ERC-20
Overview
Max Total Supply
10,098.04417557253988183 DOLA3POOL3CRV-f-gauge
Holders
5
Market
Onchain Market Cap
$0.00
Circulating Supply Market Cap
-
Other Info
Token Contract (WITH 18 Decimals)
Balance
0.987952985036174761 DOLA3POOL3CRV-f-gaugeValue
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# | Exchange | Pair | Price | 24H Volume | % Volume |
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Minimal Proxy Contract for 0x5ae854b098727a9f1603a1e21c50d52dc834d846
Contract Name:
Vyper_contract
Compiler Version
vyper:0.2.15
Contract Source Code (Vyper language format)
# @version 0.2.15 """ @title Liquidity Gauge @author Curve Finance @license MIT @notice Implementation contract for use with Curve Factory """ from vyper.interfaces import ERC20 implements: ERC20 interface CRV20: def future_epoch_time_write() -> uint256: nonpayable def rate() -> uint256: view interface Controller: def period() -> int128: view def period_write() -> int128: nonpayable def period_timestamp(p: int128) -> uint256: view def gauge_relative_weight(addr: address, time: uint256) -> uint256: view def voting_escrow() -> address: view def checkpoint(): nonpayable def checkpoint_gauge(addr: address): nonpayable interface Minter: def token() -> address: view def controller() -> address: view def minted(user: address, gauge: address) -> uint256: view interface VotingEscrow: def user_point_epoch(addr: address) -> uint256: view def user_point_history__ts(addr: address, epoch: uint256) -> uint256: view interface VotingEscrowBoost: def adjusted_balance_of(_account: address) -> uint256: view interface ERC20Extended: def symbol() -> String[26]: view interface Factory: def admin() -> address: view event Deposit: provider: indexed(address) value: uint256 event Withdraw: provider: indexed(address) value: uint256 event UpdateLiquidityLimit: user: address original_balance: uint256 original_supply: uint256 working_balance: uint256 working_supply: uint256 event CommitOwnership: admin: address event ApplyOwnership: admin: address event Transfer: _from: indexed(address) _to: indexed(address) _value: uint256 event Approval: _owner: indexed(address) _spender: indexed(address) _value: uint256 struct Reward: token: address distributor: address period_finish: uint256 rate: uint256 last_update: uint256 integral: uint256 MAX_REWARDS: constant(uint256) = 8 TOKENLESS_PRODUCTION: constant(uint256) = 40 WEEK: constant(uint256) = 604800 CLAIM_FREQUENCY: constant(uint256) = 3600 MINTER: constant(address) = 0xd061D61a4d941c39E5453435B6345Dc261C2fcE0 CRV: constant(address) = 0xD533a949740bb3306d119CC777fa900bA034cd52 VOTING_ESCROW: constant(address) = 0x5f3b5DfEb7B28CDbD7FAba78963EE202a494e2A2 GAUGE_CONTROLLER: constant(address) = 0x2F50D538606Fa9EDD2B11E2446BEb18C9D5846bB VEBOOST_PROXY: constant(address) = 0x8E0c00ed546602fD9927DF742bbAbF726D5B0d16 lp_token: public(address) future_epoch_time: public(uint256) balanceOf: public(HashMap[address, uint256]) totalSupply: public(uint256) allowance: public(HashMap[address, HashMap[address, uint256]]) name: public(String[64]) symbol: public(String[32]) working_balances: public(HashMap[address, uint256]) working_supply: public(uint256) # The goal is to be able to calculate ∫(rate * balance / totalSupply dt) from 0 till checkpoint # All values are kept in units of being multiplied by 1e18 period: public(int128) period_timestamp: public(uint256[100000000000000000000000000000]) # 1e18 * ∫(rate(t) / totalSupply(t) dt) from 0 till checkpoint integrate_inv_supply: public(uint256[100000000000000000000000000000]) # bump epoch when rate() changes # 1e18 * ∫(rate(t) / totalSupply(t) dt) from (last_action) till checkpoint integrate_inv_supply_of: public(HashMap[address, uint256]) integrate_checkpoint_of: public(HashMap[address, uint256]) # ∫(balance * rate(t) / totalSupply(t) dt) from 0 till checkpoint # Units: rate * t = already number of coins per address to issue integrate_fraction: public(HashMap[address, uint256]) inflation_rate: public(uint256) # For tracking external rewards reward_count: public(uint256) reward_tokens: public(address[MAX_REWARDS]) reward_data: public(HashMap[address, Reward]) # claimant -> default reward receiver rewards_receiver: public(HashMap[address, address]) # reward token -> claiming address -> integral reward_integral_for: public(HashMap[address, HashMap[address, uint256]]) # user -> [uint128 claimable amount][uint128 claimed amount] claim_data: HashMap[address, HashMap[address, uint256]] is_killed: public(bool) factory: public(address) @external def __init__(): self.lp_token = 0x000000000000000000000000000000000000dEaD @external def initialize(_lp_token: address): """ @notice Contract constructor @param _lp_token Liquidity Pool contract address """ assert self.lp_token == ZERO_ADDRESS self.lp_token = _lp_token self.factory = msg.sender symbol: String[26] = ERC20Extended(_lp_token).symbol() self.name = concat("Curve.fi ", symbol, " Gauge Deposit") self.symbol = concat(symbol, "-gauge") self.period_timestamp[0] = block.timestamp self.inflation_rate = CRV20(CRV).rate() self.future_epoch_time = CRV20(CRV).future_epoch_time_write() @view @external def decimals() -> uint256: """ @notice Get the number of decimals for this token @dev Implemented as a view method to reduce gas costs @return uint256 decimal places """ return 18 @view @external def integrate_checkpoint() -> uint256: return self.period_timestamp[self.period] @internal def _update_liquidity_limit(addr: address, l: uint256, L: uint256): """ @notice Calculate limits which depend on the amount of CRV token per-user. Effectively it calculates working balances to apply amplification of CRV production by CRV @param addr User address @param l User's amount of liquidity (LP tokens) @param L Total amount of liquidity (LP tokens) """ # To be called after totalSupply is updated voting_balance: uint256 = VotingEscrowBoost(VEBOOST_PROXY).adjusted_balance_of(addr) voting_total: uint256 = ERC20(VOTING_ESCROW).totalSupply() lim: uint256 = l * TOKENLESS_PRODUCTION / 100 if voting_total > 0: lim += L * voting_balance / voting_total * (100 - TOKENLESS_PRODUCTION) / 100 lim = min(l, lim) old_bal: uint256 = self.working_balances[addr] self.working_balances[addr] = lim _working_supply: uint256 = self.working_supply + lim - old_bal self.working_supply = _working_supply log UpdateLiquidityLimit(addr, l, L, lim, _working_supply) @internal def _checkpoint_rewards(_user: address, _total_supply: uint256, _claim: bool, _receiver: address): """ @notice Claim pending rewards and checkpoint rewards for a user """ user_balance: uint256 = 0 receiver: address = _receiver if _user != ZERO_ADDRESS: user_balance = self.balanceOf[_user] if _claim and _receiver == ZERO_ADDRESS: # if receiver is not explicitly declared, check if a default receiver is set receiver = self.rewards_receiver[_user] if receiver == ZERO_ADDRESS: # if no default receiver is set, direct claims to the user receiver = _user reward_count: uint256 = self.reward_count for i in range(MAX_REWARDS): if i == reward_count: break token: address = self.reward_tokens[i] integral: uint256 = self.reward_data[token].integral last_update: uint256 = min(block.timestamp, self.reward_data[token].period_finish) duration: uint256 = last_update - self.reward_data[token].last_update if duration != 0: self.reward_data[token].last_update = last_update if _total_supply != 0: integral += duration * self.reward_data[token].rate * 10**18 / _total_supply self.reward_data[token].integral = integral if _user != ZERO_ADDRESS: integral_for: uint256 = self.reward_integral_for[token][_user] new_claimable: uint256 = 0 if integral_for < integral: self.reward_integral_for[token][_user] = integral new_claimable = user_balance * (integral - integral_for) / 10**18 claim_data: uint256 = self.claim_data[_user][token] total_claimable: uint256 = shift(claim_data, -128) + new_claimable if total_claimable > 0: total_claimed: uint256 = claim_data % 2**128 if _claim: response: Bytes[32] = raw_call( token, concat( method_id("transfer(address,uint256)"), convert(receiver, bytes32), convert(total_claimable, bytes32), ), max_outsize=32, ) if len(response) != 0: assert convert(response, bool) self.claim_data[_user][token] = total_claimed + total_claimable elif new_claimable > 0: self.claim_data[_user][token] = total_claimed + shift(total_claimable, 128) @internal def _checkpoint(addr: address): """ @notice Checkpoint for a user @param addr User address """ _period: int128 = self.period _period_time: uint256 = self.period_timestamp[_period] _integrate_inv_supply: uint256 = self.integrate_inv_supply[_period] rate: uint256 = self.inflation_rate new_rate: uint256 = rate prev_future_epoch: uint256 = self.future_epoch_time if prev_future_epoch >= _period_time: self.future_epoch_time = CRV20(CRV).future_epoch_time_write() new_rate = CRV20(CRV).rate() self.inflation_rate = new_rate if self.is_killed: # Stop distributing inflation as soon as killed rate = 0 # Update integral of 1/supply if block.timestamp > _period_time: _working_supply: uint256 = self.working_supply Controller(GAUGE_CONTROLLER).checkpoint_gauge(self) prev_week_time: uint256 = _period_time week_time: uint256 = min((_period_time + WEEK) / WEEK * WEEK, block.timestamp) for i in range(500): dt: uint256 = week_time - prev_week_time w: uint256 = Controller(GAUGE_CONTROLLER).gauge_relative_weight(self, prev_week_time / WEEK * WEEK) if _working_supply > 0: if prev_future_epoch >= prev_week_time and prev_future_epoch < week_time: # If we went across one or multiple epochs, apply the rate # of the first epoch until it ends, and then the rate of # the last epoch. # If more than one epoch is crossed - the gauge gets less, # but that'd meen it wasn't called for more than 1 year _integrate_inv_supply += rate * w * (prev_future_epoch - prev_week_time) / _working_supply rate = new_rate _integrate_inv_supply += rate * w * (week_time - prev_future_epoch) / _working_supply else: _integrate_inv_supply += rate * w * dt / _working_supply # On precisions of the calculation # rate ~= 10e18 # last_weight > 0.01 * 1e18 = 1e16 (if pool weight is 1%) # _working_supply ~= TVL * 1e18 ~= 1e26 ($100M for example) # The largest loss is at dt = 1 # Loss is 1e-9 - acceptable if week_time == block.timestamp: break prev_week_time = week_time week_time = min(week_time + WEEK, block.timestamp) _period += 1 self.period = _period self.period_timestamp[_period] = block.timestamp self.integrate_inv_supply[_period] = _integrate_inv_supply # Update user-specific integrals _working_balance: uint256 = self.working_balances[addr] self.integrate_fraction[addr] += _working_balance * (_integrate_inv_supply - self.integrate_inv_supply_of[addr]) / 10 ** 18 self.integrate_inv_supply_of[addr] = _integrate_inv_supply self.integrate_checkpoint_of[addr] = block.timestamp @external def user_checkpoint(addr: address) -> bool: """ @notice Record a checkpoint for `addr` @param addr User address @return bool success """ assert msg.sender in [addr, MINTER] # dev: unauthorized self._checkpoint(addr) self._update_liquidity_limit(addr, self.balanceOf[addr], self.totalSupply) return True @external def claimable_tokens(addr: address) -> uint256: """ @notice Get the number of claimable tokens per user @dev This function should be manually changed to "view" in the ABI @return uint256 number of claimable tokens per user """ self._checkpoint(addr) return self.integrate_fraction[addr] - Minter(MINTER).minted(addr, self) @view @external def claimed_reward(_addr: address, _token: address) -> uint256: """ @notice Get the number of already-claimed reward tokens for a user @param _addr Account to get reward amount for @param _token Token to get reward amount for @return uint256 Total amount of `_token` already claimed by `_addr` """ return self.claim_data[_addr][_token] % 2**128 @view @external def claimable_reward(_user: address, _reward_token: address) -> uint256: """ @notice Get the number of claimable reward tokens for a user @param _user Account to get reward amount for @param _reward_token Token to get reward amount for @return uint256 Claimable reward token amount """ integral: uint256 = self.reward_data[_reward_token].integral total_supply: uint256 = self.totalSupply if total_supply != 0: last_update: uint256 = min(block.timestamp, self.reward_data[_reward_token].period_finish) duration: uint256 = last_update - self.reward_data[_reward_token].last_update integral += (duration * self.reward_data[_reward_token].rate * 10**18 / total_supply) integral_for: uint256 = self.reward_integral_for[_reward_token][_user] new_claimable: uint256 = self.balanceOf[_user] * (integral - integral_for) / 10**18 return shift(self.claim_data[_user][_reward_token], -128) + new_claimable @external def set_rewards_receiver(_receiver: address): """ @notice Set the default reward receiver for the caller. @dev When set to ZERO_ADDRESS, rewards are sent to the caller @param _receiver Receiver address for any rewards claimed via `claim_rewards` """ self.rewards_receiver[msg.sender] = _receiver @external @nonreentrant('lock') def claim_rewards(_addr: address = msg.sender, _receiver: address = ZERO_ADDRESS): """ @notice Claim available reward tokens for `_addr` @param _addr Address to claim for @param _receiver Address to transfer rewards to - if set to ZERO_ADDRESS, uses the default reward receiver for the caller """ if _receiver != ZERO_ADDRESS: assert _addr == msg.sender # dev: cannot redirect when claiming for another user self._checkpoint_rewards(_addr, self.totalSupply, True, _receiver) @external def kick(addr: address): """ @notice Kick `addr` for abusing their boost @dev Only if either they had another voting event, or their voting escrow lock expired @param addr Address to kick """ t_last: uint256 = self.integrate_checkpoint_of[addr] t_ve: uint256 = VotingEscrow(VOTING_ESCROW).user_point_history__ts( addr, VotingEscrow(VOTING_ESCROW).user_point_epoch(addr) ) _balance: uint256 = self.balanceOf[addr] assert ERC20(VOTING_ESCROW).balanceOf(addr) == 0 or t_ve > t_last # dev: kick not allowed assert self.working_balances[addr] > _balance * TOKENLESS_PRODUCTION / 100 # dev: kick not needed self._checkpoint(addr) self._update_liquidity_limit(addr, self.balanceOf[addr], self.totalSupply) @external @nonreentrant('lock') def deposit(_value: uint256, _addr: address = msg.sender, _claim_rewards: bool = False): """ @notice Deposit `_value` LP tokens @dev Depositting also claims pending reward tokens @param _value Number of tokens to deposit @param _addr Address to deposit for """ self._checkpoint(_addr) if _value != 0: is_rewards: bool = self.reward_count != 0 total_supply: uint256 = self.totalSupply if is_rewards: self._checkpoint_rewards(_addr, total_supply, _claim_rewards, ZERO_ADDRESS) total_supply += _value new_balance: uint256 = self.balanceOf[_addr] + _value self.balanceOf[_addr] = new_balance self.totalSupply = total_supply self._update_liquidity_limit(_addr, new_balance, total_supply) ERC20(self.lp_token).transferFrom(msg.sender, self, _value) log Deposit(_addr, _value) log Transfer(ZERO_ADDRESS, _addr, _value) @external @nonreentrant('lock') def withdraw(_value: uint256, _claim_rewards: bool = False): """ @notice Withdraw `_value` LP tokens @dev Withdrawing also claims pending reward tokens @param _value Number of tokens to withdraw """ self._checkpoint(msg.sender) if _value != 0: is_rewards: bool = self.reward_count != 0 total_supply: uint256 = self.totalSupply if is_rewards: self._checkpoint_rewards(msg.sender, total_supply, _claim_rewards, ZERO_ADDRESS) total_supply -= _value new_balance: uint256 = self.balanceOf[msg.sender] - _value self.balanceOf[msg.sender] = new_balance self.totalSupply = total_supply self._update_liquidity_limit(msg.sender, new_balance, total_supply) ERC20(self.lp_token).transfer(msg.sender, _value) log Withdraw(msg.sender, _value) log Transfer(msg.sender, ZERO_ADDRESS, _value) @internal def _transfer(_from: address, _to: address, _value: uint256): self._checkpoint(_from) self._checkpoint(_to) if _value != 0: total_supply: uint256 = self.totalSupply is_rewards: bool = self.reward_count != 0 if is_rewards: self._checkpoint_rewards(_from, total_supply, False, ZERO_ADDRESS) new_balance: uint256 = self.balanceOf[_from] - _value self.balanceOf[_from] = new_balance self._update_liquidity_limit(_from, new_balance, total_supply) if is_rewards: self._checkpoint_rewards(_to, total_supply, False, ZERO_ADDRESS) new_balance = self.balanceOf[_to] + _value self.balanceOf[_to] = new_balance self._update_liquidity_limit(_to, new_balance, total_supply) log Transfer(_from, _to, _value) @external @nonreentrant('lock') def transfer(_to : address, _value : uint256) -> bool: """ @notice Transfer token for a specified address @dev Transferring claims pending reward tokens for the sender and receiver @param _to The address to transfer to. @param _value The amount to be transferred. """ self._transfer(msg.sender, _to, _value) return True @external @nonreentrant('lock') def transferFrom(_from : address, _to : address, _value : uint256) -> bool: """ @notice Transfer tokens from one address to another. @dev Transferring claims pending reward tokens for the sender and receiver @param _from address The address which you want to send tokens from @param _to address The address which you want to transfer to @param _value uint256 the amount of tokens to be transferred """ _allowance: uint256 = self.allowance[_from][msg.sender] if _allowance != MAX_UINT256: self.allowance[_from][msg.sender] = _allowance - _value self._transfer(_from, _to, _value) return True @external def approve(_spender : address, _value : uint256) -> bool: """ @notice Approve the passed address to transfer the specified amount of tokens on behalf of msg.sender @dev Beware that changing an allowance via this method brings the risk that someone may use both the old and new allowance by unfortunate transaction ordering. This may be mitigated with the use of {incraseAllowance} and {decreaseAllowance}. https://github.com/ethereum/EIPs/issues/20#issuecomment-263524729 @param _spender The address which will transfer the funds @param _value The amount of tokens that may be transferred @return bool success """ self.allowance[msg.sender][_spender] = _value log Approval(msg.sender, _spender, _value) return True @external def increaseAllowance(_spender: address, _added_value: uint256) -> bool: """ @notice Increase the allowance granted to `_spender` by the caller @dev This is alternative to {approve} that can be used as a mitigation for the potential race condition @param _spender The address which will transfer the funds @param _added_value The amount of to increase the allowance @return bool success """ allowance: uint256 = self.allowance[msg.sender][_spender] + _added_value self.allowance[msg.sender][_spender] = allowance log Approval(msg.sender, _spender, allowance) return True @external def decreaseAllowance(_spender: address, _subtracted_value: uint256) -> bool: """ @notice Decrease the allowance granted to `_spender` by the caller @dev This is alternative to {approve} that can be used as a mitigation for the potential race condition @param _spender The address which will transfer the funds @param _subtracted_value The amount of to decrease the allowance @return bool success """ allowance: uint256 = self.allowance[msg.sender][_spender] - _subtracted_value self.allowance[msg.sender][_spender] = allowance log Approval(msg.sender, _spender, allowance) return True @external def add_reward(_reward_token: address, _distributor: address): """ @notice Set the active reward contract """ assert msg.sender == Factory(self.factory).admin() # dev: only owner reward_count: uint256 = self.reward_count assert reward_count < MAX_REWARDS assert self.reward_data[_reward_token].distributor == ZERO_ADDRESS self.reward_data[_reward_token].distributor = _distributor self.reward_tokens[reward_count] = _reward_token self.reward_count = reward_count + 1 @external def set_reward_distributor(_reward_token: address, _distributor: address): current_distributor: address = self.reward_data[_reward_token].distributor assert msg.sender == current_distributor or msg.sender == Factory(self.factory).admin() assert current_distributor != ZERO_ADDRESS assert _distributor != ZERO_ADDRESS self.reward_data[_reward_token].distributor = _distributor @external @nonreentrant("lock") def deposit_reward_token(_reward_token: address, _amount: uint256): assert msg.sender == self.reward_data[_reward_token].distributor self._checkpoint_rewards(ZERO_ADDRESS, self.totalSupply, False, ZERO_ADDRESS) response: Bytes[32] = raw_call( _reward_token, concat( method_id("transferFrom(address,address,uint256)"), convert(msg.sender, bytes32), convert(self, bytes32), convert(_amount, bytes32), ), max_outsize=32, ) if len(response) != 0: assert convert(response, bool) period_finish: uint256 = self.reward_data[_reward_token].period_finish if block.timestamp >= period_finish: self.reward_data[_reward_token].rate = _amount / WEEK else: remaining: uint256 = period_finish - block.timestamp leftover: uint256 = remaining * self.reward_data[_reward_token].rate self.reward_data[_reward_token].rate = (_amount + leftover) / WEEK self.reward_data[_reward_token].last_update = block.timestamp self.reward_data[_reward_token].period_finish = block.timestamp + WEEK @external def set_killed(_is_killed: bool): """ @notice Set the killed status for this contract @dev When killed, the gauge always yields a rate of 0 and so cannot mint CRV @param _is_killed Killed status to set """ assert msg.sender == Factory(self.factory).admin() # dev: only owner self.is_killed = _is_killed
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A token is a representation of an on-chain or off-chain asset. The token page shows information such as price, total supply, holders, transfers and social links. Learn more about this page in our Knowledge Base.