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https://github.com/lightningnetwork/lnd.git
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d89f51d1d0
Similarly as with kvdb.View this commits adds a reset closure to the kvdb.Update call in order to be able to reset external state if the underlying db backend needs to retry the transaction.
355 lines
10 KiB
Go
355 lines
10 KiB
Go
package channeldb
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import (
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"bytes"
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"errors"
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"io"
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"github.com/btcsuite/btcd/chaincfg/chainhash"
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"github.com/btcsuite/btcd/wire"
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"github.com/btcsuite/btcutil"
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"github.com/lightningnetwork/lnd/channeldb/kvdb"
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"github.com/lightningnetwork/lnd/tlv"
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)
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var (
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// closeSummaryBucket is a top level bucket which holds additional
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// information about channel closes. It nests channels by chainhash
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// and channel point.
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// [closeSummaryBucket]
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// [chainHashBucket]
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// [channelBucket]
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// [resolversBucket]
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closeSummaryBucket = []byte("close-summaries")
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// resolversBucket holds the outcome of a channel's resolvers. It is
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// nested under a channel and chainhash bucket in the close summaries
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// bucket.
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resolversBucket = []byte("resolvers-bucket")
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)
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var (
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// ErrNoChainHashBucket is returned when we have not created a bucket
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// for the current chain hash.
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ErrNoChainHashBucket = errors.New("no chain hash bucket")
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// ErrNoChannelSummaries is returned when a channel is not found in the
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// chain hash bucket.
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ErrNoChannelSummaries = errors.New("channel bucket not found")
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amountType tlv.Type = 1
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resolverType tlv.Type = 2
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outcomeType tlv.Type = 3
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spendTxIDType tlv.Type = 4
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)
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// ResolverType indicates the type of resolver that was resolved on chain.
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type ResolverType uint8
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const (
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// ResolverTypeAnchor represents a resolver for an anchor output.
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ResolverTypeAnchor ResolverType = 0
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// ResolverTypeIncomingHtlc represents resolution of an incoming htlc.
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ResolverTypeIncomingHtlc ResolverType = 1
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// ResolverTypeOutgoingHtlc represents resolution of an outgoing htlc.
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ResolverTypeOutgoingHtlc ResolverType = 2
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// ResolverTypeCommit represents resolution of our time locked commit
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// when we force close.
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ResolverTypeCommit ResolverType = 3
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)
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// ResolverOutcome indicates the outcome for the resolver that that the contract
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// court reached. This state is not necessarily final, since htlcs on our own
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// commitment are resolved across two resolvers.
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type ResolverOutcome uint8
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const (
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// ResolverOutcomeClaimed indicates that funds were claimed on chain.
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ResolverOutcomeClaimed ResolverOutcome = 0
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// ResolverOutcomeUnclaimed indicates that we did not claim our funds on
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// chain. This may be the case for anchors that we did not sweep, or
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// outputs that were not economical to sweep.
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ResolverOutcomeUnclaimed ResolverOutcome = 1
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// ResolverOutcomeAbandoned indicates that we did not attempt to claim
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// an output on chain. This is the case for htlcs that we could not
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// decode to claim, or invoice which we fail when an attempt is made
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// to settle them on chain.
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ResolverOutcomeAbandoned ResolverOutcome = 2
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// ResolverOutcomeTimeout indicates that a contract was timed out on
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// chain.
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ResolverOutcomeTimeout ResolverOutcome = 3
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// ResolverOutcomeFirstStage indicates that a htlc had to be claimed
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// over two stages, with this outcome representing the confirmation
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// of our success/timeout tx.
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ResolverOutcomeFirstStage ResolverOutcome = 4
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)
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// ResolverReport provides an account of the outcome of a resolver. This differs
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// from a ContractReport because it does not necessarily fully resolve the
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// contract; each step of two stage htlc resolution is included.
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type ResolverReport struct {
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// OutPoint is the on chain outpoint that was spent as a result of this
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// resolution. When an output is directly resolved (eg, commitment
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// sweeps and single stage htlcs on the remote party's output) this
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// is an output on the commitment tx that was broadcast. When we resolve
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// across two stages (eg, htlcs on our own force close commit), the
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// first stage outpoint is the output on our commitment and the second
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// stage output is the spend from our htlc success/timeout tx.
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OutPoint wire.OutPoint
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// Amount is the value of the output referenced above.
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Amount btcutil.Amount
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// ResolverType indicates the type of resolution that occurred.
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ResolverType
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// ResolverOutcome indicates the outcome of the resolver.
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ResolverOutcome
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// SpendTxID is the transaction ID of the spending transaction that
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// claimed the outpoint. This may be a sweep transaction, or a first
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// stage success/timeout transaction.
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SpendTxID *chainhash.Hash
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}
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// PutResolverReport creates and commits a transaction that is used to write a
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// resolver report to disk.
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func (d *DB) PutResolverReport(tx kvdb.RwTx, chainHash chainhash.Hash,
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channelOutpoint *wire.OutPoint, report *ResolverReport) error {
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putReportFunc := func(tx kvdb.RwTx) error {
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return putReport(tx, chainHash, channelOutpoint, report)
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}
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// If the transaction is nil, we'll create a new one.
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if tx == nil {
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return kvdb.Update(d, putReportFunc, func() {})
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}
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// Otherwise, we can write the report to disk using the existing
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// transaction.
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return putReportFunc(tx)
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}
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// putReport puts a report in the bucket provided, with its outpoint as its key.
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func putReport(tx kvdb.RwTx, chainHash chainhash.Hash,
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channelOutpoint *wire.OutPoint, report *ResolverReport) error {
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channelBucket, err := fetchReportWriteBucket(
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tx, chainHash, channelOutpoint,
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)
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if err != nil {
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return err
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}
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// If the resolvers bucket does not exist yet, create it.
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resolvers, err := channelBucket.CreateBucketIfNotExists(
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resolversBucket,
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)
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if err != nil {
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return err
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}
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var valueBuf bytes.Buffer
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if err := serializeReport(&valueBuf, report); err != nil {
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return err
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}
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// Finally write our outpoint to be used as the key for this record.
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var keyBuf bytes.Buffer
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if err := writeOutpoint(&keyBuf, &report.OutPoint); err != nil {
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return err
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}
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return resolvers.Put(keyBuf.Bytes(), valueBuf.Bytes())
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}
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// serializeReport serialized a report using a TLV stream to allow for optional
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// fields.
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func serializeReport(w io.Writer, report *ResolverReport) error {
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amt := uint64(report.Amount)
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resolver := uint8(report.ResolverType)
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outcome := uint8(report.ResolverOutcome)
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// Create a set of TLV records for the values we know to be present.
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records := []tlv.Record{
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tlv.MakePrimitiveRecord(amountType, &amt),
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tlv.MakePrimitiveRecord(resolverType, &resolver),
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tlv.MakePrimitiveRecord(outcomeType, &outcome),
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}
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// If our spend txid is non-nil, we add a tlv entry for it.
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if report.SpendTxID != nil {
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var spendBuf bytes.Buffer
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err := WriteElement(&spendBuf, *report.SpendTxID)
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if err != nil {
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return err
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}
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spendBytes := spendBuf.Bytes()
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records = append(records, tlv.MakePrimitiveRecord(
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spendTxIDType, &spendBytes,
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))
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}
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// Create our stream and encode it.
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tlvStream, err := tlv.NewStream(records...)
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if err != nil {
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return err
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}
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return tlvStream.Encode(w)
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}
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// FetchChannelReports fetches the set of reports for a channel.
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func (d DB) FetchChannelReports(chainHash chainhash.Hash,
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outPoint *wire.OutPoint) ([]*ResolverReport, error) {
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var reports []*ResolverReport
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if err := kvdb.View(d, func(tx kvdb.RTx) error {
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chanBucket, err := fetchReportReadBucket(
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tx, chainHash, outPoint,
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)
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if err != nil {
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return err
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}
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// If there are no resolvers for this channel, we simply
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// return nil, because nothing has been persisted yet.
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resolvers := chanBucket.NestedReadBucket(resolversBucket)
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if resolvers == nil {
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return nil
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}
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// Run through each resolution and add it to our set of
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// resolutions.
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return resolvers.ForEach(func(k, v []byte) error {
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// Deserialize the contents of our field.
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r := bytes.NewReader(v)
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report, err := deserializeReport(r)
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if err != nil {
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return err
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}
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// Once we have read our values out, set the outpoint
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// on the report using the key.
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r = bytes.NewReader(k)
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if err := ReadElement(r, &report.OutPoint); err != nil {
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return err
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}
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reports = append(reports, report)
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return nil
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})
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}, func() {
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reports = nil
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}); err != nil {
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return nil, err
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}
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return reports, nil
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}
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// deserializeReport gets a resolver report from a tlv stream. The outpoint on
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// the resolver will not be set because we key reports by their outpoint, and
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// this function reads only the values saved in the stream.
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func deserializeReport(r io.Reader) (*ResolverReport, error) {
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var (
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resolver, outcome uint8
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amt uint64
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spentTx []byte
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)
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tlvStream, err := tlv.NewStream(
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tlv.MakePrimitiveRecord(amountType, &amt),
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tlv.MakePrimitiveRecord(resolverType, &resolver),
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tlv.MakePrimitiveRecord(outcomeType, &outcome),
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tlv.MakePrimitiveRecord(spendTxIDType, &spentTx),
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)
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if err != nil {
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return nil, err
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}
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if err := tlvStream.Decode(r); err != nil {
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return nil, err
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}
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report := &ResolverReport{
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Amount: btcutil.Amount(amt),
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ResolverOutcome: ResolverOutcome(outcome),
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ResolverType: ResolverType(resolver),
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}
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// If our spend tx is set, we set it on our report.
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if len(spentTx) != 0 {
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spendTx, err := chainhash.NewHash(spentTx)
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if err != nil {
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return nil, err
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}
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report.SpendTxID = spendTx
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}
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return report, nil
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}
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// fetchReportWriteBucket returns a write channel bucket within the reports
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// top level bucket. If the channel's bucket does not yet exist, it will be
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// created.
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func fetchReportWriteBucket(tx kvdb.RwTx, chainHash chainhash.Hash,
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outPoint *wire.OutPoint) (kvdb.RwBucket, error) {
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// Get the channel close summary bucket.
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closedBucket := tx.ReadWriteBucket(closeSummaryBucket)
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// Create the chain hash bucket if it does not exist.
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chainHashBkt, err := closedBucket.CreateBucketIfNotExists(chainHash[:])
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if err != nil {
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return nil, err
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}
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var chanPointBuf bytes.Buffer
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if err := writeOutpoint(&chanPointBuf, outPoint); err != nil {
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return nil, err
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}
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return chainHashBkt.CreateBucketIfNotExists(chanPointBuf.Bytes())
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}
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// fetchReportReadBucket returns a read channel bucket within the reports
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// top level bucket. If any bucket along the way does not exist, it will error.
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func fetchReportReadBucket(tx kvdb.RTx, chainHash chainhash.Hash,
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outPoint *wire.OutPoint) (kvdb.RBucket, error) {
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// First fetch the top level channel close summary bucket.
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closeBucket := tx.ReadBucket(closeSummaryBucket)
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// Next we get the chain hash bucket for our current chain.
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chainHashBucket := closeBucket.NestedReadBucket(chainHash[:])
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if chainHashBucket == nil {
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return nil, ErrNoChainHashBucket
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}
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// With the bucket for the node and chain fetched, we can now go down
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// another level, for the channel itself.
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var chanPointBuf bytes.Buffer
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if err := writeOutpoint(&chanPointBuf, outPoint); err != nil {
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return nil, err
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}
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chanBucket := chainHashBucket.NestedReadBucket(chanPointBuf.Bytes())
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if chanBucket == nil {
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return nil, ErrNoChannelSummaries
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}
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return chanBucket, nil
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}
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