staking/test/StakeManager.t.sol

943 lines
41 KiB
Solidity

// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.19;
import { ERC20 } from "@openzeppelin/contracts/token/ERC20/ERC20.sol";
import { Test, console } from "forge-std/Test.sol";
import { Deploy } from "../script/Deploy.s.sol";
import { DeployMigrationStakeManager } from "../script/DeployMigrationStakeManager.s.sol";
import { DeploymentConfig } from "../script/DeploymentConfig.s.sol";
import { StakeManager, StakeRewardEstimate } from "../contracts/StakeManager.sol";
import { StakeVault } from "../contracts/StakeVault.sol";
import { VaultFactory } from "../contracts/VaultFactory.sol";
contract StakeManagerTest is Test {
DeploymentConfig internal deploymentConfig;
StakeManager internal stakeManager;
VaultFactory internal vaultFactory;
address internal stakeToken;
address internal deployer;
address internal testUser = makeAddr("testUser");
address internal testUser2 = makeAddr("testUser2");
function setUp() public virtual {
Deploy deployment = new Deploy();
(vaultFactory, stakeManager, deploymentConfig) = deployment.run();
(deployer, stakeToken) = deploymentConfig.activeNetworkConfig();
}
function testDeployment() public {
assertEq(stakeManager.owner(), deployer);
assertEq(stakeManager.currentEpoch(), 0);
assertEq(stakeManager.pendingReward(), 0);
assertEq(stakeManager.totalSupplyMP(), 0);
assertEq(stakeManager.totalSupplyBalance(), 0);
assertEq(address(stakeManager.stakedToken()), stakeToken);
assertEq(address(stakeManager.previousManager()), address(0));
assertEq(stakeManager.totalSupply(), 0);
}
function _createTestVault(address owner) internal returns (StakeVault vault) {
vm.prank(owner);
vault = vaultFactory.createVault();
if (!stakeManager.isVault(address(vault).codehash)) {
vm.prank(deployer);
stakeManager.setVault(address(vault).codehash);
}
}
function _createStakingAccount(address owner, uint256 amount) internal returns (StakeVault userVault) {
return _createStakingAccount(owner, amount, 0, amount);
}
function _createStakingAccount(
address owner,
uint256 amount,
uint256 lockTime
)
internal
returns (StakeVault userVault)
{
return _createStakingAccount(owner, amount, lockTime, amount);
}
function _createStakingAccount(
address owner,
uint256 amount,
uint256 lockTime,
uint256 mintAmount
)
internal
returns (StakeVault userVault)
{
deal(stakeToken, owner, mintAmount);
userVault = _createTestVault(owner);
vm.startPrank(owner);
ERC20(stakeToken).approve(address(userVault), mintAmount);
userVault.stake(amount, lockTime);
vm.stopPrank();
}
}
contract StakeTest is StakeManagerTest {
function test_RevertWhen_SenderIsNotVault() public {
vm.expectRevert(StakeManager.StakeManager__SenderIsNotVault.selector);
stakeManager.stake(100, 1);
}
function test_StakeWithLockBonusMP() public {
uint256 stakeAmount = 10_000;
uint256 lockTime = stakeManager.MIN_LOCKUP_PERIOD();
StakeVault userVault = _createStakingAccount(testUser, stakeAmount, 0, stakeAmount);
(, uint256 balance, uint256 bonusMP, uint256 totalMP,,,,) = stakeManager.accounts(address(userVault));
assertEq(balance, stakeAmount, "balance of user vault should be equal to stake amount after stake");
assertEq(bonusMP, stakeAmount, "bonusMP of user vault should be equal to stake amount after stake if no lock");
assertEq(totalMP, bonusMP, "totalMP of user vault should be equal to bonusMP after stake if no epochs passed");
vm.prank(testUser);
userVault.lock(lockTime);
uint256 estimatedBonusMp = stakeAmount + stakeManager.calculateMPToMint(stakeAmount, lockTime);
(, balance, bonusMP, totalMP,,,,) = stakeManager.accounts(address(userVault));
assertEq(balance, stakeAmount, "balance of user vault should be equal to stake amount after lock");
assertEq(bonusMP, estimatedBonusMp, "bonusMP of user vault should be equal to estimated bonusMP after lock");
assertEq(totalMP, bonusMP, "totalMP of user vault should be equal to bonusMP after lock if no epochs passed");
StakeVault userVault2 = _createStakingAccount(testUser, stakeAmount, lockTime, stakeAmount);
(, balance, bonusMP, totalMP,,,,) = stakeManager.accounts(address(userVault2));
assertEq(balance, stakeAmount, "balance of user vault should be equal to stake amount after stake locked");
assertEq(
bonusMP, estimatedBonusMp, "bonusMP of user vault should be equal to estimated bonusMP after stake locked"
);
assertEq(
totalMP, bonusMP, "totalMP of user vault should be equal to bonusMP after stake locked if no epochs passed"
);
}
function test_RevertWhen_InvalidLockupPeriod() public {
// ensure user has funds
deal(stakeToken, testUser, 1000);
StakeVault userVault = _createTestVault(testUser);
vm.startPrank(testUser);
ERC20(stakeToken).approve(address(userVault), 100);
uint256 lockTime = stakeManager.MIN_LOCKUP_PERIOD() - 1;
vm.expectRevert(StakeManager.StakeManager__InvalidLockTime.selector);
userVault.stake(100, lockTime);
lockTime = stakeManager.MAX_LOCKUP_PERIOD() + 1;
vm.expectRevert(StakeManager.StakeManager__InvalidLockTime.selector);
userVault.stake(100, lockTime);
}
function test_RevertWhen_StakeIsTooLow() public {
StakeVault userVault = _createTestVault(testUser);
vm.startPrank(testUser);
vm.expectRevert(StakeManager.StakeManager__StakeIsTooLow.selector);
userVault.stake(0, 0);
}
function test_RevertWhen_Restake() public {
// ensure user has funds
deal(stakeToken, testUser, 1000);
StakeVault userVault = _createTestVault(testUser);
vm.startPrank(testUser);
ERC20(stakeToken).approve(address(userVault), 1000);
userVault.stake(100, 0);
vm.expectRevert(StakeManager.StakeManager__AlreadyStaked.selector);
userVault.stake(100, 0);
}
function test_RevertWhen_RestakeWithLock() public {
uint256 lockToIncrease = stakeManager.MIN_LOCKUP_PERIOD();
// ensure user has funds
deal(stakeToken, testUser, 1000);
StakeVault userVault = _createTestVault(testUser);
vm.startPrank(testUser);
ERC20(stakeToken).approve(address(userVault), 1000);
userVault.stake(100, lockToIncrease);
vm.expectRevert(StakeManager.StakeManager__AlreadyStaked.selector);
userVault.stake(100, 0);
}
function test_StakeWithoutLockUpTimeMintsMultiplierPoints() public {
uint256 stakeAmount = 100;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount, 0, stakeAmount * 10);
(,, uint256 totalMP,,,,,) = stakeManager.accounts(address(userVault));
assertEq(stakeManager.totalSupplyMP(), stakeAmount, "total multiplier point supply");
assertEq(totalMP, stakeAmount, "user multiplier points");
vm.prank(testUser);
userVault.unstake(stakeAmount);
(,,, totalMP,,,,) = stakeManager.accounts(address(userVault));
assertEq(stakeManager.totalSupplyMP(), 0, "totalSupplyMP burned after unstaking");
assertEq(totalMP, 0, "userMP burned after unstaking");
}
}
contract UnstakeTest is StakeManagerTest {
function test_RevertWhen_SenderIsNotVault() public {
vm.expectRevert(StakeManager.StakeManager__SenderIsNotVault.selector);
stakeManager.unstake(1);
}
function test_RevertWhen_FundsLocked() public {
uint256 lockTime = stakeManager.MIN_LOCKUP_PERIOD();
uint256 stakeAmount = 100;
uint256 mintAmount = stakeAmount * 10;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount, lockTime, mintAmount);
vm.prank(testUser);
vm.expectRevert(StakeManager.StakeManager__FundsLocked.selector);
userVault.unstake(1);
vm.prank(testUser);
vm.expectRevert(StakeManager.StakeManager__FundsLocked.selector);
userVault.unstake(stakeAmount);
}
function test_UnstakeShouldReturnFund_NoLockUp() public {
uint256 lockTime = 0;
uint256 stakeAmount = 100;
uint256 mintAmount = stakeAmount * 10;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount, lockTime, mintAmount);
assertEq(ERC20(stakeToken).balanceOf(testUser), 900);
vm.prank(testUser);
userVault.unstake(100);
assertEq(stakeManager.totalSupplyBalance(), 0);
assertEq(ERC20(stakeToken).balanceOf(address(userVault)), 0);
assertEq(ERC20(stakeToken).balanceOf(testUser), 1000);
}
function test_UnstakeShouldReturnFund_WithLockUp() public {
uint256 lockTime = stakeManager.MIN_LOCKUP_PERIOD();
uint256 stakeAmount = 100;
uint256 mintAmount = stakeAmount * 10;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount, lockTime, mintAmount);
assertEq(ERC20(stakeToken).balanceOf(testUser), 900);
vm.warp(block.timestamp + lockTime + 1);
vm.prank(testUser);
userVault.unstake(100);
assertEq(stakeManager.totalSupplyBalance(), 0);
assertEq(ERC20(stakeToken).balanceOf(address(userVault)), 0);
assertEq(ERC20(stakeToken).balanceOf(testUser), 1000);
}
function test_UnstakeShouldBurnMultiplierPoints() public {
uint256 percentToBurn = 90;
uint256 stakeAmount = 100;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount);
vm.startPrank(testUser);
assertEq(stakeManager.totalSupplyMP(), stakeAmount);
for (uint256 i = 0; i < 53; i++) {
vm.warp(stakeManager.epochEnd());
stakeManager.executeAccount(address(userVault), i + 1);
}
(, uint256 balanceBefore, uint256 bonusMPBefore, uint256 totalMPBefore,,,,) =
stakeManager.accounts(address(userVault));
uint256 totalSupplyMPBefore = stakeManager.totalSupplyMP();
uint256 unstakeAmount = stakeAmount * percentToBurn / 100;
console.log("unstake", unstakeAmount);
assertEq(ERC20(stakeToken).balanceOf(testUser), 0);
userVault.unstake(unstakeAmount);
(, uint256 balanceAfter, uint256 bonusMPAfter, uint256 totalMPAfter,,,,) =
stakeManager.accounts(address(userVault));
uint256 totalSupplyMPAfter = stakeManager.totalSupplyMP();
console.log("totalSupplyMPBefore", totalSupplyMPBefore);
console.log("totalSupplyMPAfter", totalSupplyMPAfter);
console.log("balanceBefore", balanceBefore);
console.log("balanceAfter", balanceAfter);
console.log("bonusMPBefore", bonusMPBefore);
console.log("bonusMPAfter", bonusMPAfter);
console.log("totalMPBefore", totalMPBefore);
console.log("totalMPAfter", totalMPAfter);
assertEq(balanceAfter, balanceBefore - (balanceBefore * percentToBurn / 100));
assertEq(bonusMPAfter, bonusMPBefore - (bonusMPBefore * percentToBurn / 100));
assertEq(totalMPAfter, totalMPBefore - (totalMPBefore * percentToBurn / 100));
assertEq(totalSupplyMPAfter, totalSupplyMPBefore - (totalMPBefore * percentToBurn / 100));
assertEq(ERC20(stakeToken).balanceOf(testUser), unstakeAmount);
}
function test_RevertWhen_AmountMoreThanBalance() public {
uint256 stakeAmount = 1000;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount);
vm.startPrank(testUser);
vm.expectRevert(StakeManager.StakeManager__InsufficientFunds.selector);
userVault.unstake(stakeAmount + 1);
}
}
contract LockTest is StakeManagerTest {
function test_RevertWhen_SenderIsNotVault() public {
vm.expectRevert(StakeManager.StakeManager__SenderIsNotVault.selector);
stakeManager.lock(100);
}
function test_NewLockupPeriod() public {
StakeVault userVault = _createStakingAccount(testUser, 1000);
uint256 lockTime = stakeManager.MAX_LOCKUP_PERIOD();
vm.startPrank(testUser);
userVault.lock(lockTime);
(, uint256 balance, uint256 bonusMP, uint256 totalMP,,,,) = stakeManager.accounts(address(userVault));
console.log("balance", balance);
console.log("bonusMP", bonusMP);
console.log("totalMP", totalMP);
}
function test_RevertWhen_InvalidNewLockupPeriod() public {
StakeVault userVault = _createStakingAccount(testUser, 1000);
uint256 lockTime = stakeManager.MAX_LOCKUP_PERIOD() + 1;
vm.startPrank(testUser);
vm.expectRevert(StakeManager.StakeManager__InvalidLockTime.selector);
userVault.lock(lockTime);
}
function test_UpdateLockupPeriod() public {
uint256 minLockup = stakeManager.MIN_LOCKUP_PERIOD();
StakeVault userVault = _createStakingAccount(testUser, 1000, minLockup, 1000);
vm.warp(block.timestamp + stakeManager.MIN_LOCKUP_PERIOD() - 1);
stakeManager.executeAccount(address(userVault), 1);
(, uint256 balance, uint256 bonusMP, uint256 totalMP,, uint256 lockUntil,,) =
stakeManager.accounts(address(userVault));
vm.startPrank(testUser);
userVault.lock(minLockup - 1);
(, balance, bonusMP, totalMP,, lockUntil,,) = stakeManager.accounts(address(userVault));
assertEq(lockUntil, block.timestamp + minLockup);
vm.warp(block.timestamp + stakeManager.MIN_LOCKUP_PERIOD());
userVault.lock(minLockup);
}
function test_RevertWhen_InvalidUpdateLockupPeriod() public {
uint256 minLockup = stakeManager.MIN_LOCKUP_PERIOD();
StakeVault userVault = _createStakingAccount(testUser, 1000, minLockup, 1000);
vm.warp(block.timestamp + stakeManager.MIN_LOCKUP_PERIOD());
stakeManager.executeAccount(address(userVault), 1);
(,,,,, uint256 lockUntil,,) = stakeManager.accounts(address(userVault));
console.log(lockUntil);
vm.startPrank(testUser);
vm.expectRevert(StakeManager.StakeManager__InvalidLockTime.selector);
userVault.lock(minLockup - 1);
}
function test_ShouldIncreaseBonusMP() public {
uint256 stakeAmount = 100;
uint256 lockTime = stakeManager.MAX_LOCKUP_PERIOD();
StakeVault userVault = _createStakingAccount(testUser, stakeAmount);
(, uint256 balance, uint256 bonusMP, uint256 totalMP,,,,) = stakeManager.accounts(address(userVault));
uint256 totalSupplyMPBefore = stakeManager.totalSupplyMP();
vm.startPrank(testUser);
userVault.lock(lockTime);
//solhint-disable-next-line max-line-length
(, uint256 newBalance, uint256 newBonusMP, uint256 newCurrentMP,,,,) = stakeManager.accounts(address(userVault));
uint256 totalSupplyMPAfter = stakeManager.totalSupplyMP();
assertGt(totalSupplyMPAfter, totalSupplyMPBefore, "totalSupplyMP");
assertGt(newBonusMP, bonusMP, "bonusMP");
assertGt(newCurrentMP, totalMP, "totalMP");
assertEq(newBalance, balance, "balance");
}
}
contract LeaveTest is StakeManagerTest {
function test_RevertWhen_SenderIsNotVault() public {
vm.expectRevert(StakeManager.StakeManager__SenderIsNotVault.selector);
stakeManager.migrateTo(false);
}
function test_RevertWhen_NoPendingMigration() public {
uint256 lockTime = 0;
uint256 stakeAmount = 100;
uint256 mintAmount = stakeAmount * 10;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount, lockTime, mintAmount);
vm.startPrank(testUser);
vm.expectRevert(StakeManager.StakeManager__NoPendingMigration.selector);
userVault.acceptMigration();
vm.expectRevert(StakeManager.StakeManager__NoPendingMigration.selector);
userVault.leave();
vm.stopPrank();
}
}
contract MigrateTest is StakeManagerTest {
function test_RevertWhen_SenderIsNotVault() public {
vm.expectRevert(StakeManager.StakeManager__SenderIsNotVault.selector);
stakeManager.migrateTo(true);
}
function test_RevertWhen_NoPendingMigration() public {
uint256 lockTime = 0;
uint256 stakeAmount = 100;
uint256 mintAmount = stakeAmount * 10;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount, lockTime, mintAmount);
vm.startPrank(testUser);
vm.expectRevert(StakeManager.StakeManager__NoPendingMigration.selector);
userVault.acceptMigration();
vm.stopPrank();
}
}
contract MigrationInitializeTest is StakeManagerTest {
function setUp() public override {
StakeManagerTest.setUp();
}
function test_RevertWhen_MigrationPending() public {
// first, create 2nd and 3rd generation stake manager
vm.startPrank(deployer);
StakeManager secondStakeManager = new StakeManager(stakeToken, address(stakeManager));
StakeManager thirdStakeManager = new StakeManager(stakeToken, address(secondStakeManager));
vm.stopPrank();
// first, ensure `secondStakeManager` is in migration mode itself
StakeRewardEstimate db = stakeManager.stakeRewardEstimate();
vm.prank(address(stakeManager));
db.transferOwnership(address(secondStakeManager));
vm.prank(address(deployer));
secondStakeManager.startMigration(thirdStakeManager);
uint256 currentEpoch = stakeManager.currentEpoch();
uint256 totalMP = stakeManager.totalSupplyMP();
uint256 totalBalance = stakeManager.totalSupplyBalance();
// `stakeManager` calling `migrationInitialize` while the new stake manager is
// in migration itself, should revert
vm.prank(address(stakeManager));
vm.expectRevert(StakeManager.StakeManager__PendingMigration.selector);
secondStakeManager.migrationInitialize(currentEpoch, totalMP, totalBalance, 0, 0, 0, 0);
}
}
contract ExecuteAccountTest is StakeManagerTest {
StakeVault[] private userVaults;
function test_RevertWhen_InvalidLimitEpoch() public {
uint256 lockTime = stakeManager.MIN_LOCKUP_PERIOD();
uint256 stakeAmount = 100;
uint256 mintAmount = stakeAmount * 10;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount, lockTime, mintAmount);
vm.startPrank(testUser);
uint256 currentEpoch = stakeManager.currentEpoch();
vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
stakeManager.executeEpoch(currentEpoch + 1);
vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
stakeManager.executeAccount(address(userVault), currentEpoch + 1);
vm.warp(stakeManager.epochEnd() - 1);
vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
stakeManager.executeEpoch(currentEpoch + 1);
vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
stakeManager.executeAccount(address(userVault), currentEpoch + 1);
vm.warp(stakeManager.epochEnd());
stakeManager.executeAccount(address(userVault), currentEpoch + 1);
stakeManager.executeEpoch(currentEpoch + 1);
currentEpoch++;
vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
stakeManager.executeEpoch(currentEpoch + 1);
vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
stakeManager.executeAccount(address(userVault), currentEpoch + 1);
vm.warp(stakeManager.epochEnd() + stakeManager.EPOCH_SIZE() - 1);
vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
stakeManager.executeEpoch(currentEpoch + 2);
vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
stakeManager.executeAccount(address(userVault), currentEpoch + 2);
stakeManager.executeAccount(address(userVault), currentEpoch + 1);
stakeManager.executeEpoch(currentEpoch + 1);
currentEpoch++;
vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
stakeManager.executeEpoch(currentEpoch + 1);
vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
stakeManager.executeAccount(address(userVault), currentEpoch + 1);
}
//Stake, pass epoch, execute epoch, passEpoch, executeEpoch, executeAccount, verify amount of MPs, totalMPs, etc.
function test_ExecuteAccountLimit() public {
uint256 stakeAmount = 10_000_000;
deal(stakeToken, testUser, stakeAmount);
userVaults.push(_createStakingAccount(makeAddr("testUser"), stakeAmount, 0));
(,,, uint256 totalMP, uint256 lastMint,, uint256 epoch,) = stakeManager.accounts(address(userVaults[0]));
vm.warp(stakeManager.epochEnd());
stakeManager.executeEpoch();
vm.warp(stakeManager.epochEnd());
//expected MP is, the starting totalMP + the calculatedMPToMint of user balance for one EPOCH_SIZE multiplied by
// 2.
uint256 expectedMP = totalMP + (stakeManager.calculateMPToMint(stakeAmount, stakeManager.EPOCH_SIZE()) * 2);
stakeManager.executeAccount(address(userVaults[0]), stakeManager.currentEpoch() + 1);
(,,, totalMP, lastMint,, epoch,) = stakeManager.accounts(address(userVaults[0]));
assertEq(totalMP, expectedMP, "totalMP is not what the contract itself predicted");
}
function test_ExecuteAccountMintMP() public {
uint256 stakeAmount = 10_000_000;
deal(stakeToken, testUser, stakeAmount);
userVaults.push(_createStakingAccount(makeAddr("testUser"), stakeAmount, 0));
userVaults.push(_createStakingAccount(makeAddr("testUser2"), stakeAmount, 0));
userVaults.push(_createStakingAccount(makeAddr("testUser3"), stakeAmount, 0));
console.log("######### NOW", block.timestamp);
console.log("# START EPOCH", stakeManager.currentEpoch());
console.log("# PND_REWARDS", stakeManager.pendingReward());
for (uint256 i = 0; i < 3; i++) {
deal(stakeToken, address(stakeManager), 100 ether);
vm.warp(stakeManager.epochEnd());
console.log("######### NOW", block.timestamp);
stakeManager.executeEpoch();
console.log("##### NEW EPOCH", stakeManager.currentEpoch());
console.log("# PND_REWARDS", stakeManager.pendingReward());
for (uint256 j = 0; j < userVaults.length; j++) {
//solhint-disable-next-line max-line-length
(address rewardAddress,,, uint256 totalMPBefore, uint256 lastMintBefore,, uint256 epochBefore,) =
stakeManager.accounts(address(userVaults[j]));
uint256 rewardsBefore = ERC20(stakeToken).balanceOf(rewardAddress);
console.log("-Vault number", j);
console.log("--=====BEFORE=====");
console.log("---### totalMP :", totalMPBefore);
console.log("---#### lastMint :", lastMintBefore);
console.log("---## user_epoch :", epochBefore);
console.log("---##### rewards :", rewardsBefore);
console.log("--=====AFTER======");
stakeManager.executeAccount(address(userVaults[j]), epochBefore + 1);
//solhint-disable-next-line max-line-length
(,,, uint256 totalMP, uint256 lastMint,, uint256 epoch,) = stakeManager.accounts(address(userVaults[j]));
uint256 rewards = ERC20(stakeToken).balanceOf(rewardAddress);
console.log("---### deltaTime :", lastMint - lastMintBefore);
console.log("---### totalMP :", totalMP);
console.log("---#### lastMint :", lastMint);
console.log("---## user_epoch :", epoch);
console.log("---##### rewards :", rewards);
console.log("--=======#=======");
console.log("--# TOTAL_SUPPLY", stakeManager.totalSupply());
console.log("--# PND_REWARDS", stakeManager.pendingReward());
assertEq(lastMint, lastMintBefore + stakeManager.EPOCH_SIZE(), "must increaase lastMint");
assertEq(epoch, epochBefore + 1, "must increase epoch");
assertGt(totalMP, totalMPBefore, "must increase MPs");
assertGt(rewards, rewardsBefore, "must increase rewards");
lastMintBefore = lastMint;
epochBefore = epoch;
totalMPBefore = totalMP;
}
}
}
function test_ShouldNotMintMoreThanCap() public {
uint256 stakeAmount = 10_000_000_000;
uint256 epochsAmountToReachCap = stakeManager.calculateMPToMint(
stakeAmount, stakeManager.MAX_BOOST() * stakeManager.YEAR()
) / stakeManager.calculateMPToMint(stakeAmount, stakeManager.EPOCH_SIZE());
deal(stakeToken, testUser, stakeAmount);
userVaults.push(_createStakingAccount(makeAddr("testUser"), stakeAmount, 0));
vm.warp(stakeManager.epochEnd() - (stakeManager.EPOCH_SIZE() - 1));
userVaults.push(_createStakingAccount(makeAddr("testUser2"), stakeAmount, 0));
vm.warp(stakeManager.epochEnd() - (stakeManager.EPOCH_SIZE() - 2));
userVaults.push(_createStakingAccount(makeAddr("testUser3"), stakeAmount, 0));
vm.warp(stakeManager.epochEnd() - ((stakeManager.EPOCH_SIZE() / 4) * 3));
userVaults.push(_createStakingAccount(makeAddr("testUser4"), stakeAmount, 0));
vm.warp(stakeManager.epochEnd() - ((stakeManager.EPOCH_SIZE() / 4) * 2));
userVaults.push(_createStakingAccount(makeAddr("testUser5"), stakeAmount, 0));
vm.warp(stakeManager.epochEnd() - ((stakeManager.EPOCH_SIZE() / 4) * 1));
userVaults.push(_createStakingAccount(makeAddr("testUser6"), stakeAmount, 0));
vm.warp(stakeManager.epochEnd() - 2);
userVaults.push(_createStakingAccount(makeAddr("testUser7"), stakeAmount, 0));
vm.warp(stakeManager.epochEnd() - 1);
userVaults.push(_createStakingAccount(makeAddr("testUser8"), stakeAmount, 0));
for (uint256 i = 0; i <= epochsAmountToReachCap; i++) {
deal(stakeToken, address(stakeManager), 100 ether);
vm.warp(stakeManager.epochEnd());
stakeManager.executeEpoch();
for (uint256 j = 0; j < userVaults.length; j++) {
(address rewardAddress,,, uint256 totalMPBefore, uint256 lastMintBefore,, uint256 epochBefore,) =
stakeManager.accounts(address(userVaults[j]));
uint256 rewardsBefore = ERC20(stakeToken).balanceOf(rewardAddress);
stakeManager.executeAccount(address(userVaults[j]), epochBefore + 1);
//solhint-disable-next-line max-line-length
(,,, uint256 totalMP, uint256 lastMint,, uint256 epoch,) = stakeManager.accounts(address(userVaults[j]));
uint256 rewards = ERC20(stakeToken).balanceOf(rewardAddress);
assertEq(epoch, epochBefore + 1, "must increase epoch");
assertGt(totalMP, totalMPBefore, "must increase MPs");
assertGt(rewards, rewardsBefore, "must increase rewards");
lastMintBefore = lastMint;
epochBefore = epoch;
totalMPBefore = totalMP;
}
}
for (uint256 i = 0; i < 100; i++) {
deal(stakeToken, address(stakeManager), 100 ether);
vm.warp(stakeManager.epochEnd());
stakeManager.executeEpoch();
for (uint256 j = 0; j < userVaults.length; j++) {
(address rewardAddress,,, uint256 totalMPBefore, uint256 lastMintBefore,, uint256 epochBefore,) =
stakeManager.accounts(address(userVaults[j]));
uint256 rewardsBefore = ERC20(stakeToken).balanceOf(rewardAddress);
stakeManager.executeAccount(address(userVaults[j]), epochBefore + 1);
//solhint-disable-next-line max-line-length
(,,, uint256 totalMP, uint256 lastMint,, uint256 epoch,) = stakeManager.accounts(address(userVaults[j]));
uint256 rewards = ERC20(stakeToken).balanceOf(rewardAddress);
assertEq(lastMint, lastMintBefore + stakeManager.EPOCH_SIZE(), "must increaase lastMint");
assertEq(epoch, epochBefore + 1, "must increase epoch");
// MPs will still be minted in mpLimitEpoch + 1 when accounts
// started staking at any point *inside* of an epoch, so we
// only perform the assert below one epoch after *that*
if (i > 0) {
assertEq(totalMP, totalMPBefore, "must NOT increase MPs");
}
assertGt(rewards, rewardsBefore, "must increase rewards");
lastMintBefore = lastMint;
epochBefore = epoch;
totalMPBefore = totalMP;
}
}
}
}
contract UserFlowsTest is StakeManagerTest {
StakeVault[] private userVaults;
function test_StakedSupplyShouldIncreaseAndDecreaseAgain() public {
uint256 lockTime = 0;
uint256 stakeAmount = 100;
uint256 mintAmount = stakeAmount * 10;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount, lockTime, mintAmount);
StakeVault user2Vault = _createStakingAccount(testUser2, stakeAmount, lockTime, mintAmount);
assertEq(ERC20(stakeToken).balanceOf(address(userVault)), 100);
assertEq(ERC20(stakeToken).balanceOf(address(user2Vault)), 100);
assertEq(stakeManager.totalSupplyBalance(), 200);
vm.startPrank(testUser);
userVault.unstake(100);
assertEq(ERC20(stakeToken).balanceOf(address(userVault)), 0);
assertEq(stakeManager.totalSupplyBalance(), 100);
vm.startPrank(testUser2);
user2Vault.unstake(100);
assertEq(ERC20(stakeToken).balanceOf(address(user2Vault)), 0);
assertEq(stakeManager.totalSupplyBalance(), 0);
}
function test_StakeWithLockUpTimeLocksStake() public {
uint256 lockTime = stakeManager.MIN_LOCKUP_PERIOD();
uint256 stakeAmount = 100;
uint256 mintAmount = stakeAmount * 10;
StakeVault userVault = _createStakingAccount(testUser, stakeAmount, lockTime, mintAmount);
vm.startPrank(testUser);
// unstaking should fail as lockup time isn't over yet
vm.expectRevert(StakeManager.StakeManager__FundsLocked.selector);
userVault.unstake(100);
// fast forward 12 weeks
skip(lockTime + 1);
userVault.unstake(100);
assertEq(ERC20(stakeToken).balanceOf(address(userVault)), 0);
assertEq(stakeManager.totalSupplyBalance(), 0);
}
function test_PendingMPToBeMintedCannotBeGreaterThanTotalSupplyMP(
uint8 randomStakeMultiplier,
uint128 randomStakeAddition
)
public
{
uint8 accountNum = 5;
uint256 minimumPossibleStake = 53; //less than this the stake per epoch of the account would be 0
uint256 baseStakeAmount =
(minimumPossibleStake * (uint256(randomStakeMultiplier) + 1)) + uint256(randomStakeAddition);
uint256 epochsAmountToReachCap = 0;
for (uint256 i = 0; i <= accountNum; i++) {
uint256 thisAccStake = baseStakeAmount + (i * (10 ^ i * baseStakeAmount)); //changes the amount of stake of
// each account so we have mixed amounts of stake
userVaults.push(
_createStakingAccount(makeAddr(string(abi.encode(keccak256(abi.encode(accountNum))))), thisAccStake, 0)
);
uint256 thisAccReachCapIn = stakeManager.calculateMPToMint(
thisAccStake, stakeManager.MAX_BOOST() * stakeManager.YEAR()
) / stakeManager.calculateMPToMint(thisAccStake, stakeManager.EPOCH_SIZE());
if (thisAccReachCapIn > epochsAmountToReachCap) {
epochsAmountToReachCap = thisAccReachCapIn; //uses the amount to reach cap from the account that takes
// longer to reach cap
}
}
//tests up to epochs to reach MAX_BOOST + 10 epochs
for (uint256 i = 0; i < epochsAmountToReachCap + 10; i++) {
vm.warp(stakeManager.epochEnd());
stakeManager.executeEpoch();
uint256 pendingMPToBeMintedBefore = stakeManager.pendingMPToBeMinted();
uint256 totalSupplyMP = stakeManager.totalSupplyMP();
for (uint256 j = 0; j < userVaults.length; j++) {
(,,, uint256 totalMPBefore, uint256 lastMintBefore,, uint256 epochBefore,) =
stakeManager.accounts(address(userVaults[j]));
stakeManager.executeAccount(address(userVaults[j]), epochBefore + 1);
}
uint256 pendingMPToBeMintedAfter = stakeManager.pendingMPToBeMinted();
assertEq(pendingMPToBeMintedBefore + totalSupplyMP, stakeManager.totalSupplyMP());
assertEq(pendingMPToBeMintedAfter, 0);
}
}
}
contract MigrationStakeManagerTest is StakeManagerTest {
StakeManager internal newStakeManager;
function setUp() public virtual override {
super.setUp();
DeployMigrationStakeManager deployment = new DeployMigrationStakeManager(address(stakeManager), stakeToken);
newStakeManager = deployment.run();
}
function testNewDeployment() public {
assertEq(newStakeManager.owner(), deployer);
assertEq(newStakeManager.currentEpoch(), 0);
assertEq(newStakeManager.pendingReward(), 0);
assertEq(newStakeManager.totalSupplyMP(), 0);
assertEq(newStakeManager.totalSupplyBalance(), 0);
assertEq(address(newStakeManager.stakedToken()), stakeToken);
assertEq(address(newStakeManager.previousManager()), address(stakeManager));
assertEq(newStakeManager.totalSupply(), 0);
}
function test_ExecuteEpochShouldNotIncreaseEpochInMigration() public {
assertEq(stakeManager.currentEpoch(), 0);
assertEq(address(stakeManager.migration()), address(0));
vm.prank(deployer);
stakeManager.startMigration(newStakeManager);
assertEq(address(stakeManager.migration()), address(newStakeManager));
vm.warp(stakeManager.epochEnd());
vm.expectRevert(StakeManager.StakeManager__PendingMigration.selector);
stakeManager.executeEpoch();
assertEq(stakeManager.currentEpoch(), 0);
}
}
contract ExecuteEpochTest is MigrationStakeManagerTest {
function test_ExecuteEpochNewEpoch() public {
uint256 firstEpochEnd = stakeManager.epochEnd();
assertEq(stakeManager.currentEpoch(), 0, "Epoch not 0 at start of test");
assertEq(stakeManager.newEpoch(), 0, "New epoch not 0 at start of test");
stakeManager.executeEpoch();
assertEq(stakeManager.currentEpoch(), 0, "Epoch should not increase if no time passed since start");
vm.warp(firstEpochEnd - 1);
assertEq(stakeManager.newEpoch(), 0, "New epoch not 0 if 1 second before epoch end");
stakeManager.executeEpoch();
assertEq(stakeManager.currentEpoch(), 0, "Epoch should not increase if 1 second before epoch end");
vm.warp(firstEpochEnd);
assertEq(stakeManager.newEpoch(), 1, "New epoch should be 1 if exactly at epochEnd");
stakeManager.executeEpoch();
assertEq(stakeManager.currentEpoch(), 1, "Current epoch should increased to 1 if exactly at epochEnd of 0");
vm.warp(firstEpochEnd + 1);
assertEq(stakeManager.newEpoch(), 1, "New epoch should be 1 if 1 second after epochend of 1");
stakeManager.executeEpoch();
assertEq(stakeManager.currentEpoch(), 1, "Current epoch should increase if 1 second after epochend of 1");
vm.warp(firstEpochEnd + (stakeManager.EPOCH_SIZE() * 99));
assertEq(stakeManager.newEpoch(), 100);
stakeManager.executeEpoch();
assertEq(stakeManager.currentEpoch(), 100);
}
function test_ExecuteEpochExecuteEpochAfterEnd() public {
StakeVault userVault = _createStakingAccount(makeAddr("testUser"), 100_000, 0);
vm.warp(stakeManager.epochEnd() + (stakeManager.EPOCH_SIZE() / 2));
stakeManager.executeEpoch();
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
vm.warp(stakeManager.epochEnd());
stakeManager.executeEpoch();
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
vm.warp(stakeManager.epochEnd() + (stakeManager.EPOCH_SIZE() * 2));
stakeManager.executeEpoch();
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
}
function test_ExecuteEpochExecuteEpochExecuteAccountAfterManyEpochs() public {
StakeVault userVault = _createStakingAccount(makeAddr("testUser"), 100_000, 0);
for (uint256 i = 0; i < 10; i++) {
vm.warp(stakeManager.epochEnd());
stakeManager.executeEpoch();
}
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
}
function test_ExecuteEpochExecuteEpochExecuteAccountAfterManyEpochsJumoMany() public {
StakeVault userVault = _createStakingAccount(makeAddr("testUser"), 100_000, 0);
for (uint256 i = 0; i < 10; i++) {
vm.warp(stakeManager.epochEnd());
}
stakeManager.executeEpoch();
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
}
function test_ExecuteEpochExecuteAccountAfterManyEpochsJumoMany() public {
StakeVault userVault = _createStakingAccount(makeAddr("testUser"), 100_000, 0);
for (uint256 i = 0; i < 10; i++) {
vm.warp(stakeManager.epochEnd());
}
stakeManager.executeAccount(address(userVault));
}
function test_ExecuteEpochExecuteEpochExecuteAccountAfterManyEpochsWithBrokenTime() public {
StakeVault userVault = _createStakingAccount(makeAddr("testUser"), 100_000, 0);
for (uint256 i = 0; i < 10; i++) {
vm.warp(stakeManager.epochEnd() + (stakeManager.EPOCH_SIZE() / 10 - i));
stakeManager.executeEpoch();
}
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
}
function test_ExecuteEpochExecuteEpochExecuteAccountAfterManyEpochsWithBrokenTimeJumpMany() public {
StakeVault userVault = _createStakingAccount(makeAddr("testUser"), 100_000, 0);
for (uint256 i = 0; i < 10; i++) {
vm.warp(stakeManager.epochEnd() + (stakeManager.EPOCH_SIZE() / 10 - i));
}
stakeManager.executeEpoch();
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
}
function test_ExecuteEpochExecuteAccountAfterManyEpochsWithBrokenTimeJumpMany() public {
StakeVault userVault = _createStakingAccount(makeAddr("testUser"), 100_000, 0);
for (uint256 i = 0; i < 10; i++) {
vm.warp(stakeManager.epochEnd() + (stakeManager.EPOCH_SIZE() / 10 - i));
}
stakeManager.executeAccount(address(userVault));
}
function test_ExecuteEpochExecuteAccountAfterEpochEnd() public {
StakeVault userVault = _createStakingAccount(makeAddr("testUser"), 100_000, 0);
vm.warp(stakeManager.epochEnd() + (stakeManager.EPOCH_SIZE() / 2));
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
vm.warp(stakeManager.epochEnd());
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
vm.warp(stakeManager.epochEnd() + (stakeManager.EPOCH_SIZE() * 2));
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
}
function test_ExecuteEpochExecuteAccountAfterManyEpochsWithBrokenTime() public {
StakeVault userVault = _createStakingAccount(makeAddr("testUser"), 100_000, 0);
for (uint256 i = 0; i < 10; i++) {
vm.warp(stakeManager.epochEnd() + (stakeManager.EPOCH_SIZE() / 10 - i));
stakeManager.executeAccount(address(userVault), stakeManager.currentEpoch());
}
}
function test_ExecuteEpochShouldNotIncreaseEpochBeforeEnd() public {
assertEq(stakeManager.currentEpoch(), 0);
vm.warp(stakeManager.epochEnd() - 1);
stakeManager.executeEpoch();
assertEq(stakeManager.currentEpoch(), 0);
}
function test_ExecuteEpochShouldIncreaseEpoch() public {
assertEq(stakeManager.currentEpoch(), 0);
vm.warp(stakeManager.epochEnd());
stakeManager.executeEpoch();
assertEq(stakeManager.currentEpoch(), 1);
}
//invariant: stakeManager balanceOf stakeToken > pendingReward
function test_ExecuteEpochShouldIncreasePendingReward() public {
assertEq(stakeManager.pendingReward(), 0);
assertEq(stakeManager.epochReward(), 0);
deal(stakeToken, address(stakeManager), 1);
assertEq(stakeManager.pendingReward(), 0);
assertEq(stakeManager.epochReward(), 1);
vm.warp(stakeManager.epochEnd());
stakeManager.executeEpoch();
assertEq(stakeManager.pendingReward(), 1);
assertEq(stakeManager.epochReward(), 0);
}
}