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smom-dbis-138/test/flash/CrossChainFlashVaultCreditReceiver.t.sol

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// SPDX-License-Identifier: MIT
pragma solidity ^0.8.20;
import {Test} from "forge-std/Test.sol";
import {ERC20} from "@openzeppelin/contracts/token/ERC20/ERC20.sol";
import {CrossChainFlashVaultCreditReceiver} from "../../contracts/flash/CrossChainFlashVaultCreditReceiver.sol";
import {IRouterClient} from "../../contracts/ccip/IRouterClient.sol";
contract CreditMockToken is ERC20 {
constructor() ERC20("Y", "Y") {}
function mint(address to, uint256 v) external {
_mint(to, v);
}
}
contract CrossChainFlashVaultCreditReceiverTest is Test {
CrossChainFlashVaultCreditReceiver internal recv;
CreditMockToken internal token;
address internal router;
function setUp() public {
router = makeAddr("ccipRouterCredit");
recv = new CrossChainFlashVaultCreditReceiver(router);
token = new CreditMockToken();
}
function _msg(address vault, uint256 amt, address tok) internal pure returns (IRouterClient.Any2EVMMessage memory m) {
IRouterClient.TokenAmount[] memory amounts = new IRouterClient.TokenAmount[](1);
amounts[0] = IRouterClient.TokenAmount({token: tok, amount: amt, amountType: IRouterClient.TokenAmountType.Fiat});
m = IRouterClient.Any2EVMMessage({
messageId: keccak256("credit-mid"),
sourceChainSelector: 50,
sender: abi.encode(address(0x222)),
data: abi.encode(vault),
tokenAmounts: amounts
});
}
function test_ccipReceive_creditsVault() public {
address vaultAddr = address(0xF1A5);
uint256 amt = 333e18;
token.mint(address(recv), amt);
IRouterClient.Any2EVMMessage memory message = _msg(vaultAddr, amt, address(token));
vm.prank(router);
recv.ccipReceive(message);
assertEq(token.balanceOf(vaultAddr), amt);
}
function test_ccipReceive_revert_notRouter() public {
IRouterClient.Any2EVMMessage memory message = _msg(address(0x1), 1, address(token));
vm.expectRevert(CrossChainFlashVaultCreditReceiver.OnlyRouter.selector);
recv.ccipReceive(message);
}
}