interfaceCreateTaskOptions { name:string; // your task name// Function to execute execAddress:string; // address of your target smart contract execSelector:string; // function selector to execute on your target smart contract execAbi?:string; // ABI of your target smart contract// Proxy caller dedicatedMsgSender:boolean; // task will be called via a dedicated msg.sender which you can whitelist (recommended: true)// Optional: Pre-defined / static target smart contract inputs execData?:string; // exec call data // Optional: Dynamic target smart contract inputs (using a resolver) resolverAddress?:string; // resolver contract address resolverData?:string; // resolver call data (encoded data with function selector) resolverAbi?:string; // your resolver contract ABI// Optional: Time based task params interval?:number; // execution interval in seconds startTime?:number; // start timestamp in seconds or 0 to start immediately (default: 0)// Optional: Single execution task singleExec?:boolean; // task cancels itself after 1 execution if true.// Optional: Payment params useTreasury?:boolean; // use false if your task is self-paying (default: true)}constparams:CreateTaskOptions= { name, execAddress, execSelector, interval };const { taskId,tx }:TaskTransaction=awaitautomate.createTask(params);
Examples
Deploy a contract & automate your function call:
// Deploying Counter contractconstcounterFactory=awaithre.ethers.getContractFactory("Counter");constcounter=awaitcounterFactory.deploy(GELATO_ADDRESSES[chainId].automate);awaitcounter.deployed();// Call Counter.increaseCount(42) every 10 minutesconst { taskId,tx }:TaskTransaction=awaitautomate.createTask({ execAddress:counter.address, execSelector:counter.interface.getSighash("increaseCount(uint256)"), execData:counter.interface.encodeFunctionData("increaseCount", [42]), execAbi:counter.interface.format("json") asstring, interval:10*60,// execute every 10 minutes name:"Automated counter every 10min", dedicatedMsgSender:true});
Use a resolver contract to automate your function call:
If you need more configurable execution condition and/or dynamic input data, you can create a task using a resolver function (learn how to write a resolver).
// Prepare Task data to automateconstcounter=newContract(COUNTER_ADDRESSES, counterAbi, signer);constresolver=newContract(COUNTER_RESOLVER_ADDRESSES, counterResolverAbi, signer);constselector=counter.interface.getSighash("increaseCount(uint256)");constresolverData=resolver.interface.getSighash("checker()");// Create taskconst { taskId,tx }:TaskTransaction=awaitautomate.createTask({ execAddress:counter.address, execSelector: selector, resolverAddress:resolver.address, resolverData: resolverData, name:"Automated counter using resolver", dedicatedMsgSender:true});
Enable dedicated msg.sender:
To have a custom msg.sender that you can whitelist on your contract, you can enable the dedicatedMsgSender flag.
// Prepare Task data to automateconstcounter=newContract(COUNTER_ADDRESSES, counterAbi, signer);constresolver=newContract(COUNTER_RESOLVER_ADDRESSES, counterResolverAbi, signer);constselector=counter.interface.getSighash("increaseCount(uint256)");constresolverData=resolver.interface.getSighash("checker()");// Create taskconst { taskId,tx }:TaskTransaction=awaitautomate.createTask({ execAddress:counter.address, execSelector: selector, resolverAddress:resolver.address, resolverData: resolverData, dedicatedMsgSender:true, name:"Automated counter using resolver",});// Get dedicated proxy address to whitelistconst { address,isDeployed } =awaitautomate.getDedicatedMsgSender()