mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
synced 2024-11-20 15:15:18 +00:00
517 lines
11 KiB
Go
517 lines
11 KiB
Go
package blossomsub
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import (
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"context"
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"errors"
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"fmt"
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"sync"
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"time"
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"github.com/libp2p/go-libp2p/core/crypto"
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pb "source.quilibrium.com/quilibrium/monorepo/go-libp2p-blossomsub/pb"
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"github.com/libp2p/go-libp2p/core/peer"
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)
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// ErrBitmaskClosed is returned if a Bitmask is utilized after it has been closed
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var ErrBitmaskClosed = errors.New("this Bitmask is closed, try opening a new one")
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// ErrNilSignKey is returned if a nil private key was provided
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var ErrNilSignKey = errors.New("nil sign key")
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// ErrEmptyPeerID is returned if an empty peer ID was provided
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var ErrEmptyPeerID = errors.New("empty peer ID")
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// Bitmask is the handle for a pubsub bitmask
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type Bitmask struct {
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p *PubSub
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bitmask []byte
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evtHandlerMux sync.RWMutex
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evtHandlers map[*BitmaskEventHandler]struct{}
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mux sync.RWMutex
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closed bool
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}
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// String returns the bitmask associated with t
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func (t *Bitmask) Bitmask() []byte {
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return t.bitmask
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}
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// SetScoreParams sets the bitmask score parameters if the pubsub router supports peer
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// scoring
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func (t *Bitmask) SetScoreParams(p *BitmaskScoreParams) error {
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err := p.validate()
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if err != nil {
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return fmt.Errorf("invalid bitmask score parameters: %w", err)
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}
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t.mux.Lock()
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if t.closed {
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t.mux.Unlock()
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return ErrBitmaskClosed
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}
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result := make(chan error, 1)
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update := func() {
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bs, ok := t.p.rt.(*BlossomSubRouter)
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if !ok {
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result <- fmt.Errorf("pubsub router is not BlossomSub")
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return
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}
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if bs.score == nil {
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result <- fmt.Errorf("peer scoring is not enabled in router")
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return
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}
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err := bs.score.SetBitmaskScoreParams(t.bitmask, p)
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result <- err
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}
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select {
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case t.p.eval <- update:
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err = <-result
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t.mux.Unlock()
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return err
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case <-t.p.ctx.Done():
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t.mux.Unlock()
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return t.p.ctx.Err()
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}
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}
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// EventHandler creates a handle for bitmask specific events
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// Multiple event handlers may be created and will operate independently of each other
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func (t *Bitmask) EventHandler(opts ...BitmaskEventHandlerOpt) (*BitmaskEventHandler, error) {
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t.mux.RLock()
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if t.closed {
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t.mux.RUnlock()
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return nil, ErrBitmaskClosed
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}
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h := &BitmaskEventHandler{
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bitmask: t,
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err: nil,
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evtLog: make(map[peer.ID]EventType),
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evtLogCh: make(chan struct{}, 1),
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}
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for _, opt := range opts {
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err := opt(h)
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if err != nil {
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t.mux.RUnlock()
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return nil, err
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}
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}
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done := make(chan struct{}, 1)
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select {
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case t.p.eval <- func() {
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tmap := t.p.bitmasks[string(t.bitmask)]
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for p := range tmap {
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h.evtLog[p] = PeerJoin
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}
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t.evtHandlerMux.Lock()
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t.evtHandlers[h] = struct{}{}
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t.evtHandlerMux.Unlock()
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done <- struct{}{}
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}:
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case <-t.p.ctx.Done():
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t.mux.RUnlock()
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return nil, t.p.ctx.Err()
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}
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<-done
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t.mux.RUnlock()
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return h, nil
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}
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func (t *Bitmask) sendNotification(evt PeerEvent) {
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t.evtHandlerMux.RLock()
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for h := range t.evtHandlers {
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h.sendNotification(evt)
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}
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t.evtHandlerMux.RUnlock()
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}
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// Subscribe returns a new Subscription for the bitmask.
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// Note that subscription is not an instantaneous operation. It may take some time
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// before the subscription is processed by the pubsub main loop and propagated to our peers.
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func (t *Bitmask) Subscribe(opts ...SubOpt) (*Subscription, error) {
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t.mux.RLock()
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if t.closed {
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t.mux.RUnlock()
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return nil, ErrBitmaskClosed
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}
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sub := &Subscription{
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bitmask: t.bitmask,
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ctx: t.p.ctx,
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}
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for _, opt := range opts {
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err := opt(sub)
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if err != nil {
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t.mux.RUnlock()
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return nil, err
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}
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}
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if sub.ch == nil {
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sub.ch = make(chan *Message, 32)
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}
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out := make(chan *Subscription, 1)
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t.p.disc.Discover(sub.bitmask)
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select {
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case t.p.addSub <- &addSubReq{
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sub: sub,
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resp: out,
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}:
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case <-t.p.ctx.Done():
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t.mux.RUnlock()
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return nil, t.p.ctx.Err()
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}
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subOut := <-out
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t.mux.RUnlock()
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return subOut, nil
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}
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// Relay enables message relaying for the bitmask and returns a reference
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// cancel function. Subsequent calls increase the reference counter.
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// To completely disable the relay, all references must be cancelled.
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func (t *Bitmask) Relay() (RelayCancelFunc, error) {
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t.mux.RLock()
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if t.closed {
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t.mux.RUnlock()
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return nil, ErrBitmaskClosed
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}
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out := make(chan RelayCancelFunc, 1)
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t.p.disc.Discover(t.bitmask)
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select {
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case t.p.addRelay <- &addRelayReq{
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bitmask: t.bitmask,
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resp: out,
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}:
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case <-t.p.ctx.Done():
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t.mux.RUnlock()
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return nil, t.p.ctx.Err()
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}
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cancelFunc := <-out
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t.mux.RUnlock()
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return cancelFunc, nil
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}
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// RouterReady is a function that decides if a router is ready to publish
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type RouterReady func(rt PubSubRouter, bitmask []byte) (bool, error)
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// ProvideKey is a function that provides a private key and its associated peer ID when publishing a new message
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type ProvideKey func() (crypto.PrivKey, peer.ID)
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type PublishOptions struct {
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ready RouterReady
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customKey ProvideKey
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local bool
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}
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type PubOpt func(pub *PublishOptions) error
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// Publish publishes data to bitmask.
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func (t *Bitmask) Publish(ctx context.Context, bitmask []byte, data []byte, opts ...PubOpt) error {
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t.mux.RLock()
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if t.closed {
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t.mux.RUnlock()
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return ErrBitmaskClosed
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}
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pid := t.p.signID
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key := t.p.signKey
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pub := &PublishOptions{}
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for _, opt := range opts {
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err := opt(pub)
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if err != nil {
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t.mux.RUnlock()
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return err
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}
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}
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if pub.customKey != nil && !pub.local {
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key, pid = pub.customKey()
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if key == nil {
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t.mux.RUnlock()
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return ErrNilSignKey
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}
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if len(pid) == 0 {
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t.mux.RUnlock()
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return ErrEmptyPeerID
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}
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}
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m := &pb.Message{
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Data: data,
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Bitmask: bitmask,
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From: nil,
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Seqno: nil,
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}
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if pid != "" {
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m.From = []byte(pid)
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m.Seqno = t.p.nextSeqno()
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}
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if key != nil {
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m.From = []byte(pid)
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err := signMessage(pid, key, m)
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if err != nil {
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t.mux.RUnlock()
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return err
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}
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}
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if pub.ready != nil {
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if t.p.disc.discovery != nil {
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t.p.disc.Bootstrap(ctx, t.bitmask, pub.ready)
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} else {
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// TODO: we could likely do better than polling every 200ms.
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// For example, block this goroutine on a channel,
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// and check again whenever events tell us that the number of
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// peers has increased.
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var ticker *time.Ticker
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readyLoop:
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for {
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// Check if ready for publishing.
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// Similar to what disc.Bootstrap does.
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res := make(chan bool, 1)
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select {
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case t.p.eval <- func() {
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done, _ := pub.ready(t.p.rt, t.bitmask)
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res <- done
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}:
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if <-res {
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if ticker != nil {
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ticker.Stop()
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}
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break readyLoop
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}
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case <-t.p.ctx.Done():
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if ticker != nil {
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ticker.Stop()
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}
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t.mux.RUnlock()
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return t.p.ctx.Err()
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case <-ctx.Done():
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if ticker != nil {
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ticker.Stop()
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}
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t.mux.RUnlock()
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return ctx.Err()
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}
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if ticker == nil {
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ticker = time.NewTicker(200 * time.Millisecond)
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}
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select {
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case <-ticker.C:
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case <-ctx.Done():
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ticker.Stop()
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t.mux.RUnlock()
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return fmt.Errorf("router is not ready: %w", ctx.Err())
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}
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}
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}
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}
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err := t.p.val.PushLocal(&Message{m, nil, t.p.host.ID(), nil, pub.local})
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t.mux.RUnlock()
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return err
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}
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// WithReadiness returns a publishing option for only publishing when the router is ready.
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// This option is not useful unless PubSub is also using WithDiscovery
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func WithReadiness(ready RouterReady) PubOpt {
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return func(pub *PublishOptions) error {
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pub.ready = ready
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return nil
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}
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}
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// WithLocalPublication returns a publishing option to notify in-process subscribers only.
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// It prevents message publication to mesh peers.
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// Useful in edge cases where the msg needs to be only delivered to the in-process subscribers,
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// e.g. not to spam the network with outdated msgs.
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// Should not be used specifically for in-process pubsubing.
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func WithLocalPublication(local bool) PubOpt {
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return func(pub *PublishOptions) error {
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pub.local = local
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return nil
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}
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}
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// WithSecretKeyAndPeerId returns a publishing option for providing a custom private key and its corresponding peer ID
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// This option is useful when we want to send messages from "virtual", never-connectable peers in the network
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func WithSecretKeyAndPeerId(key crypto.PrivKey, pid peer.ID) PubOpt {
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return func(pub *PublishOptions) error {
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pub.customKey = func() (crypto.PrivKey, peer.ID) {
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return key, pid
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}
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return nil
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}
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}
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// Close closes down the bitmask. Will return an error unless there are no active event handlers or subscriptions.
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// Does not error if the bitmask is already closed.
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func (t *Bitmask) Close() error {
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t.mux.Lock()
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if t.closed {
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t.mux.Unlock()
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return nil
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}
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req := &rmBitmaskReq{t, make(chan error, 1)}
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select {
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case t.p.rmBitmask <- req:
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case <-t.p.ctx.Done():
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t.mux.Unlock()
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return t.p.ctx.Err()
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}
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err := <-req.resp
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if err == nil {
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t.closed = true
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}
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t.mux.Unlock()
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return err
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}
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// ListPeers returns a list of peers we are connected to in the given bitmask.
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func (t *Bitmask) ListPeers() []peer.ID {
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t.mux.RLock()
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if t.closed {
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t.mux.RUnlock()
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return []peer.ID{}
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}
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l := t.p.ListPeers(t.bitmask)
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t.mux.RUnlock()
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return l
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}
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type EventType int
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const (
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PeerJoin EventType = iota
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PeerLeave
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)
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// BitmaskEventHandler is used to manage bitmask specific events. No Subscription is required to receive events.
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type BitmaskEventHandler struct {
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bitmask *Bitmask
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err error
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evtLogMx sync.Mutex
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evtLog map[peer.ID]EventType
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evtLogCh chan struct{}
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}
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type BitmaskEventHandlerOpt func(t *BitmaskEventHandler) error
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type PeerEvent struct {
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Type EventType
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Peer peer.ID
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}
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// Cancel closes the bitmask event handler
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func (t *BitmaskEventHandler) Cancel() {
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bitmask := t.bitmask
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t.err = fmt.Errorf("bitmask event handler cancelled by calling handler.Cancel()")
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bitmask.evtHandlerMux.Lock()
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delete(bitmask.evtHandlers, t)
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t.bitmask.evtHandlerMux.Unlock()
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}
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func (t *BitmaskEventHandler) sendNotification(evt PeerEvent) {
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t.evtLogMx.Lock()
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t.addToEventLog(evt)
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t.evtLogMx.Unlock()
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}
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// addToEventLog assumes a lock has been taken to protect the event log
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func (t *BitmaskEventHandler) addToEventLog(evt PeerEvent) {
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e, ok := t.evtLog[evt.Peer]
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if !ok {
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t.evtLog[evt.Peer] = evt.Type
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// send signal that an event has been added to the event log
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select {
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case t.evtLogCh <- struct{}{}:
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default:
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}
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} else if e != evt.Type {
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delete(t.evtLog, evt.Peer)
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}
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}
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// pullFromEventLog assumes a lock has been taken to protect the event log
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func (t *BitmaskEventHandler) pullFromEventLog() (PeerEvent, bool) {
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for k, v := range t.evtLog {
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evt := PeerEvent{Peer: k, Type: v}
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delete(t.evtLog, k)
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return evt, true
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}
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return PeerEvent{}, false
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}
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// NextPeerEvent returns the next event regarding subscribed peers
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// Guarantees: Peer Join and Peer Leave events for a given peer will fire in order.
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// Unless a peer both Joins and Leaves before NextPeerEvent emits either event
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// all events will eventually be received from NextPeerEvent.
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func (t *BitmaskEventHandler) NextPeerEvent(ctx context.Context) (PeerEvent, error) {
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for {
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t.evtLogMx.Lock()
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evt, ok := t.pullFromEventLog()
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if ok {
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// make sure an event log signal is available if there are events in the event log
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if len(t.evtLog) > 0 {
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select {
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case t.evtLogCh <- struct{}{}:
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default:
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}
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}
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t.evtLogMx.Unlock()
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return evt, nil
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}
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t.evtLogMx.Unlock()
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select {
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case <-t.evtLogCh:
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continue
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case <-ctx.Done():
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return PeerEvent{}, ctx.Err()
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}
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}
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}
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