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rpcwebsocket.go
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rpcwebsocket.go
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// Copyright (c) 2013-2017 The btcsuite developers
// Copyright (c) 2015-2017 The Decred developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package main
import (
"bytes"
"container/list"
"crypto/sha256"
"crypto/subtle"
"encoding/base64"
"encoding/hex"
"fmt"
"io"
"math"
"sync"
"time"
jsoniter "github.com/json-iterator/go"
"github.com/gorilla/websocket"
"github.com/pkt-cash/pktd/blockchain"
"github.com/pkt-cash/pktd/btcjson"
"github.com/pkt-cash/pktd/btcutil"
"github.com/pkt-cash/pktd/btcutil/er"
"github.com/pkt-cash/pktd/chaincfg"
"github.com/pkt-cash/pktd/chaincfg/chainhash"
"github.com/pkt-cash/pktd/database"
"github.com/pkt-cash/pktd/pktlog/log"
"github.com/pkt-cash/pktd/txscript"
"github.com/pkt-cash/pktd/wire"
)
const (
// websocketSendBufferSize is the number of elements the send channel
// can queue before blocking. Note that this only applies to requests
// handled directly in the websocket client input handler or the async
// handler since notifications have their own queuing mechanism
// independent of the send channel buffer.
websocketSendBufferSize = 50
)
type semaphore chan struct{}
func makeSemaphore(n int) semaphore {
return make(chan struct{}, n)
}
func (s semaphore) acquire() { s <- struct{}{} }
func (s semaphore) release() { <-s }
// timeZeroVal is simply the zero value for a time.Time and is used to avoid
// creating multiple instances.
var timeZeroVal time.Time
// wsCommandHandler describes a callback function used to handle a specific
// command.
type wsCommandHandler func(*wsClient, interface{}) (interface{}, er.R)
// wsHandlers maps RPC command strings to appropriate websocket handler
// functions. This is set by init because help references wsHandlers and thus
// causes a dependency loop.
var wsHandlers map[string]wsCommandHandler
var wsHandlersBeforeInit = map[string]wsCommandHandler{
"loadtxfilter": handleLoadTxFilter,
"help": handleWebsocketHelp,
"notifyblocks": handleNotifyBlocks,
"notifynewtransactions": handleNotifyNewTransactions,
"notifyreceived": handleNotifyReceived,
"notifyspent": handleNotifySpent,
"session": handleSession,
"stopnotifyblocks": handleStopNotifyBlocks,
"stopnotifynewtransactions": handleStopNotifyNewTransactions,
"stopnotifyspent": handleStopNotifySpent,
"stopnotifyreceived": handleStopNotifyReceived,
"rescan": handleRescan,
"rescanblocks": handleRescanBlocks,
}
// WebsocketHandler handles a new websocket client by creating a new wsClient,
// starting it, and blocking until the connection closes. Since it blocks, it
// must be run in a separate goroutine. It should be invoked from the websocket
// server handler which runs each new connection in a new goroutine thereby
// satisfying the requirement.
func (s *rpcServer) WebsocketHandler(conn *websocket.Conn, remoteAddr string,
authenticated bool, isAdmin bool) {
// Clear the read deadline that was set before the websocket hijacked
// the connection.
conn.SetReadDeadline(timeZeroVal)
// Limit max number of websocket clients.
log.Infof("New websocket client %s", remoteAddr)
if s.ntfnMgr.NumClients()+1 > cfg.RPCMaxWebsockets {
log.Infof("Max websocket clients exceeded [%d] - "+
"disconnecting client %s", cfg.RPCMaxWebsockets,
remoteAddr)
conn.Close()
return
}
// Create a new websocket client to handle the new websocket connection
// and wait for it to shutdown. Once it has shutdown (and hence
// disconnected), remove it and any notifications it registered for.
client, err := newWebsocketClient(s, conn, remoteAddr, authenticated, isAdmin)
if err != nil {
log.Errorf("Failed to serve client %s: %v", remoteAddr, err)
conn.Close()
return
}
s.ntfnMgr.AddClient(client)
client.Start()
client.WaitForShutdown()
s.ntfnMgr.RemoveClient(client)
log.Infof("Disconnected websocket client %s", remoteAddr)
}
// wsNotificationManager is a connection and notification manager used for
// websockets. It allows websocket clients to register for notifications they
// are interested in. When an event happens elsewhere in the code such as
// transactions being added to the memory pool or block connects/disconnects,
// the notification manager is provided with the relevant details needed to
// figure out which websocket clients need to be notified based on what they
// have registered for and notifies them accordingly. It is also used to keep
// track of all connected websocket clients.
type wsNotificationManager struct {
// server is the RPC server the notification manager is associated with.
server *rpcServer
// queueNotification queues a notification for handling.
queueNotification chan interface{}
// notificationMsgs feeds notificationHandler with notifications
// and client (un)registeration requests from a queue as well as
// registeration and unregisteration requests from clients.
notificationMsgs chan interface{}
// Access channel for current number of connected clients.
numClients chan int
// Shutdown handling
wg sync.WaitGroup
quit chan struct{}
}
// queueHandler manages a queue of empty interfaces, reading from in and
// sending the oldest unsent to out. This handler stops when either of the
// in or quit channels are closed, and closes out before returning, without
// waiting to send any variables still remaining in the queue.
func queueHandler(in <-chan interface{}, out chan<- interface{}, quit <-chan struct{}) {
var q []interface{}
var dequeue chan<- interface{}
skipQueue := out
var next interface{}
out:
for {
select {
case n, ok := <-in:
if !ok {
// Sender closed input channel.
break out
}
// Either send to out immediately if skipQueue is
// non-nil (queue is empty) and reader is ready,
// or append to the queue and send later.
select {
case skipQueue <- n:
default:
q = append(q, n)
dequeue = out
skipQueue = nil
next = q[0]
}
case dequeue <- next:
copy(q, q[1:])
q[len(q)-1] = nil // avoid leak
q = q[:len(q)-1]
if len(q) == 0 {
dequeue = nil
skipQueue = out
} else {
next = q[0]
}
case <-quit:
break out
}
}
close(out)
}
// queueHandler maintains a queue of notifications and notification handler
// control messages.
func (m *wsNotificationManager) queueHandler() {
queueHandler(m.queueNotification, m.notificationMsgs, m.quit)
m.wg.Done()
}
// NotifyBlockConnected passes a block newly-connected to the best chain
// to the notification manager for block and transaction notification
// processing.
func (m *wsNotificationManager) NotifyBlockConnected(block *btcutil.Block) {
// As NotifyBlockConnected will be called by the block manager
// and the RPC server may no longer be running, use a select
// statement to unblock enqueuing the notification once the RPC
// server has begun shutting down.
select {
case m.queueNotification <- (*notificationBlockConnected)(block):
case <-m.quit:
}
}
// NotifyBlockDisconnected passes a block disconnected from the best chain
// to the notification manager for block notification processing.
func (m *wsNotificationManager) NotifyBlockDisconnected(block *btcutil.Block) {
// As NotifyBlockDisconnected will be called by the block manager
// and the RPC server may no longer be running, use a select
// statement to unblock enqueuing the notification once the RPC
// server has begun shutting down.
select {
case m.queueNotification <- (*notificationBlockDisconnected)(block):
case <-m.quit:
}
}
// NotifyMempoolTx passes a transaction accepted by mempool to the
// notification manager for transaction notification processing. If
// isNew is true, the tx is is a new transaction, rather than one
// added to the mempool during a reorg.
func (m *wsNotificationManager) NotifyMempoolTx(tx *btcutil.Tx, isNew bool) {
n := ¬ificationTxAcceptedByMempool{
isNew: isNew,
tx: tx,
}
// As NotifyMempoolTx will be called by mempool and the RPC server
// may no longer be running, use a select statement to unblock
// enqueuing the notification once the RPC server has begun
// shutting down.
select {
case m.queueNotification <- n:
case <-m.quit:
}
}
// wsClientFilter tracks relevant addresses for each websocket client for
// the `rescanblocks` extension. It is modified by the `loadtxfilter` command.
//
// NOTE: This extension was ported from github.com/decred/dcrd
type wsClientFilter struct {
mu sync.Mutex
// Implemented fast paths for address lookup.
pubKeyHashes map[[btcutil.Hash160Size]byte]struct{}
scriptHashes map[[btcutil.Hash160Size]byte]struct{}
compressedPubKeys map[[33]byte]struct{}
uncompressedPubKeys map[[65]byte]struct{}
// A fallback address lookup map in case a fast path doesn't exist.
// Only exists for completeness. If using this shows up in a profile,
// there's a good chance a fast path should be added.
otherAddresses map[string]struct{}
// Outpoints of unspent outputs.
unspent map[wire.OutPoint]struct{}
}
// newWSClientFilter creates a new, empty wsClientFilter struct to be used
// for a websocket client.
//
// NOTE: This extension was ported from github.com/decred/dcrd
func newWSClientFilter(addresses []string, unspentOutPoints []wire.OutPoint, params *chaincfg.Params) *wsClientFilter {
filter := &wsClientFilter{
pubKeyHashes: map[[btcutil.Hash160Size]byte]struct{}{},
scriptHashes: map[[btcutil.Hash160Size]byte]struct{}{},
compressedPubKeys: map[[33]byte]struct{}{},
uncompressedPubKeys: map[[65]byte]struct{}{},
otherAddresses: map[string]struct{}{},
unspent: make(map[wire.OutPoint]struct{}, len(unspentOutPoints)),
}
for _, s := range addresses {
filter.addAddressStr(s, params)
}
for i := range unspentOutPoints {
filter.addUnspentOutPoint(&unspentOutPoints[i])
}
return filter
}
// addAddress adds an address to a wsClientFilter, treating it correctly based
// on the type of address passed as an argument.
//
// NOTE: This extension was ported from github.com/decred/dcrd
func (f *wsClientFilter) addAddress(a btcutil.Address) {
switch a := a.(type) {
case *btcutil.AddressPubKeyHash:
f.pubKeyHashes[*a.Hash160()] = struct{}{}
return
case *btcutil.AddressScriptHash:
f.scriptHashes[*a.Hash160()] = struct{}{}
return
case *btcutil.AddressPubKey:
serializedPubKey := a.ScriptAddress()
switch len(serializedPubKey) {
case 33: // compressed
var compressedPubKey [33]byte
copy(compressedPubKey[:], serializedPubKey)
f.compressedPubKeys[compressedPubKey] = struct{}{}
return
case 65: // uncompressed
var uncompressedPubKey [65]byte
copy(uncompressedPubKey[:], serializedPubKey)
f.uncompressedPubKeys[uncompressedPubKey] = struct{}{}
return
}
}
f.otherAddresses[a.EncodeAddress()] = struct{}{}
}
// addAddressStr parses an address from a string and then adds it to the
// wsClientFilter using addAddress.
//
// NOTE: This extension was ported from github.com/decred/dcrd
func (f *wsClientFilter) addAddressStr(s string, params *chaincfg.Params) {
// If address can't be decoded, no point in saving it since it should also
// impossible to create the address from an inspected transaction output
// script.
a, err := btcutil.DecodeAddress(s, params)
if err != nil {
return
}
f.addAddress(a)
}
// existsAddress returns true if the passed address has been added to the
// wsClientFilter.
//
// NOTE: This extension was ported from github.com/decred/dcrd
func (f *wsClientFilter) existsAddress(a btcutil.Address) bool {
switch a := a.(type) {
case *btcutil.AddressPubKeyHash:
_, ok := f.pubKeyHashes[*a.Hash160()]
return ok
case *btcutil.AddressScriptHash:
_, ok := f.scriptHashes[*a.Hash160()]
return ok
case *btcutil.AddressPubKey:
serializedPubKey := a.ScriptAddress()
switch len(serializedPubKey) {
case 33: // compressed
var compressedPubKey [33]byte
copy(compressedPubKey[:], serializedPubKey)
_, ok := f.compressedPubKeys[compressedPubKey]
if !ok {
_, ok = f.pubKeyHashes[*a.AddressPubKeyHash().Hash160()]
}
return ok
case 65: // uncompressed
var uncompressedPubKey [65]byte
copy(uncompressedPubKey[:], serializedPubKey)
_, ok := f.uncompressedPubKeys[uncompressedPubKey]
if !ok {
_, ok = f.pubKeyHashes[*a.AddressPubKeyHash().Hash160()]
}
return ok
}
}
_, ok := f.otherAddresses[a.EncodeAddress()]
return ok
}
// addUnspentOutPoint adds an outpoint to the wsClientFilter.
//
// NOTE: This extension was ported from github.com/decred/dcrd
func (f *wsClientFilter) addUnspentOutPoint(op *wire.OutPoint) {
f.unspent[*op] = struct{}{}
}
// existsUnspentOutPoint returns true if the passed outpoint has been added to
// the wsClientFilter.
//
// NOTE: This extension was ported from github.com/decred/dcrd
func (f *wsClientFilter) existsUnspentOutPoint(op *wire.OutPoint) bool {
_, ok := f.unspent[*op]
return ok
}
// Notification types
type notificationBlockConnected btcutil.Block
type notificationBlockDisconnected btcutil.Block
type notificationTxAcceptedByMempool struct {
isNew bool
tx *btcutil.Tx
}
// Notification control requests
type notificationRegisterClient wsClient
type notificationUnregisterClient wsClient
type notificationRegisterBlocks wsClient
type notificationUnregisterBlocks wsClient
type notificationRegisterNewMempoolTxs wsClient
type notificationUnregisterNewMempoolTxs wsClient
type notificationRegisterSpent struct {
wsc *wsClient
ops []*wire.OutPoint
}
type notificationUnregisterSpent struct {
wsc *wsClient
op *wire.OutPoint
}
type notificationRegisterAddr struct {
wsc *wsClient
addrs []string
}
type notificationUnregisterAddr struct {
wsc *wsClient
addr string
}
// notificationHandler reads notifications and control messages from the queue
// handler and processes one at a time.
func (m *wsNotificationManager) notificationHandler() {
// clients is a map of all currently connected websocket clients.
clients := make(map[chan struct{}]*wsClient)
// Maps used to hold lists of websocket clients to be notified on
// certain events. Each websocket client also keeps maps for the events
// which have multiple triggers to make removal from these lists on
// connection close less horrendously expensive.
//
// Where possible, the quit channel is used as the unique id for a client
// since it is quite a bit more efficient than using the entire struct.
blockNotifications := make(map[chan struct{}]*wsClient)
txNotifications := make(map[chan struct{}]*wsClient)
watchedOutPoints := make(map[wire.OutPoint]map[chan struct{}]*wsClient)
watchedAddrs := make(map[string]map[chan struct{}]*wsClient)
out:
for {
select {
case n, ok := <-m.notificationMsgs:
if !ok {
// queueHandler quit.
break out
}
switch n := n.(type) {
case *notificationBlockConnected:
block := (*btcutil.Block)(n)
// Skip iterating through all txs if no
// tx notification requests exist.
if len(watchedOutPoints) != 0 || len(watchedAddrs) != 0 {
for _, tx := range block.Transactions() {
m.notifyForTx(watchedOutPoints,
watchedAddrs, tx, block)
}
}
if len(blockNotifications) != 0 {
m.notifyBlockConnected(blockNotifications,
block)
m.notifyFilteredBlockConnected(blockNotifications,
block)
}
case *notificationBlockDisconnected:
block := (*btcutil.Block)(n)
if len(blockNotifications) != 0 {
m.notifyBlockDisconnected(blockNotifications,
block)
m.notifyFilteredBlockDisconnected(blockNotifications,
block)
}
case *notificationTxAcceptedByMempool:
if n.isNew && len(txNotifications) != 0 {
m.notifyForNewTx(txNotifications, n.tx)
}
m.notifyForTx(watchedOutPoints, watchedAddrs, n.tx, nil)
m.notifyRelevantTxAccepted(n.tx, clients)
case *notificationRegisterBlocks:
wsc := (*wsClient)(n)
blockNotifications[wsc.quit] = wsc
case *notificationUnregisterBlocks:
wsc := (*wsClient)(n)
delete(blockNotifications, wsc.quit)
case *notificationRegisterClient:
wsc := (*wsClient)(n)
clients[wsc.quit] = wsc
case *notificationUnregisterClient:
wsc := (*wsClient)(n)
// Remove any requests made by the client as well as
// the client itself.
delete(blockNotifications, wsc.quit)
delete(txNotifications, wsc.quit)
for k := range wsc.spentRequests {
op := k
m.removeSpentRequest(watchedOutPoints, wsc, &op)
}
for addr := range wsc.addrRequests {
m.removeAddrRequest(watchedAddrs, wsc, addr)
}
delete(clients, wsc.quit)
case *notificationRegisterSpent:
m.addSpentRequests(watchedOutPoints, n.wsc, n.ops)
case *notificationUnregisterSpent:
m.removeSpentRequest(watchedOutPoints, n.wsc, n.op)
case *notificationRegisterAddr:
m.addAddrRequests(watchedAddrs, n.wsc, n.addrs)
case *notificationUnregisterAddr:
m.removeAddrRequest(watchedAddrs, n.wsc, n.addr)
case *notificationRegisterNewMempoolTxs:
wsc := (*wsClient)(n)
txNotifications[wsc.quit] = wsc
case *notificationUnregisterNewMempoolTxs:
wsc := (*wsClient)(n)
delete(txNotifications, wsc.quit)
default:
log.Warn("Unhandled notification type")
}
case m.numClients <- len(clients):
case <-m.quit:
// RPC server shutting down.
break out
}
}
for _, c := range clients {
c.Disconnect()
}
m.wg.Done()
}
// NumClients returns the number of clients actively being served.
func (m *wsNotificationManager) NumClients() (n int) {
select {
case n = <-m.numClients:
case <-m.quit: // Use default n (0) if server has shut down.
}
return
}
// RegisterBlockUpdates requests block update notifications to the passed
// websocket client.
func (m *wsNotificationManager) RegisterBlockUpdates(wsc *wsClient) {
m.queueNotification <- (*notificationRegisterBlocks)(wsc)
}
// UnregisterBlockUpdates removes block update notifications for the passed
// websocket client.
func (m *wsNotificationManager) UnregisterBlockUpdates(wsc *wsClient) {
m.queueNotification <- (*notificationUnregisterBlocks)(wsc)
}
// subscribedClients returns the set of all websocket client quit channels that
// are registered to receive notifications regarding tx, either due to tx
// spending a watched output or outputting to a watched address. Matching
// client's filters are updated based on this transaction's outputs and output
// addresses that may be relevant for a client.
func (m *wsNotificationManager) subscribedClients(tx *btcutil.Tx,
clients map[chan struct{}]*wsClient) map[chan struct{}]struct{} {
// Use a map of client quit channels as keys to prevent duplicates when
// multiple inputs and/or outputs are relevant to the client.
subscribed := make(map[chan struct{}]struct{})
msgTx := tx.MsgTx()
for _, input := range msgTx.TxIn {
for quitChan, wsc := range clients {
wsc.Lock()
filter := wsc.filterData
wsc.Unlock()
if filter == nil {
continue
}
filter.mu.Lock()
if filter.existsUnspentOutPoint(&input.PreviousOutPoint) {
subscribed[quitChan] = struct{}{}
}
filter.mu.Unlock()
}
}
for i, output := range msgTx.TxOut {
_, addrs, _, err := txscript.ExtractPkScriptAddrs(
output.PkScript, m.server.cfg.ChainParams)
if err != nil {
// Clients are not able to subscribe to
// nonstandard or non-address outputs.
continue
}
for quitChan, wsc := range clients {
wsc.Lock()
filter := wsc.filterData
wsc.Unlock()
if filter == nil {
continue
}
filter.mu.Lock()
for _, a := range addrs {
if filter.existsAddress(a) {
subscribed[quitChan] = struct{}{}
op := wire.OutPoint{
Hash: *tx.Hash(),
Index: uint32(i),
}
filter.addUnspentOutPoint(&op)
}
}
filter.mu.Unlock()
}
}
return subscribed
}
// notifyBlockConnected notifies websocket clients that have registered for
// block updates when a block is connected to the main chain.
func (*wsNotificationManager) notifyBlockConnected(clients map[chan struct{}]*wsClient,
block *btcutil.Block) {
// Notify interested websocket clients about the connected block.
ntfn := btcjson.NewBlockConnectedNtfn(block.Hash().String(), block.Height(),
block.MsgBlock().Header.Timestamp.Unix())
marshalledJSON, err := btcjson.MarshalCmd(nil, ntfn)
if err != nil {
log.Errorf("Failed to marshal block connected notification: "+
"%v", err)
return
}
for _, wsc := range clients {
wsc.QueueNotification(marshalledJSON)
}
}
// notifyBlockDisconnected notifies websocket clients that have registered for
// block updates when a block is disconnected from the main chain (due to a
// reorganize).
func (*wsNotificationManager) notifyBlockDisconnected(clients map[chan struct{}]*wsClient, block *btcutil.Block) {
// Skip notification creation if no clients have requested block
// connected/disconnected notifications.
if len(clients) == 0 {
return
}
// Notify interested websocket clients about the disconnected block.
ntfn := btcjson.NewBlockDisconnectedNtfn(block.Hash().String(),
block.Height(), block.MsgBlock().Header.Timestamp.Unix())
marshalledJSON, err := btcjson.MarshalCmd(nil, ntfn)
if err != nil {
log.Errorf("Failed to marshal block disconnected "+
"notification: %v", err)
return
}
for _, wsc := range clients {
wsc.QueueNotification(marshalledJSON)
}
}
// notifyFilteredBlockConnected notifies websocket clients that have registered for
// block updates when a block is connected to the main chain.
func (m *wsNotificationManager) notifyFilteredBlockConnected(clients map[chan struct{}]*wsClient,
block *btcutil.Block) {
// Create the common portion of the notification that is the same for
// every client.
var w bytes.Buffer
err := block.MsgBlock().Header.Serialize(&w)
if err != nil {
log.Errorf("Failed to serialize header for filtered block "+
"connected notification: %v", err)
return
}
ntfn := btcjson.NewFilteredBlockConnectedNtfn(block.Height(),
hex.EncodeToString(w.Bytes()), nil)
// Search for relevant transactions for each client and save them
// serialized in hex encoding for the notification.
subscribedTxs := make(map[chan struct{}][]string)
for _, tx := range block.Transactions() {
var txHex string
for quitChan := range m.subscribedClients(tx, clients) {
if txHex == "" {
txHex = txHexString(tx.MsgTx())
}
subscribedTxs[quitChan] = append(subscribedTxs[quitChan], txHex)
}
}
for quitChan, wsc := range clients {
// Add all discovered transactions for this client. For clients
// that have no new-style filter, add the empty string slice.
ntfn.SubscribedTxs = subscribedTxs[quitChan]
// Marshal and queue notification.
marshalledJSON, err := btcjson.MarshalCmd(nil, ntfn)
if err != nil {
log.Errorf("Failed to marshal filtered block "+
"connected notification: %v", err)
return
}
wsc.QueueNotification(marshalledJSON)
}
}
// notifyFilteredBlockDisconnected notifies websocket clients that have registered for
// block updates when a block is disconnected from the main chain (due to a
// reorganize).
func (*wsNotificationManager) notifyFilteredBlockDisconnected(clients map[chan struct{}]*wsClient,
block *btcutil.Block) {
// Skip notification creation if no clients have requested block
// connected/disconnected notifications.
if len(clients) == 0 {
return
}
// Notify interested websocket clients about the disconnected block.
var w bytes.Buffer
err := block.MsgBlock().Header.Serialize(&w)
if err != nil {
log.Errorf("Failed to serialize header for filtered block "+
"disconnected notification: %v", err)
return
}
ntfn := btcjson.NewFilteredBlockDisconnectedNtfn(block.Height(),
hex.EncodeToString(w.Bytes()))
marshalledJSON, err := btcjson.MarshalCmd(nil, ntfn)
if err != nil {
log.Errorf("Failed to marshal filtered block disconnected "+
"notification: %v", err)
return
}
for _, wsc := range clients {
wsc.QueueNotification(marshalledJSON)
}
}
// RegisterNewMempoolTxsUpdates requests notifications to the passed websocket
// client when new transactions are added to the memory pool.
func (m *wsNotificationManager) RegisterNewMempoolTxsUpdates(wsc *wsClient) {
m.queueNotification <- (*notificationRegisterNewMempoolTxs)(wsc)
}
// UnregisterNewMempoolTxsUpdates removes notifications to the passed websocket
// client when new transaction are added to the memory pool.
func (m *wsNotificationManager) UnregisterNewMempoolTxsUpdates(wsc *wsClient) {
m.queueNotification <- (*notificationUnregisterNewMempoolTxs)(wsc)
}
// notifyForNewTx notifies websocket clients that have registered for updates
// when a new transaction is added to the memory pool.
func (m *wsNotificationManager) notifyForNewTx(clients map[chan struct{}]*wsClient, tx *btcutil.Tx) {
txHashStr := tx.Hash().String()
mtx := tx.MsgTx()
var amount int64
for _, txOut := range mtx.TxOut {
amount += txOut.Value
}
ntfn := btcjson.NewTxAcceptedNtfn(txHashStr, btcutil.Amount(amount).ToBTC())
marshalledJSON, err := btcjson.MarshalCmd(nil, ntfn)
if err != nil {
log.Errorf("Failed to marshal tx notification: %s", err.String())
return
}
var verboseNtfn *btcjson.TxAcceptedVerboseNtfn
var marshalledJSONVerbose []byte
for _, wsc := range clients {
if wsc.verboseTxUpdates {
if marshalledJSONVerbose != nil {
wsc.QueueNotification(marshalledJSONVerbose)
continue
}
net := m.server.cfg.ChainParams
rawTx, err := createTxRawResult(net, mtx, txHashStr, nil,
"", 0, 0)
if err != nil {
return
}
verboseNtfn = btcjson.NewTxAcceptedVerboseNtfn(*rawTx)
marshalledJSONVerbose, err = btcjson.MarshalCmd(nil,
verboseNtfn)
if err != nil {
log.Errorf("Failed to marshal verbose tx notification: %s", err)
return
}
wsc.QueueNotification(marshalledJSONVerbose)
} else {
wsc.QueueNotification(marshalledJSON)
}
}
}
// RegisterSpentRequests requests a notification when each of the passed
// outpoints is confirmed spent (contained in a block connected to the main
// chain) for the passed websocket client. The request is automatically
// removed once the notification has been sent.
func (m *wsNotificationManager) RegisterSpentRequests(wsc *wsClient, ops []*wire.OutPoint) {
m.queueNotification <- ¬ificationRegisterSpent{
wsc: wsc,
ops: ops,
}
}
// addSpentRequests modifies a map of watched outpoints to sets of websocket
// clients to add a new request watch all of the outpoints in ops and create
// and send a notification when spent to the websocket client wsc.
func (m *wsNotificationManager) addSpentRequests(opMap map[wire.OutPoint]map[chan struct{}]*wsClient,
wsc *wsClient, ops []*wire.OutPoint) {
for _, op := range ops {
// Track the request in the client as well so it can be quickly
// be removed on disconnect.
wsc.spentRequests[*op] = struct{}{}
// Add the client to the list to notify when the outpoint is seen.
// Create the list as needed.
cmap, ok := opMap[*op]
if !ok {
cmap = make(map[chan struct{}]*wsClient)
opMap[*op] = cmap
}
cmap[wsc.quit] = wsc
}
// Check if any transactions spending these outputs already exists in
// the mempool, if so send the notification immediately.
spends := make(map[chainhash.Hash]*btcutil.Tx)
for _, op := range ops {
spend := m.server.cfg.TxMemPool.CheckSpend(*op)
if spend != nil {
log.Debugf("Found existing mempool spend for "+
"outpoint<%v>: %v", op, spend.Hash())
spends[*spend.Hash()] = spend
}
}
for _, spend := range spends {
m.notifyForTx(opMap, nil, spend, nil)
}
}
// UnregisterSpentRequest removes a request from the passed websocket client
// to be notified when the passed outpoint is confirmed spent (contained in a
// block connected to the main chain).
func (m *wsNotificationManager) UnregisterSpentRequest(wsc *wsClient, op *wire.OutPoint) {
m.queueNotification <- ¬ificationUnregisterSpent{
wsc: wsc,
op: op,
}
}
// removeSpentRequest modifies a map of watched outpoints to remove the
// websocket client wsc from the set of clients to be notified when a
// watched outpoint is spent. If wsc is the last client, the outpoint
// key is removed from the map.
func (*wsNotificationManager) removeSpentRequest(ops map[wire.OutPoint]map[chan struct{}]*wsClient,
wsc *wsClient, op *wire.OutPoint) {
// Remove the request tracking from the client.
delete(wsc.spentRequests, *op)
// Remove the client from the list to notify.
notifyMap, ok := ops[*op]
if !ok {
log.Warnf("Attempt to remove nonexistent spent request "+
"for websocket client %s", wsc.addr)
return
}
delete(notifyMap, wsc.quit)
// Remove the map entry altogether if there are
// no more clients interested in it.
if len(notifyMap) == 0 {
delete(ops, *op)
}
}
// txHexString returns the serialized transaction encoded in hexadecimal.
func txHexString(tx *wire.MsgTx) string {
buf := bytes.NewBuffer(make([]byte, 0, tx.SerializeSize()))
// Ignore Serialize's error, as writing to a bytes.buffer cannot fail.
tx.Serialize(buf)
return hex.EncodeToString(buf.Bytes())
}
// blockDetails creates a BlockDetails struct to include in btcws notifications
// from a block and a transaction's block index.
func blockDetails(block *btcutil.Block, txIndex int) *btcjson.BlockDetails {
if block == nil {
return nil
}
return &btcjson.BlockDetails{
Height: block.Height(),
Hash: block.Hash().String(),
Index: txIndex,
Time: block.MsgBlock().Header.Timestamp.Unix(),
}
}
// newRedeemingTxNotification returns a new marshalled redeemingtx notification
// with the passed parameters.
func newRedeemingTxNotification(txHex string, index int, block *btcutil.Block) ([]byte, er.R) {
// Create and marshal the notification.
ntfn := btcjson.NewRedeemingTxNtfn(txHex, blockDetails(block, index))
return btcjson.MarshalCmd(nil, ntfn)
}
// notifyForTxOuts examines each transaction output, notifying interested
// websocket clients of the transaction if an output spends to a watched
// address. A spent notification request is automatically registered for
// the client for each matching output.
func (m *wsNotificationManager) notifyForTxOuts(ops map[wire.OutPoint]map[chan struct{}]*wsClient,
addrs map[string]map[chan struct{}]*wsClient, tx *btcutil.Tx, block *btcutil.Block) {
// Nothing to do if nobody is listening for address notifications.
if len(addrs) == 0 {
return
}
txHex := ""
wscNotified := make(map[chan struct{}]struct{})
for i, txOut := range tx.MsgTx().TxOut {
_, txAddrs, _, err := txscript.ExtractPkScriptAddrs(
txOut.PkScript, m.server.cfg.ChainParams)
if err != nil {
continue
}
for _, txAddr := range txAddrs {
cmap, ok := addrs[txAddr.EncodeAddress()]
if !ok {
continue
}
if txHex == "" {
txHex = txHexString(tx.MsgTx())
}
ntfn := btcjson.NewRecvTxNtfn(txHex, blockDetails(block,
tx.Index()))
marshalledJSON, err := btcjson.MarshalCmd(nil, ntfn)
if err != nil {
log.Errorf("Failed to marshal processedtx notification: %v", err)
continue
}
op := []*wire.OutPoint{wire.NewOutPoint(tx.Hash(), uint32(i))}
for wscQuit, wsc := range cmap {
m.addSpentRequests(ops, wsc, op)
if _, ok := wscNotified[wscQuit]; !ok {
wscNotified[wscQuit] = struct{}{}
wsc.QueueNotification(marshalledJSON)
}
}
}
}
}
// notifyRelevantTxAccepted examines the inputs and outputs of the passed
// transaction, notifying websocket clients of outputs spending to a watched
// address and inputs spending a watched outpoint. Any outputs paying to a
// watched address result in the output being watched as well for future
// notifications.
func (m *wsNotificationManager) notifyRelevantTxAccepted(tx *btcutil.Tx,
clients map[chan struct{}]*wsClient) {
clientsToNotify := m.subscribedClients(tx, clients)
if len(clientsToNotify) != 0 {
n := btcjson.NewRelevantTxAcceptedNtfn(txHexString(tx.MsgTx()))
marshalled, err := btcjson.MarshalCmd(nil, n)
if err != nil {
log.Errorf("Failed to marshal notification: %v", err)