491 lines
12 KiB
Go
491 lines
12 KiB
Go
package nostr
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import (
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"context"
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"fmt"
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"log"
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"math"
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"slices"
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"strings"
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"sync"
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"time"
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"github.com/puzpuzpuz/xsync/v3"
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)
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const (
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seenAlreadyDropTick = time.Minute
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)
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type SimplePool struct {
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Relays *xsync.MapOf[string, *Relay]
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Context context.Context
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authHandler func(context.Context, RelayEvent) error
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cancel context.CancelFunc
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eventMiddleware []func(RelayEvent)
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// custom things not often used
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penaltyBoxMu sync.Mutex
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penaltyBox map[string][2]float64
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userAgent string
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}
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type DirectedFilters struct {
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Filters
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Relay string
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}
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type RelayEvent struct {
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*Event
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Relay *Relay
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}
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func (ie RelayEvent) String() string {
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return fmt.Sprintf("[%s] >> %s", ie.Relay.URL, ie.Event)
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}
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type PoolOption interface {
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ApplyPoolOption(*SimplePool)
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}
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func NewSimplePool(ctx context.Context, opts ...PoolOption) *SimplePool {
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ctx, cancel := context.WithCancel(ctx)
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pool := &SimplePool{
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Relays: xsync.NewMapOf[string, *Relay](),
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Context: ctx,
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cancel: cancel,
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}
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for _, opt := range opts {
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opt.ApplyPoolOption(pool)
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}
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return pool
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}
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// WithAuthHandler must be a function that signs the auth event when called.
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// it will be called whenever any relay in the pool returns a `CLOSED` message
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// with the "auth-required:" prefix, only once for each relay
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type WithAuthHandler func(ctx context.Context, authEvent RelayEvent) error
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func (h WithAuthHandler) ApplyPoolOption(pool *SimplePool) {
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pool.authHandler = h
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}
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// WithPenaltyBox just sets the penalty box mechanism so relays that fail to connect
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// or that disconnect will be ignored for a while and we won't attempt to connect again.
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func WithPenaltyBox() withPenaltyBoxOpt { return withPenaltyBoxOpt{} }
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type withPenaltyBoxOpt struct{}
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func (h withPenaltyBoxOpt) ApplyPoolOption(pool *SimplePool) {
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pool.penaltyBox = make(map[string][2]float64)
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go func() {
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sleep := 30.0
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for {
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time.Sleep(time.Duration(sleep) * time.Second)
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pool.penaltyBoxMu.Lock()
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nextSleep := 300.0
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for url, v := range pool.penaltyBox {
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remainingSeconds := v[1]
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remainingSeconds -= sleep
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if remainingSeconds <= 0 {
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pool.penaltyBox[url] = [2]float64{v[0], 0}
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continue
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} else {
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pool.penaltyBox[url] = [2]float64{v[0], remainingSeconds}
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}
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if remainingSeconds < nextSleep {
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nextSleep = remainingSeconds
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}
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}
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sleep = nextSleep
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pool.penaltyBoxMu.Unlock()
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}
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}()
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}
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// WithEventMiddleware is a function that will be called with all events received.
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// more than one can be passed at a time.
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type WithEventMiddleware func(RelayEvent)
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func (h WithEventMiddleware) ApplyPoolOption(pool *SimplePool) {
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pool.eventMiddleware = append(pool.eventMiddleware, h)
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}
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// WithUserAgent sets the user-agent header for all relay connections in the pool.
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func WithUserAgent(userAgent string) withUserAgentOpt { return withUserAgentOpt(userAgent) }
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type withUserAgentOpt string
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func (h withUserAgentOpt) ApplyPoolOption(pool *SimplePool) {
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pool.userAgent = string(h)
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}
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var (
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_ PoolOption = (WithAuthHandler)(nil)
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_ PoolOption = (WithEventMiddleware)(nil)
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_ PoolOption = WithPenaltyBox()
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_ PoolOption = WithUserAgent("")
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)
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func (pool *SimplePool) EnsureRelay(url string) (*Relay, error) {
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nm := NormalizeURL(url)
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defer namedLock(nm)()
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relay, ok := pool.Relays.Load(nm)
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if ok && relay == nil {
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if pool.penaltyBox != nil {
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pool.penaltyBoxMu.Lock()
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defer pool.penaltyBoxMu.Unlock()
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v, _ := pool.penaltyBox[nm]
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if v[1] > 0 {
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return nil, fmt.Errorf("in penalty box, %fs remaining", v[1])
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}
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}
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} else if ok && relay.IsConnected() {
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// already connected, unlock and return
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return relay, nil
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}
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// try to connect
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// we use this ctx here so when the pool dies everything dies
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ctx, cancel := context.WithTimeout(pool.Context, time.Second*15)
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defer cancel()
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relay = NewRelay(context.Background(), url)
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relay.RequestHeader.Set("User-Agent", pool.userAgent)
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if err := relay.Connect(ctx); err != nil {
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if pool.penaltyBox != nil {
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// putting relay in penalty box
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pool.penaltyBoxMu.Lock()
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defer pool.penaltyBoxMu.Unlock()
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v, _ := pool.penaltyBox[nm]
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pool.penaltyBox[nm] = [2]float64{v[0] + 1, 30.0 + math.Pow(2, v[0]+1)}
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}
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return nil, fmt.Errorf("failed to connect: %w", err)
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}
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pool.Relays.Store(nm, relay)
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return relay, nil
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}
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// SubMany opens a subscription with the given filters to multiple relays
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// the subscriptions only end when the context is canceled
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func (pool *SimplePool) SubMany(
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ctx context.Context,
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urls []string,
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filters Filters,
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opts ...SubscriptionOption,
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) chan RelayEvent {
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return pool.subMany(ctx, urls, filters, true, opts)
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}
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// SubManyNonUnique is like SubMany, but returns duplicate events if they come from different relays
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func (pool *SimplePool) SubManyNonUnique(
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ctx context.Context,
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urls []string,
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filters Filters,
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opts ...SubscriptionOption,
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) chan RelayEvent {
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return pool.subMany(ctx, urls, filters, false, opts)
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}
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func (pool *SimplePool) subMany(
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ctx context.Context,
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urls []string,
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filters Filters,
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unique bool,
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opts []SubscriptionOption,
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) chan RelayEvent {
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ctx, cancel := context.WithCancel(ctx)
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_ = cancel // do this so `go vet` will stop complaining
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events := make(chan RelayEvent)
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seenAlready := xsync.NewMapOf[string, Timestamp]()
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ticker := time.NewTicker(seenAlreadyDropTick)
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eose := false
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pending := xsync.NewCounter()
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pending.Add(int64(len(urls)))
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for i, url := range urls {
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url = NormalizeURL(url)
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urls[i] = url
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if idx := slices.Index(urls, url); idx != i {
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// skip duplicate relays in the list
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continue
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}
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go func(nm string) {
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defer func() {
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pending.Dec()
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if pending.Value() == 0 {
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close(events)
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}
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cancel()
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}()
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hasAuthed := false
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interval := 3 * time.Second
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for {
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select {
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case <-ctx.Done():
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return
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default:
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}
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var sub *Subscription
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relay, err := pool.EnsureRelay(nm)
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if err != nil {
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goto reconnect
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}
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hasAuthed = false
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subscribe:
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sub, err = relay.Subscribe(ctx, filters, opts...)
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if err != nil {
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goto reconnect
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}
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go func() {
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<-sub.EndOfStoredEvents
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eose = true
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}()
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// reset interval when we get a good subscription
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interval = 3 * time.Second
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for {
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select {
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case evt, more := <-sub.Events:
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if !more {
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// this means the connection was closed for weird reasons, like the server shut down
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// so we will update the filters here to include only events seem from now on
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// and try to reconnect until we succeed
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now := Now()
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for i := range filters {
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filters[i].Since = &now
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}
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goto reconnect
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}
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ie := RelayEvent{Event: evt, Relay: relay}
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for _, mh := range pool.eventMiddleware {
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mh(ie)
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}
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if unique {
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if _, seen := seenAlready.LoadOrStore(evt.ID, evt.CreatedAt); seen {
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continue
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}
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}
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select {
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case events <- ie:
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case <-ctx.Done():
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return
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}
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case <-ticker.C:
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if eose {
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old := Timestamp(time.Now().Add(-seenAlreadyDropTick).Unix())
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seenAlready.Range(func(id string, value Timestamp) bool {
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if value < old {
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seenAlready.Delete(id)
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}
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return true
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})
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}
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case reason := <-sub.ClosedReason:
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if strings.HasPrefix(reason, "auth-required:") && pool.authHandler != nil && !hasAuthed {
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// relay is requesting auth. if we can we will perform auth and try again
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err := relay.Auth(ctx, func(event *Event) error {
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return pool.authHandler(ctx, RelayEvent{Event: event, Relay: relay})
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})
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if err == nil {
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hasAuthed = true // so we don't keep doing AUTH again and again
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goto subscribe
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}
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} else {
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log.Printf("CLOSED from %s: '%s'\n", nm, reason)
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}
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return
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case <-ctx.Done():
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return
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}
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}
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reconnect:
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// we will go back to the beginning of the loop and try to connect again and again
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// until the context is canceled
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time.Sleep(interval)
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interval = interval * 17 / 10 // the next time we try we will wait longer
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}
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}(url)
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}
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return events
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}
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// SubManyEose is like SubMany, but it stops subscriptions and closes the channel when gets a EOSE
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func (pool *SimplePool) SubManyEose(
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ctx context.Context,
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urls []string,
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filters Filters,
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opts ...SubscriptionOption,
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) chan RelayEvent {
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return pool.subManyEose(ctx, urls, filters, true, opts)
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}
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// SubManyEoseNonUnique is like SubManyEose, but returns duplicate events if they come from different relays
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func (pool *SimplePool) SubManyEoseNonUnique(
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ctx context.Context,
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urls []string,
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filters Filters,
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opts ...SubscriptionOption,
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) chan RelayEvent {
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return pool.subManyEose(ctx, urls, filters, false, opts)
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}
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func (pool *SimplePool) subManyEose(
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ctx context.Context,
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urls []string,
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filters Filters,
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unique bool,
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opts []SubscriptionOption,
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) chan RelayEvent {
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ctx, cancel := context.WithCancel(ctx)
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events := make(chan RelayEvent)
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seenAlready := xsync.NewMapOf[string, bool]()
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wg := sync.WaitGroup{}
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wg.Add(len(urls))
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go func() {
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// this will happen when all subscriptions get an eose (or when they die)
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wg.Wait()
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cancel()
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close(events)
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}()
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for _, url := range urls {
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go func(nm string) {
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defer wg.Done()
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relay, err := pool.EnsureRelay(nm)
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if err != nil {
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return
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}
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hasAuthed := false
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subscribe:
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sub, err := relay.Subscribe(ctx, filters, opts...)
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if sub == nil {
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debugLogf("error subscribing to %s with %v: %s", relay, filters, err)
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return
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}
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for {
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select {
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case <-ctx.Done():
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return
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case <-sub.EndOfStoredEvents:
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return
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case reason := <-sub.ClosedReason:
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if strings.HasPrefix(reason, "auth-required:") && pool.authHandler != nil && !hasAuthed {
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// relay is requesting auth. if we can we will perform auth and try again
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err := relay.Auth(ctx, func(event *Event) error {
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return pool.authHandler(ctx, RelayEvent{Event: event, Relay: relay})
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})
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if err == nil {
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hasAuthed = true // so we don't keep doing AUTH again and again
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goto subscribe
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}
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}
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log.Printf("CLOSED from %s: '%s'\n", nm, reason)
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return
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case evt, more := <-sub.Events:
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if !more {
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return
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}
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ie := RelayEvent{Event: evt, Relay: relay}
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for _, mh := range pool.eventMiddleware {
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mh(ie)
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}
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if unique {
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if _, seen := seenAlready.LoadOrStore(evt.ID, true); seen {
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continue
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}
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}
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select {
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case events <- ie:
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case <-ctx.Done():
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return
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}
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}
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}
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}(NormalizeURL(url))
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}
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return events
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}
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// QuerySingle returns the first event returned by the first relay, cancels everything else.
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func (pool *SimplePool) QuerySingle(ctx context.Context, urls []string, filter Filter) *RelayEvent {
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ctx, cancel := context.WithCancel(ctx)
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defer cancel()
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for ievt := range pool.SubManyEose(ctx, urls, Filters{filter}) {
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return &ievt
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}
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return nil
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}
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func (pool *SimplePool) batchedSubMany(
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ctx context.Context,
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dfs []DirectedFilters,
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subFn func(context.Context, []string, Filters, bool, []SubscriptionOption) chan RelayEvent,
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opts []SubscriptionOption,
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) chan RelayEvent {
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res := make(chan RelayEvent)
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for _, df := range dfs {
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go func(df DirectedFilters) {
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for ie := range subFn(ctx, []string{df.Relay}, df.Filters, true, opts) {
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res <- ie
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}
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}(df)
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}
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return res
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}
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// BatchedSubMany fires subscriptions only to specific relays, but batches them when they are the same.
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func (pool *SimplePool) BatchedSubMany(
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ctx context.Context,
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dfs []DirectedFilters,
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opts ...SubscriptionOption,
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) chan RelayEvent {
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return pool.batchedSubMany(ctx, dfs, pool.subMany, opts)
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}
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// BatchedSubManyEose is like BatchedSubMany, but ends upon receiving EOSE from all relays.
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func (pool *SimplePool) BatchedSubManyEose(
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ctx context.Context,
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dfs []DirectedFilters,
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opts ...SubscriptionOption,
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) chan RelayEvent {
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return pool.batchedSubMany(ctx, dfs, pool.subManyEose, opts)
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}
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