package keeper import ( "fmt" "time" "github.com/cosmos/cosmos-sdk/codec" sdk "github.com/cosmos/cosmos-sdk/types" stakingexported "github.com/cosmos/cosmos-sdk/x/staking/exported" "github.com/kava-labs/kava/x/validator-vesting/types" "github.com/tendermint/tendermint/libs/log" ) // Keeper of the validatorvesting store type Keeper struct { storeKey sdk.StoreKey cdc *codec.Codec ak types.AccountKeeper bk types.BankKeeper supplyKeeper types.SupplyKeeper stakingKeeper types.StakingKeeper } // NewKeeper creates a new Keeper instance func NewKeeper(cdc *codec.Codec, key sdk.StoreKey, ak types.AccountKeeper, bk types.BankKeeper, sk types.SupplyKeeper, stk types.StakingKeeper) Keeper { return Keeper{ cdc: cdc, storeKey: key, ak: ak, bk: bk, supplyKeeper: sk, stakingKeeper: stk, } } // Logger returns a module-specific logger. func (k Keeper) Logger(ctx sdk.Context) log.Logger { return ctx.Logger().With("module", fmt.Sprintf("x/%s", types.ModuleName)) } // GetPreviousBlockTime get the blocktime for the previous block func (k Keeper) GetPreviousBlockTime(ctx sdk.Context) (blockTime time.Time) { store := ctx.KVStore(k.storeKey) b := store.Get(types.BlocktimeKey) if b == nil { panic("Previous block time not set") } k.cdc.MustUnmarshalBinaryLengthPrefixed(b, &blockTime) return blockTime } // SetPreviousBlockTime set the time of the previous block func (k Keeper) SetPreviousBlockTime(ctx sdk.Context, blockTime time.Time) { store := ctx.KVStore(k.storeKey) b := k.cdc.MustMarshalBinaryLengthPrefixed(blockTime) store.Set(types.BlocktimeKey, b) } // SetValidatorVestingAccountKey stores the account key in the store. This is useful for when we want to iterate over all ValidatorVestingAcounts, so we can avoid iterating over any other accounts stored in the auth keeper. func (k Keeper) SetValidatorVestingAccountKey(ctx sdk.Context, addr sdk.AccAddress) { store := ctx.KVStore(k.storeKey) // using empty bytes as value since the only thing we want to do is iterate over the keys. store.Set(types.ValidatorVestingAccountKey(addr), []byte{0}) } // IterateAccountKeys iterates over all the stored account keys and performs a callback function func (k Keeper) IterateAccountKeys(ctx sdk.Context, cb func(accountKey []byte) (stop bool)) { store := ctx.KVStore(k.storeKey) iterator := sdk.KVStorePrefixIterator(store, types.ValidatorVestingAccountPrefix) defer iterator.Close() for ; iterator.Valid(); iterator.Next() { accountKey := iterator.Key() if cb(accountKey) { break } } } // GetAllAccountKeys returns all account keys in the validator vesting keeper. func (k Keeper) GetAllAccountKeys(ctx sdk.Context) (keys [][]byte) { k.IterateAccountKeys(ctx, func(key []byte) (stop bool) { keys = append(keys, key[1:]) return false }) return keys } // GetAccountFromAuthKeeper returns a ValidatorVestingAccount from the auth keeper func (k Keeper) GetAccountFromAuthKeeper(ctx sdk.Context, addr sdk.AccAddress) *types.ValidatorVestingAccount { acc := k.ak.GetAccount(ctx, addr) vv, ok := acc.(*types.ValidatorVestingAccount) if ok { return vv } panic("validator vesting account not found") } // UpdateMissingSignCount increments the count of blocks missed during the current period func (k Keeper) UpdateMissingSignCount(ctx sdk.Context, addr sdk.AccAddress, missedBlock bool) { vv := k.GetAccountFromAuthKeeper(ctx, addr) if missedBlock { vv.CurrentPeriodProgress.MissedBlocks++ } vv.CurrentPeriodProgress.TotalBlocks++ k.ak.SetAccount(ctx, vv) } // UpdateVestedCoinsProgress sets the VestingPeriodProgress variable (0 = coins did not vest for the period, 1 = coins did vest for the period) for the given address and period. If coins did not vest, those coins are added to DebtAfterFailedVesting. Finally, MissingSignCount is reset to [0,0], representing that the next period has started and no blocks have been missed. func (k Keeper) UpdateVestedCoinsProgress(ctx sdk.Context, addr sdk.AccAddress, period int) { vv := k.GetAccountFromAuthKeeper(ctx, addr) var successfulVest bool if sdk.NewDec(vv.CurrentPeriodProgress.TotalBlocks).IsZero() { successfulVest = true } else { successfulVest = vv.CurrentPeriodProgress.SignedPercetageIsOverThreshold(vv.SigningThreshold) } if successfulVest { k.SetVestingProgress(ctx, addr, period, true) } else { k.SetVestingProgress(ctx, addr, period, false) k.AddDebt(ctx, addr, vv.VestingPeriods[period].Amount) } k.ResetCurrentPeriodProgress(ctx, addr) } // SetVestingProgress sets VestingPeriodProgress for the input period func (k Keeper) SetVestingProgress(ctx sdk.Context, addr sdk.AccAddress, period int, success bool) { vv := k.GetAccountFromAuthKeeper(ctx, addr) vv.VestingPeriodProgress[period] = types.VestingProgress{PeriodComplete: true, VestingSuccessful: success} k.ak.SetAccount(ctx, vv) } // AddDebt adds the input amount to DebtAfterFailedVesting field func (k Keeper) AddDebt(ctx sdk.Context, addr sdk.AccAddress, amount sdk.Coins) { vv := k.GetAccountFromAuthKeeper(ctx, addr) vv.DebtAfterFailedVesting = vv.DebtAfterFailedVesting.Add(amount...) k.ak.SetAccount(ctx, vv) } // ResetCurrentPeriodProgress resets CurrentPeriodProgress to zero values func (k Keeper) ResetCurrentPeriodProgress(ctx sdk.Context, addr sdk.AccAddress) { vv := k.GetAccountFromAuthKeeper(ctx, addr) vv.CurrentPeriodProgress = types.CurrentPeriodProgress{TotalBlocks: 0, MissedBlocks: 0} k.ak.SetAccount(ctx, vv) } // HandleVestingDebt removes coins after a vesting period in which the vesting // threshold was not met. Sends/Burns tokens if there is enough spendable tokens, // otherwise unbonds all existing tokens. func (k Keeper) HandleVestingDebt(ctx sdk.Context, addr sdk.AccAddress, blockTime time.Time) { vv := k.GetAccountFromAuthKeeper(ctx, addr) if !vv.DebtAfterFailedVesting.IsZero() { spendableCoins := vv.SpendableCoins(blockTime) if spendableCoins.IsAllGTE(vv.DebtAfterFailedVesting) { if vv.ReturnAddress != nil { err := k.bk.SendCoins(ctx, addr, vv.ReturnAddress, vv.DebtAfterFailedVesting) if err != nil { panic(err) } } else { err := k.supplyKeeper.SendCoinsFromAccountToModule(ctx, addr, types.ModuleName, vv.DebtAfterFailedVesting) if err != nil { panic(err) } err = k.supplyKeeper.BurnCoins(ctx, types.ModuleName, vv.DebtAfterFailedVesting) if err != nil { panic(err) } } k.ResetDebt(ctx, addr) } else { // iterate over all delegations made from the validator vesting account and undelegate // note that we cannot safely undelegate only an amount of shares that covers the debt, // because the value of those shares could change if a validator gets slashed. k.stakingKeeper.IterateDelegations(ctx, vv.Address, func(index int64, d stakingexported.DelegationI) (stop bool) { k.stakingKeeper.Undelegate(ctx, d.GetDelegatorAddr(), d.GetValidatorAddr(), d.GetShares()) return false }) } } } // ResetDebt sets DebtAfterFailedVesting to zero func (k Keeper) ResetDebt(ctx sdk.Context, addr sdk.AccAddress) { vv := k.GetAccountFromAuthKeeper(ctx, addr) vv.DebtAfterFailedVesting = sdk.NewCoins() k.ak.SetAccount(ctx, vv) } // GetPeriodEndTimes returns an array of the times when each period ends func (k Keeper) GetPeriodEndTimes(ctx sdk.Context, addr sdk.AccAddress) []int64 { var endTimes []int64 vv := k.GetAccountFromAuthKeeper(ctx, addr) currentEndTime := vv.StartTime for _, p := range vv.VestingPeriods { currentEndTime += p.Length endTimes = append(endTimes, currentEndTime) } return endTimes } // AccountIsVesting returns true if all vesting periods is complete and there is no debt func (k Keeper) AccountIsVesting(ctx sdk.Context, addr sdk.AccAddress) bool { vv := k.GetAccountFromAuthKeeper(ctx, addr) if !vv.DebtAfterFailedVesting.IsZero() { return true } for _, p := range vv.VestingPeriodProgress { if !p.PeriodComplete { return true } } return false }