import { expect } from "chai" import { ethers } from "hardhat" import { getOwnerAccount, makeAccountGenerator, fundLiquidityToken, getTokenContract, getPairContract, getWKLCContract, getDeadline, fundToken, fundWKLC } from "./utils" import fixture from './fixture' import {run} from "hardhat" import { SignerWithAddress } from "@nomiclabs/hardhat-ethers/signers" import { Contract } from "@ethersproject/contracts" import { BigNumber, ContractFactory } from "ethers" describe("BridgeMigrationRouter", async function() { let accountGenerator: ()=>SignerWithAddress let owner: SignerWithAddress let account: SignerWithAddress let WKLC: Contract let factory: ContractFactory let migrationRouter: Contract type MigratorTokenSymbol = keyof typeof fixture.Migrators type TokenSymbol = keyof typeof fixture.Tokens type KLCPairsTokenSymbol = keyof typeof fixture.Pairs.KLC type KLCMigratedPairsTokenSymbol = keyof typeof fixture.Pairs.Migrated.KLC type KSWAPPairsTokenSymbol = keyof typeof fixture.Pairs.KSWAP type KSWAPMigratedPairsTokenSymbol = keyof typeof fixture.Pairs.Migrated.KSWAP before(async () => { await run("compile") accountGenerator = await makeAccountGenerator() const bridgeTokenFactory = await ethers.getContractFactory("BridgeToken") owner = await getOwnerAccount() WKLC = await getWKLCContract() const factory = await ethers.getContractAt("KalyswapFactory", fixture.Factory) const router = await ethers.getContractAt("KalyswapRouter", fixture.Router) await fundWKLC(owner, BigNumber.from(10).pow(28)) await fundToken(owner, fixture.Tokens.KSWAP, BigNumber.from(10).pow(25)) await (await getTokenContract(fixture.Tokens.WKLC)).approve(router.address, ethers.constants.MaxUint256) await (await getTokenContract(fixture.Tokens.KSWAP)).approve(router.address, ethers.constants.MaxUint256) // in case we don't have the migrator deployed, it deploys migrators for(let tokenSymbol of Object.keys(fixture.Migrators)) { let tokenAddress = fixture.Tokens[tokenSymbol as TokenSymbol] if (fixture.Migrators[tokenSymbol as MigratorTokenSymbol] !== "") { continue } let bridgeToken = await bridgeTokenFactory.deploy() await bridgeToken.deployed await bridgeToken.addSwapToken(tokenAddress, ethers.constants.MaxUint256) fixture.Migrators[tokenSymbol as MigratorTokenSymbol] = bridgeToken.address await bridgeToken.connect(owner).mint( owner.address, BigNumber.from("1000000000000000000000000000000000"), "0xc7198437980c041c805a1edcba50c1ce5db95118", 0, ethers.utils.formatBytes32String("test") ) await bridgeToken.connect(owner).approve(router.address, ethers.constants.MaxUint256) } // if there's no pairs in the migrators, create the pairs and add liquidity for KLC pairs for(let tokenSymbol of Object.keys(fixture.Pairs.Migrated.KLC)) { let tokenAddress = fixture.Migrators[tokenSymbol as MigratorTokenSymbol] if (!tokenAddress) continue if (fixture.Pairs.Migrated.KLC[tokenSymbol as KLCMigratedPairsTokenSymbol] !== "") { continue } const price = BigNumber.from("1000000000000000000") if (await factory.getPair(fixture.Tokens.WKLC, tokenAddress) == ethers.constants.AddressZero) { await router.connect(owner).addLiquidity( fixture.Tokens.WKLC, tokenAddress, price, price.mul(2), price, price.mul(2), owner.address, getDeadline() ) } fixture.Pairs.Migrated.KLC[tokenSymbol as KLCMigratedPairsTokenSymbol] = await factory.getPair(fixture.Tokens.WKLC, tokenAddress) } // if there's no pairs in the migrators, create the pairs and add liquidity for KSWAP pairs for(let tokenSymbol of Object.keys(fixture.Pairs.Migrated.KSWAP)) { let tokenAddress = fixture.Migrators[tokenSymbol as MigratorTokenSymbol] if (!tokenAddress) continue if (fixture.Pairs.Migrated.KSWAP[tokenSymbol as KSWAPMigratedPairsTokenSymbol] !== "") { continue } const price = BigNumber.from("1000000000000000000") await router.connect(owner).addLiquidity( fixture.Tokens.KSWAP, tokenAddress, price, price.mul(2), price, price.mul(2), owner.address, getDeadline() ) let bn0 = BigNumber.from(fixture.Tokens.KSWAP) let bn1 = BigNumber.from(tokenAddress) let [token0, token1] = bn0.gt(bn1) ? [bn1.toHexString(), bn0.toHexString()] : [bn0.toHexString(), bn1.toHexString()] fixture.Pairs.Migrated.KSWAP[tokenSymbol as KSWAPMigratedPairsTokenSymbol] = await factory.getPair(token0, token1) } }) beforeEach(async () => { account = accountGenerator() //this is necessary, the asserts funds the account on the assumption it has 0 WKLC await WKLC.connect(account).withdraw(await WKLC.balanceOf(account.address)) factory = await ethers.getContractFactory("KalyswapBridgeMigrationRouter") migrationRouter = await factory.connect(owner).deploy() await migrationRouter.deployed() await fundWKLC(account, BigNumber.from(10).pow(26)) }) describe("Administration", async function() { it("Can be deployed", async function() { expect(await migrationRouter.connect(owner).isAdmin(owner.address)).to.be.true }) it("Admin can add admin", async function() { await migrationRouter.connect(owner).addAdmin(account.address) expect(await migrationRouter.connect(owner).isAdmin(account.address)).to.be.true }) it("Admin can remove admin", async function() { await migrationRouter.connect(owner).addAdmin(account.address) expect(await migrationRouter.connect(owner).isAdmin(account.address)).to.be.true await migrationRouter.connect(owner).removeAdmin(account.address) expect(await migrationRouter.connect(owner).isAdmin(account.address)).to.be.false }) it("Others can't add admin", async function() { expect(await migrationRouter.connect(owner).isAdmin(account.address)).to.be.false await expect(migrationRouter.connect(account).addAdmin(account.address)).to.be.reverted expect(await migrationRouter.isAdmin(account.address)).to.be.false }) it("Others can't remove admin", async function() { expect(await migrationRouter.connect(owner).isAdmin(account.address)).to.be.false await expect(migrationRouter.connect(account).removeAdmin(owner.address)).to.be.reverted expect(await migrationRouter.isAdmin(owner.address)).to.be.true }) it("Others can't check admin", async function() { expect(await migrationRouter.connect(owner).isAdmin(account.address)).to.be.false expect(await migrationRouter.connect(account).isAdmin(owner.address)).to.be.true }) it("Admin can't add migrator incompatible with the token", async function() { await expect(migrationRouter.connect(owner).addMigrator(fixture.Tokens.WKLC, fixture.Migrators.WBTC)).to.be.reverted }) for(let tokenSymbol of Object.keys(fixture.Migrators)) { let tokenAddress = fixture.Tokens[tokenSymbol as TokenSymbol] let migrator = fixture.Migrators[tokenSymbol as MigratorTokenSymbol] it(`Others can't add migrator for ${tokenSymbol}`, async function() { await expect(migrationRouter.connect(account).addMigrator(tokenAddress, migrator)).to.be.reverted expect((await migrationRouter.bridgeMigrator(tokenAddress)).toString().toLowerCase()).to.equal(ethers.constants.AddressZero) }) } for(let tokenSymbol of Object.keys(fixture.Migrators)) { let tokenAddress = fixture.Tokens[tokenSymbol as TokenSymbol] it(`Admin can add migrator for ${tokenSymbol}`, async function() { let migrator = fixture.Migrators[tokenSymbol as MigratorTokenSymbol] await migrationRouter.connect(owner).addMigrator(tokenAddress, migrator) expect((await migrationRouter.bridgeMigrator(tokenAddress)).toString().toLowerCase()).to.equal(migrator.toLowerCase()) }) } }) describe("Token Migration", async function() { for(let tokenSymbol of Object.keys(fixture.Migrators)) { let tokenAddress = fixture.Tokens[tokenSymbol as TokenSymbol] it(`Any can migrate for token ${tokenSymbol}`, async function() { let migrator = fixture.Migrators[tokenSymbol as MigratorTokenSymbol] await migrationRouter.connect(owner).addMigrator(tokenAddress, migrator) expect((await migrationRouter.bridgeMigrator(tokenAddress)).toString().toLowerCase()).to.equal(migrator.toLowerCase()) //fund the token and allow the contract to spend on the "account"s behalf let tokenAmount = await fundToken(account, tokenAddress, BigNumber.from(10).pow(18)) let tokenContract = await getTokenContract(tokenAddress) await tokenContract.connect(account).approve(migrationRouter.address, ethers.constants.MaxInt256) await migrationRouter.connect(account).migrateToken(tokenAddress, account.address, tokenAmount, getDeadline()) let migratedTokenAddress = await migrationRouter.bridgeMigrator(tokenAddress) let migratedToken = await getTokenContract(migratedTokenAddress) expect(await migratedToken.balanceOf(account.address)).to.be.equal(tokenAmount) }) } }) describe("Liquidity Migration", async function() { describe("KLC", async function () { for(let tokenSymbol of Object.keys(fixture.Migrators)) { let tokenAddress = fixture.Tokens[tokenSymbol as TokenSymbol] if (!((tokenSymbol as KLCPairsTokenSymbol) in fixture.Pairs.KLC)) continue if (fixture.TokensWithoutFund.includes(tokenSymbol)) continue it(`Can migrate liquidity from KLC-${tokenSymbol}`, async function() { let pairAddress = fixture.Pairs.KLC[tokenSymbol as KLCPairsTokenSymbol] let toPairAddress = fixture.Pairs.Migrated.KLC[tokenSymbol as KLCMigratedPairsTokenSymbol] let migrator = fixture.Migrators[tokenSymbol as MigratorTokenSymbol] let fromPairContract = await getTokenContract(pairAddress) await migrationRouter.connect(owner).addMigrator(tokenAddress, migrator) let liquidityAmount = await fundLiquidityToken(account, pairAddress, BigNumber.from(10).pow(20)) await fromPairContract.connect(account).approve(migrationRouter.address, ethers.constants.MaxUint256) let migratedPair = await getPairContract(toPairAddress); expect(await migratedPair.balanceOf(account.address)).to.equal(0) await migrationRouter.connect(account).migrateLiquidity(pairAddress, toPairAddress, account.address, liquidityAmount, getDeadline()) expect(await migratedPair.balanceOf(account.address)).to.gt(0) //makes sure there's no dust left in the migration router let token0 = await getTokenContract(await migratedPair.token0()) let token1 = await getTokenContract(await migratedPair.token1()) expect(await token0.balanceOf(migrationRouter.address)).to.equal(0) expect(await token1.balanceOf(migrationRouter.address)).to.equal(0) expect(await migratedPair.balanceOf(migrationRouter.address)).to.equal(0) expect(await fromPairContract.balanceOf(migrationRouter.address)).to.equal(0) }) it(`Can compute accurately chargeback from KLC-${tokenSymbol}`, async function() { let pairAddress = fixture.Pairs.KLC[tokenSymbol as KLCPairsTokenSymbol] let toPairAddress = fixture.Pairs.Migrated.KLC[tokenSymbol as KLCMigratedPairsTokenSymbol] let migrator = fixture.Migrators[tokenSymbol as MigratorTokenSymbol] await migrationRouter.connect(owner).addMigrator(tokenAddress, migrator) let liquidityAmount = await fundLiquidityToken(account, pairAddress, BigNumber.from(10).pow(20)) let toPairContract = await getPairContract(toPairAddress) // reads the chargeback let [chargeBack0, chargeBack1] = await migrationRouter.calculateChargeBack(pairAddress, toPairAddress, liquidityAmount) // reads the previous balance to compute the real charge back let token0 = await getTokenContract(await toPairContract.token0()) let token1 = await getTokenContract(await toPairContract.token1()) let previousBalance0 = await token0.balanceOf(account.address) let previousBalance1 = await token1.balanceOf(account.address) let tokenContract = await getTokenContract(pairAddress) await tokenContract.connect(account).approve(migrationRouter.address, ethers.constants.MaxUint256) expect(await tokenContract.balanceOf(account.address)).to.equal(liquidityAmount) expect(await toPairContract.balanceOf(account.address)).to.equal(0) await migrationRouter.connect(account).migrateLiquidity(pairAddress, toPairAddress, account.address, liquidityAmount, getDeadline()) expect(await toPairContract.balanceOf(account.address)).to.gt(0) // computes the real charge back and verify that they match exactly let balance0 = await token0.balanceOf(account.address) let balance1 = await token1.balanceOf(account.address) let expectedChargeBack0 = balance0.gte(previousBalance0) ? balance0.sub(previousBalance0) : previousBalance0.sub(balance0) let expectedChargeBack1 = balance1.gte(previousBalance1) ? balance1.sub(previousBalance1) : previousBalance1.sub(balance1) expect(chargeBack0).to.equal(expectedChargeBack0) expect(chargeBack1).to.equal(expectedChargeBack1) }) } }) describe("KSWAP", async function() { for(let tokenSymbol of Object.keys(fixture.Migrators)) { let tokenAddress = fixture.Tokens[tokenSymbol as TokenSymbol] if (!((tokenSymbol as KLCPairsTokenSymbol) in fixture.Pairs.KSWAP)) continue if (fixture.TokensWithoutFund.includes(tokenSymbol)) continue it(`Can migrate liquidity from KSWAP-${tokenSymbol}`, async function() { let pairAddress = fixture.Pairs.KSWAP[tokenSymbol as KSWAPPairsTokenSymbol] let toPairAddress = fixture.Pairs.Migrated.KSWAP[tokenSymbol as KSWAPPairsTokenSymbol] let migrator = fixture.Migrators[tokenSymbol as MigratorTokenSymbol] await migrationRouter.connect(owner).addMigrator(tokenAddress, migrator) let liquidityAmount = await fundLiquidityToken(account, pairAddress, BigNumber.from(10).pow(20)) let fromPairContract = await getTokenContract(pairAddress) await fromPairContract.connect(account).approve(migrationRouter.address, ethers.constants.MaxUint256) let migratedPair = await getPairContract(toPairAddress); expect(await migratedPair.balanceOf(account.address)).to.equal(0) await migrationRouter.connect(account).migrateLiquidity(pairAddress, toPairAddress, account.address, liquidityAmount, getDeadline()) expect(await migratedPair.balanceOf(account.address)).to.gt(0) //makes sure there's no dust left in the migration router let token0 = await getTokenContract(await migratedPair.token0()) let token1 = await getTokenContract(await migratedPair.token1()) expect(await token0.balanceOf(migrationRouter.address)).to.equal(0) expect(await token1.balanceOf(migrationRouter.address)).to.equal(0) expect(await migratedPair.balanceOf(migrationRouter.address)).to.equal(0) expect(await fromPairContract.balanceOf(migrationRouter.address)).to.equal(0) }) it(`Can compute accurately chargeback from KSWAP-${tokenSymbol}`, async function() { let pairAddress = fixture.Pairs.KLC[tokenSymbol as KLCPairsTokenSymbol] let toPairAddress = fixture.Pairs.Migrated.KLC[tokenSymbol as KLCMigratedPairsTokenSymbol] let migrator = fixture.Migrators[tokenSymbol as MigratorTokenSymbol] await migrationRouter.connect(owner).addMigrator(tokenAddress, migrator) let liquidityAmount = await fundLiquidityToken(account, pairAddress, BigNumber.from(10).pow(20)) let toPairContract = await getPairContract(toPairAddress) // reads the chargeback let [chargeBack0, chargeBack1] = await migrationRouter.calculateChargeBack(pairAddress, toPairAddress, liquidityAmount) // reads the previous balance to compute the real charge back let token0 = await getTokenContract(await toPairContract.token0()) let token1 = await getTokenContract(await toPairContract.token1()) let previousBalance0 = await token0.balanceOf(account.address) let previousBalance1 = await token1.balanceOf(account.address) let tokenContract = await getTokenContract(pairAddress) await tokenContract.connect(account).approve(migrationRouter.address, ethers.constants.MaxUint256) expect(await tokenContract.balanceOf(account.address)).to.equal(liquidityAmount) expect(await toPairContract.balanceOf(account.address)).to.equal(0) await migrationRouter.connect(account).migrateLiquidity(pairAddress, toPairAddress, account.address, liquidityAmount, getDeadline()) expect(await toPairContract.balanceOf(account.address)).to.gt(0) // computes the real charge back and verify that they match exactly let balance0 = await token0.balanceOf(account.address) let balance1 = await token1.balanceOf(account.address) let expectedChargeBack0 = balance0.gte(previousBalance0) ? balance0.sub(previousBalance0) : previousBalance0.sub(balance0) let expectedChargeBack1 = balance1.gte(previousBalance1) ? balance1.sub(previousBalance1) : previousBalance1.sub(balance1) expect(chargeBack0).to.equal(expectedChargeBack0) expect(chargeBack1).to.equal(expectedChargeBack1) }) } }) }) })