func main() { flag.Parse() lookupHTTPa := "localhost:4161" daemona := "localhost:4150" daemonHTTPaddr := "localhost:4151" s := colony.NewService("Test", "1", lookupHTTPa, daemona, daemonHTTPaddr) log.Println("ct", *contentType) s.Announce(*contentType) m := s.NewMessage(*contentType, []byte(*payload)) s.Emit(m) }
func main() { lookupHTTPa := "localhost:4161" quitChan := make(chan bool) log.Println("starting anteater service") s := colony.NewService("Anthill", "1", lookupHTTPa) s.Announce("ants") log.Println("starting ticker") ticker := time.NewTicker(time.Duration(5) * time.Second) go func() { for { <-ticker.C log.Println("ant!") m := s.NewMessage("ants", []byte("ant!")) s.Emit(m) } }() <-quitChan }
func main() { lookupHTTPa := "localhost:4161" quitChan := make(chan bool) s := colony.NewService("honeybadger", "1", lookupHTTPa) go s.Consume("bees", func(bees <-chan colony.Message) error { for { bee := <-bees log.Println("got bee", string(bee.Payload), "!") m := s.NewResponse(bee, "HoneyBadgerEtiquette", []byte("thanks for the bee!")) s.Emit(m) log.Println("sent response") if rand.Float64() < 0.5 { m = s.NewResponse(bee, "SnakeRequest", []byte("got any snkaes?")) s.Emit(m) } } return nil }, ) <-quitChan }
func main() { lookupHTTPa := "localhost:4161" quitChan := make(chan bool) log.Println("starting anteater service") s := colony.NewService("Anteater", "1", lookupHTTPa) log.Println("announcing bee production") s.Announce("bees") log.Println("starting ant consumer") go s.Consume("ants", func(ants <-chan colony.Message) error { for { ant := <-ants log.Println("got ant", string(ant.Payload)) m := s.NewMessage("bees", []byte("bee! bzz bzz")) s.Request(m, responseHandler) } return nil }, ) <-quitChan }