package storage import ( "encoding/json" "errors" "fmt" "math/rand" "strconv" "strings" "github.com/chrislusf/seaweedfs/weed/glog" "github.com/chrislusf/seaweedfs/weed/operation" "github.com/chrislusf/seaweedfs/weed/security" "github.com/chrislusf/seaweedfs/weed/util" "github.com/golang/protobuf/proto" ) const ( MAX_TTL_VOLUME_REMOVAL_DELAY = 10 // 10 minutes ) type MasterNodes struct { nodes []string lastNode int } func (mn *MasterNodes) String() string { return fmt.Sprintf("nodes:%v, lastNode:%d", mn.nodes, mn.lastNode) } func NewMasterNodes(bootstrapNode string) (mn *MasterNodes) { mn = &MasterNodes{nodes: []string{bootstrapNode}, lastNode: -1} return } func (mn *MasterNodes) Reset() { glog.V(4).Infof("Resetting master nodes: %v", mn) if len(mn.nodes) > 1 && mn.lastNode >= 0 { glog.V(0).Infof("Reset master %s from: %v", mn.nodes[mn.lastNode], mn.nodes) mn.lastNode = -mn.lastNode - 1 } } func (mn *MasterNodes) FindMaster() (string, error) { if len(mn.nodes) == 0 { return "", errors.New("No master node found!") } if mn.lastNode < 0 { for _, m := range mn.nodes { glog.V(4).Infof("Listing masters on %s", m) if masters, e := operation.ListMasters(m); e == nil { if len(masters) == 0 { continue } mn.nodes = append(masters, m) mn.lastNode = rand.Intn(len(mn.nodes)) glog.V(2).Infof("current master nodes is %v", mn) break } else { glog.V(4).Infof("Failed listing masters on %s: %v", m, e) } } } if mn.lastNode < 0 { return "", errors.New("No master node available!") } return mn.nodes[mn.lastNode], nil } /* * A VolumeServer contains one Store */ type Store struct { Ip string Port int PublicUrl string Locations []*DiskLocation dataCenter string //optional informaton, overwriting master setting if exists rack string //optional information, overwriting master setting if exists connected bool volumeSizeLimit uint64 //read from the master masterNodes *MasterNodes } func (s *Store) String() (str string) { str = fmt.Sprintf("Ip:%s, Port:%d, PublicUrl:%s, dataCenter:%s, rack:%s, connected:%v, volumeSizeLimit:%d, masterNodes:%s", s.Ip, s.Port, s.PublicUrl, s.dataCenter, s.rack, s.connected, s.volumeSizeLimit, s.masterNodes) return } func NewStore(port int, ip, publicUrl string, dirnames []string, maxVolumeCounts []int, needleMapKind NeedleMapType) (s *Store) { s = &Store{Port: port, Ip: ip, PublicUrl: publicUrl} s.Locations = make([]*DiskLocation, 0) for i := 0; i < len(dirnames); i++ { location := NewDiskLocation(dirnames[i], maxVolumeCounts[i]) location.loadExistingVolumes(needleMapKind) s.Locations = append(s.Locations, location) } return } func (s *Store) AddVolume(volumeListString string, collection string, needleMapKind NeedleMapType, replicaPlacement string, ttlString string, preallocate int64) error { rt, e := NewReplicaPlacementFromString(replicaPlacement) if e != nil { return e } ttl, e := ReadTTL(ttlString) if e != nil { return e } for _, range_string := range strings.Split(volumeListString, ",") { if strings.Index(range_string, "-") < 0 { id_string := range_string id, err := NewVolumeId(id_string) if err != nil { return fmt.Errorf("Volume Id %s is not a valid unsigned integer!", id_string) } e = s.addVolume(VolumeId(id), collection, needleMapKind, rt, ttl, preallocate) } else { pair := strings.Split(range_string, "-") start, start_err := strconv.ParseUint(pair[0], 10, 64) if start_err != nil { return fmt.Errorf("Volume Start Id %s is not a valid unsigned integer!", pair[0]) } end, end_err := strconv.ParseUint(pair[1], 10, 64) if end_err != nil { return fmt.Errorf("Volume End Id %s is not a valid unsigned integer!", pair[1]) } for id := start; id <= end; id++ { if err := s.addVolume(VolumeId(id), collection, needleMapKind, rt, ttl, preallocate); err != nil { e = err } } } } return e } func (s *Store) DeleteCollection(collection string) (e error) { for _, location := range s.Locations { e = location.DeleteCollectionFromDiskLocation(collection) if e != nil { return } } return } func (s *Store) findVolume(vid VolumeId) *Volume { for _, location := range s.Locations { if v, found := location.FindVolume(vid); found { return v } } return nil } func (s *Store) findFreeLocation() (ret *DiskLocation) { max := 0 for _, location := range s.Locations { currentFreeCount := location.MaxVolumeCount - location.VolumesLen() if currentFreeCount > max { max = currentFreeCount ret = location } } return ret } func (s *Store) addVolume(vid VolumeId, collection string, needleMapKind NeedleMapType, replicaPlacement *ReplicaPlacement, ttl *TTL, preallocate int64) error { if s.findVolume(vid) != nil { return fmt.Errorf("Volume Id %d already exists!", vid) } if location := s.findFreeLocation(); location != nil { glog.V(0).Infof("In dir %s adds volume:%v collection:%s replicaPlacement:%v ttl:%v", location.Directory, vid, collection, replicaPlacement, ttl) if volume, err := NewVolume(location.Directory, collection, vid, needleMapKind, replicaPlacement, ttl, preallocate); err == nil { location.SetVolume(vid, volume) return nil } else { return err } } return fmt.Errorf("No more free space left") } func (s *Store) Status() []*VolumeInfo { var stats []*VolumeInfo for _, location := range s.Locations { location.RLock() for k, v := range location.volumes { s := &VolumeInfo{ Id: VolumeId(k), Size: v.ContentSize(), Collection: v.Collection, ReplicaPlacement: v.ReplicaPlacement, Version: v.Version(), FileCount: v.nm.FileCount(), DeleteCount: v.nm.DeletedCount(), DeletedByteCount: v.nm.DeletedSize(), ReadOnly: v.readOnly, Ttl: v.Ttl} stats = append(stats, s) } location.RUnlock() } sortVolumeInfos(stats) return stats } func (s *Store) SetDataCenter(dataCenter string) { s.dataCenter = dataCenter } func (s *Store) SetRack(rack string) { s.rack = rack } func (s *Store) SetBootstrapMaster(bootstrapMaster string) { s.masterNodes = NewMasterNodes(bootstrapMaster) } func (s *Store) SendHeartbeatToMaster() (masterNode string, secretKey security.Secret, e error) { masterNode, e = s.masterNodes.FindMaster() if e != nil { return } var volumeMessages []*operation.VolumeInformationMessage maxVolumeCount := 0 var maxFileKey uint64 for _, location := range s.Locations { maxVolumeCount = maxVolumeCount + location.MaxVolumeCount location.Lock() for k, v := range location.volumes { if maxFileKey < v.nm.MaxFileKey() { maxFileKey = v.nm.MaxFileKey() } if !v.expired(s.volumeSizeLimit) { volumeMessage := &operation.VolumeInformationMessage{ Id: proto.Uint32(uint32(k)), Size: proto.Uint64(uint64(v.Size())), Collection: proto.String(v.Collection), FileCount: proto.Uint64(uint64(v.nm.FileCount())), DeleteCount: proto.Uint64(uint64(v.nm.DeletedCount())), DeletedByteCount: proto.Uint64(v.nm.DeletedSize()), ReadOnly: proto.Bool(v.readOnly), ReplicaPlacement: proto.Uint32(uint32(v.ReplicaPlacement.Byte())), Version: proto.Uint32(uint32(v.Version())), Ttl: proto.Uint32(v.Ttl.ToUint32()), } volumeMessages = append(volumeMessages, volumeMessage) } else { if v.exiredLongEnough(MAX_TTL_VOLUME_REMOVAL_DELAY) { location.deleteVolumeById(v.Id) glog.V(0).Infoln("volume", v.Id, "is deleted.") } else { glog.V(0).Infoln("volume", v.Id, "is expired.") } } } location.Unlock() } joinMessage := &operation.JoinMessage{ IsInit: proto.Bool(!s.connected), Ip: proto.String(s.Ip), Port: proto.Uint32(uint32(s.Port)), PublicUrl: proto.String(s.PublicUrl), MaxVolumeCount: proto.Uint32(uint32(maxVolumeCount)), MaxFileKey: proto.Uint64(maxFileKey), DataCenter: proto.String(s.dataCenter), Rack: proto.String(s.rack), Volumes: volumeMessages, } data, err := proto.Marshal(joinMessage) if err != nil { return "", "", err } joinUrl := "http://" + masterNode + "/dir/join" glog.V(4).Infof("Connecting to %s ...", joinUrl) jsonBlob, err := util.PostBytes(joinUrl, data) if err != nil { s.masterNodes.Reset() return "", "", err } var ret operation.JoinResult if err := json.Unmarshal(jsonBlob, &ret); err != nil { glog.V(0).Infof("Failed to join %s with response: %s", joinUrl, string(jsonBlob)) s.masterNodes.Reset() return masterNode, "", err } if ret.Error != "" { s.masterNodes.Reset() return masterNode, "", errors.New(ret.Error) } s.volumeSizeLimit = ret.VolumeSizeLimit secretKey = security.Secret(ret.SecretKey) s.connected = true return } func (s *Store) Close() { for _, location := range s.Locations { location.Close() } } func (s *Store) Write(i VolumeId, n *Needle) (size uint32, err error) { if v := s.findVolume(i); v != nil { if v.readOnly { err = fmt.Errorf("Volume %d is read only", i) return } // TODO: count needle size ahead if MaxPossibleVolumeSize >= v.ContentSize()+uint64(size) { size, err = v.writeNeedle(n) } else { err = fmt.Errorf("Volume Size Limit %d Exceeded! Current size is %d", s.volumeSizeLimit, v.ContentSize()) } if s.volumeSizeLimit < v.ContentSize()+3*uint64(size) { glog.V(0).Infoln("volume", i, "size", v.ContentSize(), "will exceed limit", s.volumeSizeLimit) if _, _, e := s.SendHeartbeatToMaster(); e != nil { glog.V(0).Infoln("error when reporting size:", e) } } return } glog.V(0).Infoln("volume", i, "not found!") err = fmt.Errorf("Volume %d not found!", i) return } func (s *Store) Delete(i VolumeId, n *Needle) (uint32, error) { if v := s.findVolume(i); v != nil && !v.readOnly { return v.deleteNeedle(n) } return 0, nil } func (s *Store) ReadVolumeNeedle(i VolumeId, n *Needle) (int, error) { if v := s.findVolume(i); v != nil { return v.readNeedle(n) } return 0, fmt.Errorf("Volume %v not found!", i) } func (s *Store) GetVolume(i VolumeId) *Volume { return s.findVolume(i) } func (s *Store) HasVolume(i VolumeId) bool { v := s.findVolume(i) return v != nil }