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gossip.go
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gossip.go
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package mesh
import "sync"
// Gossip is the sending interface.
//
// TODO(pb): rename to e.g. Sender
type Gossip interface {
// GossipUnicast emits a single message to a peer in the mesh.
//
// TODO(pb): rename to Unicast?
//
// Unicast takes []byte instead of GossipData because "to date there has
// been no compelling reason [in practice] to do merging on unicast."
// But there may be some motivation to have unicast Mergeable; see
// https://github.com/weaveworks/weave/issues/1764
//
// TODO(pb): for uniformity of interface, rather take GossipData?
GossipUnicast(dst PeerName, msg []byte) error
// GossipBroadcast emits a message to all peers in the mesh.
//
// TODO(pb): rename to Broadcast?
GossipBroadcast(update GossipData)
// GossipNeighbourSubset emits a message to subset of neighbour peers in the mesh.
GossipNeighbourSubset(update GossipData)
}
// Gossiper is the receiving interface.
//
// TODO(pb): rename to e.g. Receiver
type Gossiper interface {
// OnGossipUnicast merges received data into state.
//
// TODO(pb): rename to e.g. OnUnicast
OnGossipUnicast(src PeerName, msg []byte) error
// OnGossipBroadcast merges received data into state and returns a
// representation of the received data (typically a delta) for further
// propagation.
//
// TODO(pb): rename to e.g. OnBroadcast
OnGossipBroadcast(src PeerName, update []byte) (received GossipData, err error)
// Gossip returns the state of everything we know; gets called periodically.
Gossip() (complete GossipData)
// OnGossip merges received data into state and returns "everything new
// I've just learnt", or nil if nothing in the received data was new.
OnGossip(msg []byte) (delta GossipData, err error)
}
// GossipData is a merge-able dataset.
// Think: log-structured data.
type GossipData interface {
// Encode encodes the data into multiple byte-slices.
Encode() [][]byte
// Merge combines another GossipData into this one and returns the result.
//
// TODO(pb): does it need to be leave the original unmodified?
Merge(GossipData) GossipData
}
// GossipSender accumulates GossipData that needs to be sent to one
// destination, and sends it when possible. GossipSender is one-to-one with a
// channel.
type gossipSender struct {
sync.Mutex
makeMsg func(msg []byte) protocolMsg
makeBroadcastMsg func(srcName PeerName, msg []byte) protocolMsg
sender protocolSender
gossip GossipData
broadcasts map[PeerName]GossipData
more chan<- struct{}
flush chan<- chan<- bool // for testing
}
// NewGossipSender constructs a usable GossipSender.
func newGossipSender(
makeMsg func(msg []byte) protocolMsg,
makeBroadcastMsg func(srcName PeerName, msg []byte) protocolMsg,
sender protocolSender,
stop <-chan struct{},
) *gossipSender {
more := make(chan struct{}, 1)
flush := make(chan chan<- bool)
s := &gossipSender{
makeMsg: makeMsg,
makeBroadcastMsg: makeBroadcastMsg,
sender: sender,
broadcasts: make(map[PeerName]GossipData),
more: more,
flush: flush,
}
go s.run(stop, more, flush)
return s
}
func (s *gossipSender) run(stop <-chan struct{}, more <-chan struct{}, flush <-chan chan<- bool) {
sent := false
for {
select {
case <-stop:
return
case <-more:
sentSomething, err := s.deliver(stop)
if err != nil {
return
}
sent = sent || sentSomething
case ch := <-flush: // for testing
// send anything pending, then reply back whether we sent
// anything since previous flush
select {
case <-more:
sentSomething, err := s.deliver(stop)
if err != nil {
return
}
sent = sent || sentSomething
default:
}
ch <- sent
sent = false
}
}
}
func (s *gossipSender) deliver(stop <-chan struct{}) (bool, error) {
sent := false
// We must not hold our lock when sending, since that would block
// the callers of Send/Broadcast while we are stuck waiting for
// network congestion to clear. So we pick and send one piece of
// data at a time, only holding the lock during the picking.
for {
select {
case <-stop:
return sent, nil
default:
}
data, makeProtocolMsg := s.pick()
if data == nil {
return sent, nil
}
for _, msg := range data.Encode() {
if err := s.sender.SendProtocolMsg(makeProtocolMsg(msg)); err != nil {
return sent, err
}
}
sent = true
}
}
func (s *gossipSender) pick() (data GossipData, makeProtocolMsg func(msg []byte) protocolMsg) {
s.Lock()
defer s.Unlock()
switch {
case s.gossip != nil: // usually more important than broadcasts
data = s.gossip
makeProtocolMsg = s.makeMsg
s.gossip = nil
case len(s.broadcasts) > 0:
for srcName, d := range s.broadcasts {
data = d
makeProtocolMsg = func(msg []byte) protocolMsg { return s.makeBroadcastMsg(srcName, msg) }
delete(s.broadcasts, srcName)
break
}
}
return
}
// Send accumulates the GossipData and will send it eventually.
// Send and Broadcast accumulate into different buckets.
func (s *gossipSender) Send(data GossipData) {
s.Lock()
defer s.Unlock()
if s.empty() {
defer s.prod()
}
if s.gossip == nil {
s.gossip = data
} else {
s.gossip = s.gossip.Merge(data)
}
}
// Broadcast accumulates the GossipData under the given srcName and will send
// it eventually. Send and Broadcast accumulate into different buckets.
func (s *gossipSender) Broadcast(srcName PeerName, data GossipData) {
s.Lock()
defer s.Unlock()
if s.empty() {
defer s.prod()
}
d, found := s.broadcasts[srcName]
if !found {
s.broadcasts[srcName] = data
} else {
s.broadcasts[srcName] = d.Merge(data)
}
}
func (s *gossipSender) empty() bool { return s.gossip == nil && len(s.broadcasts) == 0 }
func (s *gossipSender) prod() {
select {
case s.more <- struct{}{}:
default:
}
}
// Flush sends all pending data, and returns true if anything was sent since
// the previous flush. For testing.
func (s *gossipSender) Flush() bool {
ch := make(chan bool)
s.flush <- ch
return <-ch
}
// gossipSenders wraps a ProtocolSender (e.g. a LocalConnection) and yields
// per-channel GossipSenders.
// TODO(pb): may be able to remove this and use makeGossipSender directly
type gossipSenders struct {
sync.Mutex
sender protocolSender
stop <-chan struct{}
senders map[string]*gossipSender
}
// NewGossipSenders returns a usable GossipSenders leveraging the ProtocolSender.
// TODO(pb): is stop chan the best way to do that?
func newGossipSenders(sender protocolSender, stop <-chan struct{}) *gossipSenders {
return &gossipSenders{
sender: sender,
stop: stop,
senders: make(map[string]*gossipSender),
}
}
// Sender yields the GossipSender for the named channel.
// It will use the factory function if no sender yet exists.
func (gs *gossipSenders) Sender(channelName string, makeGossipSender func(sender protocolSender, stop <-chan struct{}) *gossipSender) *gossipSender {
gs.Lock()
defer gs.Unlock()
s, found := gs.senders[channelName]
if !found {
s = makeGossipSender(gs.sender, gs.stop)
gs.senders[channelName] = s
}
return s
}
// Flush flushes all managed senders. Used for testing.
func (gs *gossipSenders) Flush() bool {
sent := false
gs.Lock()
defer gs.Unlock()
for _, sender := range gs.senders {
sent = sender.Flush() || sent
}
return sent
}
// GossipChannels is an index of channel name to gossip channel.
type gossipChannels map[string]*gossipChannel
type gossipConnection interface {
gossipSenders() *gossipSenders
}