package topology import ( "encoding/json" "fmt" "math/rand" "pkg/storage" "testing" "time" ) var topologyLayout = ` { "dc1":{ "rack1":{ "server1":{ "volumes":[ {"id":1, "size":12312}, {"id":2, "size":12312}, {"id":3, "size":12312} ], "limit":3 }, "server2":{ "volumes":[ {"id":4, "size":12312}, {"id":5, "size":12312}, {"id":6, "size":12312} ], "limit":10 } }, "rack2":{ "server1":{ "volumes":[ {"id":4, "size":12312}, {"id":5, "size":12312}, {"id":6, "size":12312} ], "limit":4 }, "server2":{ "volumes":[], "limit":4 }, "server3":{ "volumes":[ {"id":2, "size":12312}, {"id":3, "size":12312}, {"id":4, "size":12312} ], "limit":2 } } }, "dc2":{ }, "dc3":{ "rack2":{ "server1":{ "volumes":[ {"id":1, "size":12312}, {"id":3, "size":12312}, {"id":5, "size":12312} ], "limit":4 } } } } ` func setup(topologyLayout string) *Topology { var data interface{} err := json.Unmarshal([]byte(topologyLayout), &data) if err != nil { fmt.Println("error:", err) } fmt.Println("data:", data) printMap(data) //need to connect all nodes first before server adding volumes topo := NewTopology("mynetwork") mTopology := data.(map[string]interface{}) for dcKey, dcValue := range mTopology { dc := NewDataCenter(dcKey) dcMap := dcValue.(map[string]interface{}) topo.LinkChildNode(dc) for rackKey, rackValue := range dcMap { rack := NewRack(rackKey) rackMap := rackValue.(map[string]interface{}) dc.LinkChildNode(rack) for serverKey, serverValue := range rackMap { server := NewServer(serverKey) serverMap := serverValue.(map[string]interface{}) rack.LinkChildNode(server) for _, v := range serverMap["volumes"].([]interface{}) { m := v.(map[string]interface{}) vi := &storage.VolumeInfo{Id: storage.VolumeId(int64(m["id"].(float64))), Size: int64(m["size"].(float64))} server.AddVolume(vi) } server.UpAdjustMaxVolumeCountDelta(int(serverMap["limit"].(float64))) } } } fmt.Println("topology:", *topo) bytes, err := json.Marshal(topo.children) if err != nil { fmt.Println("json error:", err) } fmt.Println("json topo:", string(bytes)) return topo } func printMap(mm interface{}) { m := mm.(map[string]interface{}) for k, v := range m { switch vv := v.(type) { case string: fmt.Println(k, "\"", vv, "\"") case int, float64: fmt.Println(k, ":", vv) case []interface{}: fmt.Println(k, ":[") for _, u := range vv { fmt.Println(u) fmt.Println(",") } fmt.Println("]") default: fmt.Println(k, ":") printMap(vv) } } } func TestRemoveDataCenter(t *testing.T) { topo := setup(topologyLayout) topo.UnlinkChildNode(NodeId("dc2")) if topo.GetActiveVolumeCount() != 15 { t.Fail() } topo.UnlinkChildNode(NodeId("dc3")) if topo.GetActiveVolumeCount() != 12 { t.Fail() } } func TestReserveOneVolume(t *testing.T) { topo := setup(topologyLayout) rand.Seed(time.Now().UnixNano()) rand.Seed(1) ret, node, vid := topo.RandomlyReserveOneVolume() fmt.Println("topology:", topo) fmt.Println("assigned :", ret, ", node :", node,", volume id:", vid) }