795 lines
31 KiB
Java
795 lines
31 KiB
Java
package org.gcube.informationsystem.resourceregistry.instances.model.relations;
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import java.util.ArrayList;
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import java.util.Collection;
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import java.util.Iterator;
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import java.util.List;
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import java.util.Map;
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import java.util.UUID;
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import org.gcube.com.fasterxml.jackson.databind.JsonNode;
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import org.gcube.com.fasterxml.jackson.databind.ObjectMapper;
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import org.gcube.com.fasterxml.jackson.databind.node.ArrayNode;
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import org.gcube.informationsystem.base.reference.AccessType;
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import org.gcube.informationsystem.base.reference.relations.RelationElement;
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import org.gcube.informationsystem.context.reference.entities.Context;
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import org.gcube.informationsystem.model.reference.entities.Entity;
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import org.gcube.informationsystem.model.reference.entities.Resource;
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import org.gcube.informationsystem.model.reference.properties.PropagationConstraint;
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import org.gcube.informationsystem.model.reference.properties.PropagationConstraint.AddConstraint;
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import org.gcube.informationsystem.model.reference.properties.PropagationConstraint.RemoveConstraint;
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import org.gcube.informationsystem.model.reference.relations.ConsistsOf;
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import org.gcube.informationsystem.model.reference.relations.Relation;
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import org.gcube.informationsystem.resourceregistry.api.contexts.ContextCache;
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import org.gcube.informationsystem.resourceregistry.api.exceptions.AvailableInAnotherContextException;
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import org.gcube.informationsystem.resourceregistry.api.exceptions.NotFoundException;
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import org.gcube.informationsystem.resourceregistry.api.exceptions.ResourceRegistryException;
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import org.gcube.informationsystem.resourceregistry.api.exceptions.context.ContextException;
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import org.gcube.informationsystem.resourceregistry.api.exceptions.relation.RelationNotFoundException;
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import org.gcube.informationsystem.resourceregistry.api.exceptions.schema.SchemaViolationException;
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import org.gcube.informationsystem.resourceregistry.contexts.ContextUtility;
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import org.gcube.informationsystem.resourceregistry.contexts.security.SecurityContext;
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import org.gcube.informationsystem.resourceregistry.contexts.security.SecurityContext.PermissionMode;
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import org.gcube.informationsystem.resourceregistry.instances.base.ElementManagement;
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import org.gcube.informationsystem.resourceregistry.instances.base.ElementManagementUtility;
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import org.gcube.informationsystem.resourceregistry.instances.base.relations.RelationElementManagement;
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import org.gcube.informationsystem.resourceregistry.instances.model.ERManagement;
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import org.gcube.informationsystem.resourceregistry.instances.model.Operation;
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import org.gcube.informationsystem.resourceregistry.instances.model.entities.EntityManagement;
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import org.gcube.informationsystem.resourceregistry.instances.model.entities.FacetManagement;
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import org.gcube.informationsystem.resourceregistry.instances.model.entities.ResourceManagement;
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import org.gcube.informationsystem.resourceregistry.types.TypesCache;
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import org.gcube.informationsystem.resourceregistry.utils.HeaderUtility;
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import org.gcube.informationsystem.resourceregistry.utils.PropagationConstraintOrient;
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import org.gcube.informationsystem.resourceregistry.utils.Utility;
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import org.gcube.informationsystem.types.reference.entities.EntityType;
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import org.gcube.informationsystem.types.reference.entities.ResourceType;
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import org.gcube.informationsystem.types.reference.relations.RelationType;
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import org.gcube.informationsystem.utils.ElementMapper;
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import com.orientechnologies.orient.core.db.document.ODatabaseDocument;
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import com.orientechnologies.orient.core.metadata.schema.OType;
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import com.orientechnologies.orient.core.record.ODirection;
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import com.orientechnologies.orient.core.record.OEdge;
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import com.orientechnologies.orient.core.record.OVertex;
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import com.orientechnologies.orient.core.record.impl.ODocument;
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/**
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* @author Luca Frosini (ISTI - CNR)
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*/
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public abstract class RelationManagement<T extends EntityManagement<? extends Entity, TET>, TET extends EntityType>
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extends RelationElementManagement<ResourceManagement, T, ResourceType, TET> implements ERManagement {
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/**
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* The source context of an addToContex
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*/
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protected SecurityContext sourceSecurityContext;
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/**
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* The target context of an addToContex/RemoveFromContext
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*/
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protected SecurityContext targetSecurityContext;
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/**
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* By the default the system honour the propagation constraints
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* so this variable is initialised as true.
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*
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* To revert a previous operation or for particular a maintenance
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* we could request to the service do not honour the propagation
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* constraints but under certain conditions and with some limitation
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* only.
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* These limitation are required to keep the system in a consistent
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* state.
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* In fact, this directive is only valid for Resources and IsRelatedTo
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* relations. We need to take in account that to add an
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* IsRelatedTo to a context always the source and target
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* Resources must be in such a Context.
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* Please also take into account that adding a Resource
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* to a context always imply to honour the propagation constraints
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* of ConsistsOf relations. In fact, a resource must be characterised
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* least by one facet in any context it belongs. Giving that we
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* cannot made assumption on which facets must be used.
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* A way could be to consider just the facets are mandatory for such a
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* Resource Type, but the type could not have mandatory facets
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* (even every Resource Type in the gCube Model has one mandatory facet).
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* As counterpart, when a Resource is removed from a Context all the facets
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* charactering it must be removed.
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*
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* This option can also be used in conjunction with
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* {@link ElementManagement#dryRun}=true.
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* This allow to simulate a sharing operation which requires
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* do not honour the propagation constraints.
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*/
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protected boolean honourPropagationConstraintsInContextSharing;
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@Override
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public void setSourceSecurityContext(SecurityContext sourceSecurityContext) {
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this.sourceSecurityContext = sourceSecurityContext;
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}
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@Override
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public SecurityContext getSourceSecurityContext() {
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return sourceSecurityContext;
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}
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@Override
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public void setTargetSecurityContext(SecurityContext targetSecurityContext) {
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this.targetSecurityContext = targetSecurityContext;
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}
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@Override
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public SecurityContext getTargetSecurityContext() {
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return sourceSecurityContext;
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}
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@Override
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public boolean isHonourPropagationConstraintsInContextSharing() {
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return honourPropagationConstraintsInContextSharing;
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}
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@Override
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public void setHonourPropagationConstraintsInContextSharing(boolean honourPropagationConstraintsInContextSharing) {
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this.honourPropagationConstraintsInContextSharing = honourPropagationConstraintsInContextSharing;
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}
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public final PropagationConstraint defaultPropagationConstraint;
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public boolean isAvailableOnContext(SecurityContext securityContext) {
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try {
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return securityContext.isElementInContext(element);
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} catch (ResourceRegistryException e) {
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return false;
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}
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}
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protected RelationManagement(AccessType accessType, Class<? extends Entity> targetEntityClass, PropagationConstraint defaultPropagationConstraint) {
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super(accessType, Resource.class, targetEntityClass);
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this.defaultPropagationConstraint = defaultPropagationConstraint;
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/*
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* By the default the system honour the propagation constraints
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* so this variable is initialised as true.
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*/
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this.honourPropagationConstraintsInContextSharing = true;
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this.skipped = false;
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}
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protected PropagationConstraint propagationConstraint;
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/* Indicate that AddToContext skipped the isntance because it was not the source context */
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protected boolean skipped;
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@Override
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public OEdge getElement() throws NotFoundException, AvailableInAnotherContextException, ResourceRegistryException {
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try {
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element = super.getElement();
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} catch(NotFoundException e) {
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try {
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retrieveElementFromAnyContext();
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throw getSpecificAvailableInAnotherContextException(typeName == null ? accessType.getName()
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: typeName + " with UUID " + uuid + " is available in another "
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+ Context.class.getSimpleName());
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} catch(AvailableInAnotherContextException e1) {
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throw e1;
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} catch(Exception e1) {
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throw e;
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}
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} catch(ResourceRegistryException e) {
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throw e;
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} catch(Exception e) {
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throw new ResourceRegistryException(e);
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}
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return element;
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}
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/*
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* Needed for ResourceManagement.serializeAsJson() function to check that
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* sourceEntityManagement is the same of the instance is creating this
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* RelationManagement.
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*/
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public ResourceManagement giveMeSourceEntityManagementAsIs() throws ResourceRegistryException {
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return sourceEntityManagement;
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}
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protected Map<String,JsonNode> fullSerialize(Map<String,JsonNode> visitedSourceResources)
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throws ResourceRegistryException {
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OVertex source = getElement().getVertex(ODirection.OUT);
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String id = source.getIdentity().toString();
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JsonNode sourceResource = visitedSourceResources.get(id);
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ResourceManagement resourceManagement = null;
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if(sourceResource == null) {
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resourceManagement = (ResourceManagement) ElementManagementUtility.getEntityManagement(getWorkingContext(),
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oDatabaseDocument, source);
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if(this instanceof IsRelatedToManagement) {
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sourceResource = resourceManagement.createCompleteJsonNode();
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} else if(this instanceof ConsistsOfManagement) {
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if(includeSource) {
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sourceResource = resourceManagement.serializeSelfAsJsonNode();
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}
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} else {
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String error = String.format("{%s is not a %s nor a %s. %s", this,
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IsRelatedToManagement.class.getSimpleName(), ConsistsOfManagement.class.getSimpleName(),
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Utility.SHOULD_NOT_OCCUR_ERROR_MESSAGE);
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throw new ResourceRegistryException(error);
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}
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}
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if(this instanceof IsRelatedToManagement) {
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sourceResource = ResourceManagement.addIsRelatedTo(sourceResource, serializeAsJsonNode());
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} else if(this instanceof ConsistsOfManagement) {
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sourceResource = ResourceManagement.addConsistsOf(sourceResource, serializeAsJsonNode());
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} else {
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String error = String.format("{%s is not a %s nor a %s. %s", this,
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IsRelatedToManagement.class.getSimpleName(), ConsistsOfManagement.class.getSimpleName(),
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Utility.SHOULD_NOT_OCCUR_ERROR_MESSAGE);
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throw new ResourceRegistryException(error);
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}
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visitedSourceResources.put(id, sourceResource);
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return visitedSourceResources;
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}
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protected PropagationConstraintOrient getPropagationConstraint(ODocument oDocument)
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throws ResourceRegistryException {
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PropagationConstraintOrient propagationConstraintOrient = new PropagationConstraintOrient();
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PropagationConstraint propagationConstraint = null;
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if(oDocument == null) {
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propagationConstraint = defaultPropagationConstraint;
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} else if(oDocument instanceof PropagationConstraintOrient) {
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propagationConstraint = (PropagationConstraint) oDocument;
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} else {
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try {
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propagationConstraint = ElementMapper.unmarshal(PropagationConstraint.class, oDocument.toJSON());
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} catch(Exception e) {
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logger.warn("Unable to recreate {}. {}", PropagationConstraint.NAME,
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Utility.SHOULD_NOT_OCCUR_ERROR_MESSAGE);
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}
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}
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AddConstraint addConstraint = propagationConstraint.getAddConstraint();
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if(addConstraint == null) {
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addConstraint = defaultPropagationConstraint.getAddConstraint();
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logger.debug("Unable to get {}. Default value ({}) will be used", AddConstraint.class.getSimpleName(),
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addConstraint);
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}
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propagationConstraintOrient.setAddConstraint(addConstraint);
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RemoveConstraint removeConstraint = propagationConstraint.getRemoveConstraint();
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if(removeConstraint == null) {
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removeConstraint = defaultPropagationConstraint.getRemoveConstraint();
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logger.debug("Unable to get {}. Default value ({}) will be used", RemoveConstraint.class.getSimpleName(),
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removeConstraint);
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}else {
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if (this instanceof ConsistsOfManagement && removeConstraint == RemoveConstraint.keep) {
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removeConstraint = defaultPropagationConstraint.getRemoveConstraint();
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logger.warn("A {} cannot use {}.{}. Default value ({}) will be used", ConsistsOf.NAME,
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RemoveConstraint.class.getSimpleName(), RemoveConstraint.keep, removeConstraint);
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}
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}
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propagationConstraintOrient.setRemoveConstraint(removeConstraint);
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return propagationConstraintOrient;
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}
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protected void checkPropagationConstraint() throws ResourceRegistryException {
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Object object = getElement().getProperty(Relation.PROPAGATION_CONSTRAINT_PROPERTY);
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PropagationConstraintOrient pc = getPropagationConstraint((ODocument) object);
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getElement().setProperty(Relation.PROPAGATION_CONSTRAINT_PROPERTY, pc, OType.EMBEDDED);
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}
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@Override
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protected OEdge reallyCreate() throws ResourceRegistryException {
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element = super.reallyCreate();
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checkPropagationConstraint();
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logger.trace("{} successfully created", typeName);
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return element;
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}
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@Override
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protected ResourceManagement newSourceEntityManagement() throws ResourceRegistryException {
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ResourceManagement resourceManagement = new ResourceManagement();
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resourceManagement.setWorkingContext(getWorkingContext());
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resourceManagement.setODatabaseDocument(oDatabaseDocument);
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return resourceManagement;
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}
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protected String getEntityTypeNotValidErrroMessage(String entityPosition, String requiredType, String effectiveType) {
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StringBuffer stringBuffer = new StringBuffer();
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stringBuffer.append("The ");
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stringBuffer.append(entityPosition);
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stringBuffer.append(" instance of the relation ");
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stringBuffer.append(typeName);
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stringBuffer.append(" is of type ");
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stringBuffer.append(effectiveType);
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stringBuffer.append(" which is not a specialisation of ");
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stringBuffer.append(requiredType);
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stringBuffer.append(".");
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return stringBuffer.toString();
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}
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@Override
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protected void checksourceAndTargetEntityCompliancy() throws NotFoundException, AvailableInAnotherContextException, SchemaViolationException, ResourceRegistryException {
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String sourceType = sourceEntityManagement.getTypeName();
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String targetType = targetEntityManagement.getTypeName();
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RelationType<ResourceType, TET> relationType = getCachedType().getType();
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ResourceType resourceType = relationType.getSource();
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TET tet = relationType.getTarget();
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String requiredSourceType = resourceType.getName();
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String requiredTargetType = tet.getName();
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TypesCache typesCache = TypesCache.getInstance();
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if(!typeSatified(typesCache, requiredSourceType, sourceType)) {
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String message = getEntityTypeNotValidErrroMessage(RelationElement.SOURCE_PROPERTY, requiredSourceType, sourceType);
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throw new SchemaViolationException(message);
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}
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if(!typeSatified(typesCache, requiredTargetType, targetType)) {
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String message = getEntityTypeNotValidErrroMessage(RelationElement.TARGET_PROPERTY, requiredTargetType, targetType);
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throw new SchemaViolationException(message);
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}
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}
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@Override
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protected OEdge reallyUpdate() throws ResourceRegistryException {
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logger.trace("Trying to update {} with UUID {}", typeName, uuid);
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logger.trace("Trying to update {} : {}", typeName, jsonNode);
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OEdge edge = getElement();
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updateProperties(oClass, edge, jsonNode, ignoreKeys, ignoreStartWithKeys);
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if(accessType.compareTo(AccessType.CONSISTS_OF) == 0) {
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JsonNode target = jsonNode.get(Relation.TARGET_PROPERTY);
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if(target != null) {
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FacetManagement facetManagement = new FacetManagement();
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facetManagement.setWorkingContext(getWorkingContext());
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facetManagement.setODatabaseDocument(oDatabaseDocument);
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facetManagement.setJsonNode(target);
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facetManagement.internalUpdate();
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}
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}
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logger.info("{} with UUID {} successfully updated", typeName, uuid);
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logger.trace("{} {} successfully updated", typeName, jsonNode);
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return edge;
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}
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protected void reallyAddToContext()
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throws ContextException, ResourceRegistryException {
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if(!sourceSecurityContext.isElementInContext(getElement())) {
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// The element in not in the source security context. It will be skipped
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skipped = true;
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return;
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}
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if(honourPropagationConstraintsInContextSharing) {
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AddConstraint addConstraint = AddConstraint.unpropagate;
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try {
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propagationConstraint = Utility.getPropertyDocument(PropagationConstraint.class, element,
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Relation.PROPAGATION_CONSTRAINT_PROPERTY);
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if(propagationConstraint.getAddConstraint() != null) {
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addConstraint = propagationConstraint.getAddConstraint();
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} else {
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String error = String.format("%s.%s in %s is null. %s", Relation.PROPAGATION_CONSTRAINT_PROPERTY,
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PropagationConstraint.ADD_PROPERTY, Utility.toJsonString(element, true),
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Utility.SHOULD_NOT_OCCUR_ERROR_MESSAGE);
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logger.error(error);
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throw new ResourceRegistryException(error);
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}
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} catch(Exception e) {
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String error = String.format("Error while getting %s from %s while performing AddToContext. %s",
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Relation.PROPAGATION_CONSTRAINT_PROPERTY, Utility.toJsonString(element, true),
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Utility.SHOULD_NOT_OCCUR_ERROR_MESSAGE);
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logger.warn(error);
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throw new ResourceRegistryException(error, e);
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}
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switch(addConstraint) {
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case propagate:
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/*
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* The relation must be added only in the case the target vertex must be added.
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* Otherwise we have a relation which point to an entity outside of the context.
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*/
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getTargetEntityManagement().setDryRun(dryRun);
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targetEntityManagement.setHonourPropagationConstraintsInContextSharing(honourPropagationConstraintsInContextSharing);
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targetEntityManagement.setSourceSecurityContext(sourceSecurityContext);
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targetEntityManagement.setTargetSecurityContext(targetSecurityContext);
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targetEntityManagement.internalAddToContext();
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affectedInstances.putAll(targetEntityManagement.getAffectedInstances());
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targetSecurityContext.addElement(getElement(), oDatabaseDocument);
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/*
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* DO NOT UNCOMMENT
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* // affectedInstances.put(uuid, serializeSelfOnly());
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* the relation instance is added in internalAddToContext() function after
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* the update of Header metadata i.e. modifiedBy, lastUpdateTime
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*/
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break;
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case unpropagate:
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break;
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default:
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break;
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}
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}else {
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targetSecurityContext.addElement(getElement(), oDatabaseDocument);
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/*
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* DO NOT UNCOMMENT
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* // affectedInstances.put(uuid, serializeSelfOnly());
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* the relation instance is added in internalAddToContext() function after
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* the update of Header metadata i.e. modifiedBy, lastUpdateTime
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*/
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}
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}
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@Override
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public void internalAddToContext()
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throws ContextException, ResourceRegistryException {
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try {
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operation = Operation.ADD_TO_CONTEXT;
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reallyAddToContext();
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if(!skipped && propagationConstraint.getAddConstraint()==PropagationConstraint.AddConstraint.propagate) {
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HeaderUtility.updateModifiedByAndLastUpdate(element);
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element.save();
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affectedInstances.put(uuid, serializeAsAffectedInstance());
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}
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} catch(ResourceRegistryException e) {
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throw e;
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} catch(Exception e) {
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throw new ResourceRegistryException(
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"Error Adding " + typeName + " to " + targetSecurityContext.toString(), e.getCause());
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}
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}
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public void forcedAddToContext()
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throws ContextException, ResourceRegistryException {
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setOperation(Operation.ADD_TO_CONTEXT);
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/* Adding source to Context */
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getSourceEntityManagement().setDryRun(dryRun);
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sourceEntityManagement.setHonourPropagationConstraintsInContextSharing(honourPropagationConstraintsInContextSharing);
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sourceEntityManagement.setTargetSecurityContext(targetSecurityContext);
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sourceEntityManagement.internalAddToContext();
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affectedInstances.putAll(sourceEntityManagement.getAffectedInstances());
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/* Adding target to Context */
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getTargetEntityManagement().setDryRun(dryRun);
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targetEntityManagement.setHonourPropagationConstraintsInContextSharing(honourPropagationConstraintsInContextSharing);
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targetEntityManagement.setTargetSecurityContext(targetSecurityContext);
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targetEntityManagement.internalAddToContext();
|
|
affectedInstances.putAll(targetEntityManagement.getAffectedInstances());
|
|
|
|
targetSecurityContext.addElement(getElement(), oDatabaseDocument);
|
|
|
|
affectedInstances.put(uuid, serializeAsAffectedInstance());
|
|
}
|
|
|
|
@Override
|
|
public void addToContext(UUID contextUUID) throws SchemaViolationException, NotFoundException, ContextException, ResourceRegistryException {
|
|
String contextFullName = ContextCache.getInstance().getContextFullNameByUUID(contextUUID);
|
|
logger.debug("Going to add {} with UUID {} to Context with UUID {} (i.e {})", accessType.getName(), uuid, contextUUID, contextFullName);
|
|
ODatabaseDocument current = ContextUtility.getCurrentODatabaseDocumentFromThreadLocal();
|
|
try {
|
|
workingContext = ContextUtility.getAdminSecurityContext();
|
|
oDatabaseDocument = workingContext.getDatabaseDocument(PermissionMode.WRITER);
|
|
setAsEntryPoint();
|
|
|
|
sourceSecurityContext = ContextUtility.getCurrentSecurityContext();
|
|
targetSecurityContext = ContextUtility.getInstance().getSecurityContextByUUID(contextUUID);
|
|
|
|
forcedAddToContext();
|
|
|
|
sanityCheck();
|
|
|
|
if(!dryRun) {
|
|
oDatabaseDocument.commit();
|
|
}else {
|
|
oDatabaseDocument.rollback();
|
|
}
|
|
logger.info("{} with UUID {} successfully added to Context with UUID {} (i.e {})", accessType.getName(), uuid, contextUUID, contextFullName);
|
|
} catch(Exception e) {
|
|
logger.error("Unable to add {} with UUID {} to Context with UUID {} (i.e. {})", accessType.getName(), uuid,
|
|
contextUUID, contextFullName, e);
|
|
if(oDatabaseDocument != null) {
|
|
oDatabaseDocument.rollback();
|
|
}
|
|
throw new ContextException(e);
|
|
} finally {
|
|
if(oDatabaseDocument != null) {
|
|
oDatabaseDocument.close();
|
|
}
|
|
|
|
if(current!=null) {
|
|
current.activateOnCurrentThread();
|
|
}
|
|
}
|
|
}
|
|
|
|
protected Map<UUID,JsonNode> reallyRemoveFromContext()
|
|
throws ContextException, ResourceRegistryException {
|
|
if(!targetSecurityContext.isElementInContext(getElement())) {
|
|
// The element in not in the source security context. It will be skipped
|
|
return affectedInstances;
|
|
}
|
|
|
|
getSourceEntityManagement().getElement();
|
|
|
|
RemoveConstraint removeConstraint = RemoveConstraint.keep;
|
|
|
|
try {
|
|
propagationConstraint = Utility.getPropertyDocument(PropagationConstraint.class, element,
|
|
Relation.PROPAGATION_CONSTRAINT_PROPERTY);
|
|
if(propagationConstraint.getRemoveConstraint() != null) {
|
|
removeConstraint = propagationConstraint.getRemoveConstraint();
|
|
} else {
|
|
String error = String.format("%s.%s in %s is null. %s", Relation.PROPAGATION_CONSTRAINT_PROPERTY,
|
|
PropagationConstraint.REMOVE_PROPERTY, Utility.toJsonString(element, true),
|
|
Utility.SHOULD_NOT_OCCUR_ERROR_MESSAGE);
|
|
logger.error(error);
|
|
throw new ResourceRegistryException(error);
|
|
}
|
|
} catch(Exception e) {
|
|
String error = String.format("Error while getting %s from %s while performing RemoveFromContext. %s",
|
|
Relation.PROPAGATION_CONSTRAINT_PROPERTY, Utility.toJsonString(element, true),
|
|
Utility.SHOULD_NOT_OCCUR_ERROR_MESSAGE);
|
|
logger.error(error);
|
|
throw new ResourceRegistryException(error, e);
|
|
|
|
}
|
|
|
|
/*
|
|
* In any removeConstraint value the relation MUST be removed from context to
|
|
* avoid to have edge having a source outside of the context.
|
|
*/
|
|
targetSecurityContext.removeElement(getElement(), oDatabaseDocument);
|
|
|
|
affectedInstances.put(uuid, serializeAsAffectedInstance());
|
|
|
|
T targetEntityManagement = getTargetEntityManagement();
|
|
targetEntityManagement.setDryRun(dryRun);
|
|
targetEntityManagement.setHonourPropagationConstraintsInContextSharing(honourPropagationConstraintsInContextSharing);
|
|
// Not needed targetEntityManagement.setSourceSecurityContext(sourceSecurityContext);
|
|
targetEntityManagement.setTargetSecurityContext(targetSecurityContext);
|
|
if(targetEntityManagement instanceof ResourceManagement) {
|
|
((ResourceManagement) targetEntityManagement).setSanityCheckNotRequired();
|
|
}
|
|
switch(removeConstraint) {
|
|
case cascade:
|
|
targetEntityManagement.internalRemoveFromContext();
|
|
affectedInstances.putAll(targetEntityManagement.getAffectedInstances());
|
|
break;
|
|
|
|
case cascadeWhenOrphan:
|
|
OVertex target = (OVertex) targetEntityManagement.getElement();
|
|
|
|
Iterable<OEdge> iterable = target.getEdges(ODirection.IN);
|
|
Iterator<OEdge> iterator = iterable.iterator();
|
|
int count = 0;
|
|
OEdge edge = null;
|
|
while(iterator.hasNext()) {
|
|
edge = (OEdge) iterator.next();
|
|
OEdge thisOEdge = (OEdge) getElement();
|
|
if(edge.compareTo(thisOEdge) != 0) {
|
|
if(thisOEdge.getVertex(ODirection.OUT).compareTo(edge.getVertex(ODirection.OUT)) != 0) {
|
|
count++;
|
|
break;
|
|
}
|
|
/*
|
|
* else{ ContextUtility.removeFromActualContext(orientGraph, edge); }
|
|
*/
|
|
}
|
|
}
|
|
|
|
if(count > 0) {
|
|
logger.trace(
|
|
"{} point to {} which is not orphan ({} exists). Giving {} directive, it will be not remove from {}.",
|
|
element, target, edge, removeConstraint, targetSecurityContext);
|
|
} else {
|
|
targetEntityManagement.internalRemoveFromContext();
|
|
affectedInstances.putAll(targetEntityManagement.getAffectedInstances());
|
|
}
|
|
break;
|
|
|
|
case keep:
|
|
break;
|
|
|
|
default:
|
|
break;
|
|
}
|
|
|
|
return affectedInstances;
|
|
}
|
|
|
|
@Override
|
|
public void internalRemoveFromContext()
|
|
throws ContextException, ResourceRegistryException {
|
|
try {
|
|
setOperation(Operation.REMOVE_FROM_CONTEXT);
|
|
reallyRemoveFromContext();
|
|
HeaderUtility.updateModifiedByAndLastUpdate(element);
|
|
element.save();
|
|
affectedInstances.put(uuid, serializeAsAffectedInstance());
|
|
} catch(ResourceRegistryException e) {
|
|
throw e;
|
|
} catch(Exception e) {
|
|
throw new ResourceRegistryException(
|
|
"Error Removing " + typeName + " from " + targetSecurityContext.toString(), e.getCause());
|
|
}
|
|
}
|
|
|
|
@Override
|
|
public void removeFromContext(UUID contextUUID)
|
|
throws NotFoundException, ContextException, ResourceRegistryException {
|
|
logger.debug("Going to remove {} with UUID {} from Context with UUID {}", typeName, uuid, contextUUID);
|
|
ODatabaseDocument current = ContextUtility.getCurrentODatabaseDocumentFromThreadLocal();
|
|
try {
|
|
workingContext = ContextUtility.getAdminSecurityContext();
|
|
oDatabaseDocument = workingContext.getDatabaseDocument(PermissionMode.WRITER);
|
|
oDatabaseDocument.begin();
|
|
setAsEntryPoint();
|
|
|
|
|
|
// Not needed sourceSecurityContext = ContextUtility.getCurrentSecurityContext();
|
|
targetSecurityContext = ContextUtility.getInstance().getSecurityContextByUUID(contextUUID);
|
|
|
|
internalRemoveFromContext();
|
|
|
|
sanityCheck();
|
|
|
|
if(!dryRun) {
|
|
oDatabaseDocument.commit();
|
|
}else {
|
|
oDatabaseDocument.rollback();
|
|
}
|
|
logger.info("{} with UUID {} successfully removed from Context with UUID {}", typeName, uuid, contextUUID);
|
|
} catch(ResourceRegistryException e) {
|
|
logger.error("Unable to remove {} with UUID {} from Context with UUID {}", typeName, uuid, contextUUID);
|
|
if(oDatabaseDocument != null) {
|
|
oDatabaseDocument.rollback();
|
|
}
|
|
throw e;
|
|
} catch(Exception e) {
|
|
logger.error("Unable to remove {} with UUID {} from Context with UUID {}", typeName, uuid, contextUUID,
|
|
e);
|
|
if(oDatabaseDocument != null) {
|
|
oDatabaseDocument.rollback();
|
|
}
|
|
throw new ContextException(e);
|
|
} finally {
|
|
if(oDatabaseDocument != null) {
|
|
oDatabaseDocument.close();
|
|
}
|
|
|
|
if(current!=null) {
|
|
current.activateOnCurrentThread();
|
|
}
|
|
}
|
|
}
|
|
|
|
@Override
|
|
protected void reallyDelete() throws RelationNotFoundException, ResourceRegistryException {
|
|
logger.debug("Going to remove {} with UUID {}. Related {}s will be detached.", accessType.getName(), uuid,
|
|
targetEntityClass.getSimpleName());
|
|
|
|
getElement();
|
|
|
|
getSourceEntityManagement().getElement();
|
|
|
|
RemoveConstraint removeConstraint = RemoveConstraint.keep;
|
|
|
|
try {
|
|
PropagationConstraint propagationConstraint = Utility.getPropertyDocument(PropagationConstraint.class,
|
|
element, Relation.PROPAGATION_CONSTRAINT_PROPERTY);
|
|
if(propagationConstraint.getRemoveConstraint() != null) {
|
|
removeConstraint = propagationConstraint.getRemoveConstraint();
|
|
} else {
|
|
String error = String.format("%s.%s in %s is null. %s", Relation.PROPAGATION_CONSTRAINT_PROPERTY,
|
|
PropagationConstraint.REMOVE_PROPERTY, Utility.toJsonString(element, true),
|
|
Utility.SHOULD_NOT_OCCUR_ERROR_MESSAGE);
|
|
logger.error(error);
|
|
throw new ResourceRegistryException(error);
|
|
}
|
|
} catch(Exception e) {
|
|
logger.warn("Error while getting {} from {}. Assuming {}. {}", Relation.PROPAGATION_CONSTRAINT_PROPERTY,
|
|
Utility.toJsonString(element, true), removeConstraint, Utility.SHOULD_NOT_OCCUR_ERROR_MESSAGE);
|
|
}
|
|
|
|
// pre-loading target entity because after deleting the relation we will not be able to get it
|
|
T t = getTargetEntityManagement();
|
|
if(targetEntityManagement instanceof ResourceManagement) {
|
|
((ResourceManagement) targetEntityManagement).setSanityCheckNotRequired();
|
|
}
|
|
|
|
affectedInstances.put(uuid, serializeAsAffectedInstance());
|
|
element.delete();
|
|
|
|
switch(removeConstraint) {
|
|
case cascade:
|
|
t.internalDelete();
|
|
break;
|
|
|
|
case cascadeWhenOrphan:
|
|
OVertex target = t.getElement();
|
|
Iterable<OEdge> iterable = target.getEdges(ODirection.IN);
|
|
Iterator<OEdge> iterator = iterable.iterator();
|
|
if(iterator.hasNext()) {
|
|
logger.trace("{} point to {} which is not orphan. Giving {} directive, it will be keep.", element,
|
|
target, removeConstraint);
|
|
} else {
|
|
getTargetEntityManagement().internalDelete();
|
|
}
|
|
break;
|
|
|
|
case keep:
|
|
break;
|
|
|
|
default:
|
|
break;
|
|
}
|
|
|
|
affectedInstances.putAll(t.getAffectedInstances());
|
|
|
|
}
|
|
|
|
protected Collection<JsonNode> serializeEdges(Iterable<ODocument> edges, boolean postFilterPolymorphic)
|
|
throws ResourceRegistryException {
|
|
// Map<String,JsonNode> visitedSourceResources = new HashMap<>();
|
|
List<JsonNode> serilizedEdges = new ArrayList<>();
|
|
for(ODocument d : edges) {
|
|
OEdge edge = (OEdge) d;
|
|
|
|
if(postFilterPolymorphic && getOClass().isSubClassOf(typeName)) {
|
|
continue;
|
|
}
|
|
|
|
RelationManagement<?, ?> relationManagement = ElementManagementUtility.getRelationManagement(getWorkingContext(),
|
|
oDatabaseDocument, edge);
|
|
// visitedSourceResources = relationManagement.fullSerialize(visitedSourceResources);
|
|
serilizedEdges.add(relationManagement.serializeAsJsonNode());
|
|
}
|
|
return serilizedEdges;
|
|
}
|
|
|
|
protected String serializeJsonNodeCollectionAsString(Collection<JsonNode> collection) throws ResourceRegistryException {
|
|
try {
|
|
ObjectMapper objectMapper = new ObjectMapper();
|
|
ArrayNode arrayNode = objectMapper.valueToTree(collection);
|
|
return objectMapper.writeValueAsString(arrayNode);
|
|
} catch(Exception e) {
|
|
throw new ResourceRegistryException(e);
|
|
}
|
|
}
|
|
|
|
@Override
|
|
public String reallyGetAll(boolean polymorphic) throws ResourceRegistryException {
|
|
Iterable<ODocument> edges = oDatabaseDocument.browseClass(typeName, polymorphic);
|
|
Collection<JsonNode> collection = serializeEdges(edges, false);
|
|
return serializeJsonNodeCollectionAsString(collection);
|
|
}
|
|
|
|
}
|