439 lines
14 KiB
Go
439 lines
14 KiB
Go
package btcdnotify
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import (
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"container/heap"
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"sync"
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"sync/atomic"
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"time"
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"github.com/lightningnetwork/lnd/chainntnfs"
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"github.com/roasbeef/btcd/btcjson"
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"github.com/roasbeef/btcd/wire"
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"github.com/roasbeef/btcrpcclient"
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"github.com/roasbeef/btcutil"
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)
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const (
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// notifierType uniquely identifies this concrete implementation of the
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// ChainNotifier interface.
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notifierType = "btcd"
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)
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// BtcdNotifier implements the ChainNotifier interface using btcd's websockets
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// notifications. Multiple concurrent clients are supported. All notifications
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// are achieved via non-blocking sends on client channels.
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type BtcdNotifier struct {
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started int32 // To be used atomically.
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stopped int32 // To be used atomically.
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chainConn *btcrpcclient.Client
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notificationRegistry chan interface{}
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// TODO(roasbeef): make map point to slices? Would allow for multiple
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// clients to listen for same spend. Would we ever need this?
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spendNotifications map[wire.OutPoint]*spendNotification
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confNotifications map[wire.ShaHash][]*confirmationsNotification
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confHeap *confirmationHeap
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blockEpochClients []chan *chainntnfs.BlockEpoch
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connectedBlockHashes chan *blockNtfn
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disconnectedBlockHashes chan *blockNtfn
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relevantTxs chan *btcutil.Tx
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wg sync.WaitGroup
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quit chan struct{}
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}
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// Ensure BtcdNotifier implements the ChainNotifier interface at compile time.
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var _ chainntnfs.ChainNotifier = (*BtcdNotifier)(nil)
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// New returns a new BtcdNotifier instance. This function assumes the btcd node
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// detailed in the passed configuration is already running, and
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// willing to accept new websockets clients.
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func New(config *btcrpcclient.ConnConfig) (*BtcdNotifier, error) {
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notifier := &BtcdNotifier{
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notificationRegistry: make(chan interface{}),
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spendNotifications: make(map[wire.OutPoint]*spendNotification),
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confNotifications: make(map[wire.ShaHash][]*confirmationsNotification),
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confHeap: newConfirmationHeap(),
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connectedBlockHashes: make(chan *blockNtfn, 20),
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disconnectedBlockHashes: make(chan *blockNtfn, 20),
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relevantTxs: make(chan *btcutil.Tx, 100),
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quit: make(chan struct{}),
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}
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ntfnCallbacks := &btcrpcclient.NotificationHandlers{
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OnBlockConnected: notifier.onBlockConnected,
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OnBlockDisconnected: notifier.onBlockDisconnected,
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OnRedeemingTx: notifier.onRedeemingTx,
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}
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// Disable connecting to btcd within the btcrpcclient.New method. We
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// defer establishing the connection to our .Start() method.
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config.DisableConnectOnNew = true
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config.DisableAutoReconnect = false
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chainConn, err := btcrpcclient.New(config, ntfnCallbacks)
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if err != nil {
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return nil, err
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}
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notifier.chainConn = chainConn
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return notifier, nil
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}
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// Start connects to the running btcd node over websockets, registers for block
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// notifications, and finally launches all related helper goroutines.
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func (b *BtcdNotifier) Start() error {
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// Already started?
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if atomic.AddInt32(&b.started, 1) != 1 {
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return nil
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}
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// Connect to btcd, and register for notifications on connected, and
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// disconnected blocks.
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if err := b.chainConn.Connect(20); err != nil {
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return err
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}
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if err := b.chainConn.NotifyBlocks(); err != nil {
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return err
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}
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b.wg.Add(1)
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go b.notificationDispatcher()
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return nil
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}
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// Stop shutsdown the BtcdNotifier.
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func (b *BtcdNotifier) Stop() error {
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// Already shutting down?
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if atomic.AddInt32(&b.stopped, 1) != 1 {
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return nil
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}
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// Shutdown the rpc client, this gracefully disconnects from btcd, and
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// cleans up all related resources.
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b.chainConn.Shutdown()
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close(b.quit)
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b.wg.Wait()
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// Notify all pending clients of our shutdown by closing the related
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// notification channels.
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for _, spendClient := range b.spendNotifications {
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close(spendClient.spendChan)
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}
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for _, confClients := range b.confNotifications {
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for _, confClient := range confClients {
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close(confClient.finConf)
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close(confClient.negativeConf)
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}
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}
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return nil
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}
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// blockNtfn packages a notification of a connected/disconnected block along
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// with its height at the time.
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type blockNtfn struct {
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sha *wire.ShaHash
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height int32
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}
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// onBlockConnected implements on OnBlockConnected callback for btcrpcclient.
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func (b *BtcdNotifier) onBlockConnected(hash *wire.ShaHash, height int32, t time.Time) {
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select {
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case b.connectedBlockHashes <- &blockNtfn{hash, height}:
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case <-b.quit:
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}
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}
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// onBlockDisconnected implements on OnBlockDisconnected callback for btcrpcclient.
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func (b *BtcdNotifier) onBlockDisconnected(hash *wire.ShaHash, height int32, t time.Time) {
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}
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// onRedeemingTx implements on OnRedeemingTx callback for btcrpcclient.
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func (b *BtcdNotifier) onRedeemingTx(transaction *btcutil.Tx, details *btcjson.BlockDetails) {
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select {
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case b.relevantTxs <- transaction:
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case <-b.quit:
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}
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}
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// notificationDispatcher is the primary goroutine which handles client
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// notification registrations, as well as notification dispatches.
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func (b *BtcdNotifier) notificationDispatcher() {
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out:
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for {
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select {
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case registerMsg := <-b.notificationRegistry:
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switch msg := registerMsg.(type) {
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case *spendNotification:
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chainntnfs.Log.Infof("New spend subscription: "+
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"utxo=%v", msg.targetOutpoint)
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b.spendNotifications[*msg.targetOutpoint] = msg
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case *confirmationsNotification:
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chainntnfs.Log.Infof("New confirmations "+
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"subscription: txid=%v, numconfs=%v",
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*msg.txid, msg.numConfirmations)
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txid := *msg.txid
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b.confNotifications[txid] = append(b.confNotifications[txid], msg)
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case *blockEpochRegistration:
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chainntnfs.Log.Infof("New block epoch subscription")
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b.blockEpochClients = append(b.blockEpochClients,
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msg.epochChan)
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}
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case staleBlockHash := <-b.disconnectedBlockHashes:
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// TODO(roasbeef): re-orgs
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// * second channel to notify of confirmation decrementing
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// re-org?
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// * notify of negative confirmations
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chainntnfs.Log.Warnf("Block disconnected from main "+
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"chain: %v", staleBlockHash)
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case connectedBlock := <-b.connectedBlockHashes:
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newBlock, err := b.chainConn.GetBlock(connectedBlock.sha)
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if err != nil {
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chainntnfs.Log.Errorf("Unable to get block: %v", err)
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continue
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}
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chainntnfs.Log.Infof("New block: height=%v, sha=%v",
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connectedBlock.height, connectedBlock.sha)
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go b.notifyBlockEpochs(connectedBlock.height,
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connectedBlock.sha)
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newHeight := connectedBlock.height
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for _, tx := range newBlock.Transactions() {
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// Check if the inclusion of this transaction
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// within a block by itself triggers a block
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// confirmation threshold, if so send a
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// notification. Otherwise, place the notification
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// on a heap to be triggered in the future once
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// additional confirmations are attained.
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txSha := tx.Sha()
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b.checkConfirmationTrigger(txSha, newHeight)
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}
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// A new block has been connected to the main
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// chain. Send out any N confirmation notifications
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// which may have been triggered by this new block.
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b.notifyConfs(newHeight)
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case newSpend := <-b.relevantTxs:
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// First, check if this transaction spends an output
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// that has an existing spend notification for it.
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for i, txIn := range newSpend.MsgTx().TxIn {
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prevOut := txIn.PreviousOutPoint
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// If this transaction indeed does spend an
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// output which we have a registered notification
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// for, then create a spend summary, finally
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// sending off the details to the notification
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// subscriber.
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if ntfn, ok := b.spendNotifications[prevOut]; ok {
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spenderSha := newSpend.Sha()
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spendDetails := &chainntnfs.SpendDetail{
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SpentOutPoint: ntfn.targetOutpoint,
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SpenderTxHash: spenderSha,
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// TODO(roasbeef): copy tx?
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SpendingTx: newSpend.MsgTx(),
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SpenderInputIndex: uint32(i),
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}
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chainntnfs.Log.Infof("Dispatching "+
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"spend notification for "+
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"outpoint=%v", ntfn.targetOutpoint)
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ntfn.spendChan <- spendDetails
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delete(b.spendNotifications, prevOut)
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}
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}
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case <-b.quit:
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break out
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}
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}
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b.wg.Done()
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}
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// notifyBlockEpochs notifies all registered block epoch clients of the newly
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// connected block to the main chain.
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func (b *BtcdNotifier) notifyBlockEpochs(newHeight int32, newSha *wire.ShaHash) {
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epoch := &chainntnfs.BlockEpoch{
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Height: newHeight,
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Hash: newSha,
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}
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// TODO(roasbeef): spwan a new goroutine for each client instead?
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for _, epochChan := range b.blockEpochClients {
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// Attempt a non-blocking send. If the buffered channel is
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// full, then we no-op and move onto the next client.
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select {
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case epochChan <- epoch:
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default:
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}
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}
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}
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// notifyConfs examines the current confirmation heap, sending off any
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// notifications which have been triggered by the connection of a new block at
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// newBlockHeight.
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func (b *BtcdNotifier) notifyConfs(newBlockHeight int32) {
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// If the heap is empty, we have nothing to do.
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if b.confHeap.Len() == 0 {
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return
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}
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// Traverse our confirmation heap. The heap is a
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// min-heap, so the confirmation notification which requires
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// the smallest block-height will always be at the top
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// of the heap. If a confirmation notification is eligible
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// for triggering, then fire it off, and check if another
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// is eligible until there are no more eligible entries.
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nextConf := heap.Pop(b.confHeap).(*confEntry)
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for nextConf.triggerHeight <= uint32(newBlockHeight) {
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nextConf.finConf <- newBlockHeight
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if b.confHeap.Len() == 0 {
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return
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}
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nextConf = heap.Pop(b.confHeap).(*confEntry)
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}
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heap.Push(b.confHeap, nextConf)
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}
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// checkConfirmationTrigger determines if the passed txSha included at blockHeight
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// triggers any single confirmation notifications. In the event that the txid
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// matches, yet needs additional confirmations, it is added to the confirmation
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// heap to be triggered at a later time.
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// TODO(roasbeef): perhaps lookup, then track by inputs instead?
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func (b *BtcdNotifier) checkConfirmationTrigger(txSha *wire.ShaHash, blockHeight int32) {
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// If a confirmation notification has been registered
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// for this txid, then either trigger a notification
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// event if only a single confirmation notification was
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// requested, or place the notification on the
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// confirmation heap for future usage.
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if confClients, ok := b.confNotifications[*txSha]; ok {
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// Either all of the registered confirmations wtill be
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// dispatched due to a single confirmation, or added to the
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// conf head. Therefor we unconditioanlly delete the registered
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// confirmations from the staging zone.
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defer func() {
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delete(b.confNotifications, *txSha)
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}()
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for _, confClient := range confClients {
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if confClient.numConfirmations == 1 {
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chainntnfs.Log.Infof("Dispatching single conf "+
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"notification, sha=%v, height=%v", txSha,
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blockHeight)
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confClient.finConf <- blockHeight
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continue
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}
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// The registered notification requires more
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// than one confirmation before triggering. So
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// we create a heapConf entry for this notification.
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// The heapConf allows us to easily keep track of
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// which notification(s) we should fire off with
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// each incoming block.
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confClient.initialConfirmHeight = uint32(blockHeight)
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finalConfHeight := uint32(confClient.initialConfirmHeight + confClient.numConfirmations - 1)
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heapEntry := &confEntry{
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confClient,
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finalConfHeight,
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}
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heap.Push(b.confHeap, heapEntry)
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}
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}
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}
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// spendNotification couples a target outpoint along with the channel used for
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// notifications once a spend of the outpoint has been detected.
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type spendNotification struct {
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targetOutpoint *wire.OutPoint
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spendChan chan *chainntnfs.SpendDetail
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}
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// RegisterSpendNotification registers an intent to be notified once the target
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// outpoint has been spent by a transaction on-chain. Once a spend of the target
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// outpoint has been detected, the details of the spending event will be sent
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// across the 'Spend' channel.
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func (b *BtcdNotifier) RegisterSpendNtfn(outpoint *wire.OutPoint) (*chainntnfs.SpendEvent, error) {
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if err := b.chainConn.NotifySpent([]*wire.OutPoint{outpoint}); err != nil {
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return nil, err
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}
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ntfn := &spendNotification{
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targetOutpoint: outpoint,
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spendChan: make(chan *chainntnfs.SpendDetail, 1),
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}
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b.notificationRegistry <- ntfn
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return &chainntnfs.SpendEvent{ntfn.spendChan}, nil
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}
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// confirmationNotification represents a client's intent to receive a
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// notification once the target txid reaches numConfirmations confirmations.
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type confirmationsNotification struct {
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txid *wire.ShaHash
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initialConfirmHeight uint32
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numConfirmations uint32
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finConf chan int32
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negativeConf chan int32 // TODO(roasbeef): re-org funny business
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}
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// RegisterConfirmationsNotification registers a notification with BtcdNotifier
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// which will be triggered once the txid reaches numConfs number of
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// confirmations.
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func (b *BtcdNotifier) RegisterConfirmationsNtfn(txid *wire.ShaHash,
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numConfs uint32) (*chainntnfs.ConfirmationEvent, error) {
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ntfn := &confirmationsNotification{
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txid: txid,
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numConfirmations: numConfs,
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finConf: make(chan int32, 1),
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negativeConf: make(chan int32, 1),
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}
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b.notificationRegistry <- ntfn
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return &chainntnfs.ConfirmationEvent{
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Confirmed: ntfn.finConf,
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NegativeConf: ntfn.negativeConf,
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}, nil
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}
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// blockEpochRegistration represents a client's intent to receive a
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// notification with each newly connected block.
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type blockEpochRegistration struct {
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epochChan chan *chainntnfs.BlockEpoch
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}
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// RegisterBlockEpochNtfn returns a BlockEpochEvent which subscribes the
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// caller to receive notificationsm, of each new block connected to the main
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// chain.
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func (b *BtcdNotifier) RegisterBlockEpochNtfn() (*chainntnfs.BlockEpochEvent, error) {
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registration := &blockEpochRegistration{
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epochChan: make(chan *chainntnfs.BlockEpoch, 20),
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}
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b.notificationRegistry <- registration
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return &chainntnfs.BlockEpochEvent{
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Epochs: registration.epochChan,
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}, nil
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}
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