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handlers.go
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handlers.go
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package relayer
import (
"context"
"crypto/rand"
"crypto/sha256"
"encoding/hex"
"encoding/json"
"fmt"
"net/http"
"time"
"github.com/fasthttp/websocket"
"github.com/fiatjaf/eventstore"
"github.com/nbd-wtf/go-nostr"
"github.com/nbd-wtf/go-nostr/nip11"
"github.com/nbd-wtf/go-nostr/nip42"
"golang.org/x/exp/slices"
"golang.org/x/time/rate"
)
// TODO: consider moving these to Server as config params
const (
// Time allowed to write a message to the peer.
writeWait = 10 * time.Second
// Time allowed to read the next pong message from the peer.
pongWait = 60 * time.Second
// Send pings to peer with this period. Must be less than pongWait.
pingPeriod = pongWait / 2
// Maximum message size allowed from peer.
maxMessageSize = 512000
)
// TODO: consider moving these to Server as config params
var upgrader = websocket.Upgrader{
ReadBufferSize: 1024,
WriteBufferSize: 1024,
CheckOrigin: func(r *http.Request) bool { return true },
}
func challenge(conn *websocket.Conn) *WebSocket {
// NIP-42 challenge
challenge := make([]byte, 8)
rand.Read(challenge)
return &WebSocket{
conn: conn,
challenge: hex.EncodeToString(challenge),
}
}
func (s *Server) doEvent(ctx context.Context, ws *WebSocket, request []json.RawMessage, store eventstore.Store) string {
advancedDeleter, _ := store.(AdvancedDeleter)
latestIndex := len(request) - 1
// it's a new event
var evt nostr.Event
if err := json.Unmarshal(request[latestIndex], &evt); err != nil {
return "failed to decode event: " + err.Error()
}
// check id
hash := sha256.Sum256(evt.Serialize())
if id := hex.EncodeToString(hash[:]); id != evt.ID {
reason := "invalid: event id is computed incorrectly"
ws.WriteJSON(nostr.OKEnvelope{EventID: evt.ID, OK: false, Reason: reason})
return ""
}
// check signature
if ok, err := evt.CheckSignature(); err != nil {
ws.WriteJSON(nostr.OKEnvelope{EventID: evt.ID, OK: false, Reason: "error: failed to verify signature"})
return ""
} else if !ok {
ws.WriteJSON(nostr.OKEnvelope{EventID: evt.ID, OK: false, Reason: "invalid: signature is invalid"})
return ""
}
if evt.Kind == 5 {
// event deletion -- nip09
for _, tag := range evt.Tags {
if len(tag) >= 2 && tag[0] == "e" {
// fetch event to be deleted
res, err := s.relay.Storage(ctx).QueryEvents(ctx, nostr.Filter{IDs: []string{tag[1]}})
if err != nil {
ws.WriteJSON(nostr.OKEnvelope{EventID: evt.ID, OK: false, Reason: "failed to query for target event"})
return ""
}
var target *nostr.Event
exists := false
select {
case target, exists = <-res:
case <-time.After(time.Millisecond * 200):
}
if !exists {
// this will happen if event is not in the database
// or when when the query is taking too long, so we just give up
continue
}
// check if this can be deleted
if target.PubKey != evt.PubKey {
ws.WriteJSON(nostr.OKEnvelope{EventID: evt.ID, OK: false, Reason: "insufficient permissions"})
return ""
}
if advancedDeleter != nil {
advancedDeleter.BeforeDelete(ctx, tag[1], evt.PubKey)
}
if err := store.DeleteEvent(ctx, target); err != nil {
ws.WriteJSON(nostr.OKEnvelope{EventID: evt.ID, OK: false, Reason: fmt.Sprintf("error: %s", err.Error())})
return ""
}
if advancedDeleter != nil {
advancedDeleter.AfterDelete(tag[1], evt.PubKey)
}
}
}
return ""
}
ok, reason := AddEvent(ctx, s.relay, &evt)
ws.WriteJSON(nostr.OKEnvelope{EventID: evt.ID, OK: ok, Reason: reason})
return ""
}
func (s *Server) doCount(ctx context.Context, ws *WebSocket, request []json.RawMessage, store eventstore.Store) string {
counter, ok := store.(EventCounter)
if !ok {
return "restricted: this relay does not support NIP-45"
}
var id string
json.Unmarshal(request[1], &id)
if id == "" {
return "COUNT has no <id>"
}
total := int64(0)
filters := make(nostr.Filters, len(request)-2)
for i, filterReq := range request[2:] {
if err := json.Unmarshal(filterReq, &filters[i]); err != nil {
return "failed to decode filter"
}
filter := &filters[i]
// prevent kind-4 events from being returned to unauthed users,
// only when authentication is a thing
if _, ok := s.relay.(Auther); ok {
if slices.Contains(filter.Kinds, 4) {
senders := filter.Authors
receivers, _ := filter.Tags["p"]
switch {
case ws.authed == "":
// not authenticated
return "restricted: this relay does not serve kind-4 to unauthenticated users, does your client implement NIP-42?"
case len(senders) == 1 && len(receivers) < 2 && (senders[0] == ws.authed):
// allowed filter: ws.authed is sole sender (filter specifies one or all receivers)
case len(receivers) == 1 && len(senders) < 2 && (receivers[0] == ws.authed):
// allowed filter: ws.authed is sole receiver (filter specifies one or all senders)
default:
// restricted filter: do not return any events,
// even if other elements in filters array were not restricted).
// client should know better.
return "restricted: authenticated user does not have authorization for requested filters."
}
}
}
count, err := counter.CountEvents(ctx, filter)
if err != nil {
s.Log.Errorf("store: %v", err)
continue
}
total += count
}
ws.WriteJSON([]interface{}{"COUNT", id, map[string]int64{"count": total}})
return ""
}
func (s *Server) doReq(ctx context.Context, ws *WebSocket, request []json.RawMessage, store eventstore.Store) string {
var id string
json.Unmarshal(request[1], &id)
if id == "" {
return "REQ has no <id>"
}
filters := make(nostr.Filters, len(request)-2)
for i, filterReq := range request[2:] {
if err := json.Unmarshal(
filterReq,
&filters[i],
); err != nil {
return "failed to decode filter"
}
}
if accepter, ok := s.relay.(ReqAccepter); ok {
if !accepter.AcceptReq(ctx, id, filters, ws.authed) {
return "REQ filters are not accepted"
}
}
for _, filter := range filters {
// prevent kind-4 events from being returned to unauthed users,
// only when authentication is a thing
if _, ok := s.relay.(Auther); ok {
if slices.Contains(filter.Kinds, 4) {
senders := filter.Authors
receivers, _ := filter.Tags["p"]
switch {
case ws.authed == "":
// not authenticated
return "restricted: this relay does not serve kind-4 to unauthenticated users, does your client implement NIP-42?"
case len(senders) == 1 && len(receivers) < 2 && (senders[0] == ws.authed):
// allowed filter: ws.authed is sole sender (filter specifies one or all receivers)
case len(receivers) == 1 && len(senders) < 2 && (receivers[0] == ws.authed):
// allowed filter: ws.authed is sole receiver (filter specifies one or all senders)
default:
// restricted filter: do not return any events,
// even if other elements in filters array were not restricted).
// client should know better.
return "restricted: authenticated user does not have authorization for requested filters."
}
}
}
events, err := store.QueryEvents(ctx, filter)
if err != nil {
s.Log.Errorf("store: %v", err)
continue
}
// ensures the client won't be bombarded with events in case Storage doesn't do limits right
if filter.Limit == 0 {
filter.Limit = 9999999999
}
i := 0
for event := range events {
ws.WriteJSON(nostr.EventEnvelope{SubscriptionID: &id, Event: *event})
i++
if i > filter.Limit {
break
}
}
// exhaust the channel (in case we broke out of it early) so it is closed by the storage
for range events {
}
}
ws.WriteJSON(nostr.EOSEEnvelope(id))
setListener(id, ws, filters)
return ""
}
func (s *Server) doClose(ctx context.Context, ws *WebSocket, request []json.RawMessage, store eventstore.Store) string {
var id string
json.Unmarshal(request[1], &id)
if id == "" {
return "CLOSE has no <id>"
}
removeListenerId(ws, id)
return ""
}
func (s *Server) doAuth(ctx context.Context, ws *WebSocket, request []json.RawMessage, store eventstore.Store) string {
if auther, ok := s.relay.(Auther); ok {
var evt nostr.Event
if err := json.Unmarshal(request[1], &evt); err != nil {
return "failed to decode auth event: " + err.Error()
}
if pubkey, ok := nip42.ValidateAuthEvent(&evt, ws.challenge, auther.ServiceURL()); ok {
ws.authed = pubkey
ctx = context.WithValue(ctx, AUTH_CONTEXT_KEY, pubkey)
ws.WriteJSON(nostr.OKEnvelope{EventID: evt.ID, OK: true})
} else {
ws.WriteJSON(nostr.OKEnvelope{EventID: evt.ID, OK: false, Reason: "error: failed to authenticate"})
}
}
return ""
}
func (s *Server) handleMessage(ctx context.Context, ws *WebSocket, message []byte, store eventstore.Store) {
var notice string
defer func() {
if notice != "" {
ws.WriteJSON(nostr.NoticeEnvelope(notice))
}
}()
var request []json.RawMessage
if err := json.Unmarshal(message, &request); err != nil {
// stop silently
return
}
if len(request) < 2 {
notice = "request has less than 2 parameters"
return
}
var typ string
json.Unmarshal(request[0], &typ)
switch typ {
case "EVENT":
notice = s.doEvent(ctx, ws, request, store)
case "COUNT":
notice = s.doCount(ctx, ws, request, store)
case "REQ":
notice = s.doReq(ctx, ws, request, store)
case "CLOSE":
notice = s.doClose(ctx, ws, request, store)
case "AUTH":
notice = s.doAuth(ctx, ws, request, store)
default:
if cwh, ok := s.relay.(CustomWebSocketHandler); ok {
cwh.HandleUnknownType(ws, typ, request)
} else {
notice = "unknown message type " + typ
}
}
}
func (s *Server) HandleWebsocket(w http.ResponseWriter, r *http.Request) {
ctx := r.Context()
store := s.relay.Storage(ctx)
conn, err := upgrader.Upgrade(w, r, nil)
if err != nil {
s.Log.Errorf("failed to upgrade websocket: %v", err)
return
}
s.clientsMu.Lock()
defer s.clientsMu.Unlock()
s.clients[conn] = struct{}{}
ticker := time.NewTicker(pingPeriod)
stop := make(chan struct{})
s.Log.Infof("connected from %s", conn.RemoteAddr().String())
ws := challenge(conn)
if s.options.perConnectionLimiter != nil {
ws.limiter = rate.NewLimiter(
s.options.perConnectionLimiter.Limit(),
s.options.perConnectionLimiter.Burst(),
)
}
// reader
go func() {
defer func() {
ticker.Stop()
stop <- struct{}{}
close(stop)
s.clientsMu.Lock()
if _, ok := s.clients[conn]; ok {
conn.Close()
delete(s.clients, conn)
removeListener(ws)
}
s.clientsMu.Unlock()
s.Log.Infof("disconnected from %s", conn.RemoteAddr().String())
ctx.Done()
}()
conn.SetReadLimit(maxMessageSize)
conn.SetReadDeadline(time.Now().Add(pongWait))
conn.SetPongHandler(func(string) error {
conn.SetReadDeadline(time.Now().Add(pongWait))
return nil
})
// NIP-42 auth challenge
if _, ok := s.relay.(Auther); ok {
ws.WriteJSON(nostr.AuthEnvelope{Challenge: &ws.challenge})
}
for {
typ, message, err := conn.ReadMessage()
if err != nil {
if websocket.IsUnexpectedCloseError(
err,
websocket.CloseGoingAway, // 1001
websocket.CloseNoStatusReceived, // 1005
websocket.CloseAbnormalClosure, // 1006
) {
s.Log.Warningf("unexpected close error from %s: %v", r.Header.Get("X-Forwarded-For"), err)
}
break
}
if ws.limiter != nil {
// NOTE: Wait will throttle the requests.
// To reject requests exceeding the limit, use if !ws.limiter.Allow()
if err := ws.limiter.Wait(context.TODO()); err != nil {
s.Log.Warningf("unexpected limiter error %v", err)
continue
}
}
if typ == websocket.PingMessage {
ws.WriteMessage(websocket.PongMessage, nil)
continue
}
go s.handleMessage(context.TODO(), ws, message, store)
}
}()
// writer
go func() {
defer func() {
ticker.Stop()
conn.Close()
for range stop {
}
}()
for {
select {
case <-ticker.C:
err := conn.WriteControl(websocket.PingMessage, nil, time.Now().Add(writeWait))
if err != nil {
s.Log.Errorf("error writing ping: %v; closing websocket", err)
return
}
s.Log.Infof("pinging for %s", conn.RemoteAddr().String())
case <-stop:
return
}
}
}()
}
func (s *Server) HandleNIP11(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/json")
var info nip11.RelayInformationDocument
if ifmer, ok := s.relay.(Informationer); ok {
info = ifmer.GetNIP11InformationDocument()
} else {
supportedNIPs := []int{9, 11, 12, 15, 16, 20, 33}
if _, ok := s.relay.(Auther); ok {
supportedNIPs = append(supportedNIPs, 42)
}
if storage, ok := s.relay.(eventstore.Store); ok && storage != nil {
if _, ok = storage.(EventCounter); ok {
supportedNIPs = append(supportedNIPs, 45)
}
}
info = nip11.RelayInformationDocument{
Name: s.relay.Name(),
Description: "relay powered by the relayer framework",
PubKey: "~",
Contact: "~",
SupportedNIPs: supportedNIPs,
Software: "https://github.com/fiatjaf/relayer",
Version: "~",
}
}
json.NewEncoder(w).Encode(info)
}