mirror of https://github.com/logos-co/staking.git
312 lines
10 KiB
Solidity
312 lines
10 KiB
Solidity
// SPDX-License-Identifier: UNLICENSED
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pragma solidity ^0.8.19;
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import { ERC20 } from "@openzeppelin/contracts/token/ERC20/ERC20.sol";
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import { Test } from "forge-std/Test.sol";
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import { Deploy } from "../script/Deploy.s.sol";
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import { DeploymentConfig } from "../script/DeploymentConfig.s.sol";
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import { StakeManager } from "../contracts/StakeManager.sol";
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import { StakeVault } from "../contracts/StakeVault.sol";
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import { VaultFactory } from "../contracts/VaultFactory.sol";
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contract StakeManagerTest is Test {
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DeploymentConfig internal deploymentConfig;
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StakeManager internal stakeManager;
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VaultFactory internal vaultFactory;
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address internal stakeToken;
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address internal deployer;
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address internal testUser = makeAddr("testUser");
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address internal testUser2 = makeAddr("testUser2");
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function setUp() public virtual {
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Deploy deployment = new Deploy();
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(vaultFactory, stakeManager, deploymentConfig) = deployment.run();
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(deployer, stakeToken) = deploymentConfig.activeNetworkConfig();
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}
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function testDeployment() public {
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assertEq(stakeManager.owner(), deployer);
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assertEq(stakeManager.currentEpoch(), 0);
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assertEq(stakeManager.pendingReward(), 0);
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assertEq(stakeManager.multiplierSupply(), 0);
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assertEq(stakeManager.stakeSupply(), 0);
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assertEq(address(stakeManager.stakedToken()), stakeToken);
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assertEq(address(stakeManager.oldManager()), address(0));
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assertEq(stakeManager.totalSupply(), 0);
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}
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function _createTestVault(address owner) internal returns (StakeVault vault) {
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vm.prank(owner);
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vault = vaultFactory.createVault();
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if (!stakeManager.isVault(address(vault).codehash)) {
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vm.prank(deployer);
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stakeManager.setVault(address(vault).codehash);
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}
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}
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}
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contract StakeTest is StakeManagerTest {
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function setUp() public override {
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StakeManagerTest.setUp();
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}
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function test_RevertWhen_SenderIsNotVault() public {
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vm.expectRevert(StakeManager.StakeManager__SenderIsNotVault.selector);
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stakeManager.stake(100, 1);
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}
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function test_RevertWhen_InvalidLockupPeriod() public {
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// ensure user has funds
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deal(stakeToken, testUser, 1000);
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StakeVault userVault = _createTestVault(testUser);
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vm.startPrank(testUser);
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ERC20(stakeToken).approve(address(userVault), 100);
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uint256 lockTime = stakeManager.MIN_LOCKUP_PERIOD() - 1;
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vm.expectRevert(StakeManager.StakeManager__InvalidLockupPeriod.selector);
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userVault.stake(100, lockTime);
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lockTime = stakeManager.MAX_LOCKUP_PERIOD() + 1;
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vm.expectRevert(StakeManager.StakeManager__InvalidLockupPeriod.selector);
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userVault.stake(100, lockTime);
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}
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function test_StakeWithoutLockUpTimeMintsMultiplierPoints() public {
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// ensure user has funds
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deal(stakeToken, testUser, 1000);
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StakeVault userVault = _createTestVault(testUser);
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vm.startPrank(testUser);
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ERC20(stakeToken).approve(address(userVault), 100);
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// stake without lockup time
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userVault.stake(100, 0);
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(,, uint256 multiplierPoints,,,) = stakeManager.accounts(address(userVault));
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// total multiplier poitn supply
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assertEq(stakeManager.multiplierSupply(), 100);
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// user multiplier points
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assertEq(multiplierPoints, 100);
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userVault.unstake(100);
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// multiplierpoints are burned after unstaking
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(,, multiplierPoints,,,) = stakeManager.accounts(address(userVault));
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assertEq(stakeManager.multiplierSupply(), 0);
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assertEq(multiplierPoints, 0);
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}
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}
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contract UnstakeTest is StakeManagerTest {
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function setUp() public override {
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StakeManagerTest.setUp();
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}
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function test_RevertWhen_SenderIsNotVault() public {
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vm.expectRevert(StakeManager.StakeManager__SenderIsNotVault.selector);
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stakeManager.unstake(100);
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}
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function test_RevertWhen_FundsLocked() public {
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// ensure user has funds
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deal(stakeToken, testUser, 1000);
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StakeVault userVault = _createTestVault(testUser);
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vm.startPrank(testUser);
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ERC20(stakeToken).approve(address(userVault), 100);
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uint256 lockTime = stakeManager.MIN_LOCKUP_PERIOD();
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userVault.stake(100, lockTime);
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vm.expectRevert(StakeManager.StakeManager__FundsLocked.selector);
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userVault.unstake(100);
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}
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function test_UnstakeShouldReturnFunds() public {
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// ensure user has funds
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deal(stakeToken, testUser, 1000);
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StakeVault userVault = _createTestVault(testUser);
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vm.startPrank(testUser);
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ERC20(stakeToken).approve(address(userVault), 100);
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userVault.stake(100, 0);
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assertEq(ERC20(stakeToken).balanceOf(testUser), 900);
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userVault.unstake(100);
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assertEq(stakeManager.stakeSupply(), 0);
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assertEq(ERC20(stakeToken).balanceOf(address(userVault)), 0);
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assertEq(ERC20(stakeToken).balanceOf(testUser), 1000);
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}
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}
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contract LockTest is StakeManagerTest {
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function setUp() public override {
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StakeManagerTest.setUp();
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}
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function test_RevertWhen_SenderIsNotVault() public {
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vm.expectRevert(StakeManager.StakeManager__SenderIsNotVault.selector);
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stakeManager.lock(100);
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}
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function test_RevertWhen_InvalidLockupPeriod() public {
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// ensure user has funds
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deal(stakeToken, testUser, 1000);
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StakeVault userVault = _createTestVault(testUser);
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vm.startPrank(testUser);
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// ensure user vault can spend user tokens
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ERC20(stakeToken).approve(address(userVault), 100);
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uint256 lockTime = stakeManager.MAX_LOCKUP_PERIOD() + 1;
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vm.expectRevert(StakeManager.StakeManager__InvalidLockupPeriod.selector);
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userVault.stake(100, lockTime);
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}
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function test_RevertWhen_DecreasingLockTime() public {
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// ensure user has funds
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deal(stakeToken, testUser, 1000);
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StakeVault userVault = _createTestVault(testUser);
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vm.startPrank(testUser);
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// ensure user vault can spend user tokens
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ERC20(stakeToken).approve(address(userVault), 100);
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uint256 lockTime = stakeManager.MIN_LOCKUP_PERIOD() + 1;
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userVault.stake(100, lockTime);
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vm.expectRevert(StakeManager.StakeManager__DecreasingLockTime.selector);
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userVault.lock(1);
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}
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}
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contract LeaveTest is StakeManagerTest {
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function setUp() public override {
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StakeManagerTest.setUp();
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}
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function test_RevertWhen_SenderIsNotVault() public {
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vm.expectRevert(StakeManager.StakeManager__SenderIsNotVault.selector);
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stakeManager.leave();
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}
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function test_RevertWhen_NoPendingMigration() public {
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StakeVault userVault = _createTestVault(testUser);
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vm.prank(testUser);
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vm.expectRevert(StakeManager.StakeManager__NoPendingMigration.selector);
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userVault.leave();
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}
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}
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contract MigrateTest is StakeManagerTest {
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function setUp() public override {
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StakeManagerTest.setUp();
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}
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function test_RevertWhen_SenderIsNotVault() public {
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vm.expectRevert(StakeManager.StakeManager__SenderIsNotVault.selector);
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stakeManager.migrate();
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}
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function test_RevertWhen_NoPendingMigration() public {
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StakeVault userVault = _createTestVault(testUser);
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vm.prank(testUser);
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vm.expectRevert(StakeManager.StakeManager__NoPendingMigration.selector);
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userVault.updateManager();
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}
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}
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contract ExecuteAccountTest is StakeManagerTest {
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function setUp() public override {
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StakeManagerTest.setUp();
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}
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function test_RevertWhen_InvalidLimitEpoch() public {
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deal(stakeToken, testUser, 1000);
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StakeVault userVault = _createTestVault(testUser);
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vm.startPrank(testUser);
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ERC20(stakeToken).approve(address(userVault), 100);
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uint256 lockTime = stakeManager.MIN_LOCKUP_PERIOD();
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userVault.stake(100, lockTime);
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uint256 currentEpoch = stakeManager.currentEpoch();
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vm.expectRevert(StakeManager.StakeManager__InvalidLimitEpoch.selector);
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stakeManager.executeAccount(address(userVault), currentEpoch + 1);
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}
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}
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contract UserFlowsTest is StakeManagerTest {
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function setUp() public override {
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StakeManagerTest.setUp();
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}
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function test_StakedSupplyShouldIncreaseAndDecreaseAgain() public {
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// ensure users have funds
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deal(stakeToken, testUser, 1000);
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deal(stakeToken, testUser2, 1000);
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StakeVault userVault = _createTestVault(testUser);
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StakeVault user2Vault = _createTestVault(testUser2);
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vm.startPrank(testUser);
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// approve user vault to spend user tokens
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ERC20(stakeToken).approve(address(userVault), 100);
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userVault.stake(100, 0);
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vm.stopPrank();
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vm.startPrank(testUser2);
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ERC20(stakeToken).approve(address(user2Vault), 100);
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user2Vault.stake(100, 0);
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vm.stopPrank();
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assertEq(ERC20(stakeToken).balanceOf(address(userVault)), 100);
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assertEq(ERC20(stakeToken).balanceOf(address(user2Vault)), 100);
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assertEq(stakeManager.stakeSupply(), 200);
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vm.startPrank(testUser);
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userVault.unstake(100);
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assertEq(ERC20(stakeToken).balanceOf(address(userVault)), 0);
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assertEq(stakeManager.stakeSupply(), 100);
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vm.startPrank(testUser2);
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user2Vault.unstake(100);
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assertEq(ERC20(stakeToken).balanceOf(address(user2Vault)), 0);
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assertEq(stakeManager.stakeSupply(), 0);
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}
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function test_StakeWithLockUpTimeLocksStake() public {
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// ensure users have funds
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deal(stakeToken, testUser, 1000);
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StakeVault userVault = _createTestVault(testUser);
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vm.startPrank(testUser);
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// approve user vault to spend user tokens
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ERC20(stakeToken).approve(address(userVault), 100);
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// stake with lockup time of 12 weeks
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userVault.stake(100, 12 weeks);
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// unstaking should fail as lockup time isn't over yet
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vm.expectRevert(StakeManager.StakeManager__FundsLocked.selector);
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userVault.unstake(100);
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// fast forward 12 weeks
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skip(12 weeks + 1);
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userVault.unstake(100);
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assertEq(ERC20(stakeToken).balanceOf(address(userVault)), 0);
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assertEq(stakeManager.stakeSupply(), 0);
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}
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}
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