// Copyright 2015 CoreOS, Inc. // // Licensed 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 etcdserver import ( "encoding/json" "fmt" "net/http" "path" "reflect" "strconv" "testing" "time" "github.com/coreos/etcd/Godeps/_workspace/src/golang.org/x/net/context" pb "github.com/coreos/etcd/etcdserver/etcdserverpb" "github.com/coreos/etcd/pkg/idutil" "github.com/coreos/etcd/pkg/pbutil" "github.com/coreos/etcd/pkg/testutil" "github.com/coreos/etcd/pkg/types" "github.com/coreos/etcd/raft" "github.com/coreos/etcd/raft/raftpb" "github.com/coreos/etcd/store" ) // TestDoLocalAction tests requests which do not need to go through raft to be applied, // and are served through local data. func TestDoLocalAction(t *testing.T) { tests := []struct { req pb.Request wresp Response werr error wactions []testutil.Action }{ { pb.Request{Method: "GET", ID: 1, Wait: true}, Response{Watcher: &nopWatcher{}}, nil, []testutil.Action{{Name: "Watch"}}, }, { pb.Request{Method: "GET", ID: 1}, Response{Event: &store.Event{}}, nil, []testutil.Action{ { Name: "Get", Params: []interface{}{"", false, false}, }, }, }, { pb.Request{Method: "HEAD", ID: 1}, Response{Event: &store.Event{}}, nil, []testutil.Action{ { Name: "Get", Params: []interface{}{"", false, false}, }, }, }, { pb.Request{Method: "BADMETHOD", ID: 1}, Response{}, ErrUnknownMethod, []testutil.Action{}, }, } for i, tt := range tests { st := &storeRecorder{} srv := &EtcdServer{ store: st, reqIDGen: idutil.NewGenerator(0, time.Time{}), } resp, err := srv.Do(context.TODO(), tt.req) if err != tt.werr { t.Fatalf("#%d: err = %+v, want %+v", i, err, tt.werr) } if !reflect.DeepEqual(resp, tt.wresp) { t.Errorf("#%d: resp = %+v, want %+v", i, resp, tt.wresp) } gaction := st.Action() if !reflect.DeepEqual(gaction, tt.wactions) { t.Errorf("#%d: action = %+v, want %+v", i, gaction, tt.wactions) } } } // TestDoBadLocalAction tests server requests which do not need to go through consensus, // and return errors when they fetch from local data. func TestDoBadLocalAction(t *testing.T) { storeErr := fmt.Errorf("bah") tests := []struct { req pb.Request wactions []testutil.Action }{ { pb.Request{Method: "GET", ID: 1, Wait: true}, []testutil.Action{{Name: "Watch"}}, }, { pb.Request{Method: "GET", ID: 1}, []testutil.Action{ { Name: "Get", Params: []interface{}{"", false, false}, }, }, }, { pb.Request{Method: "HEAD", ID: 1}, []testutil.Action{ { Name: "Get", Params: []interface{}{"", false, false}, }, }, }, } for i, tt := range tests { st := &errStoreRecorder{err: storeErr} srv := &EtcdServer{ store: st, reqIDGen: idutil.NewGenerator(0, time.Time{}), } resp, err := srv.Do(context.Background(), tt.req) if err != storeErr { t.Fatalf("#%d: err = %+v, want %+v", i, err, storeErr) } if !reflect.DeepEqual(resp, Response{}) { t.Errorf("#%d: resp = %+v, want %+v", i, resp, Response{}) } gaction := st.Action() if !reflect.DeepEqual(gaction, tt.wactions) { t.Errorf("#%d: action = %+v, want %+v", i, gaction, tt.wactions) } } } func TestApplyRequest(t *testing.T) { tests := []struct { req pb.Request wresp Response wactions []testutil.Action }{ // POST ==> Create { pb.Request{Method: "POST", ID: 1}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "Create", Params: []interface{}{"", false, "", true, time.Time{}}, }, }, }, // POST ==> Create, with expiration { pb.Request{Method: "POST", ID: 1, Expiration: 1337}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "Create", Params: []interface{}{"", false, "", true, time.Unix(0, 1337)}, }, }, }, // POST ==> Create, with dir { pb.Request{Method: "POST", ID: 1, Dir: true}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "Create", Params: []interface{}{"", true, "", true, time.Time{}}, }, }, }, // PUT ==> Set { pb.Request{Method: "PUT", ID: 1}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "Set", Params: []interface{}{"", false, "", time.Time{}}, }, }, }, // PUT ==> Set, with dir { pb.Request{Method: "PUT", ID: 1, Dir: true}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "Set", Params: []interface{}{"", true, "", time.Time{}}, }, }, }, // PUT with PrevExist=true ==> Update { pb.Request{Method: "PUT", ID: 1, PrevExist: pbutil.Boolp(true)}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "Update", Params: []interface{}{"", "", time.Time{}}, }, }, }, // PUT with PrevExist=false ==> Create { pb.Request{Method: "PUT", ID: 1, PrevExist: pbutil.Boolp(false)}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "Create", Params: []interface{}{"", false, "", false, time.Time{}}, }, }, }, // PUT with PrevExist=true *and* PrevIndex set ==> CompareAndSwap { pb.Request{Method: "PUT", ID: 1, PrevExist: pbutil.Boolp(true), PrevIndex: 1}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "CompareAndSwap", Params: []interface{}{"", "", uint64(1), "", time.Time{}}, }, }, }, // PUT with PrevExist=false *and* PrevIndex set ==> Create { pb.Request{Method: "PUT", ID: 1, PrevExist: pbutil.Boolp(false), PrevIndex: 1}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "Create", Params: []interface{}{"", false, "", false, time.Time{}}, }, }, }, // PUT with PrevIndex set ==> CompareAndSwap { pb.Request{Method: "PUT", ID: 1, PrevIndex: 1}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "CompareAndSwap", Params: []interface{}{"", "", uint64(1), "", time.Time{}}, }, }, }, // PUT with PrevValue set ==> CompareAndSwap { pb.Request{Method: "PUT", ID: 1, PrevValue: "bar"}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "CompareAndSwap", Params: []interface{}{"", "bar", uint64(0), "", time.Time{}}, }, }, }, // PUT with PrevIndex and PrevValue set ==> CompareAndSwap { pb.Request{Method: "PUT", ID: 1, PrevIndex: 1, PrevValue: "bar"}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "CompareAndSwap", Params: []interface{}{"", "bar", uint64(1), "", time.Time{}}, }, }, }, // DELETE ==> Delete { pb.Request{Method: "DELETE", ID: 1}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "Delete", Params: []interface{}{"", false, false}, }, }, }, // DELETE with PrevIndex set ==> CompareAndDelete { pb.Request{Method: "DELETE", ID: 1, PrevIndex: 1}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "CompareAndDelete", Params: []interface{}{"", "", uint64(1)}, }, }, }, // DELETE with PrevValue set ==> CompareAndDelete { pb.Request{Method: "DELETE", ID: 1, PrevValue: "bar"}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "CompareAndDelete", Params: []interface{}{"", "bar", uint64(0)}, }, }, }, // DELETE with PrevIndex *and* PrevValue set ==> CompareAndDelete { pb.Request{Method: "DELETE", ID: 1, PrevIndex: 5, PrevValue: "bar"}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "CompareAndDelete", Params: []interface{}{"", "bar", uint64(5)}, }, }, }, // QGET ==> Get { pb.Request{Method: "QGET", ID: 1}, Response{Event: &store.Event{}}, []testutil.Action{ { Name: "Get", Params: []interface{}{"", false, false}, }, }, }, // SYNC ==> DeleteExpiredKeys { pb.Request{Method: "SYNC", ID: 1}, Response{}, []testutil.Action{ { Name: "DeleteExpiredKeys", Params: []interface{}{time.Unix(0, 0)}, }, }, }, { pb.Request{Method: "SYNC", ID: 1, Time: 12345}, Response{}, []testutil.Action{ { Name: "DeleteExpiredKeys", Params: []interface{}{time.Unix(0, 12345)}, }, }, }, // Unknown method - error { pb.Request{Method: "BADMETHOD", ID: 1}, Response{err: ErrUnknownMethod}, []testutil.Action{}, }, } for i, tt := range tests { st := &storeRecorder{} srv := &EtcdServer{store: st} resp := srv.applyRequest(tt.req) if !reflect.DeepEqual(resp, tt.wresp) { t.Errorf("#%d: resp = %+v, want %+v", i, resp, tt.wresp) } gaction := st.Action() if !reflect.DeepEqual(gaction, tt.wactions) { t.Errorf("#%d: action = %#v, want %#v", i, gaction, tt.wactions) } } } func TestApplyRequestOnAdminMemberAttributes(t *testing.T) { cl := newTestCluster([]*Member{{ID: 1}}) srv := &EtcdServer{ store: &storeRecorder{}, cluster: cl, } req := pb.Request{ Method: "PUT", ID: 1, Path: path.Join(storeMembersPrefix, strconv.FormatUint(1, 16), attributesSuffix), Val: `{"Name":"abc","ClientURLs":["http://127.0.0.1:2379"]}`, } srv.applyRequest(req) w := Attributes{Name: "abc", ClientURLs: []string{"http://127.0.0.1:2379"}} if g := cl.Member(1).Attributes; !reflect.DeepEqual(g, w) { t.Errorf("attributes = %v, want %v", g, w) } } func TestApplyConfChangeError(t *testing.T) { cl := newCluster("") cl.SetStore(store.New()) for i := 1; i <= 4; i++ { cl.AddMember(&Member{ID: types.ID(i)}) } cl.RemoveMember(4) tests := []struct { cc raftpb.ConfChange werr error }{ { raftpb.ConfChange{ Type: raftpb.ConfChangeAddNode, NodeID: 4, }, ErrIDRemoved, }, { raftpb.ConfChange{ Type: raftpb.ConfChangeUpdateNode, NodeID: 4, }, ErrIDRemoved, }, { raftpb.ConfChange{ Type: raftpb.ConfChangeAddNode, NodeID: 1, }, ErrIDExists, }, { raftpb.ConfChange{ Type: raftpb.ConfChangeRemoveNode, NodeID: 5, }, ErrIDNotFound, }, } for i, tt := range tests { n := &nodeRecorder{} srv := &EtcdServer{ r: raftNode{Node: n}, cluster: cl, cfg: &ServerConfig{}, } _, err := srv.applyConfChange(tt.cc, nil) if err != tt.werr { t.Errorf("#%d: applyConfChange error = %v, want %v", i, err, tt.werr) } cc := raftpb.ConfChange{Type: tt.cc.Type, NodeID: raft.None} w := []testutil.Action{ { Name: "ApplyConfChange", Params: []interface{}{cc}, }, } if g := n.Action(); !reflect.DeepEqual(g, w) { t.Errorf("#%d: action = %+v, want %+v", i, g, w) } } } func TestApplyConfChangeShouldStop(t *testing.T) { cl := newCluster("") cl.SetStore(store.New()) for i := 1; i <= 3; i++ { cl.AddMember(&Member{ID: types.ID(i)}) } srv := &EtcdServer{ id: 1, r: raftNode{ Node: &nodeRecorder{}, transport: &nopTransporter{}, }, cluster: cl, } cc := raftpb.ConfChange{ Type: raftpb.ConfChangeRemoveNode, NodeID: 2, } // remove non-local member shouldStop, err := srv.applyConfChange(cc, &raftpb.ConfState{}) if err != nil { t.Fatalf("unexpected error %v", err) } if shouldStop != false { t.Errorf("shouldStop = %t, want %t", shouldStop, false) } // remove local member cc.NodeID = 1 shouldStop, err = srv.applyConfChange(cc, &raftpb.ConfState{}) if err != nil { t.Fatalf("unexpected error %v", err) } if shouldStop != true { t.Errorf("shouldStop = %t, want %t", shouldStop, true) } } func TestDoProposal(t *testing.T) { tests := []pb.Request{ {Method: "POST", ID: 1}, {Method: "PUT", ID: 1}, {Method: "DELETE", ID: 1}, {Method: "GET", ID: 1, Quorum: true}, } for i, tt := range tests { st := &storeRecorder{} srv := &EtcdServer{ cfg: &ServerConfig{TickMs: 1}, r: raftNode{ Node: newNodeCommitter(), storage: &storageRecorder{}, raftStorage: raft.NewMemoryStorage(), transport: &nopTransporter{}, }, store: st, reqIDGen: idutil.NewGenerator(0, time.Time{}), } srv.start() resp, err := srv.Do(context.Background(), tt) srv.Stop() action := st.Action() if len(action) != 1 { t.Errorf("#%d: len(action) = %d, want 1", i, len(action)) } if err != nil { t.Fatalf("#%d: err = %v, want nil", i, err) } wresp := Response{Event: &store.Event{}} if !reflect.DeepEqual(resp, wresp) { t.Errorf("#%d: resp = %v, want %v", i, resp, wresp) } } } func TestDoProposalCancelled(t *testing.T) { wait := &waitRecorder{} srv := &EtcdServer{ cfg: &ServerConfig{TickMs: 1}, r: raftNode{Node: &nodeRecorder{}}, w: wait, reqIDGen: idutil.NewGenerator(0, time.Time{}), } ctx, cancel := context.WithCancel(context.Background()) cancel() _, err := srv.Do(ctx, pb.Request{Method: "PUT"}) if err != ErrCanceled { t.Fatalf("err = %v, want %v", err, ErrCanceled) } w := []testutil.Action{{Name: "Register"}, {Name: "Trigger"}} if !reflect.DeepEqual(wait.action, w) { t.Errorf("wait.action = %+v, want %+v", wait.action, w) } } func TestDoProposalTimeout(t *testing.T) { srv := &EtcdServer{ cfg: &ServerConfig{TickMs: 1}, r: raftNode{Node: &nodeRecorder{}}, w: &waitRecorder{}, reqIDGen: idutil.NewGenerator(0, time.Time{}), } ctx, _ := context.WithTimeout(context.Background(), 0) _, err := srv.Do(ctx, pb.Request{Method: "PUT"}) if err != ErrTimeout { t.Fatalf("err = %v, want %v", err, ErrTimeout) } } func TestDoProposalStopped(t *testing.T) { srv := &EtcdServer{ cfg: &ServerConfig{TickMs: 1}, r: raftNode{Node: &nodeRecorder{}}, w: &waitRecorder{}, reqIDGen: idutil.NewGenerator(0, time.Time{}), } srv.done = make(chan struct{}) close(srv.done) _, err := srv.Do(context.Background(), pb.Request{Method: "PUT", ID: 1}) if err != ErrStopped { t.Errorf("err = %v, want %v", err, ErrStopped) } } // TestSync tests sync 1. is nonblocking 2. proposes SYNC request. func TestSync(t *testing.T) { n := &nodeRecorder{} srv := &EtcdServer{ r: raftNode{Node: n}, reqIDGen: idutil.NewGenerator(0, time.Time{}), } // check that sync is non-blocking timer := time.AfterFunc(time.Second, func() { t.Fatalf("sync should be non-blocking but did not return after 1s!") }) srv.sync(10 * time.Second) timer.Stop() testutil.WaitSchedule() action := n.Action() if len(action) != 1 { t.Fatalf("len(action) = %d, want 1", len(action)) } if action[0].Name != "Propose" { t.Fatalf("action = %s, want Propose", action[0].Name) } data := action[0].Params[0].([]byte) var r pb.Request if err := r.Unmarshal(data); err != nil { t.Fatalf("unmarshal request error: %v", err) } if r.Method != "SYNC" { t.Errorf("method = %s, want SYNC", r.Method) } } // TestSyncTimeout tests the case that sync 1. is non-blocking 2. cancel request // after timeout func TestSyncTimeout(t *testing.T) { n := &nodeProposalBlockerRecorder{} srv := &EtcdServer{ r: raftNode{Node: n}, reqIDGen: idutil.NewGenerator(0, time.Time{}), } // check that sync is non-blocking timer := time.AfterFunc(time.Second, func() { t.Fatalf("sync should be non-blocking but did not return after 1s!") }) srv.sync(0) timer.Stop() // give time for goroutine in sync to cancel testutil.WaitSchedule() w := []testutil.Action{{Name: "Propose blocked"}} if g := n.Action(); !reflect.DeepEqual(g, w) { t.Errorf("action = %v, want %v", g, w) } } // TODO: TestNoSyncWhenNoLeader // TestSyncTrigger tests that the server proposes a SYNC request when its sync timer ticks func TestSyncTrigger(t *testing.T) { n := newReadyNode() st := make(chan time.Time, 1) srv := &EtcdServer{ cfg: &ServerConfig{TickMs: 1}, r: raftNode{ Node: n, raftStorage: raft.NewMemoryStorage(), transport: &nopTransporter{}, storage: &storageRecorder{}, }, store: &storeRecorder{}, SyncTicker: st, reqIDGen: idutil.NewGenerator(0, time.Time{}), } srv.start() defer srv.Stop() // trigger the server to become a leader and accept sync requests n.readyc <- raft.Ready{ SoftState: &raft.SoftState{ RaftState: raft.StateLeader, }, } // trigger a sync request st <- time.Time{} testutil.WaitSchedule() action := n.Action() if len(action) != 1 { t.Fatalf("len(action) = %d, want 1", len(action)) } if action[0].Name != "Propose" { t.Fatalf("action = %s, want Propose", action[0].Name) } data := action[0].Params[0].([]byte) var req pb.Request if err := req.Unmarshal(data); err != nil { t.Fatalf("error unmarshalling data: %v", err) } if req.Method != "SYNC" { t.Fatalf("unexpected proposed request: %#v", req.Method) } } // snapshot should snapshot the store and cut the persistent func TestSnapshot(t *testing.T) { s := raft.NewMemoryStorage() s.Append([]raftpb.Entry{{Index: 1}}) st := &storeRecorder{} p := &storageRecorder{} srv := &EtcdServer{ r: raftNode{ Node: &nodeRecorder{}, raftStorage: s, storage: p, }, store: st, } srv.snapshot(1, raftpb.ConfState{Nodes: []uint64{1}}) testutil.WaitSchedule() gaction := st.Action() if len(gaction) != 2 { t.Fatalf("len(action) = %d, want 1", len(gaction)) } if !reflect.DeepEqual(gaction[0], testutil.Action{Name: "Clone"}) { t.Errorf("action = %s, want Clone", gaction[0]) } if !reflect.DeepEqual(gaction[1], testutil.Action{Name: "SaveNoCopy"}) { t.Errorf("action = %s, want SaveNoCopy", gaction[1]) } gaction = p.Action() if len(gaction) != 1 { t.Fatalf("len(action) = %d, want 1", len(gaction)) } if !reflect.DeepEqual(gaction[0], testutil.Action{Name: "SaveSnap"}) { t.Errorf("action = %s, want SaveSnap", gaction[0]) } } // Applied > SnapCount should trigger a SaveSnap event func TestTriggerSnap(t *testing.T) { snapc := 10 st := &storeRecorder{} p := &storageRecorder{} srv := &EtcdServer{ cfg: &ServerConfig{TickMs: 1}, snapCount: uint64(snapc), r: raftNode{ Node: newNodeCommitter(), raftStorage: raft.NewMemoryStorage(), storage: p, transport: &nopTransporter{}, }, store: st, reqIDGen: idutil.NewGenerator(0, time.Time{}), } srv.start() for i := 0; i < snapc+1; i++ { srv.Do(context.Background(), pb.Request{Method: "PUT"}) } srv.Stop() // wait for snapshot goroutine to finish testutil.WaitSchedule() gaction := p.Action() // each operation is recorded as a Save // (SnapCount+1) * Puts + SaveSnap = (SnapCount+1) * Save + SaveSnap wcnt := 2 + snapc if len(gaction) != wcnt { t.Fatalf("len(action) = %d, want %d", len(gaction), wcnt) } if !reflect.DeepEqual(gaction[wcnt-1], testutil.Action{Name: "SaveSnap"}) { t.Errorf("action = %s, want SaveSnap", gaction[wcnt-1]) } } // TestRecvSnapshot tests when it receives a snapshot from raft leader, // it should trigger storage.SaveSnap and also store.Recover. func TestRecvSnapshot(t *testing.T) { n := newReadyNode() st := &storeRecorder{} p := &storageRecorder{} cl := newCluster("abc") cl.SetStore(store.New()) s := &EtcdServer{ r: raftNode{ Node: n, transport: &nopTransporter{}, storage: p, raftStorage: raft.NewMemoryStorage(), }, store: st, cluster: cl, } s.start() n.readyc <- raft.Ready{Snapshot: raftpb.Snapshot{Metadata: raftpb.SnapshotMetadata{Index: 1}}} // make goroutines move forward to receive snapshot testutil.WaitSchedule() s.Stop() wactions := []testutil.Action{{Name: "Recovery"}} if g := st.Action(); !reflect.DeepEqual(g, wactions) { t.Errorf("store action = %v, want %v", g, wactions) } wactions = []testutil.Action{{Name: "SaveSnap"}, {Name: "Save"}} if g := p.Action(); !reflect.DeepEqual(g, wactions) { t.Errorf("storage action = %v, want %v", g, wactions) } } // TestApplySnapshotAndCommittedEntries tests that server applies snapshot // first and then committed entries. func TestApplySnapshotAndCommittedEntries(t *testing.T) { n := newReadyNode() st := &storeRecorder{} cl := newCluster("abc") cl.SetStore(store.New()) storage := raft.NewMemoryStorage() s := &EtcdServer{ r: raftNode{ Node: n, storage: &storageRecorder{}, raftStorage: storage, transport: &nopTransporter{}, }, store: st, cluster: cl, } s.start() req := &pb.Request{Method: "QGET"} n.readyc <- raft.Ready{ Snapshot: raftpb.Snapshot{Metadata: raftpb.SnapshotMetadata{Index: 1}}, CommittedEntries: []raftpb.Entry{ {Index: 2, Data: pbutil.MustMarshal(req)}, }, } // make goroutines move forward to receive snapshot testutil.WaitSchedule() s.Stop() actions := st.Action() if len(actions) != 2 { t.Fatalf("len(action) = %d, want 2", len(actions)) } if actions[0].Name != "Recovery" { t.Errorf("actions[0] = %s, want %s", actions[0].Name, "Recovery") } if actions[1].Name != "Get" { t.Errorf("actions[1] = %s, want %s", actions[1].Name, "Get") } } // TestAddMember tests AddMember can propose and perform node addition. func TestAddMember(t *testing.T) { n := newNodeConfChangeCommitterRecorder() n.readyc <- raft.Ready{ SoftState: &raft.SoftState{RaftState: raft.StateLeader}, } cl := newTestCluster(nil) st := store.New() cl.SetStore(st) s := &EtcdServer{ r: raftNode{ Node: n, raftStorage: raft.NewMemoryStorage(), storage: &storageRecorder{}, transport: &nopTransporter{}, }, cfg: &ServerConfig{}, store: st, cluster: cl, reqIDGen: idutil.NewGenerator(0, time.Time{}), } s.start() m := Member{ID: 1234, RaftAttributes: RaftAttributes{PeerURLs: []string{"foo"}}} err := s.AddMember(context.TODO(), m) gaction := n.Action() s.Stop() if err != nil { t.Fatalf("AddMember error: %v", err) } wactions := []testutil.Action{{Name: "ProposeConfChange:ConfChangeAddNode"}, {Name: "ApplyConfChange:ConfChangeAddNode"}} if !reflect.DeepEqual(gaction, wactions) { t.Errorf("action = %v, want %v", gaction, wactions) } if cl.Member(1234) == nil { t.Errorf("member with id 1234 is not added") } } // TestRemoveMember tests RemoveMember can propose and perform node removal. func TestRemoveMember(t *testing.T) { n := newNodeConfChangeCommitterRecorder() n.readyc <- raft.Ready{ SoftState: &raft.SoftState{RaftState: raft.StateLeader}, } cl := newTestCluster(nil) st := store.New() cl.SetStore(store.New()) cl.AddMember(&Member{ID: 1234}) s := &EtcdServer{ r: raftNode{ Node: n, raftStorage: raft.NewMemoryStorage(), storage: &storageRecorder{}, transport: &nopTransporter{}, }, cfg: &ServerConfig{}, store: st, cluster: cl, reqIDGen: idutil.NewGenerator(0, time.Time{}), } s.start() err := s.RemoveMember(context.TODO(), 1234) gaction := n.Action() s.Stop() if err != nil { t.Fatalf("RemoveMember error: %v", err) } wactions := []testutil.Action{{Name: "ProposeConfChange:ConfChangeRemoveNode"}, {Name: "ApplyConfChange:ConfChangeRemoveNode"}} if !reflect.DeepEqual(gaction, wactions) { t.Errorf("action = %v, want %v", gaction, wactions) } if cl.Member(1234) != nil { t.Errorf("member with id 1234 is not removed") } } // TestUpdateMember tests RemoveMember can propose and perform node update. func TestUpdateMember(t *testing.T) { n := newNodeConfChangeCommitterRecorder() n.readyc <- raft.Ready{ SoftState: &raft.SoftState{RaftState: raft.StateLeader}, } cl := newTestCluster(nil) st := store.New() cl.SetStore(st) cl.AddMember(&Member{ID: 1234}) s := &EtcdServer{ r: raftNode{ Node: n, raftStorage: raft.NewMemoryStorage(), storage: &storageRecorder{}, transport: &nopTransporter{}, }, store: st, cluster: cl, reqIDGen: idutil.NewGenerator(0, time.Time{}), } s.start() wm := Member{ID: 1234, RaftAttributes: RaftAttributes{PeerURLs: []string{"http://127.0.0.1:1"}}} err := s.UpdateMember(context.TODO(), wm) gaction := n.Action() s.Stop() if err != nil { t.Fatalf("UpdateMember error: %v", err) } wactions := []testutil.Action{{Name: "ProposeConfChange:ConfChangeUpdateNode"}, {Name: "ApplyConfChange:ConfChangeUpdateNode"}} if !reflect.DeepEqual(gaction, wactions) { t.Errorf("action = %v, want %v", gaction, wactions) } if !reflect.DeepEqual(cl.Member(1234), &wm) { t.Errorf("member = %v, want %v", cl.Member(1234), &wm) } } // TODO: test server could stop itself when being removed func TestPublish(t *testing.T) { n := &nodeRecorder{} ch := make(chan interface{}, 1) // simulate that request has gone through consensus ch <- Response{} w := &waitWithResponse{ch: ch} srv := &EtcdServer{ cfg: &ServerConfig{TickMs: 1}, id: 1, r: raftNode{Node: n}, attributes: Attributes{Name: "node1", ClientURLs: []string{"http://a", "http://b"}}, cluster: &cluster{}, w: w, reqIDGen: idutil.NewGenerator(0, time.Time{}), } srv.publish(time.Hour) action := n.Action() if len(action) != 1 { t.Fatalf("len(action) = %d, want 1", len(action)) } if action[0].Name != "Propose" { t.Fatalf("action = %s, want Propose", action[0].Name) } data := action[0].Params[0].([]byte) var r pb.Request if err := r.Unmarshal(data); err != nil { t.Fatalf("unmarshal request error: %v", err) } if r.Method != "PUT" { t.Errorf("method = %s, want PUT", r.Method) } wm := Member{ID: 1, Attributes: Attributes{Name: "node1", ClientURLs: []string{"http://a", "http://b"}}} if wpath := path.Join(memberStoreKey(wm.ID), attributesSuffix); r.Path != wpath { t.Errorf("path = %s, want %s", r.Path, wpath) } var gattr Attributes if err := json.Unmarshal([]byte(r.Val), &gattr); err != nil { t.Fatalf("unmarshal val error: %v", err) } if !reflect.DeepEqual(gattr, wm.Attributes) { t.Errorf("member = %v, want %v", gattr, wm.Attributes) } } // TestPublishStopped tests that publish will be stopped if server is stopped. func TestPublishStopped(t *testing.T) { srv := &EtcdServer{ cfg: &ServerConfig{TickMs: 1}, r: raftNode{ Node: &nodeRecorder{}, transport: &nopTransporter{}, }, cluster: &cluster{}, w: &waitRecorder{}, done: make(chan struct{}), stop: make(chan struct{}), reqIDGen: idutil.NewGenerator(0, time.Time{}), } close(srv.done) srv.publish(time.Hour) } // TestPublishRetry tests that publish will keep retry until success. func TestPublishRetry(t *testing.T) { n := &nodeRecorder{} srv := &EtcdServer{ cfg: &ServerConfig{TickMs: 1}, r: raftNode{Node: n}, w: &waitRecorder{}, done: make(chan struct{}), reqIDGen: idutil.NewGenerator(0, time.Time{}), } time.AfterFunc(500*time.Microsecond, func() { close(srv.done) }) srv.publish(10 * time.Nanosecond) action := n.Action() // multiple Proposes if cnt := len(action); cnt < 2 { t.Errorf("len(action) = %d, want >= 2", cnt) } } func TestUpdateVersion(t *testing.T) { n := &nodeRecorder{} ch := make(chan interface{}, 1) // simulate that request has gone through consensus ch <- Response{} w := &waitWithResponse{ch: ch} srv := &EtcdServer{ id: 1, cfg: &ServerConfig{TickMs: 1}, r: raftNode{Node: n}, attributes: Attributes{Name: "node1", ClientURLs: []string{"http://node1.com"}}, cluster: &cluster{}, w: w, reqIDGen: idutil.NewGenerator(0, time.Time{}), } srv.updateClusterVersion("2.0.0") action := n.Action() if len(action) != 1 { t.Fatalf("len(action) = %d, want 1", len(action)) } if action[0].Name != "Propose" { t.Fatalf("action = %s, want Propose", action[0].Name) } data := action[0].Params[0].([]byte) var r pb.Request if err := r.Unmarshal(data); err != nil { t.Fatalf("unmarshal request error: %v", err) } if r.Method != "PUT" { t.Errorf("method = %s, want PUT", r.Method) } if wpath := path.Join(StoreClusterPrefix, "version"); r.Path != wpath { t.Errorf("path = %s, want %s", r.Path, wpath) } if r.Val != "2.0.0" { t.Errorf("val = %s, want %s", r.Val, "2.0.0") } } func TestStopNotify(t *testing.T) { s := &EtcdServer{ stop: make(chan struct{}), done: make(chan struct{}), } go func() { <-s.stop close(s.done) }() notifier := s.StopNotify() select { case <-notifier: t.Fatalf("received unexpected stop notification") default: } s.Stop() select { case <-notifier: default: t.Fatalf("cannot receive stop notification") } } func TestGetOtherPeerURLs(t *testing.T) { tests := []struct { membs []*Member self string wurls []string }{ { []*Member{ newTestMember(1, []string{"http://10.0.0.1"}, "a", nil), }, "a", []string{}, }, { []*Member{ newTestMember(1, []string{"http://10.0.0.1"}, "a", nil), newTestMember(2, []string{"http://10.0.0.2"}, "b", nil), newTestMember(3, []string{"http://10.0.0.3"}, "c", nil), }, "a", []string{"http://10.0.0.2", "http://10.0.0.3"}, }, { []*Member{ newTestMember(1, []string{"http://10.0.0.1"}, "a", nil), newTestMember(3, []string{"http://10.0.0.3"}, "c", nil), newTestMember(2, []string{"http://10.0.0.2"}, "b", nil), }, "a", []string{"http://10.0.0.2", "http://10.0.0.3"}, }, } for i, tt := range tests { cl := newClusterFromMembers("", types.ID(0), tt.membs) urls := getRemotePeerURLs(cl, tt.self) if !reflect.DeepEqual(urls, tt.wurls) { t.Errorf("#%d: urls = %+v, want %+v", i, urls, tt.wurls) } } } // storeRecorder records all the methods it receives. // storeRecorder DOES NOT work as a actual store. // It always returns invalid empty response and no error. type storeRecorder struct{ testutil.Recorder } func (s *storeRecorder) Version() int { return 0 } func (s *storeRecorder) Index() uint64 { return 0 } func (s *storeRecorder) Get(path string, recursive, sorted bool) (*store.Event, error) { s.Record(testutil.Action{ Name: "Get", Params: []interface{}{path, recursive, sorted}, }) return &store.Event{}, nil } func (s *storeRecorder) Set(path string, dir bool, val string, expr time.Time) (*store.Event, error) { s.Record(testutil.Action{ Name: "Set", Params: []interface{}{path, dir, val, expr}, }) return &store.Event{}, nil } func (s *storeRecorder) Update(path, val string, expr time.Time) (*store.Event, error) { s.Record(testutil.Action{ Name: "Update", Params: []interface{}{path, val, expr}, }) return &store.Event{}, nil } func (s *storeRecorder) Create(path string, dir bool, val string, uniq bool, exp time.Time) (*store.Event, error) { s.Record(testutil.Action{ Name: "Create", Params: []interface{}{path, dir, val, uniq, exp}, }) return &store.Event{}, nil } func (s *storeRecorder) CompareAndSwap(path, prevVal string, prevIdx uint64, val string, expr time.Time) (*store.Event, error) { s.Record(testutil.Action{ Name: "CompareAndSwap", Params: []interface{}{path, prevVal, prevIdx, val, expr}, }) return &store.Event{}, nil } func (s *storeRecorder) Delete(path string, dir, recursive bool) (*store.Event, error) { s.Record(testutil.Action{ Name: "Delete", Params: []interface{}{path, dir, recursive}, }) return &store.Event{}, nil } func (s *storeRecorder) CompareAndDelete(path, prevVal string, prevIdx uint64) (*store.Event, error) { s.Record(testutil.Action{ Name: "CompareAndDelete", Params: []interface{}{path, prevVal, prevIdx}, }) return &store.Event{}, nil } func (s *storeRecorder) Watch(_ string, _, _ bool, _ uint64) (store.Watcher, error) { s.Record(testutil.Action{Name: "Watch"}) return &nopWatcher{}, nil } func (s *storeRecorder) Save() ([]byte, error) { s.Record(testutil.Action{Name: "Save"}) return nil, nil } func (s *storeRecorder) Recovery(b []byte) error { s.Record(testutil.Action{Name: "Recovery"}) return nil } func (s *storeRecorder) SaveNoCopy() ([]byte, error) { s.Record(testutil.Action{Name: "SaveNoCopy"}) return nil, nil } func (s *storeRecorder) Clone() store.Store { s.Record(testutil.Action{Name: "Clone"}) return s } func (s *storeRecorder) JsonStats() []byte { return nil } func (s *storeRecorder) DeleteExpiredKeys(cutoff time.Time) { s.Record(testutil.Action{ Name: "DeleteExpiredKeys", Params: []interface{}{cutoff}, }) } type nopWatcher struct{} func (w *nopWatcher) EventChan() chan *store.Event { return nil } func (w *nopWatcher) StartIndex() uint64 { return 0 } func (w *nopWatcher) Remove() {} // errStoreRecorder is a storeRecorder, but returns the given error on // Get, Watch methods. type errStoreRecorder struct { storeRecorder err error } func (s *errStoreRecorder) Get(path string, recursive, sorted bool) (*store.Event, error) { s.storeRecorder.Get(path, recursive, sorted) return nil, s.err } func (s *errStoreRecorder) Watch(path string, recursive, sorted bool, index uint64) (store.Watcher, error) { s.storeRecorder.Watch(path, recursive, sorted, index) return nil, s.err } type waitRecorder struct { action []testutil.Action } func (w *waitRecorder) Register(id uint64) <-chan interface{} { w.action = append(w.action, testutil.Action{Name: "Register"}) return nil } func (w *waitRecorder) Trigger(id uint64, x interface{}) { w.action = append(w.action, testutil.Action{Name: "Trigger"}) } type waitWithResponse struct { ch <-chan interface{} } func (w *waitWithResponse) Register(id uint64) <-chan interface{} { return w.ch } func (w *waitWithResponse) Trigger(id uint64, x interface{}) {} type storageRecorder struct{ testutil.Recorder } func (p *storageRecorder) Save(st raftpb.HardState, ents []raftpb.Entry) error { p.Record(testutil.Action{Name: "Save"}) return nil } func (p *storageRecorder) SaveSnap(st raftpb.Snapshot) error { if !raft.IsEmptySnap(st) { p.Record(testutil.Action{Name: "SaveSnap"}) } return nil } func (p *storageRecorder) Close() error { return nil } type nodeRecorder struct{ testutil.Recorder } func (n *nodeRecorder) Tick() { n.Record(testutil.Action{Name: "Tick"}) } func (n *nodeRecorder) Campaign(ctx context.Context) error { n.Record(testutil.Action{Name: "Campaign"}) return nil } func (n *nodeRecorder) Propose(ctx context.Context, data []byte) error { n.Record(testutil.Action{Name: "Propose", Params: []interface{}{data}}) return nil } func (n *nodeRecorder) ProposeConfChange(ctx context.Context, conf raftpb.ConfChange) error { n.Record(testutil.Action{Name: "ProposeConfChange"}) return nil } func (n *nodeRecorder) Step(ctx context.Context, msg raftpb.Message) error { n.Record(testutil.Action{Name: "Step"}) return nil } func (n *nodeRecorder) Status() raft.Status { return raft.Status{} } func (n *nodeRecorder) Ready() <-chan raft.Ready { return nil } func (n *nodeRecorder) Advance() {} func (n *nodeRecorder) ApplyConfChange(conf raftpb.ConfChange) *raftpb.ConfState { n.Record(testutil.Action{Name: "ApplyConfChange", Params: []interface{}{conf}}) return &raftpb.ConfState{} } func (n *nodeRecorder) Stop() { n.Record(testutil.Action{Name: "Stop"}) } func (n *nodeRecorder) ReportUnreachable(id uint64) {} func (n *nodeRecorder) ReportSnapshot(id uint64, status raft.SnapshotStatus) {} func (n *nodeRecorder) Compact(index uint64, nodes []uint64, d []byte) { n.Record(testutil.Action{Name: "Compact"}) } type nodeProposalBlockerRecorder struct { nodeRecorder } func (n *nodeProposalBlockerRecorder) Propose(ctx context.Context, data []byte) error { <-ctx.Done() n.Record(testutil.Action{Name: "Propose blocked"}) return nil } type nodeConfChangeCommitterRecorder struct { nodeRecorder readyc chan raft.Ready index uint64 } func newNodeConfChangeCommitterRecorder() *nodeConfChangeCommitterRecorder { readyc := make(chan raft.Ready, 1) return &nodeConfChangeCommitterRecorder{readyc: readyc} } func (n *nodeConfChangeCommitterRecorder) ProposeConfChange(ctx context.Context, conf raftpb.ConfChange) error { data, err := conf.Marshal() if err != nil { return err } n.index++ n.Record(testutil.Action{Name: "ProposeConfChange:" + conf.Type.String()}) n.readyc <- raft.Ready{CommittedEntries: []raftpb.Entry{{Index: n.index, Type: raftpb.EntryConfChange, Data: data}}} return nil } func (n *nodeConfChangeCommitterRecorder) Ready() <-chan raft.Ready { return n.readyc } func (n *nodeConfChangeCommitterRecorder) ApplyConfChange(conf raftpb.ConfChange) *raftpb.ConfState { n.Record(testutil.Action{Name: "ApplyConfChange:" + conf.Type.String()}) return &raftpb.ConfState{} } // nodeCommitter commits proposed data immediately. type nodeCommitter struct { nodeRecorder readyc chan raft.Ready index uint64 } func newNodeCommitter() *nodeCommitter { readyc := make(chan raft.Ready, 1) return &nodeCommitter{readyc: readyc} } func (n *nodeCommitter) Propose(ctx context.Context, data []byte) error { n.index++ ents := []raftpb.Entry{{Index: n.index, Data: data}} n.readyc <- raft.Ready{ Entries: ents, CommittedEntries: ents, } return nil } func (n *nodeCommitter) Ready() <-chan raft.Ready { return n.readyc } type readyNode struct { nodeRecorder readyc chan raft.Ready } func newReadyNode() *readyNode { readyc := make(chan raft.Ready, 1) return &readyNode{readyc: readyc} } func (n *readyNode) Ready() <-chan raft.Ready { return n.readyc } type nopTransporter struct{} func (s *nopTransporter) Handler() http.Handler { return nil } func (s *nopTransporter) Send(m []raftpb.Message) {} func (s *nopTransporter) AddRemote(id types.ID, us []string) {} func (s *nopTransporter) AddPeer(id types.ID, us []string) {} func (s *nopTransporter) RemovePeer(id types.ID) {} func (s *nopTransporter) RemoveAllPeers() {} func (s *nopTransporter) UpdatePeer(id types.ID, us []string) {} func (s *nopTransporter) ActiveSince(id types.ID) time.Time { return time.Time{} } func (s *nopTransporter) Stop() {} func (s *nopTransporter) Pause() {} func (s *nopTransporter) Resume() {}