001 //$HeadURL: https://svn.wald.intevation.org/svn/deegree/base/branches/2.4_testing/src/org/deegree/portal/standard/sos/control/DescribeSensorListener.java $
002 /*----------------------------------------------------------------------------
003 This file is part of deegree, http://deegree.org/
004 Copyright (C) 2001-2009 by:
005 Department of Geography, University of Bonn
006 and
007 lat/lon GmbH
008
009 This library is free software; you can redistribute it and/or modify it under
010 the terms of the GNU Lesser General Public License as published by the Free
011 Software Foundation; either version 2.1 of the License, or (at your option)
012 any later version.
013 This library is distributed in the hope that it will be useful, but WITHOUT
014 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
015 FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
016 details.
017 You should have received a copy of the GNU Lesser General Public License
018 along with this library; if not, write to the Free Software Foundation, Inc.,
019 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
020
021 Contact information:
022
023 lat/lon GmbH
024 Aennchenstr. 19, 53177 Bonn
025 Germany
026 http://lat-lon.de/
027
028 Department of Geography, University of Bonn
029 Prof. Dr. Klaus Greve
030 Postfach 1147, 53001 Bonn
031 Germany
032 http://www.geographie.uni-bonn.de/deegree/
033
034 e-mail: info@deegree.org
035 ----------------------------------------------------------------------------*/
036 package org.deegree.portal.standard.sos.control;
037
038 import java.util.HashMap;
039 import java.util.Iterator;
040
041 import org.deegree.enterprise.control.RPCMethodCall;
042 import org.deegree.enterprise.control.RPCParameter;
043 import org.deegree.enterprise.control.RPCStruct;
044 import org.deegree.framework.log.ILogger;
045 import org.deegree.framework.log.LoggerFactory;
046 import org.deegree.framework.xml.ElementList;
047 import org.deegree.framework.xml.NamespaceContext;
048 import org.deegree.framework.xml.XMLTools;
049 import org.deegree.ogcbase.CommonNamespaces;
050 import org.deegree.ogcwebservices.sos.describesensor.SensorMetadata;
051 import org.deegree.ogcwebservices.sos.sensorml.Classifier;
052 import org.deegree.ogcwebservices.sos.sensorml.ComponentDescription;
053 import org.deegree.ogcwebservices.sos.sensorml.Discussion;
054 import org.deegree.ogcwebservices.sos.sensorml.EngineeringCRS;
055 import org.deegree.ogcwebservices.sos.sensorml.GeoPositionModel;
056 import org.deegree.ogcwebservices.sos.sensorml.GeographicCRS;
057 import org.deegree.ogcwebservices.sos.sensorml.Identifier;
058 import org.deegree.ogcwebservices.sos.sensorml.LocationModel;
059 import org.deegree.ogcwebservices.sos.sensorml.Phenomenon;
060 import org.deegree.ogcwebservices.sos.sensorml.Product;
061 import org.deegree.ogcwebservices.sos.sensorml.ResponseModel;
062 import org.deegree.portal.standard.sos.Constants;
063 import org.deegree.portal.standard.sos.SOSClientException;
064 import org.w3c.dom.Document;
065 import org.w3c.dom.Element;
066
067 /**
068 * Listener for performing DescribeSensor requests against Sensor Observation Services.
069 *
070 * @author <a href="mailto:che@wupperverband.de.de">Christian Heier</a>
071 * @version 1.0
072 */
073 public class DescribeSensorListener extends AbstractSOSListener {
074
075 private static final NamespaceContext nsContext = CommonNamespaces.getNamespaceContext();
076
077 private static final ILogger LOG = LoggerFactory.getLogger( DescribeSensorListener.class );
078
079 /**
080 * validates the request to be performed.
081 *
082 * @param mc
083 * RPCMethodCall containing the request to be performed
084 * @throws SOSClientException
085 * if request is not valid
086 */
087 @Override
088 protected void validateRequest( RPCMethodCall mc )
089 throws SOSClientException {
090 RPCParameter[] params = mc.getParameters();
091 if ( params == null || params.length != 1 ) {
092 throw new SOSClientException( "one rpc parameter containing a struct "
093 + "with requiered parameters must be set" );
094 }
095 RPCStruct struct = (RPCStruct) params[0].getValue();
096 if ( struct.getMember( Constants.TYPENAME ) == null || "".equals( Constants.TYPENAME ) ) {
097 throw new SOSClientException( "TypeName parameter must be set "
098 + "to perform a Sensor Observation Service "
099 + "DescribeSensor request" );
100 }
101
102 }
103
104 /**
105 * creates a SOS DescribeSensor request from the parameters contained in the passed
106 * <tt>RPCMethodeCall</tt>.
107 *
108 * @param mc
109 * the RPCMethodCall
110 * @return SOS DescribeSensor request as String
111 * @throws SOSClientException
112 */
113 @Override
114 protected String createRequest( RPCMethodCall mc )
115 throws SOSClientException {
116
117 RPCParameter[] params = mc.getParameters();
118 RPCStruct struct = (RPCStruct) params[0].getValue();
119
120 StringBuffer sb = new StringBuffer( 1000 );
121 sb.append( "<sos:DescribeSensor " );
122 sb.append( "xmlns:sos='http://www.opengis.net/sos' " );
123 sb.append( "outputFormat='SensorML' " );
124 sb.append( "service='SOS' " );
125 sb.append( "version='0.8.0'>" );
126 sb.append( "<sos:TypeName>" );
127 sb.append( struct.getMember( Constants.TYPENAME ).getValue() );
128 sb.append( "</sos:TypeName>" );
129 sb.append( "</sos:DescribeSensor>" );
130 return sb.toString();
131 }
132
133 /**
134 * creates the result object to send to the next page from the parameters contained in the
135 * passed <tt>RPCMethodeCall</tt> and the <tt>Document</tt> array.
136 *
137 * @param mc
138 * the RPCMethodCall
139 * @param map
140 * the Document array
141 * @return the result object
142 * @throws SOSClientException
143 */
144 @Override
145 protected Object createData( RPCMethodCall mc, HashMap<String, Document> map )
146 throws SOSClientException {
147
148 Identifier[] identifiedAs = null;
149 Classifier[] classifiedAs = null;
150 EngineeringCRS hasCRS = null;
151 LocationModel[] locatedUsing = null;
152 ComponentDescription describedBy = null;
153 String attachedTo = null;
154 Product[] measures = null;
155
156 SensorMetadata[] sensorDescriptions = new SensorMetadata[map.size()];
157
158 int i = 0;
159 try {
160 Iterator<String> iterator = map.keySet().iterator();
161 while ( iterator.hasNext() ) {
162
163 String key = iterator.next();
164 Element e = map.get( key ).getDocumentElement();
165
166 String[] ids = XMLTools.getNodesAsStrings(
167 e,
168 "/sml:Sensors/sml:Sensor/sml:identifiedAs/sml:Identifier",
169 nsContext );
170
171 identifiedAs = new Identifier[ids.length];
172 for ( int j = 0; j < ids.length; j++ ) {
173 identifiedAs[j] = new Identifier( ids[j] );
174 }
175
176 String srcSRS = XMLTools.getNodeAsString(
177 e,
178 "/sml:Sensors/sml:Sensor/sml:locatedUsing/sml:GeoPositionModel/sml:sourceCRS/gml:EngineeringCRS/gml:srsName",
179 nsContext, null );
180
181 String refSRS = XMLTools.getNodeAsString(
182 e,
183 "/sml:Sensors/sml:Sensor/sml:locatedUsing/sml:GeoPositionModel/sml:sourceCRS/gml:GeographicCRS/gml:srsName",
184 nsContext, null );
185
186 locatedUsing = new LocationModel[1];
187 locatedUsing[0] = new GeoPositionModel( null, null, null, null,
188 new EngineeringCRS( srcSRS ),
189 new GeographicCRS( refSRS ), new Object[0] );
190
191 // TODO What about the coordinates?? (sml:GeoLocation)
192
193 // TODO ComponentDescription describedBy
194
195 attachedTo = XMLTools.getNodeAsString( e, "/sml:Sensors/sml:Sensor/sml:attachedTo",
196 nsContext, null );
197
198 // preparing the values for the product[]
199 Identifier[] productIdentifiedAs = null;
200 Classifier[] productClassifiedAs = null;
201 Discussion[] productDescription = null;
202 LocationModel[] productLocatedUsing = null;
203 EngineeringCRS productHasCRS = null;
204 Phenomenon productObservable = null;
205 ResponseModel[] productDerivedFrom = null;
206 String productId = null;
207
208 ElementList productList = XMLTools.getChildElements( "Product",
209 CommonNamespaces.SMLNS, e );
210
211 measures = new Product[productList.getLength()];
212
213 for ( int l = 0; l < productList.getLength(); l++ ) {
214
215 String[] prodIds = XMLTools.getNodesAsStrings(
216 e,
217 "/sml:Sensors/sml:Sensor/sml:measures/sml:Product/sml:identifiedAs/sml:Identifier",
218 nsContext );
219
220 productIdentifiedAs = new Identifier[prodIds.length];
221 for ( int k = 0; k < ids.length; k++ ) {
222 productIdentifiedAs[k] = new Identifier( prodIds[k] );
223 }
224
225 // TODO productClassifiedAs
226
227 // TODO productDescription
228
229 // TODO productLocatedUsing
230
231 // TODO productHasCRS
232
233 // TODO productDerivedFrom
234
235 // TODO productId
236
237 String observableName = XMLTools.getNodeAsString(
238 e,
239 "/sml:Sensors/sml:Sensor/sml:measures/sml:Product/sml:observable/sml:Phenomenon/sml:name",
240 nsContext, null );
241
242 // TODO observableDescription
243
244 // TODO observableId
245
246 productObservable = new Phenomenon( observableName, null, null );
247
248 measures[l] = new Product( productIdentifiedAs, productClassifiedAs,
249 productDescription, productLocatedUsing,
250 productDerivedFrom, productHasCRS,
251 productObservable, productId );
252
253 }
254
255 sensorDescriptions[i] = new SensorMetadata( identifiedAs, classifiedAs, hasCRS,
256 locatedUsing, describedBy, attachedTo,
257 measures );
258 i++;
259 }
260
261 } catch ( Exception e ) {
262 LOG.logError( "Error creating sensor descriptions: " + e.getMessage() );
263 throw new SOSClientException( "Couldn't create sensor descriptions", e );
264 }
265 return sensorDescriptions;
266 }
267
268 @Override
269 protected void setNextPageData( Object o ) {
270 this.getRequest().setAttribute( Constants.SENSORDESCRIPTION, o );
271 }
272
273 }