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worker.go
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worker.go
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package sync
import (
"sync"
"sync/atomic"
"time"
"github.com/spacemeshos/go-spacemesh/common/types"
"github.com/spacemeshos/go-spacemesh/log"
"github.com/spacemeshos/go-spacemesh/p2p/p2pcrypto"
p2ppeers "github.com/spacemeshos/go-spacemesh/p2p/peers"
"github.com/spacemeshos/go-spacemesh/p2p/server"
)
type requestFactory func(com networker, peer p2ppeers.Peer) (chan interface{}, error)
type batchRequestFactory func(com networker, peer p2ppeers.Peer, id []types.Hash32) (chan []item, error)
type networker interface {
GetPeers() []p2ppeers.Peer
SendRequest(msgType server.MessageType, payload []byte, address p2pcrypto.PublicKey, resHandler func(msg []byte)) error
GetTimeout() time.Duration
GetExit() chan struct{}
log.Logger
}
type peers interface {
GetPeers() []p2ppeers.Peer
Close()
}
type worker struct {
*sync.Once
work func()
workCount *int32
output chan interface{}
log.Logger
}
func (w *worker) Work() {
w.Debug("worker work")
w.work()
atomic.AddInt32(w.workCount, -1)
w.Debug("worker done")
if atomic.LoadInt32(w.workCount) == 0 { //close once everyone is finished
w.Debug("worker teardown")
w.Do(func() { close(w.output) })
}
}
func (w *worker) Clone() *worker {
return &worker{Logger: w.Logger, Once: w.Once, workCount: w.workCount, output: w.output, work: w.work}
}
func newPeersWorker(s networker, peers []p2ppeers.Peer, mu *sync.Once, reqFactory requestFactory) worker {
count := int32(1)
numOfpeers := len(peers)
output := make(chan interface{}, numOfpeers)
peerfuncs := []func(){}
wg := sync.WaitGroup{}
wg.Add(len(peers))
lg := s.WithName("peersWrkr")
for _, p := range peers {
peer := p
peerFunc := func() {
defer wg.Done()
lg.Debug("send request Peer: %v", peer)
ch, err := reqFactory(s, peer)
if err != nil {
s.Error("request failed: %s", err)
return
}
timeout := time.After(s.GetTimeout())
select {
case <-s.GetExit():
lg.Debug("worker received interrupt")
return
case <-timeout:
lg.Error("request to %v timed out", peer)
return
case v := <-ch:
if v != nil {
lg.Debug("Peer: %v responded", peer)
output <- v
}
}
}
peerfuncs = append(peerfuncs, peerFunc)
}
wrkFunc := func() {
for _, p := range peerfuncs {
go p()
}
wg.Wait()
}
return worker{Logger: lg, Once: mu, workCount: &count, output: output, work: wrkFunc}
}
func newNeighborhoodWorker(s networker, count int, reqFactory requestFactory) worker {
output := make(chan interface{}, count)
acount := int32(count)
mu := &sync.Once{}
lg := s.WithName("HoodWrker")
workFunc := func() {
peers := s.GetPeers()
for _, p := range peers {
peer := p
lg.Info("send request Peer: %v", peer)
ch, _ := reqFactory(s, peer)
timeout := time.After(s.GetTimeout())
select {
case <-s.GetExit():
lg.Debug("worker received interrupt")
return
case <-timeout:
lg.Error("request to %v timed out", peer)
case v := <-ch:
if v != nil {
lg.Info("Peer: %v responded ", peer)
lg.Debug("Peer: %v response was %v", v)
output <- v
return
}
}
}
}
return worker{Logger: lg, Once: mu, workCount: &acount, output: output, work: workFunc}
}
func newFetchWorker(s networker, count int, reqFactory batchRequestFactory, idsChan chan []types.Hash32, name string) worker {
output := make(chan interface{}, 10)
acount := int32(count)
mu := &sync.Once{}
lg := s.WithName("FetchWrker")
workFunc := func() {
for ids := range idsChan {
if ids == nil {
lg.Info("close fetch worker ")
return
}
leftToFetch := toMap(ids)
var fetched []item
next:
for _, p := range s.GetPeers() {
peer := p
remainingItems := toSlice(leftToFetch)
idsStr := concatShortIds(remainingItems)
lg.With().Info("send fetch request",
log.String("type", name),
peer.Field("peer_id"),
log.String("ids", idsStr))
ch, _ := reqFactory(s, peer, remainingItems)
timeout := time.After(s.GetTimeout())
select {
case <-s.GetExit():
lg.Debug("worker received interrupt")
return
case <-timeout:
lg.With().Error("fetch request timed out",
log.String("type", name),
peer.Field("peer_id"),
log.String("ids", idsStr))
case v := <-ch:
if v != nil && len(v) > 0 {
lg.With().Info("peer responded to fetch request",
log.String("type", name),
peer.Field("peer_id"),
log.String("ids", idsStr))
// remove ids from leftToFetch add to fetched
for _, itm := range v {
fetched = append(fetched, itm)
delete(leftToFetch, itm.Hash32())
}
//if no more left to fetch
if len(leftToFetch) == 0 {
break next
}
}
lg.Info("next peer")
}
}
//finished pass results to chan
output <- fetchJob{ids: ids, items: fetched}
}
}
return worker{Logger: lg, Once: mu, workCount: &acount, output: output, work: workFunc}
}
func toMap(ids []types.Hash32) map[types.Hash32]struct{} {
mp := make(map[types.Hash32]struct{}, len(ids))
for _, id := range ids {
mp[id] = struct{}{}
}
return mp
}
func toSlice(mp map[types.Hash32]struct{}) []types.Hash32 {
sl := make([]types.Hash32, 0, len(mp))
for id := range mp {
sl = append(sl, id)
}
return sl
}