def main():
deployer = accounts.at('0xB593d82d53e2c187dc49673709a6E9f806cdC835',
force=True)
# deployer = accounts.load('gh')
weth = interface.IAny('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2')
dai = interface.IAny('0x6B175474E89094C44Da98b954EedeAC495271d0F')
usdc = interface.IAny('0xA0b86991c6218b36c1d19D4a2e9Eb0cE3606eB48')
usdt = interface.IAny('0xdAC17F958D2ee523a2206206994597C13D831ec7')
werc20 = WERC20.at('0xe28D9dF7718b0b5Ba69E01073fE82254a9eD2F98')
wmas = WMasterChef.at('0x373ae78a14577682591E088F2E78EF1417612c68')
wliq = WLiquidityGauge.at('0xfdB4f97953150e47C8606758C13e70b5a789a7ec')
wsindex = WStakingRewards.at('0x713df2DDDA9C7d7bDa98A9f8fCd82c06c50fbd90')
wsperp = WStakingRewards.at('0xC4635854480ffF80F742645da0310e9e59795c63')
# upgrade bank's implementation
bank_impl = HomoraBank.deploy({'from': deployer})
proxy_admin = Contract.from_explorer(
'0x090eCE252cEc5998Db765073D07fac77b8e60CB2')
bank = HomoraBank.at('0x5f5Cd91070960D13ee549C9CC47e7a4Cd00457bb')
proxy_admin.upgrade(bank, bank_impl, {'from': deployer})
# re-deploy spells
uniswap_spell = UniswapV2SpellV1.deploy(
bank, werc20, '0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D',
{'from': deployer})
sushiswap_spell = SushiswapSpellV1.deploy(
bank, werc20, '0xd9e1cE17f2641f24aE83637ab66a2cca9C378B9F', wmas,
{'from': deployer})
balancer_spell = BalancerSpellV1.deploy(bank, werc20, weth,
{'from': deployer})
curve_spell = CurveSpellV1.deploy(bank, werc20, weth, wliq,
{'from': deployer})
# set whitelist spells in bank
bank.setWhitelistSpells(
[uniswap_spell, sushiswap_spell, balancer_spell, curve_spell],
[True] * 4, {'from': deployer})
# set whitelist tokens in bank
bank.setWhitelistTokens([weth, dai, usdc, usdt], [True] * 4,
{'from': deployer})
# set whitelist lp tokens in spells
uniswap_spell.setWhitelistLPTokens(
['0xd3d2E2692501A5c9Ca623199D38826e513033a17'], [True],
{'from': deployer})
sushiswap_spell.setWhitelistLPTokens(
['0x795065dCc9f64b5614C407a6EFDC400DA6221FB0'], [True],
{'from': deployer})
balancer_spell.setWhitelistLPTokens(
['0xF54025aF2dc86809Be1153c1F20D77ADB7e8ecF4'], [True],
{'from': deployer})
curve_spell.setWhitelistLPTokens(
['0x6c3F90f043a72FA612cbac8115EE7e52BDe6E490'], [True],
{'from': deployer})
def main():
deployer = accounts.at('0xB593d82d53e2c187dc49673709a6E9f806cdC835',
force=True)
# deployer = accounts.load('gh')
werc20 = WERC20.at('0xe28D9dF7718b0b5Ba69E01073fE82254a9eD2F98')
wmas = WMasterChef.at('0x373ae78a14577682591E088F2E78EF1417612c68')
wliq = WLiquidityGauge.at('0xfdB4f97953150e47C8606758C13e70b5a789a7ec')
wsindex = WStakingRewards.at('0x713df2DDDA9C7d7bDa98A9f8fCd82c06c50fbd90')
wsperp = WStakingRewards.at('0xC4635854480ffF80F742645da0310e9e59795c63')
kp3r_oracle = ERC20KP3ROracle.at(
'0x8E2A3777AB22e1c5f6d1fF2BcC6C4aA6aB1DeA14')
core_oracle = CoreOracle.at('0x1E5BDdd0cDF8839d6b27b34927869eF0AD7bf692')
uni_oracle = UniswapV2Oracle.at(
'0x910aD02D355c2966e8dD8E32C890cD50DB29C3B9')
bal_oracle = BalancerPairOracle.at(
'0x8F93B0AA2643bf74ab38d6a5910fA82D2da02134')
crv_oracle = CurveOracle.at('0x04DE0E42B3b0483248deafE86C4F5428613b76Ff')
proxy_oracle = ProxyOracle.at('0x43c425fB2b00a991A51b18c217D749E393bF1AB2')
bank_impl = HomoraBank.at('0x95ab3Ca8133b47f16f47F6A79410680fE87a6139')
proxy_admin = Contract.from_explorer(
'0x090eCE252cEc5998Db765073D07fac77b8e60CB2')
bank = HomoraBank.at('0x5f5Cd91070960D13ee549C9CC47e7a4Cd00457bb')
proxy_admin.upgrade(bank, bank_impl, {'from': deployer})
bank.setOracle(proxy_oracle, {'from': deployer})
uniswap_spell = UniswapV2SpellV1.deploy(
bank,
werc20,
'0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D',
{'from': deployer},
)
sushiswap_spell = SushiswapSpellV1.deploy(
bank,
werc20,
'0xd9e1cE17f2641f24aE83637ab66a2cca9C378B9F',
wmas,
{'from': deployer},
)
balancer_spell = BalancerSpellV1.at(
'0x15B79c184A6a8E19a4CA1F637081270343E4D15D')
curve_spell = CurveSpellV1.deploy(
bank,
werc20,
'0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2',
wliq,
{'from': deployer},
)
print('DONE')
def main():
deployer = accounts.at('0xB593d82d53e2c187dc49673709a6E9f806cdC835',
force=True)
# deployer = accounts.load('gh')
# deploy safeboxes
safebox_eth = SafeBoxETH.deploy(
'0x41c84c0e2EE0b740Cf0d31F63f3B6F627DC6b393',
'Interest Bearing Ether v2', 'ibETHv2', {'from': deployer})
safebox_dai = SafeBox.deploy('0x8e595470Ed749b85C6F7669de83EAe304C2ec68F',
'Interest Bearing Dai Stablecoin v2',
'ibDAIv2', {'from': deployer})
safebox_usdt = SafeBox.deploy('0x48759F220ED983dB51fA7A8C0D2AAb8f3ce4166a',
'Interest Bearing Tether USD v2', 'ibUSDTv2',
{'from': deployer})
safebox_usdc = SafeBox.deploy('0x76Eb2FE28b36B3ee97F3Adae0C69606eeDB2A37c',
'Interest Bearing USD Coin v2', 'ibUSDCv2',
{'from': deployer})
safebox_yfi = SafeBox.deploy('0xFa3472f7319477c9bFEcdD66E4B948569E7621b9',
'Interest Bearing yearn.finance v2',
'ibYFIv2', {'from': deployer})
# add banks
usdt = interface.IERC20Ex('0xdAC17F958D2ee523a2206206994597C13D831ec7')
usdc = interface.IERC20Ex('0xA0b86991c6218b36c1d19D4a2e9Eb0cE3606eB48')
yfi = interface.IERC20Ex('0x0bc529c00C6401aEF6D220BE8C6Ea1667F6Ad93e')
cyusdt = '0x48759F220ED983dB51fA7A8C0D2AAb8f3ce4166a'
cyusdc = '0x76Eb2FE28b36B3ee97F3Adae0C69606eeDB2A37c'
cyyfi = '0xFa3472f7319477c9bFEcdD66E4B948569E7621b9'
bank = HomoraBank.at('0x5f5Cd91070960D13ee549C9CC47e7a4Cd00457bb')
bank.addBank(usdt, cyusdt, {'from': deployer})
bank.addBank(usdc, cyusdc, {'from': deployer})
def main():
deployer = accounts.at('0xB593d82d53e2c187dc49673709a6E9f806cdC835',
force=True)
# deployer = accounts.load('gh')
werc20 = WERC20.at('0xe28D9dF7718b0b5Ba69E01073fE82254a9eD2F98')
wmas = WMasterChef.at('0x373ae78a14577682591E088F2E78EF1417612c68')
wliq = WLiquidityGauge.at('0xfdB4f97953150e47C8606758C13e70b5a789a7ec')
wsindex = WStakingRewards.at('0x713df2DDDA9C7d7bDa98A9f8fCd82c06c50fbd90')
wsperp = WStakingRewards.at('0xC4635854480ffF80F742645da0310e9e59795c63')
uni_kp3r_oracle = ERC20KP3ROracle.at(
'0x8E2A3777AB22e1c5f6d1fF2BcC6C4aA6aB1DeA14')
sushi_kp3r_oracle = ERC20KP3ROracle.at(
'0xC331687FD71bb1D7f2e237091F8888dDcaD50C9a')
core_oracle = CoreOracle.at('0x1E5BDdd0cDF8839d6b27b34927869eF0AD7bf692')
uni_oracle = UniswapV2Oracle.at(
'0x910aD02D355c2966e8dD8E32C890cD50DB29C3B9')
bal_oracle = BalancerPairOracle.at(
'0x8F93B0AA2643bf74ab38d6a5910fA82D2da02134')
crv_oracle = CurveOracle.at('0x04DE0E42B3b0483248deafE86C4F5428613b76Ff')
proxy_oracle = ProxyOracle.at('0x43c425fB2b00a991A51b18c217D749E393bF1AB2')
# pair token with oracle
from .tokens import Tokens
# re-set oracles
oracle_params = [
# lp tokens
[Tokens.bal_perp_usdc, [14886, 6718, 10250]],
]
token_list_2, param_list = zip(*oracle_params)
proxy_oracle.setOracles(token_list_2, param_list, {'from': deployer})
proxy_oracle.unsetOracles([Tokens.bal_dai_weth], {'from': deployer})
print('DONE')
###########################################################
# test spells (UNCOMMENT TO TEST)
for token in [
Tokens.weth, Tokens.dai, Tokens.usdc, Tokens.usdt, Tokens.dpi,
Tokens.yfi, Tokens.snx, Tokens.susd
]:
token = interface.IERC20Ex(token)
deposit_safebox(token)
bank = HomoraBank.at('0x5f5Cd91070960D13ee549C9CC47e7a4Cd00457bb')
uniswap_spell = UniswapV2SpellV1.at(
'0xc671B7251a789de0835a2fa33c83c8D4afB39092')
sushiswap_spell = SushiswapSpellV1.at(
'0x21Fa95485f4571A3a0d0c396561cF4D8D13D445d')
balancer_spell = BalancerSpellV1.at(
'0x15B79c184A6a8E19a4CA1F637081270343E4D15D')
curve_spell = CurveSpellV1.at('0x42C750024E02816eE32EB2eB4DA79ff5BF343D30')
def main():
deployer = accounts.at('0xB593d82d53e2c187dc49673709a6E9f806cdC835',
force=True)
# deployer = accounts.load('gh')
yfi = interface.IERC20Ex('0x0bc529c00C6401aEF6D220BE8C6Ea1667F6Ad93e')
cyyfi = '0xFa3472f7319477c9bFEcdD66E4B948569E7621b9'
bank = HomoraBank.at('0x5f5Cd91070960D13ee549C9CC47e7a4Cd00457bb')
bank.addBank(yfi, cyyfi, {'from': deployer})
def check_replace_v2_oracle(band_oracle, link_oracle, simple_oracle, agg_oracle, deployer):
bank_v2 = HomoraBank.at('0x5f5Cd91070960D13ee549C9CC47e7a4Cd00457bb')
core_oracle = CoreOracle.at('0x1E5BDdd0cDF8839d6b27b34927869eF0AD7bf692')
simple_oracle_v2 = interface.IAny('0x487e0ae63Bfd8364a11e840900BaAD92D5aF7C42')
v2_tokens = [
Tokens.WETH,
Tokens.DAI,
Tokens.USDC,
Tokens.USDT,
Tokens.UNI,
Tokens.PERP,
Tokens.SUSHI
]
# set route
core_oracle.setRoute(v2_tokens, [agg_oracle] * len(v2_tokens), {'from': deployer})
def main():
deployer = accounts.at('0xB593d82d53e2c187dc49673709a6E9f806cdC835',
force=True)
# deployer = accounts.load('gh')
snx = interface.IERC20Ex('0xC011a73ee8576Fb46F5E1c5751cA3B9Fe0af2a6F')
susd = interface.IERC20Ex('0x57Ab1ec28D129707052df4dF418D58a2D46d5f51')
cysnx = interface.IERC20Ex('0x12A9cC33A980DAa74E00cc2d1A0E74C57A93d12C')
cysusd = interface.IERC20Ex('0x4e3a36A633f63aee0aB57b5054EC78867CB3C0b8')
# add safeboxes
safebox_snx = SafeBox.deploy(
cysnx, 'Interest Bearing Synthetix Network Token v2', 'ibSNXv2',
{'from': deployer})
safebox_susd = SafeBox.deploy(cysusd, 'Interest Bearing Synth sUSD v2',
'ibsUSDv2', {'from': deployer})
# add banks
bank = HomoraBank.at('0x5f5Cd91070960D13ee549C9CC47e7a4Cd00457bb')
bank.addBank(snx, cysnx, {'from': deployer})
bank.addBank(susd, cysusd, {'from': deployer})
def main():
admin = accounts[0]
alice = accounts[1]
dai = interface.IERC20Ex('0x6B175474E89094C44Da98b954EedeAC495271d0F')
weth = interface.IERC20Ex('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2')
lp = interface.IERC20Ex('0x8b6e6e7b5b3801fed2cafd4b22b8a16c2f2db21a')
# pool is lp for balancer
pool = interface.IBalancerPool('0x8b6e6e7b5b3801fed2cafd4b22b8a16c2f2db21a')
crdai = interface.ICErc20('0x92b767185fb3b04f881e3ac8e5b0662a027a1d9f')
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([weth, dai], [5192296858534827628530496329220096,
8887571220661441971398610676149])
balancer_oracle = BalancerPairOracle.deploy(simple_oracle, {'from': alice})
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20], True, {'from': admin})
core_oracle.setRoute(
[weth, dai, lp],
[simple_oracle, simple_oracle, balancer_oracle],
{'from': admin},
)
oracle.setOracles(
[weth, dai, lp],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(dai, crdai, {'from': admin})
# setup initial funds to alice
mint_tokens(dai, alice)
mint_tokens(weth, alice)
# check alice's funds
print(f'Alice weth balance {weth.balanceOf(alice)}')
print(f'Alice dai balance {dai.balanceOf(alice)}')
# Steal some LP from the staking pool
mint_tokens(lp, alice)
# set approval
dai.approve(homora, 2**256-1, {'from': alice})
dai.approve(crdai, 2**256-1, {'from': alice})
weth.approve(homora, 2**256-1, {'from': alice})
lp.approve(homora, 2**256-1, {'from': alice})
balancer_spell = BalancerSpellV1.deploy(
homora, werc20, '0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2', {'from': admin})
# first time call to reduce gas
balancer_spell.getPair(lp, {'from': admin})
#####################################################################################
print('=========================================================================')
print('Case 1.')
prevABal = dai.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
prevARes = interface.IBalancerPool(lp).getBalance(dai)
prevBRes = interface.IBalancerPool(lp).getBalance(weth)
dai_amt = 40000 * 10**18
weth_amt = 10 ** 18
lp_amt = 1 * 10**16
borrow_dai_amt = 0
borrow_weth_amt = 0
# calculate slippage control
total_dai_amt = dai_amt + borrow_dai_amt
total_weth_amt = weth_amt + borrow_weth_amt
dai_weight = 0.2
weth_weight = 0.8
ratio = (((prevARes + total_dai_amt) / prevARes) ** dai_weight) * \
(((prevBRes + total_weth_amt) / prevBRes) ** weth_weight) - 1
lp_desired = lp_amt + int(interface.IERC20(lp).totalSupply() * ratio * 0.995)
print('lp desired', lp_desired)
tx = homora.execute(
0,
balancer_spell,
balancer_spell.addLiquidityWERC20.encode_input(
lp, # lp token
[dai_amt, # supply DAI
weth_amt, # supply WETH
lp_amt, # supply LP
borrow_dai_amt, # borrow DAI
borrow_weth_amt, # borrow WETH
0, # borrow LP tokens
lp_desired] # LP desired
),
{'from': alice}
)
curABal = dai.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
curARes = interface.IBalancerPool(lp).getBalance(dai)
curBRes = interface.IBalancerPool(lp).getBalance(weth)
print('spell lp balance', lp.balanceOf(balancer_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, daiDebt, daiShare = homora.getBankInfo(dai)
print('bank dai daiDebt', daiDebt)
print('bank dai daiShare', daiShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('werc20 prev LP balance', prevLPBal_werc20)
print('werc20 cur LP balance', curLPBal_werc20)
print('prev dai res', prevARes)
print('cur dai res', curARes)
print('prev weth res', prevBRes)
print('cur weth res', curBRes)
# alice
assert almostEqual(curABal - prevABal, -dai_amt), 'incorrect DAI amt'
assert almostEqual(curBBal - prevBBal, -weth_amt), 'incorrect WETH amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert dai.balanceOf(balancer_spell) == 0, 'non-zero spell DAI balance'
assert weth.balanceOf(balancer_spell) == 0, 'non-zero spell WETH balance'
assert lp.balanceOf(balancer_spell) == 0, 'non-zero spell LP balance'
assert daiDebt == borrow_dai_amt
# check balance and pool reserves
assert almostEqual(curABal - prevABal - borrow_dai_amt, -
(curARes - prevARes)), 'not all DAI tokens go to LP pool'
assert almostEqual(curBBal - prevBBal - borrow_weth_amt, -
(curBRes - prevBRes)), 'not all WETH tokens go to LP pool'
#####################################################################################
print('=========================================================================')
print('Case 2.')
# remove liquidity from the same position
prevABal = dai.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevETHBal = alice.balance()
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
prevETHBal = alice.balance()
prevARes = interface.IBalancerPool(lp).getBalance(dai)
prevBRes = interface.IBalancerPool(lp).getBalance(weth)
lp_take_amt = 2**256-1 # max
lp_want = 1 * 10**15
dai_repay = 2**256-1 # max
weth_repay = 0
real_dai_repay = homora.borrowBalanceStored(1, dai)
_, _, _, real_lp_take_amt = homora.getPositionInfo(1)
tx = homora.execute(
1,
balancer_spell,
balancer_spell.removeLiquidityWERC20.encode_input(
lp, # LP token
[lp_take_amt, # take out LP tokens
lp_want, # withdraw LP tokens to wallet
dai_repay, # repay DAI
weth_repay, # repay WETH
0, # repay LP
0, # min DAI
0], # min WETH
),
{'from': alice}
)
# return tx
curABal = dai.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curETHBal = alice.balance()
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
curETHBal = alice.balance()
curARes = interface.IBalancerPool(lp).getBalance(dai)
curBRes = interface.IBalancerPool(lp).getBalance(weth)
print('spell lp balance', lp.balanceOf(balancer_spell))
print('spell dai balance', dai.balanceOf(balancer_spell))
print('spell weth balance', weth.balanceOf(balancer_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta ETH balance', curETHBal - prevETHBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, daiDebt, daiShare = homora.getBankInfo(dai)
print('bank dai totalDebt', daiDebt)
print('bank dai totalShare', daiShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev werc20 LP balance', prevLPBal_werc20)
print('cur werc20 LP balance', curLPBal_werc20)
print('real dai repay', real_dai_repay)
# alice
assert almostEqual(curBBal - prevBBal, 0), 'incorrect WETH amt'
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# werc20
assert almostEqual(curLPBal_werc20 - prevLPBal_werc20, -
real_lp_take_amt), 'incorrect werc20 LP amt'
# spell
assert dai.balanceOf(balancer_spell) == 0, 'non-zero spell DAI balance'
assert weth.balanceOf(balancer_spell) == 0, 'non-zero spell WETH balance'
assert lp.balanceOf(balancer_spell) == 0, 'non-zero spell LP balance'
# check balance and pool reserves
assert almostEqual(curABal - prevABal + real_dai_repay, -
(curARes - prevARes)), 'inconsistent DAI from withdraw'
assert almostEqual(curBBal - prevBBal,
0), 'inconsistent WETH from withdraw'
assert almostEqual(curETHBal - prevETHBal + weth_repay, -
(curBRes - prevBRes)), 'inconsistent ETH from withdraw'
return tx
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
dpi = interface.IERC20Ex('0x1494ca1f11d487c2bbe4543e90080aeba4ba3c2b')
weth = interface.IERC20Ex('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2')
lp = interface.IERC20Ex('0x4d5ef58aac27d99935e5b6b4a6778ff292059991')
crdpi = MockCErc20.deploy(dpi, {'from': admin})
router = interface.IUniswapV2Router02(
'0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D')
staking = accounts.at('0xB93b505Ed567982E2b6756177ddD23ab5745f309', force=True)
index = interface.IERC20Ex(interface.IStakingRewardsEx(staking).rewardsToken())
wstaking = WStakingRewards.deploy(staking, lp, index, {'from': admin})
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([dpi, weth], [2**112 * 100 // 700, 2**112])
uniswap_oracle = UniswapV2Oracle.deploy(simple_oracle, {'from': admin})
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20, wstaking], True, {'from': admin})
core_oracle.setRoute(
[dpi, weth, lp],
[simple_oracle, simple_oracle, uniswap_oracle],
{'from': admin},
)
oracle.setOracles(
[dpi, weth, lp],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(dpi, crdpi, {'from': admin})
# setup initial funds to alice
mint_tokens(dpi, alice)
mint_tokens(weth, alice)
mint_tokens(dpi, crdpi)
# check alice's funds
print(f'Alice dpi balance {dpi.balanceOf(alice)}')
print(f'Alice weth balance {weth.balanceOf(alice)}')
# Steal some LP from the staking pool
mint_tokens(lp, alice)
mint_tokens(lp, bob)
# set approval
dpi.approve(homora, 2**256-1, {'from': alice})
dpi.approve(crdpi, 2**256-1, {'from': alice})
weth.approve(homora, 2**256-1, {'from': alice})
lp.approve(homora, 2**256-1, {'from': alice})
lp.approve(staking, 2**256-1, {'from': bob})
uniswap_spell = UniswapV2SpellV1.deploy(
homora, werc20, router, {'from': admin})
# first time call to reduce gas
uniswap_spell.getPair(weth, dpi, {'from': admin})
# whitelist spell in bank
homora.setWhitelistSpells([uniswap_spell], [True], {'from': admin})
# whitelist token in bank
homora.setWhitelistTokens([dpi], [True], {'from': admin})
# whitelist lp in spell
uniswap_spell.setWhitelistLPTokens([lp], [True], {'from': admin})
#####################################################################################
print('=========================================================================')
print('Case 1. add liquidity')
prevABal = dpi.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_staking = lp.balanceOf(staking)
if interface.IUniswapV2Pair(lp).token0() == dpi:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
dpi_amt = 10 * 10**18
weth_amt = 10**18
lp_amt = 0
borrow_dpi_amt = 10**18
borrow_weth_amt = 0
tx = homora.execute(
0,
uniswap_spell,
uniswap_spell.addLiquidityWStakingRewards.encode_input(
dpi, # token 0
weth, # token 1
[dpi_amt, # supply DPI
weth_amt, # supply WETH
lp_amt, # supply LP
borrow_dpi_amt, # borrow DPI
borrow_weth_amt, # borrow WETH
0, # borrow LP tokens
0, # min DPI
0], # min WETH
wstaking,
),
{'from': alice}
)
curABal = dpi.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_staking = lp.balanceOf(staking)
if interface.IUniswapV2Pair(lp).token0() == dpi:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, totalDebt, totalShare = homora.getBankInfo(dpi)
print('bank dpi totalDebt', totalDebt)
print('bank dpi totalShare', totalShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('staking prev LP balance', prevLPBal_staking)
print('staking cur LP balance', curLPBal_staking)
print('prev dpi res', prevARes)
print('cur dpi res', curARes)
print('prev weth res', prevBRes)
print('cur weth res', curBRes)
# alice
assert almostEqual(curABal - prevABal, -dpi_amt), 'incorrect DPI amt'
assert almostEqual(curBBal - prevBBal, -weth_amt), 'incorrect WETH amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert dpi.balanceOf(uniswap_spell) == 0, 'non-zero spell DPI balance'
assert weth.balanceOf(uniswap_spell) == 0, 'non-zero spell WETH balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
assert totalDebt == borrow_dpi_amt
# check balance and pool reserves
assert curABal - prevABal - borrow_dpi_amt == - \
(curARes - prevARes), 'not all DPI tokens go to LP pool'
assert curBBal - prevBBal - borrow_weth_amt == - \
(curBRes - prevBRes), 'not all WETH tokens go to LP pool'
# #####################################################################################
print('=========================================================================')
print('Case 2. harvest first time')
prevIndexBalance = index.balanceOf(alice)
print('Alice INDEX balance before harvest', prevIndexBalance)
_, _, collId, collSize = homora.getPositionInfo(1)
print('collSize', collSize)
# staking directly
prevIndex = index.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
tx = interface.IStakingRewards(staking).stake(collSize, {'from': bob})
chain.sleep(20000)
tx = homora.execute(
1,
uniswap_spell,
uniswap_spell.harvestWStakingRewards.encode_input(wstaking),
{'from': alice}
)
print('tx gas used', tx.gas_used)
curIndexBalance = index.balanceOf(alice)
print('Alice INDEX balance after harvest', curIndexBalance)
receivedIndex = curIndexBalance - prevIndexBalance
# check with staking directly
tx = interface.IStakingRewards(staking).getReward({'from': bob})
receivedIndexFromStaking = index.balanceOf(bob) - prevIndex
print('receivedIndexFromStaking', receivedIndexFromStaking)
assert almostEqual(receivedIndex, receivedIndexFromStaking)
# #####################################################################################
print('=========================================================================')
print('Case 3. harvest second time')
prevIndexBalance = index.balanceOf(alice)
print('Alice INDEX balance before harvest', prevIndexBalance)
prevIndex = index.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
chain.sleep(20000)
tx = homora.execute(
1,
uniswap_spell,
uniswap_spell.harvestWStakingRewards.encode_input(wstaking),
{'from': alice}
)
print('tx gas used', tx.gas_used)
curIndexBalance = index.balanceOf(alice)
print('Alice INDEX balance after harvest', curIndexBalance)
receivedIndex = curIndexBalance - prevIndexBalance
# check with staking directly
tx = interface.IStakingRewards(staking).getReward({'from': bob})
receivedIndexFromStaking = index.balanceOf(bob) - prevIndex
print('receivedIndexFromStaking', receivedIndexFromStaking)
assert almostEqual(receivedIndex, receivedIndexFromStaking)
def main():
admin = accounts[0]
alice = accounts[1]
usdt = interface.IERC20Ex('0xdAC17F958D2ee523a2206206994597C13D831ec7')
usdc = interface.IERC20Ex('0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48')
lp = interface.IERC20Ex('0x3041cbd36888becc7bbcbc0045e3b1f144466f5f')
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
crusdc = interface.ICErc20('0x44fbebd2f576670a6c33f6fc0b00aa8c5753b322')
router = interface.IUniswapV2Router02(
'0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D')
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([usdt, usdc], [
8343331721347310729683379470025550036595362,
8344470555541464992529317899641128796042472
])
uniswap_oracle = UniswapV2Oracle.deploy(simple_oracle, {'from': admin})
oracle = ProxyOracle.deploy({'from': admin})
oracle.setWhitelistERC1155([werc20], True, {'from': admin})
oracle.setOracles(
[
'0xdAC17F958D2ee523a2206206994597C13D831ec7', # USDT
'0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48', # USDC
'0x3041cbd36888becc7bbcbc0045e3b1f144466f5f', # USDT-USDC
],
[
[simple_oracle, 10000, 10000, 10000],
[simple_oracle, 10000, 10000, 10000],
[uniswap_oracle, 10000, 10000, 10000],
],
{'from': admin},
)
# initialize
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
# add bank
homora.addBank(usdt, crusdt, {'from': admin})
homora.addBank(usdc, crusdc, {'from': admin})
# setup initial funds 10^6 USDT + 10^6 USDC to alice
setup_transfer(
usdt,
accounts.at('0xbe0eb53f46cd790cd13851d5eff43d12404d33e8', force=True),
alice, 10**6 * 10**6)
setup_transfer(
usdc,
accounts.at('0xa191e578a6736167326d05c119ce0c90849e84b7', force=True),
alice, 10**6 * 10**6)
# setup initial funds 10^6 USDT + 10^6 USDC to homora bank
setup_transfer(
usdt,
accounts.at('0xbe0eb53f46cd790cd13851d5eff43d12404d33e8', force=True),
homora, 10**6 * 10**6)
setup_transfer(
usdc,
accounts.at('0x397ff1542f962076d0bfe58ea045ffa2d347aca0', force=True),
homora, 10**6 * 10**6)
# check alice's funds
print(f'Alice usdt balance {usdt.balanceOf(alice)}')
print(f'Alice usdc balance {usdc.balanceOf(alice)}')
# steal some LP from the staking pool
lp.transfer(
alice, 1 * 10**8, {
'from':
accounts.at('0x85af1678527f63eb6492ab158ed5d2a94b8732c0',
force=True)
})
# set approval
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': alice})
usdc.approve(homora, 2**256 - 1, {'from': alice})
usdc.approve(crusdc, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
uniswap_spell = UniswapV2SpellV1.deploy(homora, werc20, router,
{'from': admin})
# first time call to reduce gas
uniswap_spell.getPair(usdt, usdc, {'from': admin})
#####################################################################################
# add liquidity
print(
'========================================================================='
)
print('Case 1.')
prevABal = usdt.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
if interface.IUniswapV2Pair(lp).token0() == usdt:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
usdt_amt = 40000 * 10**6
usdc_amt = 50000 * 10**6
lp_amt = 1 * 10**7
borrow_usdt_amt = 1000 * 10**6
borrow_usdc_amt = 200 * 10**6
tx = homora.execute(
0,
uniswap_spell,
uniswap_spell.addLiquidity.encode_input(
usdt, # token 0
usdc, # token 1
[
usdt_amt, # supply USDT
usdc_amt, # supply USDC
lp_amt, # supply LP
borrow_usdt_amt, # borrow USDT
borrow_usdc_amt, # borrow USDC
0, # borrow 0 LP tokens
0, # min USDT
0
], # min USDC
),
{'from': alice})
position_id = tx.return_value
print('position_id', position_id)
curABal = usdt.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
if interface.IUniswapV2Pair(lp).token0() == usdt:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
print('bank usdt debt', usdtDebt)
print('bank usdt debt share', usdtDebtShare)
print('bank usdc debt', usdcDebt)
print('bank usdc debt share', usdcDebtShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('werc20 prev LP balance', prevLPBal_werc20)
print('werc20 cur LP balance', curLPBal_werc20)
print('prev usdt res', prevARes)
print('cur usdt res', curARes)
print('prev usdc res', prevBRes)
print('cur usdc res', curBRes)
# alice
assert almostEqual(curABal - prevABal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curBBal - prevBBal, -usdc_amt), 'incorrect USDC amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert usdc.balanceOf(uniswap_spell) == 0, 'non-zero spell USDC balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
assert usdtDebt == borrow_usdt_amt
assert usdcDebt == borrow_usdc_amt
# check balance and pool reserves
assert curABal - prevABal - borrow_usdt_amt == - \
(curARes - prevARes), 'not all USDT tokens go to LP pool'
assert curBBal - prevBBal - borrow_usdc_amt == - \
(curBRes - prevBRes), 'not all USDC tokens go to LP pool'
#####################################################################################
# add liquidity to the same position
print(
'========================================================================='
)
print('Case 2.')
prevABal = usdt.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
if interface.IUniswapV2Pair(lp).token0() == usdt:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
usdt_amt = 20000 * 10**6
usdc_amt = 30000 * 10**6
lp_amt = 1 * 10**7
borrow_usdt_amt = 1000 * 10**6
borrow_usdc_amt = 200 * 10**6
tx = homora.execute(
1,
uniswap_spell,
uniswap_spell.addLiquidity.encode_input(
usdt, # token 0
usdc, # token 1
[
usdt_amt, # supply USDT
usdc_amt, # supply USDC
lp_amt, # supply LP
borrow_usdt_amt, # borrow USDT
borrow_usdc_amt, # borrow USDC
0, # borrow LP
0, # min USDT
0
], # min USDC
),
{'from': alice})
position_id = tx.return_value
print('position_id', position_id)
curABal = usdt.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
if interface.IUniswapV2Pair(lp).token0() == usdt:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
print('bank usdt debt', usdtDebt)
print('bank usdt debt share', usdtDebtShare)
print('bank usdc debt', usdcDebt)
print('bank usdc debt share', usdcDebtShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('werc20 prev LP balance', prevLPBal_werc20)
print('werc20 cur LP balance', curLPBal_werc20)
print('prev usdt res', prevARes)
print('cur usdt res', curARes)
print('prev usdc res', prevBRes)
print('cur usdc res', curBRes)
# assert position_id
assert position_id == 1 # position doesn't increase
# alice
assert almostEqual(curABal - prevABal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curBBal - prevBBal, -usdc_amt), 'incorrect USDC amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert usdc.balanceOf(uniswap_spell) == 0, 'non-zero spell USDC balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
# borrow same amount twice (with small interest accrued)
assert usdtDebt >= borrow_usdt_amt * 2
# borrow same amount twice (with small interest accrued)
assert usdcDebt >= borrow_usdc_amt * 2
# check balance and pool reserves
assert curABal - prevABal - borrow_usdt_amt == - \
(curARes - prevARes), 'not all USDT tokens go to LP pool'
assert curBBal - prevBBal - borrow_usdc_amt == - \
(curBRes - prevBRes), 'not all USDC tokens go to LP pool'
#####################################################################################
# remove half liquidity from the same position
print(
'========================================================================='
)
print('Case 3.')
prevABal = usdt.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
_, _, _, collSize = homora.getPositionInfo(position_id)
lp_take_amt = collSize // 2
lp_want = 1 * 10**5
usdt_repay = MAX_INT
usdc_repay = MAX_INT
tx = homora.execute(
position_id,
uniswap_spell,
uniswap_spell.removeLiquidity.encode_input(
usdt, # token 0
usdc, # token 1
[
lp_take_amt, # take out LP
lp_want, # withdraw LP to wallet
usdt_repay, # repay USDT
usdc_repay, # repay USDC
0, # repay LP
0, # min USDT
0
], # min USDC
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('spell usdt balance', usdt.balanceOf(uniswap_spell))
print('spell usdc balance', usdc.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('bank usdc totalDebt', usdcDebt)
print('bank usdc totalShare', usdcDebtShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev werc20 LP balance', prevLPBal_werc20)
print('cur werc20 LP balance', curLPBal_werc20)
print('coll size', collSize)
# alice
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# werc20
assert almostEqual(curLPBal_werc20 - prevLPBal_werc20,
-lp_take_amt), 'incorrect werc20 LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert usdc.balanceOf(uniswap_spell) == 0, 'non-zero spell USDC balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
# debt
assert usdtDebt == 0, 'usdtDebt should be 0'
assert usdcDebt == 0, 'usdcDebt should be 0'
#####################################################################################
# remove remaining liquidity from the same position
print(
'========================================================================='
)
print('Case 4.')
prevABal = usdt.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
_, _, _, collSize = homora.getPositionInfo(position_id)
lp_take_amt = MAX_INT
lp_want = 1 * 10**5
usdt_repay = MAX_INT
usdc_repay = MAX_INT
tx = homora.execute(
position_id,
uniswap_spell,
uniswap_spell.removeLiquidity.encode_input(
usdt, # token 0
usdc, # token 1
[
lp_take_amt, # take out LP
lp_want, # withdraw LP to wallet
usdt_repay, # repay USDT
usdc_repay, # repay USDC
0, # repay LP
0, # min USDT
0
], # min USDC
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('spell usdt balance', usdt.balanceOf(uniswap_spell))
print('spell usdc balance', usdc.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('bank usdc totalDebt', usdcDebt)
print('bank usdc totalShare', usdcDebtShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev werc20 LP balance', prevLPBal_werc20)
print('cur werc20 LP balance', curLPBal_werc20)
print('coll size', collSize)
# alice
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# werc20
assert almostEqual(curLPBal_werc20 - prevLPBal_werc20,
-collSize), 'incorrect werc20 LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert usdc.balanceOf(uniswap_spell) == 0, 'non-zero spell USDC balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
# debt
assert usdtDebt == 0, 'usdtDebt should be 0'
assert usdcDebt == 0, 'usdcDebt should be 0'
#####################################################################################
# add liquidity without borrowing (1x)
print(
'========================================================================='
)
print('Case 5.')
prevABal = usdt.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
usdt_amt = 2000 * 10**6 # 2000 USDT
usdc_amt = 3000 * 10**6 # 3000 USDC
lp_amt = 0
borrow_usdt_amt = 0
borrow_usdc_amt = 0
prevBBal = usdc.balanceOf(alice)
tx = homora.execute(
1,
uniswap_spell,
uniswap_spell.addLiquidity.encode_input(
usdt, # token 0
usdc, # token 1
[
usdt_amt, # supply USDT
usdc_amt, # supply USDC
lp_amt, # supply LP
borrow_usdt_amt, # borrow USDT
borrow_usdc_amt, # borrow USDC
0, # borrow LP
0, # min USDT
0
], # min USDC
),
{'from': alice})
position_id = tx.return_value
print('position_id', position_id)
curABal = usdt.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta lp balance', curLPBal - prevLPBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('bank usdc totalDebt', usdcDebt)
print('bank usdc totalShare', usdcDebtShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('werc20 prev LP balance', prevLPBal_werc20)
print('werc20 cur LP balance', curLPBal_werc20)
# alice
assert almostEqual(curABal - prevABal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curBBal - prevBBal, -usdc_amt), 'incorrect USDC amt'
assert almostEqual(curLPBal - prevLPBal, -lp_amt), 'incorrect LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert usdc.balanceOf(uniswap_spell) == 0, 'non-zero spell USDC balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
# debt
assert usdtDebt == borrow_usdt_amt
assert usdcDebt == borrow_usdc_amt
#####################################################################################
# remove all liquidity from the same position
print(
'========================================================================='
)
print('Case 6.')
prevABal = usdt.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
_, _, _, collSize = homora.getPositionInfo(position_id)
lp_take_amt = MAX_INT # max
lp_want = 0
usdt_repay = 0 # max
usdc_repay = 0 # max
tx = homora.execute(
position_id,
uniswap_spell,
uniswap_spell.removeLiquidity.encode_input(
usdt,
usdc,
[
lp_take_amt, # take out LP
lp_want, # withdraw LP to wallet
usdt_repay, # repay USDT
usdc_repay, # repay USDC
0, # repay LP
0, # min USDT
0
], # min USDC
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('spell usdt balance', usdt.balanceOf(uniswap_spell))
print('spell usdc balance', usdc.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('bank usdc totalDebt', usdcDebt)
print('bank usdc totalShare', usdcDebtShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev werc20 LP balance', prevLPBal_werc20)
print('cur werc20 LP balance', curLPBal_werc20)
print('coll size', collSize)
# alice
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# werc20
assert almostEqual(curLPBal_werc20 - prevLPBal_werc20,
-collSize), 'incorrect werc20 LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert usdc.balanceOf(uniswap_spell) == 0, 'non-zero spell USDC balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
# debt
assert usdtDebt == 0, 'usdtDebt should be 0'
assert usdcDebt == 0, 'usdcDebt should be 0'
return tx
def main():
deployer = accounts.at('0xB593d82d53e2c187dc49673709a6E9f806cdC835', force=True)
# deployer = accounts.load('gh')
werc20 = WERC20.at('0xe28D9dF7718b0b5Ba69E01073fE82254a9eD2F98')
wmas = WMasterChef.at('0x373ae78a14577682591E088F2E78EF1417612c68')
wliq = WLiquidityGauge.at('0xfdB4f97953150e47C8606758C13e70b5a789a7ec')
wsindex = WStakingRewards.at('0x713df2DDDA9C7d7bDa98A9f8fCd82c06c50fbd90')
wsperp = WStakingRewards.at('0xC4635854480ffF80F742645da0310e9e59795c63')
kp3r_oracle = ERC20KP3ROracle.at('0x8E2A3777AB22e1c5f6d1fF2BcC6C4aA6aB1DeA14')
core_oracle = CoreOracle.at('0x1E5BDdd0cDF8839d6b27b34927869eF0AD7bf692')
uni_oracle = UniswapV2Oracle.deploy(core_oracle, {'from': deployer})
bal_oracle = BalancerPairOracle.at('0x8F93B0AA2643bf74ab38d6a5910fA82D2da02134')
crv_oracle = CurveOracle.at('0x04DE0E42B3b0483248deafE86C4F5428613b76Ff')
proxy_oracle = ProxyOracle.deploy(core_oracle, {'from': deployer})
# re-route to new uniswap oracle
core_oracle.setRoute([
'0x0bc529c00C6401aEF6D220BE8C6Ea1667F6Ad93e', # YFI
'0xA478c2975Ab1Ea89e8196811F51A7B7Ade33eB11', # UNI DAI-WETH
'0x0d4a11d5EEaaC28EC3F61d100daF4d40471f1852', # UNI WETH-USDT
'0xB4e16d0168e52d35CaCD2c6185b44281Ec28C9Dc', # UNI USDC-WETH
'0xBb2b8038a1640196FbE3e38816F3e67Cba72D940', # UNI WBTC-WETH
'0x2fDbAdf3C4D5A8666Bc06645B8358ab803996E28', # UNI WETH-YFI
'0x4d5ef58aAc27d99935E5b6B4A6778ff292059991', # UNI DPI-WETH
'0x06da0fd433C1A5d7a4faa01111c044910A184553', # SUSHI WETH-USDT
'0x088ee5007C98a9677165D78dD2109AE4a3D04d0C', # SUSHI WETH-YFI
'0x34b13F8CD184F55d0Bd4Dd1fe6C07D46f245c7eD', # SUSHI DPI-WETH
], [
kp3r_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
], {'from': deployer})
# re-set oracles
proxy_oracle.setOracles([
'0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2', # WETH
'0x6B175474E89094C44Da98b954EedeAC495271d0F', # DAI
'0xA0b86991c6218b36c1d19D4a2e9Eb0cE3606eB48', # USDC
'0xdAC17F958D2ee523a2206206994597C13D831ec7', # USDT
'0x2260FAC5E5542a773Aa44fBCfeDf7C193bc2C599', # WBTC
'0x1494CA1F11D487c2bBe4543E90080AeBa4BA3C2b', # DPI
'0x0bc529c00C6401aEF6D220BE8C6Ea1667F6Ad93e', # YFI
'0xA478c2975Ab1Ea89e8196811F51A7B7Ade33eB11', # UNI DAI-WETH
'0x0d4a11d5EEaaC28EC3F61d100daF4d40471f1852', # UNI WETH-USDT
'0xB4e16d0168e52d35CaCD2c6185b44281Ec28C9Dc', # UNI USDC-WETH
'0xBb2b8038a1640196FbE3e38816F3e67Cba72D940', # UNI WBTC-WETH
'0x2fDbAdf3C4D5A8666Bc06645B8358ab803996E28', # UNI WETH-YFI
'0x4d5ef58aAc27d99935E5b6B4A6778ff292059991', # UNI DPI-WETH
'0x06da0fd433C1A5d7a4faa01111c044910A184553', # SUSHI WETH-USDT
'0x088ee5007C98a9677165D78dD2109AE4a3D04d0C', # SUSHI WETH-YFI
'0x34b13F8CD184F55d0Bd4Dd1fe6C07D46f245c7eD', # SUSHI DPI-WETH
'0x8b6e6E7B5b3801FEd2CaFD4b22b8A16c2F2Db21a', # BAL WETH-DAI 80-20
'0xF54025aF2dc86809Be1153c1F20D77ADB7e8ecF4', # BAL PERP-USDC 80-20
'0x6c3F90f043a72FA612cbac8115EE7e52BDe6E490', # CRV 3-POOL
], [
[14350, 6970, 10250], # WETH
[10840, 9230, 10250], # DAI
[10840, 9230, 10250], # USDC
[10840, 9230, 10250], # USDT
[14350, 6970, 10250], # WBTC
[50000, 0, 10250], # DPI
[50000, 0, 10250], # YFI
[50000, 6970, 10250], # UNI DAI-WETH
[50000, 6970, 10250], # UNI WETH-USDT
[50000, 6970, 10250], # UNI USDC-WETH
[50000, 6970, 10250], # UNI WBTC-WETH
[50000, 6970, 10250], # UNI WETH-YFI
[50000, 6970, 10250], # UNI DPI-WETH
[50000, 6970, 10250], # SUSHI WETH-USDT
[50000, 6970, 10250], # SUSHI WETH-YFI
[50000, 6970, 10250], # SUSHI DPI-WETH
[50000, 6970, 10250], # BAL WETH-DAI 80-20
[50000, 0, 10250], # BAL PERP-USDC 80-20
[50000, 9230, 10250], # CRV 3-POOL
], {'from': deployer})
proxy_oracle.setWhitelistERC1155(
[werc20, wmas, wliq, wsindex, wsperp],
True,
{'from': deployer},
)
bank_impl = HomoraBank.deploy({'from': deployer})
proxy_admin = Contract.from_explorer('0x090eCE252cEc5998Db765073D07fac77b8e60CB2')
bank = Contract.from_explorer('0x5f5Cd91070960D13ee549C9CC47e7a4Cd00457bb')
proxy_admin.upgrade(bank, bank_impl, {'from': deployer})
bank.setOracle(proxy_oracle, {'from': deployer})
uniswap_spell = UniswapV2SpellV1.deploy(
bank, werc20, '0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D',
{'from': deployer},
)
sushiswap_spell = SushiswapSpellV1.deploy(
bank, werc20, '0xd9e1cE17f2641f24aE83637ab66a2cca9C378B9F', wmas,
{'from': deployer},
)
balancer_spell = BalancerSpellV1.at('0x15B79c184A6a8E19a4CA1F637081270343E4D15D')
curve_spell = CurveSpellV1.deploy(
bank, werc20, '0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2', wliq,
{'from': deployer},
)
print('DONE')
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
dai = interface.IERC20Ex('0x6B175474E89094C44Da98b954EedeAC495271d0F')
usdc = interface.IERC20Ex('0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48')
usdt = interface.IERC20Ex('0xdAC17F958D2ee523a2206206994597C13D831ec7')
susd = interface.IERC20Ex('0x57ab1ec28d129707052df4df418d58a2d46d5f51')
ydai = interface.IERC20Ex('0xC2cB1040220768554cf699b0d863A3cd4324ce32')
yusdc = interface.IERC20Ex('0x26EA744E5B887E5205727f55dFBE8685e3b21951')
yusdt = interface.IERC20Ex('0xE6354ed5bC4b393a5Aad09f21c46E101e692d447')
ybusd = interface.IERC20Ex('0x04bC0Ab673d88aE9dbC9DA2380cB6B79C4BCa9aE')
lp = interface.IERC20Ex('0xC25a3A3b969415c80451098fa907EC722572917F')
pool = interface.ICurvePool('0xA5407eAE9Ba41422680e2e00537571bcC53efBfD')
lp_busd = interface.IERC20Ex('0x3B3Ac5386837Dc563660FB6a0937DFAa5924333B')
pool_busd = interface.ICurvePool(
'0x79a8C46DeA5aDa233ABaFFD40F3A0A2B1e5A4F27')
registry = interface.ICurveRegistry(
'0x7d86446ddb609ed0f5f8684acf30380a356b2b4c')
crdai = interface.ICErc20('0x92B767185fB3B04F881e3aC8e5B0662a027A1D9f')
crusdc = interface.ICErc20('0x44fbebd2f576670a6c33f6fc0b00aa8c5753b322')
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
crsusd = MockCErc20.deploy(susd, {'from': admin})
crydai = MockCErc20.deploy(ydai, {'from': admin})
cryusdc = MockCErc20.deploy(yusdc, {'from': admin})
cryusdt = MockCErc20.deploy(yusdt, {'from': admin})
crybusd = MockCErc20.deploy(ybusd, {'from': admin})
gauge = accounts.at('0xA90996896660DEcC6E997655E065b23788857849',
force=True)
wgauge = WLiquidityGauge.deploy(
registry, '0xD533a949740bb3306d119CC777fa900bA034cd52',
{'from': admin})
crv = interface.IERC20Ex(wgauge.crv())
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx(
[dai, usdt, usdc, susd, ydai, yusdc, yusdt, ybusd], [
2**112 // 700, 2**112 * 10**12 // 700, 2**112 * 10**12 // 700,
2**112 // 700, 2**112 // 700, 2**112 * 10**12 // 700,
2**112 * 10**12 // 700, 2**112 // 700
])
curve_oracle = CurveOracle.deploy(simple_oracle, registry, {'from': admin})
curve_oracle.registerPool(lp) # update pool info
curve_oracle.registerPool(lp_busd) # update pool info
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20, wgauge], True, {'from': admin})
core_oracle.setRoute(
[
dai,
usdc,
usdt,
susd,
lp,
ydai,
yusdc,
yusdt,
ybusd,
lp_busd,
],
[
simple_oracle, simple_oracle, simple_oracle, simple_oracle,
curve_oracle, simple_oracle, simple_oracle, simple_oracle,
simple_oracle, curve_oracle
],
{'from': admin},
)
oracle.setOracles(
[dai, usdc, usdt, susd, lp, ydai, yusdc, yusdt, ybusd, lp_busd],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
# initialize
homora = HomoraBank.deploy({'from': admin})
print('donator ether', accounts[5].balance())
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
# add bank
homora.addBank(dai, crdai, {'from': admin})
homora.addBank(usdc, crusdc, {'from': admin})
homora.addBank(usdt, crusdt, {'from': admin})
homora.addBank(susd, crsusd, {'from': admin})
homora.addBank(ydai, crydai, {'from': admin})
homora.addBank(yusdc, cryusdc, {'from': admin})
homora.addBank(yusdt, cryusdt, {'from': admin})
homora.addBank(ybusd, crybusd, {'from': admin})
# setup initial funds to alice
mint_tokens(
dai,
alice,
)
mint_tokens(usdc, alice)
mint_tokens(usdt, alice)
mint_tokens(susd, alice)
mint_tokens(ydai, alice)
mint_tokens(yusdc, alice)
mint_tokens(yusdt, alice)
mint_tokens(ybusd, alice)
# check alice's funds
print(f'Alice dai balance {dai.balanceOf(alice)}')
print(f'Alice usdc balance {usdc.balanceOf(alice)}')
print(f'Alice usdt balance {usdt.balanceOf(alice)}')
print(f'Alice susd balance {susd.balanceOf(alice)}')
print(f'Alice ydai balance {ydai.balanceOf(alice)}')
print(f'Alice yusdc balance {yusdc.balanceOf(alice)}')
print(f'Alice yusdt balance {yusdt.balanceOf(alice)}')
print(f'Alice ybusd balance {ybusd.balanceOf(alice)}')
# steal some LP from the staking pool
mint_tokens(lp, alice)
mint_tokens(lp, bob)
mint_tokens(lp_busd, alice)
# set approval
dai.approve(homora, 2**256 - 1, {'from': alice})
dai.approve(crdai, 2**256 - 1, {'from': alice})
usdc.approve(homora, 2**256 - 1, {'from': alice})
usdc.approve(crusdc, 2**256 - 1, {'from': alice})
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': alice})
susd.approve(homora, 2**256 - 1, {'from': alice})
susd.approve(crsusd, 2**256 - 1, {'from': alice})
ydai.approve(homora, 2**256 - 1, {'from': alice})
ydai.approve(crydai, 2**256 - 1, {'from': alice})
yusdc.approve(homora, 2**256 - 1, {'from': alice})
yusdc.approve(cryusdc, 2**256 - 1, {'from': alice})
yusdt.approve(homora, 2**256 - 1, {'from': alice})
yusdt.approve(cryusdt, 2**256 - 1, {'from': alice})
ybusd.approve(homora, 2**256 - 1, {'from': alice})
ybusd.approve(crybusd, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(gauge, 2**256 - 1, {'from': bob})
lp_busd.approve(homora, 2**256 - 1, {'from': alice})
curve_spell = CurveSpellV1.deploy(
homora, werc20, '0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2', wgauge,
{'from': admin})
# register gauge
wgauge.registerGauge(12, 0)
wgauge.registerGauge(1, 0)
# set up pools
curve_spell.getPool(lp)
curve_spell.getPool(lp_busd)
# first time call to reduce gas
curve_spell.ensureApproveN(lp, 4, {'from': admin})
curve_spell.ensureApproveN(lp_busd, 4, {'from': admin})
# whitelist spell in bank
homora.setWhitelistSpells([curve_spell], [True], {'from': admin})
# whitelist token in bank
homora.setWhitelistTokens([dai, usdt, usdc, susd],
[True, True, True, True], {'from': admin})
# whitelist lp in spell
curve_spell.setWhitelistLPTokens([lp], [True], {'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1.')
prevABal = dai.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevCBal = usdt.balanceOf(alice)
prevDBal = susd.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_gauge = lp.balanceOf(gauge)
dai_amt = 200 * 10**18
usdc_amt = 1000 * 10**6
usdt_amt = 1000 * 10**6
susd_amt = 1000 * 10**18
lp_amt = 0
borrow_dai_amt = 10 * 10**18
borrow_usdc_amt = 10**6
borrow_usdt_amt = 0
borrow_susd_amt = 0
borrow_lp_amt = 0
minLPMint = 0
pid = 12
gid = 0
tx = homora.execute(
0,
curve_spell,
curve_spell.addLiquidity4.encode_input(
lp, # LP
[dai_amt, usdc_amt, usdt_amt, susd_amt], # supply tokens
lp_amt, # supply LP
[
borrow_dai_amt, borrow_usdc_amt, borrow_usdt_amt,
borrow_susd_amt
], # borrow tokens
borrow_lp_amt, # borrow LP
minLPMint, # min LP mint
pid,
gid),
{'from': alice})
curABal = dai.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curCBal = usdt.balanceOf(alice)
curDBal = susd.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_gauge = lp.balanceOf(gauge)
print('spell lp balance', lp.balanceOf(curve_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta C balance', curCBal - prevCBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, daiDebt, daiDebtShare = homora.getBankInfo(dai)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, susdDebt, susdDebtShare = homora.getBankInfo(susd)
print('bank dai totalDebt', daiDebt)
print('bank dai totalShare', daiDebtShare)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('bank usdc totalDebt', usdcDebt)
print('bank usdc totalShare', usdcDebtShare)
print('bank susd totalDebt', susdDebt)
print('bank susd totalShare', susdDebtShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('gauge prev LP balance', prevLPBal_gauge)
print('gauge cur LP balance', curLPBal_gauge)
# alice
assert almostEqual(curABal - prevABal, -dai_amt), 'incorrect DAI amt'
assert almostEqual(curBBal - prevBBal, -usdc_amt), 'incorrect USDC amt'
assert almostEqual(curCBal - prevCBal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curDBal - prevDBal, -susd_amt), 'incorrect SUSD amt'
assert almostEqual(curLPBal - prevLPBal, -lp_amt), 'incorrect LP amt'
# spell
assert dai.balanceOf(curve_spell) == 0, 'non-zero spell DAI balance'
assert usdc.balanceOf(curve_spell) == 0, 'non-zero spell USDC balance'
assert usdt.balanceOf(curve_spell) == 0, 'non-zero spell USDT balance'
assert susd.balanceOf(curve_spell) == 0, 'non-zero spell SUSD balance'
assert lp.balanceOf(curve_spell) == 0, 'non-zero spell LP balance'
# debt
assert daiDebt == borrow_dai_amt
assert usdcDebt == borrow_usdc_amt
assert usdtDebt == borrow_usdt_amt
assert susdDebt == borrow_susd_amt
# #####################################################################################
print(
'========================================================================='
)
print('Case 2. harvest first time')
prevCRVBalance = crv.balanceOf(alice)
print('Alice CRV balance before harvest', prevCRVBalance)
_, _, collId, collSize = homora.getPositionInfo(1)
print('collSize', collSize)
# staking directly
prevCrv = crv.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
pid, gid = 12, 0
gauge, _ = wgauge.gauges(pid, gid)
tx = interface.ILiquidityGauge(gauge).deposit(collSize, {'from': bob})
chain.sleep(20000)
tx = homora.execute(1, curve_spell, curve_spell.harvest.encode_input(),
{'from': alice})
print('tx gas used', tx.gas_used)
curCRVBalance = crv.balanceOf(alice)
print('Alice CRV balance after harvest', curCRVBalance)
receivedCrv = curCRVBalance - prevCRVBalance
# check with staking directly
minter = interface.ILiquidityGaugeMinter(
interface.ILiquidityGauge(gauge).minter())
print('minter', minter)
tx = minter.mint(gauge, {'from': bob})
print('tx status', tx.status)
tx = interface.ILiquidityGauge(gauge).withdraw(collSize, {'from': bob})
receivedCrvFromGauge = crv.balanceOf(bob) - prevCrv
print('receivedCrvFromGauge', receivedCrvFromGauge)
assert almostEqual(receivedCrv, receivedCrvFromGauge)
# #####################################################################################
print(
'========================================================================='
)
print('Case 3. harvest second time')
prevCRVBalance = crv.balanceOf(alice)
print('Alice CRV balance before harvest', prevCRVBalance)
_, _, collId, collSize = homora.getPositionInfo(1)
print('collSize', collSize)
# staking directly
prevCrv = crv.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
pid, gid = 12, 0
gauge, _ = wgauge.gauges(pid, gid)
tx = interface.ILiquidityGauge(gauge).deposit(collSize, {'from': bob})
chain.sleep(20000)
tx = homora.execute(1, curve_spell, curve_spell.harvest.encode_input(),
{'from': alice})
print('tx gas used', tx.gas_used)
curCRVBalance = crv.balanceOf(alice)
print('Alice CRV balance after harvest', curCRVBalance)
receivedCrv = curCRVBalance - prevCRVBalance
# check with staking directly
minter = interface.ILiquidityGaugeMinter(
interface.ILiquidityGauge(gauge).minter())
print('minter', minter)
tx = minter.mint(gauge, {'from': bob})
print('tx status', tx.status)
tx = interface.ILiquidityGauge(gauge).withdraw(collSize, {'from': bob})
receivedCrvFromGauge = crv.balanceOf(bob) - prevCrv
print('receivedCrvFromGauge', receivedCrvFromGauge)
assert almostEqual(receivedCrv, receivedCrvFromGauge)
return tx
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
dfd = interface.IERC20Ex('0x20c36f062a31865bED8a5B1e512D9a1A20AA333A')
dusd = interface.IERC20Ex('0x5BC25f649fc4e26069dDF4cF4010F9f706c23831')
weth = interface.IERC20Ex('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2')
dai = interface.IERC20Ex('0x6B175474E89094C44Da98b954EedeAC495271d0F')
lp = interface.IERC20Ex('0xd8e9690eff99e21a2de25e0b148ffaf47f47c972')
# pool is lp for balancer
pool = interface.IBalancerPool(
'0xd8e9690eff99e21a2de25e0b148ffaf47f47c972')
lp_dai = interface.IERC20Ex('0x8b6e6e7b5b3801fed2cafd4b22b8a16c2f2db21a')
pool_dai = interface.IBalancerPool(
'0x8b6e6e7b5b3801fed2cafd4b22b8a16c2f2db21a')
crdfd = MockCErc20.deploy(dfd, {'from': admin})
crdusd = MockCErc20.deploy(dusd, {'from': admin})
crdai = MockCErc20.deploy(dai, {'from': admin})
crweth = MockCErc20.deploy(weth, {'from': admin})
werc20 = WERC20.deploy({'from': admin})
staking = accounts.at('0xf068236ecad5fabb9883bbb26a6445d6c7c9a924',
force=True)
wstaking = WStakingRewards.deploy(staking, lp, dfd, {'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([dfd, dusd],
[2**112 // 2 // 700, 2**112 * 2 // 700])
balancer_oracle = BalancerPairOracle.deploy(simple_oracle, {'from': alice})
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20, wstaking], True, {'from': admin})
core_oracle.setRoute(
[dfd, dusd, lp],
[simple_oracle, simple_oracle, balancer_oracle],
{'from': admin},
)
oracle.setOracles(
[dfd, dusd, lp],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(dfd, crdfd, {'from': admin})
homora.addBank(dusd, crdusd, {'from': admin})
# setup initial funds to alice
mint_tokens(dfd, alice)
mint_tokens(dusd, alice)
mint_tokens(weth, alice)
mint_tokens(dai, alice)
mint_tokens(dfd, crdfd)
# check alice's funds
print(f'Alice dusd balance {dusd.balanceOf(alice)}')
print(f'Alice dfd balance {dfd.balanceOf(alice)}')
# Steal some LP from the staking pool
mint_tokens(lp, alice)
mint_tokens(lp, bob)
# set approval
dfd.approve(homora, 2**256 - 1, {'from': alice})
dfd.approve(crdfd, 2**256 - 1, {'from': alice})
dusd.approve(homora, 2**256 - 1, {'from': alice})
dusd.approve(crdusd, 2**256 - 1, {'from': alice})
dai.approve(homora, 2**256 - 1, {'from': alice})
dai.approve(crdai, 2**256 - 1, {'from': alice})
weth.approve(homora, 2**256 - 1, {'from': alice})
weth.approve(crweth, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(staking, 2**256 - 1, {'from': bob})
balancer_spell = BalancerSpellV1.deploy(
homora, werc20, '0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2',
{'from': admin})
# first time call to reduce gas
balancer_spell.getPair(lp, {'from': admin})
# whitelist spell in bank
homora.setWhitelistSpells([balancer_spell], [True], {'from': admin})
# whitelist token in bank
homora.setWhitelistTokens([dfd], [True], {'from': admin})
# whitelist lp in spell
balancer_spell.setWhitelistLPTokens([lp, lp_dai], [True, True],
{'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1.')
prevABal = dfd.balanceOf(alice)
prevBBal = dusd.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_staking = lp.balanceOf(staking)
prevARes = interface.IBalancerPool(lp).getBalance(dfd)
prevBRes = interface.IBalancerPool(lp).getBalance(dusd)
dfd_amt = 100 * 10**18
dusd_amt = 10**18
lp_amt = 0
borrow_dfd_amt = 10**18
borrow_dusd_amt = 0
# calculate slippage control
total_dfd_amt = dfd_amt + borrow_dfd_amt
total_dusd_amt = dusd_amt + borrow_dusd_amt
dfd_weight = 0.58
dusd_weight = 0.42
ratio = (((prevARes + total_dfd_amt) / prevARes) ** dfd_weight) * \
(((prevBRes + total_dusd_amt) / prevBRes) ** dusd_weight) - 1
lp_desired = lp_amt + int(
interface.IERC20(lp).totalSupply() * ratio * 0.995)
print('lp desired', lp_desired)
tx = homora.execute(
0,
balancer_spell,
balancer_spell.addLiquidityWStakingRewards.encode_input(
lp, # lp token
[
dfd_amt, # supply DFD
dusd_amt, # supply DUSD
lp_amt, # supply LP
borrow_dfd_amt, # borrow DFD
borrow_dusd_amt, # borrow DUSD
0, # borrow LP tokens
lp_desired
], # LP desired
wstaking),
{'from': alice})
curABal = dfd.balanceOf(alice)
curBBal = dusd.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_staking = lp.balanceOf(staking)
curARes = interface.IBalancerPool(lp).getBalance(dfd)
curBRes = interface.IBalancerPool(lp).getBalance(dusd)
print('spell lp balance', lp.balanceOf(balancer_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, dfdDebt, dfdShare = homora.getBankInfo(dfd)
print('bank dfd dfdDebt', dfdDebt)
print('bank dfd dfdShare', dfdShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('staking prev LP balance', prevLPBal_staking)
print('staking cur LP balance', curLPBal_staking)
print('prev dfd res', prevARes)
print('cur dfd res', curARes)
print('prev dusd res', prevBRes)
print('cur dusd res', curBRes)
# alice
assert almostEqual(curABal - prevABal, -dfd_amt), 'incorrect DFD amt'
assert almostEqual(curBBal - prevBBal, -dusd_amt), 'incorrect DUSD amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert dfd.balanceOf(balancer_spell) == 0, 'non-zero spell DFD balance'
assert dusd.balanceOf(balancer_spell) == 0, 'non-zero spell DUSD balance'
assert lp.balanceOf(balancer_spell) == 0, 'non-zero spell LP balance'
assert dfdDebt == borrow_dfd_amt
# check balance and pool reserves
assert almostEqual(
curABal - prevABal - borrow_dfd_amt,
-(curARes - prevARes)), 'not all DFD tokens go to LP pool'
assert almostEqual(
curBBal - prevBBal - borrow_dusd_amt,
-(curBRes - prevBRes)), 'not all DUSD tokens go to LP pool'
_, _, collId, collSize = homora.getPositionInfo(1)
print('collSize', collSize)
# staking directly
prevDfd = dfd.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
tx = interface.IStakingRewards(staking).stake(collSize, {'from': bob})
chain.sleep(20000)
prevAliceDfdBalance = dfd.balanceOf(alice)
print('Alice dfd balance', prevAliceDfdBalance)
#####################################################################################
print(
'========================================================================='
)
print('Case 2. add liquidity (failed tx desired)')
weth_amt = 100 * 10**18
dai_amt = 10**18
lp_amt = 0
borrow_weth_amt = 0
borrow_dai_amt = 0
# calculate slippage control
total_weth_amt = weth_amt + borrow_weth_amt
total_dai_amt = dai_amt + borrow_dai_amt
dfd_weight = 0.8
dusd_weight = 0.2
ratio = (((prevARes + total_weth_amt) / prevARes) ** dfd_weight) * \
(((prevBRes + total_dai_amt) / prevBRes) ** dusd_weight) - 1
lp_desired = lp_amt + int(
interface.IERC20(lp).totalSupply() * ratio * 0.995)
lp_desired = 0
print('lp desired', lp_desired)
try:
tx = homora.execute(
1,
balancer_spell,
balancer_spell.addLiquidityWStakingRewards.encode_input(
lp_dai, # lp token
[
weth_amt, # supply DFD
dai_amt, # supply DUSD
lp_amt, # supply LP
borrow_weth_amt, # borrow DFD
borrow_dai_amt, # borrow DUSD
0, # borrow LP tokens
lp_desired
], # LP desired
wstaking),
{'from': alice})
assert False, 'tx should fail'
except VirtualMachineError:
pass
#####################################################################################
print(
'========================================================================='
)
print('Case 3. remove liquidity (failed tx desired)')
lp_take_amt = 2**256 - 1 # max
lp_want = 0
weth_repay = 2**256 - 1 # max
dai_repay = 2**256 - 1 # max
real_weth_repay = homora.borrowBalanceStored(1, dfd)
_, _, _, real_lp_take_amt = homora.getPositionInfo(1)
expected_withdraw_dfd = collSize * prevARes // interface.IBalancerPool(
lp).totalSupply()
print('expected withdraw DFD', expected_withdraw_dfd)
try:
tx = homora.execute(
1,
balancer_spell,
balancer_spell.removeLiquidityWStakingRewards.encode_input(
lp_dai, # LP token
[
lp_take_amt, # take out LP tokens
lp_want, # withdraw LP tokens to wallet
weth_repay, # repay DFD
dai_repay, # repay DUSD
0, # repay LP
0, # min DFD
0
], # min DUSD
wstaking),
{'from': alice})
assert False, 'tx should fail'
except VirtualMachineError:
pass
#####################################################################################
print(
'========================================================================='
)
print('Case 4. remove liquidity')
# remove liquidity from the same position
prevABal = dfd.balanceOf(alice)
prevBBal = dusd.balanceOf(alice)
prevETHBal = alice.balance()
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_staking = lp.balanceOf(staking)
prevETHBal = alice.balance()
prevCrdfdBal = lp.balanceOf(crdfd)
prevARes = interface.IBalancerPool(lp).getBalance(dfd)
prevBRes = interface.IBalancerPool(lp).getBalance(dusd)
lp_take_amt = 2**256 - 1 # max
lp_want = 0
dfd_repay = 2**256 - 1 # max
dusd_repay = 0
real_dfd_repay = homora.borrowBalanceStored(1, dfd)
_, _, _, real_lp_take_amt = homora.getPositionInfo(1)
expected_withdraw_dfd = collSize * prevARes // interface.IBalancerPool(
lp).totalSupply()
print('expected withdraw DFD', expected_withdraw_dfd)
tx = homora.execute(
1,
balancer_spell,
balancer_spell.removeLiquidityWStakingRewards.encode_input(
lp, # LP token
[
lp_take_amt, # take out LP tokens
lp_want, # withdraw LP tokens to wallet
dfd_repay, # repay DFD
dusd_repay, # repay DUSD
0, # repay LP
0, # min DFD
0
], # min DUSD
wstaking),
{'from': alice})
curABal = dfd.balanceOf(alice)
curBBal = dusd.balanceOf(alice)
curETHBal = alice.balance()
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_staking = lp.balanceOf(staking)
curETHBal = alice.balance()
curCrdfdBal = lp.balanceOf(crdfd)
curARes = interface.IBalancerPool(lp).getBalance(dfd)
curBRes = interface.IBalancerPool(lp).getBalance(dusd)
print('spell lp balance', lp.balanceOf(balancer_spell))
print('spell dfd balance', dfd.balanceOf(balancer_spell))
print('spell dusd balance', dusd.balanceOf(balancer_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta ETH balance', curETHBal - prevETHBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, dfdDebt, dfdShare = homora.getBankInfo(dfd)
print('bank dfd totalDebt', dfdDebt)
print('bank dfd totalShare', dfdShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev staking LP balance', prevLPBal_staking)
print('cur staking LP balance', curLPBal_staking)
print('real dfd repay', real_dfd_repay)
print('curCrdfdBal', curCrdfdBal)
print('delta crdfd', curCrdfdBal - prevCrdfdBal)
print('A res delta', prevARes - curARes)
print('B res delta', prevBRes - curBRes)
# alice
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# staking
assert almostEqual(curLPBal_staking - prevLPBal_staking,
-real_lp_take_amt), 'incorrect staking LP amt'
# spell
assert dfd.balanceOf(balancer_spell) == 0, 'non-zero spell DFD balance'
assert dusd.balanceOf(balancer_spell) == 0, 'non-zero spell DUSD balance'
assert lp.balanceOf(balancer_spell) == 0, 'non-zero spell LP balance'
# check balance and pool reserves
assert almostEqual(curABal - prevABal + real_dfd_repay,
-(curARes - prevARes)), 'inconsistent DFD from withdraw'
assert almostEqual(
curBBal - prevBBal + dusd_repay,
-(curBRes - prevBRes)), 'inconsistent DUSD from withdraw'
curAliceDfdBalance = dfd.balanceOf(alice)
print('Alice dfd balance', curAliceDfdBalance)
receivedDfd = curAliceDfdBalance - prevAliceDfdBalance + real_dfd_repay - (
prevARes - curARes)
print('received dfd', receivedDfd)
# check with staking directly
tx = interface.IStakingRewards(staking).getReward({'from': bob})
receivedDfdFromStaking = dfd.balanceOf(bob) - prevDfd
print('receivedDfdFromStaking', receivedDfdFromStaking)
assert almostEqual(receivedDfd, receivedDfdFromStaking)
#####################################################################################
print(
'========================================================================='
)
print('Case 5. add & remove all LP')
lp_amt = 10 * 10**18
prevLPBal = lp.balanceOf(alice)
tx = homora.execute(
0,
balancer_spell,
balancer_spell.addLiquidityWStakingRewards.encode_input(
lp, # lp token
[
0, # supply DAI
0, # supply WETH
lp_amt, # supply LP
0, # borrow DAI
0, # borrow WETH
0, # borrow LP tokens
0
], # LP desired
wstaking),
{'from': alice})
tx = homora.execute(
2,
balancer_spell,
balancer_spell.removeLiquidityWStakingRewards.encode_input(
lp, # LP token
[
2**256 - 1, # take out LP tokens
lp_amt, # withdraw LP tokens to wallet
0, # repay DAI
0, # repay WETH
0, # repay LP
0, # min DAI
0
], # min WETH
wstaking),
{'from': alice})
curLPBal = lp.balanceOf(alice)
assert prevLPBal == curLPBal, 'incorrect LP Balance'
return tx
def main():
admin = accounts[0]
alice = accounts[1]
usdt = interface.IERC20Ex('0xdAC17F958D2ee523a2206206994597C13D831ec7')
usdc = interface.IERC20Ex('0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48')
lp = interface.IERC20Ex('0x3041cbd36888becc7bbcbc0045e3b1f144466f5f')
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
crusdc = interface.ICErc20('0x44fbebd2f576670a6c33f6fc0b00aa8c5753b322')
router = interface.IUniswapV2Router02(
'0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D')
chef = accounts.at('0xc2edad668740f1aa35e4d8f227fb8e17dca888cd',
force=True)
wchef = WMasterChef.deploy(chef, {'from': admin})
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([usdt, usdc], [
8343331721347310729683379470025550036595362,
8344470555541464992529317899641128796042472
])
uniswap_oracle = UniswapV2Oracle.deploy(simple_oracle, {'from': admin})
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20], True, {'from': admin})
core_oracle.setRoute(
[usdt, usdc, lp],
[simple_oracle, simple_oracle, uniswap_oracle],
{'from': admin},
)
oracle.setOracles(
[usdt, usdc, lp],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
# initialize
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
# add bank
homora.addBank(usdt, crusdt, {'from': admin})
homora.addBank(usdc, crusdc, {'from': admin})
# setup initial funds to alice
mint_tokens(usdt, alice)
mint_tokens(usdc, alice)
# check alice's funds
print(f'Alice usdt balance {usdt.balanceOf(alice)}')
print(f'Alice usdc balance {usdc.balanceOf(alice)}')
# steal some LP from the staking pool
mint_tokens(lp, alice)
# set approval
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': alice})
usdc.approve(homora, 2**256 - 1, {'from': alice})
usdc.approve(crusdc, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
uniswap_spell = UniswapV2SpellV1.deploy(homora, werc20, router,
{'from': admin})
# first time call to reduce gas
uniswap_spell.getPair(usdt, usdc, {'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1.')
prevABal = usdt.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
usdt_amt = 40000 * 10**6 # 40000 USDT
usdc_amt = 50000 * 10**6 # 50000 USDC
lp_amt = 1 * 10**7
borrow_usdt_amt = 1000 * 10**6 # 1000 USDT
borrow_usdc_amt = 200 * 10**6 # 200 USDC
tx = homora.execute(
0,
uniswap_spell,
uniswap_spell.addLiquidityWERC20.encode_input(
usdt, # token 0
usdc, # token 1
[
usdt_amt, # supply USDT
usdc_amt, # supply USDC
lp_amt, # supply LP
borrow_usdt_amt, # borrow USDT
borrow_usdc_amt, # borrow USDC
0, # borrow LP tokens
0, # min USDT
0
], # min USDC
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('bank usdc totalDebt', usdcDebt)
print('bank usdc totalShare', usdcDebtShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('werc20 prev LP balance', prevLPBal_werc20)
print('werc20 cur LP balance', curLPBal_werc20)
# alice
assert almostEqual(curABal - prevABal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curBBal - prevBBal, -usdc_amt), 'incorrect USDC amt'
assert almostEqual(curLPBal - prevLPBal, -lp_amt), 'incorrect LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert usdc.balanceOf(uniswap_spell) == 0, 'non-zero spell USDC balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
# debt
assert usdtDebt == borrow_usdt_amt
assert usdcDebt == borrow_usdc_amt
#####################################################################################
print(
'========================================================================='
)
print('Case 2.')
# remove liquidity from the same position
prevABal = usdt.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
_, _, _, collSize = homora.getPositionInfo(1)
lp_take_amt = 2**256 - 1 # max
lp_want = 1 * 10**5
usdt_repay = 2**256 - 1 # max
usdc_repay = 2**256 - 1 # max
tx = homora.execute(
1,
uniswap_spell,
uniswap_spell.removeLiquidityWERC20.encode_input(
usdt, # token 0
usdc, # token 1
[
lp_take_amt, # take out LP tokens
lp_want, # withdraw LP tokens to wallet
usdt_repay, # repay USDT
usdc_repay, # repay USDC
0, # repay LP
0, # min USDT
0
], # min USDC
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('spell usdt balance', usdt.balanceOf(uniswap_spell))
print('spell usdc balance', usdc.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('bank usdc totalDebt', usdcDebt)
print('bank usdc totalShare', usdcDebtShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev werc20 LP balance', prevLPBal_werc20)
print('cur werc20 LP balance', curLPBal_werc20)
print('coll size', collSize)
# alice
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# werc20
assert almostEqual(curLPBal_werc20 - prevLPBal_werc20,
-collSize), 'incorrect werc20 LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert usdc.balanceOf(uniswap_spell) == 0, 'non-zero spell USDC balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
# debt
assert usdtDebt == 0, 'usdtDebt should be 0'
assert usdcDebt == 0, 'usdcDebt should be 0'
return tx
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
dpi = interface.IERC20Ex('0x1494ca1f11d487c2bbe4543e90080aeba4ba3c2b')
weth = interface.IERC20Ex('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2')
usdt = interface.IERC20Ex('0xdac17f958d2ee523a2206206994597c13d831ec7')
lp = interface.IERC20Ex('0x4d5ef58aac27d99935e5b6b4a6778ff292059991')
lp_usdt = interface.IERC20Ex('0x0d4a11d5eeaac28ec3f61d100daf4d40471f1852')
crdpi = MockCErc20.deploy(dpi, {'from': admin})
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
router = interface.IUniswapV2Router02(
'0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D')
staking = accounts.at('0xB93b505Ed567982E2b6756177ddD23ab5745f309',
force=True)
index = interface.IERC20Ex(
interface.IStakingRewardsEx(staking).rewardsToken())
wstaking = WStakingRewards.deploy(staking, lp, index, {'from': admin})
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([dpi, weth, usdt],
[2**112 * 100 // 700, 2**112, 2**112 // 700])
uniswap_oracle = UniswapV2Oracle.deploy(simple_oracle, {'from': admin})
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20, wstaking], True, {'from': admin})
core_oracle.setRoute(
[dpi, weth, lp, usdt, lp_usdt],
[
simple_oracle, simple_oracle, uniswap_oracle, simple_oracle,
uniswap_oracle
],
{'from': admin},
)
oracle.setOracles(
[dpi, weth, lp, usdt, lp_usdt],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(dpi, crdpi, {'from': admin})
homora.addBank(usdt, crusdt, {'from': admin})
# setup initial funds to alice
mint_tokens(dpi, alice)
mint_tokens(weth, alice)
mint_tokens(usdt, alice)
mint_tokens(dpi, crdpi)
# check alice's funds
print(f'Alice dpi balance {dpi.balanceOf(alice)}')
print(f'Alice weth balance {weth.balanceOf(alice)}')
# Steal some LP from the staking pool
mint_tokens(lp, alice)
mint_tokens(lp, bob)
mint_tokens(lp_usdt, alice)
mint_tokens(lp_usdt, bob)
# set approval
dpi.approve(homora, 2**256 - 1, {'from': alice})
dpi.approve(crdpi, 2**256 - 1, {'from': alice})
weth.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(staking, 2**256 - 1, {'from': bob})
uniswap_spell = UniswapV2SpellV1.deploy(homora, werc20, router,
{'from': admin})
# first time call to reduce gas
uniswap_spell.getPair(weth, dpi, {'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1. add liquidity first time')
prevABal = dpi.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_staking = lp.balanceOf(staking)
if interface.IUniswapV2Pair(lp).token0() == dpi:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
dpi_amt = 10 * 10**18
weth_amt = 10**18
lp_amt = 0
borrow_dpi_amt = 10**18
borrow_weth_amt = 0
real_dpi_borrow_amt = borrow_dpi_amt
tx = homora.execute(
0,
uniswap_spell,
uniswap_spell.addLiquidityWStakingRewards.encode_input(
dpi, # token 0
weth, # token 1
[
dpi_amt, # supply DPI
weth_amt, # supply WETH
lp_amt, # supply LP
borrow_dpi_amt, # borrow DPI
borrow_weth_amt, # borrow WETH
0, # borrow LP tokens
0, # min DPI
0
], # min WETH
wstaking,
),
{'from': alice})
curABal = dpi.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_staking = lp.balanceOf(staking)
if interface.IUniswapV2Pair(lp).token0() == dpi:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, totalDebt, totalShare = homora.getBankInfo(dpi)
print('bank dpi totalDebt', totalDebt)
print('bank dpi totalShare', totalShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('staking prev LP balance', prevLPBal_staking)
print('staking cur LP balance', curLPBal_staking)
print('prev dpi res', prevARes)
print('cur dpi res', curARes)
print('prev weth res', prevBRes)
print('cur weth res', curBRes)
# alice
assert almostEqual(curABal - prevABal, -dpi_amt), 'incorrect DPI amt'
assert almostEqual(curBBal - prevBBal, -weth_amt), 'incorrect WETH amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert dpi.balanceOf(uniswap_spell) == 0, 'non-zero spell DPI balance'
assert weth.balanceOf(uniswap_spell) == 0, 'non-zero spell WETH balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
assert totalDebt == borrow_dpi_amt
# check balance and pool reserves
assert curABal - prevABal - borrow_dpi_amt == - \
(curARes - prevARes), 'not all DPI tokens go to LP pool'
assert curBBal - prevBBal - borrow_weth_amt == - \
(curBRes - prevBRes), 'not all WETH tokens go to LP pool'
_, _, collId, collSize = homora.getPositionInfo(1)
print('collSize', collSize)
# staking directly
prevIndex = index.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
tx = interface.IStakingRewards(staking).stake(collSize, {'from': bob})
chain.sleep(20000)
prevAliceIndexBalance = index.balanceOf(alice)
print('Alice index balance', prevAliceIndexBalance)
#####################################################################################
print(
'========================================================================='
)
print('Case 2. add liquidity (failed tx desired)')
usdt_amt = 10 * 10**6
weth_amt = 10**18
lp_amt = 0
borrow_usdt_amt = 0
borrow_weth_amt = 0
try:
tx = homora.execute(
1,
uniswap_spell,
uniswap_spell.addLiquidityWStakingRewards.encode_input(
usdt, # token 0
weth, # token 1
[
usdt_amt, # supply USDT
weth_amt, # supply WETH
lp_amt, # supply LP
borrow_usdt_amt, # borrow USDT
borrow_weth_amt, # borrow WETH
0, # borrow LP tokens
0, # min USDT
0
], # min WETH
wstaking,
),
{'from': alice})
except VirtualMachineError:
pass
#####################################################################################
print(
'========================================================================='
)
print('Case 3. remove liquidity (failed tx desired)')
lp_take_amt = collSize
lp_want = 0
usdt_repay = 0
weth_repay = 0
try:
tx = homora.execute(
1,
uniswap_spell,
uniswap_spell.removeLiquidityWStakingRewards.encode_input(
usdt, # token 0
weth, # token 1
[
lp_take_amt, # take out LP tokens
lp_want, # withdraw LP tokens to wallet
usdt_repay, # repay USDT
weth_repay, # repay WETH
0, # repay LP tokens
0, # min USDT
0
], # min WETH
wstaking,
),
{'from': alice})
except VirtualMachineError:
pass
#####################################################################################
print(
'========================================================================='
)
print('Case 4. remove liquidity')
prevABal = dpi.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_staking = lp.balanceOf(staking)
prevETHBal = alice.balance()
if interface.IUniswapV2Pair(lp).token0() == dpi:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
lp_take_amt = collSize
lp_want = 0
dpi_repay = 2**256 - 1
weth_repay = 0
tx = homora.execute(
1,
uniswap_spell,
uniswap_spell.removeLiquidityWStakingRewards.encode_input(
dpi, # token 0
weth, # token 1
[
lp_take_amt, # take out LP tokens
lp_want, # withdraw LP tokens to wallet
dpi_repay, # repay DPI
weth_repay, # repay WETH
0, # repay LP tokens
0, # min DPI
0
], # min WETH
wstaking,
),
{'from': alice})
curABal = dpi.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_staking = lp.balanceOf(staking)
curETHBal = alice.balance()
if interface.IUniswapV2Pair(lp).token0() == dpi:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, totalDebt, totalShare = homora.getBankInfo(dpi)
print('bank dpi totalDebt', totalDebt)
print('bank dpi totalShare', totalShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('wstaking prev LP balance', prevLPBal_staking)
print('wstaking cur LP balance', curLPBal_staking)
print('prev dpi res', prevARes)
print('cur dpi res', curARes)
print('prev weth res', prevBRes)
print('cur weth res', curBRes)
# alice
assert almostEqual(curBBal - prevBBal, 0), 'incorrect WETH amt'
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# staking
assert almostEqual(curLPBal_staking - prevLPBal_staking,
-lp_take_amt), 'incorrect staking LP amt'
# spell
assert dpi.balanceOf(uniswap_spell) == 0, 'non-zero spell DPI balance'
assert weth.balanceOf(uniswap_spell) == 0, 'non-zero spell WETH balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
# check balance and pool reserves
assert almostEqual(curABal - prevABal + real_dpi_borrow_amt,
-(curARes - prevARes)), 'inconsistent DPI from withdraw'
assert almostEqual(curBBal - prevBBal,
0), 'inconsistent WETH from withdraw'
assert almostEqual(curETHBal - prevETHBal + weth_repay,
-(curBRes - prevBRes)), 'inconsistent ETH from withdraw'
curAliceIndexBalance = index.balanceOf(alice)
print('Alice index balance', curAliceIndexBalance)
receivedIndex = curAliceIndexBalance - prevAliceIndexBalance
print('received index', receivedIndex)
# check with staking directly
tx = interface.IStakingRewards(staking).getReward({'from': bob})
receivedIndexFromStaking = index.balanceOf(bob) - prevIndex
print('receivedIndexFromStaking', receivedIndexFromStaking)
assert almostEqual(receivedIndex, receivedIndexFromStaking)
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
usdt = interface.IERC20Ex('0xdac17f958d2ee523a2206206994597c13d831ec7')
weth = interface.IERC20Ex('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2')
lp = interface.IERC20Ex('0x06da0fd433C1A5d7a4faa01111c044910A184553')
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
sushi = interface.IERC20('0x6b3595068778dd592e39a122f4f5a5cf09c90fe2')
# sushiswap router
router = interface.IUniswapV2Router02(
'0xd9e1ce17f2641f24ae83637ab66a2cca9c378b9f')
chef = accounts.at('0xc2edad668740f1aa35e4d8f227fb8e17dca888cd',
force=True)
wchef = WMasterChef.deploy(chef, {'from': admin})
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([usdt, weth], [2**112 // 700, 2**112])
uniswap_oracle = UniswapV2Oracle.deploy(simple_oracle, {'from': admin})
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20, wchef], True, {'from': admin})
core_oracle.setRoute(
[usdt, weth, lp],
[simple_oracle, simple_oracle, uniswap_oracle],
{'from': admin},
)
oracle.setOracles(
[usdt, weth, lp],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(usdt, crusdt, {'from': admin})
# setup initial funds to alice
mint_tokens(usdt, alice)
mint_tokens(weth, alice)
# check alice's funds
print(f'Alice usdt balance {usdt.balanceOf(alice)}')
print(f'Alice weth balance {weth.balanceOf(alice)}')
# Steal some LP from the staking pool
mint_tokens(lp, alice)
mint_tokens(lp, bob)
# set approval
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': alice})
weth.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(chef, 2**256 - 1, {'from': bob})
sushiswap_spell = SushiswapSpellV1.deploy(homora, werc20, router, wchef,
{'from': admin})
# first time call to reduce gas
sushiswap_spell.getPair(weth, usdt, {'from': admin})
# whitelist spell in bank
homora.setWhitelistSpells([sushiswap_spell], [True], {'from': admin})
# whitelist lp in spell
sushiswap_spell.setWhitelistLPTokens([lp], [True], {'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1. add liquidity')
prevABal = usdt.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_wchef = lp.balanceOf(wchef)
if interface.IUniswapV2Pair(lp).token0() == usdt:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
usdt_amt = 10 * 10**6
weth_amt = 10**18
lp_amt = 0
borrow_usdt_amt = 0
borrow_weth_amt = 0
pid = 0
tx = homora.execute(
0,
sushiswap_spell,
sushiswap_spell.addLiquidityWMasterChef.encode_input(
usdt, # token 0
weth, # token 1
[
usdt_amt, # supply USDT
weth_amt, # supply WETH
lp_amt, # supply LP
borrow_usdt_amt, # borrow USDT
borrow_weth_amt, # borrow WETH
0, # borrow LP tokens
0, # min USDT
0
], # min WETH
pid,
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_wchef = lp.balanceOf(wchef)
if interface.IUniswapV2Pair(lp).token0() == usdt:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(sushiswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, totalDebt, totalShare = homora.getBankInfo(usdt)
print('bank usdt totalDebt', totalDebt)
print('bank usdt totalShare', totalShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('wchef prev LP balance', prevLPBal_wchef)
print('wchef cur LP balance', curLPBal_wchef)
print('prev usdt res', prevARes)
print('cur usdt res', curARes)
print('prev weth res', prevBRes)
print('cur weth res', curBRes)
# alice
assert almostEqual(curABal - prevABal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curBBal - prevBBal, -weth_amt), 'incorrect WETH amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert usdt.balanceOf(sushiswap_spell) == 0, 'non-zero spell USDT balance'
assert weth.balanceOf(sushiswap_spell) == 0, 'non-zero spell WETH balance'
assert lp.balanceOf(sushiswap_spell) == 0, 'non-zero spell LP balance'
assert totalDebt == borrow_usdt_amt
# check balance and pool reserves
assert curABal - prevABal - borrow_usdt_amt == - \
(curARes - prevARes), 'not all USDT tokens go to LP pool'
assert almostEqual(
curBBal - prevBBal - borrow_weth_amt,
-(curBRes - prevBRes)), 'not all WETH tokens go to LP pool'
# #####################################################################################
print(
'========================================================================='
)
print('Case 2. harvest first time')
prevSushiBalance = sushi.balanceOf(alice)
print('Alice SUSHI balance before harvest', prevSushiBalance)
_, _, collId, collSize = homora.getPositionInfo(1)
print('collSize', collSize)
# staking directly
prevSushi = sushi.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
pid = 0
tx = interface.IMasterChef(chef).deposit(pid, collSize, {'from': bob})
chain.mine(100)
tx = homora.execute(1, sushiswap_spell,
sushiswap_spell.harvestWMasterChef.encode_input(),
{'from': alice})
print('tx gas used', tx.gas_used)
curSushiBalance = sushi.balanceOf(alice)
print('Alice SUSHI balance after harvest', curSushiBalance)
receivedSushi = curSushiBalance - prevSushiBalance
# check with staking directly
pid = 0
tx = interface.IMasterChef(chef).withdraw(pid, collSize, {'from': bob})
receivedSushiFromStaking = sushi.balanceOf(bob) - prevSushi
print('receivedSushiFromStaking', receivedSushiFromStaking)
assert almostEqual(receivedSushi, receivedSushiFromStaking)
# #####################################################################################
print(
'========================================================================='
)
print('Case 3. harvest second time')
prevSushiBalance = sushi.balanceOf(alice)
print('Alice SUSHI balance before harvest', prevSushiBalance)
prevSushi = sushi.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
# staking directly
prevSushi = sushi.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
pid = 0
tx = interface.IMasterChef(chef).deposit(pid, collSize, {'from': bob})
chain.mine(100)
tx = homora.execute(1, sushiswap_spell,
sushiswap_spell.harvestWMasterChef.encode_input(),
{'from': alice})
print('tx gas used', tx.gas_used)
curSushiBalance = sushi.balanceOf(alice)
print('Alice SUSHI balance after harvest', curSushiBalance)
receivedSushi = curSushiBalance - prevSushiBalance
# check with staking directly
tx = interface.IMasterChef(chef).withdraw(pid, collSize, {'from': bob})
receivedSushiFromStaking = sushi.balanceOf(bob) - prevSushi
print('receivedSushiFromStaking', receivedSushiFromStaking)
assert almostEqual(receivedSushi, receivedSushiFromStaking)
def main():
deployer = accounts.at('0xB593d82d53e2c187dc49673709a6E9f806cdC835', force=True)
# deployer = accounts.load('gh')
werc20 = WERC20.at('0xe28D9dF7718b0b5Ba69E01073fE82254a9eD2F98')
wmas = WMasterChef.at('0x373ae78a14577682591E088F2E78EF1417612c68')
wliq = WLiquidityGauge.at('0xfdB4f97953150e47C8606758C13e70b5a789a7ec')
wsindex = WStakingRewards.at('0x713df2DDDA9C7d7bDa98A9f8fCd82c06c50fbd90')
wsperp = WStakingRewards.at('0xC4635854480ffF80F742645da0310e9e59795c63')
uni_kp3r_oracle = ERC20KP3ROracle.at('0x8E2A3777AB22e1c5f6d1fF2BcC6C4aA6aB1DeA14')
sushi_kp3r_oracle = ERC20KP3ROracle.deploy(
'0xf67Ab1c914deE06Ba0F264031885Ea7B276a7cDa', {'from': deployer})
core_oracle = CoreOracle.at('0x1E5BDdd0cDF8839d6b27b34927869eF0AD7bf692')
uni_oracle = UniswapV2Oracle.at('0x910aD02D355c2966e8dD8E32C890cD50DB29C3B9')
bal_oracle = BalancerPairOracle.at('0x8F93B0AA2643bf74ab38d6a5910fA82D2da02134')
crv_oracle = CurveOracle.at('0x04DE0E42B3b0483248deafE86C4F5428613b76Ff')
proxy_oracle = ProxyOracle.at('0x43c425fB2b00a991A51b18c217D749E393bF1AB2')
# pair token with oracle
from .tokens import Tokens
token_oracle_settings = [
# base tokens
[Tokens.weth, uni_kp3r_oracle],
[Tokens.dai, uni_kp3r_oracle],
[Tokens.usdc, uni_kp3r_oracle],
[Tokens.usdt, uni_kp3r_oracle],
[Tokens.dpi, uni_kp3r_oracle],
[Tokens.yfi, sushi_kp3r_oracle],
[Tokens.perp, uni_kp3r_oracle],
[Tokens.snx, sushi_kp3r_oracle],
[Tokens.susd, sushi_kp3r_oracle],
[Tokens.uni, uni_kp3r_oracle],
[Tokens.sushi, sushi_kp3r_oracle],
# lp tokens
[Tokens.uni_eth_yfi, uni_oracle],
[Tokens.sushi_eth_yfi, uni_oracle],
[Tokens.uni_eth_dpi, uni_oracle],
[Tokens.crv_3pool, crv_oracle],
[Tokens.sushi_eth_dpi, uni_oracle],
[Tokens.uni_eth_snx, uni_oracle],
[Tokens.uni_eth_susd, uni_oracle],
[Tokens.sushi_eth_susd, uni_oracle],
[Tokens.sushi_eth_snx, uni_oracle],
[Tokens.crv_susd, crv_oracle],
[Tokens.sushi_eth_sushi, uni_oracle],
[Tokens.uni_eth_uni, uni_oracle],
[Tokens.bal_perp_usdc, bal_oracle],
]
token_list, oracle_list = zip(*token_oracle_settings)
# re-route to new uniswap oracle
core_oracle.setRoute(token_list, oracle_list, {'from': deployer})
# re-set oracles
oracle_params = [
# base tokens
[Tokens.weth, [17158, 5828, 12500]],
[Tokens.dai, [10790, 9268, 12500]],
[Tokens.usdc, [10651, 9389, 12500]],
[Tokens.usdt, [10743, 9308, 12500]],
[Tokens.dpi, [16195, 6175, 12500]],
[Tokens.yfi, [29155, 3430, 12500]],
[Tokens.perp, [20042, 4989, 12500]],
[Tokens.snx, [18162, 5506, 12500]],
[Tokens.susd, [12129, 8245, 12500]],
[Tokens.uni, [16022, 6241, 12500]],
[Tokens.sushi, [19418, 5150, 12500]],
# lp tokens
[Tokens.uni_eth_dpi, [17158, 5828, 12500]],
[Tokens.uni_eth_yfi, [29155, 3430, 12500]],
[Tokens.uni_eth_snx, [18162, 5506, 12500]],
[Tokens.uni_eth_susd, [17158, 5828, 12500]],
[Tokens.uni_eth_uni, [17158, 5828, 12500]],
[Tokens.sushi_eth_dpi, [17158, 5828, 12500]],
[Tokens.sushi_eth_yfi, [29155, 3430, 12500]],
[Tokens.sushi_eth_snx, [18162, 5506, 12500]],
[Tokens.sushi_eth_susd, [17158, 5828, 12500]],
[Tokens.sushi_eth_sushi, [19418, 5150, 12500]],
[Tokens.bal_perp_usdc, [20042, 4989, 12500]],
[Tokens.crv_3pool, [10790, 9268, 12500]],
[Tokens.crv_susd, [12129, 8245, 12500]],
]
token_list_2, param_list = zip(*oracle_params)
proxy_oracle.setOracles(token_list_2, param_list, {'from': deployer})
print('DONE')
###########################################################
# test spells (UNCOMMENT TO TEST)
bank = HomoraBank.at('0x5f5Cd91070960D13ee549C9CC47e7a4Cd00457bb')
uniswap_spell = UniswapV2SpellV1.at('0xc671B7251a789de0835a2fa33c83c8D4afB39092')
sushiswap_spell = SushiswapSpellV1.at('0x21Fa95485f4571A3a0d0c396561cF4D8D13D445d')
balancer_spell = BalancerSpellV1.at('0x15B79c184A6a8E19a4CA1F637081270343E4D15D')
curve_spell = CurveSpellV1.at('0x42C750024E02816eE32EB2eB4DA79ff5BF343D30')
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
usdt = interface.IERC20Ex('0xdac17f958d2ee523a2206206994597c13d831ec7')
cyusdt = interface.IERC20Ex('0x48759f220ed983db51fa7a8c0d2aab8f3ce4166a')
homora = HomoraBank.deploy({'from': admin})
safebox = SafeBox.deploy(cyusdt, 'ibUSDTv2', 'ibUSDTv2', {'from': admin})
# set up funds to alice
mint_tokens(usdt, alice)
mint_tokens(usdt, bob)
# approve usdt
usdt.approve(safebox, 2**256 - 1, {'from': alice})
usdt.approve(cyusdt, 2**256 - 1, {'from': bob})
#################################################################
# check decimals
assert safebox.decimals() == cyusdt.decimals(), 'incorrect decimals'
#################################################################
# deposit
print('====================================')
print('Case 1. deposit')
prevUSDTAlice = usdt.balanceOf(alice)
prevUSDTBob = usdt.balanceOf(bob)
prevIBUSDTAlice = safebox.balanceOf(alice)
prevcyUSDTBob = cyusdt.balanceOf(bob)
alice_amt = 10**6
bob_amt = 10**6
safebox.deposit(alice_amt, {'from': alice})
chain.mine(20)
cyusdt.mint(bob_amt, {'from': bob})
curUSDTAlice = usdt.balanceOf(alice)
curUSDTBob = usdt.balanceOf(bob)
curIBUSDTAlice = safebox.balanceOf(alice)
curcyUSDTBob = cyusdt.balanceOf(bob)
print('∆ usdt alice', curUSDTAlice - prevUSDTAlice)
print('∆ usdt bob', curUSDTBob - prevUSDTBob)
print('∆ ibUSDT bal alice', curIBUSDTAlice - prevIBUSDTAlice)
print('∆ cyUSDT bal bob', curcyUSDTBob - prevcyUSDTBob)
print('calculated ibUSDT alice',
alice_amt * 10**18 // cyusdt.exchangeRateStored())
assert curUSDTAlice - prevUSDTAlice == -alice_amt, 'incorrect alice amount'
assert curUSDTBob - prevUSDTBob == -bob_amt, 'incorrect bob amount'
assert almostEqual(curIBUSDTAlice - prevIBUSDTAlice,
curcyUSDTBob - prevcyUSDTBob)
chain.mine(200)
#################################################################
# alice withdraws 1/3 & 2/3. bob withdraws all.
print('====================================')
print('Case 2. withdraw')
alice_withdraw_1 = safebox.balanceOf(alice) // 3
alice_withdraw_2 = safebox.balanceOf(alice) - alice_withdraw_1
bob_withdraw = cyusdt.balanceOf(bob) // 3
prevUSDTAlice = usdt.balanceOf(alice)
prevUSDTBob = usdt.balanceOf(bob)
prevIBUSDTAlice = safebox.balanceOf(alice)
prevcyUSDTBob = cyusdt.balanceOf(bob)
safebox.withdraw(alice_withdraw_1, {'from': alice})
chain.mine(20)
cyusdt.redeem(bob_withdraw, {'from': bob})
curUSDTAlice = usdt.balanceOf(alice)
curUSDTBob = usdt.balanceOf(bob)
curIBUSDTAlice = safebox.balanceOf(alice)
curcyUSDTBob = cyusdt.balanceOf(bob)
print('∆ usdt alice', curUSDTAlice - prevUSDTAlice)
print('∆ usdt bob', curUSDTBob - prevUSDTBob)
print('∆ ibUSDT bal alice', curIBUSDTAlice - prevIBUSDTAlice)
print('∆ cyUSDT bal bob', curcyUSDTBob - prevcyUSDTBob)
assert almostEqual(curUSDTAlice - prevUSDTAlice,
alice_amt // 3), 'incorrect alice withdraw usdt amount'
assert almostEqual(curUSDTBob - prevUSDTBob,
bob_amt // 3), 'incorrect bob withdraw usdt amount'
assert almostEqual(curIBUSDTAlice - prevIBUSDTAlice, curcyUSDTBob -
prevcyUSDTBob), 'incorrect withdraw amount'
chain.mine(20)
prevUSDTAlice = usdt.balanceOf(alice)
prevIBUSDTAlice = safebox.balanceOf(alice)
safebox.withdraw(alice_withdraw_2, {'from': alice})
curUSDTAlice = usdt.balanceOf(alice)
curIBUSDTAlice = safebox.balanceOf(alice)
print('∆ usdt alice', curUSDTAlice - prevUSDTAlice)
print('∆ usdt bob', curUSDTBob - prevUSDTBob)
print('∆ ibUSDT bal alice', curIBUSDTAlice - prevIBUSDTAlice)
print('∆ ibUSDT bal bob', curcyUSDTBob - prevcyUSDTBob)
assert almostEqual(curUSDTAlice - prevUSDTAlice, alice_amt * 2 //
3), 'incorrect alice second withdraw usdt amount'
def main():
admin = accounts[0]
alice = accounts[1]
usdt = interface.IERC20Ex('0xdAC17F958D2ee523a2206206994597C13D831ec7')
weth = interface.IERC20Ex('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2')
lp = interface.IERC20Ex('0x0d4a11d5EEaaC28EC3F61d100daF4d40471f1852')
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
router = interface.IUniswapV2Router02(
'0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D')
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx(
[usdt, weth], [9011535487953795006625883219171279625142296, 2**112])
uniswap_oracle = UniswapV2Oracle.deploy(simple_oracle, {'from': admin})
oracle = ProxyOracle.deploy({'from': admin})
oracle.setWhitelistERC1155([werc20], True, {'from': admin})
oracle.setOracles(
[
'0xdAC17F958D2ee523a2206206994597C13D831ec7', # USDT
'0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2', # WETH
'0x0d4a11d5EEaaC28EC3F61d100daF4d40471f1852', # USDT-WETH
],
[
[simple_oracle, 10000, 10000, 10000],
[simple_oracle, 10000, 10000, 10000],
[uniswap_oracle, 10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(usdt, crusdt, {'from': admin})
# setup initial funds 10^5 USDT + 10^4 WETH to alice
setup_transfer(
usdt,
accounts.at('0xbe0eb53f46cd790cd13851d5eff43d12404d33e8', force=True),
alice, 10**5 * 10**6)
setup_transfer(
weth,
accounts.at('0x397ff1542f962076d0bfe58ea045ffa2d347aca0', force=True),
alice, 10**4 * 10**18)
# setup initial funds 10^6 USDT + 10^5 WETH to homora bank
setup_transfer(
usdt,
accounts.at('0xbe0eb53f46cd790cd13851d5eff43d12404d33e8', force=True),
homora, 10**6 * 10**6)
setup_transfer(
weth,
accounts.at('0x397ff1542f962076d0bfe58ea045ffa2d347aca0', force=True),
homora, 10**4 * 10**18)
# check alice's funds
print(f'Alice usdt balance {usdt.balanceOf(alice)}')
print(f'Alice weth balance {weth.balanceOf(alice)}')
# Steal some LP from the staking pool
lp.transfer(
alice, 1 * 10**17, {
'from':
accounts.at('0x767ecb395def19ab8d1b2fcc89b3ddfbed28fd6b',
force=True)
})
lp.transfer(
homora, 2 * 10**17, {
'from':
accounts.at('0x767ecb395def19ab8d1b2fcc89b3ddfbed28fd6b',
force=True)
})
# set approval
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': alice})
weth.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
uniswap_spell = UniswapV2SpellV1.deploy(homora, werc20, router,
{'from': admin})
# first time call to reduce gas
uniswap_spell.getPair(weth, usdt, {'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1.')
prevABal = usdt.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevETHBal = alice.balance()
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
if interface.IUniswapV2Pair(lp).token0() == usdt:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
usdt_amt = 400 * 10**6
weth_amt = 10**18
eth_amt = 10**18
lp_amt = 1 * 10**16
borrow_usdt_amt = 1000 * 10**6
borrow_weth_amt = 0
tx = homora.execute(
0,
uniswap_spell,
uniswap_spell.addLiquidity.encode_input(
usdt, # token 0
weth, # token 1
[
usdt_amt, # supply USDT
weth_amt, # supply WETH
lp_amt, # supply LP
borrow_usdt_amt, # borrow USDT
borrow_weth_amt, # borrow WETH
0, # borrow LP tokens
0, # min USDT
0
], # min WETH
),
{
'from': alice,
'value': eth_amt
})
position_id = tx.return_value
print('position_id', position_id)
curABal = usdt.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curETHBal = alice.balance()
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
if interface.IUniswapV2Pair(lp).token0() == usdt:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, totalDebt, totalShare = homora.getBankInfo(usdt)
print('bank usdt totalDebt', totalDebt)
print('bank usdt totalShare', totalShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('werc20 prev LP balance', prevLPBal_werc20)
print('werc20 cur LP balance', curLPBal_werc20)
# alice
assert almostEqual(curABal - prevABal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curBBal - prevBBal, -weth_amt), 'incorrect WETH amt'
assert almostEqual(curETHBal - prevETHBal, -eth_amt), 'incorrect ETH amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert weth.balanceOf(uniswap_spell) == 0, 'non-zero spell WETH balance'
assert uniswap_spell.balance() == 0, 'non-zero spell ETH balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
assert totalDebt == borrow_usdt_amt
# check balance and pool reserves
assert curABal - prevABal - borrow_usdt_amt == - \
(curARes - prevARes), 'not all USDT tokens go to LP pool'
assert curBBal - prevBBal - borrow_weth_amt - eth_amt == - \
(curBRes - prevBRes), 'not all WETH tokens go to LP pool'
#####################################################################################
print(
'========================================================================='
)
print('Case 2.')
# remove liquidity from the same position
prevABal = usdt.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
prevETHBal = alice.balance()
if interface.IUniswapV2Pair(lp).token0() == usdt:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
lp_take_amt = 1 * 10**16
lp_want = 1 * 10**15
usdt_repay = 2**256 - 1 # max
weth_repay = 0
real_usdt_repay = homora.borrowBalanceStored(position_id, usdt)
tx = homora.execute(
position_id,
uniswap_spell,
uniswap_spell.removeLiquidity.encode_input(
usdt, # token 0
weth, # token 1
[
lp_take_amt, # take out LP tokens
lp_want, # withdraw LP tokens to wallet
usdt_repay, # repay USDT
weth_repay, # repay WETH
0, # repay LP
0, # min USDT
0
], # min WETH
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
curETHBal = alice.balance()
if interface.IUniswapV2Pair(lp).token0() == usdt:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('spell usdt balance', usdt.balanceOf(uniswap_spell))
print('spell weth balance', weth.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, totalDebt, totalShare = homora.getBankInfo(usdt)
print('bank usdt totalDebt', totalDebt)
print('bank usdt totalShare', totalShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev werc20 LP balance', prevLPBal_werc20)
print('cur werc20 LP balance', curLPBal_werc20)
# alice
assert almostEqual(curBBal - prevBBal, 0), 'incorrect WETH amt'
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# werc20
assert almostEqual(curLPBal_werc20 - prevLPBal_werc20,
-lp_take_amt), 'incorrect werc20 LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert weth.balanceOf(uniswap_spell) == 0, 'non-zero spell WETH balance'
assert uniswap_spell.balance() == 0, 'non-zero spell ETH balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
# check balance and pool reserves
assert almostEqual(
curABal - prevABal + real_usdt_repay,
-(curARes - prevARes)), 'inconsistent USDT from withdraw'
assert almostEqual(curBBal - prevBBal,
0), 'inconsistent WETH from withdraw'
assert almostEqual(curETHBal - prevETHBal + weth_repay,
-(curBRes - prevBRes)), 'inconsistent ETH from withdraw'
return tx
core_oracle.setRoute(
[dfd, dusd, lp],
[simple_oracle, simple_oracle, balancer_oracle],
{'from': admin},
)
oracle.setOracles(
[dfd, dusd, lp],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(dfd, crdfd, {'from': admin})
homora.addBank(dusd, crdusd, {'from': admin})
# setup initial funds to alice
mint_tokens(dfd, alice)
mint_tokens(dusd, alice)
# check alice's funds
print(f'Alice dusd balance {dusd.balanceOf(alice)}')
print(f'Alice dfd balance {dfd.balanceOf(alice)}')
# Steal some LP from the staking pool
mint_tokens(lp, alice)
def main():
admin = accounts[0]
alice = accounts[1]
usdt = interface.IERC20Ex('0xdAC17F958D2ee523a2206206994597C13D831ec7')
lpusdt = interface.IERC20Ex('0x0d4a11d5EEaaC28EC3F61d100daF4d40471f1852')
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
router = interface.IUniswapV2Router02(
'0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D')
erc20_oracle = ERC20KP3ROracle.deploy(KP3R_ADDRESS, {'from': admin})
lp_oracle = UniswapV2LPKP3ROracle.deploy(KP3R_ADDRESS, {'from': admin})
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
core_oracle.setRoute(
[
'0xdAC17F958D2ee523a2206206994597C13D831ec7', # USDT
'0x0d4a11d5EEaaC28EC3F61d100daF4d40471f1852', # USDT-ETH
],
[erc20_oracle, lp_oracle],
{'from': admin},
)
oracle.setOracles(
[
'0xdAC17F958D2ee523a2206206994597C13D831ec7', # USDT
'0x0d4a11d5EEaaC28EC3F61d100daF4d40471f1852', # USDT-ETH
],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(usdt, crusdt, {'from': admin})
# lpusdt.approve(homora, 2**256-1, {'from': alice})
# Steal some LP from the staking pool
lpusdt.transfer(
alice, 1 * 10**17, {
'from':
accounts.at('0x6C3e4cb2E96B01F4b866965A91ed4437839A121a',
force=True)
})
household_spell = HouseHoldSpell.deploy(homora, WETH_ADDRESS,
{'from': admin})
tx = homora.execute(
0, # position id
household_spell,
household_spell.putCollateral.encode_input(
'0x0d4a11d5EEaaC28EC3F61d100daF4d40471f1852', # USDT
'0.00001 ether', # valued at approximately $600
),
{'from': alice},
)
print('put collateral gas', tx.gas_used)
position_id = tx.return_value
print(homora.getCollateralETHValue(position_id),
homora.getBorrowETHValue(position_id))
tx = homora.execute(
position_id, # position id
household_spell,
household_spell.borrow.encode_input(
'0xdAC17F958D2ee523a2206206994597C13D831ec7', # USDT
'500000000', # $500
),
{'from': alice},
)
print('bal', usdt.balanceOf(alice))
print('put collateral gas', tx.gas_used)
_, _, _, totalDebt, totalShare = homora.getBankInfo(usdt)
print('bank usdt totalDebt', totalDebt)
print('bank usdt totalShare', totalShare)
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': accounts.at(homora, force=True)})
tx = homora.execute(
position_id, # position id
household_spell,
household_spell.repay.encode_input(
'0xdAC17F958D2ee523a2206206994597C13D831ec7', # USDT
'300000000', # $300
),
{'from': alice},
)
print('bal', usdt.balanceOf(alice))
print('repay gas', tx.gas_used)
def main():
admin = accounts[0]
alice = accounts[1]
dai = interface.IERC20Ex('0x6B175474E89094C44Da98b954EedeAC495271d0F')
usdc = interface.IERC20Ex('0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48')
usdt = interface.IERC20Ex('0xdAC17F958D2ee523a2206206994597C13D831ec7')
lp = interface.IERC20Ex('0x6c3f90f043a72fa612cbac8115ee7e52bde6e490')
pool = interface.ICurvePool('0xbEbc44782C7dB0a1A60Cb6fe97d0b483032FF1C7')
registry = interface.ICurveRegistry(
'0x7d86446ddb609ed0f5f8684acf30380a356b2b4c')
crdai = interface.ICErc20('0x92B767185fB3B04F881e3aC8e5B0662a027A1D9f')
crusdc = interface.ICErc20('0x44fbebd2f576670a6c33f6fc0b00aa8c5753b322')
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([dai, usdt, usdc, lp], [
9060553589188986552095106856227,
9002288773315920458132820329673073223442669,
9011535487953795006625883219171279625142296,
9002288773315920458132820329673
])
oracle = ProxyOracle.deploy({'from': admin})
oracle.setWhitelistERC1155([werc20], True, {'from': admin})
oracle.setOracles(
[
'0x6B175474E89094C44Da98b954EedeAC495271d0F', # DAI
'0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48', # USDC
'0xdAC17F958D2ee523a2206206994597C13D831ec7', # USDT
'0x6c3f90f043a72fa612cbac8115ee7e52bde6e490', # lp
],
[
[simple_oracle, 10000, 10000, 10000],
[simple_oracle, 10000, 10000, 10000],
[simple_oracle, 10000, 10000, 10000],
[simple_oracle, 10000, 10000, 10000],
],
{'from': admin},
)
# initialize
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
# add bank
homora.addBank(dai, crdai, {'from': admin})
homora.addBank(usdc, crusdc, {'from': admin})
homora.addBank(usdt, crusdt, {'from': admin})
# setup initial funds 10^6 USDT + 10^6 USDC + 10^6 DAI to alice
setup_transfer(
dai,
accounts.at('0xc3d03e4f041fd4cd388c549ee2a29a9e5075882f', force=True),
alice, 10**6 * 10**18)
setup_transfer(
usdc,
accounts.at('0xa191e578a6736167326d05c119ce0c90849e84b7', force=True),
alice, 10**6 * 10**6)
setup_transfer(
usdt,
accounts.at('0xbe0eb53f46cd790cd13851d5eff43d12404d33e8', force=True),
alice, 10**6 * 10**6)
# setup initial funds 10^6 USDT + 10^6 USDC + 10^6 DAI to homora bank
setup_transfer(
dai,
accounts.at('0xc3d03e4f041fd4cd388c549ee2a29a9e5075882f', force=True),
homora, 10**6 * 10**18)
setup_transfer(
usdc,
accounts.at('0x397ff1542f962076d0bfe58ea045ffa2d347aca0', force=True),
homora, 10**6 * 10**6)
setup_transfer(
usdt,
accounts.at('0xbe0eb53f46cd790cd13851d5eff43d12404d33e8', force=True),
homora, 10**6 * 10**6)
# check alice's funds
print(f'Alice dai balance {dai.balanceOf(alice)}')
print(f'Alice usdc balance {usdc.balanceOf(alice)}')
print(f'Alice usdt balance {usdt.balanceOf(alice)}')
# steal some LP from the staking pool
lp.transfer(
alice, 10**6 * 10**18, {
'from':
accounts.at('0x8038c01a0390a8c547446a0b2c18fc9aefecc10c',
force=True)
})
# set approval
dai.approve(homora, 2**256 - 1, {'from': alice})
dai.approve(crdai, 2**256 - 1, {'from': alice})
usdc.approve(homora, 2**256 - 1, {'from': alice})
usdc.approve(crusdc, 2**256 - 1, {'from': alice})
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
curve_spell = CurveSpellV1.deploy(homora, werc20, registry,
{'from': admin})
# set up pools
curve_spell.registerPool(lp)
# first time call to reduce gas
curve_spell.ensureApprove3(lp, {'from': admin})
#####################################################################################
# TODO: Test borrow 3 assets simultaneously
print(
'========================================================================='
)
print('Case 1.')
prevABal = dai.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevCBal = usdt.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
dai_amt = 20000 * 10**18 # 20000 DAI
usdc_amt = 50000 * 10**6 # 50000 USDC
usdt_amt = 40000 * 10**6 # 40000 USDT
lp_amt = 1 * 10**18
borrow_dai_amt = 2000 * 10**18 # 2000 DAI
borrow_usdc_amt = 200 * 10**6 # 200 USDC
borrow_usdt_amt = 0 # 1000 * 10**6 # 1000 USDT
borrow_lp_amt = 0
minLPMint = 0
tx = homora.execute(
0,
curve_spell,
curve_spell.addLiquidity3.encode_input(
lp, # LP
[dai_amt, usdc_amt, usdt_amt], # supply tokens
lp_amt, # supply LP
[borrow_dai_amt, borrow_usdc_amt, borrow_usdt_amt
], # borrow tokens
borrow_lp_amt, # borrow LP
minLPMint # min LP mint
),
{'from': alice})
position_id = tx.return_value
print('position_id', position_id)
print('tx gas used', tx.gas_used)
curABal = dai.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curCBal = usdt.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
print('spell lp balance', lp.balanceOf(curve_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta C balance', curCBal - prevCBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, daiDebt, daiDebtShare = homora.getBankInfo(dai)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, lpDebt, usdcDebtShare = homora.getBankInfo(usdc)
print('bank dai totalDebt', daiDebt)
print('bank dai totalShare', daiDebtShare)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('bank usdc totalDebt', usdcDebt)
print('bank usdc totalShare', usdcDebtShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('werc20 prev LP balance', prevLPBal_werc20)
print('werc20 cur LP balance', curLPBal_werc20)
# alice
assert almostEqual(curABal - prevABal, -dai_amt), 'incorrect DAI amt'
assert almostEqual(curBBal - prevBBal, -usdc_amt), 'incorrect USDC amt'
assert almostEqual(curCBal - prevCBal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curLPBal - prevLPBal, -lp_amt), 'incorrect LP amt'
# spell
assert dai.balanceOf(curve_spell) == 0, 'non-zero spell DAI balance'
assert usdc.balanceOf(curve_spell) == 0, 'non-zero spell USDC balance'
assert usdt.balanceOf(curve_spell) == 0, 'non-zero spell USDT balance'
assert lp.balanceOf(curve_spell) == 0, 'non-zero spell LP balance'
# debt
assert daiDebt == borrow_dai_amt
assert usdcDebt == borrow_usdc_amt
assert usdtDebt == borrow_usdt_amt
# #####################################################################################
print(
'========================================================================='
)
print('Case 2.')
# remove liquidity from the same position
prevABal = dai.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevCBal = usdt.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
_, _, _, collSize = homora.getPositionInfo(position_id)
lp_take_amt = 2**256 - 1 # max
lp_want = 1 * 10**17
dai_repay = 2**256 - 1 # max
usdc_repay = 2**256 - 1 # max
usdt_repay = 2**256 - 1 # max
lp_repay = 0
tx = homora.execute(
position_id,
curve_spell,
curve_spell.removeLiquidity3.encode_input(
lp, # LP token
lp_take_amt, # LP amount to take out
lp_want, # LP amount to withdraw to wallet
[dai_repay, usdc_repay, usdt_repay], # repay amounts
lp_repay, # repay LP amount
[0, 0, 0] # min amounts
),
{'from': alice})
position_id = tx.return_value
print('position_id', position_id)
print('tx gas used', tx.gas_used)
curABal = dai.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curCBal = usdt.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
print('spell lp balance', lp.balanceOf(curve_spell))
print('spell dai balance', dai.balanceOf(curve_spell))
print('spell usdc balance', usdc.balanceOf(curve_spell))
print('spell usdt balance', usdt.balanceOf(curve_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta C balance', curCBal - prevCBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, daiDebt, daiDebtShare = homora.getBankInfo(dai)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
print('bank dai totalDebt', daiDebt)
print('bank dai totalDebt', daiDebt)
print('bank usdc totalShare', usdcDebtShare)
print('bank usdc totalShare', usdcDebtShare)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev werc20 LP balance', prevLPBal_werc20)
print('cur werc20 LP balance', curLPBal_werc20)
print('coll size', collSize)
# alice
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# werc20
assert almostEqual(curLPBal_werc20 - prevLPBal_werc20,
-collSize), 'incorrect werc20 LP amt'
# spell
assert dai.balanceOf(curve_spell) == 0, 'non-zero spell DAI balance'
assert usdc.balanceOf(curve_spell) == 0, 'non-zero spell USDC balance'
assert usdt.balanceOf(curve_spell) == 0, 'non-zero spell USDT balance'
assert lp.balanceOf(curve_spell) == 0, 'non-zero spell LP balance'
# debt
assert usdcDebt == 0, 'usdcDebt should be 0'
assert daiDebt == 0, 'daiDebt should be 0'
assert usdtDebt == 0, 'usdtDebt should be 0'
return tx
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
dai = interface.IERC20Ex('0x6B175474E89094C44Da98b954EedeAC495271d0F')
usdc = interface.IERC20Ex('0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48')
usdt = interface.IERC20Ex('0xdAC17F958D2ee523a2206206994597C13D831ec7')
adai = interface.IERC20Ex('0x028171bCA77440897B824Ca71D1c56caC55b68A3')
ausdc = interface.IERC20Ex('0xBcca60bB61934080951369a648Fb03DF4F96263C')
ausdt = interface.IERC20Ex('0x3Ed3B47Dd13EC9a98b44e6204A523E766B225811')
lp = interface.IERC20Ex('0x6c3f90f043a72fa612cbac8115ee7e52bde6e490')
pool = interface.ICurvePool('0xbEbc44782C7dB0a1A60Cb6fe97d0b483032FF1C7')
lp_aave = interface.IERC20Ex('0xFd2a8fA60Abd58Efe3EeE34dd494cD491dC14900')
pool_aave = interface.ICurvePool(
'0xDeBF20617708857ebe4F679508E7b7863a8A8EeE')
registry = interface.ICurveRegistry(
'0x7d86446ddb609ed0f5f8684acf30380a356b2b4c')
crdai = interface.ICErc20('0x92B767185fB3B04F881e3aC8e5B0662a027A1D9f')
crusdc = interface.ICErc20('0x44fbebd2f576670a6c33f6fc0b00aa8c5753b322')
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
cradai = MockCErc20.deploy(adai, {'from': admin})
crausdc = MockCErc20.deploy(ausdc, {'from': admin})
crausdt = MockCErc20.deploy(ausdt, {'from': admin})
gauge = accounts.at('0xbFcF63294aD7105dEa65aA58F8AE5BE2D9d0952A',
force=True)
wgauge = WLiquidityGauge.deploy(
registry, '0xD533a949740bb3306d119CC777fa900bA034cd52',
{'from': admin})
crv = interface.IERC20Ex(wgauge.crv())
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([dai, usdt, usdc, adai, ausdc, ausdt], [
2**112 // 700, 2**112 // 700, 2**112 // 700, 2**112 // 700,
2**112 // 700, 2**112 // 700
])
curve_oracle = CurveOracle.deploy(simple_oracle, registry, {'from': admin})
curve_oracle.registerPool(lp) # update pool info
curve_oracle.registerPool(lp_aave) # update pool info
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20, wgauge], True, {'from': admin})
core_oracle.setRoute(
[dai, usdc, usdt, lp, adai, ausdc, ausdt, lp_aave],
[
simple_oracle, simple_oracle, simple_oracle, curve_oracle,
simple_oracle, simple_oracle, simple_oracle, curve_oracle
],
{'from': admin},
)
oracle.setOracles(
[dai, usdc, usdt, lp, adai, ausdc, ausdt, lp_aave],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
# initialize
homora = HomoraBank.deploy({'from': admin})
print('donator ether', accounts[5].balance())
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
# add bank
homora.addBank(dai, crdai, {'from': admin})
homora.addBank(usdc, crusdc, {'from': admin})
homora.addBank(usdt, crusdt, {'from': admin})
homora.addBank(adai, cradai, {'from': admin})
homora.addBank(ausdc, crausdc, {'from': admin})
homora.addBank(ausdt, crausdt, {'from': admin})
# setup initial funds 10^6 USDT + 10^6 USDC + 10^6 DAI to alice
mint_tokens(
dai,
alice,
)
mint_tokens(usdc, alice)
mint_tokens(usdt, alice)
mint_tokens(adai, alice)
mint_tokens(ausdc, alice)
mint_tokens(ausdt, alice)
# check alice's funds
print(f'Alice dai balance {dai.balanceOf(alice)}')
print(f'Alice usdc balance {usdc.balanceOf(alice)}')
print(f'Alice usdt balance {usdt.balanceOf(alice)}')
print(f'Alice adai balance {adai.balanceOf(alice)}')
print(f'Alice ausdc balance {ausdc.balanceOf(alice)}')
print(f'Alice ausdt balance {ausdt.balanceOf(alice)}')
# steal some LP from the staking pool
mint_tokens(lp, alice)
mint_tokens(lp, bob)
mint_tokens(lp_aave, alice)
# set approval
dai.approve(homora, 2**256 - 1, {'from': alice})
dai.approve(crdai, 2**256 - 1, {'from': alice})
usdc.approve(homora, 2**256 - 1, {'from': alice})
usdc.approve(crusdc, 2**256 - 1, {'from': alice})
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': alice})
adai.approve(homora, 2**256 - 1, {'from': alice})
adai.approve(cradai, 2**256 - 1, {'from': alice})
ausdc.approve(homora, 2**256 - 1, {'from': alice})
ausdc.approve(crausdc, 2**256 - 1, {'from': alice})
ausdt.approve(homora, 2**256 - 1, {'from': alice})
ausdt.approve(crausdt, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(gauge, 2**256 - 1, {'from': bob})
lp_aave.approve(homora, 2**256 - 1, {'from': alice})
curve_spell = CurveSpellV1.deploy(
homora, werc20, '0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2', wgauge,
{'from': admin})
# register gauge
wgauge.registerGauge(0, 0)
wgauge.registerGauge(25, 0)
# set up pools
curve_spell.getPool(lp)
curve_spell.getPool(lp_aave)
# first time call to reduce gas
curve_spell.ensureApproveN(lp, 3, {'from': admin})
curve_spell.ensureApproveN(lp_aave, 3, {'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1.')
prevABal = dai.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevCBal = usdt.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_gauge = lp.balanceOf(gauge)
dai_amt = 200 * 10**18
usdc_amt = 500 * 10**6
usdt_amt = 400 * 10**6
lp_amt = 1 * 10**18
borrow_dai_amt = 0
borrow_usdc_amt = 20 * 10**6
borrow_usdt_amt = 0
borrow_lp_amt = 0
minLPMint = 0
pid = 0
gid = 0
tx = homora.execute(
0,
curve_spell,
curve_spell.addLiquidity3.encode_input(
lp, # LP
[dai_amt, usdc_amt, usdt_amt], # supply tokens
lp_amt, # supply LP
[borrow_dai_amt, borrow_usdc_amt, borrow_usdt_amt
], # borrow tokens
borrow_lp_amt, # borrow LP
minLPMint, # min LP mint
pid,
gid),
{'from': alice})
curABal = dai.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curCBal = usdt.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_gauge = lp.balanceOf(gauge)
print('spell lp balance', lp.balanceOf(curve_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta C balance', curCBal - prevCBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, daiDebt, daiDebtShare = homora.getBankInfo(dai)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
_, _, _, lpDebt, usdcDebtShare = homora.getBankInfo(usdc)
print('bank dai totalDebt', daiDebt)
print('bank dai totalShare', daiDebtShare)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('bank usdc totalDebt', usdcDebt)
print('bank usdc totalShare', usdcDebtShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('gauge prev LP balance', prevLPBal_gauge)
print('gauge cur LP balance', curLPBal_gauge)
# alice
assert almostEqual(curABal - prevABal, -dai_amt), 'incorrect DAI amt'
assert almostEqual(curBBal - prevBBal, -usdc_amt), 'incorrect USDC amt'
assert almostEqual(curCBal - prevCBal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curLPBal - prevLPBal, -lp_amt), 'incorrect LP amt'
# spell
assert dai.balanceOf(curve_spell) == 0, 'non-zero spell DAI balance'
assert usdc.balanceOf(curve_spell) == 0, 'non-zero spell USDC balance'
assert usdt.balanceOf(curve_spell) == 0, 'non-zero spell USDT balance'
assert lp.balanceOf(curve_spell) == 0, 'non-zero spell LP balance'
# debt
assert daiDebt == borrow_dai_amt
assert usdcDebt == borrow_usdc_amt
assert usdtDebt == borrow_usdt_amt
_, _, collId, collSize = homora.getPositionInfo(1)
print('collSize', collSize)
# staking directly
prevCrv = crv.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
pid, gid = 0, 0
gauge, _ = wgauge.gauges(pid, gid)
tx = interface.ILiquidityGauge(gauge).deposit(collSize, {'from': bob})
chain.sleep(20000)
prevAliceCrvBalance = crv.balanceOf(alice)
print('Alice crv balance', prevAliceCrvBalance)
# #####################################################################################
print(
'========================================================================='
)
print('Case 2. add liquidity (failed tx desired)')
adai_amt = 200 * 10**18
ausdc_amt = 500 * 10**6
ausdt_amt = 400 * 10**6
lp_amt = 0
borrow_adai_amt = 0
borrow_ausdc_amt = 0
borrow_ausdt_amt = 0
borrow_lp_amt = 0
minLPMint = 0
pid = 0
gid = 0
try:
tx = homora.execute(
1,
curve_spell,
curve_spell.addLiquidity3.encode_input(
lp_aave, # LP_aave
[adai_amt, ausdc_amt, ausdt_amt], # supply tokens
lp_amt, # supply LP
[borrow_adai_amt, borrow_ausdc_amt, borrow_ausdt_amt
], # borrow tokens
borrow_lp_amt, # borrow LP
minLPMint, # min LP mint
pid,
gid),
{'from': alice})
assert False, 'tx should fail'
except VirtualMachineError:
pass
# #####################################################################################
print(
'========================================================================='
)
print('Case 3. add liquidity (failed tx desired)')
adai_amt = 200 * 10**18
ausdc_amt = 500 * 10**6
ausdt_amt = 400 * 10**6
lp_amt = 0
borrow_adai_amt = 0
borrow_ausdc_amt = 0
borrow_ausdt_amt = 0
borrow_lp_amt = 0
minLPMint = 0
pid = 25
gid = 0
try:
tx = homora.execute(
1,
curve_spell,
curve_spell.addLiquidity3.encode_input(
lp_aave, # LP_aave
[adai_amt, ausdc_amt, ausdt_amt], # supply tokens
lp_amt, # supply LP
[borrow_adai_amt, borrow_ausdc_amt, borrow_ausdt_amt
], # borrow tokens
borrow_lp_amt, # borrow LP
minLPMint, # min LP mint
pid,
gid),
{'from': alice})
assert False, 'tx should fail'
except VirtualMachineError:
pass
# #####################################################################################
print(
'========================================================================='
)
print('Case 4. remove liquidity (failed tx desired)')
lp_take_amt = 2**256 - 1 # max
lp_want = 1 * 10**17
adai_repay = 2**256 - 1 # max
ausdc_repay = 2**256 - 1 # max
ausdt_repay = 2**256 - 1 # max
lp_repay = 0
try:
tx = homora.execute(
1,
curve_spell,
curve_spell.removeLiquidity3.encode_input(
lp_aave, # LP_aave token
lp_take_amt, # LP amount to take out
lp_want, # LP amount to withdraw to wallet
[adai_repay, ausdc_repay, ausdt_repay], # repay amounts
lp_repay, # repay LP amount
[0, 0, 0] # min amounts
),
{'from': alice})
assert False, 'tx should revert'
except VirtualMachineError:
pass
# #####################################################################################
print(
'========================================================================='
)
print('Case 5. remove liqudiity')
# remove liquidity from the same position
prevABal = dai.balanceOf(alice)
prevBBal = usdc.balanceOf(alice)
prevCBal = usdt.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_gauge = lp.balanceOf(gauge)
_, _, _, collSize = homora.getPositionInfo(1)
lp_take_amt = 2**256 - 1 # max
lp_want = 1 * 10**17
dai_repay = 2**256 - 1 # max
usdc_repay = 2**256 - 1 # max
usdt_repay = 2**256 - 1 # max
lp_repay = 0
tx = homora.execute(
1,
curve_spell,
curve_spell.removeLiquidity3.encode_input(
lp, # LP token
lp_take_amt, # LP amount to take out
lp_want, # LP amount to withdraw to wallet
[dai_repay, usdc_repay, usdt_repay], # repay amounts
lp_repay, # repay LP amount
[0, 0, 0] # min amounts
),
{'from': alice})
curABal = dai.balanceOf(alice)
curBBal = usdc.balanceOf(alice)
curCBal = usdt.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_gauge = lp.balanceOf(gauge)
print('spell lp balance', lp.balanceOf(curve_spell))
print('spell dai balance', dai.balanceOf(curve_spell))
print('spell usdc balance', usdc.balanceOf(curve_spell))
print('spell usdt balance', usdt.balanceOf(curve_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta C balance', curCBal - prevCBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, daiDebt, daiDebtShare = homora.getBankInfo(dai)
_, _, _, usdcDebt, usdcDebtShare = homora.getBankInfo(usdc)
_, _, _, usdtDebt, usdtDebtShare = homora.getBankInfo(usdt)
print('bank dai totalDebt', daiDebt)
print('bank dai totalDebt', daiDebt)
print('bank usdc totalShare', usdcDebtShare)
print('bank usdc totalShare', usdcDebtShare)
print('bank usdt totalDebt', usdtDebt)
print('bank usdt totalShare', usdtDebtShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev gauge LP balance', prevLPBal_gauge)
print('cur gauge LP balance', curLPBal_gauge)
print('coll size', collSize)
# alice
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# gauge
assert almostEqual(curLPBal_gauge - prevLPBal_gauge,
-collSize), 'incorrect gauge LP amt'
# spell
assert dai.balanceOf(curve_spell) == 0, 'non-zero spell DAI balance'
assert usdc.balanceOf(curve_spell) == 0, 'non-zero spell USDC balance'
assert usdt.balanceOf(curve_spell) == 0, 'non-zero spell USDT balance'
assert lp.balanceOf(curve_spell) == 0, 'non-zero spell LP balance'
# debt
assert usdcDebt == 0, 'usdcDebt should be 0'
assert daiDebt == 0, 'daiDebt should be 0'
assert usdtDebt == 0, 'usdtDebt should be 0'
curAliceCrvBalance = crv.balanceOf(alice)
print('Alice crv balance', curAliceCrvBalance)
receivedCrv = curAliceCrvBalance - prevAliceCrvBalance
print('received crv', receivedCrv)
# check with staking directly
minter = interface.ILiquidityGaugeMinter(
interface.ILiquidityGauge(gauge).minter())
print('minter', minter)
tx = minter.mint(gauge, {'from': bob})
print('tx status', tx.status)
tx = interface.ILiquidityGauge(gauge).withdraw(collSize, {'from': bob})
receivedCrvFromGauge = crv.balanceOf(bob) - prevCrv
print('receivedCrvFromGauge', receivedCrvFromGauge)
assert almostEqual(receivedCrv, receivedCrvFromGauge)
return tx
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
weth = interface.IERC20Ex('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2')
cyweth = interface.IERC20Ex('0x41c84c0e2ee0b740cf0d31f63f3b6f627dc6b393')
homora = HomoraBank.deploy({'from': admin})
safebox = SafeBoxETH.deploy(cyweth, 'ibETHv2', 'ibETHv2', {'from': admin})
# set up funds to alice
mint_tokens(weth, alice)
mint_tokens(weth, bob)
weth.approve(cyweth, 2**256-1, {'from': bob})
#################################################################
# check decimals
assert safebox.decimals() == cyweth.decimals(), 'incorrect decimals'
#################################################################
# deposit
print('====================================')
print('Case 1. deposit')
prevETHAlice = alice.balance()
prevWETHBob = weth.balanceOf(bob)
prevIBETHAlice = safebox.balanceOf(alice)
prevcyWETHBob = cyweth.balanceOf(bob)
alice_amt = 10**18
bob_amt = 10**18
safebox.deposit({'from': alice, 'value': alice_amt})
chain.mine(20)
cyweth.mint(bob_amt, {'from': bob})
curETHAlice = alice.balance()
curWETHBob = weth.balanceOf(bob)
curIBETHAlice = safebox.balanceOf(alice)
curcyWETHBob = cyweth.balanceOf(bob)
print('∆ eth alice', curETHAlice - prevETHAlice)
print('∆ weth bob', curWETHBob - prevWETHBob)
print('∆ ibETH bal alice', curIBETHAlice - prevIBETHAlice)
print('∆ cyWETH bal bob', curcyWETHBob - prevcyWETHBob)
print('calculated ibETH alice', alice_amt * 10**18 // cyweth.exchangeRateStored())
print('calculated ibETH bob', bob_amt * 10**18 // cyweth.exchangeRateStored())
assert curETHAlice - prevETHAlice == -alice_amt, 'incorrect alice amount'
assert curWETHBob - prevWETHBob == -bob_amt, 'incorrect bob amount'
assert almostEqual(curIBETHAlice - prevIBETHAlice, curcyWETHBob - prevcyWETHBob)
chain.mine(200)
#################################################################
# alice withdraws 1/3 & 2/3. bob withdraws all.
print('====================================')
print('Case 2. withdraw')
alice_withdraw_1 = safebox.balanceOf(alice) // 3
alice_withdraw_2 = safebox.balanceOf(alice) - alice_withdraw_1
bob_withdraw = cyweth.balanceOf(bob) // 3
prevETHAlice = alice.balance()
prevWETHBob = weth.balanceOf(bob)
prevIBETHAlice = safebox.balanceOf(alice)
prevcyWETHBob = cyweth.balanceOf(bob)
safebox.withdraw(alice_withdraw_1, {'from': alice})
chain.mine(20)
cyweth.redeem(bob_withdraw, {'from': bob})
curETHAlice = alice.balance()
curWETHBob = weth.balanceOf(bob)
curIBETHAlice = safebox.balanceOf(alice)
curcyWETHBob = cyweth.balanceOf(bob)
print('∆ eth alice', curETHAlice - prevETHAlice)
print('∆ weth bob', curWETHBob - prevWETHBob)
print('∆ ibETH bal alice', curIBETHAlice - prevIBETHAlice)
print('∆ cyWETH bal bob', curcyWETHBob - prevcyWETHBob)
assert almostEqual(curETHAlice - prevETHAlice, alice_amt //
3), 'incorrect alice withdraw eth amount'
assert almostEqual(curWETHBob - prevWETHBob, bob_amt // 3), 'incorrect bob withdraw eth amount'
assert almostEqual(curIBETHAlice - prevIBETHAlice, curcyWETHBob -
prevcyWETHBob), 'incorrect withdraw amount'
chain.mine(20)
prevETHAlice = alice.balance()
prevIBETHAlice = safebox.balanceOf(alice)
safebox.withdraw(alice_withdraw_2, {'from': alice})
curETHAlice = alice.balance()
curIBETHAlice = safebox.balanceOf(alice)
print('∆ eth alice', curETHAlice - prevETHAlice)
print('∆ ibETH bal alice', curIBETHAlice - prevIBETHAlice)
assert almostEqual(curETHAlice - prevETHAlice, alice_amt * 2 //
3), 'incorrect second withdraw'
def main():
admin = accounts[0]
alice = accounts[1]
usdt = interface.IERC20Ex('0xdAC17F958D2ee523a2206206994597C13D831ec7')
weth = interface.IERC20Ex('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2')
lp = interface.IERC20Ex('0x0d4a11d5EEaaC28EC3F61d100daF4d40471f1852')
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
router = interface.IUniswapV2Router02(
'0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D')
chef = accounts.at('0xc2edad668740f1aa35e4d8f227fb8e17dca888cd',
force=True)
wchef = WMasterChef.deploy(chef, {'from': admin})
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx(
[usdt, weth], [9011535487953795006625883219171279625142296, 2**112])
uniswap_oracle = UniswapV2Oracle.deploy(simple_oracle, {'from': admin})
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20], True, {'from': admin})
core_oracle.setRoute(
[usdt, weth, lp],
[simple_oracle, simple_oracle, uniswap_oracle],
{'from': admin},
)
oracle.setOracles(
[usdt, weth, lp],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(usdt, crusdt, {'from': admin})
# setup initial funds to alice
mint_tokens(usdt, alice)
mint_tokens(weth, alice)
# check alice's funds
print(f'Alice usdt balance {usdt.balanceOf(alice)}')
print(f'Alice weth balance {weth.balanceOf(alice)}')
# Steal some LP from the staking pool
mint_tokens(lp, alice)
# set approval
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': alice})
weth.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
uniswap_spell = UniswapV2SpellV1.deploy(homora, werc20, router,
{'from': admin})
# first time call to reduce gas
uniswap_spell.getPair(weth, usdt, {'from': admin})
# whitelist spell in bank
homora.setWhitelistSpells([uniswap_spell], [True], {'from': admin})
# whitelist lp in spell
uniswap_spell.setWhitelistLPTokens([lp], [True], {'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1.')
prevABal = usdt.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
if interface.IUniswapV2Pair(lp).token0() == usdt:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
usdt_amt = 400 * 10**6
weth_amt = 10**18
lp_amt = 1 * 10**16
borrow_usdt_amt = 0
borrow_weth_amt = 0
tx = homora.execute(
0,
uniswap_spell,
uniswap_spell.addLiquidityWERC20.encode_input(
usdt, # token 0
weth, # token 1
[
usdt_amt, # supply USDT
weth_amt, # supply WETH
lp_amt, # supply LP
borrow_usdt_amt, # borrow USDT
borrow_weth_amt, # borrow WETH
0, # borrow LP tokens
0, # min USDT
0
], # min WETH
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
if interface.IUniswapV2Pair(lp).token0() == usdt:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, totalDebt, totalShare = homora.getBankInfo(usdt)
print('bank usdt totalDebt', totalDebt)
print('bank usdt totalShare', totalShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('werc20 prev LP balance', prevLPBal_werc20)
print('werc20 cur LP balance', curLPBal_werc20)
print('prev usdt res', prevARes)
print('cur usdt res', curARes)
print('prev weth res', prevBRes)
print('cur weth res', curBRes)
# alice
assert almostEqual(curABal - prevABal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curBBal - prevBBal, -weth_amt), 'incorrect WETH amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert weth.balanceOf(uniswap_spell) == 0, 'non-zero spell WETH balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
assert totalDebt == borrow_usdt_amt
# check balance and pool reserves
assert curABal - prevABal - borrow_usdt_amt == - \
(curARes - prevARes), 'not all USDT tokens go to LP pool'
assert almostEqual(
curBBal - prevBBal - borrow_weth_amt,
-(curBRes - prevBRes)), 'not all WETH tokens go to LP pool'
#####################################################################################
print(
'========================================================================='
)
print('Case 2.')
# remove liquidity from the same position
prevABal = usdt.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_werc20 = lp.balanceOf(werc20)
prevETHBal = alice.balance()
if interface.IUniswapV2Pair(lp).token0() == usdt:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
lp_take_amt = 1 * 10**16
lp_want = 1 * 10**15
usdt_repay = 2**256 - 1 # max
weth_repay = 0
real_usdt_repay = homora.borrowBalanceStored(1, usdt)
tx = homora.execute(
1,
uniswap_spell,
uniswap_spell.removeLiquidityWERC20.encode_input(
usdt, # token 0
weth, # token 1
[
lp_take_amt, # take out LP tokens
lp_want, # withdraw LP tokens to wallet
usdt_repay, # repay USDT
0, # repay WETH
0, # repay LP
0, # min USDT
0
], # min WETH
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_werc20 = lp.balanceOf(werc20)
curETHBal = alice.balance()
if interface.IUniswapV2Pair(lp).token0() == usdt:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(uniswap_spell))
print('spell usdt balance', usdt.balanceOf(uniswap_spell))
print('spell weth balance', weth.balanceOf(uniswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, totalDebt, totalShare = homora.getBankInfo(usdt)
print('bank usdt totalDebt', totalDebt)
print('bank usdt totalShare', totalShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev werc20 LP balance', prevLPBal_werc20)
print('cur werc20 LP balance', curLPBal_werc20)
print('real usdt repay', real_usdt_repay)
# alice
assert almostEqual(curBBal - prevBBal, 0), 'incorrect WETH amt'
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# werc20
assert almostEqual(curLPBal_werc20 - prevLPBal_werc20,
-lp_take_amt), 'incorrect werc20 LP amt'
# spell
assert usdt.balanceOf(uniswap_spell) == 0, 'non-zero spell USDT balance'
assert weth.balanceOf(uniswap_spell) == 0, 'non-zero spell WETH balance'
assert lp.balanceOf(uniswap_spell) == 0, 'non-zero spell LP balance'
# check balance and pool reserves
assert almostEqual(
curABal - prevABal + real_usdt_repay,
-(curARes - prevARes)), 'inconsistent USDT from withdraw'
assert almostEqual(curBBal - prevBBal,
0), 'inconsistent WETH from withdraw'
assert almostEqual(curETHBal - prevETHBal + weth_repay,
-(curBRes - prevBRes)), 'inconsistent ETH from withdraw'
return tx
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
usdt = interface.IERC20Ex('0xdac17f958d2ee523a2206206994597c13d831ec7')
weth = interface.IERC20Ex('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2')
usdc = interface.IERC20Ex('0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48')
lp = interface.IERC20Ex('0x06da0fd433C1A5d7a4faa01111c044910A184553')
lp_usdc = interface.IERC20Ex('0x3041cbd36888becc7bbcbc0045e3b1f144466f5f')
crusdt = interface.ICErc20('0x797AAB1ce7c01eB727ab980762bA88e7133d2157')
crusdc = interface.ICErc20('0x44fbebd2f576670a6c33f6fc0b00aa8c5753b322')
sushi = interface.IERC20('0x6b3595068778dd592e39a122f4f5a5cf09c90fe2')
# sushiswap router
router = interface.IUniswapV2Router02(
'0xd9e1ce17f2641f24ae83637ab66a2cca9c378b9f')
chef = accounts.at('0xc2edad668740f1aa35e4d8f227fb8e17dca888cd',
force=True)
wchef = WMasterChef.deploy(chef, {'from': admin})
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([usdt, weth, usdc],
[2**112 // 700, 2**112, 2**112 // 700])
uniswap_oracle = UniswapV2Oracle.deploy(simple_oracle, {'from': admin})
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20, wchef], True, {'from': admin})
core_oracle.setRoute(
[usdt, weth, lp, usdc, lp_usdc],
[
simple_oracle, simple_oracle, uniswap_oracle, simple_oracle,
uniswap_oracle
],
{'from': admin},
)
oracle.setOracles(
[usdt, weth, lp, usdc, lp_usdc],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(usdt, crusdt, {'from': admin})
homora.addBank(usdc, crusdc, {'from': admin})
# setup initial funds to alice
mint_tokens(usdt, alice)
mint_tokens(weth, alice)
mint_tokens(usdc, alice)
# check alice's funds
print(f'Alice usdt balance {usdt.balanceOf(alice)}')
print(f'Alice weth balance {weth.balanceOf(alice)}')
# Steal some LP from the staking pool
mint_tokens(lp, alice)
mint_tokens(lp, bob)
# set approval
usdt.approve(homora, 2**256 - 1, {'from': alice})
usdt.approve(crusdt, 2**256 - 1, {'from': alice})
usdc.approve(homora, 2**256 - 1, {'from': alice})
usdc.approve(crusdc, 2**256 - 1, {'from': alice})
weth.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(chef, 2**256 - 1, {'from': bob})
sushiswap_spell = SushiswapSpellV1.deploy(homora, werc20, router, wchef,
{'from': admin})
# first time call to reduce gas
sushiswap_spell.getPair(weth, usdt, {'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1. add liquidity first time')
prevABal = usdt.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_chef = lp.balanceOf(chef)
if interface.IUniswapV2Pair(lp).token0() == usdt:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
usdt_amt = 10 * 10**6
weth_amt = 10**18
lp_amt = 0
borrow_usdt_amt = 0
borrow_weth_amt = 0
pid = 0
tx = homora.execute(
0,
sushiswap_spell,
sushiswap_spell.addLiquidityWMasterChef.encode_input(
usdt, # token 0
weth, # token 1
[
usdt_amt, # supply USDT
weth_amt, # supply WETH
lp_amt, # supply LP
borrow_usdt_amt, # borrow USDT
borrow_weth_amt, # borrow WETH
0, # borrow LP tokens
0, # min USDT
0
], # min WETH
pid,
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_chef = lp.balanceOf(chef)
if interface.IUniswapV2Pair(lp).token0() == usdt:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(sushiswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, totalDebt, totalShare = homora.getBankInfo(usdt)
print('bank usdt totalDebt', totalDebt)
print('bank usdt totalShare', totalShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('chef prev LP balance', prevLPBal_chef)
print('chef cur LP balance', curLPBal_chef)
print('prev usdt res', prevARes)
print('cur usdt res', curARes)
print('prev weth res', prevBRes)
print('cur weth res', curBRes)
# alice
assert almostEqual(curABal - prevABal, -usdt_amt), 'incorrect USDT amt'
assert almostEqual(curBBal - prevBBal, -weth_amt), 'incorrect WETH amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert usdt.balanceOf(sushiswap_spell) == 0, 'non-zero spell USDT balance'
assert weth.balanceOf(sushiswap_spell) == 0, 'non-zero spell WETH balance'
assert lp.balanceOf(sushiswap_spell) == 0, 'non-zero spell LP balance'
assert totalDebt == borrow_usdt_amt
# check balance and pool reserves
assert curABal - prevABal - borrow_usdt_amt == - \
(curARes - prevARes), 'not all USDT tokens go to LP pool'
assert almostEqual(
curBBal - prevBBal - borrow_weth_amt,
-(curBRes - prevBRes)), 'not all WETH tokens go to LP pool'
_, _, collId, collSize = homora.getPositionInfo(1)
print('collSize', collSize)
# staking directly
prevSushi = sushi.balanceOf(bob)
pid = 0
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
tx = interface.IMasterChef(chef).deposit(pid, collSize, {'from': bob})
chain.sleep(20000)
prevAliceSushiBalance = sushi.balanceOf(alice)
print('Alice sushi balance', prevAliceSushiBalance)
#####################################################################################
print(
'========================================================================='
)
print('Case 2. add liquidity (failed tx desired)')
usdc_amt = 10 * 10**6
weth_amt = 10**18
lp_amt = 0
borrow_usdc_amt = 0
borrow_weth_amt = 0
pid = 0
try:
tx = homora.execute(
1,
sushiswap_spell,
sushiswap_spell.addLiquidityWMasterChef.encode_input(
usdc, # token 0
weth, # token 1
[
usdc_amt, # supply USDC
weth_amt, # supply WETH
lp_amt, # supply LP
borrow_usdc_amt, # borrow USDC
borrow_weth_amt, # borrow WETH
0, # borrow LP tokens
0, # min USDC
0
], # min WETH
pid,
),
{'from': alice})
assert False, 'tx not fail'
except VirtualMachineError:
pass
#####################################################################################
print(
'========================================================================='
)
print('Case 3. remove liquidity (failed tx desired)')
lp_take_amt = collSize
lp_want = 0
usdc_repay = 0
weth_repay = 0
try:
tx = homora.execute(
1,
sushiswap_spell,
sushiswap_spell.removeLiquidityWMasterChef.encode_input(
usdc, # token 0
weth, # token 1
[
lp_take_amt, # take out LP tokens
lp_want, # withdraw LP tokens to wallet
usdc_repay, # repay USDC
weth_repay, # repay WETH
0, # repay LP tokens
0, # min USDC
0
], # min WETH
),
{'from': alice})
assert False, 'tx not failed'
except VirtualMachineError:
pass
#####################################################################################
print(
'========================================================================='
)
print('Case 4. remove liquidity')
prevABal = usdt.balanceOf(alice)
prevBBal = weth.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_chef = lp.balanceOf(chef)
prevETHBal = alice.balance()
if interface.IUniswapV2Pair(lp).token0() == usdt:
prevARes, prevBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
prevBRes, prevARes, _ = interface.IUniswapV2Pair(lp).getReserves()
lp_take_amt = collSize
lp_want = 0
usdt_repay = 0
weth_repay = 0
pid = 0
tx = homora.execute(
1,
sushiswap_spell,
sushiswap_spell.removeLiquidityWMasterChef.encode_input(
usdt, # token 0
weth, # token 1
[
lp_take_amt, # take out LP tokens
lp_want, # withdraw LP tokens to wallet
usdt_repay, # repay USDT
weth_repay, # repay WETH
0, # repay LP tokens
0, # min USDT
0
], # min WETH
),
{'from': alice})
curABal = usdt.balanceOf(alice)
curBBal = weth.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_chef = lp.balanceOf(chef)
curETHBal = alice.balance()
if interface.IUniswapV2Pair(lp).token0() == usdt:
curARes, curBRes, _ = interface.IUniswapV2Pair(lp).getReserves()
else:
curBRes, curARes, _ = interface.IUniswapV2Pair(lp).getReserves()
print('spell lp balance', lp.balanceOf(sushiswap_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, totalDebt, totalShare = homora.getBankInfo(usdt)
print('bank usdt totalDebt', totalDebt)
print('bank usdt totalShare', totalShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('chef prev LP balance', prevLPBal_chef)
print('chef cur LP balance', curLPBal_chef)
print('prev usdt res', prevARes)
print('cur usdt res', curARes)
print('prev weth res', prevBRes)
print('cur weth res', curBRes)
# alice
assert almostEqual(curBBal - prevBBal, 0), 'incorrect WETH amt'
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# chef
assert almostEqual(curLPBal_chef - prevLPBal_chef,
-lp_take_amt), 'incorrect chef LP amt'
# spell
assert usdt.balanceOf(sushiswap_spell) == 0, 'non-zero spell USDT balance'
assert weth.balanceOf(sushiswap_spell) == 0, 'non-zero spell WETH balance'
assert lp.balanceOf(sushiswap_spell) == 0, 'non-zero spell LP balance'
# check balance and pool reserves
assert almostEqual(
curABal - prevABal + usdt_repay,
-(curARes - prevARes)), 'inconsistent USDT from withdraw'
assert almostEqual(curBBal - prevBBal,
0), 'inconsistent WETH from withdraw'
assert almostEqual(curETHBal - prevETHBal + weth_repay,
-(curBRes - prevBRes)), 'inconsistent ETH from withdraw'
curAliceSushiBalance = sushi.balanceOf(alice)
print('Alice sushi balance', curAliceSushiBalance)
receivedSushi = curAliceSushiBalance - prevAliceSushiBalance
print('received sushi', receivedSushi)
# check with staking directly
pid = 0
tx = interface.IMasterChef(chef).withdraw(pid, collSize, {'from': bob})
receivedSushiFromStaking = sushi.balanceOf(bob) - prevSushi
print('receivedSushiFromStaking', receivedSushiFromStaking)
assert almostEqual(receivedSushi, receivedSushiFromStaking)
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
renbtc = interface.IERC20Ex('0xeb4c2781e4eba804ce9a9803c67d0893436bb27d')
wbtc = interface.IERC20Ex('0x2260fac5e5542a773aa44fbcfedf7c193bc2c599')
eurs = interface.IERC20Ex('0xdB25f211AB05b1c97D595516F45794528a807ad8')
seur = interface.IERC20Ex('0xD71eCFF9342A5Ced620049e616c5035F1dB98620')
lp = interface.IERC20Ex('0x49849C98ae39Fff122806C06791Fa73784FB3675')
pool = interface.ICurvePool('0x93054188d876f558f4a66B2EF1d97d16eDf0895B')
lp_eurs = interface.IERC20Ex('0x194eBd173F6cDacE046C53eACcE9B953F28411d1')
pool_eurs = interface.ICurvePool(
'0x0Ce6a5fF5217e38315f87032CF90686C96627CAA')
registry = interface.ICurveRegistry(
'0x7d86446ddb609ed0f5f8684acf30380a356b2b4c')
crrenbtc = MockCErc20.deploy(renbtc, {'from': admin})
crwbtc = MockCErc20.deploy(wbtc, {'from': admin})
creurs = MockCErc20.deploy(eurs, {'from': admin})
crseur = MockCErc20.deploy(seur, {'from': admin})
gauge = accounts.at('0xB1F2cdeC61db658F091671F5f199635aEF202CAC',
force=True)
wgauge = WLiquidityGauge.deploy(
registry, '0xD533a949740bb3306d119CC777fa900bA034cd52',
{'from': admin})
crv = interface.IERC20Ex(wgauge.crv())
werc20 = WERC20.deploy({'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx(
[renbtc, wbtc, eurs, seur],
[2**112 * 30, 2**112 * 30, 2**112 // 700, 2**112 // 700])
curve_oracle = CurveOracle.deploy(simple_oracle, registry, {'from': admin})
curve_oracle.registerPool(lp) # update pool info
curve_oracle.registerPool(lp_eurs) # update pool info
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20, wgauge], True, {'from': admin})
core_oracle.setRoute(
[renbtc, wbtc, lp, eurs, seur, lp_eurs],
[
simple_oracle, simple_oracle, curve_oracle, simple_oracle,
simple_oracle, curve_oracle
],
{'from': admin},
)
oracle.setOracles(
[renbtc, wbtc, lp, eurs, seur, lp_eurs],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
# initialize
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
# add bank
homora.addBank(renbtc, crrenbtc, {'from': admin})
homora.addBank(wbtc, crwbtc, {'from': admin})
homora.addBank(eurs, creurs, {'from': admin})
homora.addBank(seur, crseur, {'from': admin})
# setup initial funds to alice
mint_tokens(renbtc, alice)
mint_tokens(wbtc, alice)
mint_tokens(eurs, alice)
mint_tokens(seur, alice)
mint_tokens(wbtc, crwbtc)
# check alice's funds
print(f'Alice renbtc balance {renbtc.balanceOf(alice)}')
print(f'Alice wbtc balance {wbtc.balanceOf(alice)}')
print(f'Alice eurs balance {eurs.balanceOf(alice)}')
print(f'Alice seur balance {seur.balanceOf(alice)}')
# steal some LP from the staking pool
mint_tokens(lp, alice)
mint_tokens(lp, bob)
mint_tokens(lp_eurs, alice)
# set approval
renbtc.approve(homora, 2**256 - 1, {'from': alice})
renbtc.approve(crrenbtc, 2**256 - 1, {'from': alice})
wbtc.approve(homora, 2**256 - 1, {'from': alice})
wbtc.approve(crwbtc, 2**256 - 1, {'from': alice})
eurs.approve(homora, 2**256 - 1, {'from': alice})
eurs.approve(creurs, 2**256 - 1, {'from': alice})
seur.approve(homora, 2**256 - 1, {'from': alice})
seur.approve(crseur, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(gauge, 2**256 - 1, {'from': bob})
lp_eurs.approve(homora, 2**256 - 1, {'from': alice})
curve_spell = CurveSpellV1.deploy(
homora, werc20, '0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2', wgauge,
{'from': admin})
# register gauge
wgauge.registerGauge(9, 0)
wgauge.registerGauge(23, 0)
# set up pools
curve_spell.getPool(lp)
curve_spell.getPool(lp_eurs)
# first time call to reduce gas
curve_spell.ensureApproveN(lp, 2, {'from': admin})
curve_spell.ensureApproveN(lp_eurs, 2, {'from': admin})
# whitelist spell in bank
homora.setWhitelistSpells([curve_spell], [True], {'from': admin})
# whitelist lp in spell
curve_spell.setWhitelistLPTokens([lp, lp_eurs], [True, True],
{'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1.')
prevABal = renbtc.balanceOf(alice)
prevBBal = wbtc.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_gauge = lp.balanceOf(gauge)
renbtc_amt = 1 * 10**7
wbtc_amt = 1 * 10**7
lp_amt = 10**13
borrow_renbtc_amt = 0
borrow_wbtc_amt = 0
borrow_lp_amt = 0
minLPMint = 0
pid = 9
gid = 0
tx = homora.execute(
0,
curve_spell,
curve_spell.addLiquidity2.encode_input(
lp, # LP
[renbtc_amt, wbtc_amt], # supply tokens
lp_amt, # supply LP
[borrow_renbtc_amt, borrow_wbtc_amt], # borrow tokens
borrow_lp_amt, # borrow LP
minLPMint, # min LP mint
pid,
gid),
{'from': alice})
curABal = renbtc.balanceOf(alice)
curBBal = wbtc.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_gauge = lp.balanceOf(gauge)
print('spell lp balance', lp.balanceOf(curve_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, renbtcDebt, renbtcDebtShare = homora.getBankInfo(renbtc)
_, _, _, wbtcDebt, wbtcDebtShare = homora.getBankInfo(wbtc)
print('bank renbtc totalDebt', renbtcDebt)
print('bank renbtc totalShare', renbtcDebtShare)
print('bank wbtc totalDebt', wbtcDebt)
print('bank wbtc totalShare', wbtcDebtShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('gauge prev LP balance', prevLPBal_gauge)
print('gauge cur LP balance', curLPBal_gauge)
# alice
assert almostEqual(curABal - prevABal, -renbtc_amt), 'incorrect renbtc amt'
assert almostEqual(curBBal - prevBBal, -wbtc_amt), 'incorrect wbtc amt'
assert almostEqual(curLPBal - prevLPBal, -lp_amt), 'incorrect LP amt'
# spell
assert renbtc.balanceOf(curve_spell) == 0, 'non-zero spell renbtc balance'
assert wbtc.balanceOf(curve_spell) == 0, 'non-zero spell wbtc balance'
assert lp.balanceOf(curve_spell) == 0, 'non-zero spell LP balance'
# debt
assert renbtcDebt == borrow_renbtc_amt
assert wbtcDebt == borrow_wbtc_amt
_, _, collId, collSize = homora.getPositionInfo(1)
print('collSize', collSize)
# staking directly
prevCrv = crv.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
pid, gid = 9, 0
gauge, _ = wgauge.gauges(pid, gid)
print('gauge address', gauge)
tx = interface.ILiquidityGauge(gauge).deposit(collSize, {'from': bob})
chain.sleep(20000)
prevAliceCrvBalance = crv.balanceOf(alice)
print('Alice crv balance', prevAliceCrvBalance)
# #####################################################################################
print(
'========================================================================='
)
print('Case 2. add liquidity (failed tx desired)')
eurs_amt = 1 * 10**3
seur_amt = 1 * 10**3
lp_amt = 0
borrow_eurs_amt = 0
borrow_seur_amt = 0
borrow_lp_amt = 0
minLPMint = 0
pid = 9
gid = 0
try:
tx = homora.execute(
1,
curve_spell,
curve_spell.addLiquidity2.encode_input(
lp_eurs, # lp_eurs
[eurs_amt, seur_amt], # supply tokens
lp_amt, # supply LP
[borrow_eurs_amt, borrow_seur_amt], # borrow tokens
borrow_lp_amt, # borrow LP
minLPMint, # min LP mint
pid,
gid),
{'from': alice})
assert False, 'tx should fail'
except VirtualMachineError:
pass
# #####################################################################################
print(
'========================================================================='
)
print('Case 3. add liquidity (failed tx desired)')
eurs_amt = 1 * 10**3
seur_amt = 1 * 10**3
lp_amt = 0
borrow_eurs_amt = 0
borrow_seur_amt = 0
borrow_lp_amt = 0
minLPMint = 0
pid = 23
gid = 0
try:
tx = homora.execute(
1,
curve_spell,
curve_spell.addLiquidity2.encode_input(
lp_eurs, # lp_eurs
[eurs_amt, seur_amt], # supply tokens
lp_amt, # supply LP
[borrow_eurs_amt, borrow_seur_amt], # borrow tokens
borrow_lp_amt, # borrow LP
minLPMint, # min LP mint
pid,
gid),
{'from': alice})
assert False, 'tx should fail'
except VirtualMachineError:
pass
# #####################################################################################
print(
'========================================================================='
)
print('Case 4. remove liquidity (failed tx desired)')
lp_take_amt = 2**256 - 1 # max
lp_want = 1 * 10**17
eurs_repay = 2**256 - 1 # max
seur_repay = 2**256 - 1 # max
lp_repay = 0
try:
tx = homora.execute(
1,
curve_spell,
curve_spell.removeLiquidity2.encode_input(
lp_eurs, # lp_eurs token
lp_take_amt, # LP amount to take out
lp_want, # LP amount to withdraw to wallet
[eurs_repay, seur_repay], # repay amounts
lp_repay, # repay LP amount
[0, 0] # min amounts
),
{'from': alice})
assert False, 'tx should revert'
except VirtualMachineError:
pass
# #####################################################################################
print(
'========================================================================='
)
print('Case 5. remove liquidity')
# remove liquidity from the same position
prevABal = renbtc.balanceOf(alice)
prevBBal = wbtc.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_gauge = lp.balanceOf(gauge)
_, _, _, collSize = homora.getPositionInfo(1)
lp_take_amt = 2**256 - 1 # max
lp_want = 1 * 10**12
renbtc_repay = 2**256 - 1 # max
wbtc_repay = 2**256 - 1 # max
lp_repay = 0
tx = homora.execute(
1,
curve_spell,
curve_spell.removeLiquidity2.encode_input(
lp, # LP token
lp_take_amt, # LP amount to take out
lp_want, # LP amount to withdraw to wallet
[renbtc_repay, wbtc_repay], # repay amounts
lp_repay, # repay LP amount
[0, 0] # min amounts
),
{'from': alice})
curABal = renbtc.balanceOf(alice)
curBBal = wbtc.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_gauge = lp.balanceOf(gauge)
print('spell lp balance', lp.balanceOf(curve_spell))
print('spell renbtc balance', renbtc.balanceOf(curve_spell))
print('spell wbtc balance', wbtc.balanceOf(curve_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('Alice delta LP balance', curLPBal - prevLPBal)
print('remove liquidity gas', tx.gas_used)
print('bank delta lp balance', curLPBal_bank - prevLPBal_bank)
print('bank total lp balance', curLPBal_bank)
_, _, _, renbtcDebt, renbtcDebtShare = homora.getBankInfo(renbtc)
_, _, _, wbtcDebt, wbtcDebtShare = homora.getBankInfo(wbtc)
print('bank renbtc totalDebt', renbtcDebt)
print('bank renbtc totalDebt', renbtcDebt)
print('bank wbtc totalShare', wbtcDebtShare)
print('bank wbtc totalShare', wbtcDebtShare)
print('LP want', lp_want)
print('bank delta LP amount', curLPBal_bank - prevLPBal_bank)
print('LP take amount', lp_take_amt)
print('prev gauge LP balance', prevLPBal_gauge)
print('cur gauge LP balance', curLPBal_gauge)
print('coll size', collSize)
# alice
assert almostEqual(curLPBal - prevLPBal, lp_want), 'incorrect LP amt'
# gauge
assert almostEqual(curLPBal_gauge - prevLPBal_gauge,
-collSize), 'incorrect gauge LP amt'
# spell
assert renbtc.balanceOf(curve_spell) == 0, 'non-zero spell renbtc balance'
assert wbtc.balanceOf(curve_spell) == 0, 'non-zero spell wbtc balance'
assert lp.balanceOf(curve_spell) == 0, 'non-zero spell LP balance'
# debt
assert wbtcDebt == 0, 'wbtcDebt should be 0'
assert renbtcDebt == 0, 'renbtcDebt should be 0'
curAliceCrvBalance = crv.balanceOf(alice)
print('Alice crv balance', curAliceCrvBalance)
receivedCrv = curAliceCrvBalance - prevAliceCrvBalance
print('received crv', receivedCrv)
# check with staking directly
minter = interface.ILiquidityGaugeMinter(
interface.ILiquidityGauge(gauge).minter())
print('minter', minter)
tx = minter.mint(gauge, {'from': bob})
print('tx status', tx.status)
tx = interface.ILiquidityGauge(gauge).withdraw(collSize, {'from': bob})
receivedCrvFromGauge = crv.balanceOf(bob) - prevCrv
print('receivedCrvFromGauge', receivedCrvFromGauge)
assert almostEqual(receivedCrv, receivedCrvFromGauge)
return tx
def main():
deployer = accounts.at('0xB593d82d53e2c187dc49673709a6E9f806cdC835', force=True)
# deployer = accounts.load('gh')
werc20 = WERC20.deploy({'from': deployer})
wmas = WMasterChef.deploy(MASTERCHEF, {'from': deployer})
wliq = WLiquidityGauge.deploy(CRV_REGISTRY, CRV_TOKEN, {'from': deployer})
wsindex = WStakingRewards.deploy(
'0xB93b505Ed567982E2b6756177ddD23ab5745f309',
'0x4d5ef58aAc27d99935E5b6B4A6778ff292059991', # UNI DPI-WETH
'0x0954906da0Bf32d5479e25f46056d22f08464cab', # INDEX
{'from': deployer},
)
wsperp = WStakingRewards.deploy(
'0xb9840a4a8a671f79de3df3b812feeb38047ce552',
'0xF54025aF2dc86809Be1153c1F20D77ADB7e8ecF4', # BAL PERP-USDC 80-20
'0xbC396689893D065F41bc2C6EcbeE5e0085233447', # PERP
{'from': deployer},
)
kp3r_oracle = ERC20KP3ROracle.deploy(KP3R_NETWORK, {'from': deployer})
core_oracle = CoreOracle.deploy({'from': deployer})
uni_oracle = UniswapV2Oracle.deploy(core_oracle, {'from': deployer})
bal_oracle = BalancerPairOracle.deploy(core_oracle, {'from': deployer})
crv_oracle = CurveOracle.deploy(core_oracle, CRV_REGISTRY, {'from': deployer})
proxy_oracle = ProxyOracle.deploy(core_oracle, {'from': deployer})
core_oracle.setRoute([
'0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE', # ETH
'0xc02aaa39b223fe8d0a0e5c4f27ead9083c756cc2', # WETH
'0x6b175474e89094c44da98b954eedeac495271d0f', # DAI
'0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48', # USDC
'0xdac17f958d2ee523a2206206994597c13d831ec7', # USDT
'0x2260fac5e5542a773aa44fbcfedf7c193bc2c599', # WBTC
'0x1494ca1f11d487c2bbe4543e90080aeba4ba3c2b', # DPI
'0xbC396689893D065F41bc2C6EcbeE5e0085233447', # PERP
'0xc011a73ee8576fb46f5e1c5751ca3b9fe0af2a6f', # SNX
'0xa478c2975ab1ea89e8196811f51a7b7ade33eb11', # UNI DAI-WETH
'0x0d4a11d5eeaac28ec3f61d100daf4d40471f1852', # UNI WETH-USDT
'0xb4e16d0168e52d35cacd2c6185b44281ec28c9dc', # UNI USDC-WETH
'0xbb2b8038a1640196fbe3e38816f3e67cba72d940', # UNI WBTC-WETH
'0x4d5ef58aac27d99935e5b6b4a6778ff292059991', # UNI DPI-WETH
'0x06da0fd433c1a5d7a4faa01111c044910a184553', # SUSHI WETH-USDT
'0x8b6e6e7b5b3801fed2cafd4b22b8a16c2f2db21a', # BAL WETH-DAI 80-20
'0xf54025af2dc86809be1153c1f20d77adb7e8ecf4', # BAL PERP-USDC 80-20
'0x6c3f90f043a72fa612cbac8115ee7e52bde6e490', # CRV 3-POOL
], [
kp3r_oracle,
kp3r_oracle,
kp3r_oracle,
kp3r_oracle,
kp3r_oracle,
kp3r_oracle,
kp3r_oracle,
kp3r_oracle,
kp3r_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
uni_oracle,
bal_oracle,
bal_oracle,
crv_oracle,
], {'from': deployer})
proxy_oracle.setOracles([
'0xc02aaa39b223fe8d0a0e5c4f27ead9083c756cc2', # WETH
'0x6b175474e89094c44da98b954eedeac495271d0f', # DAI
'0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48', # USDC
'0xdac17f958d2ee523a2206206994597c13d831ec7', # USDT
'0x2260fac5e5542a773aa44fbcfedf7c193bc2c599', # WBTC
'0x1494ca1f11d487c2bbe4543e90080aeba4ba3c2b', # DPI
'0xbC396689893D065F41bc2C6EcbeE5e0085233447', # PERP
'0xc011a73ee8576fb46f5e1c5751ca3b9fe0af2a6f', # SNX
'0xa478c2975ab1ea89e8196811f51a7b7ade33eb11', # UNI DAI-WETH
'0x0d4a11d5eeaac28ec3f61d100daf4d40471f1852', # UNI WETH-USDT
'0xb4e16d0168e52d35cacd2c6185b44281ec28c9dc', # UNI USDC-WETH
'0xbb2b8038a1640196fbe3e38816f3e67cba72d940', # UNI WBTC-WETH
'0x4d5ef58aac27d99935e5b6b4a6778ff292059991', # UNI DPI-WETH
'0x06da0fd433c1a5d7a4faa01111c044910a184553', # SUSHI WETH-USDT
'0x8b6e6e7b5b3801fed2cafd4b22b8a16c2f2db21a', # BAL WETH-DAI 80-20
'0xf54025af2dc86809be1153c1f20d77adb7e8ecf4', # BAL PERP-USDC 80-20
'0x6c3f90f043a72fa612cbac8115ee7e52bde6e490', # CRV 3-POOL
], [
[12500, 8000, 10250],
[10500, 9500, 10250],
[10500, 9500, 10250],
[10500, 9500, 10250],
[12500, 8000, 10250],
[50000, 0, 10250],
[50000, 0, 10250],
[50000, 0, 10250],
[50000, 8000, 10250],
[50000, 8000, 10250],
[50000, 8000, 10250],
[50000, 8000, 10250],
[50000, 6000, 10250],
[50000, 8000, 10250],
[50000, 8000, 10250],
[50000, 0, 10250],
[50000, 9500, 10250],
], {'from': deployer})
proxy_oracle.setWhitelistERC1155(
[werc20, wmas, wliq, wsindex, wsperp],
True,
{'from': deployer},
)
bank = HomoraBank.at('0x5f5Cd91070960D13ee549C9CC47e7a4Cd00457bb')
bank.setOracle(proxy_oracle, {'from': deployer})
wliq.registerGauge(0, 0, {'from': deployer})
uniswap_spell = UniswapV2SpellV1.deploy(
bank, werc20, '0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D',
{'from': deployer},
)
sushiswap_spell = SushiswapSpellV1.deploy(
bank, werc20, '0xd9e1ce17f2641f24ae83637ab66a2cca9c378b9f', wmas,
{'from': deployer},
)
balancer_spell = BalancerSpellV1.deploy(
bank, werc20, '0xc02aaa39b223fe8d0a0e5c4f27ead9083c756cc2',
{'from': deployer},
)
curve_spell = CurveSpellV1.deploy(
bank, werc20, '0xc02aaa39b223fe8d0a0e5c4f27ead9083c756cc2', wliq,
{'from': deployer},
)
# register 3pool
crv_oracle.registerPool('0x6c3f90f043a72fa612cbac8115ee7e52bde6e490')
print('DONE')
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
dai = interface.IERC20Ex('0x6B175474E89094C44Da98b954EedeAC495271d0F')
cydai = interface.IERC20Ex('0x8e595470ed749b85c6f7669de83eae304c2ec68f')
homora = HomoraBank.deploy({'from': admin})
safebox = SafeBox.deploy(cydai, 'Yearn Wrapped DAI', 'cyDAI',
{'from': admin})
# set up funds to alice
mint_tokens(dai, alice)
mint_tokens(dai, bob)
# approve dai
dai.approve(safebox, 2**256 - 1, {'from': alice})
dai.approve(safebox, 2**256 - 1, {'from': bob})
#################################################################
# deposit
print('====================================')
print('Case 1. deposit')
prevDAIAlice = dai.balanceOf(alice)
prevDAIBob = dai.balanceOf(bob)
prevIBDAIAlice = safebox.balanceOf(alice)
prevIBDAIBob = safebox.balanceOf(bob)
alice_amt = 10**18
bob_amt = 10**18
safebox.deposit(alice_amt, {'from': alice})
chain.mine(20)
safebox.deposit(bob_amt, {'from': bob})
curDAIAlice = dai.balanceOf(alice)
curDAIBob = dai.balanceOf(bob)
curIBDAIAlice = safebox.balanceOf(alice)
curIBDAIBob = safebox.balanceOf(bob)
print('∆ dai alice', curDAIAlice - prevDAIAlice)
print('∆ dai bob', curDAIBob - prevDAIBob)
print('∆ ibDAI bal alice', curIBDAIAlice - prevIBDAIAlice)
print('∆ ibDAI bal bob', curIBDAIBob - prevIBDAIBob)
print('calculated ibDAI alice',
alice_amt * 10**18 // cydai.exchangeRateStored())
print('calculated ibDAI bob',
bob_amt * 10**18 // cydai.exchangeRateStored())
assert curDAIAlice - prevDAIAlice == -alice_amt, 'incorrect alice amount'
assert curDAIBob - prevDAIBob == -bob_amt, 'incorrect bob amount'
assert almostEqual(curIBDAIAlice - prevIBDAIAlice,
alice_amt * 10**18 // cydai.exchangeRateStored())
assert almostEqual(curIBDAIBob - prevIBDAIBob,
bob_amt * 10**18 // cydai.exchangeRateStored())
chain.mine(200)
#################################################################
# alice withdraws 1/3 & 2/3. bob withdraws all.
print('====================================')
print('Case 2. withdraw')
alice_withdraw_1 = safebox.balanceOf(alice) // 3
alice_withdraw_2 = safebox.balanceOf(alice) - alice_withdraw_1
bob_withdraw = safebox.balanceOf(bob)
prevDAIAlice = dai.balanceOf(alice)
prevDAIBob = dai.balanceOf(bob)
prevIBDAIAlice = safebox.balanceOf(alice)
prevIBDAIBob = safebox.balanceOf(bob)
safebox.withdraw(alice_withdraw_1, {'from': alice})
chain.mine(20)
safebox.withdraw(bob_withdraw, {'from': bob})
curDAIAlice = dai.balanceOf(alice)
curDAIBob = dai.balanceOf(bob)
curIBDAIAlice = safebox.balanceOf(alice)
curIBDAIBob = safebox.balanceOf(bob)
print('∆ dai alice', curDAIAlice - prevDAIAlice)
print('∆ dai bob', curDAIBob - prevDAIBob)
print('∆ ibDAI bal alice', curIBDAIAlice - prevIBDAIAlice)
print('∆ ibDAI bal bob', curIBDAIBob - prevIBDAIBob)
assert almostEqual(curDAIAlice - prevDAIAlice,
alice_amt // 3), 'incorrect alice withdraw dai amount'
assert almostEqual(curDAIBob - prevDAIBob,
bob_amt), 'incorrect bob withdraw dai amount'
assert curIBDAIAlice - prevIBDAIAlice == -alice_withdraw_1, 'incorrect alice ∆ibDAI'
assert curIBDAIBob - prevIBDAIBob == -bob_withdraw, 'incorrect bob ∆ibDAI'
chain.mine(20)
prevDAIAlice = dai.balanceOf(alice)
prevIBDAIAlice = safebox.balanceOf(alice)
safebox.withdraw(alice_withdraw_2, {'from': alice})
curDAIAlice = dai.balanceOf(alice)
curIBDAIAlice = safebox.balanceOf(alice)
print('∆ dai alice', curDAIAlice - prevDAIAlice)
print('∆ dai bob', curDAIBob - prevDAIBob)
print('∆ ibDAI bal alice', curIBDAIAlice - prevIBDAIAlice)
print('∆ ibDAI bal bob', curIBDAIBob - prevIBDAIBob)
assert almostEqual(curDAIAlice - prevDAIAlice, alice_amt * 2 //
3), 'incorrect alice second withdraw dai amount'
assert curIBDAIAlice - prevIBDAIAlice == -alice_withdraw_2, 'incorrect alice second ∆ibDAI '
def main():
admin = accounts[0]
alice = accounts[1]
bob = accounts[2]
dfd = interface.IERC20Ex('0x20c36f062a31865bED8a5B1e512D9a1A20AA333A')
dusd = interface.IERC20Ex('0x5BC25f649fc4e26069dDF4cF4010F9f706c23831')
lp = interface.IERC20Ex('0xd8e9690eff99e21a2de25e0b148ffaf47f47c972')
# pool is lp for balancer
pool = interface.IBalancerPool(
'0xd8e9690eff99e21a2de25e0b148ffaf47f47c972')
crdfd = MockCErc20.deploy(dfd, {'from': admin})
crdusd = MockCErc20.deploy(dusd, {'from': admin})
werc20 = WERC20.deploy({'from': admin})
staking = accounts.at('0xf068236ecad5fabb9883bbb26a6445d6c7c9a924',
force=True)
wstaking = WStakingRewards.deploy(staking, lp, dfd, {'from': admin})
simple_oracle = SimpleOracle.deploy({'from': admin})
simple_oracle.setETHPx([dfd, dusd],
[2**112 // 2 // 700, 2**112 * 2 // 700])
balancer_oracle = BalancerPairOracle.deploy(simple_oracle, {'from': alice})
core_oracle = CoreOracle.deploy({'from': admin})
oracle = ProxyOracle.deploy(core_oracle, {'from': admin})
oracle.setWhitelistERC1155([werc20, wstaking], True, {'from': admin})
core_oracle.setRoute(
[dfd, dusd, lp],
[simple_oracle, simple_oracle, balancer_oracle],
{'from': admin},
)
oracle.setOracles(
[dfd, dusd, lp],
[
[10000, 10000, 10000],
[10000, 10000, 10000],
[10000, 10000, 10000],
],
{'from': admin},
)
homora = HomoraBank.deploy({'from': admin})
homora.initialize(oracle, 1000, {'from': admin}) # 10% fee
setup_bank_hack(homora)
homora.addBank(dfd, crdfd, {'from': admin})
homora.addBank(dusd, crdusd, {'from': admin})
# setup initial funds to alice
mint_tokens(dfd, alice)
mint_tokens(dusd, alice)
# check alice's funds
print(f'Alice dusd balance {dusd.balanceOf(alice)}')
print(f'Alice dfd balance {dfd.balanceOf(alice)}')
# Steal some LP from the staking pool
mint_tokens(lp, alice)
mint_tokens(lp, bob)
# set approval
dfd.approve(homora, 2**256 - 1, {'from': alice})
dfd.approve(crdfd, 2**256 - 1, {'from': alice})
dusd.approve(homora, 2**256 - 1, {'from': alice})
dusd.approve(crdusd, 2**256 - 1, {'from': alice})
lp.approve(homora, 2**256 - 1, {'from': alice})
lp.approve(staking, 2**256 - 1, {'from': bob})
balancer_spell = BalancerSpellV1.deploy(
homora, werc20, '0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2',
{'from': admin})
# first time call to reduce gas
balancer_spell.getPair(lp, {'from': admin})
#####################################################################################
print(
'========================================================================='
)
print('Case 1.')
prevABal = dfd.balanceOf(alice)
prevBBal = dusd.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_staking = lp.balanceOf(staking)
prevARes = interface.IBalancerPool(lp).getBalance(dfd)
prevBRes = interface.IBalancerPool(lp).getBalance(dusd)
dfd_amt = 100 * 10**18
dusd_amt = 10**18
lp_amt = 0
borrow_dfd_amt = 0
borrow_dusd_amt = 0
# calculate slippage control
total_dfd_amt = dfd_amt + borrow_dfd_amt
total_dusd_amt = dusd_amt + borrow_dusd_amt
dfd_weight = 0.58
dusd_weight = 0.42
ratio = (((prevARes + total_dfd_amt) / prevARes) ** dfd_weight) * \
(((prevBRes + total_dusd_amt) / prevBRes) ** dusd_weight) - 1
lp_desired = lp_amt + int(
interface.IERC20(lp).totalSupply() * ratio * 0.995)
print('lp desired', lp_desired)
tx = homora.execute(
0,
balancer_spell,
balancer_spell.addLiquidityWStakingRewards.encode_input(
lp, # lp token
[
dfd_amt, # supply DFD
dusd_amt, # supply DUSD
lp_amt, # supply LP
borrow_dfd_amt, # borrow DFD
borrow_dusd_amt, # borrow DUSD
0, # borrow LP tokens
lp_desired
], # LP desired
wstaking),
{'from': alice})
curABal = dfd.balanceOf(alice)
curBBal = dusd.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_staking = lp.balanceOf(staking)
curARes = interface.IBalancerPool(lp).getBalance(dfd)
curBRes = interface.IBalancerPool(lp).getBalance(dusd)
print('spell lp balance', lp.balanceOf(balancer_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, dfdDebt, dfdShare = homora.getBankInfo(dfd)
print('bank dfd dfdDebt', dfdDebt)
print('bank dfd dfdShare', dfdShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('staking prev LP balance', prevLPBal_staking)
print('staking cur LP balance', curLPBal_staking)
print('prev dfd res', prevARes)
print('cur dfd res', curARes)
print('prev dusd res', prevBRes)
print('cur dusd res', curBRes)
# alice
assert almostEqual(curABal - prevABal, -dfd_amt), 'incorrect DFD amt'
assert almostEqual(curBBal - prevBBal, -dusd_amt), 'incorrect DUSD amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert dfd.balanceOf(balancer_spell) == 0, 'non-zero spell DFD balance'
assert dusd.balanceOf(balancer_spell) == 0, 'non-zero spell DUSD balance'
assert lp.balanceOf(balancer_spell) == 0, 'non-zero spell LP balance'
assert dfdDebt == borrow_dfd_amt
# check balance and pool reserves
assert almostEqual(
curABal - prevABal - borrow_dfd_amt,
-(curARes - prevARes)), 'not all DFD tokens go to LP pool'
assert almostEqual(
curBBal - prevBBal - borrow_dusd_amt,
-(curBRes - prevBRes)), 'not all DUSD tokens go to LP pool'
_, _, collId, collSize = homora.getPositionInfo(1)
print('collSize', collSize)
# staking directly
prevDfd = dfd.balanceOf(bob)
print('bob lp balance', interface.IERC20Ex(lp).balanceOf(bob))
tx = interface.IStakingRewards(staking).stake(collSize, {'from': bob})
chain.sleep(20000)
prevAliceDfdBalance = dfd.balanceOf(alice)
print('Alice dfd balance', prevAliceDfdBalance)
#####################################################################################
print(
'========================================================================='
)
print('Case 2. add liquidity the second time')
prevABal = dfd.balanceOf(alice)
prevBBal = dusd.balanceOf(alice)
prevLPBal = lp.balanceOf(alice)
prevLPBal_bank = lp.balanceOf(homora)
prevLPBal_staking = lp.balanceOf(staking)
prevARes = interface.IBalancerPool(lp).getBalance(dfd)
prevBRes = interface.IBalancerPool(lp).getBalance(dusd)
dfd_amt = 100 * 10**18
dusd_amt = 10**18
lp_amt = 0
borrow_dfd_amt = 0
borrow_dusd_amt = 0
# calculate slippage control
total_dfd_amt = dfd_amt + borrow_dfd_amt
total_dusd_amt = dusd_amt + borrow_dusd_amt
dfd_weight = 0.58
dusd_weight = 0.42
ratio = (((prevARes + total_dfd_amt) / prevARes) ** dfd_weight) * \
(((prevBRes + total_dusd_amt) / prevBRes) ** dusd_weight) - 1
lp_desired = lp_amt + int(
interface.IERC20(lp).totalSupply() * ratio * 0.995)
print('lp desired', lp_desired)
tx = homora.execute(
1,
balancer_spell,
balancer_spell.addLiquidityWStakingRewards.encode_input(
lp, # lp token
[
dfd_amt, # supply DFD
dusd_amt, # supply DUSD
lp_amt, # supply LP
borrow_dfd_amt, # borrow DFD
borrow_dusd_amt, # borrow DUSD
0, # borrow LP tokens
lp_desired
], # LP desired
wstaking),
{'from': alice})
curABal = dfd.balanceOf(alice)
curBBal = dusd.balanceOf(alice)
curLPBal = lp.balanceOf(alice)
curLPBal_bank = lp.balanceOf(homora)
curLPBal_staking = lp.balanceOf(staking)
curARes = interface.IBalancerPool(lp).getBalance(dfd)
curBRes = interface.IBalancerPool(lp).getBalance(dusd)
print('spell lp balance', lp.balanceOf(balancer_spell))
print('Alice delta A balance', curABal - prevABal)
print('Alice delta B balance', curBBal - prevBBal)
print('add liquidity gas', tx.gas_used)
print('bank lp balance', curLPBal_bank)
_, _, _, dfdDebt, dfdShare = homora.getBankInfo(dfd)
print('bank dfd dfdDebt', dfdDebt)
print('bank dfd dfdShare', dfdShare)
print('bank prev LP balance', prevLPBal_bank)
print('bank cur LP balance', curLPBal_bank)
print('staking prev LP balance', prevLPBal_staking)
print('staking cur LP balance', curLPBal_staking)
print('prev dfd res', prevARes)
print('cur dfd res', curARes)
print('prev dusd res', prevBRes)
print('cur dusd res', curBRes)
# alice
assert almostEqual(curABal - prevABal, -dfd_amt), 'incorrect DFD amt'
assert almostEqual(curBBal - prevBBal, -dusd_amt), 'incorrect DUSD amt'
assert curLPBal - prevLPBal == -lp_amt, 'incorrect LP amt'
# spell
assert dfd.balanceOf(balancer_spell) == 0, 'non-zero spell DFD balance'
assert dusd.balanceOf(balancer_spell) == 0, 'non-zero spell DUSD balance'
assert lp.balanceOf(balancer_spell) == 0, 'non-zero spell LP balance'
assert dfdDebt == borrow_dfd_amt
# check balance and pool reserves
assert almostEqual(
curABal - prevABal - borrow_dfd_amt,
-(curARes - prevARes)), 'not all DFD tokens go to LP pool'
assert almostEqual(
curBBal - prevBBal - borrow_dusd_amt,
-(curBRes - prevBRes)), 'not all DUSD tokens go to LP pool'
curAliceDfdBalance = dfd.balanceOf(alice)
print('Alice dfd balance', curAliceDfdBalance)
receivedDfd = curAliceDfdBalance - prevAliceDfdBalance + dfd_amt
print('received dfd', receivedDfd)
# check with staking directly
tx = interface.IStakingRewards(staking).getReward({'from': bob})
receivedDfdFromStaking = dfd.balanceOf(bob) - prevDfd
print('receivedDfdFromStaking', receivedDfdFromStaking)
assert almostEqual(receivedDfd, receivedDfdFromStaking)
return tx
