// SPDX-License-Identifier: MIT
pragma solidity 0.6.12;
/**
* @dev Wrappers over Solidity's arithmetic operations with added overflow
* checks.
*
* Arithmetic operations in Solidity wrap on overflow. This can easily result
* in bugs, because programmers usually assume that an overflow raises an
* error, which is the standard behavior in high level programming languages.
* `SafeMath` restores this intuition by reverting the transaction when an
* operation overflows.
*
* Using this library instead of the unchecked operations eliminates an entire
* class of bugs, so it's recommended to use it always.
*/
library SafeMath {
/**
* @dev Returns the addition of two unsigned integers, reverting on
* overflow.
*
* Counterpart to Solidity's `+` operator.
*
* Requirements:
*
* - Addition cannot overflow.
*/
function add(uint256 a, uint256 b) internal pure returns (uint256) {
uint256 c = a + b;
require(c >= a, "SafeMath: addition overflow");
return c;
}
/**
* @dev Returns the subtraction of two unsigned integers, reverting on
* overflow (when the result is negative).
*
* Counterpart to Solidity's `-` operator.
*
* Requirements:
*
* - Subtraction cannot overflow.
*/
function sub(uint256 a, uint256 b) internal pure returns (uint256) {
return sub(a, b, "SafeMath: subtraction overflow");
}
/**
* @dev Returns the subtraction of two unsigned integers, reverting with custom message on
* overflow (when the result is negative).
*
* Counterpart to Solidity's `-` operator.
*
* Requirements:
*
* - Subtraction cannot overflow.
*/
function sub(uint256 a, uint256 b, string memory errorMessage) internal pure returns (uint256) {
require(b <= a, errorMessage);
uint256 c = a - b;
return c;
}
/**
* @dev Returns the multiplication of two unsigned integers, reverting on
* overflow.
*
* Counterpart to Solidity's `*` operator.
*
* Requirements:
*
* - Multiplication cannot overflow.
*/
function mul(uint256 a, uint256 b) internal pure returns (uint256) {
// Gas optimization: this is cheaper than requiring 'a' not being zero, but the
// benefit is lost if 'b' is also tested.
// See: https://github.com/OpenZeppelin/openzeppelin-contracts/pull/522
if (a == 0) {
return 0;
}
uint256 c = a * b;
require(c / a == b, "SafeMath: multiplication overflow");
return c;
}
/**
* @dev Returns the integer division of two unsigned integers. Reverts on
* division by zero. The result is rounded towards zero.
*
* Counterpart to Solidity's `/` operator. Note: this function uses a
* `revert` opcode (which leaves remaining gas untouched) while Solidity
* uses an invalid opcode to revert (consuming all remaining gas).
*
* Requirements:
*
* - The divisor cannot be zero.
*/
function div(uint256 a, uint256 b) internal pure returns (uint256) {
return div(a, b, "SafeMath: division by zero");
}
/**
* @dev Returns the integer division of two unsigned integers. Reverts with custom message on
* division by zero. The result is rounded towards zero.
*
* Counterpart to Solidity's `/` operator. Note: this function uses a
* `revert` opcode (which leaves remaining gas untouched) while Solidity
* uses an invalid opcode to revert (consuming all remaining gas).
*
* Requirements:
*
* - The divisor cannot be zero.
*/
function div(uint256 a, uint256 b, string memory errorMessage) internal pure returns (uint256) {
require(b > 0, errorMessage);
uint256 c = a / b;
// assert(a == b * c + a % b); // There is no case in which this doesn't hold
return c;
}
/**
* @dev Returns the remainder of dividing two unsigned integers. (unsigned integer modulo),
* Reverts when dividing by zero.
*
* Counterpart to Solidity's `%` operator. This function uses a `revert`
* opcode (which leaves remaining gas untouched) while Solidity uses an
* invalid opcode to revert (consuming all remaining gas).
*
* Requirements:
*
* - The divisor cannot be zero.
*/
function mod(uint256 a, uint256 b) internal pure returns (uint256) {
return mod(a, b, "SafeMath: modulo by zero");
}
/**
* @dev Returns the remainder of dividing two unsigned integers. (unsigned integer modulo),
* Reverts with custom message when dividing by zero.
*
* Counterpart to Solidity's `%` operator. This function uses a `revert`
* opcode (which leaves remaining gas untouched) while Solidity uses an
* invalid opcode to revert (consuming all remaining gas).
*
* Requirements:
*
* - The divisor cannot be zero.
*/
function mod(uint256 a, uint256 b, string memory errorMessage) internal pure returns (uint256) {
require(b != 0, errorMessage);
return a % b;
}
}
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
library BConst {
uint public constant BONE = 10**18;
uint public constant MIN_BOUND_TOKENS = 2;
uint public constant MAX_BOUND_TOKENS = 8;
uint public constant DEFAULT_FEE = BONE * 3 / 1000; // 0.3%
uint public constant MIN_FEE = BONE / 10**6;
uint public constant MAX_FEE = BONE / 10;
uint public constant DEFAULT_COLLECTED_FEE = BONE / 2000; // 0.05%
uint public constant MAX_COLLECTED_FEE = BONE / 200; // 0.5%
uint public constant DEFAULT_EXIT_FEE = 0;
uint public constant MAX_EXIT_FEE = BONE / 1000; // 0.1%
uint public constant MIN_WEIGHT = BONE;
uint public constant MAX_WEIGHT = BONE * 50;
uint public constant MAX_TOTAL_WEIGHT = BONE * 50;
uint public constant MIN_BALANCE = BONE / 10**12;
uint public constant DEFAULT_INIT_POOL_SUPPLY = BONE * 100;
uint public constant MIN_INIT_POOL_SUPPLY = BONE / 1000;
uint public constant MAX_INIT_POOL_SUPPLY = BONE * 10**18;
uint public constant MIN_BPOW_BASE = 1 wei;
uint public constant MAX_BPOW_BASE = (2 * BONE) - 1 wei;
uint public constant BPOW_PRECISION = BONE / 10**10;
uint public constant MAX_IN_RATIO = BONE / 2;
uint public constant MAX_OUT_RATIO = (BONE / 3) + 1 wei;
}
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
contract BNum {
function btoi(uint a)
internal pure
returns (uint)
{
return a / BConst.BONE;
}
function bfloor(uint a)
internal pure
returns (uint)
{
return btoi(a) * BConst.BONE;
}
function badd(uint a, uint b)
internal pure
returns (uint)
{
uint c = a + b;
require(c >= a, "add overflow");
return c;
}
function bsub(uint a, uint b)
internal pure
returns (uint)
{
(uint c, bool flag) = bsubSign(a, b);
require(!flag, "sub underflow");
return c;
}
function bsubSign(uint a, uint b)
internal pure
returns (uint, bool)
{
if (a >= b) {
return (a - b, false);
} else {
return (b - a, true);
}
}
function bmul(uint a, uint b)
internal pure
returns (uint)
{
uint c0 = a * b;
require(a == 0 || c0 / a == b, "mul overflow");
uint c1 = c0 + (BConst.BONE / 2);
require(c1 >= c0, "mul overflow");
uint c2 = c1 / BConst.BONE;
return c2;
}
function bdiv(uint a, uint b)
internal pure
returns (uint)
{
require(b != 0, "div by 0");
uint c0 = a * BConst.BONE;
require(a == 0 || c0 / a == BConst.BONE, "div internal"); // bmul overflow
uint c1 = c0 + (b / 2);
require(c1 >= c0, "div internal"); // badd require
uint c2 = c1 / b;
return c2;
}
// DSMath.wpow
function bpowi(uint a, uint n)
internal pure
returns (uint)
{
uint z = n % 2 != 0 ? a : BConst.BONE;
for (n /= 2; n != 0; n /= 2) {
a = bmul(a, a);
if (n % 2 != 0) {
z = bmul(z, a);
}
}
return z;
}
// Compute b^(e.w) by splitting it into (b^e)*(b^0.w).
// Use `bpowi` for `b^e` and `bpowK` for k iterations
// of approximation of b^0.w
function bpow(uint base, uint exp)
internal pure
returns (uint)
{
require(base >= BConst.MIN_BPOW_BASE, "base too low");
require(base <= BConst.MAX_BPOW_BASE, "base too high");
uint whole = bfloor(exp);
uint remain = bsub(exp, whole);
uint wholePow = bpowi(base, btoi(whole));
if (remain == 0) {
return wholePow;
}
uint partialResult = bpowApprox(base, remain, BConst.BPOW_PRECISION);
return bmul(wholePow, partialResult);
}
function bpowApprox(uint base, uint exp, uint precision)
internal pure
returns (uint)
{
// term 0:
uint a = exp;
(uint x, bool xneg) = bsubSign(base, BConst.BONE);
uint term = BConst.BONE;
uint sum = term;
bool negative = false;
// term(k) = numer / denom
// = (product(a - i - 1, i=1-->k) * x^k) / (k!)
// each iteration, multiply previous term by (a-(k-1)) * x / k
// continue until term is less than precision
for (uint i = 1; term >= precision; i++) {
uint bigK = i * BConst.BONE;
(uint c, bool cneg) = bsubSign(a, bsub(bigK, BConst.BONE));
term = bmul(term, bmul(c, x));
term = bdiv(term, bigK);
if (term == 0) break;
if (xneg) negative = !negative;
if (cneg) negative = !negative;
if (negative) {
sum = bsub(sum, term);
} else {
sum = badd(sum, term);
}
}
return sum;
}
}
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
// Highly opinionated token implementation
interface IERC20 {
event Approval(address indexed src, address indexed dst, uint amt);
event Transfer(address indexed src, address indexed dst, uint amt);
function totalSupply() external view returns (uint);
function balanceOf(address whom) external view returns (uint);
function allowance(address src, address dst) external view returns (uint);
function approve(address dst, uint amt) external returns (bool);
function transfer(address dst, uint amt) external returns (bool);
function transferFrom(
address src, address dst, uint amt
) external returns (bool);
}
contract BTokenBase is BNum {
mapping(address => uint) internal _balance;
mapping(address => mapping(address=>uint)) internal _allowance;
uint internal _totalSupply;
event Approval(address indexed src, address indexed dst, uint amt);
event Transfer(address indexed src, address indexed dst, uint amt);
function _mint(uint amt) internal {
_balance[address(this)] = badd(_balance[address(this)], amt);
_totalSupply = badd(_totalSupply, amt);
emit Transfer(address(0), address(this), amt);
}
function _burn(uint amt) internal {
require(_balance[address(this)] >= amt, "!bal");
_balance[address(this)] = bsub(_balance[address(this)], amt);
_totalSupply = bsub(_totalSupply, amt);
emit Transfer(address(this), address(0), amt);
}
function _move(address src, address dst, uint amt) internal {
require(_balance[src] >= amt, "!bal");
_balance[src] = bsub(_balance[src], amt);
_balance[dst] = badd(_balance[dst], amt);
emit Transfer(src, dst, amt);
}
function _push(address to, uint amt) internal {
_move(address(this), to, amt);
}
function _pull(address from, uint amt) internal {
_move(from, address(this), amt);
}
}
contract BToken is BTokenBase, IERC20 {
string private _name = "Value Liquidity Provider";
string private _symbol = "VLP";
uint8 private _decimals = 18;
function name() public view returns (string memory) {
return _name;
}
function symbol() public view returns (string memory) {
return _symbol;
}
function decimals() public view returns(uint8) {
return _decimals;
}
function allowance(address src, address dst) external override view returns (uint) {
return _allowance[src][dst];
}
function balanceOf(address whom) public override view returns (uint) {
return _balance[whom];
}
function totalSupply() public override view returns (uint) {
return _totalSupply;
}
function approve(address dst, uint amt) external override returns (bool) {
_allowance[msg.sender][dst] = amt;
emit Approval(msg.sender, dst, amt);
return true;
}
function increaseApproval(address dst, uint amt) external returns (bool) {
_allowance[msg.sender][dst] = badd(_allowance[msg.sender][dst], amt);
emit Approval(msg.sender, dst, _allowance[msg.sender][dst]);
return true;
}
function decreaseApproval(address dst, uint amt) external returns (bool) {
uint oldValue = _allowance[msg.sender][dst];
if (amt > oldValue) {
_allowance[msg.sender][dst] = 0;
} else {
_allowance[msg.sender][dst] = bsub(oldValue, amt);
}
emit Approval(msg.sender, dst, _allowance[msg.sender][dst]);
return true;
}
function transfer(address dst, uint amt) external override returns (bool) {
_move(msg.sender, dst, amt);
return true;
}
function transferFrom(address src, address dst, uint amt) external override returns (bool) {
require(msg.sender == src || amt <= _allowance[src][msg.sender], "!spender");
_move(src, dst, amt);
if (msg.sender != src && _allowance[src][msg.sender] != uint256(-1)) {
_allowance[src][msg.sender] = bsub(_allowance[src][msg.sender], amt);
emit Approval(msg.sender, dst, _allowance[src][msg.sender]);
}
return true;
}
}
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
contract BMathLite is BNum {
/**********************************************************************************************
// calcSpotPrice //
// sP = spotPrice //
// bI = tokenBalanceIn ( bI / wI ) 1 //
// bO = tokenBalanceOut sP = ----------- * ---------- //
// wI = tokenWeightIn ( bO / wO ) ( 1 - sF ) //
// wO = tokenWeightOut //
// sF = swapFee (+ collectedFee) //
**********************************************************************************************/
function calcSpotPrice(
uint tokenBalanceIn,
uint tokenWeightIn,
uint tokenBalanceOut,
uint tokenWeightOut,
uint swapFee
)
public pure
returns (uint spotPrice)
{
uint numer = bdiv(tokenBalanceIn, tokenWeightIn);
uint denom = bdiv(tokenBalanceOut, tokenWeightOut);
uint ratio = bdiv(numer, denom);
uint scale = bdiv(BConst.BONE, bsub(BConst.BONE, swapFee));
return (spotPrice = bmul(ratio, scale));
}
/**********************************************************************************************
// calcOutGivenIn //
// aO = tokenAmountOut //
// bO = tokenBalanceOut //
// bI = tokenBalanceIn / / bI \ (wI / wO) \ //
// aI = tokenAmountIn aO = bO * | 1 - | -------------------------- | ^ | //
// wI = tokenWeightIn \ \ ( bI + ( aI * ( 1 - sF )) / / //
// wO = tokenWeightOut //
// sF = swapFee (+ collectedFee) //
**********************************************************************************************/
function calcOutGivenIn(
uint tokenBalanceIn,
uint tokenWeightIn,
uint tokenBalanceOut,
uint tokenWeightOut,
uint tokenAmountIn,
uint swapFee
)
public pure
returns (uint tokenAmountOut)
{
uint weightRatio = bdiv(tokenWeightIn, tokenWeightOut);
uint adjustedIn = bsub(BConst.BONE, swapFee);
adjustedIn = bmul(tokenAmountIn, adjustedIn);
uint y = bdiv(tokenBalanceIn, badd(tokenBalanceIn, adjustedIn));
uint foo = bpow(y, weightRatio);
uint bar = bsub(BConst.BONE, foo);
tokenAmountOut = bmul(tokenBalanceOut, bar);
return tokenAmountOut;
}
/**********************************************************************************************
// calcInGivenOut //
// aI = tokenAmountIn //
// bO = tokenBalanceOut / / bO \ (wO / wI) \ //
// bI = tokenBalanceIn bI * | | ------------ | ^ - 1 | //
// aO = tokenAmountOut aI = \ \ ( bO - aO ) / / //
// wI = tokenWeightIn -------------------------------------------- //
// wO = tokenWeightOut ( 1 - sF ) //
// sF = swapFee (+ collectedFee) //
**********************************************************************************************/
function calcInGivenOut(
uint tokenBalanceIn,
uint tokenWeightIn,
uint tokenBalanceOut,
uint tokenWeightOut,
uint tokenAmountOut,
uint swapFee
)
public pure
returns (uint tokenAmountIn)
{
uint weightRatio = bdiv(tokenWeightOut, tokenWeightIn);
uint diff = bsub(tokenBalanceOut, tokenAmountOut);
uint y = bdiv(tokenBalanceOut, diff);
uint foo = bpow(y, weightRatio);
foo = bsub(foo, BConst.BONE);
tokenAmountIn = bsub(BConst.BONE, swapFee);
tokenAmountIn = bdiv(bmul(tokenBalanceIn, foo), tokenAmountIn);
return tokenAmountIn;
}
/**********************************************************************************************
// calcPoolOutGivenSingleIn //
// pAo = poolAmountOut / \ //
// tAi = tokenAmountIn /// / // wI \ \\ \ wI \ //
// wI = tokenWeightIn //| tAi *| 1 - || 1 - -- | * sF || + tBi \ -- \ //
// tW = totalWeight pAo=|| \ \ \\ tW / // | ^ tW | * pS - pS //
// tBi = tokenBalanceIn \\ ------------------------------------- / / //
// pS = poolSupply \\ tBi / / //
// sF = swapFee (+ collectedFee)\ / //
**********************************************************************************************/
function calcPoolOutGivenSingleIn(
uint tokenBalanceIn,
uint tokenWeightIn,
uint poolSupply,
uint totalWeight,
uint tokenAmountIn,
uint swapFee
)
public pure
returns (uint poolAmountOut)
{
// @dev Charge the trading fee for the proportion of tokenAi
// which is implicitly traded to the other pool tokens.
// That proportion is (1- weightTokenIn)
// tokenAiAfterFee = tAi * (1 - (1-weightTi) * poolFee);
uint normalizedWeight = bdiv(tokenWeightIn, totalWeight);
uint zaz = bmul(bsub(BConst.BONE, normalizedWeight), swapFee);
uint tokenAmountInAfterFee = bmul(tokenAmountIn, bsub(BConst.BONE, zaz));
uint newTokenBalanceIn = badd(tokenBalanceIn, tokenAmountInAfterFee);
uint tokenInRatio = bdiv(newTokenBalanceIn, tokenBalanceIn);
// uint newPoolSupply = (ratioTi ^ weightTi) * poolSupply;
uint poolRatio = bpow(tokenInRatio, normalizedWeight);
uint newPoolSupply = bmul(poolRatio, poolSupply);
poolAmountOut = bsub(newPoolSupply, poolSupply);
return poolAmountOut;
}
/**********************************************************************************************
// calcSingleOutGivenPoolIn //
// tAo = tokenAmountOut / / \\ //
// bO = tokenBalanceOut / // pS - (pAi * (1 - eF)) \ / 1 \ \\ //
// pAi = poolAmountIn | bO - || ----------------------- | ^ | --------- | * b0 || //
// ps = poolSupply \ \\ pS / \(wO / tW)/ // //
// wI = tokenWeightIn tAo = \ \ // //
// tW = totalWeight / / wO \ \ //
// sF = swapFee (+ collectedFee) * | 1 - | 1 - ---- | * sF | //
// eF = exitFee \ \ tW / / //
**********************************************************************************************/
function calcSingleOutGivenPoolIn(
uint tokenBalanceOut,
uint tokenWeightOut,
uint poolSupply,
uint totalWeight,
uint poolAmountIn,
uint swapFee,
uint exitFee
)
public pure
returns (uint tokenAmountOut)
{
uint normalizedWeight = bdiv(tokenWeightOut, totalWeight);
// charge exit fee on the pool token side
// pAiAfterExitFee = pAi*(1-exitFee)
uint poolAmountInAfterExitFee = bmul(poolAmountIn, bsub(BConst.BONE, exitFee));
uint newPoolSupply = bsub(poolSupply, poolAmountInAfterExitFee);
uint poolRatio = bdiv(newPoolSupply, poolSupply);
// newBalTo = poolRatio^(1/weightTo) * balTo;
uint tokenOutRatio = bpow(poolRatio, bdiv(BConst.BONE, normalizedWeight));
uint newTokenBalanceOut = bmul(tokenOutRatio, tokenBalanceOut);
uint tokenAmountOutBeforeSwapFee = bsub(tokenBalanceOut, newTokenBalanceOut);
// charge swap fee on the output token side
//uint tAo = tAoBeforeSwapFee * (1 - (1-weightTo) * swapFee)
uint zaz = bmul(bsub(BConst.BONE, normalizedWeight), swapFee);
tokenAmountOut = bmul(tokenAmountOutBeforeSwapFee, bsub(BConst.BONE, zaz));
return tokenAmountOut;
}
}
interface IBFactory {
function collectedToken() external view returns (address);
}
contract BPoolLite is BToken, BMathLite {
struct Record {
bool bound; // is token bound to pool
uint index; // private
uint denorm; // denormalized weight
uint balance;
}
event LOG_SWAP(
address indexed caller,
address indexed tokenIn,
address indexed tokenOut,
uint256 tokenAmountIn,
uint256 tokenAmountOut
);
event LOG_JOIN(
address indexed caller,
address indexed tokenIn,
uint256 tokenAmountIn
);
event LOG_EXIT(
address indexed caller,
address indexed tokenOut,
uint256 tokenAmountOut
);
event LOG_COLLECTED_FUND(
address indexed collectedToken,
uint256 collectedAmount
);
event LOG_FINALIZE(
uint swapFee,
uint initPoolSupply,
uint version,
address[] bindTokens,
uint[] bindDenorms,
uint[] balances
);
modifier _lock_() {
require(!_mutex, "reentry");
_mutex = true;
_;
_mutex = false;
}
modifier _viewlock_() {
require(!_mutex, "reentry");
_;
}
bool private _mutex;
uint public version = 2001;
address public factory; // BFactory address to push token exitFee to
address public controller; // has CONTROL role
// `setSwapFee` and `finalize` require CONTROL
// `finalize` sets `PUBLIC can SWAP`, `PUBLIC can JOIN`
uint public swapFee;
uint public collectedFee; // 0.05% | https://yfv.finance/vip-vote/vip_5
uint public exitFee;
bool public finalized;
address[] internal _tokens;
mapping(address => Record) internal _records;
uint private _totalWeight;
constructor(address _factory) public {
controller = _factory;
factory = _factory;
swapFee = BConst.DEFAULT_FEE;
collectedFee = BConst.DEFAULT_COLLECTED_FEE;
exitFee = BConst.DEFAULT_EXIT_FEE;
finalized = false;
}
function setCollectedFee(uint _collectedFee) public {
require(msg.sender == factory, "!fctr");
require(_collectedFee <= BConst.MAX_COLLECTED_FEE, ">maxCoFee");
require(bmul(_collectedFee, 2) <= swapFee, ">sFee/2");
collectedFee = _collectedFee;
}
function setExitFee(uint _exitFee) public {
require(!finalized, "fnl");
require(msg.sender == factory, "!fctr");
require(_exitFee <= BConst.MAX_EXIT_FEE, ">maxExitFee");
exitFee = _exitFee;
}
function isBound(address t)
external view
returns (bool)
{
return _records[t].bound;
}
function getNumTokens()
external view
returns (uint)
{
return _tokens.length;
}
function getCurrentTokens()
external view _viewlock_
returns (address[] memory tokens)
{
return _tokens;
}
function getFinalTokens()
external view
_viewlock_
returns (address[] memory tokens)
{
require(finalized, "!fnl");
return _tokens;
}
function getDenormalizedWeight(address token)
external view
_viewlock_
returns (uint)
{
require(_records[token].bound, "!bound");
return _records[token].denorm;
}
function getTotalDenormalizedWeight()
external view
_viewlock_
returns (uint)
{
return _totalWeight;
}
function getNormalizedWeight(address token)
external view
_viewlock_
returns (uint)
{
require(_records[token].bound, "!bound");
uint denorm = _records[token].denorm;
return bdiv(denorm, _totalWeight);
}
function getBalance(address token)
external view
_viewlock_
returns (uint)
{
require(_records[token].bound, "!bound");
return _records[token].balance;
}
function setController(address _controller)
external
_lock_
{
require(msg.sender == controller, "!cntler");
controller = _controller;
}
function finalize(
uint _swapFee,
uint _initPoolSupply,
address[] calldata _bindTokens,
uint[] calldata _bindDenorms
) external _lock_ {
require(msg.sender == controller, "!cntler");
require(!finalized, "fnl");
require(_swapFee >= BConst.MIN_FEE, "<minFee");
require(_swapFee <= BConst.MAX_FEE, ">maxFee");
require(bmul(collectedFee, 2) <= _swapFee, "<Fee*2");
swapFee = _swapFee;
require(_initPoolSupply >= BConst.MIN_INIT_POOL_SUPPLY, "<minInitPSup");
require(_initPoolSupply <= BConst.MAX_INIT_POOL_SUPPLY, ">maxInitPSup");
require(_bindTokens.length >= BConst.MIN_BOUND_TOKENS, "<minTokens");
require(_bindTokens.length < BConst.MAX_BOUND_TOKENS, ">maxTokens");
require(_bindTokens.length == _bindDenorms.length, "erLengMism");
uint totalWeight = 0;
uint256[] memory balances = new uint[](_bindTokens.length);
for (uint i = 0; i < _bindTokens.length; i++) {
address token = _bindTokens[i];
uint denorm = _bindDenorms[i];
uint balance = BToken(token).balanceOf(address(this));
balances[i] = balance;
require(!_records[token].bound, "bound");
require(denorm >= BConst.MIN_WEIGHT, "<minWeight");
require(denorm <= BConst.MAX_WEIGHT, ">maxWeight");
require(balance >= BConst.MIN_BALANCE, "<minBal");
_records[token] = Record({
bound : true,
index : i,
denorm : denorm,
balance : balance
});
totalWeight = badd(totalWeight, denorm);
}
require(totalWeight <= BConst.MAX_TOTAL_WEIGHT, ">maxTWeight");
_totalWeight = totalWeight;
_tokens = _bindTokens;
finalized = true;
_mintPoolShare(_initPoolSupply);
_pushPoolShare(msg.sender, _initPoolSupply);
emit LOG_FINALIZE(swapFee, _initPoolSupply, version, _bindTokens, _bindDenorms, balances);
}
// Absorb any tokens that have been sent to this contract into the pool
function gulp(address token)
external
_lock_
{
require(_records[token].bound, "!bound");
_records[token].balance = IERC20(token).balanceOf(address(this));
}
function getSpotPrice(address tokenIn, address tokenOut)
external view
_viewlock_
returns (uint spotPrice)
{
require(_records[tokenIn].bound, "!bound");
require(_records[tokenOut].bound, "!bound");
Record storage inRecord = _records[tokenIn];
Record storage outRecord = _records[tokenOut];
return calcSpotPrice(inRecord.balance, inRecord.denorm, outRecord.balance, outRecord.denorm, swapFee);
}
function getSpotPriceSansFee(address tokenIn, address tokenOut)
external view
_viewlock_
returns (uint spotPrice)
{
require(_records[tokenIn].bound, "!bound");
require(_records[tokenOut].bound, "!bound");
Record storage inRecord = _records[tokenIn];
Record storage outRecord = _records[tokenOut];
return calcSpotPrice(inRecord.balance, inRecord.denorm, outRecord.balance, outRecord.denorm, 0);
}
function joinPool(uint poolAmountOut, uint[] calldata maxAmountsIn)
external virtual
_lock_
{
require(finalized, "!fnl");
uint poolTotal = totalSupply();
uint ratio = bdiv(poolAmountOut, poolTotal);
require(ratio != 0, "erMApr");
for (uint i = 0; i < _tokens.length; i++) {
address t = _tokens[i];
uint bal = _records[t].balance;
uint tokenAmountIn = bmul(ratio, bal);
require(tokenAmountIn != 0, "erMApr");
require(tokenAmountIn <= maxAmountsIn[i], "<limIn");
_records[t].balance = badd(_records[t].balance, tokenAmountIn);
emit LOG_JOIN(msg.sender, t, tokenAmountIn);
_pullUnderlying(t, msg.sender, tokenAmountIn);
}
_mintPoolShare(poolAmountOut);
_pushPoolShare(msg.sender, poolAmountOut);
}
function exitPool(uint poolAmountIn, uint[] calldata minAmountsOut)
external virtual
_lock_
{
require(finalized, "!fnl");
uint poolTotal = totalSupply();
uint _exitFee = bmul(poolAmountIn, exitFee);
uint pAiAfterExitFee = bsub(poolAmountIn, _exitFee);
uint ratio = bdiv(pAiAfterExitFee, poolTotal);
require(ratio != 0, "erMApr");
_pullPoolShare(msg.sender, poolAmountIn);
if (_exitFee > 0) {
_pushPoolShare(factory, _exitFee);
}
_burnPoolShare(pAiAfterExitFee);
for (uint i = 0; i < _tokens.length; i++) {
address t = _tokens[i];
uint bal = _records[t].balance;
uint tokenAmountOut = bmul(ratio, bal);
require(tokenAmountOut != 0, "erMApr");
require(tokenAmountOut >= minAmountsOut[i], "<limO");
_records[t].balance = bsub(_records[t].balance, tokenAmountOut);
emit LOG_EXIT(msg.sender, t, tokenAmountOut);
_pushUnderlying(t, msg.sender, tokenAmountOut);
}
}
function swapExactAmountIn(
address tokenIn,
uint tokenAmountIn,
address tokenOut,
uint minAmountOut,
uint maxPrice
)
external
_lock_
returns (uint tokenAmountOut, uint spotPriceAfter)
{
require(_records[tokenIn].bound, "!bound");
require(_records[tokenOut].bound, "!bound");
Record storage inRecord = _records[address(tokenIn)];
Record storage outRecord = _records[address(tokenOut)];
require(tokenAmountIn <= bmul(inRecord.balance, BConst.MAX_IN_RATIO), ">maxIRat");
uint spotPriceBefore = calcSpotPrice(
inRecord.balance,
inRecord.denorm,
outRecord.balance,
outRecord.denorm,
swapFee
);
require(spotPriceBefore <= maxPrice, "badLimPrice");
tokenAmountOut = calcOutGivenIn(
inRecord.balance,
inRecord.denorm,
outRecord.balance,
outRecord.denorm,
tokenAmountIn,
swapFee
);
require(tokenAmountOut >= minAmountOut, "<limO");
inRecord.balance = badd(inRecord.balance, tokenAmountIn);
outRecord.balance = bsub(outRecord.balance, tokenAmountOut);
spotPriceAfter = calcSpotPrice(
inRecord.balance,
inRecord.denorm,
outRecord.balance,
outRecord.denorm,
swapFee
);
require(spotPriceAfter >= spotPriceBefore, "erMApr");
require(spotPriceAfter <= maxPrice, ">limPrice");
require(spotPriceBefore <= bdiv(tokenAmountIn, tokenAmountOut), "erMApr");
emit LOG_SWAP(msg.sender, tokenIn, tokenOut, tokenAmountIn, tokenAmountOut);
_pullUnderlying(tokenIn, msg.sender, tokenAmountIn);
uint _subTokenAmountIn;
(_subTokenAmountIn, tokenAmountOut) = _pushCollectedFundGivenOut(tokenIn, tokenAmountIn, tokenOut, tokenAmountOut);
if (_subTokenAmountIn > 0) inRecord.balance = bsub(inRecord.balance, _subTokenAmountIn);
_pushUnderlying(tokenOut, msg.sender, tokenAmountOut);
return (tokenAmountOut, spotPriceAfter);
}
function swapExactAmountOut(
address tokenIn,
uint maxAmountIn,
address tokenOut,
uint tokenAmountOut,
uint maxPrice
)
external
_lock_
returns (uint tokenAmountIn, uint spotPriceAfter)
{
require(_records[tokenIn].bound, "!bound");
require(_records[tokenOut].bound, "!bound");
Record storage inRecord = _records[address(tokenIn)];
Record storage outRecord = _records[address(tokenOut)];
require(tokenAmountOut <= bmul(outRecord.balance, BConst.MAX_OUT_RATIO), ">maxORat");
uint spotPriceBefore = calcSpotPrice(
inRecord.balance,
inRecord.denorm,
outRecord.balance,
outRecord.denorm,
swapFee
);
require(spotPriceBefore <= maxPrice, "badLimPrice");
tokenAmountIn = calcInGivenOut(
inRecord.balance,
inRecord.denorm,
outRecord.balance,
outRecord.denorm,
tokenAmountOut,
swapFee
);
require(tokenAmountIn <= maxAmountIn, "<limIn");
inRecord.balance = badd(inRecord.balance, tokenAmountIn);
outRecord.balance = bsub(outRecord.balance, tokenAmountOut);
spotPriceAfter = calcSpotPrice(
inRecord.balance,
inRecord.denorm,
outRecord.balance,
outRecord.denorm,
swapFee
);
require(spotPriceAfter >= spotPriceBefore, "erMApr");
require(spotPriceAfter <= maxPrice, ">limPrice");
require(spotPriceBefore <= bdiv(tokenAmountIn, tokenAmountOut), "erMApr");
emit LOG_SWAP(msg.sender, tokenIn, tokenOut, tokenAmountIn, tokenAmountOut);
_pullUnderlying(tokenIn, msg.sender, tokenAmountIn);
_pushUnderlying(tokenOut, msg.sender, tokenAmountOut);
uint _collectedFeeAmount = _pushCollectedFundGivenIn(tokenIn, tokenAmountIn);
if (_collectedFeeAmount > 0) inRecord.balance = bsub(inRecord.balance, _collectedFeeAmount);
return (tokenAmountIn, spotPriceAfter);
}
function joinswapExternAmountIn(address tokenIn, uint tokenAmountIn, uint minPoolAmountOut)
external
_lock_
returns (uint poolAmountOut)
{
require(finalized, "!fnl");
require(_records[tokenIn].bound, "!bound");
require(tokenAmountIn <= bmul(_records[tokenIn].balance, BConst.MAX_IN_RATIO), ">maxIRat");
Record storage inRecord = _records[tokenIn];
poolAmountOut = calcPoolOutGivenSingleIn(
inRecord.balance,
inRecord.denorm,
_totalSupply,
_totalWeight,
tokenAmountIn,
swapFee
);
require(poolAmountOut >= minPoolAmountOut, "<limO");
inRecord.balance = badd(inRecord.balance, tokenAmountIn);
emit LOG_JOIN(msg.sender, tokenIn, tokenAmountIn);
_mintPoolShare(poolAmountOut);
_pullUnderlying(tokenIn, msg.sender, tokenAmountIn);
uint _subTokenAmountIn;
(_subTokenAmountIn, poolAmountOut) = _pushCollectedFundGivenOut(tokenIn, tokenAmountIn, address(this), poolAmountOut);
if (_subTokenAmountIn > 0) inRecord.balance = bsub(inRecord.balance, _subTokenAmountIn);
_pushPoolShare(msg.sender, poolAmountOut);
return poolAmountOut;
}
function exitswapPoolAmountIn(address tokenOut, uint poolAmountIn, uint minAmountOut)
external
_lock_
returns (uint tokenAmountOut)
{
require(finalized, "!fnl");
require(_records[tokenOut].bound, "!bound");
Record storage outRecord = _records[tokenOut];
tokenAmountOut = calcSingleOutGivenPoolIn(
outRecord.balance,
outRecord.denorm,
_totalSupply,
_totalWeight,
poolAmountIn,
swapFee,
exitFee
);
require(tokenAmountOut >= minAmountOut, "<limO");
require(tokenAmountOut <= bmul(_records[tokenOut].balance, BConst.MAX_OUT_RATIO), ">maxORat");
outRecord.balance = bsub(outRecord.balance, tokenAmountOut);
uint _exitFee = bmul(poolAmountIn, exitFee);
emit LOG_EXIT(msg.sender, tokenOut, tokenAmountOut);
_pullPoolShare(msg.sender, poolAmountIn);
_burnPoolShare(bsub(poolAmountIn, _exitFee));
if (_exitFee > 0) {
_pushPoolShare(factory, _exitFee);
}
(, tokenAmountOut) = _pushCollectedFundGivenOut(address(this), poolAmountIn, tokenOut, tokenAmountOut);
_pushUnderlying(tokenOut, msg.sender, tokenAmountOut);
return tokenAmountOut;
}
// ==
// 'Underlying' token-manipulation functions make external calls but are NOT locked
// You must `_lock_` or otherwise ensure reentry-safety
//
// Fixed ERC-20 transfer revert for some special token such as USDT
function _pullUnderlying(address erc20, address from, uint amount) internal {
// bytes4(keccak256(bytes('transferFrom(address,address,uint256)')));
(bool success, bytes memory data) = erc20.call(abi.encodeWithSelector(0x23b872dd, from, address(this), amount));
require(success && (data.length == 0 || abi.decode(data, (bool))), '!_pullU');
}
function _pushUnderlying(address erc20, address to, uint amount) internal
{
// bytes4(keccak256(bytes('transfer(address,uint256)')));
(bool success, bytes memory data) = erc20.call(abi.encodeWithSelector(0xa9059cbb, to, amount));
require(success && (data.length == 0 || abi.decode(data, (bool))), '!_pushU');
}
function _pullPoolShare(address from, uint amount)
internal
{
_pull(from, amount);
}
function _pushPoolShare(address to, uint amount)
internal
{
_push(to, amount);
}
function _mintPoolShare(uint amount)
internal
{
_mint(amount);
}
function _burnPoolShare(uint amount)
internal
{
_burn(amount);
}
function _pushCollectedFundGivenOut(address _tokenIn, uint _tokenAmountIn, address _tokenOut, uint _tokenAmountOut) internal returns (uint subTokenAmountIn, uint tokenAmountOut) {
subTokenAmountIn = 0;
tokenAmountOut = _tokenAmountOut;
if (collectedFee > 0) {
address _collectedToken = IBFactory(factory).collectedToken();
if (_collectedToken == _tokenIn) {
subTokenAmountIn = bdiv(bmul(_tokenAmountIn, collectedFee), BConst.BONE);
_pushUnderlying(_tokenIn, factory, subTokenAmountIn);
emit LOG_COLLECTED_FUND(_tokenIn, subTokenAmountIn);
} else {
uint _collectedFeeAmount = bdiv(bmul(_tokenAmountOut, collectedFee), BConst.BONE);
_pushUnderlying(_tokenOut, factory, _collectedFeeAmount);
tokenAmountOut = bsub(_tokenAmountOut, _collectedFeeAmount);
emit LOG_COLLECTED_FUND(_tokenOut, _collectedFeeAmount);
}
}
}
// always push out _tokenIn (already have)
function _pushCollectedFundGivenIn(address _tokenIn, uint _tokenAmountIn) internal returns (uint collectedFeeAmount) {
collectedFeeAmount = 0;
if (collectedFee > 0) {
address _collectedToken = IBFactory(factory).collectedToken();
if (_collectedToken != address(0)) {
collectedFeeAmount = bdiv(bmul(_tokenAmountIn, collectedFee), BConst.BONE);
_pushUnderlying(_tokenIn, factory, collectedFeeAmount);
emit LOG_COLLECTED_FUND(_tokenIn, collectedFeeAmount);
}
}
}
}
interface IFaaSPool {
function stake(uint) external;
function withdraw(uint) external;
function getReward(uint8 _pid, address _account) external;
function getAllRewards(address _account) external;
function pendingReward(uint8 _pid, address _account) external view returns (uint);
function emergencyWithdraw() external;
}
interface IFaaSRewardFund {
function balance(IERC20 _token) external view returns (uint);
function safeTransfer(IERC20 _token, address _to, uint _value) external;
}
// This implements BPool contract, and allows for generalized staking, yield farming, and token distribution.
contract FaaSPoolLite is BPoolLite, IFaaSPool {
using SafeMath for uint;
// Info of each user.
struct UserInfo {
uint amount;
mapping(uint8 => uint) rewardDebt;
mapping(uint8 => uint) accumulatedEarned; // will accumulate every time user harvest
mapping(uint8 => uint) lockReward;
mapping(uint8 => uint) lockRewardReleased;
uint lastStakeTime;
}
// Info of each rewardPool funding.
struct RewardPoolInfo {
IERC20 rewardToken; // Address of rewardPool token contract.
uint lastRewardBlock; // Last block number that rewardPool distribution occurs.
uint endRewardBlock; // Block number which rewardPool distribution ends.
uint rewardPerBlock; // Reward token amount to distribute per block.
uint accRewardPerShare; // Accumulated rewardPool per share, times 1e18.
uint lockRewardPercent; // Lock reward percent - 0 to disable lock & vesting
uint startVestingBlock; // Block number which vesting starts.
uint endVestingBlock; // Block number which vesting ends.
uint numOfVestingBlocks;
uint totalPaidRewards;
}
mapping(address => UserInfo) private userInfo;
RewardPoolInfo[] public rewardPoolInfo;
IFaaSRewardFund public rewardFund;
address public exchangeProxy;
uint public unstakingFrozenTime = 3 days;
event Deposit(address indexed account, uint256 amount);
event Withdraw(address indexed account, uint256 amount);
event RewardPaid(uint8 pid, address indexed account, uint256 amount);
constructor(address _factory) public BPoolLite(_factory) {
}
modifier onlyController() {
require(msg.sender == controller, "!cntler");
_;
}
function setRewardFund(IFaaSRewardFund _rewardFund) public onlyController {
rewardFund = _rewardFund;
}
function setExchangeProxy(address _exchangeProxy) public onlyController {
exchangeProxy = _exchangeProxy;
}
function setUnstakingFrozenTime(uint _unstakingFrozenTime) public onlyController {
assert(unstakingFrozenTime <= 30 days); // do not lock fund for too long, please!
unstakingFrozenTime = _unstakingFrozenTime;
}
function addRewardPool(IERC20 _rewardToken, uint256 _startBlock, uint256 _endRewardBlock, uint256 _rewardPerBlock,
uint256 _lockRewardPercent, uint256 _startVestingBlock, uint256 _endVestingBlock) public onlyController {
require(rewardPoolInfo.length < 8, "exceed rwdPoolLim");
require(_startVestingBlock <= _endVestingBlock, "sVB>eVB");
_startBlock = (block.number > _startBlock) ? block.number : _startBlock;
require(_startBlock < _endRewardBlock, "sB>=eB");
updateReward();
rewardPoolInfo.push(RewardPoolInfo({
rewardToken : _rewardToken,
lastRewardBlock : _startBlock,
endRewardBlock : _endRewardBlock,
rewardPerBlock : _rewardPerBlock,
accRewardPerShare : 0,
lockRewardPercent : _lockRewardPercent,
startVestingBlock : _startVestingBlock,
endVestingBlock : _endVestingBlock,
numOfVestingBlocks: _endVestingBlock - _startVestingBlock,
totalPaidRewards: 0
}));
}
function updateRewardPool(uint8 _pid, uint256 _endRewardBlock, uint256 _rewardPerBlock) public onlyController {
updateReward(_pid);
RewardPoolInfo storage rewardPool = rewardPoolInfo[_pid];
require(block.number <= rewardPool.endRewardBlock, "late");
rewardPool.endRewardBlock = _endRewardBlock;
rewardPool.rewardPerBlock = _rewardPerBlock;
}
function joinPool(uint poolAmountOut, uint[] calldata maxAmountsIn) external override {
joinPoolFor(msg.sender, poolAmountOut, maxAmountsIn);
}
function joinPoolFor(address account, uint poolAmountOut, uint[] calldata maxAmountsIn) public _lock_ {
require(msg.sender == account || msg.sender == exchangeProxy, "!(prx||own)");
_joinPool(account, poolAmountOut, maxAmountsIn);
_stakePoolShare(account, poolAmountOut);
}
function joinPoolNotStake(uint poolAmountOut, uint[] calldata maxAmountsIn) external _lock_ {
_joinPool(msg.sender, poolAmountOut, maxAmountsIn);
_pushPoolShare(msg.sender, poolAmountOut);
}
function _joinPool(address account, uint poolAmountOut, uint[] calldata maxAmountsIn) internal {
require(finalized, "!fnl");
uint rewardTotal = totalSupply();
uint ratio = bdiv(poolAmountOut, rewardTotal);
require(ratio != 0, "erMApr");
for (uint i = 0; i < _tokens.length; i++) {
address t = _tokens[i];
uint bal = _records[t].balance;
uint tokenAmountIn = bmul(ratio, bal);
require(tokenAmountIn != 0 && tokenAmountIn <= maxAmountsIn[i], "erMApr||<limIn");
_records[t].balance = badd(_records[t].balance, tokenAmountIn);
emit LOG_JOIN(account, t, tokenAmountIn);
_pullUnderlying(t, msg.sender, tokenAmountIn);
}
_mintPoolShare(poolAmountOut);
}
function stake(uint _shares) external override {
uint _before = balanceOf(address(this));
_pullPoolShare(msg.sender, _shares);
uint _after = balanceOf(address(this));
_shares = bsub(_after, _before); // Additional check for deflationary tokens
_stakePoolShare(msg.sender, _shares);
}
function _stakePoolShare(address _account, uint _shares) internal {
UserInfo storage user = userInfo[_account];
getAllRewards(_account);
user.amount = user.amount.add(_shares);
uint8 rewardPoolLength = uint8(rewardPoolInfo.length);
for (uint8 _pid = 0; _pid < rewardPoolLength; ++_pid) {
user.rewardDebt[_pid] = user.amount.mul(rewardPoolInfo[_pid].accRewardPerShare).div(1e18);
}
user.lastStakeTime = block.timestamp;
emit Deposit(_account, _shares);
}
function unfrozenStakeTime(address _account) public view returns (uint) {
return userInfo[_account].lastStakeTime + unstakingFrozenTime;
}
function withdraw(uint _amount) public override {
UserInfo storage user = userInfo[msg.sender];
require(user.amount >= _amount, "am>us.am");
require(block.timestamp >= user.lastStakeTime.add(unstakingFrozenTime), "frozen");
getAllRewards(msg.sender);
user.amount = bsub(user.amount, _amount);
uint8 rewardPoolLength = uint8(rewardPoolInfo.length);
for (uint8 _pid = 0; _pid < rewardPoolLength; ++_pid) {
user.rewardDebt[_pid] = user.amount.mul(rewardPoolInfo[_pid].accRewardPerShare).div(1e18);
}
_pushPoolShare(msg.sender, _amount);
emit Withdraw(msg.sender, _amount);
}
// using PUSH pattern for using by Proxy if needed
function getAllRewards(address _account) public override {
uint8 rewardPoolLength = uint8(rewardPoolInfo.length);
for (uint8 _pid = 0; _pid < rewardPoolLength; ++_pid) {
getReward(_pid, _account);
}
}
function getReward(uint8 _pid, address _account) public override {
updateReward(_pid);
UserInfo storage user = userInfo[_account];
RewardPoolInfo storage rewardPool = rewardPoolInfo[_pid];
uint _pendingReward = user.amount.mul(rewardPool.accRewardPerShare).div(1e18).sub(user.rewardDebt[_pid]);
uint _lockRewardPercent = rewardPool.lockRewardPercent;
if (_lockRewardPercent > 0) {
if (block.number > rewardPool.endVestingBlock) {
uint _unlockReward = user.lockReward[_pid].sub(user.lockRewardReleased[_pid]);
if (_unlockReward > 0) {
_pendingReward = _pendingReward.add(_unlockReward);
user.lockRewardReleased[_pid] = user.lockRewardReleased[_pid].add(_unlockReward);
}
} else {
if (_pendingReward > 0) {
uint _toLocked = _pendingReward.mul(_lockRewardPercent).div(100);
_pendingReward = _pendingReward.sub(_toLocked);
user.lockReward[_pid] = user.lockReward[_pid].add(_toLocked);
}
if (block.number > rewardPool.startVestingBlock) {
uint _toReleased = user.lockReward[_pid].mul(block.number.sub(rewardPool.startVestingBlock)).div(rewardPool.numOfVestingBlocks);
uint _lockRewardReleased = user.lockRewardReleased[_pid];
if (_toReleased > _lockRewardReleased) {
uint _unlockReward = _toReleased.sub(_lockRewardReleased);
user.lockRewardReleased[_pid] = _lockRewardReleased.add(_unlockReward);
_pendingReward = _pendingReward.add(_unlockReward);
}
}
}
}
if (_pendingReward > 0) {
user.accumulatedEarned[_pid] = user.accumulatedEarned[_pid].add(_pendingReward);
rewardPool.totalPaidRewards = rewardPool.totalPaidRewards.add(_pendingReward);
rewardFund.safeTransfer(rewardPool.rewardToken, _account, _pendingReward);
emit RewardPaid(_pid, _account, _pendingReward);
user.rewardDebt[_pid] = user.amount.mul(rewardPoolInfo[_pid].accRewardPerShare).div(1e18);
}
}
function pendingReward(uint8 _pid, address _account) public override view returns (uint _pending) {
UserInfo storage user = userInfo[_account];
RewardPoolInfo storage rewardPool = rewardPoolInfo[_pid];
uint _accRewardPerShare = rewardPool.accRewardPerShare;
uint lpSupply = balanceOf(address(this));
uint _endRewardBlockApplicable = block.number > rewardPool.endRewardBlock ? rewardPool.endRewardBlock : block.number;
if (_endRewardBlockApplicable > rewardPool.lastRewardBlock && lpSupply != 0) {
uint _numBlocks = _endRewardBlockApplicable.sub(rewardPool.lastRewardBlock);
uint _incRewardPerShare = _numBlocks.mul(rewardPool.rewardPerBlock).mul(1e18).div(lpSupply);
_accRewardPerShare = _accRewardPerShare.add(_incRewardPerShare);
}
_pending = user.amount.mul(_accRewardPerShare).div(1e18).sub(user.rewardDebt[_pid]);
}
// Withdraw without caring about rewards. EMERGENCY ONLY.
function emergencyWithdraw() external override {
UserInfo storage user = userInfo[msg.sender];
uint _amount = user.amount;
_pushPoolShare(msg.sender, _amount);
user.amount = 0;
uint8 rewardPoolLength = uint8(rewardPoolInfo.length);
for (uint8 _pid = 0; _pid < rewardPoolLength; ++_pid) {
user.rewardDebt[_pid] = 0;
}
emit Withdraw(msg.sender, _amount);
}
function getUserInfo(uint8 _pid, address _account) public view returns (uint amount, uint rewardDebt, uint accumulatedEarned, uint lockReward, uint lockRewardReleased) {
UserInfo storage user = userInfo[_account];
amount = user.amount;
rewardDebt = user.rewardDebt[_pid];
accumulatedEarned = user.accumulatedEarned[_pid];
lockReward = user.lockReward[_pid];
lockRewardReleased = user.lockRewardReleased[_pid];
}
function exitPool(uint poolAmountIn, uint[] calldata minAmountsOut) external override _lock_ {
require(finalized, "!fnl");
uint rewardTotal = totalSupply();
uint _exitFee = bmul(poolAmountIn, exitFee);
uint pAiAfterExitFee = bsub(poolAmountIn, _exitFee);
uint ratio = bdiv(pAiAfterExitFee, rewardTotal);
require(ratio != 0, "erMApr");
uint _externalShares = balanceOf(msg.sender);
if (_externalShares < poolAmountIn) {
uint _withdrawShares = bsub(poolAmountIn, _externalShares);
uint _stakedShares = userInfo[msg.sender].amount;
require(_stakedShares >= _withdrawShares, "stk<wdr");
withdraw(_withdrawShares);
}
_pullPoolShare(msg.sender, poolAmountIn);
if (_exitFee > 0) {
_pushPoolShare(factory, _exitFee);
}
_burnPoolShare(pAiAfterExitFee);
for (uint i = 0; i < _tokens.length; i++) {
address t = _tokens[i];
uint bal = _records[t].balance;
uint tokenAmountOut = bmul(ratio, bal);
require(tokenAmountOut != 0, "erMApr");
require(tokenAmountOut >= minAmountsOut[i], "<limO");
_records[t].balance = bsub(_records[t].balance, tokenAmountOut);
emit LOG_EXIT(msg.sender, t, tokenAmountOut);
_pushUnderlying(t, msg.sender, tokenAmountOut);
}
}
function updateReward() public {
uint8 rewardPoolLength = uint8(rewardPoolInfo.length);
for (uint8 _pid = 0; _pid < rewardPoolLength; ++_pid) {
updateReward(_pid);
}
}
function updateReward(uint8 _pid) public {
RewardPoolInfo storage rewardPool = rewardPoolInfo[_pid];
uint _endRewardBlockApplicable = block.number > rewardPool.endRewardBlock ? rewardPool.endRewardBlock : block.number;
if (_endRewardBlockApplicable > rewardPool.lastRewardBlock) {
uint lpSupply = balanceOf(address(this));
if (lpSupply > 0) {
uint _numBlocks = _endRewardBlockApplicable.sub(rewardPool.lastRewardBlock);
uint _incRewardPerShare = _numBlocks.mul(rewardPool.rewardPerBlock).mul(1e18).div(lpSupply);
rewardPool.accRewardPerShare = rewardPool.accRewardPerShare.add(_incRewardPerShare);
}
rewardPool.lastRewardBlock = _endRewardBlockApplicable;
}
}
}
{
"compilationTarget": {
"FaaSPoolLite.sol": "FaaSPoolLite"
},
"evmVersion": "istanbul",
"libraries": {},
"metadata": {
"bytecodeHash": "ipfs"
},
"optimizer": {
"enabled": true,
"runs": 200
},
"remappings": []
}
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