First Omnichain Contract
In this tutorial you will create a simple omnnichain contract, deploy it on ZetaChain and make a contract call from a connected chain.
Prerequisites
Set Up Your Environment
Clone the Hardhat contract template:
git clone https://github.com/zeta-chain/template
Install dependencies:
cd template
yarn
Create the Contract
To create a new omnichain contract you will use the omnichain
Hardhat task
available by default in the template.
npx hardhat omnichain MyContract
The omnichain
task can also accept a list of arguments (optionally with types)
to create a contract that accepts specific data from a connected chain. You can
learn more about passing arguments in the following tutorials. In this tutorial
you will create a contract that does not accept any arguments.
The omnichain
task has created:
contracts/MyContract.sol
: a Solidity omnichain smart contracttasks/deploy.ts
: a Hardhat task to deploy the contracttasks/interact.ts
: a Hardhat task to interact with the contract
It also modified hardhat.config.ts
to import both deploy
and interact
tasks.
Omnichain Contract
Let's review the contents of the MyContract
contract:
// SPDX-License-Identifier: MIT
pragma solidity 0.8.7;
import "@zetachain/protocol-contracts/contracts/zevm/SystemContract.sol";
import "@zetachain/protocol-contracts/contracts/zevm/interfaces/zContract.sol";
contract MyContract is zContract {
error SenderNotSystemContract();
SystemContract public immutable systemContract;
constructor(address systemContractAddress) {
systemContract = SystemContract(systemContractAddress);
}
function onCrossChainCall(
zContext calldata context,
address zrc20,
uint256 amount,
bytes calldata message
) external virtual override {
if (msg.sender != address(systemContract)) {
revert SenderNotSystemContract();
}
// TODO: implement the logic
}
}
MyContract
is a simple contract that inherits from the
zContract
interface.
The contract declares a state variable of type SystemContract
that stores a
reference to the system contract.
The constructor function accepts the address of the system contract and stores
it in the systemContract
state variable.
onCrossChainCall
is a function that is called when the contract gets called by
a token transfer transaction sent to the TSS address on a connected chain. The
function receives the following inputs:
context
: is a struct of typezContext
that contains the following values:origin
: EOA address that sent the token transfer transaction to the TSS address (triggering the omnichain contract)chainID
: interger ID of the connected chain from which the omnichain contract was triggered.sender
(reserved for future use, currently empty)
zrc20
: the address of the ZRC-20 token contract that represents an asset from a connected chain on ZetaChain.amount
: the amount of tokens that were transferred to the TSS address.message
: the contents of thedata
field of the token transfer transaction.
The onCrossChainCall
function should only be called by the system contract (in
other words, by the ZetaChain protocol) to prevent a caller from supplying
arbitrary values in context
. The following check ensures that the function is
called only as a response to a token transfer transaction sent to the TSS
address:
if (msg.sender != address(systemContract)) {
revert SenderNotSystemContract();
}
By default, the onCrossChainCall
function doesn't do anything else. You will
implement the logic yourself based on your use case.
Deploy Task
The omnichain
task has created a Hardhat task to deploy the contract:
import { getAddress } from "@zetachain/protocol-contracts";
import { task } from "hardhat/config";
import { HardhatRuntimeEnvironment } from "hardhat/types";
const main = async (args: any, hre: HardhatRuntimeEnvironment) => {
if (hre.network.name !== "zeta_testnet") {
throw new Error(
'🚨 Please use the "zeta_testnet" network to deploy to ZetaChain.'
);
}
const [signer] = await hre.ethers.getSigners();
console.log(`🔑 Using account: ${signer.address}\n`);
const systemContract = getAddress("systemContract", "zeta_testnet");
const factory = await hre.ethers.getContractFactory("MyContract");
const contract = await factory.deploy(systemContract);
await contract.deployed();
console.log(`🚀 Successfully deployed contract on ZetaChain.
📜 Contract address: ${contract.address}
🌍 Explorer: https://athens3.explorer.zetachain.com/address/${contract.address}
`);
};
task("deploy", "Deploy the contract", main);
Omnichain contracts are supposed to be deployed to ZetaChain, so the task checks
that the --network
flag value is always zeta_testnet
.
The task uses the getAddress
function from @zetachain/protocol-contracts
to
get the address of the system contract on ZetaChain.
The task then uses Ethers.js to deploy the contract to ZetaChain.
Interact Task
The omnichain
task has also created a Hardhat task to interact with the
contract:
import { task } from "hardhat/config";
import { HardhatRuntimeEnvironment } from "hardhat/types";
import { parseEther } from "@ethersproject/units";
import { getAddress } from "@zetachain/protocol-contracts";
import { prepareData, trackCCTX } from "@zetachain/toolkit/helpers";
const main = async (args: any, hre: HardhatRuntimeEnvironment) => {
const [signer] = await hre.ethers.getSigners();
console.log(`🔑 Using account: ${signer.address}\n`);
const data = prepareData(args.contract, [], []);
const to = getAddress("tss", hre.network.name);
const value = parseEther(args.amount);
const tx = await signer.sendTransaction({ data, to, value });
console.log(`
🚀 Successfully broadcasted a token transfer transaction on ${hre.network.name} network.
📝 Transaction hash: ${tx.hash}
`);
await trackCCTX(tx.hash);
};
task("interact", "Interact with the contract", main)
.addParam("contract", "The address of the withdraw contract on ZetaChain")
.addParam("amount", "Amount of tokens to send");
The task uses the prepareData
function from @zetachain/toolkit/helpers
to
prepare the data
field of the token transfer transaction. prepareData
accepts an omnichain contract address on ZetaChain, a list of argument types,
and a list of argument names. The data
field contains the following
information:
- the address of the contract on ZetaChain
- the arguments to pass to the
onCrossChainCall
function in themessage
parameter
In the code generated above there are no arguments, so the data
field is
simply the address of the contract on ZetaChain.
getAddress
retrieves the address of the TSS on the current network.
The task then uses Ethers.js to send a token transfer transaction to the TSS address. The transaction contains the following information:
data
: thedata
field prepared byprepareData
to
: the address of the TSSvalue
: the amount of tokens to transfer
Finally, the task uses the trackCCTX
function from
@zetachain/toolkit/helpers
to track the token transfer transaction. The
function waits for the transaction to appear on ZetaChain and tracks the status
of the transaction. Transaction tracking is optional, but helpful to know when
the transaction has been processed by ZetaChain.
Create an Account
To deploy and interact with the contract you will need a wallet with tokens.
Create a new wallet account:
npx hardhat account --save
This command generates a random wallet, prints information about the wallet to
the terminal, and saves the private key to a .env
file to make it accessible
to Hardhat.
Use the Faucet to Request Tokens
Request testnet ZETA tokens from the ZetaChain faucet:
npx hardhat faucet
This command requests tokens from the faucet for the account address derived
from the private key specified in the .env
. Tokens sent to the address on
ZetaChain.
Using the faucet
task you can get ZETA tokens on ZetaChain as well as ZETA
tokens on connected chains.
You will, however, need to request native tokens on connected chains from one of the publicly available faucets.
Check Token Balances
Check token balances to ensure you have tokens on ZetaChain and at least one of the connected chains:
npx hardhat balances
Deploy the Contract
Clear the cache and artifacts, then compile the contract:
npx hardhat compile --force
Deploy the contract to ZetaChain:
npx hardhat deploy --network zeta_testnet
🔑 Using account: 0x1bE17D79b60182D7F3573576B7807F6C20Ae7C99
🚀 Successfully deployed contract on ZetaChain.
📜 Contract address: 0xE26F2e102E2f3267777F288389435d3037D14bb3
🌍 Explorer: https://athens3.explorer.zetachain.com/address/0xE26F2e102E2f3267777F288389435d3037D14bb3
Interact with the Contract
Call the interact
task to interact with the contract:
npx hardhat interact --contract 0xE26F2e102E2f3267777F288389435d3037D14bb3 --amount 0.1 --network goerli_testnet
🔑 Using account: 0x2cD3D070aE1BD365909dD859d29F387AA96911e1
🚀 Successfully broadcasted a token transfer transaction on goerli_testnet network.
📝 Transaction hash: 0x93b441dc2ddb751a60a2f4c0fc52dbbd447ed70eb962b1a01072328aa6872b73
✔ CCTX hash found: 0x31310706ac4b33aa468e62a77d5db358e52a60dad3854210db8fc06c870186b6
ℹ Status updated to "OutboundMined": Remote omnichain contract call completed
✔ CCTX has been finalized on ZetaChain
Once the transaction is finalized on ZetaChain, you should be able to review the transaction on the ZetaChain explorer:
The interact
task has sent a token transfer transaction to the TSS address on
Goerli. The transaction contains the address of the contract on ZetaChain in the
data
field. ZetaChain detects the transaction and triggers the
onCrossChainCall
function of the contract. The onCrossChainCall
function
does nothing in this example, but you can modify it to implement your own logic.
Congratulations! 🎉 In this tutorial you have:
- cloned the Hardhat contract template
- used
npx hardhat omnichain
to create a new omnichain contract - reviewed the contents of the generated contract and the tasks to deploy and interact with the contract
- successfully deployed the contract to ZetaChain
- interacted with the contract by sending a token transfer transaction to the
TSS address on a connected chain and triggering the
onCrossChainCall
function of the omnichain contract on ZetaChain