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IoT Tips

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When an Expression Rule of type Data calls a Groovy script, the script is provided with the implicit object dataItems.  This example shows how the dataItems object can be used.to get the dataitem information (value, name, type and update time) import com.axeda.drm.sdk.data.* import com.axeda.drm.sdk.device.DataItem try {         def deviceName = context.device.name         // implicit object dataItems passes a list of dataItem objects         def dataItemsList = dataItems         for(dio in dataItemsList) {                logger.info("Checking " + dio.name + " Value: " + dio.value)                if(dio.name == "updateTime") {                        logger.info("Found: " + dio.name + " Value: " + dio.value + " Type: " +    dio.perceptType + " Last Updated: " + new Date(dio.timeInMillis)) // perceptType = analog, digital or string                }         } } catch (Exception e) {         logger.error e.message }
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This groovy script will return a list of DeviceGroups based off a given Asset's serialnumber. import com.axeda.drm.sdk.device.*; import com.axeda.drm.sdk.Context; Context sysContext = Context.create(); DeviceGroupFinder dgf = new DeviceGroupFinder(sysContext); DeviceFinder devFinder = new DeviceFinder(sysContext); devFinder.setSerialNumber("[your serialnumber here]"); Device myDevice= devFinder.find(); dgf.setDeviceId(myDevice.getId()); List<DeviceGroup> allGroups = dgf.findAll(); allGroups.each { group -> logger.debug(group.getName()); }
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This Groovy script gets the weather forecast for a given lat/long by calling an external web service. Use in an Expression rule like this: If: something Then: SetDataItem ("precipitation", round(ExecuteCustomObject ("GetPrecipitation", location) )) This sets the dataitem "precipitation" to the value returned by this script. Parameters: Variable Name               Display Name location                         localtion (lat, lon) import org.apache.commons.httpclient.methods.* import org.apache.commons.httpclient.* import java.text.SimpleDateFormat def location = parameters.location.toString() def locparts = location.split(',') def lat = locparts[0] def lon = locparts[1] def hostname = " www.weather.gov" def url = "/forecasts/xml/sample_products/browser_interface/ndfdXMLclient.php" String ndfdElement = "pop12" // see http://www.weather.gov/forecasts/xml/docs/elementInputNames.php def perceptTimeFormat = new SimpleDateFormat ("yyyy-MM-dd'T'HH:mm:ss"); def cal = Calendar.getInstance(); Date startDate = cal.getTime() cal.add(Calendar.HOUR,12) Date endDate = cal.getTime() def client = new HttpClient () HostConfiguration host = client.getHostConfiguration() host.setHost(hostname, 80, "http") GetMethod get = new GetMethod (url) NameValuePair [] params = new NameValuePair [6] params[0] = new NameValuePair ("lat", lat); params[1] = new NameValuePair ("lon", lon); params[2] = new NameValuePair ("product", 'time-series'); params[3] = new NameValuePair ("begin", perceptTimeFormat.format(startDate)); params[4] = new NameValuePair ("end", perceptTimeFormat.format(endDate)); params[5] = new NameValuePair (ndfdElement, ndfdElement); get.setQueryString(params) client.executeMethod(host, get); message = "Status:" + get.getStatusText() content = get.getResponseBodyAsString() get.releaseConnection() // parse result XML and compute average def dwml = new XmlSlurper ().parseText(content) readings = dwml.data.parameters."probability-of-precipitation".value.collect { Integer.parseInt(it.toString()) } average = readings.sum() / readings.size() //logger.info "Expected precipitation for $location is $readings" return readings[0]
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This Groovy script takes any dataitem values and writes them to properties of the same name - if they exist. The rule to call this script needs to be a data trigger such as: If: some condition Then: ExecuteCustomObject("CopyParameters") The script uses the default context that contains an asset (device) and the default parameter dataItems that contains the current reported dataitems (from an agent) import com.axeda.drm.sdk.user.User import com.axeda.drm.sdk.data.DataValue import groovy.lang.PropertyValue import com.axeda.drm.sdk.device.DevicePropertyFinder import com.axeda.drm.sdk.device.Property import com.axeda.drm.sdk.device.PropertyType import com.axeda.drm.sdk.device.DeviceProperty logger.info "Executing groovy script for device: " + context?.device?.serialNumber if (dataItems != null) {   logger.info "** Data Items **"   // show data item values   dataItems?.each {di ->     logger.info "dataitem: ${di.name} = ${di.value} = ${di.timestamp}" }   def dataItemMap = [:]   dataItems.each{ dataItemMap[it.name] = it }   DevicePropertyFinder dpf = new DevicePropertyFinder (context.context)   dpf.type = PropertyType.DEVICE_TYPE   dpf.id = context.device.id   DeviceProperty dp = dpf.findOne()   List<Property> props = dp.getProperties()   props.each {Property prop->     if (dataItemMap.containsKey(prop.name)) {       prop.value = dataItemMap[prop.name].value?.toString()       //logger.info "Setting ${prop.name} to ${dataItemMap[prop.name].value?.toString()}"     }   }   dp.store() }
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When an Expression Rule of type Alarm, AlarmExtendedDataChange, AlarmSeverityChange or AlarmStateChange calls a Groovy script, the script is provided with the implicit object alarm.  This example shows how the alarm object can be used. This Expression Rule uses the CountAlarmsSinceHours Groovy script to check the number of alarms in the past number of hours, and escalate the alarm if more than three alarms have occurred: IF    ExecuteCustomObject("CountAlarmsSinceHours", 1) < 3 THEN SetAlarmState("ACKNOWLEDGED", "Less than three alarms in the past hour") ELSE  SetAlarmState("ESCALATED", "THREE OR MORE alarms in the past hour") Here is the definition of the CountAlarmsSinceHours Groovy script.  The script uses the parameter 'hours' passed from the expression rule and the implicit object 'alarm'.  It returns the number of times the current alarm has occurred within 'hours' hours. import com.axeda.drm.sdk.Context import com.axeda.drm.sdk.data.HistoricalAlarmFinder import java.util.Calendar import com.axeda.common.sdk.jdbc.DateQuery // get Date object for an hour ago Calendar cal = Calendar.getInstance() cal.add(Calendar.HOUR, -parameters.hours.toInteger()) Date sinceTime = cal.getTime() HistoricalAlarmFinder findAlarms = new HistoricalAlarmFinder (Context.create()) findAlarms.device = alarm.device findAlarms.setAlarmName(alarm.name) findAlarms.date = DateQuery.after(sinceTime) List matchingAlarms = findAlarms.findAll()
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This code snippet shows how to add an existing Device to an existing DeviceGroup using a custom Groovy script executed by the Scripto web service. To call the script create a URL of the following form: http://<HOST>/services/v1/rest/Scripto/execute/addDeviceToDeviceGroup?us... NOTE: Text in angled brackets (< >) indicates a variable. Alternatively, this script can be called by an Expression Rule using the following form: If: Registration.first Then: ExecuteCustomObject("addDeviceToDeviceGroup","<ASSET_ID>","<GROUP_NAME>") It is worth noting that it is important when creating the Groovy script that the parameters be created in the order of the parameter list. import net.sf.json.JSONObject import com.axeda.drm.sdk.device.DeviceGroupFinder import com.axeda.drm.sdk.device.DeviceGroup import com.axeda.drm.sdk.Context import com.axeda.common.sdk.id.Identifier import com.axeda.drm.sdk.device.DeviceFinder def response = [:], status try {   if (parameters.assetId == null) { throw new IllegalArgumentException("parameter 'assetId' was not provided.")}   if (parameters.groupName == null) { throw new IllegalArgumentException("parameter 'groupName was not provided.")}   final def CONTEXT = Context.create(parameters.username)   def dgf = new DeviceGroupFinder(CONTEXT)   dgf.setName(parameters.groupName)   def group = dgf.find()   if (group == null) {     logger.error "could not retrieve group with name of '${parameters.groupName}'"     throw new Exception("could not retrieve group with id of '${parameters.groupName}'")   }   def df = new DeviceFinder(CONTEXT)   df.setId(new Identifier(parameters.assetId))   def device = df.find()   if (device == null) {     logger.error "could not retrieve asset with id of '${parameters.assetId}'"     throw new Exception("could not retrieve asset with id of '${parameters.assetId}'")   }   group.addDevice(device)   group.store()   // do a check to make sure the device is associated with the group.   group = dgf.find()   def devices = group.getDevices()   status = devices.contains(device) ? "success" : "failure"   // prepare the response.   response = [parameters: parameters, status: status] } catch (def e) {   logger.error e.getMessage()   response = [faultcode: e.getCause(), faultstring: e.getMessage()] } return ['Content-Type': 'application/json', 'Content': JSONObject.fromObject(response).toString(2)];
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This groovy script will return a list of users based off a given UserGroup and allows for filtering by username. import com.axeda.drm.sdk.Context import groovyx.net.http.HTTPBuilder import static groovyx.net.http.ContentType.* import static groovyx.net.http.Method.* import net.sf.json.JSONObject import groovy.json.* import com.axeda.drm.sdk.data.* import com.axeda.drm.sdk.device.* import com.axeda.drm.sdk.user.UserFinder import com.axeda.drm.sdk.user.User import com.axeda.drm.sdk.user.UserGroupFinder //-------------------------------------------------------------------------------------------------------------------- // Example of getting Users from a User Group and filtering by username // //-------------------------------------------------------------------------------------------------------------------- def response = [:] def result = [] try {     final def CONTEXT = Context.create(parameters.username)       UserFinder uFinder = new UserFinder(CONTEXT)     UserGroupFinder ugFinder = new UserGroupFinder(CONTEXT)     List userGroups = getUserGroupsList(ugFinder, "*Demo*")     List SmithsInDemoGroup = userGroups.collect{ usergroup ->         usergroup.getUsers().findResults{ user ->             if (user.username =~ /Smith/){                                      user                                      }                      }     }.flatten()     SmithsInDemoGroup.each{ u ->         result << u.fullName     }   response = [     result: [             items: result     ]   ] } catch (Exception e) {     def m = ""     e.message.each { ex -> m += ex }     response = [                 faultcode: 'Groovy Exception',                 faultstring: m             ]; } return ['Content-Type': 'application/json', 'Content': JSONObject.fromObject(response).toString(2)];   def getUserGroupsList(UserGroupFinder ugFinder, String name){     ugFinder.setName(StringQuery.like(name))     def userGroup = ugFinder.findOne()     List userGroups = new ArrayList();     userGroups.add(userGroup);     return userGroups }
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This script dumps all the alarms for a model or asset to JSON. Parameters (one or the other must be provided): modelName - (OPTIONAL) String - name of the model assetId - (OPTIONAL) String - id of the asset import com.axeda.common.sdk.id.Identifier import com.axeda.drm.sdk.Context import com.axeda.drm.sdk.audit.AuditCategory import com.axeda.drm.sdk.audit.AuditMessage import com.axeda.drm.sdk.scripto.Request import groovy.json.* import net.sf.json.JSONObject import java.net.URLDecoder import static com.axeda.sdk.v2.dsl.Bridges.* import com.axeda.services.v2.CustomObjectCriteria import com.axeda.services.v2.CustomObjectType import com.axeda.services.v2.CustomObject import com.axeda.services.v2.ExecutionResult import com.axeda.services.v2.ExtendedMap import com.axeda.drm.sdk.device.Model import com.axeda.drm.sdk.device.ModelFinder import com.axeda.drm.sdk.device.DeviceFinder import com.axeda.drm.sdk.device.Device import com.axeda.services.v2.ModelCriteria import com.axeda.services.v2.ModelType import com.axeda.services.v2.FindModelResult import com.axeda.services.v2.AssetCriteria import com.axeda.services.v2.FindAssetResult import com.axeda.services.v2.AlarmCriteria import com.axeda.sdk.v2.bridge.MobileLocationBridge import com.axeda.drm.sdk.mobilelocation.MobileLocationFinder import com.axeda.drm.sdk.mobilelocation.CurrentMobileLocationFinder import com.axeda.drm.sdk.mobilelocation.MobileLocation import com.axeda.drm.sdk.data.AlarmState import com.axeda.drm.sdk.data.AlarmFinder import com.axeda.drm.sdk.data.Alarm import com.axeda.platform.sdk.v1.services.ServiceFactory import com.axeda.drm.sdk.data.CurrentDataFinder import com.axeda.drm.sdk.device.DataItem import com.axeda.drm.sdk.data.HistoricalDataFinder import com.axeda.drm.sdk.data.DataValue import com.axeda.drm.sdk.data.DataValueList import com.axeda.platform.sdk.v1.services.extobject.ExtendedObjectSearchCriteria import com.axeda.common.date.DateRange import com.axeda.common.date.ExplicitDateRange /** * GetModel_Or_Asset_Alarms.groovy * ----------------------- * * Returns assets with organizations, alarms, and current mobile location. * * @params * modelName (OPTIONAL) Str - the name of the model to retrieve assets * assetId (OPTIONAL) Long - the id of the asset - one of the two is REQUIRED * * * @author sara streeter <sstreeter@axeda.com> * */ /** * initialize our global variables * json = the contents of our response * infoString = a stringBuilder used to collect debug information during the script * contentType = the content type we will return * scriptname = The name of this Script, used in multiple places */ def json = new groovy.json.JsonBuilder() def infoString = new StringBuilder() def contentType = "application/json" def scriptName = "GetModel_Or_Asset_Alarms.groovy" def root = [:] def timings = [:] timings.dataItemList = 0 timings.currentdata = 0 timings.histdata = 0 timings.wholescript = 0 timings.alarms = 0 timings.loop = 0 timings.filter = 0 timings.devices = 0 timings.geocode = 0 wholestart = System.currentTimeMillis() final def Context CONTEXT = Context.getSDKContext() def deviceList List<Device> devices try {     /* BUSINESS LOGIC GOES HERE */       def modelName = Request.parameters.modelName     def assetId     def alarms     AlarmFinder alarmFinder = new AlarmFinder(CONTEXT)       if (Request.parameters.assetId != null && Request.parameters.assetId != ""){         assetId = Request.parameters.assetId         DeviceFinder deviceFinder = new DeviceFinder(CONTEXT, new Identifier(assetId as Long));         def device = deviceFinder.find()         if (device){             alarmFinder.setDevice(device)             modelName = device.model.name         }     }     else if (modelName){               try{         modelName = new URLDecoder().decode(modelName)         }         catch(e){ logger.info(e.localizedMessage) }         if (modelName != null && modelName !=""){             ModelFinder modelFinder = new ModelFinder(CONTEXT)             modelFinder.setName(modelName)             Model model = modelFinder.find()                      if (model){                 modelName = model?.name                 alarmFinder.setModel(model)             }         }      }       alarms = alarmFinder.findAll()     // build the json from the models          root = [              "result": [              "model": modelName,              "assetId": assetId,              "alarms":alarms?.inject([]){ aList, alarm ->                    aList << [                         "deviceId": alarm.device?.id?.value,                        "deviceName": alarm.device.name,                        "deviceSerial": alarm.device.serialNumber,                         "name": alarm.name,                         "id": alarm.id.value,                         "state": alarm.state.name,                         "description": alarm.description,                         "severity": alarm.severity,                         "timestamp": alarm.date.time                    ]                                      aList               }             ]          ]     /* BUSINESS LOGIC ENDS HERE */ } catch (Exception e) {     def errorCode = "123456"     processException(scriptName,json,e,errorCode) } finally {     timings.wholescript = System.currentTimeMillis() - wholestart     root += [params: Request.parameters]     root += [timings: timings] } return ['Content-Type': 'application/json', 'Content': JSONObject.fromObject(root).toString(2)] /* * * ACTIVE CODE ENDS HERE * */ //---------------------------------------------------------------// /* * * HELPER METHODS START BELOW * */ /** * Wrap-up the response in our standard return map * @param contentType The global contentType variable * @param response The contents of the response (String ONLY) */ private def createReturnMap(String contentType, String response) {     return ["Content-Type": contentType,"Content":response] } /*     Processes the contents of an Exception and add it to the Errors collection     @param json The markup builder */ private def processException(String scriptName, JsonBuilder json, Exception e, String code) {     // catch the exception output     def logStringWriter = new StringWriter()     e.printStackTrace(new PrintWriter(logStringWriter))     logger.error("Exception occurred in ${scriptName}: ${logStringWriter.toString()}")     /*         Construct the error response         - errorCode Will be an element from an agreed upon enum         - errorMessage The text of the exception      */     json.errors  {         error {             errorCode   "${code}"             message     "[${scriptName}]: " + e.getMessage()             timestamp   "${System.currentTimeMillis()}"         }     }     return json } /*     Log a message. This will log a message and add it to info String     @param logger The injected logger     @param scriptName The name of the script being executed     @param info The infoString to append to     @param message The actual message to log */ private def logMessage(def logger, String scriptName, StringBuilder info, String message) {     logger.info(message)     info.append(message+"\n") } /*     Audit a message. This will store a message in the Audit log, based on the supplied category.     @param category The category for this audit message. One of: "scripting", "network", "device" or "data". Anything not recognized will be treated as "data".     @param message The actual message to audit     @param assetId If supplied, will associate the audit message with the asset at this ID */ private def auditMessage(String category, String message, String assetId) {     AuditCategory auditCategory = null     switch (category) {         case "scripting":             auditCategory = AuditCategory.SCRIPTING;             break;         case "network":             auditCategory = AuditCategory.NETWORK;             break;         case "device":             auditCategory = AuditCategory.DEVICE_COMMUNICATION;             break;         default:             auditCategory = AuditCategory.DATA_MANAGEMENT;             break;     }     if (assetId == null) {         new AuditMessage(Context.create(),"com.axeda.drm.rules.functions.AuditLogAction",auditCategory,[message]).store()     } else {         new AuditMessage(Context.create(),"com.axeda.drm.rules.functions.AuditLogAction",auditCategory,[message],new Identifier(Long.valueOf(assetId))).store()     } } def findOrCreateExtendedMap(String name){        // should take a name of Extended Map and output an object of type Extended Map, if it outputs null we throw an Exception        def outcome = [:]        outcome.extendedMap        ExtendedMap extendedMap = extendedMapBridge.find(name)        if (!extendedMap){             extendedMap = new ExtendedMap(name: name)            extendedMapBridge.create(extendedMap)        }        if (extendedMap) {         ExecutionResult result = new ExecutionResult()         result.setSuccessful(true)         result.setTotalCount(1)         outcome.result = result         outcome.extendedMap = extendedMap        }        else {            ExecutionResult result = new ExecutionResult()            result.setSuccessful(false)            result.setTotalCount(1)            outcome.result = result        }         return outcome    }    def retrieveModels(){       // retrieves the list populated by a separate script        def outcome = [:]        outcome.modelList        ModelCriteria modelCriteria = new ModelCriteria()        modelCriteria.type = ModelType.STANDALONE        FindModelResult modelResult = modelBridge.find(modelCriteria)        if (modelResult.models.size() > 0){         ExecutionResult result = new ExecutionResult()         result.setSuccessful(true)         result.setTotalCount(1)         outcome.result = result         outcome.modelList = modelResult.models        }        else {            ExecutionResult result = new ExecutionResult()            result.setSuccessful(false)            result.setTotalCount(1)            outcome.result = result        }         return outcome    }    def returnModelsWithAssets(List<com.axeda.services.v2.Model> modelList){        def outcome = [:]        outcome.modelList        outcome.message        if (!modelList || modelList?.size() ==0){            ExecutionResult result = new ExecutionResult()           result.setSuccessful(false)           result.setTotalCount(1)           outcome.result = result           outcome.message = "returnModelsWithAssets: Model list was not supplied or was of size zero."           return outcome        }        DeviceFinder deviceFinder = new DeviceFinder(CONTEXT)        ModelFinder modelFinder = new ModelFinder(CONTEXT)        List<com.axeda.drm.sdk.device.Model> sortedList = modelList.inject([]){ target, amodel ->             modelFinder.setName(amodel.modelNumber)            com.axeda.drm.sdk.device.Model bmodel = modelFinder.find()            deviceFinder.setModel(bmodel)            def numAssets = deviceFinder.findAll().size()            if (numAssets > 0 ){                   target << bmodel             }             target        }.sort{ amodel, bmodel ->  amodel.name <=> bmodel.name}        if (sortedList.size() > 0){         ExecutionResult result = new ExecutionResult()         result.setSuccessful(true)         result.setTotalCount(1)         outcome.result = result         outcome.modelList = sortedList        }        else {           ExecutionResult result = new ExecutionResult()           result.setSuccessful(false)           result.setTotalCount(1)           outcome.result = result       }         return outcome    }     def addMapEntry(String mapName, String key, String value){        def outcome = [:]         outcome.key         outcome.value         ExecutionResult result = extendedMapBridge.append(mapName, key, value)         outcome.result = result         if (result.successful){             outcome.key = key             outcome.value = value         }         return outcome    }
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This script finds an existing Expression Rule and applies it to an asset (via asset includes). Parameters: model - model name serial - serial number exprRuleName - name of the Expression Rule import static com.axeda.sdk.v2.dsl.Bridges.* import net.sf.json.JSONObject import com.axeda.drm.sdk.scripto.Request import com.axeda.services.v2.Asset import com.axeda.services.v2.AssetReference import com.axeda.services.v2.AssetCollection import com.axeda.services.v2.AssetCriteria import com.axeda.services.v2.ExpressionRule import com.axeda.services.v2.ExpressionRuleCriteria /* * ApplyExpRuleToAsset.groovy * * Finds an existing Expression Rule and includes an asset into it. * * @param model        -   (REQ):Str model of the asset. * @param serial        -   (REQ):Str serial number of the asset. * @param exprRuleName        -   (REQ):Str name of the Expression Rule. * * @author Sara Streeter <sstreeter@axeda.com> */ def response = [:] def root = [:] try {    AssetCriteria assetCriteria = new AssetCriteria()    assetCriteria.modelNumber = Request.parameters.model    assetCriteria.serialNumber = Request.parameters.serial    def findAssetResult = assetBridge.find(assetCriteria)    def asset = findAssetResult.assets[0]    ExpressionRuleCriteria expressionRuleCriteria = new ExpressionRuleCriteria()    expressionRuleCriteria.name = Request.parameters.exprRuleName    def expressionRuleFindResult = expressionRuleBridge.find(expressionRuleCriteria)    def expressionRule = expressionRuleFindResult.expressionRules[0]   def expAssets =  expressionRule.includedAssets.add(asset)   expressionRuleBridge.update(expressionRule)   response = [        "expressionRule":expressionRule.name,       "includedAsset": asset.serialNumber        ] } catch (Exception e) {      response = [             faultcode: 'Groovy Exception',             faultstring: e.message     ]; } return ["Content-Type": "application/json","Content":JSONObject.fromObject(response).toString(2)]
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import com.axeda.drm.sdk.Context import com.axeda.drm.sdk.device.ModelFinder import com.axeda.drm.sdk.device.Model import com.axeda.drm.sdk.device.DeviceFinder import com.axeda.drm.sdk.data.CurrentDataFinder import com.axeda.drm.sdk.device.Device import com.axeda.drm.sdk.data.HistoricalDataFinder import net.sf.json.JSONObject /* * DataItemEachDevice.groovy * * Find the current data item and historical data items for all assets in a given model. * * @param model_name        -   (REQ):Str name of the model. * @param data_item_name    -   (REQ):Str name of the data item to query on. * @param from_time         -   (REQ):Long millisecond timestamp to begin query from. * @param to_time           -   (REQ):Long millisecond timestamp to end query at. * * @note from_time and to_time should be provided because it limits the query size. * * @author Sara Streeter <sstreeter@axeda.com> */ def response = [:] // measure the script run time def timeProfiles = [:] def scriptStartTime = new Date() try { // getUserContext is supported as of release 6.1.5 and higher     final def CONTEXT = Context.getUserContext() // confirm that required parameters have been provided     validateParameters(actual: parameters, expected: ["model_name", "data_item_name", "from_time", "to_time"]) // find the model     def modelFinder = new ModelFinder(CONTEXT)     modelFinder.setName(parameters.model_name)     Model model = modelFinder.findOne() // throw exception if no model found     if (!model) {         throw new Exception("No model found for ${parameters.model_name}.")     } // find all assets of that model     def assetFinder = new DeviceFinder(CONTEXT)     assetFinder.setModel(model)     def assets = assetFinder.findAll() // find the current and historical data values for each asset //note: since device will be set on the datafinders going forward, a dummy device is set on instantiation which is not actually stored     def currentDataFinder = new CurrentDataFinder(CONTEXT, new Device(CONTEXT, "placeholder", model))     def historicalDataFinder = new HistoricalDataFinder(CONTEXT, new Device(CONTEXT, "placeholder", model))     historicalDataFinder.startDate = new Date(parameters.from_time as Long)     historicalDataFinder.endDate = new Date(parameters.to_time as Long) // assemble the response     assets = assets.collect { Device asset ->         currentDataFinder.device = asset         def currentValue = currentDataFinder.find(parameters.data_item_name)         historicalDataFinder.device = asset         def valueList = historicalDataFinder.find(currentValue?.dataItem)         [                 id: asset.id.value,                 name: asset.name,                 serialNumber: asset.serialNumber,                 model: [id: asset.model.id.value, name: asset.model.name],                 current_data: currentValue.asString(),                 historical_data: valueList.collect { [timestamp: it.getTimestamp().format("yyyyMMdd HH:mm"), value: it.asString()] }         ]     }     response = [result: [items: assets]] } catch (def ex) {     logger.error ex     response += [             error: [                     type: "Backend Application Error", msg: ex.getLocalizedMessage()             ]     ] } finally { // create and output the running time profile     timeProfiles << createTimeProfile("DataItemEachDevice", scriptStartTime, new Date())     response += [params: parameters, meta: [:], timeProfiles: timeProfiles] } return ['Content-Type': 'application/json', 'Content': JSONObject.fromObject(response).toString(2)] private Map createTimeProfile(String label, Date startTime, Date endTime) {     [             (label): [                     startTime: [timestamp: startTime.time, readable: startTime.toString()],                     endTime: [timestamp: endTime.time, readable: endTime.toString()],                     profile: [                             elapsed_millis: endTime.time - startTime.time,                             elapsed_secs: (endTime.time - startTime.time) / 1000                     ]             ]     ] } private validateParameters(Map args) {     if (!args.containsKey("actual")) {         throw new Exception("validateParameters(args) requires 'actual' key.")     }     if (!args.containsKey("expected")) {         throw new Exception("validateParameters(args) requires 'expected' key.")     }     def config = [             require_username: false     ]     Map actualParameters = args.actual.clone() as Map     List expectedParameters = args.expected     config.each { key, value ->         if (args.options?.containsKey(key)) {             config[key] = args.options[key]         }     }     if (!config.require_username) { actualParameters.remove("username") }     expectedParameters.each { paramName ->         if (!actualParameters.containsKey(paramName) || !actualParameters[paramName]) {             throw new IllegalArgumentException(                     "Parameter '${paramName}' was not found in the query; '${paramName}' is a reqd. parameter.")         }     } } Sample Output: {   "result": {     "items": [{       "id": 4240,       "name": "ASVM_9",       "serialNumber": "ASVM_9",       "model": {         "id": 1535,         "name": "SimVM4"       },       "current_data": "142.0",       "historical_data": [{         "timestamp": "20120331 17:00", "value": "142.0"       }, {         "timestamp": "20120331 16:59", "value": "143.0"       }, {         "timestamp": "20120331 16:59", "value": "144.0"       }, {         "timestamp": "20120331 16:58", "value": "145.0"       }, {         "timestamp": "20120331 16:58", "value": "146.0"       }, {         "timestamp": "20120331 16:57", "value": "147.0"       }, {         "timestamp": "20120331 16:57", "value": "148.0"       }, {         "timestamp": "20120330 19:30",         "value": "0.0"       }]     }, {       "id": 4246,       "name": "ASVM_12",       "serialNumber": "ASVM_12",       "model": {         "id": 1535,         "name": "SimVM4"       },       "current_data": "138.0",       "historical_data": [{         "timestamp": "20120331 17:00",        "value": "138.0"       }, {         "timestamp": "20120331 17:00",        "value": "139.0"       }, {         "timestamp": "20120331 16:59",        "value": "140.0"       }, {         "timestamp": "20120331 16:59",        "value": "141.0"       }, {         "timestamp": "20120331 16:59",        "value": "142.0"       }, {         "timestamp": "20120331 16:59",        "value": "143.0"       }, {         "timestamp": "20120330 19:32",         "value": "0.0"       }]      //      // MORE ASSETS HERE      //     }]   },   "params": {     "username": "sstreeter",     "from_time": "1332272219000",     "data_item_name": "CurrentStock",     "sessionid": "JOQ5I7ofRXYA-RnA37Vk93bRUH718yoFF5 9p0JbCnfyoHolFprf",     "model_name": "SimVM4",     "to_time": "1335469008000"   },   "meta": {},   "timeProfiles": {     "DataItemEachDevice": {       "startTime": {         "timestamp": 1335469168725,         "readable": "Thu Apr 26 19:39:28 GMT 2012"       },       "endTime": {         "timestamp": 1335469180569,         "readable": "Thu Apr 26 19:39:40 GMT 2012"       },       "profile": {         "elapsed_millis": 11844,         "elapsed_secs": 11.844       }     }   } }
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Email an attachment using bytes from a FileInfo Parameters: fileId - the identifier to a FileInfo that has been previously uploaded to the FileStore filename - the name of the attachment toaddress - the email address to send to fromaddress - the email address to send from import com.axeda.drm.util.Emailer; import com.axeda.drm.sdk.contact.Email import javax.mail.internet.AddressException; import javax.mail.internet.InternetAddress; import static com.axeda.sdk.v2.dsl.Bridges.* import com.axeda.services.v2.FileInfoCriteria import org.apache.commons.io.IOUtils import java.security.MessageDigest try {   String fromaddress = parameters.fromaddress   String toaddress = parameters.toaddress   def fileId = parameters.fileId   def filename = parameters.filename   String subject = "Axeda Test Attachment"   String body = "<html><head/><body><p style='background:blue;'>This email has an attachment and a blue background.</p></body></html>"   def thefile = new File(filename)   def inputStream = fileInfoBridge.getFileData(fileId)   byte[] bytes = IOUtils.toByteArray(inputStream);   thefile.setBytes(bytes)   def random_hash = md5('r');   def contentType = "multipart/mixed; boundary=--\"$random_hash\"\r\n"   def htmlType = "text/html" sendEmail(fromaddress, toaddress, subject,  body, contentType, thefile, false, htmlType) } catch (Exception e) { logger.error(e.localizedMessage) } return true def md5(String s) {     MessageDigest digest = MessageDigest.getInstance("MD5")     digest.update(s.bytes);     new BigInteger(1, digest.digest()).toString(16).padLeft(32, '0') } public void sendEmail(String fromAddress, String toAddress,String subject, String body, String encoding, File file, boolean compress, String mimeType) {     try {         Emailer.getInstance().send([new InternetAddress(toAddress)],new InternetAddress(fromAddress), subject,body, encoding, [file] as File[], compress, mimeType);     } catch (Exception ae) {         logger.error(ae.localizedMessage);     } }
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This tutorial applies to Axeda version 6.1.6+, with sections applicable to 6.5+ (indicated below) Custom objects (or Groovy scripts) are the backbone of Axeda custom applications.  As the developer, you decide what content type to give the data returned by the script. What this tutorial covers? This tutorial provides examples of outputting data in different formats from Groovy scripts and consuming that data via Javascript using the jQuery framework.  While Javascript and jQuery are preferred by the Axeda Innovation team, any front end technology that can consume web services can be used to build applications on the Axeda Machine Cloud.  On the same note, the formats discussed in this article are only a few examples of the wide variety of content types that Groovy scripts can output via Scripto.  The content types available via Scripto are limited only by their portability over the TCP protocol, a qualification which includes all text-based and downloadable binary mime types.  As of July 2013, the UDP protocol (content streaming) is not supported by the current version of the Axeda Platform. Formats discussed in this article: 1) JSON 2) XML 3) CSV 4) Binary content with an emphasis on image files (6.5+) For a tutorial on how to create custom objects that work with custom applications, check out Using Google Charts API with Scripto.  For a discussion of what Scripto is and how it relates to Groovy scripts and Axeda web services, take a look at Unleashing the Power of the Axeda Platform via Scripto. Serializing Data JSON For those building custom applications with Javascript, serializing data from scripts into JSON is a great choice, as the data is easily consumable as native Javascript objects. The net.sf.json JSON library is available to use in the SDK.  It offers an easy way to serialize objects on the Platform, particularly v2 SDK objects. import net.sf.json.JSONArray import static com.axeda.sdk.v2.dsl.Bridges.* def asset = assetBridge.findById(parameters.assetId) def response = JSONArray.fromObject(asset).toString(2) return ["Content-Type": "application/json", "Content": response] Outputs: [{     "buildVersion": "",     "condition": {         "detail": "",         "id": "3",         "label": "",         "restUrl": "",         "systemId": "3"     },     "customer": {         "detail": "",         "id": "2",         "label": "Default Organization",         "restUrl": "",         "systemId": "2"     },     "dateRegistered": {         "date": 11,         "day": 1,         "hours": 18,         "minutes": 7,         "month": 2,         "seconds": 49,         "time": 1363025269253,         "timezoneOffset": 0,         "year": 113     },     "description": "",     "detail": "testasset",     "details": null,     "gateways": [],     "id": "12345",     "label": "",     "location": {         "detail": "Default Organization",         "id": "2",         "label": "Default Location",         "restUrl": "",         "systemId": "2"     },     "model": {         "detail": "testmodel",         "id": "2345",         "label": "standalone",         "restUrl": "",         "systemId": "2345"     },     "name": "testasset",     "pingRate": 0,     "properties": [         {             "detail": "",             "id": "1",             "label": "TestProperty",             "name": "TestProperty",             "parentId": "2345",             "restUrl": "",             "systemId": "1",             "value": ""         },         {             "detail": "",             "id": "4",             "label": "TestProperty0",             "name": "TestProperty0",             "parentId": "2345",             "restUrl": "",             "systemId": "4",             "value": ""         },         {             "detail": "",             "id": "3",             "label": "TestProperty1",             "name": "TestProperty1",             "parentId": "2345",             "restUrl": "",             "systemId": "3",             "value": ""         },         {             "detail": "",             "id": "2",             "label": "TestProperty2",             "name": "TestProperty2",             "parentId": "2345",             "restUrl": "",             "systemId": "2",             "value": ""         }     ],     "restUrl": "",     "serialNumber": "testasset",     "sharedKey": [],     "systemId": "12345",     "timeZone": "GMT" }] This output can be traversed as Javascript object with its nodes accessible using dot (.) notation. For example, if you set the above JSON as the content of variable "json", you can access it in the following way, without any preliminary parsing needed: assert json[0].condition.id == 3 If you use jQuery, a Javascript library, feel free to make use of axeda.js, which contains utility functions to pass data to and from the Axeda Platform.  One function in particular is used in most example custom applications found on this site, the axeda.callScripto function.  It relies on the jQuery ajax function to make the underlying call. /**   * makes a call to the enterprise platform services with the name of a script and passes   * the script any parameters provided.   *   * default is GET if the method is unknown   *   * Notes: Added POST semantics - plombardi @ 2011-09-07   *   * original author: Zack Klink & Philip Lombardi   * added on: 2011/7/23   */ // options - localstoreoff: "yes" for no local storage, contentType: "application/json; charset=utf-8", axeda.callScripto = function (method, scriptName, scriptParams, attempts, callback, options) {   var reqUrl = axeda.host + SERVICES_PATH + 'Scripto/execute/' + scriptName + '?sessionid=' + SESSION_ID   var contentType = options.contentType ? options.contentType : "application/json; charset=utf-8"   var local   var daystring = keygen()   if (options.localstoreoff == null) {   if (localStorage) {   local = localStorage.getItem(scriptName + JSON.stringify(scriptParams))   }   if (local != null && local == daystring) {   return dfdgen(reqUrl + JSON.stringify(scriptParams))   } else {   localStorage.setItem(scriptName + JSON.stringify(scriptParams), daystring)   }   }   return $.ajax({   type: method,   url: reqUrl,   data: scriptParams,   contentType: contentType,   dataType: "text",   error: function () {   if (attempts) {   expiredSessionLogin();   setTimeout(function () {   axeda.callScripto('POST', scriptName, scriptParams, attempts - 1, callback, options)   }, 1500);   }   },   success: function (data) {   if (options.localstoreoff == null) {   localStorage.setItem(reqUrl + JSON.stringify(scriptParams), JSON.stringify([data]))   }   if (contentType.match("json")) {   callback(unwrapResponse(data))   } else {   callback(data)   }   }   }) }; Using the axeda.callScripto function: var postToPlatform = function (scriptname, callback, map) {         var options = {             localstoreoff: "yes",             contentType: "application/json; charset=utf-8"         }        // Javascript object "map" has to be stringified to post to Axeda Platform         axeda.callScripto("POST", scriptname, JSON.stringify(map), 2, function (json) {             // callback gets the JSON object output by the Groovy script             callback(json)         }, options)     } The JSON object is discussed in more detail here. Back to Top XML XML is the preferred language of integration with external applications and services. Groovy provides utilities to make XML serialization a trivial exercise. import groovy.xml.MarkupBuilder import static com.axeda.sdk.v2.dsl.Bridges.* def writer = new StringWriter() def xml = new MarkupBuilder(writer) def findAssetResult = assetBridge.find(new AssetCriteria(modelNumber: parameters.modelName)) // find operation returns AssetReference class. Contains asset id only def assets = findAssetResult.assets      xml.Response() {   Assets() {   assets.each { AssetReference assetRef ->   def asset = assetBridge.findById(assetRef.id)               // asset contains a ModelReference object instead of a Model.  ModelReference has a detail property, not a name property   Asset() {   id(asset.id)   name(asset.name)   serial_number(asset.serialNumber)   model_id(asset.model.id)   model_name(asset.model.detail)   }   }   }   } return ['Content-Type': 'text/xml', 'Content': writer.toString()] Output: <Assets>   <Asset>   <id>98765</id>   <name>testasset</name>   <serial_number>testasset</serial_number>   <model_id>4321</model_id>   <model_name>testmodel</model_name>   </Asset> </Assets Although XML is not a native Javascript object as is JSON, Javascript libraries and utilities are available for parsing XML into an object traversable in Javascript. For more information on parsing XML in Javascript, see W3 Schools XML Parser.  For those using jQuery, check out the jQuery.parseXML function. Back to Top Outputting Files (Binary content types) CSV CSV comes in handy for spreadsheet generation as it is compatible with Microsoft Excel. The following example is suitable for Axeda version 6.1.6+ as it makes use of the Data Accumulator feature to create a downloadable file. import com.axeda.drm.sdk.device.ModelFinder import com.axeda.drm.sdk.Context import com.axeda.drm.sdk.scripto.Request import com.axeda.common.sdk.id.Identifier import com.axeda.drm.sdk.device.Model import com.axeda.drm.sdk.device.DataItem import com.axeda.drm.sdk.device.DataItemValue import com.axeda.drm.sdk.data.DataValue import com.axeda.drm.sdk.device.DeviceFinder import com.axeda.drm.sdk.device.Device import com.axeda.drm.sdk.mobilelocation.MobileLocation import com.axeda.drm.sdk.data.DataValueList import com.axeda.drm.sdk.data.CurrentDataFinder import com.axeda.drm.sdk.mobilelocation.CurrentMobileLocationFinder import groovy.xml.MarkupBuilder import com.axeda.platform.sdk.v1.services.ServiceFactory /* * ExportObjectToCSV.groovy * * Creates a csv file from either all assets of a model of a single asset that can then be used to import them back into another system. * * @param model        -   (REQ):Str model name. * @param serial        -   (OPT):Str serial number. * * @author Sara Streeter <sstreeter@axeda.com> */ def writer = new StringWriter() def xml = new MarkupBuilder(writer) InputStream is try {    Context CONTEXT = Context.getSDKContext()    ModelFinder modelFinder = new ModelFinder(CONTEXT)     modelFinder.setName(Request.parameters.model)    Model model = modelFinder.find()    DeviceFinder deviceFinder = new DeviceFinder(CONTEXT)    deviceFinder.setModel(model)    List<Device> devices = [] def exportkey = model.name Device founddevice if (Request.parameters.serial){     deviceFinder.setSerialNumber(Request.parameters.serial)    founddevice = deviceFinder.find()    logger.info(founddevice?.serialNumber)    if (founddevice != null){    devices.add(founddevice)    }    else throw new Exception("Device ${Request.parameters.serial} cannot be found.")    exportkey += "${founddevice.serialNumber}" } else {     devices = deviceFinder.findAll()     exportkey += "all" } // use a Data Accumulator to store the information def dataStoreIdentifier = "FILE-CSV-export_____" + exportkey def daSvc = new ServiceFactory().dataAccumulatorService if (daSvc.doesAccumulationExist(dataStoreIdentifier, devices[0].id.value)) {   daSvc.deleteAccumulation(dataStoreIdentifier, devices[0].id.value) } List<DataItem> dataItemList = devices[0].model.dataItems def firstrow = [ "model", "serial", "devicename", "conditionname", "currentlat","currentlng" ]                     def tempfirstrow = dataItemList.inject([]){list, dataItem ->             list << dataItem.name;             list         }         firstrow += tempfirstrow            firstrow = firstrow.join(',')         firstrow += '\n'         daSvc.writeChunk(dataStoreIdentifier, devices[0].id.value, firstrow);     CurrentMobileLocationFinder currentMobileLocationFinder = new CurrentMobileLocationFinder(CONTEXT) devices.each{ device ->                 CurrentDataFinder currentDataFinder = new CurrentDataFinder(CONTEXT, device)                 currentMobileLocationFinder.deviceId = device.id.value                 MobileLocation mobileLocation = currentMobileLocationFinder.find()                 def lat = 0                 def lng = 0                 if (mobileLocation){                     lat = mobileLocation?.lat                     lng = mobileLocation?.lng                 }                 def row =                 [                     device.model.name,                     device.serialNumber,                     device.name,                     device.condition?.name,                     lat,                     lng                     ]                                     def temprow = dataItemList.inject([]){ subList,dataItem ->                         DataValue value = currentDataFinder.find(dataItem.name)                                             def val = "NULL"                         val = value?.asString() != "?" ? value?.asString() : val                         subList <<  val                         subList                     }                 row += temprow                 row = row.join(',')                 row += '\n'                 daSvc.writeChunk(dataStoreIdentifier, devices[0].id.value, row);             }    // stream the data accumulator to create the file is = daSvc.streamAccumulation(dataStoreIdentifier, devices[0].id.value) def disposition = 'attachment; filename=CSVFile' + exportkey + '.csv' return ['Content-Type': 'text/csv', 'Content-Disposition':disposition, 'Content': is.text] } catch (def ex) {    xml.Response() {        Fault {            Code('Groovy Exception')            Message(ex.getMessage())            StringWriter sw = new StringWriter();            PrintWriter pw = new PrintWriter(sw);            ex.printStackTrace(pw);            Detail(sw.toString())        }    } logger.info(writer.toString()) return ['Content-Type': 'text/xml', 'Content': writer.toString()] } return ['Content-Type': 'text/xml', 'Content': writer.toString()] Back to Top Image Files (6.5+) The FileStore in Axeda version 6.5+ allows fine-grained control of uploaded and downloaded files. As Groovy scripts can return binary data via Scripto, this allows use cases such as embedding a Groovy script url as the source for an image. The following example uses the FileStore API to create an Image out of a valid image file, scales it to a smaller size and stores this smaller file. import com.axeda.drm.sdk.Context import com.axeda.drm.sdk.data.* import com.axeda.drm.sdk.device.* import com.axeda.drm.sdk.mobilelocation.CurrentMobileLocationFinder import com.axeda.drm.sdk.mobilelocation.MobileLocation import com.axeda.drm.sdk.mobilelocation.MobileLocationFinder import com.axeda.sdk.v2.bridge.FileInfoBridge import static com.axeda.sdk.v2.dsl.Bridges.* import com.axeda.services.v2.ExecutionResult import com.axeda.services.v2.FileInfo import com.axeda.services.v2.FileInfoReference import com.axeda.services.v2.FileUploadSession import net.sf.json.JSONObject import groovy.json.JsonBuilder import net.sf.json.JSONArray import com.axeda.drm.sdk.scripto.Request import org.apache.commons.io.IOUtils import org.apache.commons.lang.exception.ExceptionUtils import com.axeda.common.sdk.id.Identifier import groovy.json.* import javax.imageio.ImageIO; import java.awt.RenderingHints import java.awt.image.BufferedImage import java.io.ByteArrayOutputStream; import java.awt.* import java.awt.geom.* import javax.imageio.* import java.awt.image.* import java.awt.Graphics2D import javax.imageio.stream.ImageInputStream /*    Image-specific FileStore entry point to post and store files */ def contentType = "application/json" final def serviceName = "StoreScaledImage" // Create a JSON Builder def json = new JsonBuilder() // Global try/catch. Gotta have it, you never know when your code will be exceptional! try {       Context CONTEXT = Context.getSDKContext()     def filesList = []     def datestring = new Date().time     InputStream inputStream = Request.inputStream       def reqbody = Request.body     // all of our Request Parameters are available here     def params = Request.parameters     def filename = Request?.headers?.'Content-Disposition' ?     Request?.headers?.'Content-Disposition' : "file___" + datestring + ".txt"     def filelabel = Request.parameters.filelabel ?: filename     def description = Request.parameters.description ?: filename     def contType = Request.headers?."content-type" ?: "image/jpeg"     def tag = Request.parameters.tag ?: "cappimg"     def encoded = Request.parameters.encoded?.toBoolean()   def dimlimit = params.dimlimit ? params.dimlimit : 280     // host is available in the headers when the script is called with AJAX     def domain = Request.headers?.host     byte[] bytes = IOUtils.toByteArray(inputStream);     def fileext = filename.substring(filename.indexOf(".") + 1,filename.size())     def outerMap = [:]     // check that file extension matches an image type     if (fileext ==~ /([^\s]+(\.(?i)(jpg|jpeg|png|gif|bmp))$)/){         if (inputStream.available() > 0) {                 def scaledImg                               try {                     def img = ImageIO.read(inputStream)                     def width = img?.width                              def height = img?.height                     def ratio = 1.0                     def newBytes                                       if (img){                                               if (width > dimlimit || height > dimlimit){                             // shrink by the smaller side so it can still be over the limit                             def dimtochange = width > height ? height : width                             ratio = dimlimit / dimtochange                                                       width = Math.floor(width * ratio).toInteger()                             height = Math.floor(height * ratio).toInteger()                         }                                             newBytes = doScale(img, width, height, ratio, fileext)                      if (newBytes?.size() > 0){                         bytes = newBytes                      }                     }                 }                 catch(Exception e){                     logger.info(e.localizedMessage)                                   }                                           outerMap.byteCount = bytes.size()                    FileInfoBridge fib = fileInfoBridge                 FileInfo myImageFile = new FileInfo(filelabel: filelabel,                                                     filename: filename,                                                     filesize: bytes?.size(),                                                     description: description,                                                     tags: tag                                                     )                    myImageFile.contentType = contType                    FileUploadSession fus = new FileUploadSession();                 fus.files = [myImageFile]                    ExecutionResult fer = fileUploadSessionBridge.create(fus);                 myImageFile.sessionId = fer.succeeded.getAt(0)?.id                               ExecutionResult fileInfoResult = fib.create(myImageFile)                               if (fileInfoResult.successful) {                     outerMap.fileInfoSave = "File Info Saved"                     outerMap.sessionId = "File Upload SessionID: "+fer.succeeded.getAt(0)?.id                     outerMap.fileInfoId = "FileInfo ID: "+fileInfoResult?.succeeded.getAt(0)?.id                     ExecutionResult er = fib.saveOrUpdate(fileInfoResult.succeeded.getAt(0).id,new ByteArrayInputStream(bytes))                     def fileInfoId = fileInfoResult?.succeeded.getAt(0)?.id                     String url = "${domain}/services/v1/rest/Scripto/execute/DownloadFile?fileId=${fileInfoId}"                     if (er.successful) {                         outerMap.url = url                     } else {                         outerMap.save = "false"                         logger.info(logFailure(er,outerMap))                     }                 } else {                     logger.info(logFailure(fileInfoResult, outerMap))                 }                } else {                 outerMap.bytesAvail = "No bytes found to upload"             }         } else {             outerMap.imagetype = "Extension $fileext is not a supported image file type."         }     filesList << outerMap     // return the JSONBuilder contents     // we specify the content type, and any object as the return (even an outputstream!)     return ["Content-Type": contentType,"Content":JSONArray.fromObject(filesList).toString(2)]     // alternately you may just want to serial an Object as JSON:     // return ["Content-Type": contentType,"Content":JSONArray.fromObject(invertedMessages).toString(2)] } catch (Exception e) {     // I knew you were exceptional!     // we'll capture the output of the stack trace and return it in JSON     json.Exception(             description: "Execution Failed!!! An Exception was caught...",             stack: ExceptionUtils.getFullStackTrace(e)     )     // return the output     return ["Content-Type": contentType, "Content": json.toPrettyString()] } def doScale(image, width, height, ratio, fileext){     if (image){     ByteArrayOutputStream baos = new ByteArrayOutputStream();     def bytes      def scaledImg = new BufferedImage( width, height, BufferedImage.TYPE_INT_RGB )        Graphics2D g = scaledImg.createGraphics();         g.setRenderingHint(RenderingHints.KEY_INTERPOLATION, RenderingHints.VALUE_INTERPOLATION_BILINEAR);         g.scale(ratio,ratio)         g.drawImage(image, null, null);         g.dispose();              ImageIO.write( scaledImg, fileext, baos )       baos.flush()       bytes = baos.toByteArray()       baos.close()     }     else {         logger.info("image to be scaled is null")         return false     }   return bytes   } private void logFailure(ExecutionResult fileInfoResult, LinkedHashMap outerMap) {     outerMap.message = fileInfoResult.failures.getAt(0)?.message     outerMap.source = fileInfoResult.failures.getAt(0)?.sourceOfFailure     outerMap.details = fileInfoResult.failures.getAt(0)?.details?.toString()     outerMap.fileInfoSave = "false" } The next example makes use of the jQuery framework to upload an image to this script via an http POST. Note: This snippet is available as a jsFiddle at http://jsfiddle.net/LrxWF/18/ With HTML5 button: <input type="file" id="fileinput" value="Upload" /> var PLATFORM_HOST = document.URL.split('/apps/')[0]; // this is how you would retrieve the host on an Axeda instance var SESSION_ID = null // usually retrieved from login function included below /*** * Depends on jQuery 1.7+ and HTML5, assumes an HTML5 element such as the following: * <input type="file" id="fileinput" value="Upload" /> * **/ $("#fileinput").off("click.filein").on("click.filein", function () {     fileUpload() }) var fileUpload = function () {     $("#fileinput").off('change.fileinput')     $("#fileinput").on('change.fileinput', function (event) {         if (this.files && this.files.length > 0) {             handleFiles("http://" + PLATFORM_HOST, this.files)         }     }) } var handleFiles = function (host, files) {     $.each(files, function (index, file) {         var formData = new FormData();         var filename = file.name         formData.append(filename, file)         var url = host + '/services/v1/rest/Scripto/execute/StoreScaledImage?filelabel=' + filename + "&tag=myimg"         url = setSessionId(url)         jQuery.ajax(url, {             beforeSend: function (xhr) {                 xhr.setRequestHeader('Content-Disposition', filename);             },             cache: false,             cache: false,             processData: false,             type: 'POST',             contentType: false,             data: formData,             success: function (json) {                 refreshPage(json)                 console.log(json)             }         });     }) } var setSessionId = function (url) {     // you would already have this from logging in     return url + "&sessionid=" + SESSION_ID } var refreshPage = function (json) {     // here you would refresh your page with the returned JSON     return } /*** *  The following functions are not used in this demonstration, however they are necessary for a complete app and are found in axeda.js  http://gist.github.com/axeda/4340789 ***/     function login(username, password, success, failure) {         var reqUrl = host + SERVICES_PATH + 'Auth/login';         localStorage.clear()         return $.get(reqUrl, {             'principal.username': username,                 'password': password         }, function (xml) {             var sessionId = $(xml).find("ns1\\:sessionId, sessionId").text()             // var sessionId = $(xml).find("[nodeName='ns1:sessionId']").text(); - no longer works past jquery 1.7             if (sessionId) {                 // set the username and password vars for future logins.                         storeSession(sessionId);                 success(SESSION_ID); // return the freshly stored contents of SESSION_ID             } else {                 failure($(xml).find("faultstring").text());             }         }).error(function () {             $('#loginerror').html('Login Failed, please try again')         });     }; function storeSession(sessionId) {     var date = new Date();     date.setTime(date.getTime() + SESSION_EXPIRATION);     SESSION_ID = sessionId     document.cookie = APP_NAME + '_sessionId=' + SESSION_ID + '; expires=' + date.toGMTString() + '; path=/';     return true; }; The return JSON includes a URL that you can use as the source for images: [{   "byteCount": 14863,   "fileInfoSave": "File Info Saved",   "sessionId": "File Upload SessionID: 01234",   "fileInfoId": "FileInfo ID: 12345",   "url": "http://yourdomain.axeda.com/services/v1/rest/Scripto/execute/DownloadFile?fileId=12345" }] The DownloadFile Custom Object looks like the following: import static com.axeda.sdk.v2.dsl.Bridges.* import javax.activation.MimetypesFileTypeMap import com.axeda.services.v2.* import com.axeda.sdk.v2.exception.* import com.axeda.drm.sdk.scripto.Request def knowntypes = [          [png: 'image/png']         ,[gif: 'image/gif']         ,[jpg: 'image/jpeg']     ] def params = Request.parameters.size() > 0 ? Request.parameters : parameters def response = fileInfoBridge.getFileData(params.fileId) def fileinfo = fileInfoBridge.findById(params.fileId) def type = fileinfo.filename.substring(fileinfo.filename.indexOf('.') + 1,fileinfo.filename.size()) type = returnType(knowntypes, type) def contentType = params.type ?: (type ?: 'image/jpg') return ['Content': response, 'Content-Disposition': contentType, 'Content-Type':contentType] def returnType(knowntypes, ext){     return knowntypes.find{ it.containsKey(ext) }?."$ext" } Make sure to append a valid session id to the end of the URL when using it as the source for an image. The techniques discussed above can be applied to any type of binary file output with consideration for the type of file being processed. A Word on Streaming Content streaming such as streaming of video or audio files over UDP is not currently supported by the Axeda Platform.
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This code snippet finds an uploaded file associated with an asset and emails it to a destination email address.  It uses a data accumulator to create a temporary file. import org.apache.commons.codec.binary.Base64; import java.util.Date; import java.util.Properties; import java.io.StringWriter import java.io.PrintWriter import com.axeda.drm.sdk.Context import com.axeda.drm.sdk.data.* import com.axeda.drm.sdk.device.* import groovy.json.JsonSlurper import javax.activation.DataHandler; import javax.activation.FileDataSource; import org.apache.axiom.attachments.ByteArrayDataSource; import com.axeda.platform.sdk.v1.services.ServiceFactory; import com.thoughtworks.xstream.XStream; import javax.mail.Authenticator; import javax.mail.Message; import javax.mail.MessagingException; import javax.mail.Multipart; import javax.mail.PasswordAuthentication; import javax.mail.Session; import javax.mail.Transport; import javax.mail.internet.AddressException; import javax.mail.internet.InternetAddress; import javax.mail.internet.MimeBodyPart; import javax.mail.internet.MimeMessage; import javax.mail.internet.MimeMultipart; try {     Context ctx = Context.create(parameters.username)     DeviceFinder dfinder = new DeviceFinder(ctx)     def bytes     dfinder.setSerialNumber(parameters.serial_number)     Device d = dfinder.find()     UploadedFileFinder uff = new UploadedFileFinder(ctx)     uff.device = d     def ufiles = uff.findAll()     UploadedFile ufile     if (ufiles.size() > 0) {         ufile = ufiles[0]         File f = ufile.extractFile()         def slurper = new JsonSlurper()         def objects = slurper.parseText(f.getText())         def bugreport = objects.objects[0].mobj_update[0].bugreport         String from = "demo@axeda.com";         String to = "destination@axeda.com";         String subject = "My file";         String mailContent = "Attaching test";         String filename = "payload.tar.gz";         def dataStoreIdentifier = "FILE-IO-SUB-testing"         def daSvc = new ServiceFactory().dataAccumulatorService         if (daSvc.doesAccumulationExist(dataStoreIdentifier, d.id.value)) {             daSvc.deleteAccumulation(dataStoreIdentifier, d.id.value)         }         daSvc.writeChunk(dataStoreIdentifier, d.id.value, bugreport);         InputStream is = daSvc.streamAccumulation(dataStoreIdentifier, d.id.value)         Base64 base64 = new Base64()         ByteArrayDataSource rawData = new ByteArrayDataSource(base64.decodeBase64(is.getBytes()));         // You need to create a properties object to store mail server         // smtp information such as the host name and the port number.         // With this properties we create a Session object from         // which we'll create the Message object.         Properties properties = new Properties();         properties.put("mail.smtp.host","mail01.bo2.axeda.com");         properties.put("mail.smtp.port", "25");         properties.put("mail.smtp.auth", "true");         Authenticator authenticator = new CustomAuthenticator();         Session session = Session.getInstance(properties, authenticator);         MimeMessage message = new MimeMessage(session);         message.setFrom(new InternetAddress(from));         message.setRecipient(Message.RecipientType.TO, new InternetAddress(to));         message.setSubject(subject);         message.setSentDate(new Date());         // Set the email message text.         MimeBodyPart messagePart = new MimeBodyPart();         messagePart.setText(mailContent);         // Set the email attachment file         MimeBodyPart attachmentPart = new MimeBodyPart();         //      FileDataSource fileDataSource = new FileDataSource(file)         attachmentPart.setDataHandler(new DataHandler(rawData))  //fileDataSource));         attachmentPart.setFileName(filename);         Multipart multipart = new MimeMultipart();         multipart.addBodyPart(messagePart);         multipart.addBodyPart(attachmentPart);         // Set the content         message.setContent(multipart);         // Send the message with attachment         Transport.send(message);     } } catch (Exception e) {     logger.info(e.message)     StringWriter logStringWriter = new StringWriter();     PrintWriter logPrintWriter = new PrintWriter(logStringWriter)     e.printStackTrace(logPrintWriter)     logger.info(logStringWriter.toString()) } // This class is the implementation of the Authenticator // Where you need to implement the getPasswordAuthentication // to provide the username and password public class CustomAuthenticator extends Authenticator {     protected PasswordAuthentication getPasswordAuthentication() {         String username = "";         String password = "";         return new PasswordAuthentication(username, password);     } } static byte[] getBytes(File file) throws IOException {     return getBytes(new FileInputStream(file)); } static byte[] getBytes(InputStream is) throws IOException {     ByteArrayOutputStream answer = new ByteArrayOutputStream(); // reading the content of the file within a byte buffer     byte[] byteBuffer = new byte[8192];     int nbByteRead /* = 0*/;     try {         while ((nbByteRead = is.read(byteBuffer)) != -1) { // appends buffer             answer.write(byteBuffer, 0, nbByteRead);         }     } finally {         is.close()     }     return answer.toByteArray(); }
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This code snippet creates then deletes a data item to illustrate CRUD technique. Parameter:  model_number import com.axeda.drm.sdk.Context import com.axeda.drm.sdk.device.ModelFinder import com.axeda.drm.sdk.device.Model import com.axeda.drm.sdk.device.DeviceFinder import com.axeda.drm.sdk.data.CurrentDataFinder import com.axeda.drm.sdk.device.Device import com.axeda.drm.sdk.data.HistoricalDataFinder import groovy.xml.MarkupBuilder import com.axeda.drm.sdk.device.DataItem import com.axeda.drm.services.device.DataItemType /* * DeleteDataItem.groovy * * Delete a data item. * * @param model_number        -   (REQ):Str name of the model. * * @author Sara Streeter <sstreeter@axeda.com> */ def response = [:] def writer = new StringWriter() def xml = new MarkupBuilder(writer) try { // getUserContext is supported as of release 6.1.5 and higher     final def CONTEXT = Context.getUserContext() // find the model     def modelFinder = new ModelFinder(CONTEXT)     modelFinder.setName(parameters.model_name)     Model model = modelFinder.findOne() // throw exception if no model found     if (!model) {         throw new Exception("No model found for ${parameters.model_name}.")     } // Add a dummy data item DataItem dataitem = new DataItem(CONTEXT, model, DataItemType.STRING, "MyDataItem"); dataitem.store(); // find the data items on the model model.dataItems.each{     logger.info(it.name)     if (it.name=="MyDataItem"){         it.delete()     } } } catch (def ex) {       xml.Response() {     Fault {           Code('Groovy Exception')           Message(ex.getMessage())           StringWriter sw = new StringWriter();           PrintWriter pw = new PrintWriter(sw);           ex.printStackTrace(pw);           Detail(sw.toString())         }       } } return ['Content-Type': 'text/xml', 'Content': writer.toString()]
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The following script takes a parameter of a model name, a device serial number and a data item name, finds the asset location and uses that longitude to determine the current TimeZone.  It then converts the Timezone of the data item timestamp to an Eastern Standard Timezone timestamp. import groovy.xml.MarkupBuilder import com.axeda.drm.sdk.Context import java.util.TimeZone import com.axeda.drm.sdk.data.* import com.axeda.drm.sdk.device.* import com.axeda.common.sdk.jdbc.*; import net.sf.json.JSONObject import net.sf.json.JSONArray import com.axeda.drm.sdk.mobilelocation.MobileLocationFinder import com.axeda.drm.sdk.mobilelocation.MobileLocation import com.axeda.drm.sdk.mobilelocation.CurrentMobileLocationFinder def response try {     Context ctx = Context.getUserContext()     ModelFinder mfinder = new ModelFinder(ctx)     mfinder.setName(parameters.model_name)     Model m = mfinder.find()     DeviceFinder dfinder = new DeviceFinder(ctx)     dfinder.setModel(m);     dfinder.setSerialNumber(parameters.device)     Device d = dfinder.find()     CurrentMobileLocationFinder cmlFinder = new CurrentMobileLocationFinder(ctx);     cmlFinder.setDeviceId(d.id.getValue());     MobileLocation ml = cmlFinder.find();     def lng = -72.158203125     if (ml?.lng){         lng = ml?.lng     }     // set boundaries for timezones - longitudes     def est = setUSTimeZone(-157.95415000000003)     def tz = setUSTimeZone(lng)     CurrentDataFinder cdfinder = new CurrentDataFinder(ctx, d)     DataValue dvalue = cdfinder.find(parameters.data_item_name)     def adjtime = convertToNewTimeZone(dvalue.getTimestamp(),tz,est)     def results = JSONObject.fromObject(lat: ml?.lat, lng: ml?.lng, current: [name: dvalue.dataItem.name, time: adjtime.format("MM/dd/yyyy HH:mm"), value: dvalue.asString()]).toString(2)     response = results } catch (Exception e) {     response = [                 message: "Error: " + e.message             ]     response =  JSONObject.fromObject(response).toString(2) } return ['Content-Type': 'application/json', 'Cache-Control':'no-cache', 'Content': response] def setUSTimeZone(lng){     TimeZone tz     // set boundaries for US timezones by longitude     if (lng <= -67.1484375 && lng > -85.517578125){         tz = TimeZone.getTimeZone("EST");     }     else if (lng <= -85.517578125 && lng > -96.591796875){         tz = TimeZone.getTimeZone("CST");     }     else if (lng <= -96.591796875 && lng > -113.90625){         tz = TimeZone.getTimeZone("MST");     }     else if (lng <= -113.90625){         tz = TimeZone.getTimeZone("PST");     }     logger.info(tz)     return tz } public Date convertToNewTimeZone(Date date, TimeZone oldTimeZone, TimeZone newTimeZone){     long oldDateinMilliSeconds=date.time - oldTimeZone.rawOffset     // oldtimeZone.rawOffset returns the difference(in milliSeconds) of time in that timezone with the time in GMT     // date.time returns the milliseconds of the date     Date dateInGMT=new Date(oldDateinMilliSeconds)     long convertedDateInMilliSeconds = dateInGMT.time + newTimeZone.rawOffset     Date convertedDate = new Date(convertedDateInMilliSeconds)     return convertedDate }
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The following script is a component of the Axeda Connected Configuration (CMDB) feature.  It is used to provide configuration data for controlling package deployments via Connected Content (SCM). ​ ConfigItem_CRU.groovy *Takes a POST request, not parameters import static com.axeda.sdk.v2.dsl.Bridges.* import com.axeda.drm.sdk.scripto.Request import com.axeda.services.v2.ConfigurationItem import com.axeda.services.v2.ConfigurationItemCriteria import com.axeda.services.v2.AssetConfiguration import com.axeda.services.v2.Asset import com.axeda.services.v2.ExecutionResult import groovy.json.JsonSlurper import net.sf.json.JSONObject import groovy.xml.MarkupBuilder /** * ConfigItem_CRU.groovy * ----------------------- * * Reads in json from an http post request and reads, adds, deletes or updates Configuration Items. * * * @note this parses a post and does not take any additional parameters. * * @author sara streeter <sstreeter@axeda.com> */ def contentType = "application/json" final def serviceName = "ConfigItem_CRU" def response = [:] def writer = new StringWriter() def xml = new MarkupBuilder(writer) try {     // BUSINESS LOGIC BEGIN     def assetId     def validationOnly     def validationResponse = ""     List<ConfigurationItem> configItemList     if (Request?.body != null && Request?.body !="") {         def slurper = new JsonSlurper()         def request = slurper.parseText(Request?.body)         assetId = request.result.assetId         validationOnly = request.result.validationOnly?.toBoolean()         if (request.result.items != null && request.result.items.size() > 0){             configItemList = request.result.items.inject([]) { target, item ->               if (item && item.path != "" && item.key != "" && item.path != null && item.key != null){                     ConfigurationItem configItem = new ConfigurationItem()                     configItem.path = item.path + item.key                     configItem.value = item.value                     target << configItem                 }                 target             }         }     }       if (assetId != null) {               def asset = assetBridge.find([assetId])[0]             AssetConfiguration config = assetConfigurationBridge.getAssetConfiguration(assetId, "")               def itemToDelete                        if (config == null) {                     createConfigXML(xml)                     AssetConfiguration configToCreate = assetConfigurationBridge.fromXml(writer.toString(), asset.id)                     ExecutionResult result = assetConfigurationBridge.create(configToCreate)                     AssetConfiguration config2 = assetConfigurationBridge.getAssetConfiguration(asset.id, "")                     config = config2                     itemToDelete = "/Item"                 }                 if (configItemList != null && configItemList?.size() > 0){                 List<ConfigurationItem> compareList = config.items                 def intersectingCompareItems = compareList.inject(["save": [], "delete": []]) { map, item ->                     // find whether to delete                     def foundItem = configItemList.findAll{ compare -> item?.path == compare?.path && item?.value == compare?.value  }                     map[foundItem.size() > 0 ? "save" : "delete"] << item                     map                 }               intersectingCompareItems.delete = intersectingCompareItems.delete.collect{it.path}               if (itemToDelete){                 intersectingCompareItems.delete.add(itemToDelete)               }                 def intersectingConfigItems = configItemList.inject(["old": [], "new": []]) { map, item ->                     // find whether it's old                     def foundItem = compareList.findAll{ compare -> item?.path == compare?.path && item?.value == compare?.value }                     map[foundItem.size() > 0 ? "old" : "new"] << item                     map                 }                 assetConfigurationBridge.deleteConfigurationItems(config, intersectingCompareItems.delete)                 assetConfigurationBridge.appendConfigurationItems(config, intersectingConfigItems.new)               def exResult = assetConfigurationBridge.validate(config)               if (exResult.successful){                     validationResponse = "success"                     if (!validationOnly){                         assetConfigurationBridge.update(config)                     }               }                 else {                     validationResponse = exResult.failures[0]?.details                 }             }             response = [                 assetId: assetId,                 items: config?.items?.collect { item ->                 def origpath = item.path                 def lastSlash = origpath.lastIndexOf("/")                 def key = origpath.substring(lastSlash + 1, origpath.length())                        def path = origpath.replace("/" + key, "")                 path += "/"                     [                         path: path,                         key: key,                         value: item.value                     ]                 },                 validationResponse: validationResponse             ]       }         else {             throw new Exception("Error: Asset Id must be provided.")         } } catch (Exception ex) {       logger.error ex   response = [           error:  [                   type: "Backend Application Error"                   , msg: ex.getLocalizedMessage()           ]   ] } return ['Content-Type': 'application/json', 'Content': JSONObject.fromObject(response).toString(2)] /** * Create the Success response. * * @param xml : The xml response.<br> * @param info : If this is set to "1" the info element will be included in the response.<br> * @param infos : Collection of information to include within the info element of the response.<br> */ private void createConfigXML(xml) {     xml.Item() }  
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This script illustrates how to call a Groovy script as an external web service.  This example also applies to calling any external web service that relies on a username and password. Parameters: external_username external_password script_name import com.axeda.drm.sdk.Context import com.axeda.drm.sdk.device.DeviceFinder import com.axeda.drm.sdk.data.CurrentDataFinder import com.axeda.drm.sdk.device.Device import com.axeda.drm.sdk.data.HistoricalDataFinder import com.axeda.drm.sdk.device.DataItem import net.sf.json.JSONObject import com.axeda.drm.sdk.device.ModelFinder import groovyx.net.http.* import static groovyx.net.http.ContentType.* import static groovyx.net.http.Method.* /** * CallScriptoAsExternalWebService.groovy * * This script illustrates how to call a Groovy script as an external web service. * * @param external_username       -   (REQ):Str Username for the external web service. * @param external_password       -   (REQ):Str Password for the external web service. * @param script_name             -   (REQ):Str Script Name to call. * * */ def result try { validateParameters(actual: parameters, expected: ["external_username", "external_password", "script_name"]) // authentication tokens (username + password) def auth_tokens = [username: parameters.external_username, password: parameters.external_password] http = new HTTPBuilder( 'http://platform.axeda.com/services/v1/rest/Scripto/execute/'+parameters.script_name ) // pass in dummy parameters to the script for illustration def parammap = [key1: "val1", key2: "val2"] // Call the script     http.request (GET, JSON) {       uri.query = auth_tokens + parammap       response.success = { resp, json ->         // traverse the wrapped json response     result = json.wsScriptoExecuteResponse.content.$          }       response.failure = { resp ->         result = response.failure       }      } } catch (Throwable any) {     logger.error any.localizedMessage } return ['Content-Type': 'application/json', 'Content': result] static def validateParameters(Map args) {     if (!args.containsKey("actual")) {         throw new Exception("validateParameters(args) requires 'actual' key.")     }     if (!args.containsKey("expected")) {         throw new Exception("validateParameters(args) requires 'expected' key.")     }     def config = [             require_username: false     ]     Map actualParameters = args.actual.clone() as Map     List expectedParameters = args.expected     config.each { key, value ->         if (args.options?.containsKey(key)) {             config[key] = args.options[key]         }     }     if (!config.require_username) { actualParameters.remove("username") }     expectedParameters.each { paramName ->         if (!actualParameters.containsKey(paramName) || !actualParameters[paramName]) {             throw new IllegalArgumentException(                     "Parameter '${paramName}' was not found in the query; '${paramName}' is a reqd. parameter.")         }     } }
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Calling external services from M2M applications is a critical aspect of building end-to-end solutions.  Knowing how to apply network timeouts when connecting to external servers can prevent unexpected and problematic network hang-ups. Let's investigate how to create a safe networking flow using HttpClient, HttpBuilder, and Apache’s FTPClient class. Background Custom Objects called from Expression Rules have a configurable maximum execution time.  This is set by the com.axeda.drm.rules.statistics.rule-time-threshold property.  Without this safeguard in place long running or misbehaved Custom Objects can cause internal processing queues to fill and the server will suffer a performance degradation. In Java (and Groovy) all network calls internally use InputStream.read() to establish the socket connection and to read data from the socket.  It is possible for faulty external servers (such as an FTP server) to hang and not properly respond.  This means that the InputStream.read() method will continuously wait for the server to respond with data, and the server will never respond.  According to the Java spec, InputStream.read() may be uninterruptable while it is waiting for data.  This means that if a Custom Object has exceeded the com.axeda.drm.rules.statistics.rule-time-threshold the Rule Sniper will still not be able to interrupt the Custom Object’s execution if it is waiting on InputStream.read().  Because the Custom Object cannot be stopped, the internal processing queues will eventually fill. Even though InputStream.read() is uninterruptable it is still possible to set timeouts for it to be able to give up on a connection.  Beyond that, we want to make sure that the connection is completely disconnected. Types of Timeouts There are typically two types of timeouts that should be set when making calls over the web: the Connection Timeout and the Socket Timeout.  The Connection Timeout is the maximum amount of time that should be allowed when establishing the bi-directional socket connection between the client and server.  Behind the scenes socket connection involves resolving the domain name of the server to an IP address, and then the server opening a port to connect with the client’s port.  The Socket Timeout is the timeout that limits the amount of time each socket operation is allowed to take.  It limits the amount of time InputStream.read() will listen for a server’s response.  If a server is faulty or overloaded it may take a long time (or forever) to respond to a request.  This timeout limits the amount of time the client will wait for the server to respond. When making any calls from a Custom Object to an external server (either making WebService calls, or FTP transfers), you should always set the Connection Timeout and the Socket Timeout.  Always try to keep the timeouts as reasonably small as possible.  Failure to do so could unexpectedly impact your Axeda server.  Consider a Custom Object that takes an average of 10 seconds to run is called to make an external WebService call once a minute. This will not cause any issues and the  system will be stable.  If the external server suddenly has a performance degredation and now the external WebService call takes over a minute to run, the execution queue will eventually fill, causing performance degradation to the Axeda system.  To protect against this scenario, set the timeouts to limit the call to one minute, and log whenever the time limit is exceeded. Examples Provided below are examples of properly set timeouts and thorough connection management use HttpClient, HttpBuilder, and FTPClient.  All of these examples assume they are being executed from Custom Objects. By default, set the Connection Timeout to 10 seconds.  In normal circumstances, connections should not take more then 10 seconds.  If they are exceeding this time there is a good chance of networking issues between the client and server. The Socket Timeout can vary per use-case.  The examples provided set the Socket Timeout to 30 seconds, which should be sufficient for typical WebService calls and small to medium sized FTP file transfers.  Depending exactly on what is being done, the timout may have to be increased.  If you expect the call to go over 5 minutes please contact Axeda Support to investigate increasing  com.axeda.drm.rules.statistics.rule-time-threshold property (which defaults to 5 minutes). ​HttpClient​ //HttpClient import org.apache.http.client.HttpClient import org.apache.http.impl.client.DefaultHttpClient import org.apache.http.client.methods.HttpGet import org.apache.http.HttpResponse import org.apache.http.params.BasicHttpParams import org.apache.http.params.HttpParams import org.apache.http.params.HttpConnectionParams int TENSECONDS  = 10*1000 int THIRTYSECONDS = 30*1000 final HttpParams httpParams = new BasicHttpParams() //Establishing the connection should take <10 seconds in most circumstances HttpConnectionParams.setConnectionTimeout(httpParams, TENSECONDS) //The data transfer/call should take <30 seconds.  Adjust as necessary if receiving large data sets. HttpConnectionParams.setSoTimeout(httpParams, THIRTYSECONDS) HttpClient hc = new DefaultHttpClient(httpParams) try {   //Simply get the contents of http://www.axeda.com and log it to the Custom Object Log   HttpGet get = new HttpGet("http://www.axeda.com")   HttpResponse response = hc.execute(get)   BufferedReader br = new BufferedReader( new InputStreamReader( response.getEntity().getContent()))   br.readLines().each {     logger.info it   } } finally {   //Make sure to shutdown the connectionManager   hc.getConnectionManager().shutdown() } return true https://gist.github.com/axeda/5189092/raw/2f7b93c5f96ed8f445df4364b885486bc6fa1feb/HttpClientTimeouts.groovy HttpBuilder import groovyx.net.http.HTTPBuilder import static groovyx.net.http.ContentType.* import static groovyx.net.http.Method.* int TENSECONDS  = 10*1000; int THIRTYSECONDS = 30*1000; HTTPBuilder builder = new HTTPBuilder('http://www.axeda.com') //HTTPBuilder has no direct methods to add timeouts.  We have to add them to the HttpParams of the underlying HttpClient builder.getClient().getParams().setParameter("http.connection.timeout", new Integer(TENSECONDS)) builder.getClient().getParams().setParameter("http.socket.timeout", new Integer(THIRTYSECONDS)) try {   //Simply get the contents of http://www.axeda.com and log it to the Custom Object Log   builder.request(GET, TEXT){     response.success = { resp, res ->       res.readLines().each {         logger.info it       }       }   } } finally {   //Make sure to always shut down the HTTPBuilder when you’re done with it   builder.shutdown() } return true https://gist.github.com/axeda/5189102/raw/66bb3a4f4f096681847de1d2d38971e6293c4c6b/HttpBuilderTimeouts.groovy FtpClient Apache’s FTPClient has a third type of timeout, the Default Timeout.  The Default Timeout is a timeout that further ensures that socket timeouts are always used.  Note: Default Timeout does not set a timeout for the .connect() method. import org.apache.commons.net.ftp.* import java.io.InputStream import java.io.ByteArrayInputStream String ftphost = "127.0.0.1" String ftpuser = "test" String ftppwd = "test" int ftpport = 21 String ftpDir = "tmp/FTP" int TENSECONDS  = 10*1000 int THIRTYSECONDS = 30*1000 //Declare FTP client FTPClient ftp = new FTPClient() try {   ftp.setConnectTimeout(TENSECONDS)   ftp.setDefaultTimeout(TENSECONDS)   ftp.connect(ftphost, ftpport)   //30 seconds to log on.  Also 30 seconds to change to working directory.   ftp.setSoTimeout(THIRTYSECONDS)   def reply = ftp.getReplyCode()   if (!FTPReply.isPositiveCompletion(reply))   {     throw new Exception("Unable to connect to FTP server")   }   if (!ftp.login(ftpuser, ftppwd))   {     throw new Exception("Unable to login to FTP server")   }   if (!ftp.changeWorkingDirectory(ftpDir))   {     throw new Exception("Unable to change working directory on FTP server")   }   //Change the timeout here for a large file transfer that will take over 30 seconds   //ftp.setSoTimeout(THIRTYSECONDS);   ftp.setFileType(FTPClient.ASCII_FILE_TYPE)   ftp.enterLocalPassiveMode()   String filetxt = "Some String file content"   InputStream is = new ByteArrayInputStream(filetxt.getBytes('US-ASCII'))   try   {     if (!ftp.storeFile("myFile.txt", is))     {       throw new Exception("Unable to write file to FTP server")     }   } finally   {     //Make sure to always close the inputStream     is.close()   } } catch(Exception e) {   //handle exceptions here by logging or auditing } finally {   //if the IO is timed out or force disconnected, exceptions may be thrown when trying to logout/disconnect   try   {     //10 seconds to log off.  Also 10 seconds to disconnect.     ftp.setSoTimeout(TENSECONDS);     ftp.logout();     //depending on the state of the server the .logout() may throw an exception,     //we want to ensure complete disconnect.   }   catch(Exception innerException)   {       //You potentially just want to log that there was a logout exception.     }   finally   {     //Make sure to always disconnect.  If not, there is a chance you will leave hanging sockects     ftp.disconnect();   } } return true https://gist.github.com/axeda/5189120/raw/83545305a38d03b6a73a80fbf4999be3d6b3e74e/FtpClientConnectionTimeouts.groovy
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This script creates a csv file from the audit log filtered by the User Access category, so dates of when users logged in or logged out. *** see update below *** Note:  The csv file has the same name as the Groovy script and does NOT have the .csv extension . To get the .csv extension, the Groovy script has to be renamed to AuditEntryToCSV.csv.groovy .  Suggestions on how to improve this are welcome. *** Update ***: The download works without the renamed groovy script by returning text instead of an input stream.  The script has been modified to illustrate this. Parameters: days - the number of days past to fetch audit logs model_name - the model name of the asset serial_number - the serial number of the asset import com.axeda.drm.sdk.device.ModelFinder import com.axeda.drm.sdk.Context import com.axeda.common.sdk.id.Identifier import com.axeda.drm.sdk.device.Model import com.axeda.drm.sdk.device.DeviceFinder import com.axeda.drm.sdk.device.Device import com.axeda.drm.sdk.audit.AuditCategoryList import com.axeda.drm.sdk.audit.AuditCategory import com.axeda.drm.sdk.audit.AuditEntryFinder import com.axeda.drm.sdk.audit.SortType import com.axeda.drm.sdk.audit.AuditEntry import groovy.xml.MarkupBuilder import com.axeda.platform.sdk.v1.services.ServiceFactory /* * AuditEntryToCSV.groovy * * Creates a csv file from the audit log filtered by the User Access category, so dates of when users logged in or logged out. * * @param days        -   (REQ):Str number of days to search. * @param model_name        -   (REQ):Str name of the model. * @param serial_number        -   (REQ):Str serial number of the device. * * @note - the csv file has the same name as the Groovy script and does NOT have the .csv extension . To get * the .csv extension, the Groovy script has to be renamed to AuditEntryToCSV.csv.groovy . * * @author Sara Streeter <sstreeter@axeda.com> */ def writer = new StringWriter() def xml = new MarkupBuilder(writer) try {    def ctx = Context.getUserContext()    ModelFinder modelFinder = new ModelFinder(ctx)    modelFinder.setName(parameters.model_name)    Model model = modelFinder.find()    DeviceFinder deviceFinder = new DeviceFinder(ctx)    deviceFinder.setSerialNumber(parameters.serial_number)    Device device = deviceFinder.find()    AuditCategoryList acl = new AuditCategoryList()    acl.add(AuditCategory.USER_ACCESS)    long now = System.currentTimeMillis()    Date today = new Date(now)    def paramdays = parameters.days ? parameters.days: 5    long days = 1000 * 60 * 60 * 24 * Integer.valueOf(paramdays)    AuditEntryFinder aef = new AuditEntryFinder(ctx)    aef.setCategories(acl)    aef.setToDate(today)    aef.setFromDate(new Date(now - (days)))    aef.setSortType(SortType.DATE)    aef.sortDescending()    List<AuditEntry> audits = aef.findAll() // use a Data Accumulator to store the information def dataStoreIdentifier = "FILE-CSV-audit_log" def daSvc = new ServiceFactory().dataAccumulatorService if (daSvc.doesAccumulationExist(dataStoreIdentifier, device.id.value)) {     daSvc.deleteAccumulation(dataStoreIdentifier, device.id.value) } // assemble the response    audits.each { AuditEntry audit ->            def row = [                audit?.id.value,                audit?.user?.username,                audit?.date,                audit?.category?.bundleKey,                audit?.message            ]         row = row.join(',')         row += '\n'         daSvc.writeChunk(dataStoreIdentifier, device.id.value, row);        } // stream the data accumulator to create the file    InputStream is = daSvc.streamAccumulation(dataStoreIdentifier, device.id.value) return ['Content-Type': 'text/csv', 'Content-Disposition':'attachment; filename=AuditEntryCSVFile.csv', 'Content': is.text] } catch (def ex) {    xml.Response() {        Fault {            Code('Groovy Exception')            Message(ex.getMessage())            StringWriter sw = new StringWriter();            PrintWriter pw = new PrintWriter(sw);            ex.printStackTrace(pw);            Detail(sw.toString())        }    } logger.info(writer.toString()) }
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This script finds all the data items both current and historical on all the assets of a model and outputs them as XML. Parameters: model_name from_time to_time import com.axeda.drm.sdk.Context import com.axeda.drm.sdk.device.ModelFinder import com.axeda.drm.sdk.device.Model import com.axeda.drm.sdk.device.DeviceFinder import com.axeda.drm.sdk.data.CurrentDataFinder import com.axeda.drm.sdk.device.Device import com.axeda.drm.sdk.data.HistoricalDataFinder import groovy.xml.MarkupBuilder /* * AllDataItems2XML.groovy * * Find all the historical and current data items for all assets in a given model. * * @param model_name        -   (REQ):Str name of the model. * @param from_time         -   (REQ):Long millisecond timestamp to begin query from. * @param to_time           -   (REQ):Long millisecond timestamp to end query at. * * @note from_time and to_time should be provided because it limits the query size. * * @author Sara Streeter <sstreeter@axeda.com> */ def response = [:] def writer = new StringWriter() def xml = new MarkupBuilder(writer) // measure the script run time def timeProfiles = [:] def scriptStartTime = new Date() try { // getUserContext is supported as of release 6.1.5 and higher     final def CONTEXT = Context.getUserContext() // confirm that required parameters have been provided     validateParameters(actual: parameters, expected: ["model_name", "from_time", "to_time"]) // find the model     def modelFinder = new ModelFinder(CONTEXT)     modelFinder.setName(parameters.model_name)     Model model = modelFinder.findOne() // throw exception if no model found     if (!model) {         throw new Exception("No model found for ${parameters.model_name}.")     } // find all assets of that model     def assetFinder = new DeviceFinder(CONTEXT)     assetFinder.setModel(model)     def assets = assetFinder.findAll() // find the current and historical data values for each asset //note: since device will be set on the datafinders going forward, a dummy device is set on instantiation which is not actually stored     def currentDataFinder = new CurrentDataFinder(CONTEXT, new Device(CONTEXT, "placeholder", model))     def historicalDataFinder = new HistoricalDataFinder(CONTEXT, new Device(CONTEXT, "placeholder", model))     historicalDataFinder.startDate = new Date(parameters.from_time as Long)     historicalDataFinder.endDate = new Date(parameters.to_time as Long) // assemble the response     xml.Response(){         assets.each { Device asset ->             currentDataFinder.device = asset             def currentValueList = currentDataFinder.find()             historicalDataFinder.device = asset             def valueList = historicalDataFinder.find()             Asset(){                     id(asset.id.value)                     name( asset.name)                     serial_number(asset.serialNumber)                     model_id( asset.model.id.value)                     model_name(asset.model.name)                     current_data(){                         currentValueList.each{ data ->                         timestamp( data?.getTimestamp()?.format("yyyyMMdd HH:mm"))                          name(data?.dataItem?.name)                          value( data?.asString())                     }}                     historical_data(){                         valueList.each { data ->                         timestamp( data?.getTimestamp()?.format("yyyyMMdd HH:mm"))                          name(data?.dataItem?.name)                          value( data?.asString())                     }}             }         }     } } catch (def ex) {       xml.Response() {     Fault {           Code('Groovy Exception')           Message(ex.getMessage())           StringWriter sw = new StringWriter();           PrintWriter pw = new PrintWriter(sw);           ex.printStackTrace(pw);           Detail(sw.toString())         }       } } return ['Content-Type': 'text/xml', 'Content': writer.toString()] private Map createTimeProfile(String label, Date startTime, Date endTime) {     [             (label): [                     startTime: [timestamp: startTime.time, readable: startTime.toString()],                     endTime: [timestamp: endTime.time, readable: endTime.toString()],                     profile: [                             elapsed_millis: endTime.time - startTime.time,                             elapsed_secs: (endTime.time - startTime.time) / 1000                     ]             ]     ] } private validateParameters(Map args) {     if (!args.containsKey("actual")) {         throw new Exception("validateParameters(args) requires 'actual' key.")     }     if (!args.containsKey("expected")) {         throw new Exception("validateParameters(args) requires 'expected' key.")     }     def config = [             require_username: false     ]     Map actualParameters = args.actual.clone() as Map     List expectedParameters = args.expected     config.each { key, value ->         if (args.options?.containsKey(key)) {             config[key] = args.options[key]         }     }     if (!config.require_username) { actualParameters.remove("username") }     expectedParameters.each { paramName ->         if (!actualParameters.containsKey(paramName) || !actualParameters[paramName]) {             throw new IllegalArgumentException(                     "Parameter '${paramName}' was not found in the query; '${paramName}' is a reqd. parameter.")         }     } } Sample Output: <Response>   <Asset>   <id>2864</id>   <name>keg24</name>   <serial_number>keg24</serial_number>   <model_id>1081</model_id>   <model_name>Kegerator</model_name>   <current_data>   <timestamp>20111103 14:44</timestamp>   <name>currKegPercentage</name>   <value>34.0</value>   <timestamp>20111103 14:38</timestamp>   <name>currTempF</name>   <value>43.0</value>   </current_data>   <historical_data />   </Asset>   <Asset>   <id>2861</id>   <name>keg28</name>   <serial_number>keg28</serial_number>   <model_id>1081</model_id>   <model_name>Kegerator</model_name>   <current_data>   <timestamp />   <name>currKegPercentage</name>   <value>?</value>   <timestamp>20111103 14:21</timestamp>   <name>currTempF</name>   <value>43.0</value>   </current_data>   <historical_data />   </Asset>   <Asset>   <id>2863</id>   <name>keg21</name>   <serial_number>keg21</serial_number>   <model_id>1081</model_id>   <model_name>Kegerator</model_name>   <current_data>   <timestamp />   <name>currKegPercentage</name>   <value>?</value>   <timestamp>20111103 14:39</timestamp>   <name>currTempF</name>   <value>42.0</value>   </current_data>   <historical_data />   </Asset>   <Asset>   <id>2862</id>   <name>keg25</name>   <serial_number>keg25</serial_number>   <model_id>1081</model_id>   <model_name>Kegerator</model_name>   <current_data>   <timestamp>20111103 14:36</timestamp>   <name>currKegPercentage</name>   <value>34.0</value>   <timestamp />   <name>currTempF</name>   <value>?</value>   </current_data>   <historical_data />   </Asset>   <Asset>   <id>2867</id>   <name>keg29</name>   <serial_number>keg29</serial_number>   <model_id>1081</model_id>   <model_name>Kegerator</model_name>   <current_data>   <timestamp>20111103 14:48</timestamp>   <name>currKegPercentage</name>   <value>35.0</value>   <timestamp />   <name>currTempF</name>   <value>?</value>   </current_data>   <historical_data />   </Asset>   <Asset>   <id>2865</id>   <name>keg27</name>   <serial_number>keg27</serial_number>   <model_id>1081</model_id>   <model_name>Kegerator</model_name>   <current_data>   <timestamp>20111103 14:39</timestamp>   <name>currKegPercentage</name>   <value>34.0</value>   <timestamp>20111103 14:44</timestamp>   <name>currTempF</name>   <value>42.0</value>   </current_data>   <historical_data />   </Asset>   <Asset>   <id>2866</id>   <name>keg23</name>   <serial_number>keg23</serial_number>   <model_id>1081</model_id>   <model_name>Kegerator</model_name>   <current_data>   <timestamp>20111103 14:46</timestamp>   <name>currKegPercentage</name>   <value>34.0</value>   <timestamp />   <name>currTempF</name>   <value>?</value>   </current_data>   <historical_data />   </Asset> </Response>
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