0g-chain/x/kavadist/keeper/infrastructure.go
2024-08-03 17:51:56 +08:00

102 lines
3.4 KiB
Go

package keeper
import (
"fmt"
"time"
sdkmath "cosmossdk.io/math"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/0glabs/0g-chain/x/kavadist/types"
)
func (k Keeper) mintInfrastructurePeriods(ctx sdk.Context, periods types.Periods, previousBlockTime time.Time) (sdk.Coin, sdkmath.Int, error) {
var err error
coinsMinted := sdk.NewCoin(types.GovDenom, sdk.ZeroInt())
timeElapsed := sdk.ZeroInt()
for _, period := range periods {
switch {
// Case 1 - period is fully expired
case period.End.Before(previousBlockTime):
continue
// Case 2 - period has ended since the previous block time
case period.End.After(previousBlockTime) && (period.End.Before(ctx.BlockTime()) || period.End.Equal(ctx.BlockTime())):
// calculate time elapsed relative to the periods end time
timeElapsed = sdkmath.NewInt(period.End.Unix() - previousBlockTime.Unix())
coins, errI := k.mintInflationaryCoins(ctx, period.Inflation, timeElapsed, types.GovDenom)
err = errI
if !coins.IsZero() {
coinsMinted = coinsMinted.Add(coins)
}
// update the value of previousBlockTime so that the next period starts from the end of the last
// period and not the original value of previousBlockTime
previousBlockTime = period.End
// Case 3 - period is ongoing
case (period.Start.Before(previousBlockTime) || period.Start.Equal(previousBlockTime)) && period.End.After(ctx.BlockTime()):
// calculate time elapsed relative to the current block time
timeElapsed = sdkmath.NewInt(ctx.BlockTime().Unix() - previousBlockTime.Unix())
coins, errI := k.mintInflationaryCoins(ctx, period.Inflation, timeElapsed, types.GovDenom)
if !coins.IsZero() {
coinsMinted = coinsMinted.Add(coins)
}
err = errI
// Case 4 - period hasn't started
case period.Start.After(ctx.BlockTime()) || period.Start.Equal(ctx.BlockTime()):
timeElapsed = sdkmath.NewInt(ctx.BlockTime().Unix() - previousBlockTime.Unix())
continue
}
if err != nil {
return sdk.Coin{}, sdkmath.Int{}, err
}
}
return coinsMinted, timeElapsed, nil
}
func (k Keeper) distributeInfrastructureCoins(ctx sdk.Context, partnerRewards types.PartnerRewards, coreRewards types.CoreRewards, timeElapsed sdkmath.Int, coinsToDistribute sdk.Coin) error {
if timeElapsed.IsZero() {
return nil
}
if coinsToDistribute.IsZero() {
return nil
}
for _, pr := range partnerRewards {
coinsToSend := sdk.NewCoin(types.GovDenom, pr.RewardsPerSecond.Amount.Mul(timeElapsed))
// TODO check balance, log if insufficient and return rather than error
err := k.bankKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, pr.Address, sdk.NewCoins(coinsToSend))
if err != nil {
return err
}
neg, updatedCoins := safeSub(coinsToDistribute, coinsToSend)
if neg {
return fmt.Errorf("negative coins")
}
coinsToDistribute = updatedCoins
}
for _, cr := range coreRewards {
coinsToSend := sdk.NewCoin(types.GovDenom, sdk.NewDecFromInt(coinsToDistribute.Amount).Mul(cr.Weight).RoundInt())
// TODO check balance, log if insufficient and return rather than error
err := k.bankKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, cr.Address, sdk.NewCoins(coinsToSend))
if err != nil {
return err
}
neg, updatedCoins := safeSub(coinsToDistribute, coinsToSend)
if neg {
return fmt.Errorf("negative coins")
}
coinsToDistribute = updatedCoins
}
return nil
}
func safeSub(a, b sdk.Coin) (bool, sdk.Coin) {
isNeg := a.IsLT(b)
if isNeg {
return true, sdk.Coin{}
}
return false, a.Sub(b)
}