⚠️ This branch contains changes that are under development To use the latest audited version make sure to use the correct commit. The tagged versions that are used by the Safe team can be found in the releases.
npm i
To run the tests:
npm run build
npm run test
Optionally, if you want to run the ERC-4337 compatibility test, it uses a live bundler and node, so it contains some pre-requisites:
- Define the environment variables:
ERC4337_TEST_BUNDLER_URL=
ERC4337_TEST_NODE_URL=
ERC4337_TEST_SINGLETON_ADDRESS=
ERC4337_TEST_SAFE_FACTORY_ADDRESS=
MNEMONIC=
- Pre-fund the executor account derived from the mnemonic with some Native Token to cover the deployment of an ERC4337 module and the pre-fund of the Safe for the test operation.
A collection of the different Safe contract deployments and their addresses can be found in the Safe deployments repository.
To add support for a new network follow the steps of the Deploy
section and create a PR in the Safe deployments repository.
⚠️ Make sure to use the correct commit when deploying the contracts. Any change (even comments) within the contract files will result in different addresses. The tagged versions that are used by the Safe team can be found in the releases.
Current version: The latest release is v1.4.1-1
This will deploy the contracts deterministically and verify the contracts on etherscan using Solidity 0.7.6 by default.
Preparation:
- Set
MNEMONIC
in.env
- Set
INFURA_KEY
in.env
npm run deploy-all <network>
This will perform the following steps
npm run build
npm run hardhat --network <network> deploy
npm run hardhat --network <network> sourcify
npm run hardhat --network <network> etherscan-verify
npm run hardhat --network <network> local-verify
It is possible to use the NODE_URL
env var to connect to any EVM based network via an RPC endpoint. This connection then can be used with the custom
network.
E.g. to deploy the Safe contract suite on that network you would run npm run deploy-all custom
.
The resulting addresses should be on all networks the same.
Note: Address will vary if contract code is changed or a different Solidity version is used.
Some networks require replay protection, making it incompatible with the default deployment process as it relies on a presigned transaction without replay protection (see https://github.com/Arachnid/deterministic-deployment-proxy).
Safe Smart Account contracts use a different deterministic deployment proxy (https://github.com/safe-global/safe-singleton-factory). To make sure that the latest version of this package is installed, run npm i -D @safe-global/safe-singleton-factory
before deployment. For more information, including deploying the factory to a new network, please refer to the factory repo.
Note: This will result in different addresses compared to hardhat's default deterministic deployment process.
This command will use the deployment artifacts to compile the contracts and compare them to the onchain code
npx hardhat --network <network> local-verify
This command will upload the contract source to Etherescan
npx hardhat --network <network> etherscan-verify
- for Version 1.4.0/1.4.1 by Ackee Blockchain
- for Version 1.3.0 by G0 Group
- for Version 1.2.0 by G0 Group
- for Version 1.1.1 by G0 Group
- for Version 1.0.0 by Runtime Verification
- for Version 0.0.1 by Alexey Akhunov
All contracts are WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
All smart contracts are released under LGPL-3.0