.62% Assembly 0.79% NSIS 0.19% HTML 0.09% Python 0.05% Dockerfile 0.01% Solidity 0.13% Sage 0.25%

mev-geth's Introduction

MEV-geth

This is a fork of go-ethereum, the original README is here.

Flashbots is a research and development organization formed to mitigate the negative externalities and existential risks posed by miner-extractable value (MEV) to smart-contract blockchains. We propose a permissionless, transparent, and fair ecosystem for MEV extraction that reinforce the Ethereum ideals.

Quick start

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

See here for further info on building MEV-geth from source.

MEV-Geth: a proof of concept

We have designed and implemented a proof of concept for permissionless MEV extraction called MEV-Geth. It is a sealed-bid block space auction mechanism for communicating transaction order preference. While our proof of concept has incomplete trust guarantees, we believe it's a significant improvement over the status quo. The adoption of MEV-Geth should relieve a lot of the network and chain congestion caused by frontrunning and backrunning bots.

Guarantee PGA Dark-txPool MEV-Geth
Permissionless
Efficient
Pre-trade privacy
Failed trade privacy
Complete privacy
Finality

Why MEV-Geth?

We believe that without the adoption of neutral, public, open-source infrastructure for permissionless MEV extraction, MEV risks becoming an insiders' game. We commit as an organization to releasing reference implementations for participation in fair, ethical, and politically neutral MEV extraction. By doing so, we hope to prevent the properties of Ethereum from being eroded by trust-based dark pools or proprietary channels which are key points of security weakness. We thus release MEV-Geth with the dual goal of creating an ecosystem for MEV extraction that preserves Ethereum properties, as well as starting conversations with the community around our research and development roadmap.

Design goals

  • Permissionless A permissionless design implies there are no trusted intermediary which can censor transactions.
  • Efficient An efficient design implies MEV extraction is performed without causing unnecessary network or chain congestion.
  • Pre-trade privacy Pre-trade privacy implies transactions only become publicly known after they have been included in a block. Note, this type of privacy does not exclude privileged actors such as transaction aggregators / gateways / miners.
  • Failed trade privacy Failed trade privacy implies loosing bids are never included in a block, thus never exposed to the public. Failed trade privacy is tightly coupled to extraction efficiency.
  • Complete privacy Complete privacy implies there are no privileged actors such as transaction aggregators / gateways / miners who can observe incoming transactions.
  • Finality Finality implies it is infeasible for MEV extraction to be reversed once included in a block. This would protect against time-bandit chain re-org attacks.

The MEV-Geth proof of concept relies on the fact that searchers can withhold bids from certain miners in order to disincentivize bad behavior like stealing a profitable strategy. We expect a complete privacy design to necessitate some sort of private computation solution like SGX, ZKP, or MPC to withhold the transaction content from miners until it is mined in a block. One of the core objective of the Flashbots organization is to incentivize and produce research in this direction.

The MEV-Geth proof of concept does not provide any finality guarantees. We expect the solution to this problem to require post-trade execution privacy through private chain state or strong economic infeasibility. The design of a system with strong finality is the second core objective of the MEV-Geth research effort.

How it works

MEV-Geth introduces the concepts of "searchers", "transaction bundles", and "block template" to Ethereum. Effectively, MEV-Geth provides a way for miners to delegate the task of finding and ordering transactions to third parties called "searchers". These searchers compete with each other to find the most profitable ordering and bid for its inclusion in the next block using a standardized template called a "transaction bundle". These bundles are evaluated in a sealed-bid auction hosted by miners to produce a "block template" which holds the information about transaction order required to begin mining.

The MEV-Geth proof of concept is compatible with any regular Ethereum client. The Flashbots core devs are maintaining a reference implementation for the go-ethereum client.

Differences between MEV-Geth and vanilla geth

The entire patch can be broken down into four modules:

  1. bundle worker and eth_sendBundle rpc (commits 8104d5d7b0a54bd98b3a08479a1fde685eb53c29 and c2b5b4029b2b748a6f1a9d5668f12096f096563d)
  2. profit switcher (commit aa5840d22f4882f91ecba0eb20ef35a702b134d5)
  3. eth_callBundle simulation rpc (commits 9199d2e13d484df7a634fad12343ed2b46d5d4c3 and a99dfc198817dd171128cc22439c81896e876619)
  4. Documentation (this file) and CI/infrastructure configuration (commit 035109807944f7a446467aa27ca8ec98d109a465)

The entire changeset can be viewed inspecting the diff.

In summary:

  • Geth’s txpool is modified to also contain a mevBundles field, which stores a list of MEV bundles. Each MEV bundle is an array of transactions, along with a min/max timestamp for their inclusion.
  • A new eth_sendBundle API is exposed which allows adding an MEV Bundle to the txpool. During the Flashbots Alpha, this is only called by MEV-relay.
    • The transactions submitted to the bundle are “eth_sendRawTransaction-style” RLP encoded signed transactions along with the min/max block of inclusion
    • This API is a no-op when run in light mode
  • Geth’s miner is modified as follows:
    • While in the event loop, before adding all the pending txpool “normal” transactions to the block, it:
      • Finds the most profitable bundle
        • It picks the most profitable bundle by returning the one with the highest average gas price per unit of gas
          • computeBundleGas: Returns average gas price (\sum{gasprice_i*gasused_i + (coinbase_after - coinbase_before)) / \sum{gasused_i})
      • Commits the bundle (remember: Bundle transactions are not ordered by nonce or gas price). For each transaction in the bundle, it:
        • Prepare’s it against the state
        • CommitsTransaction with trackProfit = true w.current.profit += coinbase_after_tx - coinbase_before_tx w.current.profit += gas * gas_price
    • If a block is found where the w.current.profit is more than the previous profit, it switches mining to that block.
  • A new eth_callBundle API is exposed that enables simulation of transaction bundles.
  • Documentation and CI/infrastructure files are added.

MEV-Geth for miners

Miners can start mining MEV blocks by running MEV-Geth, or by implementing their own fork that matches the specification.

While only the bundle worker and eth_sendBundle module (1) is necessary to mine flashbots blocks, we recommend also running the profit switcher module (2) to guarantee mining rewards are maximized. The eth_callBundle simulation rpc module (3) is not needed for the alpha. The suggested configuration is implemented in the master branch of this repository, which also includes the documentation module (4).

We issue and maintain releases for the recommended configuration for the current and immediately prior versions of geth.

In order to see the diff of the recommended patch, run:

 git diff master~4..master~1

Alternatively, the master-barebones branch includes only modules (1) and (4), leaving the profit switching logic to miners. While this usage is discouraged, it entails a much smaller change in the code.

At this stage, we recommend only receiving bundles via a relay, to prevent abuse via denial-of-service attacks. We have implemented and currently run such relay. This relay performs basic rate limiting and miner profitability checks, but does otherwise not interfere with submitted bundles in any way, and is open for everybody to participate. We invite you to try the Flashbots Alpha and start receiving MEV revenue by following these steps:

  1. Fill out this form to indicate your interest in participating in the Alpha and be added to the MEV-Relay miner whitelist.
  2. You will receive an onboarding email from Flashbots to help set up your MEV-Geth node and protect it with a reverse proxy to open the eth_sendBundle RPC.
  3. Respond to Flashbots' email with your MEV-Geth node endpoint to be added to the Flashbots hosted MEV-relay gateway. MEV-Relay is needed during the alpha to aggregate bundle requests from all users, prevent spam and DOS attacks on participating miner(s)/mining pool(s), and collect system health metrics.
  4. After receiving a confirmation email that your MEV-Geth node's endpoint has been added to the relay, you will immediately start receiving Flashbots transaction bundles with associated MEV revenue paid to you.

MEV-Geth for searchers

You do not need to run MEV-Geth as a searcher, but, instead, to monitor the Ethereum state and transaction pool for MEV opportunities and produce transaction bundles that extract that MEV. Anyone can become a searcher. In fact, the bundles produced by searchers don't need to extract MEV at all, but we expect the most valuable bundles will.

An MEV-Geth bundle is a standard message template composed of an array of valid ethereum transactions, a blockheight, and an optional timestamp range over which the bundle is valid.

{
    "signedTransactions": ['...'], // RLP encoded signed transaction array
    "blocknumber": "0x386526", // hex string
    "minTimestamp": 12345, // optional uint64
    "maxTimestamp": 12345 // optional uint64
}

The signedTransactions can be any valid ethereum transactions. Care must be taken to place transaction nonces in correct order.

The blocknumber defines the block height at which the bundle is to be included. A bundle will only be evaluated for the provided blockheight and immediately evicted if not selected.

The minTimestamp and maxTimestamp are optional conditions to further restrict bundle validity within a time range.

MEV-Geth miners select the most profitable bundle per unit of gas used and place it at the beginning of the list of transactions of the block template at a given blockheight. Miners determine the value of a bundle based on the following equation. Note, the change in block.coinbase balance represents a direct transfer of ETH through a smart contract.

To submit a bundle, the searcher sends the bundle directly to the miner using the rpc method eth_sendBundle. Since MEV-Geth requires direct communication between searchers and miners, a searcher can configure the list of miners where they want to send their bundle.

Feature requests and bug reports

If you are a user of MEV-Geth and have suggestions on how to make integration with your current setup easier, or would like to submit a bug report, we encourage you to open an issue in this repository with the enhancement or bug labels respectively. If you need help getting started, please ask in the dedicated #⛏️miners channel in our Discord.

Moving beyond proof of concept

We provide the MEV-Geth proof of concept as a first milestone on the path to mitigating the negative externalities caused by MEV. We hope to discuss with the community the merits of adopting MEV-Geth in its current form. Our preliminary research indicates it could free at least 2.5% of the current chain congestion by eliminating the use of frontrunning and backrunning and provide uplift of up to 18% on miner rewards from Ethereum. That being said, we believe a sustainable solution to MEV existential risks requires complete privacy and finality, which the proof of concept does not address. We hope to engage community feedback throughout the development of this complete version of MEV-Geth.

mev-geth's People

Contributors

acud avatar arachnid avatar cjentzsch avatar cubedro avatar debris avatar fjl avatar frncmx avatar gavofyork avatar gballet avatar gluk256 avatar holiman avatar holisticode avatar janos avatar jpeletier avatar jsvisa avatar karalabe avatar kielbarry avatar ligi avatar mariusvanderwijden avatar matthalp-zz avatar nolash avatar nonsense avatar obscuren avatar renaynay avatar rjl493456442 avatar tgerring avatar ucwong avatar vbuterin avatar zelig avatar zsfelfoldi avatar

Recommend Projects

  • React photo React

    A declarative, efficient, and flexible JavaScript library for building user interfaces.

  • Vue.js photo Vue.js

    🖖 Vue.js is a progressive, incrementally-adoptable JavaScript framework for building UI on the web.

  • Typescript photo Typescript

    TypeScript is a superset of JavaScript that compiles to clean JavaScript output.

  • TensorFlow photo TensorFlow

    An Open Source Machine Learning Framework for Everyone

  • Django photo Django

    The Web framework for perfectionists with deadlines.

  • D3 photo D3

    Bring data to life with SVG, Canvas and HTML. 📊📈🎉

Recommend Topics

  • javascript

    JavaScript (JS) is a lightweight interpreted programming language with first-class functions.

  • web

    Some thing interesting about web. New door for the world.

  • server

    A server is a program made to process requests and deliver data to clients.

  • Machine learning

    Machine learning is a way of modeling and interpreting data that allows a piece of software to respond intelligently.

  • Game

    Some thing interesting about game, make everyone happy.

Recommend Org

  • Facebook photo Facebook

    We are working to build community through open source technology. NB: members must have two-factor auth.

  • Microsoft photo Microsoft

    Open source projects and samples from Microsoft.

  • Google photo Google

    Google ❤️ Open Source for everyone.

  • D3 photo D3

    Data-Driven Documents codes.