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slash.go
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slash.go
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package keeper
import (
"context"
"errors"
"fmt"
"cosmossdk.io/math"
types "github.com/axiome-pro/axm-node/x/staking/types"
sdk "github.com/cosmos/cosmos-sdk/types"
)
// Slash a validator for an infraction committed at a known height
// Find the contributing stake at that height and burn the specified slashFactor
// of it, updating unbonding delegations & redelegations appropriately
//
// CONTRACT:
//
// slashFactor is non-negative
//
// CONTRACT:
//
// Infraction was committed equal to or less than an unbonding period in the past,
// so all unbonding delegations and redelegations from that height are stored
//
// CONTRACT:
//
// Slash will not slash unbonded validators (for the above reason)
//
// CONTRACT:
//
// Infraction was committed at the current height or at a past height,
// but not at a height in the future
func (k Keeper) Slash(ctx context.Context, consAddr sdk.ConsAddress, infractionHeight, power int64, slashFactor math.LegacyDec) (math.Int, error) {
logger := k.Logger(ctx)
sdkCtx := sdk.UnwrapSDKContext(ctx)
if slashFactor.IsNegative() {
return math.NewInt(0), fmt.Errorf("attempted to slash with a negative slash factor: %v", slashFactor)
}
// Amount of slashing = slash slashFactor * power at time of infraction
amount := k.TokensFromConsensusPower(ctx, power)
slashAmountDec := math.LegacyNewDecFromInt(amount).Mul(slashFactor)
slashAmount := slashAmountDec.TruncateInt()
// ref https://github.com/cosmos/cosmos-sdk/issues/1348
validator, err := k.GetValidatorByConsAddr(ctx, consAddr)
if errors.Is(err, types.ErrNoValidatorFound) {
// If not found, the validator must have been overslashed and removed - so we don't need to do anything
// NOTE: Correctness dependent on invariant that unbonding delegations / redelegations must also have been completely
// slashed in this case - which we don't explicitly check, but should be true.
// Log the slash attempt for future reference (maybe we should tag it too)
conStr, err := k.consensusAddressCodec.BytesToString(consAddr)
if err != nil {
panic(err)
}
logger.Error(
"WARNING: ignored attempt to slash a nonexistent validator; we recommend you investigate immediately",
"validator", conStr,
)
return math.NewInt(0), nil
} else if err != nil {
return math.NewInt(0), err
}
// should not be slashing an unbonded validator
if validator.IsUnbonded() {
return math.NewInt(0), fmt.Errorf("should not be slashing unbonded validator: %s", validator.GetOperator())
}
operatorAddress, err := k.ValidatorAddressCodec().StringToBytes(validator.GetOperator())
if err != nil {
return math.Int{}, err
}
// call the before-modification hook
if err := k.Hooks().BeforeValidatorModified(ctx, operatorAddress); err != nil {
k.Logger(ctx).Error("failed to call before validator modified hook", "error", err)
}
// Track remaining slash amount for the validator
// This will decrease when we slash unbondings and
// redelegations, as that stake has since unbonded
remainingSlashAmount := slashAmount
switch {
case infractionHeight > sdkCtx.BlockHeight():
// Can't slash infractions in the future
return math.NewInt(0), fmt.Errorf(
"impossible attempt to slash future infraction at height %d but we are at height %d",
infractionHeight, sdkCtx.BlockHeight())
case infractionHeight == sdkCtx.BlockHeight():
// Special-case slash at current height for efficiency - we don't need to
// look through unbonding delegations or redelegations.
logger.Info(
"slashing at current height; not scanning unbonding delegations & redelegations",
"height", infractionHeight,
)
case infractionHeight < sdkCtx.BlockHeight():
// Iterate through unbonding delegations from slashed validator
unbondingDelegations, err := k.GetUnbondingDelegationsFromValidator(ctx, operatorAddress)
if err != nil {
return math.NewInt(0), err
}
for _, unbondingDelegation := range unbondingDelegations {
amountSlashed, err := k.SlashUnbondingDelegation(ctx, unbondingDelegation, infractionHeight, slashFactor)
if err != nil {
return math.ZeroInt(), err
}
if amountSlashed.IsZero() {
continue
}
remainingSlashAmount = remainingSlashAmount.Sub(amountSlashed)
}
// Iterate through redelegations from slashed source validator
redelegations, err := k.GetRedelegationsFromSrcValidator(ctx, operatorAddress)
if err != nil {
return math.NewInt(0), err
}
for _, redelegation := range redelegations {
amountSlashed, err := k.SlashRedelegation(ctx, validator, redelegation, infractionHeight, slashFactor)
if err != nil {
return math.NewInt(0), err
}
if amountSlashed.IsZero() {
continue
}
remainingSlashAmount = remainingSlashAmount.Sub(amountSlashed)
}
}
// cannot decrease balance below zero
tokensToBurn := math.MinInt(remainingSlashAmount, validator.Tokens)
tokensToBurn = math.MaxInt(tokensToBurn, math.ZeroInt()) // defensive.
if tokensToBurn.IsZero() {
// Nothing to burn, we can end this route immediately! We also don't
// need to call the k.Hooks().BeforeValidatorSlashed hook as we won't
// be slashing at all.
logger.Info(
"no validator slashing because slash amount is zero",
"validator", validator.GetOperator(),
"slash_factor", slashFactor.String(),
"burned", tokensToBurn,
"validatorTokens", validator.Tokens,
)
return math.NewInt(0), nil
}
// we need to calculate the *effective* slash fraction for distribution
if validator.Tokens.IsPositive() {
effectiveFraction := math.LegacyNewDecFromInt(tokensToBurn).QuoRoundUp(math.LegacyNewDecFromInt(validator.Tokens))
// possible if power has changed
if oneDec := math.LegacyOneDec(); effectiveFraction.GT(oneDec) {
effectiveFraction = oneDec
}
// call the before-slashed hook
if err := k.Hooks().BeforeValidatorSlashed(ctx, operatorAddress, effectiveFraction); err != nil {
k.Logger(ctx).Error("failed to call before validator slashed hook", "error", err)
}
}
// Deduct from validator's bonded tokens and update the validator.
// Burn the slashed tokens from the pool account and decrease the total supply.
validator, err = k.RemoveValidatorTokens(ctx, validator, tokensToBurn)
if err != nil {
return math.NewInt(0), err
}
switch validator.GetStatus() {
case types.Bonded:
if err := k.burnBondedTokens(ctx, tokensToBurn); err != nil {
return math.NewInt(0), err
}
case types.Unbonding, types.Unbonded:
if err := k.burnNotBondedTokens(ctx, tokensToBurn); err != nil {
return math.NewInt(0), err
}
default:
panic("invalid validator status")
}
logger.Info(
"validator slashed by slash factor",
"validator", validator.GetOperator(),
"slash_factor", slashFactor.String(),
"burned", tokensToBurn,
)
return tokensToBurn, nil
}
// SlashWithInfractionReason implementation doesn't require the infraction (types.Infraction) to work but is required by Interchain Security.
func (k Keeper) SlashWithInfractionReason(ctx context.Context, consAddr sdk.ConsAddress, infractionHeight, power int64, slashFactor math.LegacyDec, _ types.Infraction) (math.Int, error) {
return k.Slash(ctx, consAddr, infractionHeight, power, slashFactor)
}
// jail a validator
func (k Keeper) Jail(ctx context.Context, consAddr sdk.ConsAddress) error {
validator := k.mustGetValidatorByConsAddr(ctx, consAddr)
if err := k.jailValidator(ctx, validator); err != nil {
return err
}
logger := k.Logger(ctx)
logger.Info("validator jailed", "validator", consAddr)
return nil
}
// unjail a validator
func (k Keeper) Unjail(ctx context.Context, consAddr sdk.ConsAddress) error {
validator := k.mustGetValidatorByConsAddr(ctx, consAddr)
if err := k.unjailValidator(ctx, validator); err != nil {
return err
}
logger := k.Logger(ctx)
logger.Info("validator un-jailed", "validator", consAddr)
return nil
}
// slash an unbonding delegation and update the pool
// return the amount that would have been slashed assuming
// the unbonding delegation had enough stake to slash
// (the amount actually slashed may be less if there's
// insufficient stake remaining)
func (k Keeper) SlashUnbondingDelegation(ctx context.Context, unbondingDelegation types.UnbondingDelegation,
infractionHeight int64, slashFactor math.LegacyDec,
) (totalSlashAmount math.Int, err error) {
sdkCtx := sdk.UnwrapSDKContext(ctx)
now := sdkCtx.BlockHeader().Time
totalSlashAmount = math.ZeroInt()
burnedAmount := math.ZeroInt()
// perform slashing on all entries within the unbonding delegation
for i, entry := range unbondingDelegation.Entries {
// If unbonding started before this height, stake didn't contribute to infraction
if entry.CreationHeight < infractionHeight {
continue
}
if entry.IsMature(now) && !entry.OnHold() {
// Unbonding delegation no longer eligible for slashing, skip it
continue
}
// Calculate slash amount proportional to stake contributing to infraction
slashAmountDec := slashFactor.MulInt(entry.InitialBalance)
slashAmount := slashAmountDec.TruncateInt()
totalSlashAmount = totalSlashAmount.Add(slashAmount)
// Don't slash more tokens than held
// Possible since the unbonding delegation may already
// have been slashed, and slash amounts are calculated
// according to stake held at time of infraction
unbondingSlashAmount := math.MinInt(slashAmount, entry.Balance)
// Update unbonding delegation if necessary
if unbondingSlashAmount.IsZero() {
continue
}
burnedAmount = burnedAmount.Add(unbondingSlashAmount)
entry.Balance = entry.Balance.Sub(unbondingSlashAmount)
unbondingDelegation.Entries[i] = entry
if err = k.SetUnbondingDelegation(ctx, unbondingDelegation); err != nil {
return math.ZeroInt(), err
}
}
if err := k.burnNotBondedTokens(ctx, burnedAmount); err != nil {
return math.ZeroInt(), err
}
return totalSlashAmount, nil
}
// slash a redelegation and update the pool
// return the amount that would have been slashed assuming
// the unbonding delegation had enough stake to slash
// (the amount actually slashed may be less if there's
// insufficient stake remaining)
// NOTE this is only slashing for prior infractions from the source validator
func (k Keeper) SlashRedelegation(ctx context.Context, srcValidator types.Validator, redelegation types.Redelegation,
infractionHeight int64, slashFactor math.LegacyDec,
) (totalSlashAmount math.Int, err error) {
sdkCtx := sdk.UnwrapSDKContext(ctx)
now := sdkCtx.BlockHeader().Time
totalSlashAmount = math.ZeroInt()
bondedBurnedAmount, notBondedBurnedAmount := math.ZeroInt(), math.ZeroInt()
valDstAddr, err := k.validatorAddressCodec.StringToBytes(redelegation.ValidatorDstAddress)
if err != nil {
return math.ZeroInt(), fmt.Errorf("SlashRedelegation: could not parse validator destination address: %w", err)
}
delegatorAddress, err := k.authKeeper.AddressCodec().StringToBytes(redelegation.DelegatorAddress)
if err != nil {
return math.ZeroInt(), fmt.Errorf("SlashRedelegation: could not parse delegator address: %w", err)
}
// perform slashing on all entries within the redelegation
for _, entry := range redelegation.Entries {
// If redelegation started before this height, stake didn't contribute to infraction
if entry.CreationHeight < infractionHeight {
continue
}
if entry.IsMature(now) && !entry.OnHold() {
// Redelegation no longer eligible for slashing, skip it
continue
}
// Calculate slash amount proportional to stake contributing to infraction
slashAmountDec := slashFactor.MulInt(entry.InitialBalance)
slashAmount := slashAmountDec.TruncateInt()
totalSlashAmount = totalSlashAmount.Add(slashAmount)
// Unbond from target validator
sharesToUnbond := slashFactor.Mul(entry.SharesDst)
if sharesToUnbond.IsZero() {
continue
}
delegation, err := k.GetDelegation(ctx, delegatorAddress, valDstAddr)
if err != nil {
// If deleted, delegation has zero shares, and we can't unbond any more
continue
}
if sharesToUnbond.GT(delegation.Shares) {
sharesToUnbond = delegation.Shares
}
tokensToBurn, err := k.Unbond(ctx, delegatorAddress, valDstAddr, sharesToUnbond)
if err != nil {
return math.ZeroInt(), err
}
dstValidator, err := k.GetValidator(ctx, valDstAddr)
if err != nil {
return math.ZeroInt(), err
}
// tokens of a redelegation currently live in the destination validator
// therefor we must burn tokens from the destination-validator's bonding status
switch {
case dstValidator.IsBonded():
bondedBurnedAmount = bondedBurnedAmount.Add(tokensToBurn)
case dstValidator.IsUnbonded() || dstValidator.IsUnbonding():
notBondedBurnedAmount = notBondedBurnedAmount.Add(tokensToBurn)
default:
panic("unknown validator status")
}
}
if err := k.burnBondedTokens(ctx, bondedBurnedAmount); err != nil {
return math.ZeroInt(), err
}
if err := k.burnNotBondedTokens(ctx, notBondedBurnedAmount); err != nil {
return math.ZeroInt(), err
}
return totalSlashAmount, nil
}