package wtpolicy import ( "errors" "fmt" "github.com/btcsuite/btcd/wire" "github.com/btcsuite/btcutil" "github.com/lightningnetwork/lnd/lnwallet" "github.com/lightningnetwork/lnd/watchtower/blob" ) const ( // RewardScale is the denominator applied when computing the // proportional component for a tower's reward output. The current scale // is in millionths. RewardScale = 1000000 // DefaultMaxUpdates specifies the number of encrypted blobs a client // can send to the tower in a single session. DefaultMaxUpdates = 1024 // DefaultRewardRate specifies the fraction of the channel that the // tower takes if it successfully sweeps a breach. The value is // expressed in millionths of the channel capacity. DefaultRewardRate = 10000 // DefaultSweepFeeRate specifies the fee rate used to construct justice // transactions. The value is expressed in satoshis per kilo-weight. DefaultSweepFeeRate = 3000 ) var ( // ErrFeeExceedsInputs signals that the total input value of breaching // commitment txn is insufficient to cover the fees required to sweep // it. ErrFeeExceedsInputs = errors.New("sweep fee exceeds input value") // ErrRewardExceedsInputs signals that the reward given to the tower (in // addition to the transaction fees) is more than the input amount. ErrRewardExceedsInputs = errors.New("reward amount exceeds input value") // ErrCreatesDust signals that the session's policy would create a dust // output for the victim. ErrCreatesDust = errors.New("justice transaction creates dust at fee rate") ) // DefaultPolicy returns a Policy containing the default parameters that can be // used by clients or servers. func DefaultPolicy() Policy { return Policy{ TxPolicy: TxPolicy{ BlobType: blob.TypeDefault, RewardRate: DefaultRewardRate, SweepFeeRate: lnwallet.SatPerKWeight( DefaultSweepFeeRate, ), }, MaxUpdates: DefaultMaxUpdates, } } // TxPolicy defines the negotiate parameters that determine the form of the // justice transaction for a given breached state. Thus, for any given revoked // state, an identical key will result in an identical justice transaction // (barring signatures). The parameters specify the format of encrypted blobs // sent to the tower, the reward schedule for the tower, and the number of // encrypted blobs a client can send in one session. type TxPolicy struct { // BlobType specifies the blob format that must be used by all updates sent // under the session key used to negotiate this session. BlobType blob.Type // RewardBase is the fixed amount allocated to the tower when the // policy's blob type specifies a reward for the tower. This is taken // before adding the proportional reward. RewardBase uint32 // RewardRate is the fraction of the total balance of the revoked // commitment that the watchtower is entitled to. This value is // expressed in millionths of the total balance. RewardRate uint32 // SweepFeeRate expresses the intended fee rate to be used when // constructing the justice transaction. All sweep transactions created // for this session must use this value during construction, and the // signatures must implicitly commit to the resulting output values. SweepFeeRate lnwallet.SatPerKWeight } // Policy defines the negotiated parameters for a session between a client and // server. In addition to the TxPolicy that governs the shape of the justice // transaction, the Policy also includes features which only affect the // operation of the session. type Policy struct { TxPolicy // MaxUpdates is the maximum number of updates the watchtower will honor // for this session. MaxUpdates uint16 } // String returns a human-readable description of the current policy. func (p Policy) String() string { return fmt.Sprintf("(blob-type=%b max-updates=%d reward-rate=%d "+ "sweep-fee-rate=%d)", p.BlobType, p.MaxUpdates, p.RewardRate, p.SweepFeeRate) } // ComputeAltruistOutput computes the lone output value of a justice transaction // that pays no reward to the tower. The value is computed using the weight of // of the justice transaction and subtracting an amount that satisfies the // policy's fee rate. func (p *Policy) ComputeAltruistOutput(totalAmt btcutil.Amount, txWeight int64) (btcutil.Amount, error) { txFee := p.SweepFeeRate.FeeForWeight(txWeight) if txFee > totalAmt { return 0, ErrFeeExceedsInputs } sweepAmt := totalAmt - txFee // TODO(conner): replace w/ configurable dust limit dustLimit := lnwallet.DefaultDustLimit() // Check that the created outputs won't be dusty. if sweepAmt <= dustLimit { return 0, ErrCreatesDust } return sweepAmt, nil } // ComputeRewardOutputs splits the total funds in a breaching commitment // transaction between the victim and the tower, according to the sweep fee rate // and reward rate. The reward to he tower is subtracted first, before // splitting the remaining balance amongst the victim and fees. func (p *Policy) ComputeRewardOutputs(totalAmt btcutil.Amount, txWeight int64) (btcutil.Amount, btcutil.Amount, error) { txFee := p.SweepFeeRate.FeeForWeight(txWeight) if txFee > totalAmt { return 0, 0, ErrFeeExceedsInputs } // Apply the reward rate to the remaining total, specified in millionths // of the available balance. rewardAmt := ComputeRewardAmount(totalAmt, p.RewardBase, p.RewardRate) if rewardAmt+txFee > totalAmt { return 0, 0, ErrRewardExceedsInputs } // The sweep amount for the victim constitutes the remainder of the // input value. sweepAmt := totalAmt - rewardAmt - txFee // TODO(conner): replace w/ configurable dust limit dustLimit := lnwallet.DefaultDustLimit() // Check that the created outputs won't be dusty. if sweepAmt <= dustLimit { return 0, 0, ErrCreatesDust } return sweepAmt, rewardAmt, nil } // ComputeRewardAmount computes the amount rewarded to the tower using the // proportional rate expressed in millionths, e.g. one million is equivalent to // one hundred percent of the total amount. The amount is rounded up to the // nearest whole satoshi. func ComputeRewardAmount(total btcutil.Amount, base, rate uint32) btcutil.Amount { rewardBase := btcutil.Amount(base) rewardRate := btcutil.Amount(rate) // If the base reward exceeds the total, there is no more funds left // from which to derive the proportional fee. We simply return the base, // the caller should detect that this exceeds the total amount input. if rewardBase > total { return rewardBase } // Otherwise, subtract the base from the total and compute the // proportional reward from the remaining total. afterBase := total - rewardBase proportional := (afterBase*rewardRate + RewardScale - 1) / RewardScale return rewardBase + proportional } // ComputeJusticeTxOuts constructs the justice transaction outputs for the given // policy. If the policy specifies a reward for the tower, there will be two // outputs paying to the victim and the tower. Otherwise there will be a single // output sweeping funds back to the victim. The totalAmt should be the sum of // any inputs used in the transaction. The passed txWeight should include the // weight of the outputs for the justice transaction, which is dependent on // whether the justice transaction has a reward. The sweepPkScript should be the // pkScript of the victim to which funds will be recovered. The rewardPkScript // is the pkScript of the tower where its reward will be deposited, and will be // ignored if the blob type does not specify a reward. func (p *Policy) ComputeJusticeTxOuts(totalAmt btcutil.Amount, txWeight int64, sweepPkScript, rewardPkScript []byte) ([]*wire.TxOut, error) { var outputs []*wire.TxOut // If the policy specifies a reward for the tower, compute a split of // the funds based on the policy's parameters. Otherwise, we will use an // the altruist output computation and sweep as much of the funds back // to the victim as possible. if p.BlobType.Has(blob.FlagReward) { // Using the total input amount and the transaction's weight, // compute the sweep and reward amounts. This corresponds to the // amount returned to the victim and the amount paid to the // tower, respectively. To do so, the required transaction fee // is subtracted from the total, and the remaining amount is // divided according to the prenegotiated reward rate from the // client's session info. sweepAmt, rewardAmt, err := p.ComputeRewardOutputs( totalAmt, txWeight, ) if err != nil { return nil, err } // Add the sweep and reward outputs to the list of txouts. outputs = append(outputs, &wire.TxOut{ PkScript: sweepPkScript, Value: int64(sweepAmt), }) outputs = append(outputs, &wire.TxOut{ PkScript: rewardPkScript, Value: int64(rewardAmt), }) } else { // Using the total input amount and the transaction's weight, // compute the sweep amount, which corresponds to the amount // returned to the victim. To do so, the required transaction // fee is subtracted from the total input amount. sweepAmt, err := p.ComputeAltruistOutput( totalAmt, txWeight, ) if err != nil { return nil, err } // Add the sweep output to the list of txouts. outputs = append(outputs, &wire.TxOut{ PkScript: sweepPkScript, Value: int64(sweepAmt), }) } return outputs, nil }