//SPDX-License-Identifier: MIT pragma solidity ^0.8.0; import {IConnext} from "@connext/interfaces/core/IConnext.sol"; import {IXReceiver} from "@connext/interfaces/core/IXReceiver.sol"; import {SafeERC20} from "@openzeppelin/contracts/token/ERC20/utils/SafeERC20.sol"; import {IERC20} from "@openzeppelin/contracts/token/ERC20/IERC20.sol"; import {InstadappAdapter} from "./InstadappAdapter.sol"; /// @title InstadappTarget /// @author Connext /// @notice You can use this contract for cross-chain casting via dsa address /// @dev This contract is used to receive funds from Connext /// and forward them to Instadapp DSA via authCast function, In case of failure, /// funds are forwarded to fallback address defined by the user under callData. /// @custom:experimental This is an experimental contract. contract InstadappTarget is IXReceiver, InstadappAdapter { using SafeERC20 for IERC20; /// Storage /// @dev This is the address of the Connext contract. IConnext public immutable connext; /// Events /// @dev This event is emitted when the authCast function is called. event AuthCast(bytes32 indexed transferId, address indexed dsaAddress, bool indexed success, address auth, bytes returnedData); /// Modifiers /// @dev This modifier is used to ensure that only the Connext contract can call the function. modifier onlyConnext() { require(msg.sender == address(connext), "Caller must be Connext"); _; } /// Constructor /// @param _connext The address of the Connext contract. constructor(address _connext) { connext = IConnext(_connext); } /// Public functions /// @dev This function is used to receive funds from Connext and forward them to DSA. /// Then it forwards the call to authCast function. /// @param _amount The amount of funds that will be received. /// @param _asset The address of the asset that will be received. /// @param _transferId The id of the transfer. /// @param _callData The data that will be sent to the targets. function xReceive( bytes32 _transferId, uint256 _amount, address _asset, address, uint32, bytes memory _callData ) external onlyConnext returns (bytes memory) { // Decode signed calldata // dsaAddress: address of DSA contract // auth: address of Authority, which whitelisted at dsaContract. // signature: signature is signed by the auth includes the castData with salt. // castData: CastData required for execution at destination // salt: salt for Signature Replay Protection, which is unique to each signature signed by auth. // deadline: deadline for the cast to be valid ( address dsaAddress, address auth, bytes memory _signature, CastData memory _castData, bytes32 salt, uint256 deadline ) = abi.decode(_callData, (address, address, bytes, CastData, bytes32, uint256)); // verify the dsaAddress require(dsaAddress != address(0), "!invalidFallback"); // transfer funds to this dsaAddress SafeERC20.safeTransfer(IERC20(_asset), dsaAddress, _amount); // forward call to AuthCast // calling via encodeWithSignature as alternative to try/catch (bool success, bytes memory returnedData) = address(this).call( abi.encodeWithSignature( "authCast(address,address,bytes,CastData,bytes32,uint256)", dsaAddress, auth, _signature, _castData, salt, deadline ) ); emit AuthCast(_transferId, dsaAddress, success, auth, returnedData); return returnedData; } }