It is recommended to install pnpm
through the npm
package manager, which comes bundled with Node.js when you install it on your system. It is recommended to use a Node.js version >= 20.0.0
.
Once you have npm
installed, you can run the following both to install and upgrade pnpm
:
npm install -g pnpm
After having installed pnpm
, simply run:
pnpm install
Note
The deployment script deploy.ts
attempts to automatically verify the contract on the target chain after deployment. If you have not configured an API key, the verification will fail.
Example Goerli:
pnpm deploy:goerli
The deployment script
deploy.ts
includes thetenderly
Hardhat Runtime Environment (HRE) extension with theverify
method. Please consider uncommenting and configuring the Tenderlyproject
,username
,forkNetwork
,privateVerification
, anddeploymentsDir
attributes in thehardhat.config.ts
file before deploying or remove this call. Also, for this plugin to function you need to create aconfig.yaml
file at$HOME/.tenderly/config.yaml
or%HOMEPATH%\.tenderly\config.yaml
and add anaccess_key
field to it. For further information, see here.
For the deployment on the ZKsync Era test network, you must add your to-be-deployed contract artifact to
deploy-zksync.ts
, enablezksync
in thehardhat.config.ts
file, and then runpnpm compile
(in case you face any compilation issues, disable all configurations associated with the@tenderly/hardhat-tenderly
plugin, including theimport
statement itself; see also here and here). Next, fund your deployer account on ZKsync Era Testnet, setup the ZKsync-related configuration variables accordingly, and simply runpnpm deploy:zksynctestnet
. Eventually, to verify the contract you can invoke:npx hardhat verify --network zkSyncTestnet --constructor-args arguments.js <YOUR_CONTRACT_ADDRESS>
. The same approach applies if you want to deploy on the production network, except that you need to runpnpm deploy:zksyncmain
and use--network zkSyncMain
for the contract verification.
pnpm xdeploy
This template uses the xdeployer
Hardhat plugin. Check out the documentation for more information on the specifics of the deployments.
Run npx hardhat vars set PRIVATE_KEY
to set the private key of your wallet. This allows secure access to your wallet to use with both testnet and mainnet funds during Hardhat deployments.
You can also run npx hardhat vars setup
to see which other configuration variables are available.
This template implements the hardhat-ledger
plugin. Run npx hardhat set LEDGER_ACCOUNT
and enter the address of the Ledger account you want to use.
Important
Truffle has been sunsetted by Consensys, but I still keep it in the template as I find it a very valuable tool. Please note that due to the lengthy loading time of Truffle Dashboard's npm
package @truffle/dashboard-hardhat-plugin
, the module is disabled by default in the hardhat.config.ts
file. If you want to use it, you must uncomment the module import and the truffle
configuration accordingly.
Truffle developed the Truffle Dashboard to provide an easy way to use your existing MetaMask wallet for your deployments and for other transactions that you need to send from a command line context. Because the Truffle Dashboard connects directly to MetaMask it is also possible to use it in combination with hardware wallets like Ledger or Trezor.
First, it is recommended that you install Truffle globally by running:
npm install -g truffle
If you have already installed Truffle, you need to ensure that you have at least version
5.11.5
installed and otherwise upgrade.
To start a Truffle Dashboard, you need to run the following command in a separate terminal window:
truffle dashboard
By default, the command above starts a Truffle Dashboard at http://localhost:24012
and opens the Dashboard in a new tab in your default browser. The Dashboard then prompts you to connect your wallet and confirm that you're connected to the right network. You should double check your connected network at this point, since switching to a different network during a deployment can have unintended consequences.
Eventually, in order to deploy with the Truffle Dashboard, you can simply run:
pnpm deploy:dashboard
You can start an instance of the Hardhat network that forks the mainnet. This means that it will simulate having the same state as the mainnet, but it will work as a local development network. That way you can interact with deployed protocols and test complex interactions locally. To use this feature, you need to connect to an archive node.
This template is currently configured via the hardhat.config.ts
as follows:
forking: {
url: vars.get("ETH_MAINNET_URL", ethMainnetUrl),
// The Hardhat network will by default fork from the latest mainnet block
// To pin the block number, specify it below
// You will need access to a node with archival data for this to work!
// blockNumber: 14743877,
// If you want to do some forking, set `enabled` to true
enabled: false,
},
Change the contract address to your contract after the deployment has been successful. This works for both testnet and mainnet. You will need to get an API key from etherscan, snowtrace etc.
Example:
npx hardhat verify --network fantomMain --constructor-args arguments.js <YOUR_CONTRACT_ADDRESS>
This template includes an example script that shows how to interact programmatically with a deployed contract. You must customise it according to your contract's specifications. The script can be simply invoked via:
npx hardhat run scripts/interact.ts --network <network_name>
This template repository also includes the Foundry toolkit as well as the @nomicfoundation/hardhat-foundry
plugin.
If you need help getting started with Foundry, I recommend reading the 📖 Foundry Book.
make update
or
forge update
make build
or
forge build
To run only TypeScript tests:
pnpm test:hh
To run only Solidity tests:
pnpm test:forge
or
make test-forge
To additionally display the gas report, you can run:
make test-gasreport
Inside the scripts/
folder are a few preconfigured scripts that can be used to deploy and verify contracts via Foundry. These scripts are required to be executable meaning they must be made executable by running:
make scripts