Example #1
0
// newReferenceUplink returns a default uplink message
func newReferenceUplink() *pb.UplinkMessage {
	gtwID := "eui-0102030405060708"

	phy := lorawan.PHYPayload{
		MHDR: lorawan.MHDR{
			MType: lorawan.UnconfirmedDataUp,
			Major: lorawan.LoRaWANR1,
		},
		MACPayload: &lorawan.MACPayload{
			FHDR: lorawan.FHDR{
				DevAddr: lorawan.DevAddr([4]byte{1, 2, 3, 4}),
			},
		},
	}
	bytes, _ := phy.MarshalBinary()

	up := &pb.UplinkMessage{
		Payload: bytes,
		ProtocolMetadata: &pb_protocol.RxMetadata{Protocol: &pb_protocol.RxMetadata_Lorawan{Lorawan: &pb_lorawan.Metadata{
			CodingRate: "4/5",
			DataRate:   "SF7BW125",
			Modulation: pb_lorawan.Modulation_LORA,
		}}},
		GatewayMetadata: &pb_gateway.RxMetadata{
			GatewayId: gtwID,
			Timestamp: 100,
			Frequency: 868100000,
			Rssi:      -25.0,
			Snr:       5.0,
		},
	}
	return up
}
Example #2
0
func (n *networkServer) HandleDownlink(message *pb_broker.DownlinkMessage) (*pb_broker.DownlinkMessage, error) {
	// Get Device
	dev, err := n.devices.Get(*message.AppEui, *message.DevEui)
	if err != nil {
		return nil, err
	}

	n.status.downlink.Mark(1)

	dev.StartUpdate()

	if dev.AppID != message.AppId || dev.DevID != message.DevId {
		return nil, errors.NewErrInvalidArgument("Downlink", "AppID and DevID do not match AppEUI and DevEUI")
	}

	// Unmarshal LoRaWAN Payload
	var phyPayload lorawan.PHYPayload
	err = phyPayload.UnmarshalBinary(message.Payload)
	if err != nil {
		return nil, err
	}
	macPayload, ok := phyPayload.MACPayload.(*lorawan.MACPayload)
	if !ok {
		return nil, errors.NewErrInvalidArgument("Downlink", "does not contain a MAC payload")
	}

	// Set DevAddr
	macPayload.FHDR.DevAddr = lorawan.DevAddr(dev.DevAddr)

	// FIRST set and THEN increment FCntDown
	// TODO: For confirmed downlink, FCntDown should be incremented AFTER ACK
	macPayload.FHDR.FCnt = dev.FCntDown
	dev.FCntDown++
	err = n.devices.Set(dev)
	if err != nil {
		return nil, err
	}

	// Sign MIC
	phyPayload.SetMIC(lorawan.AES128Key(dev.NwkSKey))

	// Update message
	bytes, err := phyPayload.MarshalBinary()
	if err != nil {
		return nil, err
	}
	message.Payload = bytes

	return message, nil
}
Example #3
0
func doTestHandleActivation(h *handler, appEUI types.AppEUI, devEUI types.DevEUI, devNonce [2]byte, appKey types.AppKey) (*pb.DeviceActivationResponse, error) {
	devAddr := types.DevAddr{1, 2, 3, 4}

	requestPHY := lorawan.PHYPayload{
		MHDR: lorawan.MHDR{
			MType: lorawan.JoinRequest,
			Major: lorawan.LoRaWANR1,
		},
		MACPayload: &lorawan.JoinRequestPayload{
			AppEUI:   lorawan.EUI64(appEUI),
			DevEUI:   lorawan.EUI64(devEUI),
			DevNonce: devNonce,
		},
	}
	requestPHY.SetMIC(lorawan.AES128Key(appKey))
	requestBytes, _ := requestPHY.MarshalBinary()

	responsePHY := lorawan.PHYPayload{
		MHDR: lorawan.MHDR{
			MType: lorawan.JoinAccept,
			Major: lorawan.LoRaWANR1,
		},
		MACPayload: &lorawan.JoinAcceptPayload{},
	}
	templateBytes, _ := responsePHY.MarshalBinary()
	return h.HandleActivation(&pb_broker.DeduplicatedDeviceActivationRequest{
		Payload: requestBytes,
		AppEui:  &appEUI,
		AppId:   appEUI.String(),
		DevEui:  &devEUI,
		DevId:   devEUI.String(),
		ActivationMetadata: &pb_protocol.ActivationMetadata{Protocol: &pb_protocol.ActivationMetadata_Lorawan{
			Lorawan: &pb_lorawan.ActivationMetadata{
				DevAddr: &devAddr,
			},
		}},
		ResponseTemplate: &pb_broker.DeviceActivationResponse{
			Payload: templateBytes,
		},
	})
}
Example #4
0
func TestHandleDownlink(t *testing.T) {
	a := New(t)
	ns := &networkServer{
		devices: device.NewRedisDeviceStore(GetRedisClient(), "test-handle-downlink"),
	}
	ns.InitStatus()

	appEUI := types.AppEUI(getEUI(1, 2, 3, 4, 5, 6, 7, 8))
	devEUI := types.DevEUI(getEUI(1, 2, 3, 4, 5, 6, 7, 8))
	devAddr := getDevAddr(1, 2, 3, 4)

	// Device Not Found
	message := &pb_broker.DownlinkMessage{
		AppEui:  &appEUI,
		DevEui:  &devEUI,
		Payload: []byte{},
	}
	_, err := ns.HandleDownlink(message)
	a.So(err, ShouldNotBeNil)

	ns.devices.Set(&device.Device{
		DevAddr: devAddr,
		AppEUI:  appEUI,
		DevEUI:  devEUI,
	})
	defer func() {
		ns.devices.Delete(appEUI, devEUI)
	}()

	// Invalid Payload
	message = &pb_broker.DownlinkMessage{
		AppEui:  &appEUI,
		DevEui:  &devEUI,
		Payload: []byte{},
	}
	_, err = ns.HandleDownlink(message)
	a.So(err, ShouldNotBeNil)

	fPort := uint8(3)
	phy := lorawan.PHYPayload{
		MHDR: lorawan.MHDR{
			MType: lorawan.UnconfirmedDataDown,
			Major: lorawan.LoRaWANR1,
		},
		MACPayload: &lorawan.MACPayload{
			FPort: &fPort,
			FHDR: lorawan.FHDR{
				FCtrl: lorawan.FCtrl{
					ACK: true,
				},
			},
		},
	}
	bytes, _ := phy.MarshalBinary()

	message = &pb_broker.DownlinkMessage{
		AppEui:  &appEUI,
		DevEui:  &devEUI,
		Payload: bytes,
	}
	res, err := ns.HandleDownlink(message)
	a.So(err, ShouldBeNil)

	var phyPayload lorawan.PHYPayload
	phyPayload.UnmarshalBinary(res.Payload)
	macPayload, _ := phyPayload.MACPayload.(*lorawan.MACPayload)
	a.So(*macPayload.FPort, ShouldEqual, 3)
	a.So(macPayload.FHDR.DevAddr, ShouldEqual, lorawan.DevAddr{1, 2, 3, 4})
	a.So(macPayload.FHDR.FCnt, ShouldEqual, 0)                // The first Frame counter is zero
	a.So(phyPayload.MIC, ShouldNotEqual, [4]byte{0, 0, 0, 0}) // MIC should be set, we'll check it with actual examples in the integration test

	dev, _ := ns.devices.Get(appEUI, devEUI)
	a.So(dev.FCntDown, ShouldEqual, 1)

}
Example #5
0
func TestHandleUplink(t *testing.T) {
	a := New(t)
	ns := &networkServer{
		devices: device.NewRedisDeviceStore(GetRedisClient(), "ns-test-handle-uplink"),
	}
	ns.InitStatus()

	appEUI := types.AppEUI(getEUI(1, 2, 3, 4, 5, 6, 7, 8))
	devEUI := types.DevEUI(getEUI(1, 2, 3, 4, 5, 6, 7, 8))
	devAddr := getDevAddr(1, 2, 3, 4)

	// Device Not Found
	message := &pb_broker.DeduplicatedUplinkMessage{
		AppEui:  &appEUI,
		DevEui:  &devEUI,
		Payload: []byte{},
	}
	_, err := ns.HandleUplink(message)
	a.So(err, ShouldNotBeNil)

	ns.devices.Set(&device.Device{
		DevAddr: devAddr,
		AppEUI:  appEUI,
		DevEUI:  devEUI,
	})
	defer func() {
		ns.devices.Delete(appEUI, devEUI)
	}()

	// Invalid Payload
	message = &pb_broker.DeduplicatedUplinkMessage{
		AppEui:  &appEUI,
		DevEui:  &devEUI,
		Payload: []byte{},
	}
	_, err = ns.HandleUplink(message)
	a.So(err, ShouldNotBeNil)

	phy := lorawan.PHYPayload{
		MHDR: lorawan.MHDR{
			MType: lorawan.UnconfirmedDataUp,
			Major: lorawan.LoRaWANR1,
		},
		MACPayload: &lorawan.MACPayload{
			FHDR: lorawan.FHDR{
				DevAddr: lorawan.DevAddr([4]byte{1, 2, 3, 4}),
				FCnt:    1,
				FCtrl: lorawan.FCtrl{
					ADR:       true,
					ADRACKReq: true,
				},
				FOpts: []lorawan.MACCommand{
					lorawan.MACCommand{CID: lorawan.LinkCheckReq},
				},
			},
		},
	}
	bytes, _ := phy.MarshalBinary()

	// Valid Uplink
	message = &pb_broker.DeduplicatedUplinkMessage{
		AppEui:           &appEUI,
		DevEui:           &devEUI,
		Payload:          bytes,
		ResponseTemplate: &pb_broker.DownlinkMessage{},
		GatewayMetadata: []*pb_gateway.RxMetadata{
			&pb_gateway.RxMetadata{},
		},
		ProtocolMetadata: &pb_protocol.RxMetadata{Protocol: &pb_protocol.RxMetadata_Lorawan{
			Lorawan: &pb_lorawan.Metadata{
				DataRate: "SF7BW125",
			},
		}},
	}
	res, err := ns.HandleUplink(message)
	a.So(err, ShouldBeNil)
	a.So(res.ResponseTemplate, ShouldNotBeNil)

	// LoRaWAN: Unmarshal
	var phyPayload lorawan.PHYPayload
	phyPayload.UnmarshalBinary(res.ResponseTemplate.Payload)
	macPayload, _ := phyPayload.MACPayload.(*lorawan.MACPayload)

	// ResponseTemplate DevAddr should match
	a.So([4]byte(macPayload.FHDR.DevAddr), ShouldEqual, [4]byte(devAddr))

	// ResponseTemplate should ACK the ADRACKReq
	a.So(macPayload.FHDR.FCtrl.ACK, ShouldBeTrue)
	a.So(macPayload.FHDR.FOpts, ShouldHaveLength, 1)
	a.So(macPayload.FHDR.FOpts[0].Payload, ShouldResemble, &lorawan.LinkCheckAnsPayload{GwCnt: 1, Margin: 7})

	// Frame Counter should have been updated
	dev, _ := ns.devices.Get(appEUI, devEUI)
	a.So(dev.FCntUp, ShouldEqual, 1)
	a.So(time.Now().Sub(dev.LastSeen), ShouldBeLessThan, 1*time.Second)
}
Example #6
0
func (b *broker) HandleActivation(activation *pb.DeviceActivationRequest) (res *pb.DeviceActivationResponse, err error) {
	ctx := b.Ctx.WithFields(log.Fields{
		"GatewayID": activation.GatewayMetadata.GatewayId,
		"AppEUI":    *activation.AppEui,
		"DevEUI":    *activation.DevEui,
	})
	start := time.Now()
	defer func() {
		if err != nil {
			ctx.WithError(err).Warn("Could not handle activation")
		} else {
			ctx.WithField("Duration", time.Now().Sub(start)).Info("Handled activation")
		}
	}()

	time := time.Now()

	b.status.activations.Mark(1)

	// De-duplicate uplink messages
	duplicates := b.deduplicateActivation(activation)
	if len(duplicates) == 0 {
		return nil, errDuplicateActivation
	}

	b.status.activationsUnique.Mark(1)

	base := duplicates[0]

	// Collect GatewayMetadata and DownlinkOptions
	var gatewayMetadata []*gateway.RxMetadata
	var downlinkOptions []*pb.DownlinkOption
	var deviceActivationResponse *pb.DeviceActivationResponse
	for _, duplicate := range duplicates {
		gatewayMetadata = append(gatewayMetadata, duplicate.GatewayMetadata)
		downlinkOptions = append(downlinkOptions, duplicate.DownlinkOptions...)
	}

	// Select best DownlinkOption
	if len(downlinkOptions) > 0 {
		deviceActivationResponse = &pb.DeviceActivationResponse{
			DownlinkOption: selectBestDownlink(downlinkOptions),
		}
	}

	// Build Uplink
	deduplicatedActivationRequest := &pb.DeduplicatedDeviceActivationRequest{
		Payload:            base.Payload,
		DevEui:             base.DevEui,
		AppEui:             base.AppEui,
		ProtocolMetadata:   base.ProtocolMetadata,
		GatewayMetadata:    gatewayMetadata,
		ActivationMetadata: base.ActivationMetadata,
		ServerTime:         time.UnixNano(),
		ResponseTemplate:   deviceActivationResponse,
	}

	// Send Activate to NS
	deduplicatedActivationRequest, err = b.ns.PrepareActivation(b.Component.GetContext(b.nsToken), deduplicatedActivationRequest)
	if err != nil {
		return nil, errors.Wrap(errors.FromGRPCError(err), "NetworkServer refused to prepare activation")
	}

	ctx = ctx.WithFields(log.Fields{
		"AppID": deduplicatedActivationRequest.AppId,
		"DevID": deduplicatedActivationRequest.DevId,
	})

	// Find Handler (based on AppEUI)
	var announcements []*pb_discovery.Announcement
	announcements, err = b.Discovery.GetAllHandlersForAppID(deduplicatedActivationRequest.AppId)
	if err != nil {
		return nil, err
	}
	if len(announcements) == 0 {
		return nil, errors.NewErrNotFound(fmt.Sprintf("Handler for AppID %s", deduplicatedActivationRequest.AppId))
	}

	ctx = ctx.WithField("NumHandlers", len(announcements))

	// LoRaWAN: Unmarshal and prepare version without MIC
	var phyPayload lorawan.PHYPayload
	err = phyPayload.UnmarshalBinary(deduplicatedActivationRequest.Payload)
	if err != nil {
		return nil, err
	}
	correctMIC := phyPayload.MIC
	phyPayload.MIC = [4]byte{0, 0, 0, 0}
	phyPayloadWithoutMIC, err := phyPayload.MarshalBinary()
	if err != nil {
		return nil, err
	}

	// Build Challenge
	challenge := &pb.ActivationChallengeRequest{
		Payload: phyPayloadWithoutMIC,
		AppId:   deduplicatedActivationRequest.AppId,
		DevId:   deduplicatedActivationRequest.DevId,
		AppEui:  deduplicatedActivationRequest.AppEui,
		DevEui:  deduplicatedActivationRequest.DevEui,
	}

	// Send Challenge to all handlers and collect responses
	var wg sync.WaitGroup
	responses := make(chan *challengeResponseWithHandler, len(announcements))
	for _, announcement := range announcements {
		conn, err := b.getHandlerConn(announcement.Id)
		if err != nil {
			ctx.WithError(err).Warn("Could not dial handler for Activation")
			continue
		}
		client := pb_handler.NewHandlerClient(conn)

		// Do async request
		wg.Add(1)
		go func(announcement *pb_discovery.Announcement) {
			res, err := client.ActivationChallenge(b.Component.GetContext(""), challenge)
			if err == nil && res != nil {
				responses <- &challengeResponseWithHandler{
					handler:  announcement,
					client:   client,
					response: res,
				}
			}
			wg.Done()
		}(announcement)
	}

	// Make sure to close channel when all requests are done
	go func() {
		wg.Wait()
		close(responses)
	}()

	var gotFirst bool
	var joinHandler *pb_discovery.Announcement
	var joinHandlerClient pb_handler.HandlerClient
	for res := range responses {
		var phyPayload lorawan.PHYPayload
		err = phyPayload.UnmarshalBinary(res.response.Payload)
		if err != nil {
			continue
		}
		if phyPayload.MIC != correctMIC {
			continue
		}

		if gotFirst {
			ctx.Warn("Duplicate Activation Response")
		} else {
			gotFirst = true
			joinHandler = res.handler
			joinHandlerClient = res.client
		}
	}

	// Activation not accepted by any broker
	if !gotFirst {
		ctx.Debug("Activation not accepted by any Handler")
		return nil, errors.New("Activation not accepted by any Handler")
	}

	ctx.WithField("HandlerID", joinHandler.Id).Debug("Forward Activation")

	handlerResponse, err := joinHandlerClient.Activate(b.Component.GetContext(""), deduplicatedActivationRequest)
	if err != nil {
		return nil, errors.Wrap(errors.FromGRPCError(err), "Handler refused activation")
	}
	handlerResponse, err = b.ns.Activate(b.Component.GetContext(b.nsToken), handlerResponse)
	if err != nil {
		return nil, errors.Wrap(errors.FromGRPCError(err), "NetworkServer refused activation")
	}

	res = &pb.DeviceActivationResponse{
		Payload:        handlerResponse.Payload,
		Message:        handlerResponse.Message,
		DownlinkOption: handlerResponse.DownlinkOption,
	}

	return res, nil
}
Example #7
0
func (n *networkServer) HandlePrepareActivation(activation *pb_broker.DeduplicatedDeviceActivationRequest) (*pb_broker.DeduplicatedDeviceActivationRequest, error) {
	if activation.AppEui == nil || activation.DevEui == nil {
		return nil, errors.NewErrInvalidArgument("Activation", "missing AppEUI or DevEUI")
	}
	dev, err := n.devices.Get(*activation.AppEui, *activation.DevEui)
	if err != nil {
		return nil, err
	}
	activation.AppId = dev.AppID
	activation.DevId = dev.DevID

	// Get activation constraints (for DevAddr prefix selection)
	activationConstraints := strings.Split(dev.Options.ActivationConstraints, ",")
	if len(activationConstraints) == 1 && activationConstraints[0] == "" {
		activationConstraints = []string{}
	}
	activationConstraints = append(activationConstraints, "otaa")

	// Build activation metadata if not present
	if meta := activation.GetActivationMetadata(); meta == nil {
		activation.ActivationMetadata = &pb_protocol.ActivationMetadata{}
	}
	// Build lorawan metadata if not present
	if lorawan := activation.ActivationMetadata.GetLorawan(); lorawan == nil {
		return nil, errors.NewErrInvalidArgument("Activation", "missing LoRaWAN metadata")
	}

	// Build response template if not present
	if pld := activation.GetResponseTemplate(); pld == nil {
		return nil, errors.NewErrInvalidArgument("Activation", "missing response template")
	}
	lorawanMeta := activation.ActivationMetadata.GetLorawan()

	// Get a random device address
	devAddr, err := n.getDevAddr(activationConstraints...)
	if err != nil {
		return nil, err
	}

	// Set the DevAddr in the Activation Metadata
	lorawanMeta.DevAddr = &devAddr

	// Build JoinAccept Payload
	phy := lorawan.PHYPayload{
		MHDR: lorawan.MHDR{
			MType: lorawan.JoinAccept,
			Major: lorawan.LoRaWANR1,
		},
		MACPayload: &lorawan.JoinAcceptPayload{
			NetID:      n.netID,
			DLSettings: lorawan.DLSettings{RX2DataRate: uint8(lorawanMeta.Rx2Dr), RX1DROffset: uint8(lorawanMeta.Rx1DrOffset)},
			RXDelay:    uint8(lorawanMeta.RxDelay),
			DevAddr:    lorawan.DevAddr(devAddr),
		},
	}
	if lorawanMeta.CfList != nil {
		var cfList lorawan.CFList
		for i, cfListItem := range lorawanMeta.CfList.Freq {
			cfList[i] = cfListItem
		}
		phy.MACPayload.(*lorawan.JoinAcceptPayload).CFList = &cfList
	}

	// Set the Payload
	phyBytes, err := phy.MarshalBinary()
	if err != nil {
		return nil, err
	}
	activation.ResponseTemplate.Payload = phyBytes

	return activation, nil
}
Example #8
0
func TestHandleUplink(t *testing.T) {
	a := New(t)

	b := getTestBroker(t)

	gtwID := "eui-0102030405060708"

	// Invalid Payload
	err := b.HandleUplink(&pb.UplinkMessage{
		Payload:          []byte{0x01, 0x02, 0x03},
		GatewayMetadata:  &gateway.RxMetadata{Snr: 1.2, GatewayId: gtwID},
		ProtocolMetadata: &protocol.RxMetadata{},
	})
	a.So(err, ShouldNotBeNil)

	// Valid Payload
	phy := lorawan.PHYPayload{
		MHDR: lorawan.MHDR{
			MType: lorawan.UnconfirmedDataUp,
			Major: lorawan.LoRaWANR1,
		},
		MACPayload: &lorawan.MACPayload{
			FHDR: lorawan.FHDR{
				DevAddr: lorawan.DevAddr([4]byte{1, 2, 3, 4}),
				FCnt:    1,
			},
		},
	}
	bytes, _ := phy.MarshalBinary()

	// Device not found
	b.uplinkDeduplicator = NewDeduplicator(10 * time.Millisecond)
	b.ns.EXPECT().GetDevices(gomock.Any(), gomock.Any()).Return(&pb_networkserver.DevicesResponse{
		Results: []*pb_lorawan.Device{},
	}, nil)
	err = b.HandleUplink(&pb.UplinkMessage{
		Payload:          bytes,
		GatewayMetadata:  &gateway.RxMetadata{Snr: 1.2, GatewayId: gtwID},
		ProtocolMetadata: &protocol.RxMetadata{Protocol: &protocol.RxMetadata_Lorawan{Lorawan: &pb_lorawan.Metadata{}}},
	})
	a.So(err, ShouldHaveSameTypeAs, &errors.ErrNotFound{})

	devEUI := types.DevEUI{1, 2, 3, 4, 5, 6, 7, 8}
	wrongDevEUI := types.DevEUI{1, 2, 3, 4, 5, 6, 7, 9}
	appEUI := types.AppEUI{1, 2, 3, 4, 5, 6, 7, 8}
	appID := "appid-1"
	nwkSKey := types.NwkSKey{1, 2, 3, 4, 5, 6, 7, 8, 1, 2, 3, 4, 5, 6, 7, 8}

	// Add devices
	b = getTestBroker(t)
	nsResponse := &pb_networkserver.DevicesResponse{
		Results: []*pb_lorawan.Device{
			&pb_lorawan.Device{
				DevEui:  &wrongDevEUI,
				AppEui:  &appEUI,
				AppId:   appID,
				NwkSKey: &nwkSKey,
				FCntUp:  4,
			},
			&pb_lorawan.Device{
				DevEui:  &devEUI,
				AppEui:  &appEUI,
				AppId:   appID,
				NwkSKey: &nwkSKey,
				FCntUp:  3,
			},
		},
	}
	b.handlers["handlerID"] = &handler{uplink: make(chan *pb.DeduplicatedUplinkMessage, 10)}

	// Device doesn't match
	b.uplinkDeduplicator = NewDeduplicator(10 * time.Millisecond)
	b.ns.EXPECT().GetDevices(gomock.Any(), gomock.Any()).Return(nsResponse, nil)
	err = b.HandleUplink(&pb.UplinkMessage{
		Payload:          bytes,
		GatewayMetadata:  &gateway.RxMetadata{Snr: 1.2, GatewayId: gtwID},
		ProtocolMetadata: &protocol.RxMetadata{Protocol: &protocol.RxMetadata_Lorawan{Lorawan: &pb_lorawan.Metadata{}}},
	})
	a.So(err, ShouldHaveSameTypeAs, &errors.ErrNotFound{})

	phy.SetMIC(lorawan.AES128Key{1, 2, 3, 4, 5, 6, 7, 8, 1, 2, 3, 4, 5, 6, 7, 8})
	bytes, _ = phy.MarshalBinary()

	// Wrong FCnt
	b.uplinkDeduplicator = NewDeduplicator(10 * time.Millisecond)
	b.ns.EXPECT().GetDevices(gomock.Any(), gomock.Any()).Return(nsResponse, nil)
	err = b.HandleUplink(&pb.UplinkMessage{
		Payload:          bytes,
		GatewayMetadata:  &gateway.RxMetadata{Snr: 1.2, GatewayId: gtwID},
		ProtocolMetadata: &protocol.RxMetadata{Protocol: &protocol.RxMetadata_Lorawan{Lorawan: &pb_lorawan.Metadata{}}},
	})
	a.So(err, ShouldHaveSameTypeAs, &errors.ErrNotFound{})

	// Disable FCnt Check
	b.uplinkDeduplicator = NewDeduplicator(10 * time.Millisecond)
	nsResponse.Results[0].DisableFCntCheck = true
	b.ns.EXPECT().GetDevices(gomock.Any(), gomock.Any()).Return(nsResponse, nil)
	b.ns.EXPECT().Uplink(gomock.Any(), gomock.Any())
	b.discovery.EXPECT().GetAllHandlersForAppID("appid-1").Return([]*pb_discovery.Announcement{
		&pb_discovery.Announcement{
			Id: "handlerID",
		},
	}, nil)
	err = b.HandleUplink(&pb.UplinkMessage{
		Payload:          bytes,
		GatewayMetadata:  &gateway.RxMetadata{Snr: 1.2, GatewayId: gtwID},
		ProtocolMetadata: &protocol.RxMetadata{Protocol: &protocol.RxMetadata_Lorawan{Lorawan: &pb_lorawan.Metadata{}}},
	})
	a.So(err, ShouldBeNil)

	// OK FCnt
	b.uplinkDeduplicator = NewDeduplicator(10 * time.Millisecond)
	nsResponse.Results[0].FCntUp = 0
	nsResponse.Results[0].DisableFCntCheck = false
	b.ns.EXPECT().GetDevices(gomock.Any(), gomock.Any()).Return(nsResponse, nil)
	b.ns.EXPECT().Uplink(gomock.Any(), gomock.Any())
	b.discovery.EXPECT().GetAllHandlersForAppID("appid-1").Return([]*pb_discovery.Announcement{
		&pb_discovery.Announcement{
			Id: "handlerID",
		},
	}, nil)
	err = b.HandleUplink(&pb.UplinkMessage{
		Payload:          bytes,
		GatewayMetadata:  &gateway.RxMetadata{Snr: 1.2, GatewayId: gtwID},
		ProtocolMetadata: &protocol.RxMetadata{Protocol: &protocol.RxMetadata_Lorawan{Lorawan: &pb_lorawan.Metadata{}}},
	})
	a.So(err, ShouldBeNil)
}
Example #9
0
func (h *handler) ConvertToLoRaWAN(ctx log.Interface, appDown *types.DownlinkMessage, ttnDown *pb_broker.DownlinkMessage) error {
	// Find Device
	dev, err := h.devices.Get(appDown.AppID, appDown.DevID)
	if err != nil {
		return err
	}

	// LoRaWAN: Unmarshal Downlink
	var phyPayload lorawan.PHYPayload
	err = phyPayload.UnmarshalBinary(ttnDown.Payload)
	if err != nil {
		return err
	}
	macPayload, ok := phyPayload.MACPayload.(*lorawan.MACPayload)
	if !ok {
		return errors.NewErrInvalidArgument("Downlink", "does not contain a MAC payload")
	}
	if ttnDown.DownlinkOption != nil && ttnDown.DownlinkOption.ProtocolConfig.GetLorawan() != nil {
		macPayload.FHDR.FCnt = ttnDown.DownlinkOption.ProtocolConfig.GetLorawan().FCnt
	}

	// Abort when downlink not needed
	if len(appDown.PayloadRaw) == 0 && !macPayload.FHDR.FCtrl.ACK && len(macPayload.FHDR.FOpts) == 0 {
		return ErrNotNeeded
	}

	// Set FPort
	if appDown.FPort != 0 {
		macPayload.FPort = &appDown.FPort
	}

	// Set Payload
	if len(appDown.PayloadRaw) > 0 {
		macPayload.FRMPayload = []lorawan.Payload{&lorawan.DataPayload{Bytes: appDown.PayloadRaw}}
		if macPayload.FPort == nil || *macPayload.FPort == 0 {
			macPayload.FPort = pointer.Uint8(1)
		}
	} else {
		macPayload.FRMPayload = []lorawan.Payload{}
	}

	// Encrypt
	err = phyPayload.EncryptFRMPayload(lorawan.AES128Key(dev.AppSKey))
	if err != nil {
		return err
	}

	// Set MIC
	err = phyPayload.SetMIC(lorawan.AES128Key(dev.NwkSKey))
	if err != nil {
		return err
	}

	// Marshal
	phyPayloadBytes, err := phyPayload.MarshalBinary()
	if err != nil {
		return err
	}

	ttnDown.Payload = phyPayloadBytes

	return nil
}