use of org.geotoolkit.sml.xml.v100.Capabilities in project openflowplugin by opendaylight.
the class FeaturesReplyMessageFactoryTest method testCapabilities.
/**
* Testing {@link FeaturesReplyMessageFactory} for correct translation into POJO
* (capabilities set).
*/
@Test
public void testCapabilities() {
ByteBuf bb = BufferHelper.buildBuffer("00 01 02 03 04 05 06 07 00 01 02 03 01 01 00 00 00" + " 00 01 6F 00 01 02 03");
GetFeaturesOutput builtByFactory = BufferHelper.deserialize(featuresFactory, bb);
BufferHelper.checkHeaderV13(builtByFactory);
Assert.assertEquals("Wrong capabilities", new Capabilities(true, true, true, true, true, true, true), builtByFactory.getCapabilities());
}
use of org.geotoolkit.sml.xml.v100.Capabilities in project openflowplugin by opendaylight.
the class FeaturesReplyMessageFactoryTest method test.
/**
* Testing {@link FeaturesReplyMessageFactory} for correct translation into POJO.
*/
@Test
public void test() {
ByteBuf bb = BufferHelper.buildBuffer("00 01 02 03 04 05 06 07 00 01 02 03 01 01 00 00 00" + " 00 00 00 00 01 02 03");
GetFeaturesOutput builtByFactory = BufferHelper.deserialize(featuresFactory, bb);
BufferHelper.checkHeaderV13(builtByFactory);
Assert.assertEquals("Wrong datapathId", 0x0001020304050607L, builtByFactory.getDatapathId().longValue());
Assert.assertEquals("Wrong buffers", 0x00010203L, builtByFactory.getBuffers().longValue());
Assert.assertEquals("Wrong number of tables", 0x01, builtByFactory.getTables().shortValue());
Assert.assertEquals("Wrong auxiliaryId", 0x01, builtByFactory.getAuxiliaryId().shortValue());
Assert.assertEquals("Wrong capabilities", new Capabilities(false, false, false, false, false, false, false), builtByFactory.getCapabilities());
Assert.assertEquals("Wrong reserved", 0x00010203L, builtByFactory.getReserved().longValue());
}
use of org.geotoolkit.sml.xml.v100.Capabilities in project openflowplugin by opendaylight.
the class OF13DeviceInitializer method initializeNodeInformation.
@Override
protected Future<Void> initializeNodeInformation(@NonNull final DeviceContext deviceContext, final boolean switchFeaturesMandatory, final boolean skipTableFeatures, @Nullable final MultipartWriterProvider multipartWriterProvider, @Nullable final ConvertorExecutor convertorExecutor) {
final ConnectionContext connectionContext = Preconditions.checkNotNull(deviceContext.getPrimaryConnectionContext());
final DeviceState deviceState = Preconditions.checkNotNull(deviceContext.getDeviceState());
final DeviceInfo deviceInfo = Preconditions.checkNotNull(deviceContext.getDeviceInfo());
final Capabilities capabilities = connectionContext.getFeatures().getCapabilities();
LOG.debug("Setting capabilities for device {}", deviceInfo);
DeviceStateUtil.setDeviceStateBasedOnV13Capabilities(deviceState, capabilities);
// First process description reply, write data to DS and write consequent data if successful
return Futures.transformAsync(requestMultipart(MultipartType.OFPMPDESC, deviceContext), input -> {
translateAndWriteResult(MultipartType.OFPMPDESC, input.getResult(), deviceContext, multipartWriterProvider, convertorExecutor);
final List<ListenableFuture<RpcResult<List<OfHeader>>>> futures = new ArrayList<>();
futures.add(requestAndProcessMultipart(MultipartType.OFPMPMETERFEATURES, deviceContext, skipTableFeatures, multipartWriterProvider, convertorExecutor));
futures.add(requestAndProcessMultipart(MultipartType.OFPMPGROUPFEATURES, deviceContext, skipTableFeatures, multipartWriterProvider, convertorExecutor));
futures.add(requestAndProcessMultipart(MultipartType.OFPMPTABLEFEATURES, deviceContext, skipTableFeatures, multipartWriterProvider, convertorExecutor));
futures.add(requestAndProcessMultipart(MultipartType.OFPMPPORTDESC, deviceContext, skipTableFeatures, multipartWriterProvider, convertorExecutor));
return Futures.transform(switchFeaturesMandatory ? Futures.allAsList(futures) : Futures.successfulAsList(futures), input1 -> {
LOG.info("Static node {} successfully finished collecting", deviceContext.getDeviceInfo());
return null;
}, MoreExecutors.directExecutor());
}, MoreExecutors.directExecutor());
}
use of org.geotoolkit.sml.xml.v100.Capabilities in project openflowplugin by opendaylight.
the class DeviceStateUtilTest method setDeviceStateBasedOnV13CapabilitiesTest.
@Test
public void setDeviceStateBasedOnV13CapabilitiesTest() {
final Capabilities dummyCapabilities = new Capabilities(false, false, false, false, false, false, false);
DeviceStateUtil.setDeviceStateBasedOnV13Capabilities(mockedDeviceState, dummyCapabilities);
verify(mockedDeviceState).setFlowStatisticsAvailable(false);
verify(mockedDeviceState).setTableStatisticsAvailable(false);
verify(mockedDeviceState).setPortStatisticsAvailable(false);
verify(mockedDeviceState).setQueueStatisticsAvailable(false);
verify(mockedDeviceState).setGroupAvailable(false);
}
use of org.geotoolkit.sml.xml.v100.Capabilities in project geotoolkit by Geomatys.
the class SmlXMLBindingTest method ComponentUnmarshallMarshalingTest.
/**
* Test simple Record Marshalling.
*
* @throws java.lang.Exception
*/
@Test
public void ComponentUnmarshallMarshalingTest() throws Exception {
Unmarshaller unmarshaller = SensorMLMarshallerPool.getInstance().acquireUnmarshaller();
InputStream is = SmlXMLBindingTest.class.getResourceAsStream("/org/geotoolkit/sml/component.xml");
Object unmarshalled = unmarshaller.unmarshal(is);
if (unmarshalled instanceof JAXBElement) {
unmarshalled = ((JAXBElement) unmarshalled).getValue();
}
assertTrue(unmarshalled instanceof SensorML);
SensorML result = (SensorML) unmarshalled;
Member member = new Member();
member.setRole("urn:x-ogx:def:sensor:OGC:detector");
ComponentType component = new ComponentType();
List<JAXBElement<String>> kw = new ArrayList<JAXBElement<String>>();
kw.add(sml100Factory.createKeywordsKeywordListKeyword("piezometer"));
kw.add(sml100Factory.createKeywordsKeywordListKeyword("geosciences"));
kw.add(sml100Factory.createKeywordsKeywordListKeyword("point d'eau"));
Keywords keywords = new Keywords(new KeywordList(URI.create("urn:x-brgm:def:gcmd:keywords"), kw));
component.setKeywords(keywords);
Classifier cl1 = new Classifier("intendedApplication", new Term("eaux souterraines", URI.create("urn:x-ogc:def:classifier:OGC:application")));
CodeSpacePropertyType cs = new CodeSpacePropertyType("urn:x-brgm:def:GeoPoint:bss");
Classifier cl2 = new Classifier("sensorType", new Term(cs, "Profondeur", URI.create("urn:sensor:classifier:sensorType")));
List<Classifier> cls = new ArrayList<Classifier>();
cls.add(cl1);
cls.add(cl2);
ClassifierList claList = new ClassifierList(null, cls);
Classification classification = new Classification(claList);
component.setClassification(classification);
List<Identifier> identifiers = new ArrayList<Identifier>();
cs = new CodeSpacePropertyType("urn:x-brgm:def:sensorSystem:hydras");
Identifier id1 = new Identifier("supervisorCode", new Term(cs, "00ARGLELES_2000", URI.create("urn:x-ogc:def:identifier:OGC:modelNumber")));
Identifier id2 = new Identifier("longName", new Term("Madofil II", URI.create("urn:x-ogc:def:identifier:OGC:longname")));
identifiers.add(id1);
identifiers.add(id2);
IdentifierList identifierList = new IdentifierList(null, identifiers);
Identification identification = new Identification(identifierList);
component.setIdentification(identification);
TimePeriodType period = new TimePeriodType(new TimePositionType("2004-06-01"));
ValidTime vTime = new ValidTime(period);
component.setValidTime(vTime);
Capabilities capabilities = new Capabilities();
TimeRange timeRange = new TimeRange(Arrays.asList("1987-04-23", "now"));
DataComponentPropertyType field = new DataComponentPropertyType("periodOfData", "urn:x-brgm:def:property:periodOfData", timeRange);
DataRecordType record = new DataRecordType("urn:x-brgm:def:property:periodOfData", Arrays.asList(field));
JAXBElement<? extends AbstractDataRecordType> jbRecord = swe100Factory.createDataRecord(record);
capabilities.setAbstractDataRecord(jbRecord);
component.setCapabilities(capabilities);
Contact contact = new Contact("urn:x-ogc:def:role:manufacturer", new ResponsibleParty("IRIS"));
component.setContact(contact);
Position position = new Position("conductivitePosition", "piezometer#piezoPosition");
component.setPosition(position);
IoComponentPropertyType io = new IoComponentPropertyType("level", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:level"));
InputList inputList = new InputList(Arrays.asList(io));
Inputs inputs = new Inputs(inputList);
component.setInputs(inputs);
IoComponentPropertyType io2 = new IoComponentPropertyType("depth", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:depth"));
OutputList outputList = new OutputList(Arrays.asList(io2));
Outputs outputs = new Outputs(outputList);
component.setOutputs(outputs);
List<DataComponentPropertyType> params = new ArrayList<DataComponentPropertyType>();
UomPropertyType uom = new UomPropertyType(null, "urn:ogc:unit:minuts");
QuantityType quantity1 = new QuantityType("urn:x-ogc:def:property:frequency", uom, 60.0);
DataComponentPropertyType p1 = new DataComponentPropertyType("frequency", "urn:x-ogc:def:property:frequency", quantity1);
params.add(p1);
UomPropertyType uom2 = new UomPropertyType("m", null);
QuantityType quantity2 = new QuantityType("urn:x-ogc:def:property:precision", uom2, 0.05);
DataComponentPropertyType p2 = new DataComponentPropertyType("precision", "urn:x-ogc:def:property:precision", quantity2);
params.add(p2);
QuantityRange quantityRange = new QuantityRange(uom2, Arrays.asList(0.0, 10.0));
DataComponentPropertyType p3 = new DataComponentPropertyType("validity", "urn:x-ogc:def:property:validity", quantityRange);
params.add(p3);
ParameterList paramList = new ParameterList(params);
Parameters parameters = new Parameters(paramList);
component.setParameters(parameters);
component.setPosition(new Position("conductivitePosition", "piezometer#piezoPosition"));
component.setName(new DefaultIdentifier("Capteur Profondeur de ARGELES"));
member.setProcess(sml100Factory.createComponent(component));
SensorML expectedResult = new SensorML("1.0", Arrays.asList(member));
assertEquals(result.getMember().size(), 1);
assertTrue(result.getMember().get(0).getProcess() != null);
assertTrue(result.getMember().get(0).getProcess().getValue() instanceof ComponentType);
ComponentType resultProcess = (ComponentType) result.getMember().get(0).getProcess().getValue();
assertEquals(resultProcess.getCapabilities(), component.getCapabilities());
assertTrue(resultProcess.getContact().size() == 1);
assertEquals(resultProcess.getContact().get(0).getContactList(), component.getContact().get(0).getContactList());
assertEquals(resultProcess.getContact().get(0).getResponsibleParty().getContactInfo(), component.getContact().get(0).getResponsibleParty().getContactInfo());
assertEquals(resultProcess.getContact().get(0).getResponsibleParty().getOrganizationName(), component.getContact().get(0).getResponsibleParty().getOrganizationName());
assertEquals(resultProcess.getContact().get(0).getResponsibleParty(), component.getContact().get(0).getResponsibleParty());
assertEquals(resultProcess.getContact().get(0), component.getContact().get(0));
assertEquals(resultProcess.getContact(), component.getContact());
assertTrue(resultProcess.getClassification().size() == 1);
assertTrue(resultProcess.getClassification().get(0).getClassifierList().getClassifier().size() == 2);
assertEquals(resultProcess.getClassification().get(0).getClassifierList().getClassifier().get(0).getTerm(), component.getClassification().get(0).getClassifierList().getClassifier().get(0).getTerm());
assertEquals(resultProcess.getClassification().get(0).getClassifierList().getClassifier().get(0), component.getClassification().get(0).getClassifierList().getClassifier().get(0));
assertEquals(resultProcess.getClassification().get(0).getClassifierList().getClassifier(), component.getClassification().get(0).getClassifierList().getClassifier());
assertEquals(resultProcess.getClassification().get(0).getClassifierList(), component.getClassification().get(0).getClassifierList());
assertEquals(resultProcess.getClassification().get(0), component.getClassification().get(0));
assertEquals(resultProcess.getClassification(), component.getClassification());
assertEquals(resultProcess.getIdentification(), component.getIdentification());
assertEquals(resultProcess.getValidTime(), component.getValidTime());
assertEquals(resultProcess.getParameters(), component.getParameters());
assertEquals(resultProcess.getInputs().getInputList().getInput(), component.getInputs().getInputList().getInput());
assertEquals(resultProcess.getInputs().getInputList(), component.getInputs().getInputList());
assertEquals(resultProcess.getInputs(), component.getInputs());
assertEquals(resultProcess.getOutputs(), component.getOutputs());
assertEquals(resultProcess.getSMLLocation(), component.getSMLLocation());
assertEquals(resultProcess.getPosition(), component.getPosition());
assertEquals(resultProcess.getSpatialReferenceFrame(), component.getSpatialReferenceFrame());
assertEquals(resultProcess.getDocumentation(), component.getDocumentation());
assertEquals(resultProcess.getCharacteristics(), component.getCharacteristics());
assertEquals(resultProcess.getKeywords(), component.getKeywords());
assertEquals(resultProcess.getParameters(), component.getParameters());
assertEquals(resultProcess.getName(), component.getName());
assertEquals(resultProcess, component);
assertEquals(expectedResult.getMember().get(0), result.getMember().get(0));
assertEquals(expectedResult.getMember(), result.getMember());
assertEquals(expectedResult, result);
SensorMLMarshallerPool.getInstance().recycle(unmarshaller);
}
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