lightningnetwork / lnd / 17730571916

package chainntnfs

import (

        "bytes"

        "errors"

        "fmt"

        "sync"

        "sync/atomic"

        "github.com/btcsuite/btcd/btcutil"

        "github.com/btcsuite/btcd/chaincfg/chainhash"

        "github.com/btcsuite/btcd/txscript"

        "github.com/btcsuite/btcd/wire"

)

const (

        // ReorgSafetyLimit is the chain depth beyond which it is assumed a

        // block will not be reorganized out of the chain. This is used to

        // determine when to prune old confirmation requests so that reorgs are

        // handled correctly. The average number of blocks in a day is a

        // reasonable value to use.

        ReorgSafetyLimit = 144

        // MaxNumConfs is the maximum number of confirmations that can be

        // requested on a transaction.

        MaxNumConfs = ReorgSafetyLimit

)

var (

        // ZeroHash is the value that should be used as the txid when

        // registering for the confirmation of a script on-chain. This allows

        // the notifier to match _and_ dispatch upon the inclusion of the script

        // on-chain, rather than the txid.

        ZeroHash chainhash.Hash

        // ZeroOutPoint is the value that should be used as the outpoint when

        // registering for the spend of a script on-chain. This allows the

        // notifier to match _and_ dispatch upon detecting the spend of the

        // script on-chain, rather than the outpoint.

        ZeroOutPoint wire.OutPoint

        // zeroV1KeyPush is a pkScript that pushes an all-zero 32-byte Taproot

        // SegWit v1 key to the stack.

        zeroV1KeyPush = [34]byte{

                txscript.OP_1, txscript.OP_DATA_32, // 32 byte of zeroes here

        }

        // ZeroTaprootPkScript is the parsed txscript.PkScript of an empty

        // Taproot SegWit v1 key being pushed to the stack. This allows the

        // notifier to match _and_ dispatch upon detecting the spend of the

        // outpoint on-chain, rather than the pkScript (which cannot be derived

        // from the witness alone in the SegWit v1 case).

        ZeroTaprootPkScript, _ = txscript.ParsePkScript(zeroV1KeyPush[:])

)

var (

        // ErrTxNotifierExiting is an error returned when attempting to interact

        // with the TxNotifier but it been shut down.

        ErrTxNotifierExiting = errors.New("TxNotifier is exiting")

        // ErrNoScript is an error returned when a confirmation/spend

        // registration is attempted without providing an accompanying output

        // script.

        ErrNoScript = errors.New("an output script must be provided")

        // ErrNoHeightHint is an error returned when a confirmation/spend

        // registration is attempted without providing an accompanying height

        // hint.

        ErrNoHeightHint = errors.New("a height hint greater than 0 must be " +

                "provided")

        // ErrNumConfsOutOfRange is an error returned when a confirmation/spend

        // registration is attempted and the number of confirmations provided is

        // out of range.

        ErrNumConfsOutOfRange = fmt.Errorf("number of confirmations must be "+

                "between %d and %d", 1, MaxNumConfs)

        // ErrEmptyWitnessStack is returned when a spending transaction has an

        // empty witness stack. More details in,

        // - https://github.com/bitcoin/bitcoin/issues/28730

        ErrEmptyWitnessStack = errors.New("witness stack is empty")

)

// rescanState indicates the progression of a registration before the notifier

// can begin dispatching confirmations at tip.

type rescanState byte

const (

        // rescanNotStarted is the initial state, denoting that a historical

        // dispatch may be required.

        rescanNotStarted rescanState = iota

        // rescanPending indicates that a dispatch has already been made, and we

        // are waiting for its completion. No other rescans should be dispatched

        // while in this state.

        rescanPending

        // rescanComplete signals either that a rescan was dispatched and has

        // completed, or that we began watching at tip immediately. In either

        // case, the notifier can only dispatch notifications from tip when in

        // this state.

        rescanComplete

)

// confNtfnSet holds all known, registered confirmation notifications for a

// txid/output script. If duplicates notifications are requested, only one

// historical dispatch will be spawned to ensure redundant scans are not

// permitted. A single conf detail will be constructed and dispatched to all

// interested

// clients.

type confNtfnSet struct {

        // ntfns keeps tracks of all the active client notification requests for

        // a transaction/output script

        ntfns map[uint64]*ConfNtfn

        // rescanStatus represents the current rescan state for the

        // transaction/output script.

        rescanStatus rescanState

        // details serves as a cache of the confirmation details of a

        // transaction that we'll use to determine if a transaction/output

        // script has already confirmed at the time of registration.

        // details is also used to make sure that in case of an address reuse

        // (funds sent to a previously confirmed script) no additional

        // notification is registered which would lead to an inconsistent state.

        details *TxConfirmation

}

// newConfNtfnSet constructs a fresh confNtfnSet for a group of clients

// interested in a notification for a particular txid.

// spendNtfnSet holds all known, registered spend notifications for a spend

// request (outpoint/output script). If duplicate notifications are requested,

// only one historical dispatch will be spawned to ensure redundant scans are

// not permitted.

type spendNtfnSet struct {

        // ntfns keeps tracks of all the active client notification requests for

        // an outpoint/output script.

        ntfns map[uint64]*SpendNtfn

        // rescanStatus represents the current rescan state for the spend

        // request (outpoint/output script).

        rescanStatus rescanState

        // details serves as a cache of the spend details for an outpoint/output

        // script that we'll use to determine if it has already been spent at

        // the time of registration.

        details *SpendDetail

}

// newSpendNtfnSet constructs a new spend notification set.

// ConfRequest encapsulates a request for a confirmation notification of either

// a txid or output script.

type ConfRequest struct {

        // TxID is the hash of the transaction for which confirmation

        // notifications are requested. If set to a zero hash, then a

        // confirmation notification will be dispatched upon inclusion of the

        // _script_, rather than the txid.

        TxID chainhash.Hash

        // PkScript is the public key script of an outpoint created in this

        // transaction.

        PkScript txscript.PkScript

}

// NewConfRequest creates a request for a confirmation notification of either a

// txid or output script. A nil txid or an allocated ZeroHash can be used to

// dispatch the confirmation notification on the script.

        // We'll only set a txid for which we'll dispatch a confirmation

        // notification on this request if one was provided. Otherwise, we'll

        // default to dispatching on the confirmation of the script instead.

}

// String returns the string representation of the ConfRequest.

}

// MatchesTx determines whether the given transaction satisfies the confirmation

// request. If the confirmation request is for a script, then we'll check all of

// the outputs of the transaction to determine if it matches. Otherwise, we'll

// match on the txid.

                }

        }

}

// ConfNtfn represents a notifier client's request to receive a notification

// once the target transaction/output script gets sufficient confirmations. The

// client is asynchronously notified via the ConfirmationEvent channels.

type ConfNtfn struct {

        // ConfID uniquely identifies the confirmation notification request for

        // the specified transaction/output script.

        ConfID uint64

        // ConfRequest represents either the txid or script we should detect

        // inclusion of within the chain.

        ConfRequest

        // NumConfirmations is the number of confirmations after which the

        // notification is to be sent.

        NumConfirmations uint32

        // Event contains references to the channels that the notifications are

        // to be sent over.

        Event *ConfirmationEvent

        // HeightHint is the minimum height in the chain that we expect to find

        // this txid.

        HeightHint uint32

        // dispatched is false if the confirmed notification has not been sent

        // yet.

        dispatched bool

        // includeBlock is true if the dispatched notification should also have

        // the block included with it.

        includeBlock bool

        // numConfsLeft is the number of confirmations left to be sent to the

        // subscriber.

        numConfsLeft uint32

}

// HistoricalConfDispatch parametrizes a manual rescan for a particular

// transaction/output script. The parameters include the start and end block

// heights specifying the range of blocks to scan.

type HistoricalConfDispatch struct {

        // ConfRequest represents either the txid or script we should detect

        // inclusion of within the chain.

        ConfRequest

        // StartHeight specifies the block height at which to begin the

        // historical rescan.

        StartHeight uint32

        // EndHeight specifies the last block height (inclusive) that the

        // historical scan should consider.

        EndHeight uint32

}

// ConfRegistration encompasses all of the information required for callers to

// retrieve details about a confirmation event.

type ConfRegistration struct {

        // Event contains references to the channels that the notifications are

        // to be sent over.

        Event *ConfirmationEvent

        // HistoricalDispatch, if non-nil, signals to the client who registered

        // the notification that they are responsible for attempting to manually

        // rescan blocks for the txid/output script between the start and end

        // heights.

        HistoricalDispatch *HistoricalConfDispatch

        // Height is the height of the TxNotifier at the time the confirmation

        // notification was registered. This can be used so that backends can

        // request to be notified of confirmations from this point forwards.

        Height uint32

}

// SpendRequest encapsulates a request for a spend notification of either an

// outpoint or output script.

type SpendRequest struct {

        // OutPoint is the outpoint for which a client has requested a spend

        // notification for. If set to a zero outpoint, then a spend

        // notification will be dispatched upon detecting the spend of the

        // _script_, rather than the outpoint.

        OutPoint wire.OutPoint

        // PkScript is the script of the outpoint. If a zero outpoint is set,

        // then this can be an arbitrary script.

        PkScript txscript.PkScript

}

// NewSpendRequest creates a request for a spend notification of either an

// outpoint or output script. A nil outpoint or an allocated ZeroOutPoint can be

// used to dispatch the confirmation notification on the script.

        // We'll only set an outpoint for which we'll dispatch a spend

        // notification on this request if one was provided. Otherwise, we'll

        // default to dispatching on the spend of the script instead.

                // We have an outpoint, so we can set the pkScript to an all

                // zero Taproot key that we'll compare this spend request to.

        }

}

// String returns the string representation of the SpendRequest.

}

// MatchesTx determines whether the given transaction satisfies the spend

// request. If the spend request is for an outpoint, then we'll check all of

// the outputs being spent by the inputs of the transaction to determine if it

// matches. Otherwise, we'll need to match on the output script being spent, so

// we'll recompute it for each input of the transaction to determine if it

// matches.

                }

        }

                }

        }

}

// SpendNtfn represents a client's request to receive a notification once an

// outpoint/output script has been spent on-chain. The client is asynchronously

// notified via the SpendEvent channels.

type SpendNtfn struct {

        // SpendID uniquely identies the spend notification request for the

        // specified outpoint/output script.

        SpendID uint64

        // SpendRequest represents either the outpoint or script we should

        // detect the spend of.

        SpendRequest

        // Event contains references to the channels that the notifications are

        // to be sent over.

        Event *SpendEvent

        // HeightHint is the earliest height in the chain that we expect to find

        // the spending transaction of the specified outpoint/output script.

        // This value will be overridden by the spend hint cache if it contains

        // an entry for it.

        HeightHint uint32

        // dispatched signals whether a spend notification has been dispatched

        // to the client.

        dispatched bool

}

// HistoricalSpendDispatch parametrizes a manual rescan to determine the

// spending details (if any) of an outpoint/output script. The parameters

// include the start and end block heights specifying the range of blocks to

// scan.

type HistoricalSpendDispatch struct {

        // SpendRequest represents either the outpoint or script we should

        // detect the spend of.

        SpendRequest

        // StartHeight specified the block height at which to begin the

        // historical rescan.

        StartHeight uint32

        // EndHeight specifies the last block height (inclusive) that the

        // historical rescan should consider.

        EndHeight uint32

}

// SpendRegistration encompasses all of the information required for callers to

// retrieve details about a spend event.

type SpendRegistration struct {

        // Event contains references to the channels that the notifications are

        // to be sent over.

        Event *SpendEvent

        // HistoricalDispatch, if non-nil, signals to the client who registered

        // the notification that they are responsible for attempting to manually

        // rescan blocks for the txid/output script between the start and end

        // heights.

        HistoricalDispatch *HistoricalSpendDispatch

        // Height is the height of the TxNotifier at the time the spend

        // notification was registered. This can be used so that backends can

        // request to be notified of spends from this point forwards.

        Height uint32

}

// TxNotifier is a struct responsible for delivering transaction notifications

// to subscribers. These notifications can be of two different types:

// transaction/output script confirmations and/or outpoint/output script spends.

// The TxNotifier will watch the blockchain as new blocks come in, in order to

// satisfy its client requests.

type TxNotifier struct {

        confClientCounter  uint64 // To be used atomically.

        spendClientCounter uint64 // To be used atomically.

        // currentHeight is the height of the tracked blockchain. It is used to

        // determine the number of confirmations a tx has and ensure blocks are

        // connected and disconnected in order.

        currentHeight uint32

        // reorgSafetyLimit is the chain depth beyond which it is assumed a

        // block will not be reorganized out of the chain. This is used to

        // determine when to prune old notification requests so that reorgs are

        // handled correctly. The coinbase maturity period is a reasonable value

        // to use.

        reorgSafetyLimit uint32

        // reorgDepth is the depth of a chain organization that this system is

        // being informed of. This is incremented as long as a sequence of

        // blocks are disconnected without being interrupted by a new block.

        reorgDepth uint32

        // confNotifications is an index of confirmation notification requests

        // by transaction hash/output script.

        confNotifications map[ConfRequest]*confNtfnSet

        // confsByInitialHeight is an index of watched transactions/output

        // scripts by the height that they are included at in the chain. This

        // is tracked so that incorrect notifications are not sent if a

        // transaction/output script is reorged out of the chain and so that

        // negative confirmations can be recognized.

        confsByInitialHeight map[uint32]map[ConfRequest]struct{}

        // ntfnsByConfirmHeight is an index of notification requests by the

        // height at which the transaction/output script will have sufficient

        // confirmations.

        ntfnsByConfirmHeight map[uint32]map[*ConfNtfn]struct{}

        // spendNotifications is an index of all active notification requests

        // per outpoint/output script.

        spendNotifications map[SpendRequest]*spendNtfnSet

        // spendsByHeight is an index that keeps tracks of the spending height

        // of outpoints/output scripts we are currently tracking notifications

        // for. This is used in order to recover from spending transactions

        // being reorged out of the chain.

        spendsByHeight map[uint32]map[SpendRequest]struct{}

        // confirmHintCache is a cache used to maintain the latest height hints

        // for transactions/output scripts. Each height hint represents the

        // earliest height at which they scripts could have been confirmed

        // within the chain.

        confirmHintCache ConfirmHintCache

        // spendHintCache is a cache used to maintain the latest height hints

        // for outpoints/output scripts. Each height hint represents the

        // earliest height at which they could have been spent within the chain.

        spendHintCache SpendHintCache

        // quit is closed in order to signal that the notifier is gracefully

        // exiting.

        quit chan struct{}

        sync.Mutex

}

// NewTxNotifier creates a TxNotifier. The current height of the blockchain is

// accepted as a parameter. The different hint caches (confirm and spend) are

// used as an optimization in order to retrieve a better starting point when

// dispatching a rescan for a historical event in the chain.

func NewTxNotifier(startHeight uint32, reorgSafetyLimit uint32,

        confirmHintCache ConfirmHintCache,

// newConfNtfn validates all of the parameters required to successfully create

// and register a confirmation notification.

func (n *TxNotifier) newConfNtfn(txid *chainhash.Hash,

        pkScript []byte, numConfs, heightHint uint32,

        // Enforce that we will not dispatch confirmations beyond the reorg

        // safety limit.

        // A height hint must be provided to prevent scanning from the genesis

        // block.

        // Ensure the output script is of a supported type.

                HeightHint:   heightHint,

                includeBlock: opts.IncludeBlock,

                numConfsLeft: numConfs,

        }, nil

}

// RegisterConf handles a new confirmation notification request. The client will

// be notified when the transaction/output script gets a sufficient number of

// confirmations in the blockchain.

//

// NOTE: If the transaction/output script has already been included in a block

// on the chain, the confirmation details must be provided with the

// UpdateConfDetails method, otherwise we will wait for the transaction/output

// script to confirm even though it already has.

func (n *TxNotifier) RegisterConf(txid *chainhash.Hash, pkScript []byte,

        numConfs, heightHint uint32,

        }

        // We'll start by performing a series of validation checks.

        // Before proceeding to register the notification, we'll query our

        // height hint cache to determine whether a better one exists.

        //

        // TODO(conner): verify that all submitted height hints are identical.

        // A prior rescan has already completed and we are actively watching at

        // tip for this request.

                // Deliver the details to the whole conf set where this ntfn

                // lives in.

                }

        // A rescan is already in progress, return here to prevent dispatching

        // another. When the rescan returns, this notification's details will be

        // updated as well.

        // If no rescan has been dispatched, attempt to do so now.

        }

        // If the provided or cached height hint indicates that the

        // transaction with the given txid/output script is to be confirmed at a

        // height greater than the notifier's current height, we'll refrain from

        // spawning a historical dispatch.

}

// CancelConf cancels an existing request for a spend notification of an

// outpoint/output script. The request is identified by its spend ID.

        }

}

// UpdateConfDetails attempts to update the confirmation details for an active

// notification within the notifier. This should only be used in the case of a

// transaction/output script that has confirmed before the notifier's current

// height.

//

// NOTE: The notification should be registered first to ensure notifications are

// dispatched correctly.

func (n *TxNotifier) UpdateConfDetails(confRequest ConfRequest,

        }

        // Ensure we hold the lock throughout handling the notification to

        // prevent the notifier from advancing its height underneath us.

        // If the confirmation details were already found at tip, all existing

        // notifications will have been dispatched or queued for dispatch. We

        // can exit early to avoid sending too many notifications on the

        // buffered channels.

        // The historical dispatch has been completed for this confSet. We'll

        // update the rescan status and cache any details that were found. If

        // the details are nil, that implies we did not find them and will

        // continue to watch for them at tip.

        }

        // Cache the details found in the rescan and attempt to dispatch any

        // notifications that have not yet been delivered.

        }

}

// dispatchConfDetails attempts to cache and dispatch details to a particular

// client if the transaction/output script has sufficiently confirmed. If the

// provided details are nil, this method will be a no-op.

func (n *TxNotifier) dispatchConfDetails(

        // Now, we'll examine whether the transaction/output script of this

        // request has reached its required number of confirmations. If it has,

        // we'll dispatch a confirmation notification to the caller.