make the relayer great again
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Alexey
parent
a8331eea08
commit
ee2772328c
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@ -31,6 +31,8 @@ template Withdraw(levels, rounds) {
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signal input root;
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signal input nullifierHash;
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signal input receiver; // not taking part in any computations
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signal input relayer; // not taking part in any computations
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signal input fee; // not taking part in any computations
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signal private input nullifier;
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signal private input secret;
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@ -55,7 +57,11 @@ template Withdraw(levels, rounds) {
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// Most likely it is not required, but it's better to stay on the safe side and it only takes 2 constraints
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// Squares are used to prevent optimizer from removing those constraints
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signal receiverSquare;
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signal feeSquare;
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signal relayerSquare;
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receiverSquare <== receiver * receiver;
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feeSquare <== fee * fee;
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relayerSquare <== relayer * relayer;
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}
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component main = Withdraw(16, 220);
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@ -25,86 +25,14 @@ contract ETHMixer is Mixer, GSNRecipient {
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) Mixer(_verifier, _mixDenomination, _merkleTreeHeight, _emptyElement, _operator) public {
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}
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function _processWithdraw(address payable _receiver) internal {
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_receiver.transfer(mixDenomination);
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function _processWithdraw(address payable _receiver, address payable _relayer, uint256 _fee) internal {
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_receiver.transfer(mixDenomination - _fee);
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if (_fee > 0) {
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_relayer.transfer(_fee);
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}
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}
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function _processDeposit() internal {
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require(msg.value == mixDenomination, "Please send `mixDenomination` ETH along with transaction");
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}
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function withdrawViaRelayer(uint256[2] memory a, uint256[2][2] memory b, uint256[2] memory c, uint256[3] memory input) public {
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uint256 root = input[0];
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uint256 nullifierHash = input[1];
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address receiver = address(input[2]);
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require(!nullifierHashes[nullifierHash], "The note has been already spent");
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require(isKnownRoot(root), "Cannot find your merkle root"); // Make sure to use a recent one
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require(verifier.verifyProof(a, b, c, input), "Invalid withdraw proof");
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nullifierHashes[nullifierHash] = true;
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emit Withdraw(receiver, nullifierHash, tx.origin);
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// we will process withdraw in postRelayedCall func
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}
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// gsn related stuff
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// this func is called by a Relayer via the RelayerHub before sending a tx
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function acceptRelayedCall(
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address relay,
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address from,
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bytes memory encodedFunction,
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uint256 transactionFee,
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uint256 gasPrice,
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uint256 gasLimit,
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uint256 nonce,
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bytes memory approvalData,
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uint256 maxPossibleCharge
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) public view returns (uint256, bytes memory) {
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// think of a withdraw dry-run
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if (!compareBytesWithSelector(encodedFunction, this.withdrawViaRelayer.selector)) {
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return (1, "Only withdrawViaRelayer can be called");
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}
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bytes memory recipient;
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assembly {
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let dataPointer := add(encodedFunction, 32)
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let recipientPointer := mload(add(dataPointer, 324)) // 4 + (8 * 32) + (32) + (32) == selector + proof + root + nullifier
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mstore(recipient, 32) // save array length
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mstore(add(recipient, 32), recipientPointer) // save recipient address
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}
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return (0, recipient);
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}
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// this func is called by RelayerHub right before calling a target func
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function preRelayedCall(bytes calldata /*context*/) external returns (bytes32) {}
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event Debug(uint actualCharge, bytes context, address recipient);
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// this func is called by RelayerHub right after calling a target func
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function postRelayedCall(bytes memory context, bool /*success*/, uint actualCharge, bytes32 /*preRetVal*/) public {
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IRelayHub relayHub = IRelayHub(getHubAddr());
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address payable recipient;
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assembly {
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recipient := mload(add(context, 32))
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}
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emit Debug(actualCharge, context, recipient);
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recipient.transfer(mixDenomination - actualCharge);
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relayHub.depositFor.value(actualCharge)(address(this));
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// or we can send actualCharge somewhere else...
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}
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function compareBytesWithSelector(bytes memory data, bytes4 sel) internal pure returns (bool) {
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return data[0] == sel[0]
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&& data[1] == sel[1]
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&& data[2] == sel[2]
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&& data[3] == sel[3];
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}
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function withdrawFundsFromHub(uint256 amount, address payable dest) external {
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require(msg.sender == operator, "unauthorized");
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IRelayHub(getHubAddr()).withdraw(amount, dest);
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}
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function upgradeRelayHub(address newRelayHub) external {
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require(msg.sender == operator, "unauthorized");
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_upgradeRelayHub(newRelayHub);
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}
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}
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@ -14,7 +14,7 @@ pragma solidity ^0.5.8;
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import "./MerkleTreeWithHistory.sol";
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contract IVerifier {
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function verifyProof(uint256[2] memory a, uint256[2][2] memory b, uint256[2] memory c, uint256[3] memory input) public returns(bool);
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function verifyProof(uint256[2] memory a, uint256[2][2] memory b, uint256[2] memory c, uint256[5] memory input) public returns(bool);
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}
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contract Mixer is MerkleTreeWithHistory {
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@ -29,7 +29,7 @@ contract Mixer is MerkleTreeWithHistory {
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uint256 public mixDenomination;
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event Deposit(uint256 indexed commitment, uint256 leafIndex, uint256 timestamp);
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event Withdraw(address to, uint256 nullifierHash, address indexed relayer);
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event Withdraw(address to, uint256 nullifierHash, address indexed relayer, uint fee);
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/**
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@dev The constructor
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@ -75,17 +75,20 @@ contract Mixer is MerkleTreeWithHistory {
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- the receiver of funds
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- optional fee that goes to the transaction sender (usually a relay)
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*/
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function withdraw(uint256[2] memory a, uint256[2][2] memory b, uint256[2] memory c, uint256[3] memory input) public {
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function withdraw(uint256[2] memory a, uint256[2][2] memory b, uint256[2] memory c, uint256[5] memory input) public {
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uint256 root = input[0];
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uint256 nullifierHash = input[1];
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address payable receiver = address(input[2]);
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address payable relayer = address(input[3]);
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uint256 fee = input[4];
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require(fee < mixDenomination, "Fee exceeds transfer value");
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require(!nullifierHashes[nullifierHash], "The note has been already spent");
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require(isKnownRoot(root), "Cannot find your merkle root"); // Make sure to use a recent one
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require(verifier.verifyProof(a, b, c, input), "Invalid withdraw proof");
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nullifierHashes[nullifierHash] = true;
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_processWithdraw(receiver);
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emit Withdraw(receiver, nullifierHash, receiver);
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_processWithdraw(receiver, relayer, fee);
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emit Withdraw(receiver, nullifierHash, relayer, fee);
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}
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function toggleDeposits() external {
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@ -103,5 +106,5 @@ contract Mixer is MerkleTreeWithHistory {
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}
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function _processDeposit() internal {}
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function _processWithdraw(address payable _receiver) internal {}
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function _processWithdraw(address payable _receiver, address payable _relayer, uint256 _fee) internal {}
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}
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@ -13,6 +13,6 @@ module.exports = function(deployer, network, accounts) {
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await ETHMixer.link(MiMC, miMC.address)
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const mixer = await deployer.deploy(ETHMixer, verifier.address, ETH_AMOUNT, MERKLE_TREE_HEIGHT, EMPTY_ELEMENT, accounts[0])
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console.log('ETHMixer\'s address ', mixer.address)
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const tx = await mixer.initialize()
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// const tx = await mixer.initialize()
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})
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}
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File diff suppressed because it is too large
Load Diff
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@ -33,9 +33,9 @@
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"eslint": "^6.2.2",
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"ganache-cli": "^6.4.5",
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"snarkjs": "^0.1.16",
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"truffle": "^5.0.27",
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"truffle-artifactor": "^4.0.23",
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"truffle-contract": "^4.0.24",
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"truffle": "^5.0.37",
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"truffle-artifactor": "^4.0.30",
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"truffle-contract": "^4.0.31",
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"truffle-hdwallet-provider": "^1.0.14",
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"web3": "^1.0.0-beta.55",
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"web3-utils": "^1.0.0-beta.55",
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@ -45,7 +45,7 @@ function getRandomReceiver() {
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return receiver
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}
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contract('GSN support', accounts => {
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contract.skip('GSN support', accounts => {
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let mixer
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let gsnMixer
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let relayHubAddress
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@ -93,7 +93,7 @@ contract('GSN support', accounts => {
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})
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describe('#withdrawViaRelayer', () => {
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it.only('should work', async () => {
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it('should work', async () => {
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const gasPrice = toBN('20000000000')
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const relayerTxFee = 10 // 20%
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const deposit = generateDeposit()
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