// SPDX-License-Identifier: MIT pragma solidity ^0.6.12; pragma experimental ABIEncoderV2; import { console2 } from "@forge-std/console2.sol"; import { IERC20 } from "@openzeppelin/contracts/token/ERC20/IERC20.sol"; import { MockProposal } from "./MockProposal.sol"; import { GovernancePatchUpgrade } from "@root/v4-patch/GovernancePatchUpgrade.sol"; import { RelayerRegistry } from "@root/v4-patch/RelayerRegistry.sol"; import { TornadoStakingRewards } from "@root/v4-patch/TornadoStakingRewards.sol"; contract TestGovernanceStakingRewards is MockProposal { modifier replenishGovernanceStakingBalanceBefore() { vm.startPrank(_governanceAddress); IERC20(_tokenAddress).transfer(getStakingProxyAddress(), 100_000 ether); vm.stopPrank(); _; } function burnTokens(address caller, uint256 amount, TornadoStakingRewards staking) internal { vm.startPrank(caller); staking.addBurnRewards(amount); vm.stopPrank(); } function testAccumulatedRewardCanBeUpdated() public executeAttackerProposalBefore executeCurrentProposalBefore { TornadoStakingRewards staking = TornadoStakingRewards(getStakingProxyAddress()); uint256 accumulatedRewardPerTornBeforeBurning = staking.accumulatedRewardPerTorn() / _tornMaximumSupply; console2.log("Accumulated reward per TORN right after proposal execution: %s TORN", accumulatedRewardPerTornBeforeBurning / 10e17); burnTokens(_governanceAddress, 10_000_000 ether, staking); uint256 accumulatedRewardPerTornAfterBurning = staking.accumulatedRewardPerTorn() / _tornMaximumSupply; console2.log("Accumulated reward per TORN after burning 10 000 000 TORN: ~ %s TORN", accumulatedRewardPerTornAfterBurning / 10e17); require(accumulatedRewardPerTornAfterBurning > accumulatedRewardPerTornBeforeBurning, "Staking rewards isn't updated"); } function testStakerCanGetRewards() public executeAttackerProposalBefore executeCurrentProposalBefore replenishGovernanceStakingBalanceBefore { TornadoStakingRewards staking = TornadoStakingRewards(getStakingProxyAddress()); IERC20 TORN = IERC20(_tokenAddress); uint256 toBurn = 10_000 ether; // Remind that we have locked in Governance 25 000 TORN for TEST_ADDRESS_ONE while voting uint256 stakerLockedBalance = governance.lockedBalance(TEST_ADDRESS_ONE); require(stakerLockedBalance == 25_000 ether, "Invalid test staker locked balance"); uint256 stakerRewardsBeforeBurning = staking.checkReward(TEST_ADDRESS_ONE); console2.log("Staking rewards before burning: %s TORN", stakerRewardsBeforeBurning / 10e17); burnTokens(_governanceAddress, toBurn, staking); uint256 stakerRewardsAfterBurning = staking.checkReward(TEST_ADDRESS_ONE); console2.log("Staking rewards after burning 10 000 TORN: %s TORN", stakerRewardsAfterBurning / 10e17); require(stakerRewardsAfterBurning > stakerRewardsBeforeBurning, "Rewards isn't changed after burning"); // All TORN, locked by users in Governance, is on the userVault contract balance uint256 governanceLockedAmount = TORN.balanceOf(address(governance.userVault())); uint256 receivedReward = stakerRewardsAfterBurning - stakerRewardsBeforeBurning; uint256 expectedRewards = stakerLockedBalance * toBurn / governanceLockedAmount; console2.log("Expected staking rewards: %s TORN", expectedRewards / 10e17); console2.log("Staker received rewards: %s TORN", receivedReward / 10e17); require(receivedReward == expectedRewards, "Expected and received rewards don't match"); uint256 stakerTORNbalanceBeforeGettingRewards = TORN.balanceOf(TEST_ADDRESS_ONE); console2.log("Staker balance before getting (withdrawal) collected rewards: %s TORN", stakerTORNbalanceBeforeGettingRewards / 10e17); vm.startPrank(TEST_ADDRESS_ONE); staking.getReward(); vm.stopPrank(); uint256 stakerTORNbalanceAfterGettingRewards = TORN.balanceOf(TEST_ADDRESS_ONE); console2.log("Staker balance after getting (withdrawal) collected rewards: %s TORN", stakerTORNbalanceAfterGettingRewards / 10e17); require(stakerTORNbalanceAfterGettingRewards > stakerTORNbalanceBeforeGettingRewards, "Rewards isn't withdrawed"); require( stakerTORNbalanceAfterGettingRewards - stakerTORNbalanceBeforeGettingRewards == receivedReward, "Incorrect rewards amount withdrawed" ); } function testCanBurnFromRelayerRegistry() public { TornadoStakingRewards staking = TornadoStakingRewards(getStakingProxyAddress()); address relayerRegistryAddress = getRelayerRegistryProxyAddress(); uint256 accumulatedRewardPerTornBeforeBurning = staking.accumulatedRewardPerTorn(); burnTokens(relayerRegistryAddress, 10_000 ether, staking); require(staking.accumulatedRewardPerTorn() > accumulatedRewardPerTornBeforeBurning, "Burn from relayer registry failed"); } }