seaweedfs/weed/server/master_grpc_server.go

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package weed_server
import (
"context"
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"fmt"
"github.com/chrislusf/seaweedfs/weed/storage/backend"
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"net"
"strings"
"time"
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"github.com/chrislusf/raft"
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"google.golang.org/grpc/peer"
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"github.com/chrislusf/seaweedfs/weed/glog"
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"github.com/chrislusf/seaweedfs/weed/pb/master_pb"
"github.com/chrislusf/seaweedfs/weed/storage/needle"
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"github.com/chrislusf/seaweedfs/weed/topology"
)
func (ms *MasterServer) SendHeartbeat(stream master_pb.Seaweed_SendHeartbeatServer) error {
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var dn *topology.DataNode
defer func() {
if dn != nil {
// if the volume server disconnects and reconnects quickly
// the unregister and register can race with each other
ms.Topo.UnRegisterDataNode(dn)
glog.V(0).Infof("unregister disconnected volume server %s:%d", dn.Ip, dn.Port)
message := &master_pb.VolumeLocation{
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Url: dn.Url(),
PublicUrl: dn.PublicUrl,
}
for _, v := range dn.GetVolumes() {
message.DeletedVids = append(message.DeletedVids, uint32(v.Id))
}
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for _, s := range dn.GetEcShards() {
message.DeletedVids = append(message.DeletedVids, uint32(s.VolumeId))
}
if len(message.DeletedVids) > 0 {
ms.clientChansLock.RLock()
for _, ch := range ms.clientChans {
ch <- message
}
ms.clientChansLock.RUnlock()
}
}
}()
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for {
heartbeat, err := stream.Recv()
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if err != nil {
if dn != nil {
glog.Warningf("SendHeartbeat.Recv server %s:%d : %v", dn.Ip, dn.Port, err)
} else {
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glog.Warningf("SendHeartbeat.Recv: %v", err)
}
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return err
}
ms.Topo.Sequence.SetMax(heartbeat.MaxFileKey)
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if dn == nil {
dcName, rackName := ms.Topo.Configuration.Locate(heartbeat.Ip, heartbeat.DataCenter, heartbeat.Rack)
dc := ms.Topo.GetOrCreateDataCenter(dcName)
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rack := dc.GetOrCreateRack(rackName)
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dn = rack.GetOrCreateDataNode(heartbeat.Ip, int(heartbeat.Port), heartbeat.PublicUrl, heartbeat.MaxVolumeCounts)
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glog.V(0).Infof("added volume server %v:%d", heartbeat.GetIp(), heartbeat.GetPort())
if err := stream.Send(&master_pb.HeartbeatResponse{
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VolumeSizeLimit: uint64(ms.option.VolumeSizeLimitMB) * 1024 * 1024,
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}); err != nil {
glog.Warningf("SendHeartbeat.Send volume size to %s:%d %v", dn.Ip, dn.Port, err)
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return err
}
}
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dn.AdjustMaxVolumeCounts(heartbeat.MaxVolumeCounts)
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glog.V(4).Infof("master received heartbeat %s", heartbeat.String())
var dataCenter string
if dc := dn.GetDataCenter(); dc != nil {
dataCenter = string(dc.Id())
}
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message := &master_pb.VolumeLocation{
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Url: dn.Url(),
PublicUrl: dn.PublicUrl,
DataCenter: dataCenter,
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}
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if len(heartbeat.NewVolumes) > 0 || len(heartbeat.DeletedVolumes) > 0 {
// process delta volume ids if exists for fast volume id updates
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for _, volInfo := range heartbeat.NewVolumes {
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message.NewVids = append(message.NewVids, volInfo.Id)
}
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for _, volInfo := range heartbeat.DeletedVolumes {
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message.DeletedVids = append(message.DeletedVids, volInfo.Id)
}
// update master internal volume layouts
ms.Topo.IncrementalSyncDataNodeRegistration(heartbeat.NewVolumes, heartbeat.DeletedVolumes, dn)
}
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if len(heartbeat.Volumes) > 0 || heartbeat.HasNoVolumes {
// process heartbeat.Volumes
newVolumes, deletedVolumes := ms.Topo.SyncDataNodeRegistration(heartbeat.Volumes, dn)
for _, v := range newVolumes {
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glog.V(0).Infof("master see new volume %d from %s", uint32(v.Id), dn.Url())
message.NewVids = append(message.NewVids, uint32(v.Id))
}
for _, v := range deletedVolumes {
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glog.V(0).Infof("master see deleted volume %d from %s", uint32(v.Id), dn.Url())
message.DeletedVids = append(message.DeletedVids, uint32(v.Id))
}
}
if len(heartbeat.NewEcShards) > 0 || len(heartbeat.DeletedEcShards) > 0 {
// update master internal volume layouts
ms.Topo.IncrementalSyncDataNodeEcShards(heartbeat.NewEcShards, heartbeat.DeletedEcShards, dn)
for _, s := range heartbeat.NewEcShards {
message.NewVids = append(message.NewVids, s.Id)
}
for _, s := range heartbeat.DeletedEcShards {
if dn.HasVolumesById(needle.VolumeId(s.Id)) {
continue
}
message.DeletedVids = append(message.DeletedVids, s.Id)
}
}
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if len(heartbeat.EcShards) > 0 || heartbeat.HasNoEcShards {
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glog.V(1).Infof("master received ec shards from %s: %+v", dn.Url(), heartbeat.EcShards)
newShards, deletedShards := ms.Topo.SyncDataNodeEcShards(heartbeat.EcShards, dn)
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// broadcast the ec vid changes to master clients
for _, s := range newShards {
message.NewVids = append(message.NewVids, uint32(s.VolumeId))
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}
for _, s := range deletedShards {
if dn.HasVolumesById(s.VolumeId) {
continue
}
message.DeletedVids = append(message.DeletedVids, uint32(s.VolumeId))
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}
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}
if len(message.NewVids) > 0 || len(message.DeletedVids) > 0 {
ms.clientChansLock.RLock()
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for host, ch := range ms.clientChans {
glog.V(0).Infof("master send to %s: %s", host, message.String())
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ch <- message
}
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ms.clientChansLock.RUnlock()
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}
// tell the volume servers about the leader
newLeader, err := ms.Topo.Leader()
if err != nil {
glog.Warningf("SendHeartbeat find leader: %v", err)
return err
}
if err := stream.Send(&master_pb.HeartbeatResponse{
Leader: newLeader,
}); err != nil {
glog.Warningf("SendHeartbeat.Send response to to %s:%d %v", dn.Ip, dn.Port, err)
return err
}
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}
}
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// KeepConnected keep a stream gRPC call to the master. Used by clients to know the master is up.
// And clients gets the up-to-date list of volume locations
func (ms *MasterServer) KeepConnected(stream master_pb.Seaweed_KeepConnectedServer) error {
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req, recvErr := stream.Recv()
if recvErr != nil {
return recvErr
}
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if !ms.Topo.IsLeader() {
return ms.informNewLeader(stream)
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}
peerAddress := findClientAddress(stream.Context(), req.GrpcPort)
// buffer by 1 so we don't end up getting stuck writing to stopChan forever
stopChan := make(chan bool, 1)
clientName, messageChan := ms.addClient(req.Name, peerAddress)
defer ms.deleteClient(clientName)
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for _, message := range ms.Topo.ToVolumeLocations() {
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if sendErr := stream.Send(message); sendErr != nil {
return sendErr
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}
}
go func() {
for {
_, err := stream.Recv()
if err != nil {
glog.V(2).Infof("- client %v: %v", clientName, err)
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close(stopChan)
return
}
}
}()
ticker := time.NewTicker(5 * time.Second)
for {
select {
case message := <-messageChan:
if err := stream.Send(message); err != nil {
glog.V(0).Infof("=> client %v: %+v", clientName, message)
return err
}
case <-ticker.C:
if !ms.Topo.IsLeader() {
return ms.informNewLeader(stream)
}
case <-stopChan:
return nil
}
}
}
func (ms *MasterServer) informNewLeader(stream master_pb.Seaweed_KeepConnectedServer) error {
leader, err := ms.Topo.Leader()
if err != nil {
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glog.Errorf("topo leader: %v", err)
return raft.NotLeaderError
}
if err := stream.Send(&master_pb.VolumeLocation{
Leader: leader,
}); err != nil {
return err
}
return nil
}
func (ms *MasterServer) addClient(clientType string, clientAddress string) (clientName string, messageChan chan *master_pb.VolumeLocation) {
clientName = clientType + "@" + clientAddress
glog.V(0).Infof("+ client %v", clientName)
// we buffer this because otherwise we end up in a potential deadlock where
// the KeepConnected loop is no longer listening on this channel but we're
// trying to send to it in SendHeartbeat and so we can't lock the
// clientChansLock to remove the channel and we're stuck writing to it
// 100 is probably overkill
messageChan = make(chan *master_pb.VolumeLocation, 100)
ms.clientChansLock.Lock()
ms.clientChans[clientName] = messageChan
ms.clientChansLock.Unlock()
return
}
func (ms *MasterServer) deleteClient(clientName string) {
glog.V(0).Infof("- client %v", clientName)
ms.clientChansLock.Lock()
delete(ms.clientChans, clientName)
ms.clientChansLock.Unlock()
}
func findClientAddress(ctx context.Context, grpcPort uint32) string {
// fmt.Printf("FromContext %+v\n", ctx)
pr, ok := peer.FromContext(ctx)
if !ok {
glog.Error("failed to get peer from ctx")
return ""
}
if pr.Addr == net.Addr(nil) {
glog.Error("failed to get peer address")
return ""
}
if grpcPort == 0 {
return pr.Addr.String()
}
if tcpAddr, ok := pr.Addr.(*net.TCPAddr); ok {
externalIP := tcpAddr.IP
return fmt.Sprintf("%s:%d", externalIP, grpcPort)
}
return pr.Addr.String()
}
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func (ms *MasterServer) ListMasterClients(ctx context.Context, req *master_pb.ListMasterClientsRequest) (*master_pb.ListMasterClientsResponse, error) {
resp := &master_pb.ListMasterClientsResponse{}
ms.clientChansLock.RLock()
defer ms.clientChansLock.RUnlock()
for k := range ms.clientChans {
if strings.HasPrefix(k, req.ClientType+"@") {
resp.GrpcAddresses = append(resp.GrpcAddresses, k[len(req.ClientType)+1:])
}
}
return resp, nil
}
func (ms *MasterServer) GetMasterConfiguration(ctx context.Context, req *master_pb.GetMasterConfigurationRequest) (*master_pb.GetMasterConfigurationResponse, error) {
// tell the volume servers about the leader
leader, _ := ms.Topo.Leader()
resp := &master_pb.GetMasterConfigurationResponse{
MetricsAddress: ms.option.MetricsAddress,
MetricsIntervalSeconds: uint32(ms.option.MetricsIntervalSec),
StorageBackends: backend.ToPbStorageBackends(),
DefaultReplication: ms.option.DefaultReplicaPlacement,
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VolumeSizeLimitMB: uint32(ms.option.VolumeSizeLimitMB),
VolumePreallocate: ms.option.VolumePreallocate,
Leader: leader,
}
return resp, nil
}