package main import ( "fmt" "log" "slices" "time" ) func (mip *AbstractMulticast) AddUniqueAndSort(hier string) { if slices.Contains(mip.HierarchyArray, hier) { log.Println("Element already in the array: ", hier) } else { mip.HierarchyArray = append(mip.HierarchyArray, hier) log.Println("Here the numbers known:", mip.HierarchyArray) } } func (mip *AbstractMulticast) IsAlpha(hier string) bool { slices.Sort(mip.HierarchyArray) indexMax := len(mip.HierarchyArray) - 1 if indexMax < 0 { log.Println("Empty array , no elements") return false } alpha := mip.HierarchyArray[indexMax] log.Println("Maximum element is :", alpha) log.Println("Array is :", mip.HierarchyArray) return alpha == hier } func (mip *AbstractMulticast) WriteNumberToMulticast(br AbstractBridge) { defer func() { if r := recover(); r != nil { fmt.Println("An error happened in , but Zoreide recovered. ") fmt.Println("Error was: ", r) } }() log.Println("Initiating ticker") bstNumber := br.hIerarchyNumber for range time.Tick(1 * time.Second) { _, err := mip.Wconn.Write([]byte(bstNumber)) if err != nil { log.Println("Cannot write to multicast:" + err.Error()) } } } func (mip *AbstractMulticast) ReadNumberFromMulticast() { defer func() { if r := recover(); r != nil { fmt.Println("An error happened in , but Zoreide recovered. ") fmt.Println("Error was: ", r) } }() log.Println("Initiating reader") buffer := make([]byte, mip.MaxDatagramSize) // Loop forever reading from the socket for { _, _, err := mip.Rconn.ReadFromUDP(buffer) if err != nil { log.Println("ReadFromUDP failed:", err) } BstChannel <- string(buffer) } } func (b *AbstractBridge) HierarchyReLocator(entity AbstractMulticast) { defer func() { if r := recover(); r != nil { fmt.Println("An error happened in , but Zoreide recovered. ") fmt.Println("Error was: ", r) } }() log.Println("Inizializing HierarchyManager") entity.AddUniqueAndSort(b.hIerarchyNumber) for bstNumber := range BstChannel { if len(bstNumber) < 36 { log.Println("Garbage received on multicast: ", bstNumber) continue } else { log.Println("Adding received:", bstNumber) entity.AddUniqueAndSort(bstNumber) } // finished feeding the new number // if Alpha: if entity.IsAlpha(b.hIerarchyNumber) { if b.IsAssigned() { log.Println("Still ALPHA. This is ok.") } else { log.Println("I'm the new ALPHA! Get out my path, losers!") b.configureIpAndBridgeUp() log.Println("Ip is active: ", b.IsActive()) } // here we manage the case when we are not alpha } else { log.Println("GULP! There is a bigger one, better descalating") if b.IsAssigned() { log.Println("Start removing the IP from the interface:") b.removeIPandBridgeInt() log.Println("Removed.Ip is reachable: ", b.IsActive()) } else { log.Println("Nothing to do, since IP is not assigned to the interface: ", b.ExistingInterface) log.Println("Ip is reachable: ", b.IsActive()) } } } } func (b *AbstractBridge) WaitAndClean(entity AbstractMulticast) { defer func() { if r := recover(); r != nil { fmt.Println("An error happened in , but Zoreide recovered. ") fmt.Println("Error was: ", r) } }() log.Println("Inizializing HA-Manager") for { pollTime := len(entity.HierarchyArray) + 1 time.Sleep(time.Duration(pollTime) * time.Second) // Evitiamo di avere l'IP senza essere alpha if b.IsAssigned() { if entity.IsAlpha(b.hIerarchyNumber) { log.Println("We are alpha and IP is assigned. All ok") } else { log.Println("Cannot have IP assigned without being alpha") log.Println("Inconsistent situation: start removing the IP from the interface:") b.removeIPandBridgeInt() log.Println("Removed.Ip is still reachable: ", b.IsActive()) } } if b.IsActive() { log.Println("Ip reachable, cluster OK") continue } else { log.Println("Situation non consistent, restart from green field.") entity.HierarchyArray = entity.HierarchyArray[:0] entity.HierarchyArray = slices.Clip(entity.HierarchyArray) entity.AddUniqueAndSort(b.hIerarchyNumber) log.Println("Restarted from green field: ", entity.HierarchyArray) } } }