// SPDX-License-Identifier: MIT pragma solidity ^0.6.12; pragma experimental ABIEncoderV2; import { MockProposal } from "./MockProposal.sol"; import { console2 } from "@forge-std/console2.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 TestContractsState is MockProposal { function testLockedBalanceSaved() public { uint256 lockedBalanceBeforeExecution = governance.lockedBalance(TEST_REAL_ADDRESS_WITH_BALANCE); console2.log("User locked balance before execution: %s TORN", lockedBalanceBeforeExecution / 10 ** 18); createAndExecuteProposal(); uint256 lockedBalanceAfterExecution = governance.lockedBalance(TEST_REAL_ADDRESS_WITH_BALANCE); console2.log("User locked balance before execution: %s TORN", lockedBalanceAfterExecution / 10 ** 18); require( lockedBalanceBeforeExecution == lockedBalanceAfterExecution, "Wrong locked balance after execution" ); } function testGovernanceStakingStateChanged() public { TornadoStakingRewards oldStaking = TornadoStakingRewards(getStakingProxyAddress()); uint256 accumulatedRewardsBeforeExecution = oldStaking.checkReward(TEST_REAL_ADDRESS_WITH_BALANCE); console2.log( "User rewards balance (bugged) before execution: %s TORN", accumulatedRewardsBeforeExecution / 10 ** 18 ); console2.log( "Bugged value of accumulated rewards per TORN: %s", oldStaking.accumulatedRewardPerTorn() ); createAndExecuteProposal(); TornadoStakingRewards newStaking = TornadoStakingRewards(getStakingProxyAddress()); uint256 accumulatedRewardsPerTORNAfterExecution = newStaking.accumulatedRewardPerTorn(); uint256 accumulatedRewardsAfterExecution = newStaking.checkReward(TEST_REAL_ADDRESS_WITH_BALANCE); console2.log( "User rewards balance before execution: %s TORN", accumulatedRewardsAfterExecution / 10 ** 18 ); console2.log( "Value of accumulated rewards per TORN after contract redeployment: %s", accumulatedRewardsPerTORNAfterExecution ); require(accumulatedRewardsBeforeExecution >= accumulatedRewardsAfterExecution, "Wtf"); require(accumulatedRewardsAfterExecution == 0, "Accumulated rewards isn't nullified"); require(accumulatedRewardsPerTORNAfterExecution == 0, "Accumulated rewards per TORN isn't nullified"); } function testRelayerRegistryStateSaved() public { RelayerRegistry registry = RelayerRegistry(getRelayerRegistryProxyAddress()); bool isRelayerRegisteredBeforeExecution = registry.isRelayer(TEST_RELAYER_ADDRESS); uint256 relayerStakedBalanceBeforeExecution = registry.getRelayerBalance(TEST_RELAYER_ADDRESS); console2.log( "Relayer balance in relayer registry contract before proposal execution: %s TORN", relayerStakedBalanceBeforeExecution / 10 ** 18 ); require(isRelayerRegisteredBeforeExecution, "Relayer not registered"); createAndExecuteProposal(); bool isRelayerRegisteredAfterExecution = registry.isRelayer(TEST_RELAYER_ADDRESS); uint256 relayerStakedBalanceAfterExecution = registry.getRelayerBalance(TEST_RELAYER_ADDRESS); console2.log( "Relayer balance in relayer registry contract after proposal execution: %s TORN", relayerStakedBalanceAfterExecution / 10 ** 18 ); require(isRelayerRegisteredAfterExecution, "Relayer isn't registered after proposal execution"); require( relayerStakedBalanceBeforeExecution == relayerStakedBalanceAfterExecution, "Relayer stake balance differs after execution" ); } }