Exemple #1
0
func ActualLRPNetInfoFromContainer(container executor.Container) (*models.ActualLRPNetInfo, error) {
	ports := []*models.PortMapping{}
	for _, portMapping := range container.Ports {
		ports = append(ports, models.NewPortMapping(uint32(portMapping.HostPort), uint32(portMapping.ContainerPort)))
	}

	actualLRPNetInfo := models.NewActualLRPNetInfo(container.ExternalIP, ports...)

	err := actualLRPNetInfo.Validate()
	if err != nil {
		return nil, err
	}

	return &actualLRPNetInfo, nil
}
Exemple #2
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func NewValidActualLRP(guid string, index int32) *models.ActualLRP {
	actualLRP := &models.ActualLRP{
		ActualLRPKey:         models.NewActualLRPKey(guid, index, "some-domain"),
		ActualLRPInstanceKey: models.NewActualLRPInstanceKey("some-guid", "some-cell"),
		ActualLRPNetInfo:     models.NewActualLRPNetInfo("some-address", models.NewPortMapping(2222, 4444)),
		CrashCount:           33,
		CrashReason:          "badness",
		State:                models.ActualLRPStateRunning,
		Since:                1138,
		ModificationTag: models.ModificationTag{
			Epoch: "some-epoch",
			Index: 999,
		},
	}
	err := actualLRP.Validate()
	Expect(err).NotTo(HaveOccurred())

	return actualLRP
}
func lrpForState(state string, timeInState time.Duration) models.ActualLRP {
	var actualLRPKey = models.NewActualLRPKey("some-process-guid", 1, "tests")
	var instanceKey = models.NewActualLRPInstanceKey("some-instance-guid", "some-cell")

	lrp := models.ActualLRP{
		ActualLRPKey: actualLRPKey,
		State:        state,
		Since:        clock.Now().Add(-timeInState).UnixNano(),
	}

	switch state {
	case models.ActualLRPStateUnclaimed:
	case models.ActualLRPStateCrashed:
		lrp.CrashReason = "crashed"
	case models.ActualLRPStateClaimed:
		lrp.ActualLRPInstanceKey = instanceKey
	case models.ActualLRPStateRunning:
		lrp.ActualLRPInstanceKey = instanceKey
		lrp.ActualLRPNetInfo = models.NewActualLRPNetInfo("1.2.3.4", &models.PortMapping{ContainerPort: 1234, HostPort: 5678})
	}

	return lrp
}
Exemple #4
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func itValidatesAbsenceOfNetInfo(lrp *models.ActualLRP) {
	Context("when net info is set", func() {
		BeforeEach(func() {
			lrp.ActualLRPNetInfo = models.NewActualLRPNetInfo("1.2.3.4")
		})

		It("validate returns an error", func() {
			err := lrp.Validate()
			Expect(err).To(HaveOccurred())
			Expect(err.Error()).To(ContainSubstring("net info"))
		})
	})

	Context("when net info is not set", func() {
		BeforeEach(func() {
			lrp.ActualLRPNetInfo = models.ActualLRPNetInfo{}
		})

		It("validate does not return an error", func() {
			Expect(lrp.Validate()).NotTo(HaveOccurred())
		})
	})
}
Exemple #5
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    "index": 2,
    "state": "RUNNING",
    "since": 1138,
    "cell_id":"some-cell-id",
    "domain":"some-domain",
		"crash_count": 1,
		"modification_tag": {
			"epoch": "some-guid",
			"index": 50
		}
  }`

		BeforeEach(func() {
			lrpKey = models.NewActualLRPKey("some-guid", 2, "some-domain")
			instanceKey = models.NewActualLRPInstanceKey("some-instance-guid", "some-cell-id")
			netInfo = models.NewActualLRPNetInfo("1.2.3.4", models.NewPortMapping(5678, 8080), models.NewPortMapping(1234, 8081))

			lrp = models.ActualLRP{
				ActualLRPKey:         lrpKey,
				ActualLRPInstanceKey: instanceKey,
				ActualLRPNetInfo:     netInfo,
				CrashCount:           1,
				State:                models.ActualLRPStateRunning,
				Since:                1138,
				ModificationTag: models.ModificationTag{
					Epoch: "some-guid",
					Index: 50,
				},
			}
		})
		logger = lager.NewLogger("test")
		logger.RegisterSink(lager.NewWriterSink(GinkgoWriter, lager.DEBUG))
		responseRecorder = httptest.NewRecorder()
		handler = handlers.NewActualLRPHandler(fakeBBS, fakeLegacyBBS, logger)

		actualLRP1 = models.NewRunningActualLRP(
			models.NewActualLRPKey(
				"process-guid-0",
				1,
				"domain-0",
			),
			models.NewActualLRPInstanceKey(
				"instance-guid-0",
				"cell-id-0",
			),
			models.NewActualLRPNetInfo("1.1.1.1", models.NewPortMapping(80, 5050)),
			1138,
		)

		actualLRP2 = models.NewClaimedActualLRP(
			models.NewActualLRPKey(
				"process-guid-1",
				2,
				"domain-1",
			),
			models.NewActualLRPInstanceKey(
				"instance-guid-1",
				"cell-id-1",
			),
			4444,
		)
		Domain:      "domain",
		Instances:   1,
		RootFs:      "some:rootfs",
		Action:      models.WrapAction(&models.RunAction{Path: "/bin/true", User: "******"}),
	}

	index  int32 = 0
	lrpKey       = models.NewActualLRPKey(desiredLRP.ProcessGuid, index, desiredLRP.Domain)

	alphaInstanceKey = models.NewActualLRPInstanceKey(alphaInstanceGuid, alphaCellID)
	betaInstanceKey  = models.NewActualLRPInstanceKey(betaInstanceGuid, betaCellID)
	omegaInstanceKey = models.NewActualLRPInstanceKey(omegaInstanceGuid, omegaCellID)
	emptyInstanceKey = models.ActualLRPInstanceKey{}

	alphaPorts   = models.NewPortMapping(9872, 2349)
	alphaNetInfo = models.NewActualLRPNetInfo(alphaAddress, alphaPorts)
	betaPorts    = models.NewPortMapping(9868, 2353)
	betaNetInfo  = models.NewActualLRPNetInfo(betaAddress, betaPorts)
	omegaPorts   = models.NewPortMapping(9876, 2345)
	omegaNetInfo = models.NewActualLRPNetInfo(omegaAddress, omegaPorts)
	emptyNetInfo = models.EmptyActualLRPNetInfo()
)

type testable interface {
	Test()
}

type evacuationTest struct {
	Name          string
	Subject       func() (bool, error)
	InstanceLRP   lrpSetupFunc
		dummyMessage = routing_table.RegistryMessageFor(dummyEndpoint, routing_table.Routes{Hostnames: []string{"baz.com"}, LogGuid: logGuid})
		messagesToEmit = routing_table.MessagesToEmit{
			RegistrationMessages: []routing_table.RegistryMessage{dummyMessage},
		}

		schedulingInfoResponse = &models.DesiredLRPSchedulingInfo{
			DesiredLRPKey: models.NewDesiredLRPKey(processGuid, "domain", logGuid),
			Routes:        cfroutes.CFRoutes{{Hostnames: []string{"route-1", "route-2"}, Port: containerPort}}.RoutingInfo(),
		}

		actualResponses = []*models.ActualLRPGroup{
			{
				Instance: &models.ActualLRP{
					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()
	Describe("Process", func() {
		const sessionPrefix = "test.ordinary-lrp-processor."

		var (
			desiredLRP          *models.DesiredLRP
			expectedLrpKey      models.ActualLRPKey
			expectedInstanceKey models.ActualLRPInstanceKey
			expectedNetInfo     models.ActualLRPNetInfo
			expectedSessionName string
		)

		BeforeEach(func() {
			desiredLRP = model_helpers.NewValidDesiredLRP("process-guid")
			expectedLrpKey = models.NewActualLRPKey("process-guid", 2, "domain")
			expectedInstanceKey = models.NewActualLRPInstanceKey("instance-guid", "cell-id")
			expectedNetInfo = models.NewActualLRPNetInfo("1.2.3.4", models.NewPortMapping(61999, 8080))
		})

		Context("when given an LRP container", func() {
			var container executor.Container

			BeforeEach(func() {
				container = newLRPContainer(expectedLrpKey, expectedInstanceKey, expectedNetInfo)
			})

			JustBeforeEach(func() {
				processor.Process(logger, container)
			})

			Context("and the container is INVALID", func() {
				BeforeEach(func() {
Exemple #10
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	BeforeEach(func() {
		bbsRunner = testrunner.New(bbsBinPath, bbsArgs)
		bbsProcess = ginkgomon.Invoke(bbsRunner)

		filter = models.ActualLRPFilter{}
		expectedActualLRPGroups = []*models.ActualLRPGroup{}
		actualActualLRPGroups = []*models.ActualLRPGroup{}

		baseLRPKey = models.NewActualLRPKey(baseProcessGuid, baseIndex, baseDomain)
		baseLRPInstanceKey = models.NewActualLRPInstanceKey(baseInstanceGuid, cellID)

		evacuatingLRPInstanceKey = models.NewActualLRPInstanceKey(evacuatingInstanceGuid, cellID)
		otherLRPKey = models.NewActualLRPKey(otherProcessGuid, otherIndex, otherDomain)
		otherLRPInstanceKey = models.NewActualLRPInstanceKey(otherInstanceGuid, otherCellID)

		netInfo = models.NewActualLRPNetInfo("127.0.0.1", models.NewPortMapping(8080, 80))

		unclaimedLRPKey = models.NewActualLRPKey(unclaimedProcessGuid, unclaimedIndex, unclaimedDomain)

		crashingLRPKey = models.NewActualLRPKey(crashingProcessGuid, crashingIndex, crashingDomain)
		crashingLRPInstanceKey = models.NewActualLRPInstanceKey(crashingInstanceGuid, otherCellID)

		baseLRP = &models.ActualLRP{
			ActualLRPKey:         baseLRPKey,
			ActualLRPInstanceKey: baseLRPInstanceKey,
			ActualLRPNetInfo:     netInfo,
			State:                models.ActualLRPStateRunning,
			Since:                time.Now().UnixNano(),
		}

		evacuatingLRP = &models.ActualLRP{
	Describe("ActualLRPProtoToResponse", func() {
		var actualLRP *models.ActualLRP

		BeforeEach(func() {
			actualLRP = &models.ActualLRP{
				ActualLRPKey: models.NewActualLRPKey(
					"process-guid-0",
					3,
					"some-domain",
				),
				ActualLRPInstanceKey: models.NewActualLRPInstanceKey(
					"instance-guid-0",
					"cell-id-0",
				),
				ActualLRPNetInfo: models.NewActualLRPNetInfo(
					"address-0",
					models.NewPortMapping(9876, 2345),
				),
				State:      models.ActualLRPStateRunning,
				CrashCount: 42,
				Since:      99999999999,
				ModificationTag: models.ModificationTag{
					Epoch: "some-guid",
					Index: 50,
				},
			}
		})

		It("serializes all the fields", func() {
			expectedResponse := receptor.ActualLRPResponse{
				ProcessGuid:  "process-guid-0",
				InstanceGuid: "instance-guid-0",
Exemple #12
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		evacuatingLRP  *models.ActualLRP
		otherDomainLRP *models.ActualLRP
		otherCellIdLRP *models.ActualLRP

		baseLRPKey          models.ActualLRPKey
		baseLRPInstanceKey  models.ActualLRPInstanceKey
		otherLRPInstanceKey models.ActualLRPInstanceKey
		netInfo             models.ActualLRPNetInfo
	)

	BeforeEach(func() {
		baseLRPKey = models.NewActualLRPKey(baseProcessGuid, baseIndex, baseDomain)
		baseLRPInstanceKey = models.NewActualLRPInstanceKey(baseInstanceGuid, cellID)
		otherLRPInstanceKey = models.NewActualLRPInstanceKey(otherInstanceGuid, otherCellID)

		netInfo = models.NewActualLRPNetInfo("127.0.0.1", models.NewPortMapping(8080, 80))

		baseLRP = &models.ActualLRP{
			ActualLRPKey:         baseLRPKey,
			ActualLRPInstanceKey: baseLRPInstanceKey,
			ActualLRPNetInfo:     netInfo,
			State:                models.ActualLRPStateRunning,
			Since:                clock.Now().UnixNano(),
		}

		evacuatingLRP = &models.ActualLRP{
			ActualLRPKey:         baseLRPKey,
			ActualLRPInstanceKey: models.NewActualLRPInstanceKey(evacuatingInstanceGuid, cellID),
			ActualLRPNetInfo:     netInfo,
			State:                models.ActualLRPStateRunning,
			Since:                clock.Now().UnixNano() - 1000,
			It("should not be included in the results", func() {
				routes := routing_table.RoutesByRoutingKeyFromSchedulingInfos([]*models.DesiredLRPSchedulingInfo{
					{DesiredLRPKey: models.NewDesiredLRPKey("abc", "tests", "abc-guid"), Routes: nil},
				})
				Expect(routes).To(HaveLen(0))
			})
		})
	})

	Describe("EndpointsByRoutingKeyFromActuals", func() {
		It("should build a map of endpoints, ignoring those without ports", func() {
			endpoints := routing_table.EndpointsByRoutingKeyFromActuals([]*routing_table.ActualLRPRoutingInfo{
				{
					ActualLRP: &models.ActualLRP{
						ActualLRPKey:     models.NewActualLRPKey("abc", 0, "domain"),
						ActualLRPNetInfo: models.NewActualLRPNetInfo("1.1.1.1", models.NewPortMapping(11, 44), models.NewPortMapping(66, 99)),
					},
				},
				{
					ActualLRP: &models.ActualLRP{
						ActualLRPKey:     models.NewActualLRPKey("abc", 1, "domain"),
						ActualLRPNetInfo: models.NewActualLRPNetInfo("2.2.2.2", models.NewPortMapping(22, 44), models.NewPortMapping(88, 99)),
					},
				},
				{
					ActualLRP: &models.ActualLRP{
						ActualLRPKey:     models.NewActualLRPKey("def", 0, "domain"),
						ActualLRPNetInfo: models.NewActualLRPNetInfo("3.3.3.3", models.NewPortMapping(33, 55)),
					},
				},
				{
			diegoSSHRouteMessage := json.RawMessage(diegoSSHRoutePayload)

			desiredLRP = &models.DesiredLRP{
				ProcessGuid: "some-guid",
				Instances:   2,
				Routes: &models.Routes{
					routes.DIEGO_SSH: &diegoSSHRouteMessage,
				},
				LogGuid: "log-guid",
			}

			actualLRPGroup = &models.ActualLRPGroup{
				Instance: &models.ActualLRP{
					ActualLRPKey:         models.NewActualLRPKey("some-guid", 1, "some-domain"),
					ActualLRPInstanceKey: models.NewActualLRPInstanceKey("some-instance-guid", "some-cell-id"),
					ActualLRPNetInfo:     models.NewActualLRPNetInfo("1.2.3.4", models.NewPortMapping(3333, 1111)),
				},
			}

			bbsClient = new(fake_bbs.FakeClient)
			bbsClient.ActualLRPGroupByProcessGuidAndIndexReturns(actualLRPGroup, nil)
			bbsClient.DesiredLRPByProcessGuidReturns(desiredLRP, nil)

			credentials = []byte("some-user:some-password")
			permissionsBuilder = authenticators.NewPermissionsBuiler(bbsClient)

			remoteAddr, err := net.ResolveIPAddr("ip", "1.1.1.1")
			Expect(err).NotTo(HaveOccurred())
			metadata = &fake_ssh.FakeConnMetadata{}
			metadata.RemoteAddrReturns(remoteAddr)
		Context("when a create event occurs", func() {
			var (
				actualLRPGroup       *models.ActualLRPGroup
				actualLRP            *models.ActualLRP
				actualLRPRoutingInfo *routing_table.ActualLRPRoutingInfo
			)

			Context("when the resulting LRP is in the RUNNING state", func() {
				BeforeEach(func() {
					actualLRP = &models.ActualLRP{
						ActualLRPKey:         models.NewActualLRPKey(expectedProcessGuid, 1, "domain"),
						ActualLRPInstanceKey: models.NewActualLRPInstanceKey(expectedInstanceGuid, "cell-id"),
						ActualLRPNetInfo: models.NewActualLRPNetInfo(
							expectedHost,
							models.NewPortMapping(expectedExternalPort, expectedContainerPort),
							models.NewPortMapping(expectedExternalPort, expectedAdditionalContainerPort),
						),
						State: models.ActualLRPStateRunning,
					}

					actualLRPGroup = &models.ActualLRPGroup{
						Instance: actualLRP,
					}

					actualLRPRoutingInfo = &routing_table.ActualLRPRoutingInfo{
						ActualLRP:  actualLRP,
						Evacuating: false,
					}
				})
Exemple #16
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			listener.Signal(os.Kill)
			Eventually(listener.Wait()).Should(Receive())
		}
	})

	Describe("GET /v1/actual_lrps/:guid", func() {
		Context("when the bbs is running", func() {
			JustBeforeEach(func() {
				instanceKey0 := models.NewActualLRPInstanceKey("some-instance-guid-0", "cell-id")

				err := bbsClient.ClaimActualLRP("some-process-guid", 0, &instanceKey0)
				Expect(err).NotTo(HaveOccurred())

				lrpKey1 := models.NewActualLRPKey("some-process-guid", 1, "some-domain")
				instanceKey1 := models.NewActualLRPInstanceKey("some-instance-guid-1", "cell-id")
				netInfo := models.NewActualLRPNetInfo("1.2.3.4", models.NewPortMapping(65100, 8080))
				err = bbsClient.StartActualLRP(&lrpKey1, &instanceKey1, &netInfo)
				Expect(err).NotTo(HaveOccurred())
			})

			It("reports the state of the given process guid's instances", func() {
				getLRPs, err := requestGenerator.CreateRequest(
					tps.LRPStatus,
					rata.Params{"guid": "some-process-guid"},
					nil,
				)
				Expect(err).NotTo(HaveOccurred())

				response, err := httpClient.Do(getLRPs)
				Expect(err).NotTo(HaveOccurred())
			netInfo     models.ActualLRPNetInfo

			requestBody interface{}
		)

		BeforeEach(func() {
			key = models.NewActualLRPKey(
				processGuid,
				index,
				"domain-0",
			)
			instanceKey = models.NewActualLRPInstanceKey(
				"instance-guid-0",
				"cell-id-0",
			)
			netInfo = models.NewActualLRPNetInfo("1.1.1.1", models.NewPortMapping(10, 20))
			requestBody = &models.StartActualLRPRequest{
				ActualLrpKey:         &key,
				ActualLrpInstanceKey: &instanceKey,
				ActualLrpNetInfo:     &netInfo,
			}

			actualLRP = models.ActualLRP{
				ActualLRPKey: key,
				State:        models.ActualLRPStateUnclaimed,
				Since:        1138,
			}
		})

		JustBeforeEach(func() {
			request := newTestRequest(requestBody)
Exemple #18
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				Instances:   1,
				Action: &oldmodels.RunAction{
					Path: "true",
					User: "******",
				},
			}

			legacyKey = oldmodels.NewActualLRPKey(processGuid, 0, domain)
			legacyOldInstanceKey = oldmodels.NewActualLRPInstanceKey("instance-guid", "cell-id")
			legacyNewInstanceKey = oldmodels.NewActualLRPInstanceKey("other-instance-guid", "other-cell-id")
			legacyNetInfo = oldmodels.NewActualLRPNetInfo("1.1.1.1", []oldmodels.PortMapping{})

			key = models.NewActualLRPKey(processGuid, 0, domain)
			oldInstanceKey = models.NewActualLRPInstanceKey("instance-guid", "cell-id")
			newInstanceKey = models.NewActualLRPInstanceKey("other-instance-guid", "other-cell-id")
			netInfo = models.NewActualLRPNetInfo("1.1.1.1")
		})

		It("receives events", func() {
			By("creating a ActualLRP")
			err := legacyBBS.DesireLRP(logger, oldDesiredLRP)
			Expect(err).NotTo(HaveOccurred())

			actualLRPGroup, err := bbsClient.ActualLRPGroupByProcessGuidAndIndex(oldDesiredLRP.ProcessGuid, 0)
			Expect(err).NotTo(HaveOccurred())
			actualLRP := actualLRPGroup.Instance

			var event receptor.Event
			Eventually(func() receptor.Event {
				Eventually(events).Should(Receive(&event))
				return event
Exemple #19
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		allowedCiphers = ""
		allowedMACs = ""
		allowedKeyExchanges = ""

		expectedGetActualLRPRequest = &models.ActualLRPGroupByProcessGuidAndIndexRequest{
			ProcessGuid: processGuid,
			Index:       99,
		}

		actualLRPGroupResponse = &models.ActualLRPGroupResponse{
			Error: nil,
			ActualLrpGroup: &models.ActualLRPGroup{
				Instance: &models.ActualLRP{
					ActualLRPKey:         models.NewActualLRPKey(processGuid, 99, "some-domain"),
					ActualLRPInstanceKey: models.NewActualLRPInstanceKey("some-instance-guid", "some-cell-id"),
					ActualLRPNetInfo:     models.NewActualLRPNetInfo("127.0.0.1", models.NewPortMapping(uint32(sshdPort), 9999)),
				},
			},
		}

		getDesiredLRPRequest = &models.DesiredLRPByProcessGuidRequest{
			ProcessGuid: processGuid,
		}

		sshRoute, err := json.Marshal(routes.SSHRoute{
			ContainerPort:   9999,
			PrivateKey:      privateKeyPem,
			HostFingerprint: hostKeyFingerprint,
		})
		Expect(err).NotTo(HaveOccurred())
	BeforeEach(func() {
		receptorProcess = ginkgomon.Invoke(receptorRunner)

		for i := 0; i < lrpCount; i++ {
			index := strconv.Itoa(i)
			lrpKey := models.NewActualLRPKey(
				"process-guid-"+index,
				int32(i),
				fmt.Sprintf("domain-%d", i/2),
			)
			instanceKey := models.NewActualLRPInstanceKey(
				"instance-guid-"+index,
				"cell-id",
			)
			netInfo := models.NewActualLRPNetInfo("the-host", models.NewPortMapping(uint32(1000+i), 80))
			_, err := bbsClient.StartActualLRP(&lrpKey, &instanceKey, &netInfo)
			Expect(err).NotTo(HaveOccurred())
		}

		desiredLRP := oldmodels.DesiredLRP{
			ProcessGuid: "process-guid-0",
			Domain:      "domain-0",
			Instances:   1,
			RootFS:      "some:rootfs",
			Ports:       []uint16{80},
			Action:      &oldmodels.RunAction{User: "******", Path: "/bin/true"},
		}

		err := legacyBBS.DesireLRP(logger, desiredLRP)
		Expect(err).NotTo(HaveOccurred())
					Expect(fakeContainerDelegate.DeleteContainerCallCount()).To(Equal(1))
					_, actualContainerGuid := fakeContainerDelegate.DeleteContainerArgsForCall(0)
					Expect(actualContainerGuid).To(Equal(container.Guid))
				})
			})
		})

		Context("when the container is Running", func() {
			var lrpNetInfo models.ActualLRPNetInfo

			BeforeEach(func() {
				container.State = executor.StateRunning
				externalIP := "executor-ip"
				container.ExternalIP = externalIP
				container.Ports = []executor.PortMapping{{ContainerPort: 1357, HostPort: 8642}}
				lrpNetInfo = models.NewActualLRPNetInfo(externalIP, models.NewPortMapping(8642, 1357))
			})

			It("evacuates the lrp", func() {
				Expect(fakeBBS.EvacuateRunningActualLRPCallCount()).To(Equal(1))
				actualLRPKey, actualLRPContainerKey, actualLRPNetInfo, actualTTL := fakeBBS.EvacuateRunningActualLRPArgsForCall(0)
				Expect(*actualLRPKey).To(Equal(lrpKey))
				Expect(*actualLRPContainerKey).To(Equal(lrpInstanceKey))
				Expect(*actualLRPNetInfo).To(Equal(lrpNetInfo))
				Expect(actualTTL).To(Equal(uint64(evacuationTTL)))
			})

			Context("when the evacuation returns successfully", func() {
				BeforeEach(func() {
					fakeBBS.EvacuateRunningActualLRPReturns(true, nil)
				})
Exemple #22
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			_, err := etcdClient.Delete(ActualLRPSchemaPath(key.GetProcessGuid(), key.GetIndex()), true)
			Expect(err).NotTo(HaveOccurred())

			Eventually(deletes).Should(Receive(Equal(actualLRPGroup)))

			_, err = etcdClient.Delete(ActualLRPProcessDir(key.GetProcessGuid()), true)

			Consistently(logger).ShouldNot(Say("failed-to-unmarshal"))
		})

		Context("when the evacuating key changes", func() {
			It("indicates passes the correct evacuating flag on event callbacks", func() {
				key := models.NewActualLRPKey(lrpProcessGuid, lrpIndex, lrpDomain)

				instanceKey := models.NewActualLRPInstanceKey("instance-guid", "cell-id")
				netInfo := models.NewActualLRPNetInfo("1.1.1.1", nil)
				evacuatedLRPGroup := &models.ActualLRPGroup{
					Evacuating: &models.ActualLRP{
						ActualLRPKey:         key,
						ActualLRPInstanceKey: instanceKey,
						ActualLRPNetInfo:     netInfo,
						State:                models.ActualLRPStateRunning,
						Since:                clock.Now().UnixNano(),
					},
				}

				etcdHelper.SetRawEvacuatingActualLRP(evacuatedLRPGroup.Evacuating, 0)

				Eventually(creates).Should(Receive(Equal(evacuatedLRPGroup)))

				updatedGroup := &models.ActualLRPGroup{
Exemple #23
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				}
				fakeGarden.RouteToHandler("GET", "/containers/bulk_info",
					ghttp.RespondWithJSONEncoded(http.StatusOK,
						map[string]garden.ContainerInfoEntry{
							containerGuid: garden.ContainerInfoEntry{Info: containerInfo},
						},
					),
				)

				fakeGarden.RouteToHandler("GET", fmt.Sprintf("/containers/%s/info", containerGuid), ghttp.RespondWithJSONEncoded(http.StatusOK, containerInfo))

				Eventually(fetchCells(logger, serviceClient)).Should(HaveLen(1))

				lrpKey := models.NewActualLRPKey(processGuid, 1, "domain")
				instanceKey := models.NewActualLRPInstanceKey(instanceGuid, cellID)
				netInfo := models.NewActualLRPNetInfo("bogus-ip")

				err := bbsClient.StartActualLRP(&lrpKey, &instanceKey, &netInfo)
				Expect(err).NotTo(HaveOccurred())

				actualLRPGroup, err := bbsClient.ActualLRPGroupByProcessGuidAndIndex(lrpKey.ProcessGuid, int(lrpKey.Index))
				Expect(err).NotTo(HaveOccurred())
				runningLRP = actualLRPGroup.GetInstance()
			})

			It("should destroy the container", func() {
				Eventually(getActualLRPGroups).Should(HaveLen(1))
				err := bbsClient.RetireActualLRP(&runningLRP.ActualLRPKey)
				Expect(err).NotTo(HaveOccurred())

				findDestroyRequest := func() bool {
Exemple #24
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					MemoryBytes:   proto.Uint64(1024),
					DiskBytes:     proto.Uint64(2048),
				},
			}, nil)

			bbsClient.DesiredLRPByProcessGuidReturns(&models.DesiredLRP{
				LogGuid:     logGuid,
				ProcessGuid: guid,
			}, nil)

			actualLRP := &models.ActualLRP{
				ActualLRPKey:         models.NewActualLRPKey(guid, 5, "some-domain"),
				ActualLRPInstanceKey: models.NewActualLRPInstanceKey("instanceId", "some-cell"),
				ActualLRPNetInfo: models.NewActualLRPNetInfo(
					"host",
					models.NewPortMapping(5432, 7890),
					models.NewPortMapping(1234, uint32(recipebuilder.DefaultPort)),
				),
				State: models.ActualLRPStateRunning,
				Since: fakeClock.Now().UnixNano(),
			}

			bbsClient.ActualLRPGroupsByProcessGuidReturns([]*models.ActualLRPGroup{{
				Instance: actualLRP},
			}, nil)
		})

		Context("when the LRP has been running for a while", func() {
			var expectedSinceTime int64

			BeforeEach(func() {