All Downloads are FREE. Search and download functionalities are using the official Maven repository.

org.jbpm.bpmn2.xml.ProcessHandler Maven / Gradle / Ivy

There is a newer version: 7.74.1.Final
Show newest version
/**
 * Copyright 2010 Red Hat, Inc. and/or its affiliates.
 * 
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 * 
 * http://www.apache.org/licenses/LICENSE-2.0
 * 
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package org.jbpm.bpmn2.xml;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.concurrent.atomic.AtomicInteger;

import org.drools.core.xml.BaseAbstractHandler;
import org.drools.core.xml.ExtensibleXmlParser;
import org.drools.core.xml.Handler;
import org.jbpm.bpmn2.core.Association;
import org.jbpm.bpmn2.core.DataStore;
import org.jbpm.bpmn2.core.Definitions;
import org.jbpm.bpmn2.core.Error;
import org.jbpm.bpmn2.core.Escalation;
import org.jbpm.bpmn2.core.Interface;
import org.jbpm.bpmn2.core.IntermediateLink;
import org.jbpm.bpmn2.core.ItemDefinition;
import org.jbpm.bpmn2.core.Lane;
import org.jbpm.bpmn2.core.Message;
import org.jbpm.bpmn2.core.SequenceFlow;
import org.jbpm.bpmn2.core.Signal;
import org.jbpm.compiler.xml.ProcessBuildData;
import org.jbpm.process.core.ContextContainer;
import org.jbpm.process.core.context.exception.ActionExceptionHandler;
import org.jbpm.process.core.context.exception.CompensationHandler;
import org.jbpm.process.core.context.exception.CompensationScope;
import org.jbpm.process.core.context.exception.ExceptionScope;
import org.jbpm.process.core.context.swimlane.Swimlane;
import org.jbpm.process.core.event.EventFilter;
import org.jbpm.process.core.event.EventTypeFilter;
import org.jbpm.process.core.timer.Timer;
import org.jbpm.process.instance.impl.CancelNodeInstanceAction;
import org.jbpm.ruleflow.core.RuleFlowProcess;
import org.jbpm.ruleflow.core.validation.RuleFlowProcessValidator;
import org.jbpm.workflow.core.Connection;
import org.jbpm.workflow.core.Constraint;
import org.jbpm.workflow.core.DroolsAction;
import org.jbpm.workflow.core.impl.ConnectionImpl;
import org.jbpm.workflow.core.impl.ConnectionRef;
import org.jbpm.workflow.core.impl.ConstraintImpl;
import org.jbpm.workflow.core.impl.DroolsConsequenceAction;
import org.jbpm.workflow.core.impl.ExtendedNodeImpl;
import org.jbpm.workflow.core.impl.NodeImpl;
import org.jbpm.workflow.core.node.ActionNode;
import org.jbpm.workflow.core.node.BoundaryEventNode;
import org.jbpm.workflow.core.node.CompositeContextNode;
import org.jbpm.workflow.core.node.CompositeNode;
import org.jbpm.workflow.core.node.ConstraintTrigger;
import org.jbpm.workflow.core.node.EndNode;
import org.jbpm.workflow.core.node.EventNode;
import org.jbpm.workflow.core.node.EventSubProcessNode;
import org.jbpm.workflow.core.node.EventTrigger;
import org.jbpm.workflow.core.node.FaultNode;
import org.jbpm.workflow.core.node.HumanTaskNode;
import org.jbpm.workflow.core.node.RuleSetNode;
import org.jbpm.workflow.core.node.Split;
import org.jbpm.workflow.core.node.StartNode;
import org.jbpm.workflow.core.node.StateBasedNode;
import org.jbpm.workflow.core.node.StateNode;
import org.jbpm.workflow.core.node.Trigger;
import org.jbpm.workflow.core.node.WorkItemNode;
import org.kie.api.definition.process.Node;
import org.kie.api.definition.process.NodeContainer;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.xml.sax.Attributes;
import org.xml.sax.SAXException;

public class ProcessHandler extends BaseAbstractHandler implements Handler {
	
    private static final Logger logger = LoggerFactory.getLogger(ProcessHandler.class);

	public static final String CONNECTIONS = "BPMN.Connections";
    public static final String LINKS = "BPMN.ThrowLinks";
    public static final String ASSOCIATIONS = "BPMN.Associations";
    public static final String ERRORS = "BPMN.Errors";
    public static final String ESCALATIONS = "BPMN.Escalations";

    static final String PROCESS_INSTANCE_SIGNAL_EVENT = "kcontext.getProcessInstance().signalEvent(\"";
    static final String RUNTIME_SIGNAL_EVENT = "kcontext.getKnowledgeRuntime().signalEvent(\"";
    static final String RUNTIME_MANAGER_SIGNAL_EVENT = "((org.kie.api.runtime.manager.RuntimeManager)kcontext.getKnowledgeRuntime().getEnvironment().get(\"RuntimeManager\")).signalEvent(\"";
    		
	@SuppressWarnings("unchecked")
	public ProcessHandler() {
		if ((this.validParents == null) && (this.validPeers == null)) {
			this.validParents = new HashSet();
			this.validParents.add(Definitions.class);

			this.validPeers = new HashSet();
			this.validPeers.add(null);
            this.validPeers.add(ItemDefinition.class);
            this.validPeers.add(Message.class);
            this.validPeers.add(Interface.class);
            this.validPeers.add(Escalation.class);
            this.validPeers.add(Error.class);
            this.validPeers.add(Signal.class);
            this.validPeers.add(DataStore.class);
            this.validPeers.add(RuleFlowProcess.class);

			this.allowNesting = false;
		}
	}

	public Object start(final String uri, final String localName,
			            final Attributes attrs, final ExtensibleXmlParser parser)
			throws SAXException {
		parser.startElementBuilder(localName, attrs);

		String id = attrs.getValue("id");
		String name = attrs.getValue("name");
		String packageName = attrs.getValue("http://www.jboss.org/drools", "packageName");
		String dynamic = attrs.getValue("http://www.jboss.org/drools", "adHoc");
		String version = attrs.getValue("http://www.jboss.org/drools", "version");

		RuleFlowProcess process = new RuleFlowProcess();
		process.setAutoComplete(true);
		process.setId(id);
		if (name == null) {
		    name = id;
		}
		process.setName(name);
		process.setType("RuleFlow");
		if (packageName == null) {
			packageName = "org.drools.bpmn2";
		}
		process.setPackageName(packageName);
		if ("true".equals(dynamic)) {
			process.setDynamic(true);
			process.setAutoComplete(false);
		}
		if (version != null) {
			process.setVersion(version);
		}

		((ProcessBuildData) parser.getData()).addProcess(process);
		// register the definitions object as metadata of process.
		process.setMetaData("Definitions", parser.getParent());
		// register bpmn2 imports as meta data of process
		Object typedImports = ((ProcessBuildData) parser.getData()).getMetaData("Bpmn2Imports");
		if (typedImports != null) {
		    process.setMetaData("Bpmn2Imports", typedImports);
		}
		// register item definitions as meta data of process
		Object itemDefinitions = ((ProcessBuildData) parser.getData()).getMetaData("ItemDefinitions");
		if (itemDefinitions != null) {
		    process.setMetaData("ItemDefinitions", itemDefinitions);
		}
		
		// for unique id's of nodes, start with one to avoid returning wrong nodes for dynamic nodes
		parser.getMetaData().put("idGen", new AtomicInteger(1));
		
		return process;
	}

	@SuppressWarnings("unchecked")
	public Object end(final String uri, final String localName,
			          final ExtensibleXmlParser parser) throws SAXException {
		parser.endElementBuilder();
		
		RuleFlowProcess process = (RuleFlowProcess) parser.getCurrent();
		 List throwLinks = (List) process
         .getMetaData(LINKS);
        linkIntermediateLinks(process, throwLinks);

 		List connections = (List) process.getMetaData(CONNECTIONS);
 		linkConnections(process, connections);
		linkBoundaryEvents(process);
		
        // This must be done *after* linkConnections(process, connections)
		//  because it adds hidden connections for compensations
 		List associations = (List) process.getMetaData(ASSOCIATIONS);
		linkAssociations((Definitions) process.getMetaData("Definitions"), process, associations);
		
        List lanes = (List)
            process.getMetaData(LaneHandler.LANES);
        assignLanes(process, lanes);
        postProcessNodes(process, process);
		return process;
	}
	
	 public static void linkIntermediateLinks(NodeContainer process,
	            List links) {

	        if (null != links) {

	            // Search throw links
	            ArrayList throwLinks = new ArrayList();
	            for (IntermediateLink aLinks : links) {
	                if (aLinks.isThrowLink()) {
	                    throwLinks.add(aLinks);
	                }
	            }

	            // Look for catch links for a throw link
	            for (IntermediateLink throwLink : throwLinks) {

	                ArrayList linksWithSharedNames = new ArrayList();
	                for (IntermediateLink aLink : links) {
	                    if (throwLink.getName().equals(aLink.getName())) {
	                        linksWithSharedNames.add(aLink);
	                    }
	                }

	                if (linksWithSharedNames.size() < 2) {
	                    throw new IllegalArgumentException(
	                            "There should be at least 2 link events to make a connection");
	                }

	                linksWithSharedNames.remove(throwLink);

	                // Make the connections
	                Node t = findNodeByIdOrUniqueIdInMetadata(process,
	                        throwLink.getUniqueId());

	                // connect throw to catch
	                for (IntermediateLink catchLink : linksWithSharedNames) {

	                    Node c = findNodeByIdOrUniqueIdInMetadata(process,
	                            catchLink.getUniqueId());
	                    if (t != null && c != null) {
	                        Connection result = new ConnectionImpl(t,
	                                NodeImpl.CONNECTION_DEFAULT_TYPE, c,
	                                NodeImpl.CONNECTION_DEFAULT_TYPE);
	                        result.setMetaData("linkNodeHidden", "yes");
	                    }
	                }

	                // Remove processed links
	                links.remove(throwLink);
	                links.removeAll(linksWithSharedNames);
	            }

	            if (links.size() > 0) {
	                throw new IllegalArgumentException(links.size()
	                        + " links were not processed");
	            }

	        }
	 }

	 private static Object findNodeOrDataStoreByUniqueId(Definitions definitions, NodeContainer nodeContainer, final String nodeRef, String errorMsg) { 
	     if( definitions !=  null ) { 
	         List dataStores = definitions.getDataStores();
	         if( dataStores != null ) { 
	             for( DataStore dataStore : dataStores ) { 
	                 if( nodeRef.equals(dataStore.getId()) ) { 
	                     return dataStore;
	                 }
	             }
	         }
	     }
	     return findNodeByIdOrUniqueIdInMetadata(nodeContainer, nodeRef, errorMsg);
     } 
	 
	 private static Node findNodeByIdOrUniqueIdInMetadata(
	         NodeContainer nodeContainer, String targetRef) {
	     return findNodeByIdOrUniqueIdInMetadata(nodeContainer, targetRef, "Could not find target node for connection:" + targetRef);
	 }

	 private static Node findNodeByIdOrUniqueIdInMetadata(NodeContainer nodeContainer, final String nodeRef, String errorMsg) { 
	     Node node = null;
	     // try looking for a node with same "UniqueId" (in metadata)
	     for (Node containerNode: nodeContainer.getNodes()) {
	         if (nodeRef.equals(containerNode.getMetaData().get("UniqueId"))) {
	             node = containerNode;
	             break;
	         }
	     }
	     if (node == null) {
	         throw new IllegalArgumentException(errorMsg);
	     }
	     return node;
	 }

	 public Class generateNodeFor() {
		return RuleFlowProcess.class;
	}
	
	public static void linkConnections(NodeContainer nodeContainer, List connections) {
		if (connections != null) {
			for (SequenceFlow connection: connections) {
				String sourceRef = connection.getSourceRef();
                Node source = findNodeByIdOrUniqueIdInMetadata(nodeContainer, sourceRef, "Could not find source node for connection:" + sourceRef);
                
                if (source instanceof EventNode) {
                    for (EventFilter eventFilter : ((EventNode) source).getEventFilters()) {
                        if (eventFilter instanceof EventTypeFilter) {
                            if ("Compensation".equals(((EventTypeFilter) eventFilter).getType())) {
                                // While this isn't explicitly stated in the spec,
                                // BPMN Method & Style, 2nd Ed. (Silver), states this on P. 131
                                throw new IllegalArgumentException(
                                        "A Compensation Boundary Event can only be *associated* with a compensation activity via an Association, not via a Sequence Flow element.");
                            }
                        }
                    }
                }
                
                String targetRef = connection.getTargetRef();
                Node target = findNodeByIdOrUniqueIdInMetadata(nodeContainer, targetRef, "Could not find target node for connection:" + targetRef);

				
				Connection result = new ConnectionImpl(
					source, NodeImpl.CONNECTION_DEFAULT_TYPE, 
					target, NodeImpl.CONNECTION_DEFAULT_TYPE);
				result.setMetaData("bendpoints", connection.getBendpoints());
				result.setMetaData("UniqueId", connection.getId());
				
				if ("true".equals(System.getProperty("jbpm.enable.multi.con"))){
					NodeImpl nodeImpl = (NodeImpl) source;
					Constraint constraint = buildConstraint(connection, nodeImpl);
					if (constraint != null) {
						nodeImpl.addConstraint(new ConnectionRef(target.getId(), NodeImpl.CONNECTION_DEFAULT_TYPE),
								constraint);
					}
					
				} else if (source instanceof Split) {
					Split split = (Split) source;
					Constraint constraint = buildConstraint(connection, split);
					split.addConstraint(
						new ConnectionRef(target.getId(), NodeImpl.CONNECTION_DEFAULT_TYPE),
						constraint);
				}
			}
		}
	}

	   
    public static void linkBoundaryEvents(NodeContainer nodeContainer) {
        for (Node node: nodeContainer.getNodes()) {
            if (node instanceof EventNode) {
                final String attachedTo = (String) node.getMetaData().get("AttachedTo");
                if (attachedTo != null) {
                    for( EventFilter filter : ((EventNode) node).getEventFilters() ) {
                        String type = ((EventTypeFilter) filter).getType();
                        Node attachedNode = findNodeByIdOrUniqueIdInMetadata(nodeContainer, attachedTo, "Could not find node to attach to: " + attachedTo);

                        // 
                        if (!(attachedNode instanceof StateBasedNode) && !type.equals("Compensation")) {
                            throw new IllegalArgumentException("Boundary events are supported only on StateBasedNode, found node: " 
                                    + attachedNode.getClass().getName() + " [" + attachedNode.getMetaData().get("UniqueId") + "]");
                        }

                        if (type.startsWith("Escalation")) {
                            linkBoundaryEscalationEvent(nodeContainer, node, attachedTo, attachedNode);
                        } else if (type.startsWith("Error-")) {
                            linkBoundaryErrorEvent(nodeContainer, node, attachedTo, attachedNode);
                        } else if (type.startsWith("Timer-")) {
                            linkBoundaryTimerEvent(nodeContainer, node, attachedTo, attachedNode);
                        } else if (type.equals("Compensation")) {
                            linkBoundaryCompensationEvent(nodeContainer, node, attachedTo, attachedNode);
                        } else if (node.getMetaData().get("SignalName") != null || type.startsWith("Message-")) {
                            linkBoundarySignalEvent(nodeContainer, node, attachedTo, attachedNode);
                        } else if (type.startsWith("Condition-")) {
                            linkBoundaryConditionEvent(nodeContainer, node, attachedTo, attachedNode);
                        }
                    }
                }
            }
        }
    }
    
    private static void linkBoundaryEscalationEvent(NodeContainer nodeContainer, Node node, String attachedTo, Node attachedNode) {
        boolean cancelActivity = (Boolean) node.getMetaData().get("CancelActivity");
        String escalationCode = (String) node.getMetaData().get("EscalationEvent");
        String escalationStructureRef = (String) node.getMetaData().get("EscalationStructureRef");
        
        ContextContainer compositeNode = (ContextContainer) attachedNode;
        ExceptionScope exceptionScope = (ExceptionScope) 
            compositeNode.getDefaultContext(ExceptionScope.EXCEPTION_SCOPE);
        if (exceptionScope == null) {
            exceptionScope = new ExceptionScope();
            compositeNode.addContext(exceptionScope);
            compositeNode.setDefaultContext(exceptionScope);
        }
        
        String variable = ((EventNode)node).getVariableName();
        ActionExceptionHandler exceptionHandler = new ActionExceptionHandler();
        DroolsConsequenceAction action = new DroolsConsequenceAction("java", 
                    PROCESS_INSTANCE_SIGNAL_EVENT + "Escalation-" + attachedTo + "-" + escalationCode + "\", kcontext.getVariable(\"" + variable +"\"));");
        
        exceptionHandler.setAction(action);
        exceptionHandler.setFaultVariable(variable);
        exceptionScope.setExceptionHandler(escalationCode, exceptionHandler);
        if (escalationStructureRef != null) {
        	exceptionScope.setExceptionHandler(escalationStructureRef, exceptionHandler);
        }
        
        if (cancelActivity) {
            List actions = ((EventNode)node).getActions(EndNode.EVENT_NODE_EXIT);
            if (actions == null) {
                actions = new ArrayList();
            }
            DroolsConsequenceAction cancelAction =  new DroolsConsequenceAction("java", null);
            cancelAction.setMetaData("Action", new CancelNodeInstanceAction(attachedTo));
            actions.add(cancelAction);
            ((EventNode)node).setActions(EndNode.EVENT_NODE_EXIT, actions);
        }   
    }
    
    private static void linkBoundaryErrorEvent(NodeContainer nodeContainer, Node node, String attachedTo, Node attachedNode) {
        ContextContainer compositeNode = (ContextContainer) attachedNode;
        ExceptionScope exceptionScope = (ExceptionScope) 
            compositeNode.getDefaultContext(ExceptionScope.EXCEPTION_SCOPE);
        if (exceptionScope == null) {
            exceptionScope = new ExceptionScope();
            compositeNode.addContext(exceptionScope);
            compositeNode.setDefaultContext(exceptionScope);
        }
        String errorCode = (String) node.getMetaData().get("ErrorEvent");
        boolean hasErrorCode = (Boolean) node.getMetaData().get("HasErrorEvent");
        String errorStructureRef = (String) node.getMetaData().get("ErrorStructureRef");
        ActionExceptionHandler exceptionHandler = new ActionExceptionHandler();
        
        String variable = ((EventNode)node).getVariableName();

        DroolsConsequenceAction action = new DroolsConsequenceAction("java",                   
                    PROCESS_INSTANCE_SIGNAL_EVENT + "Error-" + attachedTo + "-" + errorCode + "\", kcontext.getVariable(\"" + variable +"\"));");
        
        exceptionHandler.setAction(action);
        exceptionHandler.setFaultVariable(variable);
        exceptionScope.setExceptionHandler(hasErrorCode?errorCode:null, exceptionHandler);
        if (errorStructureRef != null) {
        	exceptionScope.setExceptionHandler(errorStructureRef, exceptionHandler);
        }

        List actions = ((EventNode)node).getActions(EndNode.EVENT_NODE_EXIT);
        if (actions == null) {
            actions = new ArrayList();
        }
        DroolsConsequenceAction cancelAction =  new DroolsConsequenceAction("java", null);
        cancelAction.setMetaData("Action", new CancelNodeInstanceAction(attachedTo));
        actions.add(cancelAction);
        ((EventNode)node).setActions(EndNode.EVENT_NODE_EXIT, actions);
    }
    
    private static void linkBoundaryTimerEvent(NodeContainer nodeContainer, Node node, String attachedTo, Node attachedNode) {
        boolean cancelActivity = (Boolean) node.getMetaData().get("CancelActivity");
        StateBasedNode compositeNode = (StateBasedNode) attachedNode;
        String timeDuration = (String) node.getMetaData().get("TimeDuration");
        String timeCycle = (String) node.getMetaData().get("TimeCycle");
        String timeDate = (String) node.getMetaData().get("TimeDate");
        Timer timer = new Timer();
        if (timeDuration != null) {
            timer.setDelay(timeDuration);
            timer.setTimeType(Timer.TIME_DURATION);
            compositeNode.addTimer(timer, new DroolsConsequenceAction("java",
                PROCESS_INSTANCE_SIGNAL_EVENT + "Timer-" + attachedTo + "-" + timeDuration + "-" + node.getId() +"\", kcontext.getNodeInstance().getId());"));
        } else if (timeCycle != null) {
            int index = timeCycle.indexOf("###");
            if (index != -1) {
                String period = timeCycle.substring(index + 3);
                timeCycle = timeCycle.substring(0, index);
                timer.setPeriod(period);
            }
            timer.setDelay(timeCycle);
            timer.setTimeType(Timer.TIME_CYCLE);
            compositeNode.addTimer(timer, new DroolsConsequenceAction("java",
                PROCESS_INSTANCE_SIGNAL_EVENT + "Timer-" + attachedTo + "-" + timeCycle + (timer.getPeriod() == null ? "" : "###" + timer.getPeriod()) + "-" + node.getId() + "\", kcontext.getNodeInstance().getId());"));
        } else if (timeDate != null) {
            timer.setDate(timeDate);
            timer.setTimeType(Timer.TIME_DATE);
            compositeNode.addTimer(timer, new DroolsConsequenceAction("java", 
                PROCESS_INSTANCE_SIGNAL_EVENT + "Timer-" + attachedTo + "-" + timeDate + "-" + node.getId() + "\", kcontext.getNodeInstance().getId());"));
        }
        
        if (cancelActivity) {
            List actions = ((EventNode)node).getActions(EndNode.EVENT_NODE_EXIT);
            if (actions == null) {
                actions = new ArrayList();
            }
            DroolsConsequenceAction cancelAction =  new DroolsConsequenceAction("java", null);
            cancelAction.setMetaData("Action", new CancelNodeInstanceAction(attachedTo));
            actions.add(cancelAction);
            ((EventNode)node).setActions(EndNode.EVENT_NODE_EXIT, actions);
        }
    }
    
    private static void linkBoundaryCompensationEvent(NodeContainer nodeContainer, Node node, String attachedTo, Node attachedNode) {
        /** 
         * BPMN2 Spec, p. 264: 
         * "For an Intermediate event attached to the boundary of an activity:"
         * ...
         *  The Activity the Event is attached to will provide the Id necessary
         *  to match the Compensation Event with the Event that threw the compensation"
         *  
         * In other words: "activityRef" is and should be IGNORED 
         */

        String activityRef = (String) node.getMetaData().get("ActivityRef");
        if( activityRef != null ) {
            logger.warn("Attribute activityRef={} will be IGNORED since this is a Boundary Compensation Event.", activityRef);
        }

        // linkAssociations takes care of the rest
    }
    
    private static void linkBoundarySignalEvent(NodeContainer nodeContainer, Node node, String attachedTo, Node attachedNode) {
        boolean cancelActivity = (Boolean) node.getMetaData().get("CancelActivity");
        if (cancelActivity) {
            List actions = ((EventNode)node).getActions(EndNode.EVENT_NODE_EXIT);
            if (actions == null) {
                actions = new ArrayList();
            }
            DroolsConsequenceAction action =  new DroolsConsequenceAction("java", null);
            action.setMetaData("Action", new CancelNodeInstanceAction(attachedTo));
            actions.add(action);
            ((EventNode)node).setActions(EndNode.EVENT_NODE_EXIT, actions);
        }
    }
    
    private static void linkBoundaryConditionEvent(NodeContainer nodeContainer, Node node, String attachedTo, Node attachedNode) {
        String processId = ((RuleFlowProcess) nodeContainer).getId();
        String eventType = "RuleFlowStateEvent-" + processId + "-" + ((EventNode) node).getUniqueId() + "-" + attachedTo;
        ((EventTypeFilter) ((EventNode) node).getEventFilters().get(0)).setType(eventType);
        boolean cancelActivity = (Boolean) node.getMetaData().get("CancelActivity");
        if (cancelActivity) {
            List actions = ((EventNode)node).getActions(EndNode.EVENT_NODE_EXIT);
            if (actions == null) {
                actions = new ArrayList();
            }
            DroolsConsequenceAction action =  new DroolsConsequenceAction("java", null);
            action.setMetaData("Action", new CancelNodeInstanceAction(attachedTo));
            actions.add(action);
            ((EventNode)node).setActions(EndNode.EVENT_NODE_EXIT, actions);
        }
    }
    
    public static void linkAssociations(Definitions definitions, NodeContainer nodeContainer, List associations) {
        if( associations != null ) { 
            for( Association association : associations ) { 
               String sourceRef = association.getSourceRef();
               Object source = null;
               try {
            	   source = findNodeOrDataStoreByUniqueId(definitions, nodeContainer, sourceRef,
                       "Could not find source [" + sourceRef + "] for association " + association.getId() + "]" );
               } catch (IllegalArgumentException e) {
            	   // source not found
               }
               String targetRef = association.getTargetRef();
               Object target = null;
               try {
            	   target = findNodeOrDataStoreByUniqueId(definitions, nodeContainer, targetRef, 
                       "Could not find target [" + targetRef + "] for association [" + association.getId() + "]" );
               } catch (IllegalArgumentException e) {
            	   // target not found
               }
               if (source == null || target == null) {
            	   // TODO: ignoring this association for now
               } else if (target instanceof DataStore || source instanceof DataStore) { 
                   // TODO: ignoring data store associations for now
               } else if (source instanceof EventNode) { 
                   EventNode sourceNode = (EventNode) source;
                   Node targetNode = (Node) target;
                   checkBoundaryEventCompensationHandler(association, sourceNode, targetNode);
                   
                   // make sure IsForCompensation is set to true on target
                   NodeImpl targetNodeImpl = (NodeImpl) target;
                   String isForCompensation = "isForCompensation";
                   Object compensationObject = targetNodeImpl.getMetaData(isForCompensation);
                   if( compensationObject == null ) {
                       targetNodeImpl.setMetaData(isForCompensation, true);
                       logger.warn("Setting {} attribute to true for node {}", isForCompensation, targetRef );
                   } else if( ! Boolean.parseBoolean(compensationObject.toString()) ) { 
                       throw new IllegalArgumentException(isForCompensation + " attribute [" + compensationObject + "] should be true for Compensation Activity [" + targetRef + "]");
                   }    
                   
                   // put Compensation Handler in CompensationHandlerNode
                   NodeContainer sourceParent = sourceNode.getNodeContainer();
                   NodeContainer targetParent = targetNode.getNodeContainer();
                   if( ! sourceParent.equals(targetParent) ) { 
                       throw new IllegalArgumentException("Compensation Associations may not cross (sub-)process boundaries,");
                   }
                   
                   // connect boundary event to compensation activity
                   ConnectionImpl connection = new ConnectionImpl(sourceNode, NodeImpl.CONNECTION_DEFAULT_TYPE, targetNode, NodeImpl.CONNECTION_DEFAULT_TYPE);
                   connection.setMetaData("UniqueId", null);
                   connection.setMetaData("hidden", true );
                   connection.setMetaData("association", true );
                   
                   // Compensation use cases: 
                   // - boundary event --associated-> activity
                   // - implicit sub process compensation handler + recursive? 
                   
                   /** 
                    * BPMN2 spec, p.442: 
                    *   "A Compensation Event Sub-process becomes enabled when its parent Activity transitions into state 
                    *  Completed. At that time, a snapshot of the data associated with the parent Acitivity is taken and kept for
                    *  later usage by the Compensation Event Sub-Process."
                    */
               }
            }
        }
    }
    
    /**
     * This logic belongs in {@link RuleFlowProcessValidator} -- except that {@link Association}s are a jbpm-bpmn2 class, 
     * and {@link RuleFlowProcessValidator} is a jbpm-flow class..
     * 

* Maybe we should have a BPMNProcessValidator class? * * @param association The association to check. * @param source The source of the association. * @param target The target of the association. */ private static void checkBoundaryEventCompensationHandler(Association association, Node source, Node target) { // check that // - event node is boundary event node if( ! (source instanceof BoundaryEventNode) ) { throw new IllegalArgumentException("(Compensation) activities may only be associated with Boundary Event Nodes (not with" + source.getClass().getSimpleName() + " nodes [node " + ((String) source.getMetaData().get("UniqueId")) + "]."); } BoundaryEventNode eventNode = (BoundaryEventNode) source; // - event node has compensationEvent List eventFilters = eventNode.getEventFilters(); boolean compensationCheckPassed = false; if( eventFilters != null) { for( EventFilter filter : eventFilters ) { if( filter instanceof EventTypeFilter ) { String type = ((EventTypeFilter) filter).getType(); if( type != null && type.equals("Compensation") ) { compensationCheckPassed = true; } } } } if( ! compensationCheckPassed ) { throw new IllegalArgumentException("An Event [" + ((String) eventNode.getMetaData("UniqueId")) + "] linked from an association [" + association.getId() + "] must be a (Boundary) Compensation Event."); } // - boundary event node is attached to the correct type of node? /** * Tasks: * business: RuleSetNode * manual: WorkItemNode * receive: WorkItemNode * script: ActionNode * send: WorkItemNode * service: WorkItemNode * task: WorkItemNode * user: HumanTaskNode */ String attachedToId = eventNode.getAttachedToNodeId(); Node attachedToNode = null; for( Node node : eventNode.getNodeContainer().getNodes() ) { if( attachedToId.equals(node.getMetaData().get("UniqueId")) ) { attachedToNode = node; break; } } if( attachedToNode == null ) { throw new IllegalArgumentException("Boundary Event [" + ((String) eventNode.getMetaData("UniqueId")) + "] is not attached to a node [" + attachedToId + "] that can be found."); } if( !( attachedToNode instanceof RuleSetNode || attachedToNode instanceof WorkItemNode || attachedToNode instanceof ActionNode || attachedToNode instanceof HumanTaskNode || attachedToNode instanceof CompositeNode) ) { throw new IllegalArgumentException("Compensation Boundary Event [" + ((String) eventNode.getMetaData("UniqueId")) + "] must be attached to a task or sub-process."); } // - associated node is a task or subProcess compensationCheckPassed = false; if( target instanceof WorkItemNode || target instanceof HumanTaskNode || target instanceof CompositeContextNode ) { compensationCheckPassed = true; } else if( target instanceof ActionNode ) { Object nodeTypeObj = ((ActionNode) target).getMetaData("NodeType"); if( nodeTypeObj != null && nodeTypeObj.equals("ScriptTask") ) { compensationCheckPassed = true; } } if( ! compensationCheckPassed ) { throw new IllegalArgumentException("An Activity [" + ((String) ((NodeImpl)target).getMetaData("UniqueId")) + "] associated with a Boundary Compensation Event must be a Task or a (non-Event) Sub-Process"); } // - associated node does not have outgoingConnections of it's own compensationCheckPassed = true; NodeImpl targetNode = (NodeImpl) target; Map> connectionsMap = targetNode.getOutgoingConnections(); ConnectionImpl outgoingConnection = null; for( String connectionType : connectionsMap.keySet() ) { List connections = connectionsMap.get(connectionType); if( connections != null && ! connections.isEmpty() ) { for( org.kie.api.definition.process.Connection connection : connections ) { Object hiddenObj = connection.getMetaData().get("hidden"); if( hiddenObj != null && ((Boolean) hiddenObj) ) { continue; } outgoingConnection = (ConnectionImpl) connection; compensationCheckPassed = false; break; } } } if( ! compensationCheckPassed ) { throw new IllegalArgumentException("A Compensation Activity [" + ((String) targetNode.getMetaData("UniqueId")) + "] may not have any outgoing connection [" + (String) outgoingConnection.getMetaData("UniqueId") + "]"); } } private void assignLanes(RuleFlowProcess process, List lanes) { List laneNames = new ArrayList(); Map laneMapping = new HashMap(); if (lanes != null) { for (Lane lane: lanes) { String name = lane.getName(); if (name != null) { Swimlane swimlane = new Swimlane(); swimlane.setName(name); process.getSwimlaneContext().addSwimlane(swimlane); laneNames.add(name); for (String flowElementRef: lane.getFlowElements()) { laneMapping.put(flowElementRef, name); } } } } assignLanes(process, laneMapping); } private void postProcessNodes(RuleFlowProcess process, NodeContainer container) { List eventSubProcessHandlers = new ArrayList(); for (Node node: container.getNodes()) { if (node instanceof StateNode) { StateNode stateNode = (StateNode) node; String condition = (String) stateNode.getMetaData("Condition"); Constraint constraint = new ConstraintImpl(); constraint.setConstraint(condition); constraint.setType("rule"); for (org.kie.api.definition.process.Connection connection: stateNode.getDefaultOutgoingConnections()) { stateNode.setConstraint(connection, constraint); } } else if (node instanceof NodeContainer) { // prepare event sub process if (node instanceof EventSubProcessNode) { EventSubProcessNode eventSubProcessNode = (EventSubProcessNode) node; Node[] nodes = eventSubProcessNode.getNodes(); for (Node subNode : nodes) { // avoids cyclomatic complexity if (subNode == null || ! (subNode instanceof StartNode)) { continue; } List triggers = ((StartNode) subNode).getTriggers(); if ( triggers == null ) { continue; } for ( Trigger trigger : triggers ) { if ( trigger instanceof EventTrigger ) { final List filters = ((EventTrigger) trigger).getEventFilters(); for ( EventFilter filter : filters ) { if ( filter instanceof EventTypeFilter ) { eventSubProcessNode.addEvent((EventTypeFilter) filter); String type = ((EventTypeFilter) filter).getType(); if (type.startsWith("Error-") || type.startsWith("Escalation")) { String faultCode = (String) subNode.getMetaData().get("FaultCode"); String replaceRegExp = "Error-|Escalation-"; final String signalType = type; ExceptionScope exceptionScope = (ExceptionScope) ((ContextContainer) eventSubProcessNode.getNodeContainer()).getDefaultContext(ExceptionScope.EXCEPTION_SCOPE); if (exceptionScope == null) { exceptionScope = new ExceptionScope(); ((ContextContainer) eventSubProcessNode.getNodeContainer()).addContext(exceptionScope); ((ContextContainer) eventSubProcessNode.getNodeContainer()).setDefaultContext(exceptionScope); } String faultVariable = null; if (trigger.getInAssociations() != null && !trigger.getInAssociations().isEmpty()) { faultVariable = trigger.getInAssociations().get(0).getTarget(); } ActionExceptionHandler exceptionHandler = new ActionExceptionHandler(); DroolsConsequenceAction action = new DroolsConsequenceAction("java", PROCESS_INSTANCE_SIGNAL_EVENT + signalType+"\", " +(faultVariable==null?"null":"kcontext.getVariable(\""+faultVariable+"\")")+");"); exceptionHandler.setAction(action); exceptionHandler.setFaultVariable(faultVariable); if (faultCode != null) { String trimmedType = type.replaceFirst(replaceRegExp, ""); exceptionScope.setExceptionHandler(trimmedType, exceptionHandler); eventSubProcessHandlers.add(trimmedType); } else { exceptionScope.setExceptionHandler(faultCode, exceptionHandler); } } else if( type.equals("Compensation") ) { // 1. Find the parent sub-process to this event sub-process NodeContainer parentSubProcess; NodeContainer subProcess = eventSubProcessNode.getNodeContainer(); Object isForCompensationObj = eventSubProcessNode.getMetaData("isForCompensation"); if( isForCompensationObj == null ) { eventSubProcessNode.setMetaData("isForCompensation", true ); logger.warn( "Overriding empty or false value of \"isForCompensation\" attribute on Event Sub-Process [" + eventSubProcessNode.getMetaData("UniqueId") + "] and setting it to true."); } if( subProcess instanceof RuleFlowProcess ) { // If jBPM deletes the process (instance) as soon as the process completes.. // ..how do you expect to signal compensation on the completed process (instance)?!? throw new IllegalArgumentException("Compensation Event Sub-Processes at the process level are not supported."); } parentSubProcess = ((Node) subProcess).getNodeContainer(); // 2. The event filter (never fires, purely for dumping purposes) has already been added // 3. Add compensation scope String compensationHandlerId = (String) ((CompositeNode) subProcess).getMetaData("UniqueId"); addCompensationScope(process, eventSubProcessNode, parentSubProcess, compensationHandlerId); } } } } else if (trigger instanceof ConstraintTrigger) { ConstraintTrigger constraintTrigger = (ConstraintTrigger) trigger; if (constraintTrigger.getConstraint() != null) { String processId = ((RuleFlowProcess) container).getId(); String type = "RuleFlowStateEventSubProcess-Event-" + processId + "-" + eventSubProcessNode.getUniqueId(); EventTypeFilter eventTypeFilter = new EventTypeFilter(); eventTypeFilter.setType(type); eventSubProcessNode.addEvent(eventTypeFilter); } } } } // for( Node subNode : nodes) } postProcessNodes(process, (NodeContainer) node); } else if( node instanceof EndNode ) { handleIntermediateOrEndThrowCompensationEvent((EndNode) node); } else if( node instanceof ActionNode ) { handleIntermediateOrEndThrowCompensationEvent((ActionNode) node); } else if( node instanceof EventNode ) { final EventNode eventNode = (EventNode) node; if (!(eventNode instanceof BoundaryEventNode) && eventNode.getDefaultIncomingConnections().size() == 0) { throw new IllegalArgumentException("Event node '" + node.getName() + "' [" + node.getId() + "] has no incoming connection"); } } } // process fault node to disable termnate parent if there is event subprocess handler for (Node node: container.getNodes()) { if (node instanceof FaultNode) { FaultNode faultNode = (FaultNode) node; if (eventSubProcessHandlers.contains(faultNode.getFaultName())) { faultNode.setTerminateParent(false); } } } } private void assignLanes(NodeContainer nodeContainer, Map laneMapping) { for (Node node: nodeContainer.getNodes()) { String lane = null; String uniqueId = (String) node.getMetaData().get("UniqueId"); if (uniqueId != null) { lane = laneMapping.get(uniqueId); } else { lane = laneMapping.get(XmlBPMNProcessDumper.getUniqueNodeId(node)); } if (lane != null) { ((NodeImpl) node).setMetaData("Lane", lane); if (node instanceof HumanTaskNode) { ((HumanTaskNode) node).setSwimlane(lane); } } if (node instanceof NodeContainer) { assignLanes((NodeContainer) node, laneMapping); } } } private static Constraint buildConstraint(SequenceFlow connection, NodeImpl node) { if (connection.getExpression() == null) { return null; } Constraint constraint = new ConstraintImpl(); String defaultConnection = (String) node.getMetaData("Default"); if (defaultConnection != null && defaultConnection.equals(connection.getId())) { constraint.setDefault(true); } if (connection.getName() != null) { constraint.setName(connection.getName()); } else { constraint.setName(""); } if (connection.getType() != null) { constraint.setType(connection.getType()); } else { constraint.setType("code"); } if (connection.getLanguage() != null) { constraint.setDialect(connection.getLanguage()); } if (connection.getExpression() != null) { constraint.setConstraint(connection.getExpression()); } constraint.setPriority(connection.getPriority()); return constraint; } protected static void addCompensationScope(final RuleFlowProcess process, final Node node, final org.kie.api.definition.process.NodeContainer parentContainer, final String compensationHandlerId) { process.getMetaData().put("Compensation", true); assert parentContainer instanceof ContextContainer : "Expected parent node to be a CompositeContextNode, not a " + parentContainer.getClass().getSimpleName(); ContextContainer contextContainer = (ContextContainer) parentContainer; CompensationScope scope = null; boolean addScope = false; if (contextContainer.getContexts(CompensationScope.COMPENSATION_SCOPE) == null) { addScope = true; } else { scope = (CompensationScope) contextContainer.getContexts(CompensationScope.COMPENSATION_SCOPE).get(0); if (scope == null) { addScope = true; } } if (addScope) { scope = new CompensationScope(); contextContainer.addContext(scope); contextContainer.setDefaultContext(scope); scope.setContextContainer(contextContainer); } CompensationHandler handler = new CompensationHandler(); handler.setNode(node); if( scope.getExceptionHandler(compensationHandlerId) != null ) { throw new IllegalArgumentException( "More than one compensation handler per node (" + compensationHandlerId + ")" + " is not supported!"); } scope.setExceptionHandler(compensationHandlerId, handler); } protected void handleIntermediateOrEndThrowCompensationEvent(ExtendedNodeImpl throwEventNode ) { if( throwEventNode.getMetaData("compensation-activityRef") != null ) { String activityRef = (String) throwEventNode.getMetaData().remove("compensation-activityRef"); NodeContainer nodeParent = (NodeContainer) throwEventNode.getNodeContainer(); if( nodeParent instanceof EventSubProcessNode ) { boolean compensationEventSubProcess = false; List startTriggers = ((EventSubProcessNode) nodeParent).findStartNode().getTriggers(); CESP_CHECK: for( Trigger trigger : startTriggers ) { if( trigger instanceof EventTrigger ) { for( EventFilter filter : ((EventTrigger) trigger).getEventFilters() ) { if( ((EventTypeFilter) filter).getType().equals("Compensation") ) { compensationEventSubProcess = true; break CESP_CHECK; } } } } if( compensationEventSubProcess ) { // BPMN2 spec, p. 252, p. 248: intermediate and end compensation event visibility scope nodeParent = (NodeContainer) ((NodeImpl) nodeParent).getNodeContainer(); } } String parentId; if( nodeParent instanceof RuleFlowProcess ) { parentId = ((RuleFlowProcess) nodeParent).getId(); } else { parentId = (String) ((NodeImpl) nodeParent).getMetaData("UniqueId"); } String compensationEvent; if( activityRef.length() == 0 ) { // general/implicit compensation compensationEvent = CompensationScope.IMPLICIT_COMPENSATION_PREFIX + parentId; } else { // specific compensation compensationEvent = activityRef; } DroolsConsequenceAction compensationAction = new DroolsConsequenceAction("java", PROCESS_INSTANCE_SIGNAL_EVENT + "Compensation\", \"" + compensationEvent + "\");"); if( throwEventNode instanceof ActionNode ) { ((ActionNode) throwEventNode).setAction(compensationAction); } else if( throwEventNode instanceof EndNode ) { List actions = new ArrayList(); actions.add(compensationAction); ((EndNode) throwEventNode).setActions(EndNode.EVENT_NODE_ENTER, actions); } } } }




© 2015 - 2024 Weber Informatics LLC | Privacy Policy