seaweedfs/weed/topology/data_node.go

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package topology
import (
"fmt"
"github.com/chrislusf/seaweedfs/weed/util"
"strconv"
"sync"
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"github.com/chrislusf/seaweedfs/weed/pb/master_pb"
"github.com/chrislusf/seaweedfs/weed/storage/erasure_coding"
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"github.com/chrislusf/seaweedfs/weed/storage/needle"
"github.com/chrislusf/seaweedfs/weed/glog"
"github.com/chrislusf/seaweedfs/weed/storage"
)
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type DataNode struct {
NodeImpl
volumes map[needle.VolumeId]storage.VolumeInfo
Ip string
Port int
PublicUrl string
LastSeen int64 // unix time in seconds
ecShards map[needle.VolumeId]*erasure_coding.EcVolumeInfo
ecShardsLock sync.RWMutex
}
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func NewDataNode(id string) *DataNode {
s := &DataNode{}
s.id = NodeId(id)
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s.nodeType = "DataNode"
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s.volumes = make(map[needle.VolumeId]storage.VolumeInfo)
s.ecShards = make(map[needle.VolumeId]*erasure_coding.EcVolumeInfo)
s.NodeImpl.value = s
return s
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}
func (dn *DataNode) String() string {
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dn.RLock()
defer dn.RUnlock()
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return fmt.Sprintf("Node:%s, volumes:%v, Ip:%s, Port:%d, PublicUrl:%s", dn.NodeImpl.String(), dn.volumes, dn.Ip, dn.Port, dn.PublicUrl)
}
func (dn *DataNode) AddOrUpdateVolume(v storage.VolumeInfo) (isNew, isChangedRO bool) {
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dn.Lock()
defer dn.Unlock()
return dn.doAddOrUpdateVolume(v)
}
func (dn *DataNode) doAddOrUpdateVolume(v storage.VolumeInfo) (isNew, isChangedRO bool) {
if oldV, ok := dn.volumes[v.Id]; !ok {
dn.volumes[v.Id] = v
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if v.DiskType == storage.SsdType {
dn.UpAdjustSsdVolumeCountDelta(1)
} else {
dn.UpAdjustVolumeCountDelta(1)
}
if v.IsRemote() {
dn.UpAdjustRemoteVolumeCountDelta(1)
}
if !v.ReadOnly {
dn.UpAdjustActiveVolumeCountDelta(1)
}
dn.UpAdjustMaxVolumeId(v.Id)
isNew = true
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} else {
if oldV.IsRemote() != v.IsRemote() {
if v.IsRemote() {
dn.UpAdjustRemoteVolumeCountDelta(1)
}
if oldV.IsRemote() {
dn.UpAdjustRemoteVolumeCountDelta(-1)
}
}
isChangedRO = dn.volumes[v.Id].ReadOnly != v.ReadOnly
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dn.volumes[v.Id] = v
}
return
}
func (dn *DataNode) UpdateVolumes(actualVolumes []storage.VolumeInfo) (newVolumes, deletedVolumes, changeRO []storage.VolumeInfo) {
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actualVolumeMap := make(map[needle.VolumeId]storage.VolumeInfo)
for _, v := range actualVolumes {
actualVolumeMap[v.Id] = v
}
dn.Lock()
defer dn.Unlock()
for vid, v := range dn.volumes {
if _, ok := actualVolumeMap[vid]; !ok {
glog.V(0).Infoln("Deleting volume id:", vid)
delete(dn.volumes, vid)
deletedVolumes = append(deletedVolumes, v)
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if v.DiskType == storage.SsdType {
dn.UpAdjustSsdVolumeCountDelta(-1)
} else {
dn.UpAdjustVolumeCountDelta(-1)
}
if v.IsRemote() {
dn.UpAdjustRemoteVolumeCountDelta(-1)
}
if !v.ReadOnly {
dn.UpAdjustActiveVolumeCountDelta(-1)
}
}
}
for _, v := range actualVolumes {
isNew, isChangedRO := dn.doAddOrUpdateVolume(v)
if isNew {
newVolumes = append(newVolumes, v)
}
if isChangedRO {
changeRO = append(changeRO, v)
}
}
return
}
func (dn *DataNode) DeltaUpdateVolumes(newVolumes, deletedVolumes []storage.VolumeInfo) {
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dn.Lock()
defer dn.Unlock()
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for _, v := range deletedVolumes {
delete(dn.volumes, v.Id)
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if v.DiskType == storage.SsdType {
dn.UpAdjustSsdVolumeCountDelta(-1)
} else {
dn.UpAdjustVolumeCountDelta(-1)
}
if v.IsRemote() {
dn.UpAdjustRemoteVolumeCountDelta(-1)
}
if !v.ReadOnly {
dn.UpAdjustActiveVolumeCountDelta(-1)
}
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}
for _, v := range newVolumes {
dn.doAddOrUpdateVolume(v)
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}
return
}
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func (dn *DataNode) GetVolumes() (ret []storage.VolumeInfo) {
dn.RLock()
for _, v := range dn.volumes {
ret = append(ret, v)
}
dn.RUnlock()
return ret
}
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func (dn *DataNode) GetVolumesById(id needle.VolumeId) (storage.VolumeInfo, error) {
dn.RLock()
defer dn.RUnlock()
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vInfo, ok := dn.volumes[id]
if ok {
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return vInfo, nil
} else {
return storage.VolumeInfo{}, fmt.Errorf("volumeInfo not found")
}
}
func (dn *DataNode) GetDataCenter() *DataCenter {
return dn.Parent().Parent().(*NodeImpl).value.(*DataCenter)
}
func (dn *DataNode) GetRack() *Rack {
return dn.Parent().(*NodeImpl).value.(*Rack)
}
func (dn *DataNode) GetTopology() *Topology {
p := dn.Parent()
for p.Parent() != nil {
p = p.Parent()
}
t := p.(*Topology)
return t
}
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func (dn *DataNode) MatchLocation(ip string, port int) bool {
return dn.Ip == ip && dn.Port == port
}
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func (dn *DataNode) Url() string {
return dn.Ip + ":" + strconv.Itoa(dn.Port)
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}
func (dn *DataNode) ToMap() interface{} {
ret := make(map[string]interface{})
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ret["Url"] = dn.Url()
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ret["Volumes"] = dn.GetVolumeCount() + dn.GetSsdVolumeCount()
ret["VolumeIds"] = dn.GetVolumeIds()
ret["EcShards"] = dn.GetEcShardCount()
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ret["Max"] = dn.GetMaxVolumeCount() + dn.GetMaxSsdVolumeCount()
ret["Free"] = dn.FreeSpace()
ret["PublicUrl"] = dn.PublicUrl
return ret
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}
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func (dn *DataNode) ToDataNodeInfo() *master_pb.DataNodeInfo {
m := &master_pb.DataNodeInfo{
Id: string(dn.Id()),
VolumeCount: uint64(dn.GetVolumeCount()),
MaxVolumeCount: uint64(dn.GetMaxVolumeCount()),
MaxSsdVolumeCount: uint64(dn.GetMaxSsdVolumeCount()),
SsdVolumeCount: uint64(dn.GetSsdVolumeCount()),
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FreeVolumeCount: uint64(dn.FreeSpace()),
ActiveVolumeCount: uint64(dn.GetActiveVolumeCount()),
RemoteVolumeCount: uint64(dn.GetRemoteVolumeCount()),
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}
for _, v := range dn.GetVolumes() {
m.VolumeInfos = append(m.VolumeInfos, v.ToVolumeInformationMessage())
}
for _, ecv := range dn.GetEcShards() {
m.EcShardInfos = append(m.EcShardInfos, ecv.ToVolumeEcShardInformationMessage())
}
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return m
}
// GetVolumeIds returns the human readable volume ids limited to count of max 100.
func (dn *DataNode) GetVolumeIds() string {
dn.RLock()
defer dn.RUnlock()
ids := make([]int, 0, len(dn.volumes))
for k := range dn.volumes {
ids = append(ids, int(k))
}
return util.HumanReadableIntsMax(100, ids...)
}