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chore: import upstream snapshot with attribution
2026-07-13 12:31:17 +08:00

953 lines
30 KiB
Go

// Licensed to the LF AI & Data foundation under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package querycoordv2
import (
"context"
"fmt"
"os"
"sync"
"time"
"github.com/blang/semver/v4"
"github.com/samber/lo"
"github.com/tidwall/gjson"
"github.com/tikv/client-go/v2/txnkv"
clientv3 "go.etcd.io/etcd/client/v3"
"go.uber.org/atomic"
"golang.org/x/time/rate"
"github.com/milvus-io/milvus-proto/go-api/v3/commonpb"
"github.com/milvus-io/milvus-proto/go-api/v3/milvuspb"
"github.com/milvus-io/milvus/internal/allocator"
etcdkv "github.com/milvus-io/milvus/internal/kv/etcd"
"github.com/milvus-io/milvus/internal/kv/tikv"
"github.com/milvus-io/milvus/internal/metastore"
"github.com/milvus-io/milvus/internal/metastore/kv/querycoord"
"github.com/milvus-io/milvus/internal/querycoordv2/assign"
"github.com/milvus-io/milvus/internal/querycoordv2/balance"
"github.com/milvus-io/milvus/internal/querycoordv2/checkers"
"github.com/milvus-io/milvus/internal/querycoordv2/dist"
"github.com/milvus-io/milvus/internal/querycoordv2/job"
"github.com/milvus-io/milvus/internal/querycoordv2/meta"
"github.com/milvus-io/milvus/internal/querycoordv2/observers"
"github.com/milvus-io/milvus/internal/querycoordv2/params"
"github.com/milvus-io/milvus/internal/querycoordv2/session"
"github.com/milvus-io/milvus/internal/querycoordv2/task"
"github.com/milvus-io/milvus/internal/querycoordv2/utils"
"github.com/milvus-io/milvus/internal/types"
"github.com/milvus-io/milvus/internal/util/proxyutil"
"github.com/milvus-io/milvus/internal/util/sessionutil"
"github.com/milvus-io/milvus/internal/util/tsoutil"
"github.com/milvus-io/milvus/pkg/v3/config"
"github.com/milvus-io/milvus/pkg/v3/kv"
"github.com/milvus-io/milvus/pkg/v3/metrics"
"github.com/milvus-io/milvus/pkg/v3/mlog"
"github.com/milvus-io/milvus/pkg/v3/util"
"github.com/milvus-io/milvus/pkg/v3/util/expr"
"github.com/milvus-io/milvus/pkg/v3/util/merr"
"github.com/milvus-io/milvus/pkg/v3/util/metricsinfo"
"github.com/milvus-io/milvus/pkg/v3/util/paramtable"
"github.com/milvus-io/milvus/pkg/v3/util/timerecord"
"github.com/milvus-io/milvus/pkg/v3/util/typeutil"
)
// Only for re-export
var Params = params.Params
type Server struct {
ctx context.Context
cancel context.CancelFunc
wg sync.WaitGroup
status atomic.Int32
etcdCli *clientv3.Client
tikvCli *txnkv.Client
address string
session sessionutil.SessionInterface
sessionWatcher sessionutil.SessionWatcher
sessionWatcherMu sync.Mutex
kv kv.MetaKv
idAllocator func() (int64, error)
metricsCacheManager *metricsinfo.MetricsCacheManager
// Coordinators
mixCoord types.MixCoord
// Meta
store metastore.QueryCoordCatalog
meta *meta.Meta
dist *meta.DistributionManager
targetMgr meta.TargetManagerInterface
broker meta.Broker
// Session
cluster session.Cluster
nodeMgr *session.NodeManager
queryNodeCreator session.QueryNodeCreator
// Schedulers
jobScheduler *job.Scheduler
taskScheduler task.Scheduler
// HeartBeat
distController dist.Controller
// Checkers
checkerController *checkers.CheckerController
// Observers
collectionObserver *observers.CollectionObserver
targetObserver *observers.TargetObserver
replicaObserver *observers.ReplicaObserver
resourceObserver *observers.ResourceObserver
leaderCacheObserver *observers.LeaderCacheObserver
fileResourceObserver FileResourceObserver
// Active-standby
enableActiveStandBy bool
activateFunc func() error
// proxy client manager
proxyCreator proxyutil.ProxyCreator
proxyWatcher proxyutil.ProxyWatcherInterface
proxyClientManager proxyutil.ProxyClientManagerInterface
metricsRequest *metricsinfo.MetricsRequest
// for balance streaming node request
// now only used for run analyzer and validate analyzer
nodeIdx atomic.Uint32
// load config watcher
loadConfigWatcher *LoadConfigWatcher
}
type FileResourceObserver interface {
InitQueryCoord(manager *session.NodeManager, cluster session.Cluster)
Notify()
}
func NewQueryCoord(ctx context.Context) (*Server, error) {
ctx, cancel := context.WithCancel(ctx)
server := &Server{
ctx: ctx,
cancel: cancel,
metricsRequest: metricsinfo.NewMetricsRequest(),
}
server.UpdateStateCode(commonpb.StateCode_Abnormal)
server.queryNodeCreator = session.DefaultQueryNodeCreator
expr.Register("querycoord", server)
return server, nil
}
func (s *Server) Register() error {
return nil
}
func (s *Server) SetSession(session sessionutil.SessionInterface) error {
s.session = session
if s.session == nil {
return merr.WrapErrServiceNotReadyMsg("session is nil, the etcd client connection may have failed")
}
return nil
}
func (s *Server) ServerExist(serverID int64) bool {
sessions, _, err := s.session.GetSessions(s.ctx, typeutil.QueryNodeRole)
if err != nil {
mlog.Warn(s.ctx, "failed to get sessions", mlog.Err(err))
return false
}
sessionMap := lo.MapKeys(sessions, func(s *sessionutil.Session, _ string) int64 {
return s.ServerID
})
_, exists := sessionMap[serverID]
return exists
}
func (s *Server) registerMetricsRequest() {
getSystemInfoAction := func(ctx context.Context, req *milvuspb.GetMetricsRequest, jsonReq gjson.Result) (string, error) {
return s.getSystemInfoMetrics(ctx, req)
}
QueryTasksAction := func(ctx context.Context, req *milvuspb.GetMetricsRequest, jsonReq gjson.Result) (string, error) {
return s.taskScheduler.GetTasksJSON(), nil
}
QueryDistAction := func(ctx context.Context, req *milvuspb.GetMetricsRequest, jsonReq gjson.Result) (string, error) {
collectionID := metricsinfo.GetCollectionIDFromRequest(jsonReq)
return s.dist.GetDistributionJSON(collectionID), nil
}
QueryTargetAction := func(ctx context.Context, req *milvuspb.GetMetricsRequest, jsonReq gjson.Result) (string, error) {
scope := meta.CurrentTarget
v := jsonReq.Get(metricsinfo.MetricRequestParamTargetScopeKey)
if v.Exists() {
scope = meta.TargetScope(v.Int())
}
collectionID := metricsinfo.GetCollectionIDFromRequest(jsonReq)
return s.targetMgr.GetTargetJSON(ctx, scope, collectionID), nil
}
QueryReplicasAction := func(ctx context.Context, req *milvuspb.GetMetricsRequest, jsonReq gjson.Result) (string, error) {
return s.meta.GetReplicasJSON(ctx, s.meta), nil
}
QueryResourceGroupsAction := func(ctx context.Context, req *milvuspb.GetMetricsRequest, jsonReq gjson.Result) (string, error) {
return s.meta.GetResourceGroupsJSON(ctx), nil
}
QuerySegmentsAction := func(ctx context.Context, req *milvuspb.GetMetricsRequest, jsonReq gjson.Result) (string, error) {
return s.getSegmentsJSON(ctx, req, jsonReq)
}
QueryChannelsAction := func(ctx context.Context, req *milvuspb.GetMetricsRequest, jsonReq gjson.Result) (string, error) {
return s.getChannelsFromQueryNode(ctx, req)
}
// register actions that requests are processed in querycoord
s.metricsRequest.RegisterMetricsRequest(metricsinfo.SystemInfoMetrics, getSystemInfoAction)
s.metricsRequest.RegisterMetricsRequest(metricsinfo.AllTaskKey, QueryTasksAction)
s.metricsRequest.RegisterMetricsRequest(metricsinfo.DistKey, QueryDistAction)
s.metricsRequest.RegisterMetricsRequest(metricsinfo.TargetKey, QueryTargetAction)
s.metricsRequest.RegisterMetricsRequest(metricsinfo.ReplicaKey, QueryReplicasAction)
s.metricsRequest.RegisterMetricsRequest(metricsinfo.ResourceGroupKey, QueryResourceGroupsAction)
// register actions that requests are processed in querynode
s.metricsRequest.RegisterMetricsRequest(metricsinfo.SegmentKey, QuerySegmentsAction)
s.metricsRequest.RegisterMetricsRequest(metricsinfo.ChannelKey, QueryChannelsAction)
mlog.Info(s.ctx, "register metrics actions finished")
}
func (s *Server) SetFileResourceObserver(observer FileResourceObserver) {
s.fileResourceObserver = observer
}
func (s *Server) Init() error {
mlog.Info(s.ctx, "QueryCoord start init",
mlog.String("meta-root-path", Params.EtcdCfg.MetaRootPath.GetValue()),
mlog.String("address", s.address))
s.registerMetricsRequest()
if err := s.initSession(); err != nil {
return err
}
return s.initQueryCoord()
}
func (s *Server) initSession() error {
// Init QueryCoord session
if s.session == nil {
s.session = sessionutil.NewSession(s.ctx)
s.session.Init(typeutil.QueryCoordRole, s.address, true)
s.enableActiveStandBy = Params.QueryCoordCfg.EnableActiveStandby.GetAsBool()
s.session.SetEnableActiveStandBy(s.enableActiveStandBy)
}
return nil
}
func (s *Server) initQueryCoord() error {
s.UpdateStateCode(commonpb.StateCode_Initializing)
mlog.Info(s.ctx, "start init querycoord", mlog.Any("State", commonpb.StateCode_Initializing))
// Init KV and ID allocator
metaType := Params.MetaStoreCfg.MetaStoreType.GetValue()
var idAllocatorKV kv.TxnKV
mlog.Info(s.ctx,
fmt.Sprintf("query coordinator connecting to %s.", metaType))
switch metaType {
case util.MetaStoreTypeTiKV:
s.kv = tikv.NewTiKV(s.tikvCli, Params.TiKVCfg.MetaRootPath.GetValue(),
tikv.WithRequestTimeout(paramtable.Get().TiKVCfg.RequestTimeout.GetAsDuration(time.Millisecond)))
idAllocatorKV = tsoutil.NewTSOTiKVBase(s.tikvCli, Params.TiKVCfg.KvRootPath.GetValue(), "querycoord-id-allocator")
case util.MetaStoreTypeEtcd:
s.kv = etcdkv.NewEtcdKV(s.etcdCli, Params.EtcdCfg.MetaRootPath.GetValue(),
etcdkv.WithRequestTimeout(paramtable.Get().EtcdCfg.RequestTimeout.GetAsDuration(time.Millisecond)))
idAllocatorKV = tsoutil.NewTSOKVBase(s.etcdCli, Params.EtcdCfg.KvRootPath.GetValue(), "querycoord-id-allocator")
default:
return merr.WrapErrServiceInternalMsg("unsupported meta store: %s", metaType)
}
mlog.Info(s.ctx,
fmt.Sprintf("query coordinator successfully connected to %s.", metaType))
idAllocator := allocator.NewGlobalIDAllocator("idTimestamp", idAllocatorKV)
err := idAllocator.Initialize()
if err != nil {
mlog.Error(s.ctx, "query coordinator id allocator initialize failed", mlog.Err(err))
return err
}
s.idAllocator = func() (int64, error) {
return idAllocator.AllocOne()
}
mlog.Info(s.ctx, "init ID allocator done")
// Init metrics cache manager
s.metricsCacheManager = metricsinfo.NewMetricsCacheManager()
// Init meta
s.nodeMgr = session.NewNodeManager()
s.nodeMgr.Start(s.ctx)
err = s.initMeta()
if err != nil {
return err
}
// Init session
mlog.Info(s.ctx, "init session")
s.cluster = session.NewCluster(s.nodeMgr, s.queryNodeCreator)
// Init schedulers
mlog.Info(s.ctx, "init schedulers")
s.jobScheduler = job.NewScheduler()
s.taskScheduler = task.NewScheduler(
s.ctx,
s.meta,
s.dist,
s.targetMgr,
s.broker,
s.cluster,
s.nodeMgr,
)
// init proxy client manager
s.proxyClientManager = proxyutil.NewProxyClientManager(proxyutil.DefaultProxyCreator)
s.proxyWatcher = proxyutil.NewProxyWatcher(
s.etcdCli,
s.proxyClientManager.SetProxyClients,
)
s.proxyWatcher.AddSessionFunc(s.proxyClientManager.AddProxyClient)
s.proxyWatcher.DelSessionFunc(s.proxyClientManager.DelProxyClient)
mlog.Info(s.ctx, "init proxy manager done")
// Init global assign policy factory
mlog.Info(s.ctx, "init global assign policy factory")
assign.InitGlobalAssignPolicyFactory(s.taskScheduler, s.nodeMgr, s.dist, s.meta, s.targetMgr)
// Init global balancer factory
mlog.Info(s.ctx, "init global balancer factory")
balance.InitGlobalBalancerFactory(s.taskScheduler, s.nodeMgr, s.dist, s.targetMgr)
// Init checker controller
mlog.Info(s.ctx, "init checker controller")
s.checkerController = checkers.NewCheckerController(
s.meta,
s.dist,
s.targetMgr,
s.nodeMgr,
s.taskScheduler,
s.broker,
)
// Init observers
s.initObserver()
// Init heartbeat
mlog.Info(s.ctx, "init dist controller")
s.distController = dist.NewDistController(
s.cluster,
s.nodeMgr,
s.dist,
s.targetMgr,
s.taskScheduler,
s.leaderCacheObserver.RegisterEvent,
)
// Init load status cache
meta.GlobalFailedLoadCache = meta.NewFailedLoadCache()
RegisterDDLCallbacks(s)
mlog.Info(s.ctx, "init querycoord done", mlog.FieldNodeID(paramtable.GetNodeID()), mlog.String("Address", s.address))
return err
}
func (s *Server) initMeta() error {
record := timerecord.NewTimeRecorder("querycoord")
mlog.Info(s.ctx, "init meta")
s.store = querycoord.NewCatalog(s.kv)
s.meta = meta.NewMeta(s.idAllocator, s.store, s.nodeMgr)
s.broker = meta.NewCoordinatorBroker(
s.mixCoord,
)
mlog.Info(s.ctx, "recover meta...")
err := s.meta.CollectionManager.Recover(s.ctx, s.broker)
if err != nil {
mlog.Warn(s.ctx, "failed to recover collections", mlog.Err(err))
return err
}
collections := s.meta.GetAll(s.ctx)
mlog.Info(s.ctx, "recovering collections...", mlog.Int64s("collections", collections))
// We really update the metric after observers think the collection loaded.
metrics.QueryCoordNumCollections.WithLabelValues().Set(0)
metrics.QueryCoordNumPartitions.WithLabelValues().Set(float64(len(s.meta.GetAllPartitions(s.ctx))))
err = s.meta.ReplicaManager.Recover(s.ctx, collections)
if err != nil {
mlog.Warn(s.ctx, "failed to recover replicas", mlog.Err(err))
return err
}
err = s.meta.ResourceManager.Recover(s.ctx)
if err != nil {
mlog.Warn(s.ctx, "failed to recover resource groups", mlog.Err(err))
return err
}
s.dist = meta.NewDistributionManager(s.nodeMgr)
s.targetMgr = meta.NewTargetManager(s.broker, s.meta)
err = s.targetMgr.Recover(s.ctx, s.store)
if err != nil {
mlog.Warn(s.ctx, "failed to recover collection targets", mlog.Err(err))
}
mlog.Info(s.ctx, "QueryCoord server initMeta done", mlog.Duration("duration", record.ElapseSpan()))
return nil
}
func (s *Server) initObserver() {
mlog.Info(s.ctx, "init observers")
s.targetObserver = observers.NewTargetObserver(
s.meta,
s.targetMgr,
s.dist,
s.broker,
s.cluster,
s.nodeMgr,
)
s.collectionObserver = observers.NewCollectionObserver(
s.dist,
s.meta,
s.targetMgr,
s.targetObserver,
s.checkerController,
s.proxyClientManager,
)
s.replicaObserver = observers.NewReplicaObserver(
s.meta,
s.dist,
s.targetMgr,
)
s.resourceObserver = observers.NewResourceObserver(s.meta)
s.leaderCacheObserver = observers.NewLeaderCacheObserver(
s.proxyClientManager,
)
if s.fileResourceObserver != nil {
s.fileResourceObserver.InitQueryCoord(s.nodeMgr, s.cluster)
}
}
func (s *Server) afterStart() {}
func (s *Server) Start() error {
if err := s.startQueryCoord(); err != nil {
return err
}
mlog.Info(s.ctx, "QueryCoord started")
return nil
}
func (s *Server) startQueryCoord() error {
mlog.Info(s.ctx, "start watcher...")
sessions, revision, err := s.session.GetSessions(s.ctx, typeutil.QueryNodeRole)
if err != nil {
return err
}
mlog.Info(s.ctx, "rewatch nodes", mlog.Any("sessions", sessions))
err = s.rewatchNodes(sessions)
if err != nil {
return err
}
s.wg.Add(1)
go s.watchNodes(revision)
// check whether old node exist, if yes suspend auto balance until all old nodes down
s.updateBalanceConfigLoop(s.ctx)
if err := s.proxyWatcher.WatchProxy(s.ctx); err != nil {
mlog.Warn(s.ctx, "querycoord failed to watch proxy", mlog.Err(err))
}
s.startServerLoop()
s.afterStart()
s.UpdateStateCode(commonpb.StateCode_Healthy)
sessionutil.SaveServerInfo(typeutil.MixCoordRole, s.session.GetServerID())
// check replica changes after restart
// Note: this should be called after start progress is done
s.watchLoadConfigChanges()
return nil
}
func (s *Server) startServerLoop() {
// leader cache observer shall be started before `SyncAll` call
s.leaderCacheObserver.Start(s.ctx)
// Recover dist, to avoid generate too much task when dist not ready after restart
s.distController.SyncAll(s.ctx)
// start the components from inside to outside,
// to make the dependencies ready for every component
mlog.Info(s.ctx, "start cluster...")
s.cluster.Start()
mlog.Info(s.ctx, "start observers...")
s.collectionObserver.Start()
s.targetObserver.Start()
s.replicaObserver.Start()
s.resourceObserver.Start()
mlog.Info(s.ctx, "start task scheduler...")
s.taskScheduler.Start()
mlog.Info(s.ctx, "start checker controller...")
s.checkerController.Start()
mlog.Info(s.ctx, "start job scheduler...")
s.jobScheduler.Start()
}
func (s *Server) Stop() error {
// FOLLOW the dependence graph:
// job scheduler -> checker controller -> task scheduler -> dist controller -> cluster -> session
// observers -> dist controller
if s.loadConfigWatcher != nil {
mlog.Info(s.ctx, "stop load config watcher...")
s.loadConfigWatcher.Close()
}
if s.jobScheduler != nil {
mlog.Info(s.ctx, "stop job scheduler...")
s.jobScheduler.Stop()
}
if s.checkerController != nil {
mlog.Info(s.ctx, "stop checker controller...")
s.checkerController.Stop()
}
if s.taskScheduler != nil {
mlog.Info(s.ctx, "stop task scheduler...")
s.taskScheduler.Stop()
}
mlog.Info(s.ctx, "stop observers...")
if s.collectionObserver != nil {
s.collectionObserver.Stop()
}
if s.targetObserver != nil {
s.targetObserver.Stop()
}
// save target to meta store, after querycoord restart, make it fast to recover current target
// should save target after target observer stop, incase of target changed
if s.targetMgr != nil {
s.targetMgr.SaveCurrentTarget(s.ctx, s.store)
}
if s.replicaObserver != nil {
s.replicaObserver.Stop()
}
if s.resourceObserver != nil {
s.resourceObserver.Stop()
}
if s.leaderCacheObserver != nil {
s.leaderCacheObserver.Stop()
}
if s.distController != nil {
mlog.Info(s.ctx, "stop dist controller...")
s.distController.Stop()
}
if s.cluster != nil {
mlog.Info(s.ctx, "stop cluster...")
s.cluster.Stop()
}
s.sessionWatcherMu.Lock()
if s.sessionWatcher != nil {
s.sessionWatcher.Stop()
}
s.sessionWatcherMu.Unlock()
s.cancel()
s.wg.Wait()
if s.session != nil {
s.session.Stop()
}
mlog.Info(s.ctx, "QueryCoord stop successfully")
return nil
}
// UpdateStateCode updates the status of the coord, including healthy, unhealthy
func (s *Server) UpdateStateCode(code commonpb.StateCode) {
s.status.Store(int32(code))
mlog.Info(s.ctx, "update querycoord state", mlog.String("state", code.String()))
}
func (s *Server) State() commonpb.StateCode {
return commonpb.StateCode(s.status.Load())
}
func (s *Server) SetAddress(address string) {
s.address = address
}
// SetEtcdClient sets etcd's client
func (s *Server) SetEtcdClient(etcdClient *clientv3.Client) {
s.etcdCli = etcdClient
}
func (s *Server) SetTiKVClient(client *txnkv.Client) {
s.tikvCli = client
}
func (s *Server) SetMixCoord(mixCoord types.MixCoord) {
s.mixCoord = mixCoord
}
func (s *Server) SetQueryNodeCreator(f func(ctx context.Context, addr string, nodeID int64) (types.QueryNodeClient, error)) {
s.queryNodeCreator = f
}
func (s *Server) watchNodes(revision int64) {
defer s.wg.Done()
s.sessionWatcherMu.Lock()
s.sessionWatcher = s.session.WatchServices(typeutil.QueryNodeRole, revision+1, s.rewatchNodes)
s.sessionWatcherMu.Unlock()
for {
select {
case <-s.ctx.Done():
mlog.Info(s.ctx, "stop watching nodes, QueryCoord stopped")
return
case event, ok := <-s.sessionWatcher.EventChannel():
if !ok {
// ErrCompacted is handled inside SessionWatcher
mlog.Warn(s.ctx, "Session Watcher channel closed", mlog.Int64("serverID", paramtable.GetNodeID()))
if s.ctx.Err() == nil {
// ctx is still active, meaning this is not a normal shutdown but a genuine watch failure.
// Force exit so the process can be restarted by the orchestrator (e.g. K8s).
mlog.Error(s.ctx, "force exit due to unexpected session watcher failure")
mlog.Cleanup()
os.Exit(sessionutil.ExitCodeEtcd)
}
return
}
nodeID := event.Session.ServerID
addr := event.Session.Address
log := mlog.With(
mlog.FieldNodeID(nodeID),
mlog.String("nodeAddr", addr),
)
switch event.EventType {
case sessionutil.SessionAddEvent:
s.nodeMgr.Add(session.NewNodeInfo(session.ImmutableNodeInfo{
NodeID: nodeID,
Address: addr,
Hostname: event.Session.HostName,
Version: event.Session.Version,
Labels: event.Session.GetServerLabel(),
}))
s.handleNodeUp(nodeID)
if s.fileResourceObserver != nil {
s.fileResourceObserver.Notify()
}
case sessionutil.SessionUpdateEvent:
log.Info(s.ctx, "stopping the node")
s.nodeMgr.Stopping(nodeID)
s.handleNodeStopping(nodeID)
case sessionutil.SessionDelEvent:
log.Info(s.ctx, "a node down, remove it")
s.nodeMgr.Remove(nodeID)
s.handleNodeDown(nodeID)
}
}
}
}
// rewatchNodes is used to re-watch nodes when querycoord restart or reconnect to etcd
// Note: may apply same node multiple times, so rewatchNodes must be idempotent
func (s *Server) rewatchNodes(sessions map[string]*sessionutil.Session) error {
sessionMap := lo.MapKeys(sessions, func(s *sessionutil.Session, _ string) int64 {
return s.ServerID
})
// first remove all offline nodes
for _, node := range s.nodeMgr.GetAll() {
nodeSession, ok := sessionMap[node.ID()]
if !ok {
// node in node manager but session not exist, means it's offline
s.nodeMgr.Remove(node.ID())
s.handleNodeDown(node.ID())
} else {
if nodeSession.Stopping && !node.IsStoppingState() {
// node in node manager but session is stopping, means it's stopping
mlog.Warn(s.ctx, "rewatch found old querynode in stopping state", mlog.FieldNodeID(nodeSession.ServerID))
s.nodeMgr.Stopping(node.ID())
s.handleNodeStopping(node.ID())
}
delete(sessionMap, node.ID())
}
}
// then add all on new online nodes
for _, nodeSession := range sessionMap {
nodeInfo := s.nodeMgr.Get(nodeSession.ServerID)
if nodeInfo == nil {
s.nodeMgr.Add(session.NewNodeInfo(session.ImmutableNodeInfo{
NodeID: nodeSession.GetServerID(),
Address: nodeSession.GetAddress(),
Hostname: nodeSession.HostName,
Version: nodeSession.Version,
Labels: nodeSession.GetServerLabel(),
}))
// call handleNodeUp no matter what state new querynode is in
// all component need this op so that stopping balance could work correctly
s.handleNodeUp(nodeSession.GetServerID())
if nodeSession.Stopping {
mlog.Warn(s.ctx, "rewatch found new querynode in stopping state", mlog.FieldNodeID(nodeSession.ServerID))
s.nodeMgr.Stopping(nodeSession.ServerID)
s.handleNodeStopping(nodeSession.ServerID)
}
}
}
// Note: Node manager doesn't persist node list, so after query coord restart, we cannot
// update all node statuses in resource manager based on session and node manager's node list.
// Therefore, manual status checking of all nodes in resource manager is needed.
s.meta.CheckNodesInResourceGroup(s.ctx)
return nil
}
func (s *Server) handleNodeUp(node int64) {
nodeInfo := s.nodeMgr.Get(node)
if nodeInfo == nil {
mlog.Warn(s.ctx, "node already down", mlog.FieldNodeID(node))
return
}
// add executor to task scheduler
s.taskScheduler.AddExecutor(node)
// start dist handler
s.distController.StartDistInstance(s.ctx, node)
// need assign to new rg and replica
s.meta.HandleNodeUp(s.ctx, node)
s.metricsCacheManager.InvalidateSystemInfoMetrics()
s.checkerController.Check()
}
func (s *Server) handleNodeDown(node int64) {
s.taskScheduler.RemoveExecutor(node)
s.distController.Remove(node)
// Clear dist
s.dist.ChannelDistManager.Update(node)
s.dist.SegmentDistManager.Update(node)
// Clear tasks
s.taskScheduler.RemoveByNode(node)
s.meta.HandleNodeDown(context.Background(), node)
// clean node's metrics
metrics.QueryCoordLastHeartbeatTimeStamp.DeleteLabelValues(fmt.Sprint(node))
s.metricsCacheManager.InvalidateSystemInfoMetrics()
}
func (s *Server) handleNodeStopping(node int64) {
// mark node as stopping in node manager
s.nodeMgr.Stopping(node)
// mark node as stopping in resource manager
s.meta.HandleNodeStopping(context.Background(), node)
// trigger checker to check stopping node
s.checkerController.Check()
}
func (s *Server) updateBalanceConfigLoop(ctx context.Context) {
success := s.updateBalanceConfig()
if success {
return
}
s.wg.Add(1)
go func() {
defer s.wg.Done()
interval := Params.QueryCoordCfg.CheckAutoBalanceConfigInterval.GetAsDuration(time.Second)
ticker := time.NewTicker(interval)
defer ticker.Stop()
for {
select {
case <-ctx.Done():
mlog.Info(ctx, "update balance config loop exit!")
return
case <-ticker.C:
success := s.updateBalanceConfig()
if success {
return
}
// apply dynamic update only when changed
newInterval := Params.QueryCoordCfg.CheckAutoBalanceConfigInterval.GetAsDuration(time.Second)
if newInterval != interval {
interval = newInterval
select {
case <-ticker.C:
default:
}
ticker.Reset(interval)
}
}
}
}()
}
func (s *Server) updateBalanceConfig() bool {
r := semver.MustParseRange("<2.3.0")
sessions, _, err := s.session.GetSessionsWithVersionRange(typeutil.QueryNodeRole, r)
if err != nil {
mlog.Warn(s.ctx, "check query node version occur error on etcd", mlog.Err(err))
return false
}
if len(sessions) == 0 {
// only balance channel when all query node's version >= 2.3.0
Params.Reset(Params.QueryCoordCfg.AutoBalance.Key)
mlog.Info(s.ctx, "all old query node down, enable auto balance!")
return true
}
Params.Save(Params.QueryCoordCfg.AutoBalance.Key, "false")
mlog.RatedDebug(s.ctx, rate.Limit(10), "old query node exist", mlog.Strings("sessions", lo.Keys(sessions)))
return false
}
func (s *Server) watchLoadConfigChanges() {
w := NewLoadConfigWatcher(s)
s.loadConfigWatcher = w
w.Trigger()
replicaNumHandler := config.NewHandler("watchReplicaNumberChanges", func(e *config.Event) { w.Trigger() })
paramtable.Get().Watch(paramtable.Get().QueryCoordCfg.ClusterLevelLoadReplicaNumber.Key, replicaNumHandler)
rgHandler := config.NewHandler("watchResourceGroupChanges", func(e *config.Event) { w.Trigger() })
paramtable.Get().Watch(paramtable.Get().QueryCoordCfg.ClusterLevelLoadResourceGroups.Key, rgHandler)
forceOverrideHandler := config.NewHandler("watchForceOverrideUserReplicaModeChanges", func(e *config.Event) { w.Trigger() })
paramtable.Get().Watch(paramtable.Get().QueryCoordCfg.ClusterLevelLoadForceOverrideUserReplicaMode.Key, forceOverrideHandler)
}
// GetInternalReplicasByCollection returns replicas for a collection from internal meta.
// This method provides access to internal replica information including resource groups.
func (s *Server) GetInternalReplicasByCollection(ctx context.Context, collectionID int64) []*meta.Replica {
return s.meta.GetByCollection(ctx, collectionID)
}
// IsCollectionUserSpecifiedReplicaMode returns whether the collection load config
// was created from a request with an explicit replica number.
func (s *Server) IsCollectionUserSpecifiedReplicaMode(ctx context.Context, collectionID int64) bool {
if s.meta == nil {
return false
}
collection := s.meta.GetCollection(ctx, collectionID)
return collection != nil && collection.UserSpecifiedReplicaMode
}
// CheckAllReplicasServiceable returns an error if any replica has a non-serviceable
// shard leader for any channel in the collection's current target. Unlike
// CalculateLoadPercentage (which reads the CollectionObserver's periodically-persisted
// snapshot), this performs a live check against the distribution manager and so
// reflects the real-time serviceability after scale-up / scale-down.
func (s *Server) CheckAllReplicasServiceable(ctx context.Context, collectionID int64) error {
replicas := s.meta.GetByCollection(ctx, collectionID)
if len(replicas) == 0 {
return merr.WrapErrServiceInternalMsg("no replica found")
}
for _, replica := range replicas {
if err := s.checkReplicaServiceable(ctx, replica); err != nil {
return err
}
}
return nil
}
func (s *Server) checkReplicaServiceable(ctx context.Context, replica *meta.Replica) error {
channels := s.targetMgr.GetDmChannelsByCollection(ctx, replica.GetCollectionID(), meta.CurrentTarget)
if len(channels) == 0 {
return merr.WrapErrServiceInternalMsg("no channels in current target")
}
for channelName := range channels {
leader := s.dist.ChannelDistManager.GetShardLeader(channelName, replica)
if leader == nil || leader.View == nil {
return merr.WrapErrServiceInternalMsg("replica %d (rg=%s): no leader for channel %s",
replica.GetID(), replica.GetResourceGroup(), channelName)
}
if err := utils.CheckDelegatorDataReady(s.nodeMgr, s.targetMgr, leader.View, meta.CurrentTarget); err != nil {
return merr.Wrapf(err, "replica %d (rg=%s) channel %s not serviceable", replica.GetID(), replica.GetResourceGroup(), channelName)
}
}
return nil
}
// GetLeakedResourcesByCollection returns the number of segments and channels still held by
// querynodes that are NOT part of any current replica of the collection. A non-zero result
// means physical resources have not been fully released yet (e.g., during scale-down a
// decommissioned replica's querynode may still hold segments while release RPCs are in flight).
func (s *Server) GetLeakedResourcesByCollection(ctx context.Context, collectionID int64) (leakedSegments, leakedChannels int) {
replicas := s.meta.GetByCollection(ctx, collectionID)
validNodes := typeutil.NewUniqueSet()
for _, r := range replicas {
validNodes.Insert(r.GetNodes()...)
}
for _, seg := range s.dist.SegmentDistManager.GetByFilter(meta.WithCollectionID(collectionID)) {
if !validNodes.Contain(seg.Node) {
leakedSegments++
}
}
for _, ch := range s.dist.ChannelDistManager.GetByFilter(meta.WithCollectionID2Channel(collectionID)) {
if !validNodes.Contain(ch.Node) {
leakedChannels++
}
}
return leakedSegments, leakedChannels
}