示例#1
0
 public final User getUser() {
   if (this.user == null) {
     String userID = this.getUserID();
     Print.logDebug("[Optimize] Retrieving User record: " + userID);
     try {
       this.user = User.getUser(this.getAccount(), userID);
       // 'this.asset' may still be null if the asset was not found
     } catch (DBException dbe) {
       // may be caused by "java.net.ConnectException: Connection refused: connect"
       Print.logError("User not found: " + this.getAccountID() + "/" + userID);
       this.user = null;
     }
   }
   return this.user;
 }
示例#2
0
  public boolean insertEventData() {

    /* valid device? */
    if (this.device == null) {
      return false;
    }

    /* debug message */
    if (RTConfig.isDebugMode()) {
      Print.logDebug("Inserting EventData ...\n" + this.toString());
    }

    /* EventData key */
    String acctID = this.device.getAccountID();
    String devID = this.device.getDeviceID();
    long fixtime = this.getTimestamp();
    int statusCode = this.getStatusCode();
    EventData.Key evKey = new EventData.Key(acctID, devID, fixtime, statusCode);
    EventData evdb = evKey.getDBRecord();

    /* set EventData field values */
    if (USE_EVENTDATA_SETVALUE) {
      for (Object fldn : this.fieldValues.getPropertyKeys()) {
        if (fldn.equals(EventData.FLD_timestamp)) {
          continue; // already set above
        } else if (fldn.equals(EventData.FLD_statusCode)) {
          continue; // already set above
        }
        Object fldv = this.fieldValues.getProperty(fldn, null);
        if (fldv != null) {
          evdb.setValue((String) fldn, fldv); // attempts to use "setter" methods
        }
      }
    } else {
      if (this.hasLatitude()) {
        evdb.setLatitude(this.getLatitude());
      }
      if (this.hasLongitude()) {
        evdb.setLongitude(this.getLongitude());
      }
      if (this.hasGpsAge()) {
        evdb.setGpsAge(this.getGpsAge());
      }
      if (this.hasHDOP()) {
        evdb.setHDOP(this.getHDOP());
      }
      if (this.hasSatelliteCount()) {
        evdb.setSatelliteCount(this.getSatelliteCount());
      }
      if (this.hasSpeedKPH()) {
        evdb.setSpeedKPH(this.getSpeedKPH());
      }
      if (this.hasHeading()) {
        evdb.setHeading(this.getHeading());
      }
      if (this.hasAltitude()) {
        evdb.setAltitude(this.getAltitude());
      }
      if (this.hasInputMask()) {
        evdb.setInputMask(this.getInputMask());
      }
      if (this.hasBatteryLevel()) {
        evdb.setBatteryLevel(this.getBatteryLevel());
      }
      if (this.hasSignalStrength()) {
        evdb.setSignalStrength(this.getSignalStrength());
      }
      if (this.hasOdometerKM()) {
        evdb.setOdometerKM(this.getOdometerKM());
      }
      if (this.hasEngineHours()) {
        evdb.setEngineHours(this.getEngineHours());
      }
      if (this.hasPtoHours()) {
        evdb.setPtoHours(this.getPtoHours());
      }
      if (this.hasFuelTotal()) {
        evdb.setFuelTotal(this.getFuelTotal());
      }
      if (this.hasGeozoneID()) {
        evdb.setGeozoneID(this.getGeozoneID());
      }
    }

    /* other fields (if available) */
    if (this.otherValues != null) {
      for (String fldn : this.otherValues.keySet()) {
        if (fldn.equals(EventData.FLD_timestamp)) {
          continue;
        } else if (fldn.equals(EventData.FLD_statusCode)) {
          continue;
        }
        Object fldv = this.otherValues.get(fldn);
        if (fldv != null) {
          evdb.setValue(fldn, fldv); // attempts to use "setter" methods
        }
      }
    }

    /* insert event */
    // this will display an error if it was unable to store the event
    Print.logInfo(
        "Event     : [0x"
            + StringTools.toHexString(statusCode, 16)
            + "] "
            + StatusCodes.GetDescription(statusCode, null));
    this.device.insertEventData(
        evdb); // FLD_lastValidLatitude,FLD_lastValidLongitude,FLD_lastGPSTimestamp,FLD_lastOdometerKM
    this.eventTotalCount++;
    return true;
  }
  // http://code.google.com/apis/maps/documentation/geocoding/index.html
  public GeoPoint getGeocode(String address, String country) {

    /* URL */
    String url = this.getGeoPointGeocodeURL(address, country);
    Print.logDebug("Google GC URL: " + url);

    /* create XML document */
    Document xmlDoc = GetXMLDocument(url, this.getGeocodeTimeout());
    if (xmlDoc == null) {
      return null;
    }

    /* vars */
    String errCode = null;
    GeoPoint geoPoint = null;

    /* parse "xml" */
    Element kml = xmlDoc.getDocumentElement();
    if (kml.getTagName().equalsIgnoreCase(TAG_kml)) {
      NodeList ResponseList = XMLTools.getChildElements(kml, TAG_Response);
      for (int g = 0; (g < ResponseList.getLength()); g++) {
        Element response = (Element) ResponseList.item(g);
        NodeList responseNodes = response.getChildNodes();
        for (int n = 0; n < responseNodes.getLength(); n++) {
          Node responseNode = responseNodes.item(n);
          if (!(responseNode instanceof Element)) {
            continue;
          }
          Element responseElem = (Element) responseNode;
          String responseNodeName = responseElem.getNodeName();
          if (responseNodeName.equalsIgnoreCase(TAG_name)) {
            // <name>1600 Amphitheatre Parkway, Mountain View, CA</name>
          } else if (responseNodeName.equalsIgnoreCase(TAG_Status)) {
            // <Status> ... </Status>
            NodeList statusNodes = responseElem.getChildNodes();
            for (int st = 0; st < statusNodes.getLength(); st++) {
              Node statusNode = statusNodes.item(st);
              if (!(statusNode instanceof Element)) {
                continue;
              }
              Element statusElem = (Element) statusNode;
              String statusNodeName = statusElem.getNodeName();
              if (statusNodeName.equalsIgnoreCase(TAG_code)) {
                errCode = StringTools.trim(GoogleGeocodeV2.GetNodeText(statusElem)); // expect "200"
                break; // we only care about the 'code'
              }
            }
          } else if (responseNodeName.equalsIgnoreCase(TAG_Placemark)) {
            // <Placemark> ... </Placemark>
            String id = responseElem.getAttribute(ATTR_id);
            if ((id != null) && id.equals("p1")) {
              NodeList placemarkNodes = responseElem.getChildNodes();
              for (int pm = 0; (geoPoint == null) && (pm < placemarkNodes.getLength()); pm++) {
                Node placemarkNode = placemarkNodes.item(pm);
                if (!(placemarkNode instanceof Element)) {
                  continue;
                }
                Element placemarkElem = (Element) placemarkNode;
                String placemarkNodeName = placemarkElem.getNodeName();
                if (placemarkNodeName.equalsIgnoreCase(TAG_Point)) {
                  NodeList pointNodes = placemarkElem.getChildNodes();
                  for (int ptn = 0; (geoPoint == null) && (ptn < pointNodes.getLength()); ptn++) {
                    Node pointNode = pointNodes.item(ptn);
                    if (!(pointNode instanceof Element)) {
                      continue;
                    }
                    Element pointElem = (Element) pointNode;
                    String pointNodeName = pointElem.getNodeName();
                    if (pointNodeName.equalsIgnoreCase(TAG_coordinates)) {
                      String ll[] = StringTools.split(GoogleGeocodeV2.GetNodeText(pointElem), ',');
                      if (ll.length >= 2) {
                        double lon = StringTools.parseDouble(ll[0], 0.0); // longitude is first
                        double lat = StringTools.parseDouble(ll[1], 0.0);
                        if (GeoPoint.isValid(lat, lon)) {
                          geoPoint = new GeoPoint(lat, lon);
                          break; // we only care about the 'GeoPoint'
                        }
                      }
                    }
                  }
                }
              }
            } else {
              // Print.logInfo("Skipping Placemark ID = %s", id);
            }
          }
        }
      }
    }

    /* create address */
    if (geoPoint != null) {
      // GeoPoint found
      return geoPoint;
    }

    /* check for Google reverse-geocode limit exceeded */
    if ((errCode != null) && errCode.equals("620")) {
      Print.logError("!!!! Google Reverse-Geocode Limit Exceeded [Error 620] !!!!");
    }

    /* no reverse-geocode available */
    return null;
  }
  /* return reverse-geocode using nearest address */
  public ReverseGeocode getAddressReverseGeocode(GeoPoint gp, String localeStr, boolean cache) {

    /* check for failover mode */
    if (this.isReverseGeocodeFailoverMode()) {
      ReverseGeocodeProvider frgp = this.getFailoverReverseGeocodeProvider();
      return frgp.getReverseGeocode(gp, localeStr, cache);
    }

    /* URL */
    String url = this.getAddressReverseGeocodeURL(gp, localeStr);
    Print.logDebug("Google RG URL: " + url);
    // byte xmlBytes[] = HTMLTools.readPage(url);

    /* create XML document */
    Document xmlDoc = GetXMLDocument(url, this.getReverseGeocodeTimeout());
    if (xmlDoc == null) {
      return null;
    }

    /* vars */
    String errCode = null;
    String address = null;

    /* parse "xml" */
    Element kml = xmlDoc.getDocumentElement();
    if (kml.getTagName().equalsIgnoreCase(TAG_kml)) {
      NodeList ResponseList = XMLTools.getChildElements(kml, TAG_Response);
      for (int g = 0; (g < ResponseList.getLength()); g++) {
        Element response = (Element) ResponseList.item(g);
        NodeList responseNodes = response.getChildNodes();
        for (int n = 0; n < responseNodes.getLength(); n++) {
          Node responseNode = responseNodes.item(n);
          if (!(responseNode instanceof Element)) {
            continue;
          }
          Element responseElem = (Element) responseNode;
          String responseNodeName = responseElem.getNodeName();
          if (responseNodeName.equalsIgnoreCase(TAG_name)) {
            // <name>40.479581,-117.773438</name>
          } else if (responseNodeName.equalsIgnoreCase(TAG_Status)) {
            // <Status> ... </Status>
            NodeList statusNodes = responseElem.getChildNodes();
            for (int st = 0; st < statusNodes.getLength(); st++) {
              Node statusNode = statusNodes.item(st);
              if (!(statusNode instanceof Element)) {
                continue;
              }
              Element statusElem = (Element) statusNode;
              String statusNodeName = statusElem.getNodeName();
              if (statusNodeName.equalsIgnoreCase(TAG_code)) {
                errCode = StringTools.trim(GoogleGeocodeV2.GetNodeText(statusElem)); // expect "200"
                break; // we only care about the 'code'
              }
            }
          } else if (responseNodeName.equalsIgnoreCase(TAG_Placemark)) {
            // <Placemark> ... </Placemark>
            String id = responseElem.getAttribute(ATTR_id);
            if ((id != null) && id.equals("p1")) {
              NodeList placemarkNodes = responseElem.getChildNodes();
              for (int pm = 0; pm < placemarkNodes.getLength(); pm++) {
                Node placemarkNode = placemarkNodes.item(pm);
                if (!(placemarkNode instanceof Element)) {
                  continue;
                }
                Element placemarkElem = (Element) placemarkNode;
                String placemarkNodeName = placemarkElem.getNodeName();
                if (placemarkNodeName.equalsIgnoreCase(TAG_address)) {
                  address = GoogleGeocodeV2.GetNodeText(placemarkElem);
                  break; // we only care about the 'address'
                }
              }
            } else {
              // Print.logInfo("Skipping Placemark ID = %s", id);
            }
          }
        }
      }
    }

    /* create address */
    if (FAILOVER_DEBUG) {
      errCode = "620";
    } else if (!StringTools.isBlank(address)) {
      // address found
      ReverseGeocode rg = new ReverseGeocode();
      rg.setFullAddress(address);
      return rg;
    }

    /* check for Google reverse-geocode limit exceeded */
    if ((errCode != null) && errCode.equals("620")) {
      Print.logError("!!!! Google Reverse-Geocode Limit Exceeded [Error 620] !!!!");
      if (this.hasFailoverReverseGeocodeProvider()) {
        this.startReverseGeocodeFailoverMode();
        ReverseGeocodeProvider frgp = this.getFailoverReverseGeocodeProvider();
        Print.logWarn("Failing over to '" + frgp.getName() + "'");
        return frgp.getReverseGeocode(gp, localeStr, cache);
      }
    }

    /* no reverse-geocode available */
    return null;
  }