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Project Layout

This repository contains several Rust crates that implement the different building blocks of an Ethereum node. The high-level structure of the repository is as follows:

Generally reth is composed of a few components, with supporting crates. The main components can be defined as:

The supporting crates are split into two categories: primitives and miscellaneous.

Documentation

Contributor documentation is in docs and end-user documentation is in book.

Binaries

All binaries are stored in bin.

Storage

These crates are related to the database.

  • storage/codecs: Different storage codecs.
  • storage/libmdbx-rs: Rust bindings for libmdbx. A fork of an earlier Apache-licensed version of libmdbx-rs.
  • storage/db: Strongly typed Database abstractions (transactions, cursors, tables) over lower level database backends.
    • Implemented backends: mdbx
  • storage/provider: Traits which provide a higher level api over the database to access the Ethereum state and historical data (transactions, blocks etc.)

Networking

These crates are related to networking (P2P).

The networking component mainly lives in net/network, which handles:

  • Message egress/ingress
  • Peer management
  • Session management

Common

  • net/common: Shared types used across multiple networking crates.
    • Contains: Peer banlist.
  • net/network-api: Contains traits that define the networking component as a whole. Other components that interface with the network stack only need to depend on this crate for the relevant types.
  • net/nat: A small helper crate that resolves the external IP of the running node using various methods (such as a manually provided IP, using UPnP etc.)

Discovery

Protocol

  • net/eth-wire: Implements the eth wire protocol and the RLPx networking stack.
  • net/ecies: Implementation of the Elliptic Curve Integrated Encryption Scheme used in the RLPx handshake.

Downloaders

  • net/downloaders: Traits defining block body and header downloaders, as well as P2P implementations of both.

Consensus

Different consensus mechanisms.

  • consensus/common: Common consensus functions and traits (e.g. fee calculation)
  • consensus/auto-seal: A consensus mechanism that auto-seals blocks for local development (also commonly known as "auto-mine")
  • consensus/beacon: Consensus mechanism that handles messages from a beacon node ("eth2")

Execution

Crates related to transaction execution.

  • revm: An implementation of an executor using revm
  • revm/revm-inspectors: Various revm inspectors for debugging and building traces for the trace-related RPC APIs.
  • revm/revm-primitives: A crate for handling revm-reth type conversion

Sync

These crates implement the main syncing drivers of reth.

  • blockchain-tree: A tree-like structure for handling multiple chains of unfinalized blocks. This is the main component during live sync (i.e. syncing at the tip)
  • stages: A pipelined sync, including implementation of various stages. This is used during initial sync and is faster than the tree-like structure for longer sync ranges.

RPC

Crates related to the RPC component (including IPC transport)

The RPC component mainly lives in rpc/rpc, which implements the following namespaces:

  • admin_
  • debug_ (includes Geth-style tracing APIs)
  • eth_
  • net_
  • trace_ (OpenEthereum-style tracing APIs)
  • txpool_
  • web3_

The engine API (engine_) lives in rpc/rpc-engine-api (this is not an interface crate despite the confusing name).

There is also a crate to easily configure an RPC server: rpc/rpc-builder.

Transports

The RPC component is based on the jsonrpsee crate which provides JSONRPC over WebSockets and HTTP.

The IPC transport lives in rpc/ipc.

Common

  • rpc/rpc-api: RPC traits
    • Supported transports: HTTP, WS, IPC
    • Supported namespaces: eth_, engine_, debug_
  • rpc/rpc-types: Types relevant for the RPC endpoints above, grouped by namespace

Payloads

Crates related to building and validating payloads (blocks).

  • transaction-pool: An in-memory pending transactions pool.
  • payload/builder: Abstractions for payload building and a payload builder service that works with multiple kinds of payload resolvers.
  • payload/basic: A basic payload generator.

Primitives

These crates define primitive types or algorithms such as RLP.

  • primitives: Commonly used types in Reth.
  • rlp: An implementation of RLP, forked from an earlier Apache-licensed version of fastrlp
  • rlp/rlp-derive: Forked from an earlier Apache licenced version of the fastrlp-derive crate, before it changed licence to GPL.
  • trie: An implementation of a Merkle Patricia Trie used for various roots (e.g. the state root) in Ethereum.

Misc

Small utility crates.

  • interfaces: Traits containing common abstractions across the components used in the system. For ease of unit testing, each crate importing the interface is recommended to create mock/in-memory implementations of each trait.
  • tasks: An executor-agnostic task abstraction, used to spawn tasks on different async executors. Supports blocking tasks and handles panics gracefully. A tokio implementation is provided by default.
  • metrics/common: Common metrics types (e.g. metered channels)
  • metrics/metrics-derive: A derive-style API for creating metrics
  • tracing: A small utility crate to install a uniform tracing subscriber