public void replaceXMLEventType(String xmlEventTypeName, ConfigurationEventTypeXMLDOM config) throws ConfigurationException { SchemaModel schemaModel = null; if (config.getSchemaResource() != null || config.getSchemaText() != null) { try { schemaModel = XSDSchemaMapper.loadAndMap(config.getSchemaResource(), config.getSchemaText(), 2); } catch (Exception ex) { throw new ConfigurationException(ex.getMessage(), ex); } } try { eventAdapterService.replaceXMLEventType(xmlEventTypeName, config, schemaModel); } catch (EventAdapterException e) { throw new ConfigurationException("Error updating XML event type: " + e.getMessage(), e); } }
public void addEventType(String eventTypeName, ConfigurationEventTypeXMLDOM xmlDOMEventTypeDesc) { SchemaModel schemaModel = null; if ((xmlDOMEventTypeDesc.getSchemaResource() != null) || (xmlDOMEventTypeDesc.getSchemaText() != null)) { try { schemaModel = XSDSchemaMapper.loadAndMap( xmlDOMEventTypeDesc.getSchemaResource(), xmlDOMEventTypeDesc.getSchemaText(), 2); } catch (Exception ex) { throw new ConfigurationException(ex.getMessage(), ex); } } try { eventAdapterService.addXMLDOMType(eventTypeName, xmlDOMEventTypeDesc, schemaModel, false); } catch (EventAdapterException t) { throw new ConfigurationException(t.getMessage(), t); } }
/** * Initialize event adapter service for config snapshot. * * @param eventAdapterService is events adapter * @param configSnapshot is the config snapshot */ protected static void init( EventAdapterService eventAdapterService, ConfigurationInformation configSnapshot) { // Extract legacy event type definitions for each event type name, if supplied. // // We supply this information as setup information to the event adapter service // to allow discovery of superclasses and interfaces during event type construction for bean // events, // such that superclasses and interfaces can use the legacy type definitions. Map<String, ConfigurationEventTypeLegacy> classLegacyInfo = new HashMap<String, ConfigurationEventTypeLegacy>(); for (Map.Entry<String, String> entry : configSnapshot.getEventTypeNames().entrySet()) { String typeName = entry.getKey(); String className = entry.getValue(); ConfigurationEventTypeLegacy legacyDef = configSnapshot.getEventTypesLegacy().get(typeName); if (legacyDef != null) { classLegacyInfo.put(className, legacyDef); } } eventAdapterService.setClassLegacyConfigs(classLegacyInfo); eventAdapterService.setDefaultPropertyResolutionStyle( configSnapshot.getEngineDefaults().getEventMeta().getClassPropertyResolutionStyle()); eventAdapterService.setDefaultAccessorStyle( configSnapshot.getEngineDefaults().getEventMeta().getDefaultAccessorStyle()); for (String javaPackage : configSnapshot.getEventTypeAutoNamePackages()) { eventAdapterService.addAutoNamePackage(javaPackage); } // Add from the configuration the Java event class names Map<String, String> javaClassNames = configSnapshot.getEventTypeNames(); for (Map.Entry<String, String> entry : javaClassNames.entrySet()) { // Add Java class try { String typeName = entry.getKey(); eventAdapterService.addBeanType(typeName, entry.getValue(), false, true, true, true); } catch (EventAdapterException ex) { throw new ConfigurationException("Error configuring engine: " + ex.getMessage(), ex); } } // Add from the configuration the XML DOM names and type def Map<String, ConfigurationEventTypeXMLDOM> xmlDOMNames = configSnapshot.getEventTypesXMLDOM(); for (Map.Entry<String, ConfigurationEventTypeXMLDOM> entry : xmlDOMNames.entrySet()) { SchemaModel schemaModel = null; if ((entry.getValue().getSchemaResource() != null) || (entry.getValue().getSchemaText() != null)) { try { schemaModel = XSDSchemaMapper.loadAndMap( entry.getValue().getSchemaResource(), entry.getValue().getSchemaText(), 2); } catch (Exception ex) { throw new ConfigurationException(ex.getMessage(), ex); } } // Add XML DOM type try { eventAdapterService.addXMLDOMType(entry.getKey(), entry.getValue(), schemaModel, true); } catch (EventAdapterException ex) { throw new ConfigurationException("Error configuring engine: " + ex.getMessage(), ex); } } // Add maps in dependency order such that supertypes are added before subtypes Set<String> dependentMapOrder; try { Map<String, Set<String>> typesReferences = toTypesReferences(configSnapshot.getMapTypeConfigurations()); dependentMapOrder = GraphUtil.getTopDownOrder(typesReferences); } catch (GraphCircularDependencyException e) { throw new ConfigurationException( "Error configuring engine, dependency graph between map type names is circular: " + e.getMessage(), e); } Map<String, Properties> mapNames = configSnapshot.getEventTypesMapEvents(); Map<String, Map<String, Object>> nestableMapNames = configSnapshot.getEventTypesNestableMapEvents(); dependentMapOrder.addAll(mapNames.keySet()); dependentMapOrder.addAll(nestableMapNames.keySet()); try { for (String mapName : dependentMapOrder) { ConfigurationEventTypeMap mapConfig = configSnapshot.getMapTypeConfigurations().get(mapName); Properties propertiesUnnested = mapNames.get(mapName); if (propertiesUnnested != null) { Map<String, Object> propertyTypes = createPropertyTypes(propertiesUnnested); Map<String, Object> propertyTypesCompiled = EventTypeUtility.compileMapTypeProperties(propertyTypes, eventAdapterService); eventAdapterService.addNestableMapType( mapName, propertyTypesCompiled, mapConfig, true, true, true, false, false); } Map<String, Object> propertiesNestable = nestableMapNames.get(mapName); if (propertiesNestable != null) { Map<String, Object> propertiesNestableCompiled = EventTypeUtility.compileMapTypeProperties(propertiesNestable, eventAdapterService); eventAdapterService.addNestableMapType( mapName, propertiesNestableCompiled, mapConfig, true, true, true, false, false); } } } catch (EventAdapterException ex) { throw new ConfigurationException("Error configuring engine: " + ex.getMessage(), ex); } // Add object-array in dependency order such that supertypes are added before subtypes Set<String> dependentObjectArrayOrder; try { Map<String, Set<String>> typesReferences = toTypesReferences(configSnapshot.getObjectArrayTypeConfigurations()); dependentObjectArrayOrder = GraphUtil.getTopDownOrder(typesReferences); } catch (GraphCircularDependencyException e) { throw new ConfigurationException( "Error configuring engine, dependency graph between object array type names is circular: " + e.getMessage(), e); } Map<String, Map<String, Object>> nestableObjectArrayNames = configSnapshot.getEventTypesNestableObjectArrayEvents(); dependentObjectArrayOrder.addAll(nestableObjectArrayNames.keySet()); try { for (String objectArrayName : dependentObjectArrayOrder) { ConfigurationEventTypeObjectArray objectArrayConfig = configSnapshot.getObjectArrayTypeConfigurations().get(objectArrayName); Map<String, Object> propertyTypes = nestableObjectArrayNames.get(objectArrayName); propertyTypes = resolveClassesForStringPropertyTypes(propertyTypes); Map<String, Object> propertyTypesCompiled = EventTypeUtility.compileMapTypeProperties(propertyTypes, eventAdapterService); eventAdapterService.addNestableObjectArrayType( objectArrayName, propertyTypesCompiled, objectArrayConfig, true, true, true, false, false, false, null); } } catch (EventAdapterException ex) { throw new ConfigurationException("Error configuring engine: " + ex.getMessage(), ex); } // Add plug-in event representations Map<URI, ConfigurationPlugInEventRepresentation> plugInReps = configSnapshot.getPlugInEventRepresentation(); for (Map.Entry<URI, ConfigurationPlugInEventRepresentation> entry : plugInReps.entrySet()) { String className = entry.getValue().getEventRepresentationClassName(); Class eventRepClass; try { ClassLoader cl = Thread.currentThread().getContextClassLoader(); eventRepClass = Class.forName(className, true, cl); } catch (ClassNotFoundException ex) { throw new ConfigurationException( "Failed to load plug-in event representation class '" + className + "'", ex); } Object pluginEventRepObj; try { pluginEventRepObj = eventRepClass.newInstance(); } catch (InstantiationException ex) { throw new ConfigurationException( "Failed to instantiate plug-in event representation class '" + className + "' via default constructor", ex); } catch (IllegalAccessException ex) { throw new ConfigurationException( "Illegal access to instantiate plug-in event representation class '" + className + "' via default constructor", ex); } if (!(pluginEventRepObj instanceof PlugInEventRepresentation)) { throw new ConfigurationException( "Plug-in event representation class '" + className + "' does not implement the required interface " + PlugInEventRepresentation.class.getName()); } URI eventRepURI = entry.getKey(); PlugInEventRepresentation pluginEventRep = (PlugInEventRepresentation) pluginEventRepObj; Serializable initializer = entry.getValue().getInitializer(); PlugInEventRepresentationContext context = new PlugInEventRepresentationContext(eventAdapterService, eventRepURI, initializer); try { pluginEventRep.init(context); eventAdapterService.addEventRepresentation(eventRepURI, pluginEventRep); } catch (Throwable t) { throw new ConfigurationException( "Plug-in event representation class '" + className + "' and URI '" + eventRepURI + "' did not initialize correctly : " + t.getMessage(), t); } } // Add plug-in event type names Map<String, ConfigurationPlugInEventType> plugInNames = configSnapshot.getPlugInEventTypes(); for (Map.Entry<String, ConfigurationPlugInEventType> entry : plugInNames.entrySet()) { String name = entry.getKey(); ConfigurationPlugInEventType config = entry.getValue(); eventAdapterService.addPlugInEventType( name, config.getEventRepresentationResolutionURIs(), config.getInitializer()); } }