package keeper import ( "context" "fmt" "cosmossdk.io/math" sdk "git.cw.tr/mukan-network/mukan-sdk/types" "git.cw.tr/mukan-network/mukan-sdk/x/distribution/types" stakingtypes "git.cw.tr/mukan-network/mukan-sdk/x/staking/types" ) // initialize starting info for a new delegation func (k Keeper) initializeDelegation(ctx context.Context, val sdk.ValAddress, del sdk.AccAddress) error { // period has already been incremented - we want to store the period ended by this delegation action valCurrentRewards, err := k.GetValidatorCurrentRewards(ctx, val) if err != nil { return err } previousPeriod := valCurrentRewards.Period - 1 // increment reference count for the period we're going to track err = k.incrementReferenceCount(ctx, val, previousPeriod) if err != nil { return err } validator, err := k.stakingKeeper.Validator(ctx, val) if err != nil { return err } delegation, err := k.stakingKeeper.Delegation(ctx, del, val) if err != nil { return err } // calculate delegation stake in tokens // we don't store directly, so multiply delegation shares * (tokens per share) // note: necessary to truncate so we don't allow withdrawing more rewards than owed stake := validator.TokensFromSharesTruncated(delegation.GetShares()) sdkCtx := sdk.UnwrapSDKContext(ctx) return k.SetDelegatorStartingInfo(ctx, val, del, types.NewDelegatorStartingInfo(previousPeriod, stake, uint64(sdkCtx.BlockHeight()))) } // calculate the rewards accrued by a delegation between two periods func (k Keeper) calculateDelegationRewardsBetween(ctx context.Context, val stakingtypes.ValidatorI, startingPeriod, endingPeriod uint64, stake math.LegacyDec, ) (sdk.DecCoins, error) { // sanity check if startingPeriod > endingPeriod { panic("startingPeriod cannot be greater than endingPeriod") } // sanity check if stake.IsNegative() { panic("stake should not be negative") } valBz, err := k.stakingKeeper.ValidatorAddressCodec().StringToBytes(val.GetOperator()) if err != nil { panic(err) } // return staking * (ending - starting) starting, err := k.GetValidatorHistoricalRewards(ctx, valBz, startingPeriod) if err != nil { return sdk.DecCoins{}, err } ending, err := k.GetValidatorHistoricalRewards(ctx, valBz, endingPeriod) if err != nil { return sdk.DecCoins{}, err } difference := ending.CumulativeRewardRatio.Sub(starting.CumulativeRewardRatio) if difference.IsAnyNegative() { panic("negative rewards should not be possible") } // note: necessary to truncate so we don't allow withdrawing more rewards than owed rewards := difference.MulDecTruncate(stake) return rewards, nil } // calculate the total rewards accrued by a delegation func (k Keeper) CalculateDelegationRewards(ctx context.Context, val stakingtypes.ValidatorI, del stakingtypes.DelegationI, endingPeriod uint64) (rewards sdk.DecCoins, err error) { addrCodec := k.authKeeper.AddressCodec() delAddr, err := addrCodec.StringToBytes(del.GetDelegatorAddr()) if err != nil { return sdk.DecCoins{}, err } valAddr, err := k.stakingKeeper.ValidatorAddressCodec().StringToBytes(del.GetValidatorAddr()) if err != nil { return sdk.DecCoins{}, err } // fetch starting info for delegation startingInfo, err := k.GetDelegatorStartingInfo(ctx, sdk.ValAddress(valAddr), sdk.AccAddress(delAddr)) if err != nil { return sdk.DecCoins{}, err } sdkCtx := sdk.UnwrapSDKContext(ctx) if startingInfo.Height == uint64(sdkCtx.BlockHeight()) { // started this height, no rewards yet return sdk.DecCoins{}, err } startingPeriod := startingInfo.PreviousPeriod stake := startingInfo.Stake // Iterate through slashes and withdraw with calculated staking for // distribution periods. These period offsets are dependent on *when* slashes // happen - namely, in BeginBlock, after rewards are allocated... // Slashes which happened in the first block would have been before this // delegation existed, UNLESS they were slashes of a redelegation to this // validator which was itself slashed (from a fault committed by the // redelegation source validator) earlier in the same BeginBlock. startingHeight := startingInfo.Height // Slashes this block happened after reward allocation, but we have to account // for them for the stake sanity check below. endingHeight := uint64(sdkCtx.BlockHeight()) if endingHeight > startingHeight { k.IterateValidatorSlashEventsBetween(ctx, valAddr, startingHeight, endingHeight, func(height uint64, event types.ValidatorSlashEvent) (stop bool) { endingPeriod := event.ValidatorPeriod if endingPeriod > startingPeriod { delRewards, err := k.calculateDelegationRewardsBetween(ctx, val, startingPeriod, endingPeriod, stake) if err != nil { panic(err) } rewards = rewards.Add(delRewards...) // Note: It is necessary to truncate so we don't allow withdrawing // more rewards than owed. stake = stake.MulTruncate(math.LegacyOneDec().Sub(event.Fraction)) startingPeriod = endingPeriod } return false }, ) } // A total stake sanity check; Recalculated final stake should be less than or // equal to current stake here. We cannot use Equals because stake is truncated // when multiplied by slash fractions (see above). We could only use equals if // we had arbitrary-precision rationals. currentStake := val.TokensFromShares(del.GetShares()) if stake.GT(currentStake) { // AccountI for rounding inconsistencies between: // // currentStake: calculated as in staking with a single computation // stake: calculated as an accumulation of stake // calculations across validator's distribution periods // // These inconsistencies are due to differing order of operations which // will inevitably have different accumulated rounding and may lead to // the smallest decimal place being one greater in stake than // currentStake. When we calculated slashing by period, even if we // round down for each slash fraction, it's possible due to how much is // being rounded that we slash less when slashing by period instead of // for when we slash without periods. In other words, the single slash, // and the slashing by period could both be rounding down but the // slashing by period is simply rounding down less, thus making stake > // currentStake // // A small amount of this error is tolerated and corrected for, // however any greater amount should be considered a breach in expected // behavior. marginOfErr := math.LegacySmallestDec().MulInt64(3) if stake.LTE(currentStake.Add(marginOfErr)) { stake = currentStake } else { panic(fmt.Sprintf("calculated final stake for delegator %s greater than current stake"+ "\n\tfinal stake:\t%s"+ "\n\tcurrent stake:\t%s", del.GetDelegatorAddr(), stake, currentStake)) } } // calculate rewards for final period delRewards, err := k.calculateDelegationRewardsBetween(ctx, val, startingPeriod, endingPeriod, stake) if err != nil { return sdk.DecCoins{}, err } rewards = rewards.Add(delRewards...) return rewards, nil } func (k Keeper) withdrawDelegationRewards(ctx context.Context, val stakingtypes.ValidatorI, del stakingtypes.DelegationI) (sdk.Coins, error) { addrCodec := k.authKeeper.AddressCodec() delAddr, err := addrCodec.StringToBytes(del.GetDelegatorAddr()) if err != nil { return nil, err } valAddr, err := k.stakingKeeper.ValidatorAddressCodec().StringToBytes(del.GetValidatorAddr()) if err != nil { return nil, err } // check existence of delegator starting info hasInfo, err := k.HasDelegatorStartingInfo(ctx, sdk.ValAddress(valAddr), sdk.AccAddress(delAddr)) if err != nil { return nil, err } if !hasInfo { return nil, types.ErrEmptyDelegationDistInfo } // end current period and calculate rewards endingPeriod, err := k.IncrementValidatorPeriod(ctx, val) if err != nil { return nil, err } rewardsRaw, err := k.CalculateDelegationRewards(ctx, val, del, endingPeriod) if err != nil { return nil, err } outstanding, err := k.GetValidatorOutstandingRewardsCoins(ctx, sdk.ValAddress(valAddr)) if err != nil { return nil, err } // defensive edge case may happen on the very final digits // of the decCoins due to operation order of the distribution mechanism. rewards := rewardsRaw.Intersect(outstanding) if !rewards.Equal(rewardsRaw) { logger := k.Logger(ctx) logger.Info( "rounding error withdrawing rewards from validator", "delegator", del.GetDelegatorAddr(), "validator", val.GetOperator(), "got", rewards.String(), "expected", rewardsRaw.String(), ) } // truncate reward dec coins, return remainder to community pool finalRewards, remainder := rewards.TruncateDecimal() // add coins to user account if !finalRewards.IsZero() { withdrawAddr, err := k.GetDelegatorWithdrawAddr(ctx, delAddr) if err != nil { return nil, err } err = k.bankKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, withdrawAddr, finalRewards) if err != nil { return nil, err } } // update the outstanding rewards and the community pool only if the // transaction was successful err = k.SetValidatorOutstandingRewards(ctx, sdk.ValAddress(valAddr), types.ValidatorOutstandingRewards{Rewards: outstanding.Sub(rewards)}) if err != nil { return nil, err } feePool, err := k.FeePool.Get(ctx) if err != nil { return nil, err } feePool.CommunityPool = feePool.CommunityPool.Add(remainder...) err = k.FeePool.Set(ctx, feePool) if err != nil { return nil, err } // decrement reference count of starting period startingInfo, err := k.GetDelegatorStartingInfo(ctx, sdk.ValAddress(valAddr), sdk.AccAddress(delAddr)) if err != nil { return nil, err } startingPeriod := startingInfo.PreviousPeriod err = k.decrementReferenceCount(ctx, sdk.ValAddress(valAddr), startingPeriod) if err != nil { return nil, err } // remove delegator starting info err = k.DeleteDelegatorStartingInfo(ctx, sdk.ValAddress(valAddr), sdk.AccAddress(delAddr)) if err != nil { return nil, err } if finalRewards.IsZero() { baseDenom, _ := sdk.GetBaseDenom() if baseDenom == "" { baseDenom = sdk.DefaultBondDenom } // Note, we do not call the NewCoins constructor as we do not want the zero // coin removed. finalRewards = sdk.Coins{sdk.NewCoin(baseDenom, math.ZeroInt())} } sdkCtx := sdk.UnwrapSDKContext(ctx) sdkCtx.EventManager().EmitEvent( sdk.NewEvent( types.EventTypeWithdrawRewards, sdk.NewAttribute(sdk.AttributeKeyAmount, finalRewards.String()), sdk.NewAttribute(types.AttributeKeyValidator, val.GetOperator()), sdk.NewAttribute(types.AttributeKeyDelegator, del.GetDelegatorAddr()), ), ) return finalRewards, nil }