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Modular, contributor-friendly and blazing-fast implementation of the Ethereum protocol, in Rust

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Gwyneth

Install

cd packages/protocol
pnpm install
make install

Use

Add custom networks to your wallet:

chain_id: 167010
name: Gwyneth-1
rpc: http://127.0.0.1:32005
Currency: ETH
Block explorer: http://127.0.0.1:64003
chain_id: 167011
name: Gwyneth-2
rpc: http://127.0.0.1:32006
Currency: ETH
Block explorer: http://127.0.0.1:64005
chain_id: 160010
name: Gwyneth L1
rpc: http://127.0.0.1:32002
Currency: ETH
Block explorer: http://127.0.0.1:64001

Add test accounts that have some ETH to play with:

  • 0x8943545177806ED17B9F23F0a21ee5948eCaa776 (private key: bcdf20249abf0ed6d944c0288fad489e33f66b3960d9e6229c1cd214ed3bbe31)
  • 0xE25583099BA105D9ec0A67f5Ae86D90e50036425 (private key: 39725efee3fb28614de3bacaffe4cc4bd8c436257e2c8bb887c4b5c4be45e76d)
  • 0x614561D2d143621E126e87831AEF287678B442b8 (private key: 53321db7c1e331d93a11a41d16f004d7ff63972ec8ec7c25db329728ceeb1710)

Rabby/Brave wallet works, but some issues with nonces so you may have to manually input the correct nonce.

How to add extra layer2s ?

In order to add extra layer 2 networks, you need to increase the the NUM_L2_CHAINS in the main function here. (Later on it will be a configurational setting - no code !)

If you want infrastructure support too, namingly:

  1. Exposing the jspn rpc port to the host machine (since everything is running in Docker with Kurtosis), you need to specify as a config param like here. (By default, if you dont specify this param, the first Layer2 port - which is 10110 - will be exposed to the host anyways. You only need to add this param if you are exposing more than 1 ports to the outter world.)
  2. Blockscout support: Here you can see a pattern, how to shoot up blockscout service too. If you want 3 layer2 explorers, just use the service name blockscout_l2_3.

reth

CI status cargo-deny status Telegram Chat

Modular, contributor-friendly and blazing-fast implementation of the Ethereum protocol

Install | User Book | Developer Docs | Crate Docs

What is Reth?

Reth (short for Rust Ethereum, pronunciation) is a new Ethereum full node implementation that is focused on being user-friendly, highly modular, as well as being fast and efficient. Reth is an Execution Layer (EL) and is compatible with all Ethereum Consensus Layer (CL) implementations that support the Engine API. It is originally built and driven forward by Paradigm, and is licensed under the Apache and MIT licenses.

Goals

As a full Ethereum node, Reth allows users to connect to the Ethereum network and interact with the Ethereum blockchain. This includes sending and receiving transactions/logs/traces, as well as accessing and interacting with smart contracts. Building a successful Ethereum node requires creating a high-quality implementation that is both secure and efficient, as well as being easy to use on consumer hardware. It also requires building a strong community of contributors who can help support and improve the software.

More concretely, our goals are:

  1. Modularity: Every component of Reth is built to be used as a library: well-tested, heavily documented and benchmarked. We envision that developers will import the node's crates, mix and match, and innovate on top of them. Examples of such usage include but are not limited to spinning up standalone P2P networks, talking directly to a node's database, or "unbundling" the node into the components you need. To achieve that, we are licensing Reth under the Apache/MIT permissive license. You can learn more about the project's components here.
  2. Performance: Reth aims to be fast, so we used Rust and the Erigon staged-sync node architecture. We also use our Ethereum libraries (including Alloy and revm) which we’ve battle-tested and optimized via Foundry.
  3. Free for anyone to use any way they want: Reth is free open source software, built for the community, by the community. By licensing the software under the Apache/MIT license, we want developers to use it without being bound by business licenses, or having to think about the implications of GPL-like licenses.
  4. Client Diversity: The Ethereum protocol becomes more antifragile when no node implementation dominates. This ensures that if there's a software bug, the network does not finalize a bad block. By building a new client, we hope to contribute to Ethereum's antifragility.
  5. Support as many EVM chains as possible: We aspire that Reth can full-sync not only Ethereum, but also other chains like Optimism, Polygon, BNB Smart Chain, and more. If you're working on any of these projects, please reach out.
  6. Configurability: We want to solve for node operators that care about fast historical queries, but also for hobbyists who cannot operate on large hardware. We also want to support teams and individuals who want both sync from genesis and via "fast sync". We envision that Reth will be configurable enough and provide configurable "profiles" for the tradeoffs that each team faces.

Status

Reth is production ready, and suitable for usage in mission-critical environments such as staking or high-uptime services. We also actively recommend professional node operators to switch to Reth in production for performance and cost reasons in use cases where high performance with great margins is required such as RPC, MEV, Indexing, Simulations, and P2P activities.

More historical context below:

  • We released 1.0 "production-ready" stable Reth in June 2024.
  • We released multiple iterative beta versions, up to beta.9 on Monday June 3rd 2024 the last beta release.
  • We released beta on Monday March 4th 2024, our first breaking change to the database model, providing faster query speed, smaller database footprint, and allowing "history" to be mounted on separate drives.
  • We shipped iterative improvements until the last alpha release on February 28th 2024, 0.1.0-alpha.21.
  • We initially announced 0.1.0-alpha.1 in June 20th 2023.

Database compatibility

We do not have any breaking database changes since beta.1, and do not plan any in the near future.

Reth v0.2.0-beta.1 includes a set of breaking database changes that makes it impossible to use database files produced by earlier versions.

If you had a database produced by alpha versions of Reth, you need to drop it with reth db drop (using the same arguments such as --config or --datadir that you passed to reth node), and resync using the same reth node command you've used before.

For Users

See the Reth Book for instructions on how to install and run Reth.

For Developers

Using reth as a library

You can use individual crates of reth in your project.

The crate docs can be found here.

For a general overview of the crates, see Project Layout.

Contributing

If you want to contribute, or follow along with contributor discussion, you can use our main telegram to chat with us about the development of Reth!

Building and testing

The Minimum Supported Rust Version (MSRV) of this project is 1.80.0.

See the book for detailed instructions on how to build from source.

To fully test Reth, you will need to have Geth installed, but it is possible to run a subset of tests without Geth.

First, clone the repository:

git clone https://github.com/paradigmxyz/reth
cd reth

Next, run the tests:

# Without Geth
cargo test --workspace

# With Geth
cargo test --workspace --features geth-tests

# With Ethereum Foundation tests
#
# Note: Requires cloning https://github.com/ethereum/tests
#
#   cd testing/ef-tests && git clone https://github.com/ethereum/tests ethereum-tests
cargo test -p ef-tests --features ef-tests

We recommend using cargo nextest to speed up testing. With nextest installed, simply substitute cargo test with cargo nextest run.

Note

Some tests use random number generators to generate test data. If you want to use a deterministic seed, you can set the SEED environment variable.

Getting Help

If you have any questions, first see if the answer to your question can be found in the book.

If the answer is not there:

Security

See SECURITY.md.

Acknowledgements

Reth is a new implementation of the Ethereum protocol. In the process of developing the node we investigated the design decisions other nodes have made to understand what is done well, what is not, and where we can improve the status quo.

None of this would have been possible without them, so big shoutout to the teams below:

  • Geth: We would like to express our heartfelt gratitude to the go-ethereum team for their outstanding contributions to Ethereum over the years. Their tireless efforts and dedication have helped to shape the Ethereum ecosystem and make it the vibrant and innovative community it is today. Thank you for your hard work and commitment to the project.
  • Erigon (fka Turbo-Geth): Erigon pioneered the "Staged Sync" architecture that Reth is using, as well as introduced MDBX as the database of choice. We thank Erigon for pushing the state of the art research on the performance limits of Ethereum nodes.
  • Akula: Reth uses forks of the Apache versions of Akula's MDBX Bindings, FastRLP and ECIES . Given that these packages were already released under the Apache License, and they implement standardized solutions, we decided not to reimplement them to iterate faster. We thank the Akula team for their contributions to the Rust Ethereum ecosystem and for publishing these packages.

Warning

The NippyJar and Compact encoding formats and their implementations are designed for storing and retrieving data internally. They are not hardened to safely read potentially malicious data.

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Modular, contributor-friendly and blazing-fast implementation of the Ethereum protocol, in Rust

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