/// @dev The amount of time in seconds the validator has to process the priority transaction
/// NOTE: The constant is set to zero for the Alpha release period
//@audit this is still 0?
uint256 constant PRIORITY_EXPIRATION = 0 days;
    function _requestL2Transaction(
        uint256 _mintValue,
        WritePriorityOpParams memory _params,
        bytes memory _calldata,
        bytes[] memory _factoryDeps
    ) internal returns (bytes32 canonicalTxHash) {
        require(_factoryDeps.length <= MAX_NEW_FACTORY_DEPS, "uj");
        _params.txId = s.priorityQueue.getTotalPriorityTxs();


        // Checking that the user provided enough ether to pay for the transaction.
        // Using a new scope to prevent "stack too deep" error


        _params.l2GasPrice = _deriveL2GasPrice(tx.gasprice, _params.l2GasPricePerPubdata);
        uint256 baseCost = _params.l2GasPrice * _params.l2GasLimit;
        require(_mintValue >= baseCost + _params.l2Value, "mv"); // The `msg.value` doesn't cover the transaction cost


        // If the `_refundRecipient` is not provided, we use the `_sender` as the recipient.
        address refundRecipient = _params.refundRecipient == address(0) ? _params.sender : _params.refundRecipient;
        // If the `_refundRecipient` is a smart contract, we apply the L1 to L2 alias to prevent foot guns.
        if (refundRecipient.code.length > 0) {
            refundRecipient = AddressAliasHelper.applyL1ToL2Alias(refundRecipient);
        }
        _params.refundRecipient = refundRecipient;


        // populate missing fields
        //@audit
        _params.expirationTimestamp = uint64(block.timestamp + PRIORITY_EXPIRATION); // Safe to cast
        _params.valueToMint = _mintValue;


        canonicalTxHash = _writePriorityOp(_params, _calldata, _factoryDeps);
    }
