loc-serv.go

		userInfo.LocationInfo.Longitude = append(userInfo.LocationInfo.Longitude, *longitude)
		userInfo.LocationInfo.Latitude = nil
		userInfo.LocationInfo.Latitude = append(userInfo.LocationInfo.Latitude, *latitude)

		userInfo.LocationInfo.Timestamp = &timeStamp
	}

	// Update User info in DB & Send notifications
	_ = rc.JSONSetEntry(baseKey+typeUser+":"+address, ".", convertUserInfoToJson(userInfo))
	checkNotificationRegisteredUsers(oldZoneId, zoneId, oldApId, accessPointId, address)
	checkNotificationRegisteredZones(oldZoneId, zoneId, oldApId, accessPointId, address)
	checkNotificationAreaCircle(address)
}

func updateZoneInfo(zoneId string, nbAccessPoints int, nbUnsrvAccessPoints int, nbUsers int) {
	// Get Zone Info from DB
	jsonZoneInfo, _ := rc.JSONGetEntry(baseKey+typeZone+":"+zoneId, ".")
	zoneInfo := convertJsonToZoneInfo(jsonZoneInfo)

	// Create new zone info if necessary
	if zoneInfo == nil {
		zoneInfo = new(ZoneInfo)
		zoneInfo.ZoneId = zoneId
		zoneInfo.ResourceURL = hostUrl.String() + basePath + "queries/zones/" + zoneId
	}

	previousNbUsers := zoneInfo.NumberOfUsers

	// Update info
	if nbAccessPoints != -1 {
		zoneInfo.NumberOfAccessPoints = int32(nbAccessPoints)
	}
	if nbUnsrvAccessPoints != -1 {
		zoneInfo.NumberOfUnserviceableAccessPoints = int32(nbUnsrvAccessPoints)
	}
	if nbUsers != -1 {
		zoneInfo.NumberOfUsers = int32(nbUsers)
	}

	// Update Zone info in DB & Send notifications
	_ = rc.JSONSetEntry(baseKey+typeZone+":"+zoneId, ".", convertZoneInfoToJson(zoneInfo))
	checkNotificationRegisteredZoneStatus(zoneId, "", int32(-1), int32(nbUsers), int32(-1), previousNbUsers)
}

func updateAccessPointInfo(zoneId string, apId string, conTypeStr string, opStatusStr string, nbUsers int, longitude *float32, latitude *float32) {
	// Get AP Info from DB
	jsonApInfo, _ := rc.JSONGetEntry(baseKey+typeZone+":"+zoneId+":"+typeAccessPoint+":"+apId, ".")
	apInfo := convertJsonToAccessPointInfo(jsonApInfo)

	// Create new AP info if necessary
	if apInfo == nil {
		apInfo = new(AccessPointInfo)
		apInfo.AccessPointId = apId
		apInfo.ResourceURL = hostUrl.String() + basePath + "queries/zones/" + zoneId + "/accessPoints/" + apId
	}

	previousNbUsers := apInfo.NumberOfUsers

	// Update info
	if opStatusStr != "" {
		opStatus := convertStringToOperationStatus(opStatusStr)
		apInfo.OperationStatus = &opStatus
	}
	if conTypeStr != "" {
		conType := convertStringToConnectionType(conTypeStr)
		apInfo.ConnectionType = &conType
	}
	if nbUsers != -1 {
		apInfo.NumberOfUsers = int32(nbUsers)
	}

	// Update position
	if longitude == nil || latitude == nil {
		apInfo.LocationInfo = nil
	} else {
		if apInfo.LocationInfo == nil {
			apInfo.LocationInfo = new(LocationInfo)
		}

		//we only support shape != 7 in locationInfo
		//Accuracy supported for shape 4, 5, 6 only, so ignoring it in our case (only support shape == 2)
		//apInfo.LocationInfo.Accuracy = 1
		apInfo.LocationInfo.Shape = 2
		apInfo.LocationInfo.Longitude = nil
		apInfo.LocationInfo.Longitude = append(apInfo.LocationInfo.Longitude, *longitude)
		apInfo.LocationInfo.Latitude = nil
		apInfo.LocationInfo.Latitude = append(apInfo.LocationInfo.Latitude, *latitude)

		seconds := time.Now().Unix()
		var timeStamp TimeStamp
		timeStamp.Seconds = int32(seconds)

		apInfo.LocationInfo.Timestamp = &timeStamp
	}

	// Update AP info in DB & Send notifications
	_ = rc.JSONSetEntry(baseKey+typeZone+":"+zoneId+":"+typeAccessPoint+":"+apId, ".", convertAccessPointInfoToJson(apInfo))
	checkNotificationRegisteredZoneStatus(zoneId, apId, int32(nbUsers), int32(-1), previousNbUsers, int32(-1))
}

func zoneStatusReInit() {
	//reusing the object response for the get multiple zoneStatusSubscription
	var zoneList NotificationSubscriptionList

	keyName := baseKey + typeZoneStatusSubscription + "*"
	_ = rc.ForEachJSONEntry(keyName, populateZoneStatusList, &zoneList)

	maxZoneStatusSubscriptionId := 0
	mutex.Lock()
	defer mutex.Unlock()
	for _, zone := range zoneList.ZoneStatusSubscription {
		resourceUrl := strings.Split(zone.ResourceURL, "/")
		subscriptionId, err := strconv.Atoi(resourceUrl[len(resourceUrl)-1])
		if err != nil {
			log.Error(err)
		} else {
			if subscriptionId > maxZoneStatusSubscriptionId {
				maxZoneStatusSubscriptionId = subscriptionId
			}

			var zoneStatus ZoneStatusCheck
			opStatus := zone.OperationStatus
			if opStatus != nil {
				for i := 0; i < len(opStatus); i++ {
					switch opStatus[i] {
					case SERVICEABLE:
						zoneStatus.Serviceable = true
					case UNSERVICEABLE:
						zoneStatus.Unserviceable = true
					case OPSTATUS_UNKNOWN:
						zoneStatus.Unknown = true
					default:
					}
				}
			}
			zoneStatus.NbUsersInZoneThreshold = zone.NumberOfUsersZoneThreshold
			zoneStatus.NbUsersInAPThreshold = zone.NumberOfUsersAPThreshold
			zoneStatus.ZoneId = zone.ZoneId
			zoneStatusSubscriptionMap[subscriptionId] = &zoneStatus
		}
	}
	nextZoneStatusSubscriptionIdAvailable = maxZoneStatusSubscriptionId + 1
}

func zonalTrafficReInit() {
	//reusing the object response for the get multiple zonalSubscription
	var zoneList NotificationSubscriptionList

	keyName := baseKey + typeZonalSubscription + "*"
	_ = rc.ForEachJSONEntry(keyName, populateZonalTrafficList, &zoneList)

	maxZonalSubscriptionId := 0
	mutex.Lock()
	defer mutex.Unlock()
	for _, zone := range zoneList.ZonalTrafficSubscription {
		resourceUrl := strings.Split(zone.ResourceURL, "/")
		subscriptionId, err := strconv.Atoi(resourceUrl[len(resourceUrl)-1])
		if err != nil {
			log.Error(err)
		} else {
			if subscriptionId > maxZonalSubscriptionId {
				maxZonalSubscriptionId = subscriptionId
			}

			for i := 0; i < len(zone.UserEventCriteria); i++ {
				switch zone.UserEventCriteria[i] {
				case ENTERING_EVENT:
					zonalSubscriptionEnteringMap[subscriptionId] = zone.ZoneId
				case LEAVING_EVENT:
					zonalSubscriptionLeavingMap[subscriptionId] = zone.ZoneId
				case TRANSFERRING_EVENT:
					zonalSubscriptionTransferringMap[subscriptionId] = zone.ZoneId
				default:
				}
			}
			zonalSubscriptionMap[subscriptionId] = zone.ZoneId
		}
	}
	nextZonalSubscriptionIdAvailable = maxZonalSubscriptionId + 1
}

func userTrackingReInit() {
	//reusing the object response for the get multiple zonalSubscription
	var userList NotificationSubscriptionList

	keyName := baseKey + typeUserSubscription + "*"
	_ = rc.ForEachJSONEntry(keyName, populateUserTrackingList, &userList)

	maxUserSubscriptionId := 0
	mutex.Lock()
	defer mutex.Unlock()

	for _, user := range userList.UserTrackingSubscription {
		resourceUrl := strings.Split(user.ResourceURL, "/")
		subscriptionId, err := strconv.Atoi(resourceUrl[len(resourceUrl)-1])
		if err != nil {
			log.Error(err)
		} else {
			if subscriptionId > maxUserSubscriptionId {
				maxUserSubscriptionId = subscriptionId
			}

			for i := 0; i < len(user.UserEventCriteria); i++ {
				switch user.UserEventCriteria[i] {
				case ENTERING_EVENT:
					userSubscriptionEnteringMap[subscriptionId] = user.Address
				case LEAVING_EVENT:
					userSubscriptionLeavingMap[subscriptionId] = user.Address
				case TRANSFERRING_EVENT:
					userSubscriptionTransferringMap[subscriptionId] = user.Address
				default:
				}
			}
			userSubscriptionMap[subscriptionId] = user.Address
		}
	}
	nextUserSubscriptionIdAvailable = maxUserSubscriptionId + 1
}

func distanceReInit() {
	//reusing the object response for the get multiple zonalSubscription
	var distanceList NotificationSubscriptionList

	keyName := baseKey + typeDistanceSubscription + "*"
	_ = rc.ForEachJSONEntry(keyName, populateDistanceList, &distanceList)

	maxDistanceSubscriptionId := 0
	mutex.Lock()
	defer mutex.Unlock()

	for _, distanceSub := range distanceList.DistanceNotificationSubscription {
		resourceUrl := strings.Split(distanceSub.ResourceURL, "/")
		subscriptionId, err := strconv.Atoi(resourceUrl[len(resourceUrl)-1])
		if err != nil {
			log.Error(err)
		} else {
			if subscriptionId > maxDistanceSubscriptionId {
				maxDistanceSubscriptionId = subscriptionId
			}
			var distanceCheck DistanceCheck
			distanceCheck.Subscription = &distanceSub
			distanceCheck.NbNotificationsSent = 0
			if distanceSub.CheckImmediate {
				distanceCheck.NextTts = 0 //next time periodic trigger hits, will be forced to trigger
			} else {
				distanceCheck.NextTts = distanceSub.Frequency
			}
			distanceSubscriptionMap[subscriptionId] = &distanceCheck
		}
	}
	nextDistanceSubscriptionIdAvailable = maxDistanceSubscriptionId + 1
}

func areaCircleReInit() {
	//reusing the object response for the get multiple zonalSubscription
	var areaCircleList NotificationSubscriptionList

	keyName := baseKey + typeAreaCircleSubscription + "*"
	_ = rc.ForEachJSONEntry(keyName, populateAreaCircleList, &areaCircleList)

	maxAreaCircleSubscriptionId := 0
	mutex.Lock()
	defer mutex.Unlock()
	for _, areaCircleSub := range areaCircleList.CircleNotificationSubscription {
		resourceUrl := strings.Split(areaCircleSub.ResourceURL, "/")
		subscriptionId, err := strconv.Atoi(resourceUrl[len(resourceUrl)-1])
		if err != nil {
			log.Error(err)
		} else {
			if subscriptionId > maxAreaCircleSubscriptionId {
				maxAreaCircleSubscriptionId = subscriptionId
			}
			var areaCircleCheck AreaCircleCheck
			areaCircleCheck.Subscription = &areaCircleSub
			areaCircleCheck.NbNotificationsSent = 0
			areaCircleCheck.AddrInArea = map[string]bool{}
			if areaCircleSub.CheckImmediate {
				areaCircleCheck.NextTts = 0 //next time periodic trigger hits, will be forced to trigger
			} else {
				areaCircleCheck.NextTts = areaCircleSub.Frequency
			}
			areaCircleSubscriptionMap[subscriptionId] = &areaCircleCheck
		}
	}
	nextAreaCircleSubscriptionIdAvailable = maxAreaCircleSubscriptionId + 1
}

func periodicReInit() {
	//reusing the object response for the get multiple zonalSubscription
	var periodicList NotificationSubscriptionList

	keyName := baseKey + typePeriodicSubscription + "*"
	_ = rc.ForEachJSONEntry(keyName, populatePeriodicList, &periodicList)

	maxPeriodicSubscriptionId := 0
	mutex.Lock()
	defer mutex.Unlock()
	for _, periodicSub := range periodicList.PeriodicNotificationSubscription {
		resourceUrl := strings.Split(periodicSub.ResourceURL, "/")
		subscriptionId, err := strconv.Atoi(resourceUrl[len(resourceUrl)-1])
		if err != nil {
			log.Error(err)
		} else {
			if subscriptionId > maxPeriodicSubscriptionId {
				maxPeriodicSubscriptionId = subscriptionId
			}
			var periodicCheck PeriodicCheck
			periodicCheck.Subscription = &periodicSub
			periodicCheck.NextTts = periodicSub.Frequency
			periodicSubscriptionMap[subscriptionId] = &periodicCheck

		}
	}
	nextPeriodicSubscriptionIdAvailable = maxPeriodicSubscriptionId + 1
}

func distanceGet(w http.ResponseWriter, r *http.Request) {
	w.Header().Set("Content-Type", "application/json; charset=UTF-8")

	// Retrieve query parameters
	u, _ := url.Parse(r.URL.String())
	log.Info("url: ", u.RequestURI())
	q := u.Query()
	//requester := q.Get("requester")
	latitudeStr := q.Get("latitude")
	longitudeStr := q.Get("longitude")
	address := q["address"]

	if len(address) == 0 {
		log.Error("Query should have at least 1 'address' parameter")
		http.Error(w, "Query should have at least 1 'address' parameter", http.StatusBadRequest)
		return
	}
	if len(address) > 2 {
		log.Error("Query cannot have more than 2 'address' parameters")
		http.Error(w, "Query cannot have more than 2 'address' parameters", http.StatusBadRequest)
		return
	}
	if len(address) == 2 && (latitudeStr != "" || longitudeStr != "") {
		log.Error("Query cannot have 2 'address' parameters and 'latitude'/'longitude' parameters")
		http.Error(w, "Query cannot have 2 'address' parameters and 'latitude'/'longitude' parameters", http.StatusBadRequest)
		return
	}
	if (latitudeStr != "" && longitudeStr == "") || (latitudeStr == "" && longitudeStr != "") {
		log.Error("Query must provide a latitude and a longitude for a point to be valid")
		http.Error(w, "Query must provide a latitude and a longitude for a point to be valid", http.StatusBadRequest)
		return
	}
	if len(address) == 1 && latitudeStr == "" && longitudeStr == "" {
		log.Error("Query must provide either 2 'address' parameters or 1 'address' parameter and 'latitude'/'longitude' parameters")
		http.Error(w, "Query must provide either 2 'address' parameters or 1 'address' parameter and 'latitude'/'longitude' parameters", http.StatusBadRequest)
		return
	}

	validQueryParams := []string{"requester", "address", "latitude", "longitude"}

	//look for all query parameters to reject if any invalid ones
	found := false
	for queryParam := range q {
		found = false
		for _, validQueryParam := range validQueryParams {
			if queryParam == validQueryParam {
				found = true
				break
			}
		}
		if !found {
			log.Error("Query param not valid: ", queryParam)
			w.WriteHeader(http.StatusBadRequest)
			return
		}
	}

	srcAddress := address[0]
	dstAddress := ""
	if len(address) > 1 {
		dstAddress = address[1]
	}

	var distParam gisClient.TargetPoint
	distParam.AssetName = dstAddress

	if longitudeStr != "" {
		longitude, err := strconv.ParseFloat(longitudeStr, 32)
		if err != nil {
			log.Error(err.Error())
			http.Error(w, err.Error(), http.StatusInternalServerError)
			return
		}
		distParam.Longitude = float32(longitude)
	}

	if latitudeStr != "" {
		latitude, err := strconv.ParseFloat(latitudeStr, 32)
		if err != nil {
			log.Error(err.Error())
			http.Error(w, err.Error(), http.StatusInternalServerError)
			return
		}
		distParam.Latitude = float32(latitude)
	}
	distResp, _, err := gisAppClient.GeospatialDataApi.GetDistanceGeoDataByName(context.TODO(), srcAddress, distParam)
	if err != nil {
		errCodeStr := strings.Split(err.Error(), " ")
		if len(errCodeStr) > 0 {
			errCode, errStr := strconv.Atoi(errCodeStr[0])
			if errStr == nil {
				log.Error("Error code from gis-engine API : ", err)
				http.Error(w, err.Error(), errCode)
			} else {
				log.Error("Failed to communicate with gis engine: ", err)
				http.Error(w, err.Error(), http.StatusInternalServerError)
			}
		} else {
			log.Error("Failed to communicate with gis engine: ", err)
			http.Error(w, err.Error(), http.StatusInternalServerError)
		}
		return
	}

	var response InlineTerminalDistance
	var terminalDistance TerminalDistance
	terminalDistance.Distance = int32(distResp.Distance)

	seconds := time.Now().Unix()
	var timestamp TimeStamp
	timestamp.Seconds = int32(seconds)
	terminalDistance.Timestamp = &timestamp

	response.TerminalDistance = &terminalDistance

	// Send response
	jsonResponse, err := json.Marshal(response)
	if err != nil {
		log.Error(err.Error())
		http.Error(w, err.Error(), http.StatusInternalServerError)
		return
	}
	w.WriteHeader(http.StatusOK)
	fmt.Fprintf(w, string(jsonResponse))
}