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StakeableToken.sol
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pragma solidity ^0.5.7;
import "./UTXORedeemableToken.sol";
contract StakeableToken is UTXORedeemableToken {
/**
* @dev PUBLIC FACING: Open a stake.
* @param newStakedHearts Number of Hearts to stake
* @param newStakedDays Number of days to stake
*/
function startStake(uint256 newStakedHearts, uint256 newStakedDays)
external
{
GlobalsCache memory g;
GlobalsCache memory gSnapshot;
_loadGlobals(g);
_snapshotGlobalsCache(g, gSnapshot);
/* Make sure staked amount is non-zero */
require(newStakedHearts != 0, "HEX: newStakedHearts must be non-zero");
/* enforce the minimum stake time */
require(newStakedDays >= MIN_STAKE_DAYS, "HEX: newStakedDays lower than minimum");
/* enforce the maximum stake time */
require(newStakedDays <= MAX_STAKE_DAYS, "HEX: newStakedDays higher than maximum");
/* Check if log data needs to be updated */
_storeDailyDataBefore(g, g._currentDay);
uint256 newStakeShares = calcStakeShares(newStakedHearts, newStakedDays);
/*
The startStake timestamp will always be part-way through the current
day, so it needs to be rounded-up to the next day to ensure all
stakes align with the same fixed calendar days. The current day is
already rounded-down, so rounded-up is current day + 1.
*/
uint256 newPooledDay = g._currentDay + 1;
/* Create Stake */
uint48 newStakeId = ++g._latestStakeId;
_addStake(
staked[msg.sender],
newStakeId,
newStakedHearts,
newStakeShares,
newPooledDay,
newStakedDays
);
emit StartStake(
uint40(block.timestamp),
msg.sender,
newStakeId,
newStakedHearts,
uint16(newStakedDays)
);
/* Stake is added to pool in next round, not current round */
g._nextStakeSharesTotal += newStakeShares;
/* Transfer staked Hearts to contract */
_transfer(msg.sender, address(this), newStakedHearts);
_saveGlobals1(g);
_syncGlobals2(g, gSnapshot);
}
/**
* @dev PUBLIC FACING: Removes a completed stake from the global pool,
* distributing the proceeds of any penalty immediately. The staker must
* still call endStake() to retrieve their stake return (if any).
* @param stakerAddr Address of staker
* @param stakeIndex Index of stake within stake list
* @param stakeIdParam The stake's id
*/
function goodAccounting(address stakerAddr, uint256 stakeIndex, uint48 stakeIdParam)
external
{
GlobalsCache memory g;
GlobalsCache memory gSnapshot;
_loadGlobals(g);
_snapshotGlobalsCache(g, gSnapshot);
/* require() is more informative than the default assert() */
require(staked[stakerAddr].length != 0, "HEX: Empty stake list");
require(stakeIndex < staked[stakerAddr].length, "HEX: stakeIndex invalid");
StakeStore storage stRef = staked[stakerAddr][stakeIndex];
/* Get stake copy */
StakeCache memory st;
_loadStake(stRef, stakeIdParam, st);
/* Stake must have served full term */
require(g._currentDay >= st._pooledDay + st._stakedDays, "HEX: Stake not fully served");
/* Stake must be in still in global pool */
require(st._unpooledDay == 0, "HEX: Stake already unpooled");
/* Check if log data needs to be updated */
_storeDailyDataBefore(g, g._currentDay);
/* Remove stake from global pool */
_unpoolStake(g, st);
/* stakeReturn value is unused here */
(, uint256 payout, uint256 penalty, uint256 cappedPenalty) = _calcStakeReturn(
g,
st,
st._stakedDays
);
if (msg.sender == stakerAddr) {
emit GoodAccountingBySelf(
uint40(block.timestamp),
stakerAddr,
stakeIdParam,
payout,
penalty
);
} else {
emit GoodAccountingByOther(
uint40(block.timestamp),
stakerAddr,
stakeIdParam,
payout,
penalty,
msg.sender
);
}
if (cappedPenalty != 0) {
_splitPenaltyProceeds(g, cappedPenalty);
}
/* st._unpooledDay has changed */
_updateStake(stRef, st);
_saveGlobals1(g);
_syncGlobals2(g, gSnapshot);
}
/**
* @dev PUBLIC FACING: Closes a stake. The order of the stake list can change so
* a stake id is used to reject stale indexes.
* @param stakeIndex Index of stake within stake list
* @param stakeIdParam The stake's id
*/
function endStake(uint256 stakeIndex, uint48 stakeIdParam)
external
{
GlobalsCache memory g;
GlobalsCache memory gSnapshot;
_loadGlobals(g);
_snapshotGlobalsCache(g, gSnapshot);
StakeStore[] storage stakeListRef = staked[msg.sender];
/* require() is more informative than the default assert() */
require(stakeListRef.length != 0, "HEX: Empty stake list");
require(stakeIndex < stakeListRef.length, "HEX: stakeIndex invalid");
/* Get stake copy */
StakeCache memory st;
_loadStake(stakeListRef[stakeIndex], stakeIdParam, st);
/* Check if log data needs to be updated */
_storeDailyDataBefore(g, g._currentDay);
uint256 servedDays = 0;
bool prevUnpooled = (st._unpooledDay != 0);
uint256 stakeReturn;
uint256 payout = 0;
uint256 penalty = 0;
uint256 cappedPenalty = 0;
if (g._currentDay >= st._pooledDay) {
if (prevUnpooled) {
/* Previously unpooled in goodAccounting(), so must have served full term */
servedDays = st._stakedDays;
} else {
_unpoolStake(g, st);
servedDays = g._currentDay - st._pooledDay;
if (servedDays > st._stakedDays) {
servedDays = st._stakedDays;
}
}
(stakeReturn, payout, penalty, cappedPenalty) = _calcStakeReturn(g, st, servedDays);
} else {
/* Stake hasn't been added to the global pool yet, so no penalties or rewards apply */
g._nextStakeSharesTotal -= st._stakeShares;
stakeReturn = st._stakedHearts;
}
emit EndStake(
uint40(block.timestamp),
msg.sender,
stakeIdParam,
payout,
penalty,
uint16(servedDays)
);
if (cappedPenalty != 0 && !prevUnpooled) {
/* Split penalty proceeds only if not previously unpooled by goodAccounting() */
_splitPenaltyProceeds(g, cappedPenalty);
}
if (stakeReturn != 0) {
/* Transfer stake return from contract back to staker */
_transfer(address(this), msg.sender, stakeReturn);
}
_removeStakeFromList(stakeListRef, stakeIndex);
_saveGlobals1(g);
_syncGlobals2(g, gSnapshot);
}
/**
* @dev PUBLIC FACING: Return the current stake count for an Eth address
* @param ethAddr Ethereum address
*/
function getStakeCount(address ethAddr)
external
view
returns (uint256)
{
return staked[ethAddr].length;
}
/**
* @dev PUBLIC FACING: Calculates total stake payout including rewards for a multi-day range
* @param stakeSharesParam param from stake to calculate bonuses for
* @param beginDay first day to calculate bonuses for
* @param endDay last day (non-inclusive) of range to calculate bonuses for
* @return payout Hearts
*/
function calcPayoutRewards(uint256 stakeSharesParam, uint256 beginDay, uint256 endDay)
public
view
returns (uint256 payout)
{
for (uint256 day = beginDay; day < endDay; day++) {
payout += dailyData[day].dayPayoutTotal * stakeSharesParam / dailyData[day].dayStakeSharesTotal;
}
return payout;
}
/**
* @dev Calculate stakeShares for a new stake, including any bonus
* @param newStakedHearts Number of Hearts to stake
* @param newStakedDays Number of days to stake
*/
function calcStakeShares(uint256 newStakedHearts, uint256 newStakedDays)
private
pure
returns (uint256)
{
/*
LONGER PAYS BETTER:
If longer than 1 day stake is committed to, each extra day
gives bonus shares of approximately 0.0548%, which is approximately 20%
extra per year of increased stakelength committed to, but capped to a
maximum of 200% extra.
extraDays = stakedDays - 1
longerBonus% = (extraDays / 364) * 20%
= (extraDays / 364) / 5
= extraDays / 1820
= extraDays / LPB_D
extraDays = longerBonus% * 1820
extraDaysCap = longerBonusCap% * 1820
= 200% * 1820
= 3640
= LPB_D_CAP_DAYS
longerAmount = hearts * longerBonus%
LARGER PAYS BETTER:
Bonus percentage scaled 0% to 10% for the first 150M HEX of stake.
largerBonus% = (hearts / 150e14) * 10%
= (hearts / 150e14) / 10
= hearts / 150e15
largerAmount = hearts * largerBonus%
combinedBonus% = longerBonus% + largerBonus%
extraWeeks hearts
= ---------- + ------
260 150e15
extraDays * 150e15 hearts * 1820
= ------------------ + -------------
1820 * 150e15 1820 * 150e15
extraDays * 150e15 hearts * 1820
= ------------------ + -------------
1820 * 150e15 1820 * 150e15
extraDays * 150e15 + hearts * 1820
= ------------------------------------
1820 * 150e15
combinedAmount = hearts * combinedBonus%
= hearts * (extraDays * 150e15 + hearts * 1820) / (1820 * 150e15)
= hearts * (extraDays * LPB_H + hearts * LPB_D) / (LPB_D * LPB_H)
stakeShares = hearts + combinedAmount
*/
uint256 cappedExtraDays = 0;
/* Must be more than 1 day for Longer-Pays-Better */
if (newStakedDays > 1) {
cappedExtraDays = newStakedDays <= LPB_D_CAP_DAYS ? newStakedDays - 1 : LPB_D_CAP_DAYS;
}
uint256 cappedStakedHearts = newStakedHearts <= LPB_H_CAP_HEARTS
? newStakedHearts
: LPB_H_CAP_HEARTS;
uint256 combinedAmount = cappedExtraDays * LPB_H + cappedStakedHearts * LPB_D;
combinedAmount = newStakedHearts * combinedAmount / (LPB_D * LPB_H);
return newStakedHearts + combinedAmount;
}
function _unpoolStake(GlobalsCache memory g, StakeCache memory st)
private
pure
{
g._stakeSharesTotal -= st._stakeShares;
st._unpooledDay = g._currentDay;
}
function _calcStakeReturn(GlobalsCache memory g, StakeCache memory st, uint256 servedDays)
private
view
returns (uint256 stakeReturn, uint256 payout, uint256 penalty, uint256 cappedPenalty)
{
if (servedDays < st._stakedDays) {
(payout, penalty) = _calcPayoutAndEarlyPenalty(
g,
st._pooledDay,
st._stakedDays,
servedDays,
st._stakeShares
);
stakeReturn = st._stakedHearts + payout;
} else {
payout = calcPayoutRewards(st._stakeShares, st._pooledDay, st._pooledDay + servedDays);
stakeReturn = st._stakedHearts + payout;
penalty = _calcLatePenalty(
st._stakedDays,
st._unpooledDay - st._pooledDay,
stakeReturn
);
}
if (penalty != 0) {
if (penalty > stakeReturn) {
/* Cannot have a negative stake return */
cappedPenalty = stakeReturn;
stakeReturn = 0;
} else {
/* Remove penalty from the stake return */
cappedPenalty = penalty;
stakeReturn -= cappedPenalty;
}
}
return (stakeReturn, payout, penalty, cappedPenalty);
}
/**
* @dev Calculates served payout and early penalty for early unstake
* @param g pre-loaded globals cache
* @param pooledDayParam param from stake
* @param stakedDaysParam param from stake
* @param servedDays number of days actually served
* @param stakeSharesParam param from stake
* @return 1: payout Hearts; 2: penalty Hearts
*/
function _calcPayoutAndEarlyPenalty(
GlobalsCache memory g,
uint256 pooledDayParam,
uint256 stakedDaysParam,
uint256 servedDays,
uint256 stakeSharesParam
)
private
view
returns (uint256 payout, uint256 penalty)
{
uint256 servedEndDay = pooledDayParam + servedDays;
/* 50% of stakedDays (rounded up) with a minimum applied */
uint256 penaltyDays = stakedDaysParam / 2 + stakedDaysParam % 2;
if (penaltyDays < EARLY_PENALTY_MIN_DAYS) {
penaltyDays = EARLY_PENALTY_MIN_DAYS;
}
if (servedDays == 0) {
/* Fill penalty days with the estimated average payout */
uint256 expected = _estimatePayoutRewardsDay(g, stakeSharesParam, pooledDayParam);
penalty = expected * penaltyDays;
return (payout, penalty); // Actual payout was 0
}
if (penaltyDays < servedDays) {
/*
Simplified explanation of intervals where end-day is non-inclusive:
penalty: [pooledDay ... penaltyEndDay)
delta: [penaltyEndDay ... servedEndDay)
payout: [pooledDay ....................... servedEndDay)
*/
uint256 penaltyEndDay = pooledDayParam + penaltyDays;
penalty = calcPayoutRewards(stakeSharesParam, pooledDayParam, penaltyEndDay);
uint256 delta = calcPayoutRewards(stakeSharesParam, penaltyEndDay, servedEndDay);
payout = penalty + delta;
return (payout, penalty);
}
/* penaltyDays >= servedDays */
payout = calcPayoutRewards(stakeSharesParam, pooledDayParam, servedEndDay);
if (penaltyDays == servedDays) {
penalty = payout;
} else {
/*
(penaltyDays > servedDays) means not enough days served, so fill the
penalty days with the average payout from only the days that were served.
*/
penalty = payout * penaltyDays / servedDays;
}
return (payout, penalty);
}
/**
* @dev Calculates penalty for ending stake late
* and adds penalty to payout pool
* @param stakedDaysParam param from stake
* @param unpooledDays stake unpooledDay minus stake pooledDay
* @param rawStakeReturn committed stakeHearts plus payout
* @return penalty Hearts
*/
function _calcLatePenalty(uint256 stakedDaysParam, uint256 unpooledDays, uint256 rawStakeReturn)
private
pure
returns (uint256)
{
/* Allow grace time before penalties accrue */
stakedDaysParam += LATE_PENALTY_GRACE_DAYS;
if (unpooledDays <= stakedDaysParam) {
return 0;
}
/* Calculate penalty as a percentage of stake return based on time */
return rawStakeReturn * (unpooledDays - stakedDaysParam) / LATE_PENALTY_SCALE_DAYS;
}
}