Exemplo n.º 1
0
 private void GenerateBidirectionRelationInfo()
 {
     // Checking each relation if it is bidirectional. If so, storing that information.
     foreach (String entityName in entitiesConfigurations.Keys)
     {
         EntityConfiguration entCfg = entitiesConfigurations[entityName];
         // Iterating over all relations from that entity
         foreach (RelationDescription relDesc in entCfg.GetRelationsIterator())
         {
             // If this is an "owned" relation, checking the related entity, if it has a relation that has
             // a mapped-by attribute to the currently checked. If so, this is a bidirectional relation.
             if (relDesc.RelationType == RelationType.TO_ONE ||
                 relDesc.RelationType == RelationType.TO_MANY_MIDDLE)
             {
                 if (entitiesConfigurations.Keys.Contains(relDesc.ToEntityName))
                 {
                     EntityConfiguration entityConfiguration = entitiesConfigurations[relDesc.ToEntityName];
                     foreach (RelationDescription other in entityConfiguration.GetRelationsIterator())
                     {
                         if (relDesc.FromPropertyName.Equals(other.MappedByPropertyName) &&
                             (entityName.Equals(other.ToEntityName)))
                         {
                             relDesc.Bidirectional = true;
                             other.Bidirectional   = true;
                         }
                     }
                 }
             }
         }
     }
 }
Exemplo n.º 2
0
        public RelationDescription GetRelationDescription(String entityName, String propertyName)
        {
            EntityConfiguration entCfg  = entitiesConfigurations[entityName];
            RelationDescription relDesc = entCfg.GetRelationDescription(propertyName);

            if (relDesc != null)
            {
                return(relDesc);
            }
            else if (entCfg.ParentEntityName != null)
            {
                // The field may be declared in a superclass ...
                return(GetRelationDescription(entCfg.ParentEntityName, propertyName));
            }
            else
            {
                return(null);
            }
        }
	    /**
         * @param mainGenerator Main generator, giving access to configuration and the basic mapper.
         * @param propertyValue Value of the collection, as mapped by Hibernate.
         * @param currentMapper Mapper, to which the appropriate {@link org.hibernate.envers.entities.mapper.PropertyMapper}
         * will be added.
         * @param referencingEntityName Name of the entity that owns this collection.
         * @param xmlMappingData In case this collection requires a middle table, additional mapping documents will
         * be created using this object.
         * @param propertyAuditingData Property auditing (meta-)data. Among other things, holds the name of the
         * property that references the collection in the referencing entity, the user data for middle (join)
         * table and the value of the <code>@MapKey</code> annotation, if there was one.
         */
        public CollectionMetadataGenerator(AuditMetadataGenerator mainGenerator,
                                           Mapping.Collection propertyValue, ICompositeMapperBuilder currentMapper,
                                           String referencingEntityName, EntityXmlMappingData xmlMappingData,
                                           PropertyAuditingData propertyAuditingData) {
            this.mainGenerator = mainGenerator;
            this.propertyValue = propertyValue;
            this.currentMapper = currentMapper;
            this.referencingEntityName = referencingEntityName;
            this.xmlMappingData = xmlMappingData;
            this.propertyAuditingData = propertyAuditingData;

            this.propertyName = propertyAuditingData.Name;

            referencingEntityConfiguration = mainGenerator.EntitiesConfigurations[referencingEntityName];
            if (referencingEntityConfiguration == null) {
                throw new MappingException("Unable to read auditing configuration for " + referencingEntityName + "!");
            }

            referencedEntityName = MappingTools.getReferencedEntityName(propertyValue.Element);
        }
        //@SuppressWarnings({"unchecked"})
        public void GenerateFirstPass(PersistentClass pc, ClassAuditingData auditingData,
                                      EntityXmlMappingData xmlMappingData, bool isAudited)
        {
            String schema = GetSchema(auditingData.AuditTable.schema, pc.Table);
            String catalog = GetCatalog(auditingData.AuditTable.catalog, pc.Table);

            String entityName = pc.EntityName;
            if (!isAudited)
            {
                IdMappingData _idMapper = idMetadataGenerator.AddId(pc);

                if (_idMapper == null)
                {
                    // Unsupported id mapping, e.g. key-many-to-one. If the entity is used in auditing, an exception
                    // will be thrown later on.
                    if (log.IsDebugEnabled)
                    {
                        log.Debug("Unable to create auditing id mapping for entity " + entityName +
                            ", because of an unsupported Hibernate id mapping (e.g. key-many-to-one).");
                    }
                    return;
                }

                //ORIG:
                //IExtendedPropertyMapper propertyMapper = null;
                //String parentEntityName = null;
                EntityConfiguration _entityCfg = new EntityConfiguration(entityName, _idMapper, null,
                        null);
                NotAuditedEntitiesConfigurations.Add(entityName, _entityCfg);
                return;
            }

            if (log.IsDebugEnabled)
            {
                log.Debug("Generating first-pass auditing mapping for entity " + entityName + ".");
            }

            String auditEntityName = VerEntCfg.GetAuditEntityName(entityName);
            String auditTableName = VerEntCfg.GetAuditTableName(entityName, pc.Table.Name);

            // Registering the audit entity name, now that it is known
            AuditEntityNameRegister.register(auditEntityName);

            AuditTableData auditTableData = new AuditTableData(auditEntityName, auditTableName, schema, catalog);

            // Generating a mapping for the id
            IdMappingData idMapper = idMetadataGenerator.AddId(pc);

            InheritanceType.Type inheritanceType = InheritanceType.GetForChild(pc);

            // These properties will be read from the mapping data
            XmlElement class_mapping;
            IExtendedPropertyMapper propertyMapper;
            String parentEntityName;

            Triple<XmlElement, IExtendedPropertyMapper, String> mappingData;

            // Reading the mapping data depending on inheritance type (if any)
            switch (inheritanceType)
            {
                case InheritanceType.Type.NONE:
                    mappingData = GenerateMappingData(pc, xmlMappingData, auditTableData, idMapper);
                    break;

                case InheritanceType.Type.SINGLE:
                    mappingData = GenerateInheritanceMappingData(pc, xmlMappingData, auditTableData, "subclass");
                    break;

                case InheritanceType.Type.JOINED:
                    mappingData = GenerateInheritanceMappingData(pc, xmlMappingData, auditTableData, "joined-subclass");

                    AddJoinedInheritancePersisterHack(mappingData.First);

                    // Adding the "key" element with all id columns...
                    XmlElement keyMapping = mappingData.First.OwnerDocument.CreateElement("key");
                    mappingData.First.AppendChild(keyMapping);
                    MetadataTools.AddColumns(keyMapping, (IEnumerator<ISelectable>)pc.Table.PrimaryKey.ColumnIterator.GetEnumerator());

                    // ... and the revision number column, read from the revision info relation mapping.
                    keyMapping.AppendChild((XmlElement)CloneAndSetupRevisionInfoRelationMapping(keyMapping.OwnerDocument).GetElementsByTagName("column")[0].Clone());
                    break;

                case InheritanceType.Type.TABLE_PER_CLASS:
                    mappingData = GenerateInheritanceMappingData(pc, xmlMappingData, auditTableData, "union-subclass");

                    AddTablePerClassInheritancePersisterHack(mappingData.First);

                    break;

                default:
                    throw new AssertionFailure("Envers.NET: AuditMetadataGenerator.GenerateFirstPass: Impossible enum value.");
            }

            class_mapping = mappingData.First;
            propertyMapper = mappingData.Second;
            parentEntityName = mappingData.Third;

            xmlMappingData.ClassMapping = class_mapping;

            // Mapping unjoined properties
            AddProperties(class_mapping, (IEnumerator<Property>)pc.UnjoinedPropertyIterator.GetEnumerator(), propertyMapper,
                    auditingData, pc.EntityName, xmlMappingData,
                    true);

            // Creating and mapping joins (first pass)
            CreateJoins(pc, class_mapping, auditingData);
            AddJoins(pc, propertyMapper, auditingData, pc.EntityName, xmlMappingData, true);

            // Storing the generated configuration
            EntityConfiguration entityCfg = new EntityConfiguration(auditEntityName, idMapper,
                    propertyMapper, parentEntityName);
            EntitiesConfigurations.Add(pc.EntityName, entityCfg);
        }
Exemplo n.º 5
0
        public void GenerateFirstPass(PersistentClass pc, ClassAuditingData auditingData,
									  EntityXmlMappingData xmlMappingData, bool isAudited)
        {
            var schema = GetSchema(auditingData.AuditTable.Schema, pc.Table);
            var catalog = GetCatalog(auditingData.AuditTable.Catalog, pc.Table);

            var entityName = pc.EntityName;
            if (!isAudited)
            {
                var _idMapper = idMetadataGenerator.AddId(pc);

                if (_idMapper == null)
                {
                    // Unsupported id mapping, e.g. key-many-to-one. If the entity is used in auditing, an exception
                    // will be thrown later on.
                    if (log.IsDebugEnabled)
                    {
                        log.DebugFormat("Unable to create auditing id mapping for entity {0}" +
                            ", because of an unsupported Hibernate id mapping (e.g. key-many-to-one).", entityName);
                    }
                    return;
                }

                //ORIG:
                //IExtendedPropertyMapper propertyMapper = null;
                //String parentEntityName = null;
                var _entityCfg = new EntityConfiguration(entityName, pc.ClassName, _idMapper, null, null);
                NotAuditedEntitiesConfigurations.Add(entityName, _entityCfg);
                return;
            }

            if (log.IsDebugEnabled)
            {
                log.DebugFormat("Generating first-pass auditing mapping for entity {0}.", entityName);
            }

            var auditEntityName = VerEntCfg.GetAuditEntityName(entityName);
            var auditTableName = VerEntCfg.GetAuditTableName(entityName, pc.Table.Name);

            // Registering the audit entity name, now that it is known
            AuditEntityNameRegister.Register(auditEntityName);

            var auditTableData = new AuditTableData(auditEntityName, auditTableName, schema, catalog);

            // Generating a mapping for the id
            var idMapper = idMetadataGenerator.AddId(pc);

            var inheritanceType = pc.GetInheritanceType();

            // These properties will be read from the mapping data

            Triple<XmlElement, IExtendedPropertyMapper, string> mappingData;

            // Reading the mapping data depending on inheritance type (if any)
            switch (inheritanceType)
            {
                case InheritanceType.None:
                    mappingData = GenerateMappingData(pc, xmlMappingData, auditTableData, idMapper);
                    break;

                case InheritanceType.Single:
                    auditTableData = new AuditTableData(auditEntityName, null, schema, catalog);
                    mappingData = GenerateInheritanceMappingData(pc, xmlMappingData, auditTableData, "subclass");
                    break;

                case InheritanceType.Joined:
                    mappingData = GenerateInheritanceMappingData(pc, xmlMappingData, auditTableData, "joined-subclass");

                    // Adding the "key" element with all id columns...
                    var keyMapping = mappingData.First.OwnerDocument.CreateElement("key");
                    mappingData.First.AppendChild(keyMapping);
                    MetadataTools.AddColumns(keyMapping, pc.Table.PrimaryKey.ColumnIterator);

                    // ... and the revision number column, read from the revision info relation mapping.
                    keyMapping.AppendChild(CloneAndSetupRevisionInfoRelationMapping(keyMapping.OwnerDocument).GetElementsByTagName("column")[0].Clone());
                    break;

                case InheritanceType.TablePerClass:
                    mappingData = GenerateInheritanceMappingData(pc, xmlMappingData, auditTableData, "union-subclass");

                    break;

                default:
                    throw new AssertionFailure("AuditMetadataGenerator.GenerateFirstPass: Impossible enum value.");
            }

            var class_mapping = mappingData.First;
            var propertyMapper = mappingData.Second;
            var parentEntityName = mappingData.Third;

            xmlMappingData.ClassMapping = class_mapping;

            // Mapping unjoined properties
            AddProperties(class_mapping, pc.UnjoinedPropertyIterator, propertyMapper,
                    auditingData, pc.EntityName, xmlMappingData,
                    true);

            // Creating and mapping joins (first pass)
            CreateJoins(pc, class_mapping, auditingData);
            AddJoins(pc, propertyMapper, auditingData, pc.EntityName, xmlMappingData, true);

            // Storing the generated configuration
            var entityCfg = new EntityConfiguration(auditEntityName, pc.ClassName, idMapper,
                    propertyMapper, parentEntityName);
            EntitiesConfigurations.Add(pc.EntityName, entityCfg);
        }