738 lines
28 KiB
Solidity
738 lines
28 KiB
Solidity
// SPDX-License-Identifier: MIT
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pragma solidity ^0.6.12;
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pragma experimental ABIEncoderV2;
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// OZ Imports
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import { IERC20 } from "@openzeppelin/contracts/token/ERC20/IERC20.sol";
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// STD Imports
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import { console2 } from "forge-std/console2.sol";
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// Tornado imports
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import { ITornadoInstance } from "tornado-anonymity-mining/contracts/interfaces/ITornadoInstance.sol";
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// Local imports
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import { IUniswapV2Pair } from "src/v2/interfaces/IUniswapV2Pair.sol";
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import { UniswapFeeOracle } from "src/v2/UniswapFeeOracle.sol";
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import { TornadoRouter } from "src/v2/TornadoRouter.sol";
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import { RelayerRegistry } from "src/v2/RelayerRegistry.sol";
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import { TornadoStakingRewards } from "src/v2/TornadoStakingRewards.sol";
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import { InstanceRegistry, InstanceState } from "src/v2/InstanceRegistry.sol";
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import { FeeOracleManager, FeeDataForOracle, InstanceWithFee } from "src/v2/FeeOracleManager.sol";
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import { CurveFeeOracle, ICurvePriceOracle, CurveChainedOracles } from "src/v2/CurveFeeOracle.sol";
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import { InfrastructureUpgradeProposal } from "src/proposals/InfrastructureUpgradeProposal.sol";
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import { CRVUSDInstancesProposal } from "src/proposals/CRVUSDInstancesProposal.sol";
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// Test imports
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import { TornadoProposalTest, ProposalState } from "./TornadoProposalTest.sol";
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interface IWethDepositable {
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function deposit() external payable;
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}
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contract Instances {
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/* ETH instances */
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ITornadoInstance public constant eth01 = ITornadoInstance(0x12D66f87A04A9E220743712cE6d9bB1B5616B8Fc);
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ITornadoInstance public constant eth1 = ITornadoInstance(0x47CE0C6eD5B0Ce3d3A51fdb1C52DC66a7c3c2936);
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ITornadoInstance public constant eth10 = ITornadoInstance(0x910Cbd523D972eb0a6f4cAe4618aD62622b39DbF);
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ITornadoInstance public constant eth100 = ITornadoInstance(0xA160cdAB225685dA1d56aa342Ad8841c3b53f291);
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/* DAI instances */
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ITornadoInstance public constant dai100 = ITornadoInstance(0xD4B88Df4D29F5CedD6857912842cff3b20C8Cfa3);
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ITornadoInstance public constant dai1000 = ITornadoInstance(0xFD8610d20aA15b7B2E3Be39B396a1bC3516c7144);
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ITornadoInstance public constant dai10000 = ITornadoInstance(0x07687e702b410Fa43f4cB4Af7FA097918ffD2730);
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ITornadoInstance public constant dai100000 = ITornadoInstance(0x23773E65ed146A459791799d01336DB287f25334);
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/* cDAI instances */
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ITornadoInstance public constant cdai100 = ITornadoInstance(0x22aaA7720ddd5388A3c0A3333430953C68f1849b);
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ITornadoInstance public constant cdai1000 = ITornadoInstance(0x03893a7c7463AE47D46bc7f091665f1893656003);
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ITornadoInstance public constant cdai10000 = ITornadoInstance(0x2717c5e28cf931547B621a5dddb772Ab6A35B701);
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ITornadoInstance public constant cdai100000 = ITornadoInstance(0xD21be7248e0197Ee08E0c20D4a96DEBdaC3D20Af);
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/* USDT instances */
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ITornadoInstance public constant usdt100 = ITornadoInstance(0x169AD27A470D064DEDE56a2D3ff727986b15D52B);
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ITornadoInstance public constant usdt1000 = ITornadoInstance(0x0836222F2B2B24A3F36f98668Ed8F0B38D1a872f);
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/* WBTC instances */
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ITornadoInstance public constant wbtc01 = ITornadoInstance(0x178169B423a011fff22B9e3F3abeA13414dDD0F1);
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ITornadoInstance public constant wbtc1 = ITornadoInstance(0x610B717796ad172B316836AC95a2ffad065CeaB4);
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ITornadoInstance public constant wbtc10 = ITornadoInstance(0xbB93e510BbCD0B7beb5A853875f9eC60275CF498);
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/* CRVUSD instances */
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ITornadoInstance public constant cu100 = ITornadoInstance(0x913a73486Dc4AA3832A56d461542836C1eeB93be);
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ITornadoInstance public constant cu1_000 = ITornadoInstance(0x5A6b3C829dB3e938C885000c6E93CF35E74876a4);
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ITornadoInstance public constant cu10_000 = ITornadoInstance(0x49f173CDAB99a2C3800F1255393DF9B7a17B82Bb);
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ITornadoInstance public constant cu100_000 = ITornadoInstance(0x4640Dffc9fD0B113B983e3A350b070a119CA143C);
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ITornadoInstance public constant cu1_000_000 =
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ITornadoInstance(0xc4eA8Bd3Fd76f3c255395793B47F7c55aD59d991);
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}
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contract ProposalTests is Instances, TornadoProposalTest {
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// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ VARIABLES ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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// Tokens
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IERC20 public constant TORN = IERC20(0x77777FeDdddFfC19Ff86DB637967013e6C6A116C);
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IERC20 public constant DAI = IERC20(0x6B175474E89094C44Da98b954EedeAC495271d0F);
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IERC20 public constant CDAI = IERC20(0x5d3a536E4D6DbD6114cc1Ead35777bAB948E3643);
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IERC20 public constant USDT = IERC20(0xdAC17F958D2ee523a2206206994597C13D831ec7);
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IERC20 internal constant WETH = IERC20(0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2);
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IERC20 internal constant WBTC = IERC20(0x2260FAC5E5542a773Aa44fBCfeDf7C193bc2C599);
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IERC20 internal constant CRVUSD = IERC20(0xf939E0A03FB07F59A73314E73794Be0E57ac1b4E);
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// Infra contracts constant
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FeeOracleManager public constant feeOracleManager =
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FeeOracleManager(0x5f6c97C6AD7bdd0AE7E0Dd4ca33A4ED3fDabD4D7);
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InstanceRegistry public constant instanceRegistry =
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InstanceRegistry(0xB20c66C4DE72433F3cE747b58B86830c459CA911);
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IUniswapV2Pair public constant uniTornPool = IUniswapV2Pair(0x0C722a487876989Af8a05FFfB6e32e45cc23FB3A);
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address payable public constant relayerRegistryProxyAddress = 0x58E8dCC13BE9780fC42E8723D8EaD4CF46943dF2;
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// Implementations
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InstanceRegistry implInstanceRegistry;
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FeeOracleManager implFeeOracleManager;
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RelayerRegistry implRegistry;
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TornadoStakingRewards implStaking;
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// Infra contracts mutable
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CurveFeeOracle curveFeeOracle;
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UniswapFeeOracle uniswapFeeOracle;
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TornadoRouter router;
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// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ TESTING ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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function setUp() public override {
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TornadoProposalTest.setUp();
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vm.rollFork(17_486_841);
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curveFeeOracle = new CurveFeeOracle(address(governance));
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uniswapFeeOracle = new UniswapFeeOracle(address(governance), address(feeOracleManager));
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vm.prank(address(governance));
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curveFeeOracle.setUniswapFeeOracle(uniswapFeeOracle);
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router = new TornadoRouter(address(governance));
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implRegistry = new RelayerRegistry(address(governance), address(TORN));
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implInstanceRegistry = new InstanceRegistry(address(governance));
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implFeeOracleManager = new FeeOracleManager(address(TORN), address(governance));
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implStaking = new TornadoStakingRewards(address(governance), address(TORN), address(router));
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_advanceTORNETHMarket();
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}
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function test_crvusdInstancesBasic() public {
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// Do the proposal first
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test_crvusdInstancesProposalBasic();
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// Advance
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_advanceTORNETHMarket();
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// Try to update crvusd 10000
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feeOracleManager.updateFee(cu10_000, false);
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// Try to update all
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ITornadoInstance[] memory _toUpdate = new ITornadoInstance[](5);
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_toUpdate[0] = cu100;
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_toUpdate[1] = cu1_000;
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_toUpdate[2] = cu10_000;
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_toUpdate[3] = cu100_000;
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_toUpdate[4] = cu1_000_000;
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feeOracleManager.updateFees(_toUpdate, false);
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// Print fees to console.
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console2.log("\n~~~~~~~~~~~~~~~~~~ LAST FEES ~~~~~~~~~~~~~~~~~~\n");
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console2.log("cu100: ", uint256(feeOracleManager.getLastFeeForInstance(cu100)));
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console2.log("cu1_000: ", uint256(feeOracleManager.getLastFeeForInstance(cu1_000)));
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console2.log("cu10_000: ", uint256(feeOracleManager.getLastFeeForInstance(cu10_000)));
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console2.log("cu100_000: ", uint256(feeOracleManager.getLastFeeForInstance(cu100_000)));
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console2.log("cu1_000_000: ", uint256(feeOracleManager.getLastFeeForInstance(cu1_000_000)));
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console2.log("\n~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n");
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delimit();
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console2.log("\n~~~~~~~~~~~~~~~~~~ UPDATED FEES ~~~~~~~~~~~~~~~~~~\n");
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console2.log("cu100: ", uint256(feeOracleManager.updateFee(cu100, true)));
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console2.log("cu1_000: ", uint256(feeOracleManager.updateFee(cu1_000, true)));
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console2.log("cu10_000: ", uint256(feeOracleManager.updateFee(cu10_000, true)));
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console2.log("cu100_000: ", uint256(feeOracleManager.updateFee(cu100_000, true)));
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console2.log("cu1_000_000: ", uint256(feeOracleManager.updateFee(cu1_000_000, true)));
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console2.log("\n~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n");
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delimit();
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console2.log("\n~~~~~~~~~~~~~~~~~~ DATA ~~~~~~~~~~~~~~~~~~\n");
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InstanceState memory data = instanceRegistry.getInstanceState(cu100);
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delimit();
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console2.log("cu100:");
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console2.log("token: ", address(data.token));
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console2.log("index: ", uint256(data.index));
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console2.log("iserc20: ", data.isERC20);
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console2.log("isenabled: ", data.isEnabled);
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delimit();
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data = instanceRegistry.getInstanceState(cu1_000);
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console2.log("cu1_000:");
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console2.log("token: ", address(data.token));
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console2.log("index: ", uint256(data.index));
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console2.log("iserc20: ", data.isERC20);
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console2.log("isenabled: ", data.isEnabled);
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delimit();
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data = instanceRegistry.getInstanceState(cu10_000);
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console2.log("cu10_000:");
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console2.log("token: ", address(data.token));
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console2.log("index: ", uint256(data.index));
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console2.log("iserc20: ", data.isERC20);
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console2.log("isenabled: ", data.isEnabled);
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delimit();
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data = instanceRegistry.getInstanceState(cu100_000);
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console2.log("cu100_000:");
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console2.log("token: ", address(data.token));
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console2.log("index: ", uint256(data.index));
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console2.log("iserc20: ", data.isERC20);
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console2.log("isenabled: ", data.isEnabled);
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delimit();
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data = instanceRegistry.getInstanceState(cu1_000_000);
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console2.log("cu1_000_000:");
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console2.log("token: ", address(data.token));
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console2.log("index: ", uint256(data.index));
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console2.log("iserc20: ", data.isERC20);
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console2.log("isenabled: ", data.isEnabled);
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delimit();
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console2.log("\n~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n");
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curveFeeOracle.update(TORN, feeOracleManager.populateInstanceWithFeeData(cu10_000));
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curveFeeOracle.getFee(TORN, feeOracleManager.populateInstanceWithFeeData(cu10_000));
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// Some assertions
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require(
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strcomp(curveFeeOracle.getChainedOracleNameForInstance(cu100), "ETH/CRVUSD"),
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"oracle name doesnt match"
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);
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require(
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strcomp(
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curveFeeOracle.getChainedOracleNameForOracleHash(
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curveFeeOracle.getChainedOracleHashForInstance(cu1_000)
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),
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"ETH/CRVUSD"
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),
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"oracle name doesnt match"
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);
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// Should be able to update all fees
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feeOracleManager.updateAllFees(true);
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feeOracleManager.updateAllFees(false);
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feeOracleManager.version();
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// Just for some gas values for this call
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instanceRegistry.instanceData(cu100);
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instanceRegistry.instanceData(cu1_000);
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instanceRegistry.version();
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router.version();
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// Let's just check all instances one by one
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InstanceState[] memory states = instanceRegistry.getAllInstanceStates();
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for (uint256 i = 0; i < states.length; i++) {
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if (i <= 3) {
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require(!states[i].isERC20);
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require(states[i].isEnabled);
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} else if (i <= 7) {
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require(states[i].token == DAI);
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require(states[i].isERC20);
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require(states[i].isEnabled);
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} else if (i <= 11) {
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require(states[i].token == CDAI);
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require(states[i].isERC20);
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require(states[i].isEnabled);
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} else if (i <= 13) {
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require(states[i].token == USDT);
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require(states[i].isERC20);
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require(states[i].isEnabled);
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} else if (i <= 16) {
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require(states[i].token == WBTC);
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require(states[i].isERC20);
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require(states[i].isEnabled);
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} else if (i <= 21) {
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require(states[i].token == CRVUSD);
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require(states[i].isERC20);
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require(states[i].isEnabled);
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}
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}
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// Now do a specific interval
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states = instanceRegistry.getInstanceState(8, 11);
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for (uint256 i = 0; i < 4; i++) {
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require(states[i].token == CDAI);
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require(states[i].isERC20);
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require(states[i].isEnabled);
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}
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// Other for coverage
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require(instanceRegistry.isRegisteredInstance(cu10_000));
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vm.prank(address(governance));
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instanceRegistry.setTornadoRouter(address(0));
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require(address(instanceRegistry.router()) == address(0));
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}
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function test_infrastructureBasic() public {
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// Do the proposal first
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test_infrastructureUpgradeProposalBasic();
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// Try to update eth10
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feeOracleManager.updateFee(eth10, false);
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// Try to update multiple
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ITornadoInstance[] memory _toUpdate = new ITornadoInstance[](3);
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console2.log(uint256(feeOracleManager.getLastFeeForInstance(eth100)));
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_toUpdate[0] = eth100;
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_toUpdate[1] = dai10000;
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_toUpdate[2] = usdt100;
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console2.log(uint256(feeOracleManager.getLastFeeForInstance(eth100)));
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feeOracleManager.updateFees(_toUpdate, false);
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require(feeOracleManager.getLastUpdatedTimeForInstance(eth100) == now, "timeup");
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// Must not be able to re-initialize the InstanceRegistry
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vm.expectRevert();
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vm.prank(address(governance));
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instanceRegistry.initialize(_toUpdate, router);
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vm.expectRevert();
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instanceRegistry.initialize(_toUpdate, router);
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// Must not be able to re-initialize the FeeOracleManager
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vm.expectRevert();
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vm.prank(address(governance));
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feeOracleManager.initialize(
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address(uniswapFeeOracle), address(instanceRegistry), 6 hours, _toUpdate, feeArrayForTesting_1()
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);
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vm.expectRevert();
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feeOracleManager.initialize(
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address(uniswapFeeOracle), address(instanceRegistry), 6 hours, _toUpdate, feeArrayForTesting_1()
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);
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// Must not be able to re-initialize the router... the contract addresses are unimportant
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vm.expectRevert();
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vm.prank(address(governance));
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router.initialize(address(instanceRegistry), address(instanceRegistry), address(feeOracleManager));
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vm.expectRevert();
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router.initialize(address(instanceRegistry), address(instanceRegistry), address(feeOracleManager));
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// Check fee logic and print to console.
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console2.log("\n~~~~~~~~~~~~~~~~~~ LAST FEES ~~~~~~~~~~~~~~~~~~\n");
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console2.log("eth10: ", uint256(feeOracleManager.getLastFeeForInstance(eth10)));
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console2.log("eth100: ", uint256(feeOracleManager.getLastFeeForInstance(eth100)));
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console2.log("dai10000: ", uint256(feeOracleManager.getLastFeeForInstance(dai10000)));
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console2.log("usdt100: ", uint256(feeOracleManager.getLastFeeForInstance(usdt100)));
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console2.log("\n~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n");
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delimit();
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console2.log("\n~~~~~~~~~~~~~~~~~~ UPDATED FEES ~~~~~~~~~~~~~~~~~~\n");
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console2.log("eth10: ", uint256(feeOracleManager.updateFee(eth10, true)));
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console2.log("eth100: ", uint256(feeOracleManager.updateFee(eth100, true)));
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console2.log("dai10000: ", uint256(feeOracleManager.updateFee(dai10000, true)));
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console2.log("usdt100: ", uint256(feeOracleManager.updateFee(usdt100, true)));
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console2.log("\n~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n");
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delimit();
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console2.log("\n~~~~~~~~~~~~~~~~~~ DATA ~~~~~~~~~~~~~~~~~~\n");
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InstanceState memory data = instanceRegistry.getInstanceState(eth10);
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delimit();
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console2.log("eth10:");
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console2.log("token: ", address(data.token));
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console2.log("index: ", uint256(data.index));
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console2.log("iserc20: ", data.isERC20);
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console2.log("isenabled: ", data.isEnabled);
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delimit();
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data = instanceRegistry.getInstanceState(eth100);
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console2.log("eth100:");
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console2.log("token: ", address(data.token));
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console2.log("index: ", uint256(data.index));
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console2.log("iserc20: ", data.isERC20);
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console2.log("isenabled: ", data.isEnabled);
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delimit();
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data = instanceRegistry.getInstanceState(dai10000);
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console2.log("dai10000:");
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console2.log("token: ", address(data.token));
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console2.log("index: ", uint256(data.index));
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console2.log("iserc20: ", data.isERC20);
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console2.log("isenabled: ", data.isEnabled);
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delimit();
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data = instanceRegistry.getInstanceState(usdt100);
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console2.log("usdt100:");
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console2.log("token: ", address(data.token));
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console2.log("index: ", uint256(data.index));
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console2.log("iserc20: ", data.isERC20);
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console2.log("isenabled: ", data.isEnabled);
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delimit();
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console2.log("\n~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n");
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// Now should be able to rmemove an instance
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vm.prank(address(governance));
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instanceRegistry.removeInstanceByAddress(address(dai10000)); // DAI10k
|
|
|
|
vm.prank(address(governance));
|
|
instanceRegistry.removeInstanceByIndex(2); // ETH10
|
|
|
|
// Now log again
|
|
console2.log("\n~~~~~~~~~~~~~~~~~~ SHOULD HAVE CHANGED ~~~~~~~~~~~~~~~~~~\n");
|
|
delimit();
|
|
data = instanceRegistry.getInstanceState(2);
|
|
console2.log("NOT eth10:");
|
|
console2.log("token: ", address(data.token));
|
|
console2.log("index: ", uint256(data.index));
|
|
console2.log("iserc20: ", data.isERC20);
|
|
console2.log("isenabled: ", data.isEnabled);
|
|
delimit();
|
|
data = instanceRegistry.getInstanceState(6);
|
|
console2.log("NOT dai10000:");
|
|
console2.log("token: ", address(data.token));
|
|
console2.log("index: ", uint256(data.index));
|
|
console2.log("iserc20: ", data.isERC20);
|
|
console2.log("isenabled: ", data.isEnabled);
|
|
console2.log("\n~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n");
|
|
|
|
// Now add them back and only do assertions
|
|
vm.prank(address(governance));
|
|
instanceRegistry.addInstance(dai10000);
|
|
|
|
vm.prank(address(governance));
|
|
instanceRegistry.addInstance(eth10);
|
|
|
|
vm.prank(address(governance));
|
|
data = instanceRegistry.getInstanceState(dai10000);
|
|
require(data.token == DAI, "not dai");
|
|
require(data.index == 15, "not 15");
|
|
require(data.isERC20, "not token");
|
|
require(data.isEnabled, "not enabled");
|
|
|
|
vm.prank(address(governance));
|
|
data = instanceRegistry.getInstanceState(eth10);
|
|
require(data.token == IERC20(0), "not eth");
|
|
require(data.index == 16, "not last");
|
|
require(!data.isERC20, "not not token");
|
|
require(data.isEnabled, "not enabled");
|
|
|
|
// Some assertions to test getters
|
|
require(instanceRegistry.getInstanceIndex(eth100) == 3, "Wrong index");
|
|
require(instanceRegistry.getInstanceToken(eth100) == IERC20(address(0)), "Wrong token");
|
|
require(instanceRegistry.getInstanceToken(dai10000) == DAI, "Wrong token");
|
|
require(instanceRegistry.isEnabledInstance(dai10000) == true, "Wrong token");
|
|
|
|
// Just to get some gas values for these fns
|
|
|
|
instanceRegistry.instanceData(eth10);
|
|
instanceRegistry.instanceData(eth100);
|
|
instanceRegistry.instanceData(dai10000);
|
|
uniswapFeeOracle.getTWAPData();
|
|
uniswapFeeOracle.getLastUpdatedTime();
|
|
|
|
vm.expectRevert();
|
|
uniswapFeeOracle.update(
|
|
TORN,
|
|
InstanceWithFee({
|
|
logic: eth100,
|
|
state: InstanceState(WETH, 0, false, false),
|
|
fee: FeeDataForOracle(0, 0, 0, 2 days, 0)
|
|
})
|
|
);
|
|
|
|
vm.expectRevert();
|
|
uniswapFeeOracle.setFeeOracleManagerAddress(address(0));
|
|
vm.expectRevert();
|
|
uniswapFeeOracle.setMinObservationCardinality(0);
|
|
vm.expectRevert();
|
|
uniswapFeeOracle.setPoolFeeForToken(WETH, 0);
|
|
|
|
// Expect no update if in inside the time limit interval
|
|
|
|
uint256 startTimestamp = block.timestamp;
|
|
uint256 interval = feeOracleManager.getFeeUpdateIntervalForInstance(eth100);
|
|
|
|
vm.warp(startTimestamp + interval + 5 days);
|
|
|
|
feeOracleManager.updateFee(eth100, true);
|
|
uint256 eth100Fee = feeOracleManager.getLastFeeForInstance(eth100);
|
|
|
|
vm.prank(address(governance));
|
|
feeOracleManager.setFeePercentForInstance(eth100, 50);
|
|
|
|
// both shouldnt update
|
|
feeOracleManager.updateFee(eth100, true);
|
|
uint32 lastUpdatedTimeHere = feeOracleManager.getLastUpdatedTimeForInstance(eth100);
|
|
vm.prank(address(feeOracleManager));
|
|
uniswapFeeOracle.update(
|
|
TORN,
|
|
InstanceWithFee({
|
|
logic: eth100,
|
|
state: InstanceState(WETH, 0, false, false),
|
|
fee: FeeDataForOracle(0, 0, 0, 2 days, lastUpdatedTimeHere)
|
|
})
|
|
);
|
|
|
|
require(eth100Fee == feeOracleManager.getLastFeeForInstance(eth100), "wrong fee 1");
|
|
|
|
vm.warp(startTimestamp + 2 * interval + 10 days);
|
|
|
|
feeOracleManager.updateFee(eth100, true);
|
|
uint256 eth100Fee2 = feeOracleManager.getLastFeeForInstance(eth100);
|
|
require(eth100Fee != eth100Fee2, "wrong fee 2");
|
|
|
|
vm.prank(address(governance));
|
|
feeOracleManager.setFeePercentForInstance(eth100, 30);
|
|
|
|
vm.warp(startTimestamp + 3 * interval + 15 days);
|
|
|
|
feeOracleManager.updateFee(eth100, true);
|
|
require(eth100Fee == feeOracleManager.getLastFeeForInstance(eth100), "wrong fee 3");
|
|
require(eth100Fee == feeOracleManager.getUpdatedFeeForInstance(eth100), "wrong fee 3");
|
|
|
|
vm.warp(startTimestamp);
|
|
|
|
// Should be able to update all fees
|
|
|
|
feeOracleManager.updateAllFees(true);
|
|
feeOracleManager.updateAllFees(false);
|
|
|
|
// Deviations don't revert
|
|
|
|
feeOracleManager.getAllFeeDeviations();
|
|
|
|
// There is a deviation
|
|
|
|
vm.prank(address(governance));
|
|
feeOracleManager.setFeePercentForInstance(eth100, 10);
|
|
|
|
_toUpdate = new ITornadoInstance[](1);
|
|
|
|
_toUpdate[0] = eth100;
|
|
|
|
int256[] memory eth100Deviations = feeOracleManager.getFeeDeviationsForInstances(_toUpdate);
|
|
|
|
require(eth100Deviations[0] != 0, "deviations");
|
|
|
|
vm.prank(address(governance));
|
|
feeOracleManager.setFeePercentForInstance(eth100, 30);
|
|
|
|
feeOracleManager.updateFee(eth100, false);
|
|
|
|
// Should be able to deposit via router
|
|
|
|
address depositor = address(bytes20(bytes32(keccak256("depositor"))));
|
|
|
|
vm.deal(depositor, 1 ether); // for gas
|
|
|
|
vm.prank(address(DAI));
|
|
DAI.transfer(depositor, 100_000e18);
|
|
|
|
require(DAI.balanceOf(depositor) == 100_000e18, "not enough depo bal");
|
|
|
|
vm.prank(address(depositor));
|
|
DAI.approve(address(router), 100_000e18);
|
|
|
|
bytes32 commitment = 0x00eb84375e4bfd042468fe624e6d322dba4f601b37dd0a44f741d3cb04127df0;
|
|
|
|
bytes memory empty;
|
|
|
|
vm.prank(address(depositor));
|
|
|
|
router.deposit(dai100000, commitment, empty);
|
|
|
|
// Let's toss in some functions for coverage
|
|
|
|
vm.prank(address(governance));
|
|
feeOracleManager.setFeeUpdateIntervalForInstance(eth100, 60_000);
|
|
|
|
vm.prank(address(governance));
|
|
feeOracleManager.setFeeUpdateIntervalForInstance(eth100, uint24(interval));
|
|
|
|
require(feeOracleManager.getFeePercentForInstance(eth100) == 30, "fee percent eth100");
|
|
require(feeOracleManager.getLastUpdatedTimeForInstance(eth100) == now, "updated time eth100");
|
|
|
|
// Reverts
|
|
|
|
vm.expectRevert();
|
|
feeOracleManager.setInstanceRegistry(address(0));
|
|
vm.expectRevert();
|
|
feeOracleManager.setFeeOracle(address(eth100), address(0));
|
|
vm.expectRevert();
|
|
feeOracleManager.setFeePercentForInstance(eth100, 40);
|
|
vm.expectRevert();
|
|
feeOracleManager.setFeeUpdateIntervalForInstance(eth100, uint24(interval - 3));
|
|
|
|
// Should be able to delete and set an oracle
|
|
|
|
vm.prank(address(governance));
|
|
feeOracleManager.setFeeOracle(address(eth100), address(0));
|
|
|
|
require(address(feeOracleManager.instanceFeeOracles(eth100)) == address(0), "fee oracle deletion");
|
|
|
|
vm.prank(address(governance));
|
|
feeOracleManager.setFeeOracle(address(eth100), address(uniswapFeeOracle));
|
|
|
|
// For coverage
|
|
vm.prank(address(governance));
|
|
uniswapFeeOracle.setFeeOracleManagerAddress(address(feeOracleManager));
|
|
vm.prank(address(governance));
|
|
feeOracleManager.setInstanceRegistry(address(instanceRegistry));
|
|
}
|
|
|
|
function test_crvusdInstancesProposalBasic() public {
|
|
// First pass the former proposal
|
|
test_infrastructureUpgradeProposalBasic();
|
|
|
|
// Then create the crvUSD proposal
|
|
address proposal =
|
|
address(new CRVUSDInstancesProposal(address(curveFeeOracle), address(uniswapFeeOracle)));
|
|
|
|
// Propose
|
|
uint256 id = easyPropose(proposal);
|
|
|
|
// Wait
|
|
waitUntilExecutable(id);
|
|
|
|
// Exec
|
|
governance.execute(id);
|
|
}
|
|
|
|
function test_infrastructureUpgradeProposalBasic() public {
|
|
// Create proposal
|
|
address proposal = address(
|
|
new InfrastructureUpgradeProposal(
|
|
address(uniswapFeeOracle),
|
|
address(implRegistry),
|
|
address(implStaking),
|
|
address(implFeeOracleManager),
|
|
address(implInstanceRegistry),
|
|
address(router)
|
|
)
|
|
);
|
|
|
|
// Propose
|
|
uint256 id = easyPropose(proposal);
|
|
|
|
// Wait
|
|
waitUntilExecutable(id);
|
|
|
|
// Exec
|
|
governance.execute(id);
|
|
|
|
// Test whethe resolving names works... with the Governance contract
|
|
|
|
require(
|
|
address(instanceRegistry.getInstanceByENSName("governance.contract.tornadocash.eth"))
|
|
== address(governance),
|
|
"ENSResolving doesn't work"
|
|
);
|
|
|
|
// Setup and test fee oracle manager update revert
|
|
|
|
vm.expectRevert();
|
|
feeOracleManager.updateFee(eth100, false);
|
|
|
|
vm.prank(address(governance));
|
|
feeOracleManager.setFeeUpdater(address(this));
|
|
}
|
|
|
|
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ HELPERS ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
function _advanceTORNETHMarket() internal {
|
|
console2.log("\n ♻️ Trader is now going to move the price. ♻️ \n");
|
|
|
|
uint256 lastPriceAvg0 = uniTornPool.price0CumulativeLast();
|
|
uint256 lastPriceAvg1 = uniTornPool.price0CumulativeLast();
|
|
|
|
uint256 rn = now;
|
|
address trader = address(bytes20(keccak256("trader")));
|
|
|
|
vm.deal(trader, 20 ether);
|
|
vm.prank(trader);
|
|
IWethDepositable(address(WETH)).deposit{ value: 19 ether }();
|
|
|
|
require(WETH.balanceOf(trader) == 19 ether, "deposit for weth");
|
|
|
|
vm.warp(rn + 2 days + 1 hours);
|
|
|
|
vm.prank(trader);
|
|
WETH.transfer(address(uniTornPool), 19 ether);
|
|
|
|
uint256 expected = 5_600_000_000_000_000_000_000;
|
|
bool worked;
|
|
|
|
while (!worked) {
|
|
try uniTornPool.swap(expected, 0, trader, new bytes(0)) {
|
|
worked = true;
|
|
} catch {
|
|
expected /= 2;
|
|
}
|
|
}
|
|
|
|
require(lastPriceAvg0 != uniTornPool.price0CumulativeLast(), "twap moving 0 fail");
|
|
require(lastPriceAvg1 != uniTornPool.price1CumulativeLast(), "twap moving 1 fail");
|
|
}
|
|
|
|
function delimit() internal view {
|
|
console2.log();
|
|
}
|
|
|
|
function strcomp(string memory left, string memory right) internal pure returns (bool) {
|
|
return keccak256(abi.encode(left)) == keccak256(abi.encode(right));
|
|
}
|
|
|
|
function feeArrayForTesting_1() internal pure returns (uint256[] memory fees) {
|
|
fees = new uint256[](3);
|
|
fees[0] = 30;
|
|
fees[1] = 30;
|
|
fees[2] = 30;
|
|
}
|
|
}
|