// AddServer creates a server with the specified arguments and appends it to // the TestCluster. func (tc *TestCluster) AddServer(t testing.TB, serverArgs base.TestServerArgs) { serverArgs.Stopper = stop.NewStopper() s, conn, _ := serverutils.StartServer(t, serverArgs) tc.Servers = append(tc.Servers, s.(*server.TestServer)) tc.Conns = append(tc.Conns, conn) tc.mu.Lock() tc.mu.serverStoppers = append(tc.mu.serverStoppers, serverArgs.Stopper) tc.mu.Unlock() }
// Start starts the TestServer by bootstrapping an in-memory store // (defaults to maximum of 100M). The server is started, launching the // node RPC server and all HTTP endpoints. Use the value of // TestServer.ServingAddr() after Start() for client connections. // Use TestServer.Stopper().Stop() to shutdown the server after the test // completes. func (ts *TestServer) Start(params base.TestServerArgs) error { if ts.Cfg == nil { panic("Cfg not set") } if params.Stopper == nil { params.Stopper = stop.NewStopper() } if !params.PartOfCluster { // Change the replication requirements so we don't get log spam about ranges // not being replicated enough. cfg := config.DefaultZoneConfig() cfg.NumReplicas = 1 fn := config.TestingSetDefaultZoneConfig(cfg) params.Stopper.AddCloser(stop.CloserFn(fn)) } // Needs to be called before NewServer to ensure resolvers are initialized. if err := ts.Cfg.InitNode(); err != nil { return err } var err error ts.Server, err = NewServer(*ts.Cfg, params.Stopper) if err != nil { return err } // Our context must be shared with our server. ts.Cfg = &ts.Server.cfg if err := ts.Server.Start(context.Background()); err != nil { return err } // If enabled, wait for initial splits to complete before returning control. // If initial splits do not complete, the server is stopped before // returning. if stk, ok := ts.cfg.TestingKnobs.Store.(*storage.StoreTestingKnobs); ok && stk.DisableSplitQueue { return nil } if err := ts.WaitForInitialSplits(); err != nil { ts.Stop() return err } return nil }
// StartTestCluster starts up a TestCluster made up of `nodes` in-memory testing // servers. // The cluster should be stopped using cluster.Stop(). func StartTestCluster(t testing.TB, nodes int, args base.TestClusterArgs) *TestCluster { if nodes < 1 { t.Fatal("invalid cluster size: ", nodes) } if args.ServerArgs.JoinAddr != "" { t.Fatal("can't specify a join addr when starting a cluster") } if args.ServerArgs.Stopper != nil { t.Fatal("can't set individual server stoppers when starting a cluster") } storeKnobs := args.ServerArgs.Knobs.Store if storeKnobs != nil && (storeKnobs.(*storage.StoreTestingKnobs).DisableSplitQueue || storeKnobs.(*storage.StoreTestingKnobs).DisableReplicateQueue) { t.Fatal("can't disable an individual server's queues when starting a cluster; " + "the cluster controls replication") } switch args.ReplicationMode { case base.ReplicationAuto: case base.ReplicationManual: if args.ServerArgs.Knobs.Store == nil { args.ServerArgs.Knobs.Store = &storage.StoreTestingKnobs{} } storeKnobs := args.ServerArgs.Knobs.Store.(*storage.StoreTestingKnobs) storeKnobs.DisableSplitQueue = true storeKnobs.DisableReplicateQueue = true default: t.Fatal("unexpected replication mode") } tc := &TestCluster{} tc.stopper = stop.NewStopper() for i := 0; i < nodes; i++ { var serverArgs base.TestServerArgs if perNodeServerArgs, ok := args.ServerArgsPerNode[i]; ok { serverArgs = perNodeServerArgs } else { serverArgs = args.ServerArgs } serverArgs.PartOfCluster = true serverArgs.Stopper = stop.NewStopper() if i > 0 { serverArgs.JoinAddr = tc.Servers[0].ServingAddr() } s, conn, _ := serverutils.StartServer(t, serverArgs) tc.Servers = append(tc.Servers, s.(*server.TestServer)) tc.Conns = append(tc.Conns, conn) tc.mu.Lock() tc.mu.serverStoppers = append(tc.mu.serverStoppers, serverArgs.Stopper) tc.mu.Unlock() } // Create a closer that will stop the individual server stoppers when the // cluster stopper is stopped. tc.stopper.AddCloser(stop.CloserFn(tc.stopServers)) tc.waitForStores(t) // TODO(peter): We should replace the hardcoded 3 with the default ZoneConfig // replication factor. if args.ReplicationMode == base.ReplicationAuto && nodes >= 3 { if err := tc.waitForFullReplication(); err != nil { t.Fatal(err) } } return tc }