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HashedTimelock.sol
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HashedTimelock.sol
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pragma solidity ^0.5.0;
/**
* @title Hashed Timelock Contracts (HTLCs) on Ethereum ETH.
*
* This contract provides a way to create and keep HTLCs for ETH.
*
* See HashedTimelockERC20.sol for a contract that provides the same functions
* for ERC20 tokens.
*
* Protocol:
*
* 1) newContract(receiver, hashlock, timelock) - a sender calls this to create
* a new HTLC and gets back a 32 byte contract id
* 2) withdraw(contractId, preimage) - once the receiver knows the preimage of
* the hashlock hash they can claim the ETH with this function
* 3) refund() - after timelock has expired and if the receiver did not
* withdraw funds the sender / creator of the HTLC can get their ETH
* back with this function.
*/
contract HashedTimelock {
event LogHTLCNew(
bytes32 indexed contractId,
address indexed sender,
address indexed receiver,
uint amount,
bytes32 hashlock,
uint timelock
);
event LogHTLCWithdraw(bytes32 indexed contractId);
event LogHTLCRefund(bytes32 indexed contractId);
struct LockContract {
address payable sender;
address payable receiver;
uint amount;
bytes32 hashlock; // sha-2 sha256 hash
uint timelock; // UNIX timestamp seconds - locked UNTIL this time
bool withdrawn;
bool refunded;
bytes32 preimage;
}
modifier fundsSent() {
require(msg.value > 0, "msg.value must be > 0");
_;
}
modifier futureTimelock(uint _time) {
// only requirement is the timelock time is after the last blocktime (now).
// probably want something a bit further in the future then this.
// but this is still a useful sanity check:
require(_time > now, "timelock time must be in the future");
_;
}
modifier contractExists(bytes32 _contractId) {
require(haveContract(_contractId), "contractId does not exist");
_;
}
modifier hashlockMatches(bytes32 _contractId, bytes32 _x) {
require(
contracts[_contractId].hashlock == sha256(abi.encodePacked(_x)),
"hashlock hash does not match"
);
_;
}
modifier withdrawable(bytes32 _contractId) {
require(contracts[_contractId].receiver == msg.sender, "withdrawable: not receiver");
require(contracts[_contractId].withdrawn == false, "withdrawable: already withdrawn");
require(contracts[_contractId].timelock > now, "withdrawable: timelock time must be in the future");
_;
}
modifier refundable(bytes32 _contractId) {
require(contracts[_contractId].sender == msg.sender, "refundable: not sender");
require(contracts[_contractId].refunded == false, "refundable: already refunded");
require(contracts[_contractId].withdrawn == false, "refundable: already withdrawn");
require(contracts[_contractId].timelock <= now, "refundable: timelock not yet passed");
_;
}
mapping (bytes32 => LockContract) contracts;
/**
* @dev Sender sets up a new hash time lock contract depositing the ETH and
* providing the reciever lock terms.
*
* @param _receiver Receiver of the ETH.
* @param _hashlock A sha-2 sha256 hash hashlock.
* @param _timelock UNIX epoch seconds time that the lock expires at.
* Refunds can be made after this time.
* @return contractId Id of the new HTLC. This is needed for subsequent
* calls.
*/
function newContract(address payable _receiver, bytes32 _hashlock, uint _timelock)
external
payable
fundsSent
futureTimelock(_timelock)
returns (bytes32 contractId)
{
contractId = sha256(
abi.encodePacked(
msg.sender,
_receiver,
msg.value,
_hashlock,
_timelock
)
);
// Reject if a contract already exists with the same parameters. The
// sender must change one of these parameters to create a new distinct
// contract.
if (haveContract(contractId))
revert("Contract already exists");
contracts[contractId] = LockContract(
msg.sender,
_receiver,
msg.value,
_hashlock,
_timelock,
false,
false,
0x0
);
emit LogHTLCNew(
contractId,
msg.sender,
_receiver,
msg.value,
_hashlock,
_timelock
);
}
/**
* @dev Called by the receiver once they know the preimage of the hashlock.
* This will transfer the locked funds to their address.
*
* @param _contractId Id of the HTLC.
* @param _preimage sha256(_preimage) should equal the contract hashlock.
* @return bool true on success
*/
function withdraw(bytes32 _contractId, bytes32 _preimage)
external
contractExists(_contractId)
hashlockMatches(_contractId, _preimage)
withdrawable(_contractId)
returns (bool)
{
LockContract storage c = contracts[_contractId];
c.preimage = _preimage;
c.withdrawn = true;
c.receiver.transfer(c.amount);
emit LogHTLCWithdraw(_contractId);
return true;
}
/**
* @dev Called by the sender if there was no withdraw AND the time lock has
* expired. This will refund the contract amount.
*
* @param _contractId Id of HTLC to refund from.
* @return bool true on success
*/
function refund(bytes32 _contractId)
external
contractExists(_contractId)
refundable(_contractId)
returns (bool)
{
LockContract storage c = contracts[_contractId];
c.refunded = true;
c.sender.transfer(c.amount);
emit LogHTLCRefund(_contractId);
return true;
}
/**
* @dev Get contract details.
* @param _contractId HTLC contract id
* @return All parameters in struct LockContract for _contractId HTLC
*/
function getContract(bytes32 _contractId)
public
view
returns (
address sender,
address receiver,
uint amount,
bytes32 hashlock,
uint timelock,
bool withdrawn,
bool refunded,
bytes32 preimage
)
{
if (haveContract(_contractId) == false)
return (address(0), address(0), 0, 0, 0, false, false, 0);
LockContract storage c = contracts[_contractId];
return (
c.sender,
c.receiver,
c.amount,
c.hashlock,
c.timelock,
c.withdrawn,
c.refunded,
c.preimage
);
}
/**
* @dev Is there a contract with id _contractId.
* @param _contractId Id into contracts mapping.
*/
function haveContract(bytes32 _contractId)
internal
view
returns (bool exists)
{
exists = (contracts[_contractId].sender != address(0));
}
}