The home for Hyperlane core contracts, sdk packages, and other infrastructure
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hyperlane-monorepo/rust
Trevor Porter 82a90c120c
chore: update USDC Ethereum router address in token-config (#4542)
2 months ago
..
main feat: v3 Jito submission (#3429) (#4528) 2 months ago
sealevel chore: update USDC Ethereum router address in token-config (#4542) 2 months ago
.dockerignore Add rust .dockerignore (#14) 3 years ago
.gitignore feat: Relayer heap profiling (#4180) 4 months ago
Dockerfile fix: fix VERGEN_GIT_SHA population in Docker image (#4503) 2 months ago
README.md feat: Fetch logs by transaction hash (#4510) 2 months ago
build.sh chore: add shebang to build.sh to specify bash as the interpreter (#4066) 5 months ago
rust-toolchain feat: Splitting `rust` workspace into `main` and `sealevel` (#4438) 2 months ago

README.md

Hyperlane Rust implementations

Setup

Note: You should be running >= version 1.72.1 of the rustc compiler, you can see that version with this command and should see similar output:

$ rustup --version
rustup 1.26.0 (5af9b9484 2023-04-05)
info: This is the version for the rustup toolchain manager, not the rustc compiler.
info: The currently active `rustc` version is `rustc 1.72.1 (d5c2e9c34 2023-09-13)`

Apple Silicon

If your device has an Apple Silicon processor, you may need to install Rosetta 2:

softwareupdate --install-rosetta --agree-to-license

Running Locally

To run the validator, run:

cargo run --release --bin validator

Or build and then run the binary directly:

cargo build --release --bin validator
./target/release/validator

To run the relayer, run:

cargo run --release --bin relayer

Or build and then run the binary directly:

cargo build --release --bin relayer
./target/release/relayer

Running local binary against cloud resources (AWS KMS, S3, Postgresql, Google Cloud Storage, etc)

Building the docker image and upgrading the pod is a slow process. To speed up the development cycle, you can run a local binary against cloud resources. This workflow is useful for testing local changes against cloud resources. It is also useful for debugging issues in production.

Example of fetching env from pod:

kubectl exec fuji-hyperlane-agent-validator-0 --namespace testnet3 -c agent -- printenv > ./config/validator.fuji.env

Copy directory (rocks DB) from pod to local:

kubectl cp testnet3/fuji-hyperlane-agent-validator-0:/usr/share/hyperlane /tmp/fuji-validator-db

Configure additional env variables appropriately:

HYP_DB=/tmp/fuji-validator-db
CONFIG_FILES=./config/testnet_config.json
HYP_TRACING_FMT=pretty
GCS_USER_SECRET=./path/to/file
# or if service account used
GCS_SERVICE_ACCOUNT_KEY=./path/to/file
DATABASE_URL=<READ_REPLICA_POSTGRES_URL> # for scraper

Run binary with env copied from pod:

env $(cat ./config/validator.fuji.env | grep -v "#" | xargs) ./target/debug/validator

Automated E2E Test

Clone hyperlane-registry repo next to hyperlane-monorepo repo.

To perform an automated e2e test of the agents locally, from within the hyperlane-monorepo/rust/main directory, run:

cargo run --release --bin run-locally

This will automatically build the agents, start a local node, build and deploy the contracts, and run a relayer and validator. By default, this test will run indefinitely, but can be stopped with ctrl-c.

To run the tests for a specific VM, use the --features flag.

cargo test --release --package run-locally --bin run-locally --features cosmos -- cosmos::test --nocapture

Building Agent Docker Images

There exists a docker build for the agent binaries. These docker images are used for deploying the agents in a production environment.

cd rust
./build.sh <image_tag>

Deploy Procedure

The contract addresses of each deploy can be found in rust/main/config. The agents will automatically pull in all configs in this directory.

When agents are deployed to point at a new environment, they cease to point at the old ones. We do not continue to operate off-chain agents on old contract deploys. Contracts not supported by the agents will cease to function (i.e. messages will not be relayed between chains).

Off-chain agents are not automatically re-deployed when new contract deploys are merged. Auto-redeploys will be implemented at some future date.

Useful cargo commands

  • cargo doc --open
    • generate documentation and open it in a web browser
  • cargo build
    • compile the project
  • cargo run --example example
    • run the default executable for the current project
  • cargo test
    • run the tests

Useful cargo extensions

  • tree
    • show the dependency tree. Allows searching for specific packages
    • install: cargo install cargo-tree
    • invoke: cargo tree
  • clippy
    • search the codebase for a large number of lints and bad patterns
    • install: rustup component add clippy
    • invoke: cargo clippy
  • expand
    • expand macros and procedural macros. Show the code generated by the preprocessor
    • useful for debugging #[macros] and macros!()
    • install: cargo install cargo-expand
    • invoke cargo expand path::to::module

Architecture

The on-chain portions of Hyperlane are written in Solidity. The rust portions are exclusively off-chain. Later, there may be on-chain rust for Near/Solana/ Polkadot.

Hyperlane will be managed by a number of small off-chain programs ("agents"). Each of these will have a specific role. We want these roles to be simple, and easily described. Each of these agents will connect to a home chain and any number of replicas. They need to be configured with chain connection details and have access to a reliable node for each chain.

For Ethereum and Celo connections we use ethers-rs. Please see the docs here.

We use the tokio async runtime environment. Please see the docs here.

Repo layout

  • hyperlane-base
    • lowest dependency hyperlane utilities
    • contains shared utilities for building off-chain agents
    • this includes
      • trait implementations for different chains
      • shared configuration file formats
      • basic setup for an off-chain agent
  • hyperlane-core
    • depends on hyperlane-base
    • contains implementations of core primitives
    • this includes
      • traits (interfaces) for the on-chain contracts
      • model implementations of the contracts in rust
      • merkle tree implementations (for provers)
  • chains/hyperlane-ethereum
    • depends on hyperlane-core (and transitively hyperlane-base)
    • interfaces to the ethereum contracts
  • chains/hyperlane-fuel
    • depends on hyperlane-core
    • interfaces to the fuel contracts
  • agents
    • each of the off-chain agents implemented thus far