This repo contains execution code and artifacts related to superchain deployments and other tasks.
This repo is structured with each network having a high level directory which contains sub directories of any "tasks" which have occured on that network.
Tasks include:
- new contract deployments
- contract upgrades
- onchain configuration changes
Effectively any significant change to the state of the network, requiring authorization to execute, should be considered a task.
Top level directory names should be the EIP-3770 short name for the network (see shortNameMapping.json)
Each task should contain the following:
README.md
: A brief markdown file describing the task to be executed.Validation.md
: A markdown file describing and justifying the expected state changes for manual validation by multisig signers.- A foundry script that implements post upgrade assertions, depending on the nature of the ceremony it should be called either:
SignFromJson.s.sol
: If the ceremony is for a Safe owned by EOA signers.NestedSignFromJson.s.sol
: If the ceremony is for a Safe owned by other Safe's.
input.json
: A JSON file which defines the specific transaction for the task to be executed. This file may either be generated automatically or manually created..env
: a place to store environment variables specific to this task.
The following instructions are for MacOS, but should be similar for other operating systems.
For each of these steps, if you already have some version of the software installed, it should be safe to skip it.
Very likely you have git on your system. To verify this, open a Terminal and type git --version
.
If an error message shows, these are the steps to download and install it:
- Go to the official Git website at https://git-scm.com/downloads
- Download the appropriate installer for your operating system.
- Run the installer and follow the instructions.
- Once the installation is complete, open a command prompt or Git Bash and type
git --version
. You should see the version number of Git that you just installed.
- Go to the official Go website at https://golang.org/dl/
- Download the appropriate installer for your operating system.
- Run the installer and follow the instructions.
From the command prompt:
Type go version
.
You should see the version number of Go that you just installed.
- Visit the rust toolchain installer website at https://rustup.rs
- Follow the instructions for your operating system to install
rustup
, and userustup
to install the Rust toolchain. - Verify the installation from the command prompt:
Type
cargo --version
. You should see a version number.
We’ll use mikefarah/yq
to parse .yaml
files:
- From the command prompt run:
go install github.com/mikefarah/yq/v4@latest
- Verify the installation by typing
$(go env GOPATH)/bin/yq --version
- You should see the version number printed. This repo has been tested with version
4.43.1
.
We’ll use foundry to simulate the transaction we’re approving:
- From the command prompt run:
curl -L https://foundry.paradigm.xyz | bash
- Run foundryup
- Verify the installation by typing
cast --version
- You should see the version number printed.
Just is a command runner, which is similar to make
.
- From the command prompt run either:
cargo install just
orbrew install just
- Verify the installation by typing
just --version
- You should see the version number printed. This repo has been tested with version
1.28.0
.
The superchain-ops repo holds the tools and artifacts that define any on-chain actions taken to either upgrade our system, or modify its configuration.
- Clone the superchain-ops repo
git clone https://github.com/ethereum-optimism/superchain-ops.git
- Or if you’ve already cloned, just pull the main branch:
git checkout main
git pull
Move into the repo and install the contract dependencies
just install-contracts
Tenderly is used to simulate transactions. If you don’t already have a Tenderly account, go to https://dashboard.tenderly.co/login and sign up. The free account is sufficient.
Each task in the tasks
directory should contain all of the information required to both validate
and perform the network interaction. To validate that the intention of the network interaction is
correct, specific contextual information must be included in Validation.md
that enables signers
to double check the correctness. This includes linking to authoritative sources such as the
superchain-registry, the Optimism monorepo, and
Etherscan to prove the correctness of particular configuration values.
The base scripts for performing network interactions found in the script
directory should be
inherited by the SignFromJson.s.sol
or NestedSignFromJson.s.sol
file where the _postCheck
hook
is implemented. This function must make assertions on the post-transaction state of the network
interaction. It will run each time that a signer generates a signature, giving additional automation
on validating the correctness of the network interaction.