Expect(response).To(HaveLen(2))
					Expect(response[0].ProcessGuid).To(Equal("process-guid-0"))
					Expect(response[1].ProcessGuid).To(Equal("process-guid-1"))
					expectedResponses := []receptor.ActualLRPResponse{
						serialization.ActualLRPToResponse(oldActualLRP1, false),
						serialization.ActualLRPToResponse(oldEvacuatingLRP2, true),
					}

					Expect(response).To(ConsistOf(expectedResponses))
				})
			})
		})

		Context("when the BBS returns no lrps", func() {
			BeforeEach(func() {
				fakeBBS.ActualLRPGroupsReturns([]*models.ActualLRPGroup{}, nil)
			})

			It("call the BBS to retrieve the actual LRPs", func() {
				handler.GetAll(responseRecorder, newTestRequest(""))
				Expect(fakeBBS.ActualLRPGroupsCallCount()).To(Equal(1))
			})

			It("responds with 200 Status OK", func() {
				handler.GetAll(responseRecorder, newTestRequest(""))
				Expect(responseRecorder.Code).To(Equal(http.StatusOK))
			})

			It("returns an empty list", func() {
				handler.GetAll(responseRecorder, newTestRequest(""))
				Expect(responseRecorder.Body.String()).To(Equal("[]"))
					ActualLRPKey:         models.NewActualLRPKey(processGuid, 1, "domain"),
					ActualLRPInstanceKey: models.NewActualLRPInstanceKey(instanceGuid, "cell-id"),
					ActualLRPNetInfo:     models.NewActualLRPNetInfo(lrpHost, models.NewPortMapping(1234, containerPort)),
					State:                models.ActualLRPStateRunning,
				},
			},
			{
				Instance: &models.ActualLRP{
					ActualLRPKey: models.NewActualLRPKey("", 1, ""),
					State:        models.ActualLRPStateUnclaimed,
				},
			},
		}

		bbsClient.DesiredLRPSchedulingInfosReturns([]*models.DesiredLRPSchedulingInfo{schedulingInfoResponse}, nil)
		bbsClient.ActualLRPGroupsReturns(actualResponses, nil)

		fakeMetricSender = fake_metrics_sender.NewFakeMetricSender()
		metrics.Initialize(fakeMetricSender, nil)
	})

	JustBeforeEach(func() {
		logger := lagertest.NewTestLogger("test")
		syncerRunner = syncer.NewSyncer(clock, syncInterval, natsClient, logger)

		shutdown = make(chan struct{})

		go func(clock *fakeclock.FakeClock, clockStep time.Duration, shutdown chan struct{}) {
			for {
				select {
				case <-time.After(100 * time.Millisecond):