func TestSync(t *testing.T) { if testing.Short() { t.Skip() } cluster := createCluster() member1 := createMember(6104) repServer1, err := New(&Config{ Registrator: cluster.Registrator(member1), Membership: cluster.Membership()}) assert.NotNil(t, repServer1) assert.NoError(t, err) defer repServer1.Stop() <-repServer1.Sync(1) member2 := createMember(6204) repServer2, err := New(&Config{ Registrator: cluster.Registrator(member2), Membership: cluster.Membership()}) assert.NotNil(t, repServer2) assert.NoError(t, err) defer repServer2.Stop() timeOut := time.Now().Add(time.Duration(15) * time.Second) for timeOut.After(time.Now()) { if len(cluster.Membership().Members()) >= 1 { break } time.Sleep(time.Duration(1000) * time.Millisecond) } nMbrs := len(cluster.Membership().Members()) assert.True(t, nMbrs >= 1, "Number of members in the cluster (%d) is not as expected (>=1).", nMbrs) data := []byte("Sync Message") outMsg := &outMessage{Data: data} buff, _ := json.Marshal(outMsg) go func() { ch := <-repServer1.SyncRequest() ch <- buff close(ch) }() count := 0 for in1 := range repServer2.Sync(time.Duration(5) * time.Second) { assert.EqualValues(t, data, in1.Data) count++ } assert.Equal(t, 1, count) }
func TestSendMsg(t *testing.T) { if testing.Short() { t.Skip() } cluster := createCluster() member1 := createMember(6103) repServer1, err := New(&Config{ Registrator: cluster.Registrator(member1), Membership: cluster.Membership()}) assert.NotNil(t, repServer1) assert.NoError(t, err) defer repServer1.Stop() <-repServer1.Sync(1) member2 := createMember(6203) repServer2, err := New(&Config{ Registrator: cluster.Registrator(member2), Membership: cluster.Membership()}) assert.NotNil(t, repServer2) assert.NoError(t, err) defer repServer2.Stop() <-repServer2.Sync(1) replicator2, err := repServer2.GetReplicator(auth.NamespaceFrom("ns1")) assert.NotNil(t, replicator2) assert.NoError(t, err) timeOut := time.Now().Add(time.Duration(15) * time.Second) for timeOut.After(time.Now()) { if len(cluster.Membership().Members()) >= 1 { break } time.Sleep(time.Duration(1000) * time.Millisecond) } nMbrs := len(cluster.Membership().Members()) assert.True(t, nMbrs >= 1, "Number of members in the cluster (%d) is not as expected (>=1).", nMbrs) time.Sleep(time.Duration(500) * time.Millisecond) data := "Hello TestSendMsg" assert.NoError(t, replicator2.Send(member1.ID(), []byte(data))) select { case in1 := <-repServer1.Notification(): assert.EqualValues(t, data, in1.Data) case <-time.Tick(time.Duration(10) * time.Second): assert.Fail(t, "Fail to receive unicast send message due to timeout") } }
func TestPortInUse(t *testing.T) { cluster := createCluster() member1 := createMember(6101) repServer1, err := New(&Config{ Registrator: cluster.Registrator(member1), Membership: cluster.Membership()}) assert.NotNil(t, repServer1) assert.NoError(t, err) defer repServer1.Stop() member2 := createMember(6101) repServer2, err := New(&Config{ Registrator: cluster.Registrator(member2), Membership: cluster.Membership()}) assert.Nil(t, repServer2) assert.Error(t, err) }
func TestStopGracefully(t *testing.T) { if testing.Short() { t.Skip() } cluster := createCluster() member1 := createMember(6105) repServer1, err := New(&Config{ Registrator: cluster.Registrator(member1), Membership: cluster.Membership()}) assert.NotNil(t, repServer1) assert.NoError(t, err) <-repServer1.Sync(1) member2 := createMember(6205) repServer2, err := New(&Config{ Registrator: cluster.Registrator(member2), Membership: cluster.Membership()}) assert.NotNil(t, repServer2) assert.NoError(t, err) <-repServer2.Sync(1) replicator2, err := repServer2.GetReplicator(auth.NamespaceFrom("ns1")) assert.NotNil(t, replicator2) assert.NoError(t, err) timeOut := time.Now().Add(time.Duration(15) * time.Second) for timeOut.After(time.Now()) { if len(cluster.Membership().Members()) >= 1 { break } time.Sleep(time.Duration(1000) * time.Millisecond) } nMbrs := len(cluster.Membership().Members()) assert.True(t, nMbrs >= 1, "Number of members in the cluster (%d) is not as expected (>=1).", nMbrs) time.Sleep(time.Duration(500) * time.Millisecond) repServer1.Stop() repServer2.Stop() timeOut = time.Now().Add(time.Duration(15) * time.Second) for timeOut.After(time.Now()) { if len(cluster.Membership().Members()) == 0 { break } time.Sleep(time.Duration(1000) * time.Millisecond) } nMbrs = len(cluster.Membership().Members()) assert.True(t, nMbrs == 0, "Number of members in the cluster (%d) is not as expected (==0).", nMbrs) }
func TestSameReplicatorRequest(t *testing.T) { var err error var repServer Replication var replicator Replicator cluster := createCluster() member := createMember(6100) repServer, err = New(&Config{ Registrator: cluster.Registrator(member), Membership: cluster.Membership()}) assert.NotNil(t, repServer) assert.NoError(t, err) defer repServer.Stop() replicator, err = repServer.GetReplicator(auth.NamespaceFrom("ns1")) assert.NotNil(t, replicator) assert.NoError(t, err) replicator, err = repServer.GetReplicator(auth.NamespaceFrom("ns1")) assert.NotNil(t, replicator) assert.Error(t, err) }
func TestBroadcastMsg(t *testing.T) { if testing.Short() { t.Skip() } cluster := createCluster() member1 := createMember(6102) repServer1, err := New(&Config{ Registrator: cluster.Registrator(member1), Membership: cluster.Membership()}) assert.NotNil(t, repServer1) assert.NoError(t, err) defer repServer1.Stop() <-repServer1.Sync(1) member2 := createMember(6202) repServer2, err := New(&Config{ Registrator: cluster.Registrator(member2), Membership: cluster.Membership()}) assert.NotNil(t, repServer2) assert.NoError(t, err) defer repServer2.Stop() <-repServer2.Sync(1) member3 := createMember(6302) repServer3, err := New(&Config{ Registrator: cluster.Registrator(member3), Membership: cluster.Membership()}) assert.NotNil(t, repServer3) assert.NoError(t, err) defer repServer3.Stop() <-repServer3.Sync(1) replicator1, err := repServer1.GetReplicator(auth.NamespaceFrom("ns1")) assert.NotNil(t, replicator1) assert.NoError(t, err) timeOut := time.Now().Add(time.Duration(15) * time.Second) for timeOut.After(time.Now()) { if len(cluster.Membership().Members()) >= 2 { break } time.Sleep(time.Duration(1000) * time.Millisecond) } nMbrs := len(cluster.Membership().Members()) assert.True(t, nMbrs >= 2, "Number of members in the cluster (%d) is not as expected (>=2).", nMbrs) time.Sleep(time.Duration(500) * time.Millisecond) data := "Hello TestBroadcatSingleMsg" assert.NoError(t, replicator1.Broadcast([]byte(data))) for count2, count3 := 0, 0; count2 < 1 || count3 < 1; { select { case in2 := <-repServer2.Notification(): assert.EqualValues(t, data, in2.Data) count2++ case in3 := <-repServer3.Notification(): assert.EqualValues(t, data, in3.Data) count3++ case <-time.Tick(time.Duration(10) * time.Second): assert.Fail(t, fmt.Sprintf("Fail to receive broadcast message due to timeout <%d,%d>", count2, count3)) count2 = 2 count3 = 2 } } }
func TestGzippedReplication(t *testing.T) { if testing.Short() { t.Skip() } cluster := createCluster() member1 := createMember(6106) repServer1, _ := New(&Config{ Registrator: cluster.Registrator(member1), Membership: cluster.Membership()}) defer repServer1.Stop() <-repServer1.Sync(1) member2 := createMember(6206) repServer2, _ := New(&Config{ Registrator: cluster.Registrator(member2), Membership: cluster.Membership()}) defer repServer2.Stop() <-repServer2.Sync(1) var resp *http.Response replicator2, _ := repServer2.GetReplicator(auth.NamespaceFrom("ns1")) client := http.Client{Transport: &http.Transport{MaxIdleConnsPerHost: 1}} var requestData bytes.Buffer for i := 0; i < 100; i++ { requestData.Write([]byte("9999999999999999999999999999999999")) } // Iterate over both sync and replication HTTP endpoints for _, serviceType := range []string{syncContext, repContext} { // Iterate over both content-encoding options- gzip and no zip (identity) for _, encoding := range []string{"gzip", "identity"} { var dec decoder var unZipper *gzip.Reader var respBuff bytes.Buffer // prepare event that triggers a replication or a sync if serviceType == repContext { time.AfterFunc(time.Duration(2)*time.Second, func() { replicator2.Broadcast(requestData.Bytes()) }) } else { // grab the channel that was created for us // insert an entity inside it and close the channel to signal sync finish outMsg := &outMessage{Data: requestData.Bytes()} buff, _ := json.Marshal(outMsg) time.AfterFunc(time.Duration(2)*time.Second, func() { ch := <-repServer2.SyncRequest() ch <- buff close(ch) }) } url := fmt.Sprintf("http://%s:%d/%s/%s", network.GetPrivateIP(), 6206, version, serviceType) req, _ := http.NewRequest("GET", url, nil) req.Header.Set("Accept-Encoding", encoding) req.Header.Set(headerMemberID, "fake member id") resp, _ = client.Do(req) // wait 4 sec to read enough data, since ioutil.ReadAll blocks until EOF // and we use an indefinite connection in case of replication service endpoint if serviceType == repContext { time.AfterFunc(time.Duration(4)*time.Second, func() { resp.Body.Close() }) } responseData, _ := ioutil.ReadAll(resp.Body) respBuff.Write(responseData) // if we've sent a gzipped entity, decode it before comparing // but also ensure that the returned payload was compressed // by comparing the size of the payload to the size sent if encoding == "gzip" { assert.True(t, len(requestData.Bytes()) > len(responseData), "Seems like the gzip hasn't shrunk the payload size enough or at all") unZipper, _ = gzip.NewReader(&respBuff) dec.Reader = bufio.NewReader(unZipper) } else { dec.Reader = bufio.NewReader(&respBuff) } event, _ := dec.Decode() if encoding == "gzip" { unZipper.Close() } var entityFromServer outMessage json.Unmarshal([]byte(event.Data()), &entityFromServer) assert.Equal(t, string(requestData.Bytes()), string(entityFromServer.Data), "Didn't receive the same content we sent in the case where encoding is %s", encoding) } } }