Datei: NDODLL/PersistenceManager.cs
Last Commit (a99de3b)
1 | // |
2 | // Copyright (c) 2002-2016 Mirko Matytschak |
3 | // (www.netdataobjects.de) |
4 | // |
5 | // Author: Mirko Matytschak |
6 | // |
7 | // Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated |
8 | // documentation files (the "Software"), to deal in the Software without restriction, including without limitation |
9 | // the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the |
10 | // Software, and to permit persons to whom the Software is furnished to do so, subject to the following |
11 | // conditions: |
12 | |
13 | // The above copyright notice and this permission notice shall be included in all copies or substantial portions |
14 | // of the Software. |
15 | // |
16 | // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED |
17 | // TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL |
18 | // THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF |
19 | // CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER |
20 | // DEALINGS IN THE SOFTWARE. |
21 | |
22 | |
23 | using System; |
24 | using System.Text; |
25 | using System.IO; |
26 | using System.Collections; |
27 | using System.Collections.Generic; |
28 | using System.Data; |
29 | using System.Diagnostics; |
30 | using System.Reflection; |
31 | using System.Dynamic; |
32 | using System.Text.RegularExpressions; |
33 | using System.Linq; |
34 | using System.Xml.Linq; |
35 | |
36 | using NDO.Mapping; |
37 | using NDOInterfaces; |
38 | using NDO.ShortId; |
39 | using System.Globalization; |
40 | using NDO.Linq; |
41 | using NDO.Query; |
42 | using ST = System.Transactions; |
43 | using NDO.Configuration; |
44 | using NDO.ChangeLogging; |
45 | |
46 | namespace NDO |
47 | { |
48 | ····/// <summary> |
49 | ····/// Delegate type of an handler, which can be registered by the CollisionEvent of the PersistenceManager. |
50 | ····/// <see cref="NDO.PersistenceManager.CollisionEvent"/> |
51 | ····/// </summary> |
52 | ····public delegate void CollisionHandler(object o); |
53 | ····/// <summary> |
54 | ····/// Delegate type of an handler, which can be registered by the IdGenerationEvent event of the PersistenceManager. |
55 | ····/// <see cref="NDO.PersistenceManagerBase.IdGenerationEvent"/> |
56 | ····/// </summary> |
57 | ····public delegate void IdGenerationHandler(Type t, ObjectId oid); |
58 | ····/// <summary> |
59 | ····/// Delegate type of an handler, which can be registered by the OnSaving event of the PersistenceManager. |
60 | ····/// </summary> |
61 | ····public delegate void OnSavingHandler(ICollection l); |
62 | ····/// <summary> |
63 | ····/// Delegate type for the OnSavedEvent. |
64 | ····/// </summary> |
65 | ····/// <param name="auditSet"></param> |
66 | ····public delegate void OnSavedHandler(AuditSet auditSet); |
67 | |
68 | ····/// <summary> |
69 | ····/// Delegate type of an handler, which can be registered by the ObjectNotPresentEvent of the PersistenceManager. The event will be called, if LoadData doesn't find an object with the given oid. |
70 | ····/// </summary> |
71 | ····/// <param name="pc"></param> |
72 | ····/// <returns>A boolean value which determines, if the handler could solve the situation.</returns> |
73 | ····/// <remarks>If the handler returns false, NDO will throw an exception.</remarks> |
74 | ····public delegate bool ObjectNotPresentHandler( IPersistenceCapable pc ); |
75 | |
76 | ····/// <summary> |
77 | ····/// Standard implementation of the IPersistenceManager interface. Provides transaction like manipulation of data sets. |
78 | ····/// This is the main class you'll work with in your application code. For more information see the topic "Persistence Manager" in the NDO Documentation. |
79 | ····/// </summary> |
80 | ····public class PersistenceManager : PersistenceManagerBase, IPersistenceManager |
81 | ····{········ |
82 | ········private bool hollowMode = false; |
83 | ········private Dictionary<Relation, IMappingTableHandler> mappingHandler = new Dictionary<Relation,IMappingTableHandler>(); // currently used handlers |
84 | |
85 | ········private Hashtable currentRelations = new Hashtable(); // Contains names of current bidirectional relations |
86 | ········private ObjectLock removeLock = new ObjectLock(); |
87 | ········private ObjectLock addLock = new ObjectLock(); |
88 | ········private ArrayList createdDirectObjects = new ArrayList(); // List of newly created objects that need to be stored twice to update foreign keys. |
89 | ········// List of created objects that use mapping table and need to be stored in mapping table |
90 | ········// after they have been stored to the database to update foreign keys. |
91 | ········private ArrayList createdMappingTableObjects = new ArrayList();·· |
92 | ········private TypeManager typeManager; |
93 | ········internal bool DeferredMode { get; private set; } |
94 | ········private INDOTransactionScope transactionScope; |
95 | ········internal INDOTransactionScope TransactionScope => transactionScope ?? (transactionScope = ConfigContainer.Resolve<INDOTransactionScope>());········ |
96 | |
97 | ········private OpenConnectionListener openConnectionListener; |
98 | |
99 | ········/// <summary> |
100 | ········/// Register a listener to this event if you work in concurrent scenarios and you use TimeStamps. |
101 | ········/// If a collision occurs, this event gets fired and gives the opportunity to handle the situation. |
102 | ········/// </summary> |
103 | ········public event CollisionHandler CollisionEvent; |
104 | |
105 | ········/// <summary> |
106 | ········/// Register a listener to this event to handle situations where LoadData doesn't find an object. |
107 | ········/// The listener can determine, whether an exception should be thrown, if the situation occurs. |
108 | ········/// </summary> |
109 | ········public event ObjectNotPresentHandler ObjectNotPresentEvent; |
110 | |
111 | ········/// <summary> |
112 | ········/// Register a listener to this event, if you want to be notified about the end |
113 | ········/// of a transaction. The listener gets a ICollection of all objects, which have been changed |
114 | ········/// during the transaction and are to be saved or deleted. |
115 | ········/// </summary> |
116 | ········public event OnSavingHandler OnSavingEvent; |
117 | ········/// <summary> |
118 | ········/// This event is fired at the very end of the Save() method. It provides lists of the added, changed, and deleted objects. |
119 | ········/// </summary> |
120 | ········public event OnSavedHandler OnSavedEvent; |
121 | ········ |
122 | ········private const string hollowMarker = "Hollow"; |
123 | ········private byte[] encryptionKey; |
124 | ········private List<RelationChangeRecord> relationChanges = new List<RelationChangeRecord>(); |
125 | ········private bool isClosing = false; |
126 | |
127 | ········/// <summary> |
128 | ········/// Gets a list of structures which represent relation changes, i.e. additions and removals |
129 | ········/// </summary> |
130 | ········protected internal List<RelationChangeRecord> RelationChanges |
131 | ········{ |
132 | ············get { return this.relationChanges; } |
133 | ········} |
134 | |
135 | ········/// <summary> |
136 | ········/// Initializes a new PersistenceManager instance. |
137 | ········/// </summary> |
138 | ········/// <param name="mappingFileName"></param> |
139 | ········protected override void Init(string mappingFileName) |
140 | ········{ |
141 | ············try |
142 | ············{ |
143 | ················base.Init(mappingFileName); |
144 | ············} |
145 | ············catch (Exception ex) |
146 | ············{ |
147 | ················if (ex is NDOException) |
148 | ····················throw ex; |
149 | ················throw new NDOException(30, "Persistence manager initialization error: " + ex.ToString()); |
150 | ············} |
151 | |
152 | ········} |
153 | |
154 | ········/// <summary> |
155 | ········/// Initializes the persistence manager |
156 | ········/// </summary> |
157 | ········/// <remarks> |
158 | ········/// Note: This is the method, which will be called from all different ways to instantiate a PersistenceManagerBase. |
159 | ········/// </remarks> |
160 | ········/// <param name="mapping"></param> |
161 | ········internal override void Init( Mappings mapping ) |
162 | ········{ |
163 | ············ConfigContainer.RegisterType<INDOTransactionScope, NDOTransactionScope>(); |
164 | |
165 | ············base.Init( mapping ); |
166 | |
167 | ············string dir = Path.GetDirectoryName( mapping.FileName ); |
168 | |
169 | ············string typesFile = Path.Combine( dir, "NDOTypes.xml" ); |
170 | ············typeManager = new TypeManager( typesFile, this.mappings ); |
171 | |
172 | ············sm = new StateManager( this ); |
173 | |
174 | ············InitClasses(); |
175 | ········} |
176 | |
177 | |
178 | ········/// <summary> |
179 | ········/// Standard Constructor. |
180 | ········/// </summary> |
181 | ········/// <remarks> |
182 | ········/// Searches for a mapping file in the application directory. |
183 | ········/// The constructor tries to find a file with the same name as |
184 | ········/// the assembly, but with the extension .ndo.xml. If the file is not found the constructor tries to find a |
185 | ········/// file called AssemblyName.ndo.mapping in the application directory. |
186 | ········/// </remarks> |
187 | ········public PersistenceManager() : base() |
188 | ········{ |
189 | ········} |
190 | |
191 | ········/// <summary> |
192 | ········/// Loads the mapping file from the specified location. This allows to use |
193 | ········/// different mapping files with different classes mapped in it. |
194 | ········/// </summary> |
195 | ········/// <param name="mappingFile">Path to the mapping file.</param> |
196 | ········/// <remarks>Only the Professional and Enterprise |
197 | ········/// Editions can handle more than one mapping file.</remarks> |
198 | ········public PersistenceManager(string mappingFile) : base (mappingFile) |
199 | ········{ |
200 | ········} |
201 | |
202 | ········/// <summary> |
203 | ········/// Constructs a PersistenceManager and reuses a cached NDOMapping. |
204 | ········/// </summary> |
205 | ········/// <param name="mapping">The cached mapping object</param> |
206 | ········public PersistenceManager(NDOMapping mapping) : base (mapping) |
207 | ········{ |
208 | ········} |
209 | |
210 | ········#region Object Container Stuff |
211 | ········/// <summary> |
212 | ········/// Gets a container of all loaded objects and tries to load all child objects, |
213 | ········/// which are reachable through composite relations. |
214 | ········/// </summary> |
215 | ········/// <returns>An ObjectContainer object.</returns> |
216 | ········/// <remarks> |
217 | ········/// It is not recommended, to transfer objects with a state other than Hollow, |
218 | ········/// Persistent, or Transient. |
219 | ········/// The transfer format is binary. |
220 | ········/// </remarks> |
221 | ········public ObjectContainer GetObjectContainer() |
222 | ········{ |
223 | ············IList l = this.cache.AllObjects; |
224 | ············foreach(IPersistenceCapable pc in l) |
225 | ············{ |
226 | ················if (pc.NDOObjectState == NDOObjectState.PersistentDirty) |
227 | ················{ |
228 | ····················if (this.VerboseMode) |
229 | ························this.LogAdapter.Warn("Call to GetObjectContainer returns changed objects."); |
230 | ····················System.Diagnostics.Trace.WriteLine("NDO warning: Call to GetObjectContainer returns changed objects."); |
231 | ················} |
232 | ············} |
233 | ············ObjectContainer oc = new ObjectContainer(); |
234 | ············oc.AddList(l); |
235 | ············return oc; |
236 | ········} |
237 | |
238 | ········/// <summary> |
239 | ········/// Returns a container of all objects provided in the objects list and searches for |
240 | ········/// child objects according to the serFlags. |
241 | ········/// </summary> |
242 | ········/// <param name="objects">The list of the root objects to add to the container.</param> |
243 | ········/// <returns>An ObjectContainer object.</returns> |
244 | ········/// <remarks> |
245 | ········/// It is not recommended, to transfer objects with a state other than Hollow, |
246 | ········/// Persistent, or Transient. |
247 | ········/// </remarks> |
248 | ········public ObjectContainer GetObjectContainer(IList objects) |
249 | ········{ |
250 | ············foreach(object o in objects) |
251 | ············{ |
252 | ················CheckPc(o); |
253 | ················IPersistenceCapable pc = o as IPersistenceCapable; |
254 | ················if (pc.NDOObjectState == NDOObjectState.Hollow) |
255 | ····················LoadData(pc); |
256 | ············} |
257 | ············ObjectContainer oc = new ObjectContainer(); |
258 | ············oc.AddList(objects); |
259 | ············return oc; |
260 | ········} |
261 | |
262 | |
263 | ········/// <summary> |
264 | ········/// Returns a container containing the provided object |
265 | ········/// and tries to load all child objects |
266 | ········/// reachable through composite relations. |
267 | ········/// </summary> |
268 | ········/// <param name="obj">The object to be added to the container.</param> |
269 | ········/// <returns>An ObjectContainer object.</returns> |
270 | ········/// <remarks> |
271 | ········/// It is not recommended, to transfer objects with a state other than Hollow, |
272 | ········/// Persistent, or Transient. |
273 | ········/// The transfer format is binary. |
274 | ········/// </remarks> |
275 | ········public ObjectContainer GetObjectContainer(Object obj) |
276 | ········{ |
277 | ············CheckPc(obj); |
278 | ············if (((IPersistenceCapable)obj).NDOObjectState == NDOObjectState.Hollow) |
279 | ················LoadData(obj); |
280 | ············ObjectContainer oc = new ObjectContainer(); |
281 | ············oc.AddObject(obj); |
282 | ············return oc; |
283 | ········} |
284 | |
285 | ········/// <summary> |
286 | ········/// Merges an object container to the active objects in the pm. All changes and the state |
287 | ········/// of the objects will be taken over by the pm. |
288 | ········/// </summary> |
289 | ········/// <remarks> |
290 | ········/// The parameter can be either an ObjectContainer or a ChangeSetContainer. |
291 | ········/// The flag MarkAsTransient can be used to perform a kind |
292 | ········/// of object based replication using the ObjectContainer class. |
293 | ········/// Objects, which are persistent at one machine, can be transfered |
294 | ········/// to a second machine and treated by the receiving PersistenceManager like a newly created |
295 | ········/// object. The receiving PersistenceManager will use MakePersistent to store the whole |
296 | ········/// transient object tree. |
297 | ········/// There is one difference to freshly created objects: If an object id exists, it will be |
298 | ········/// serialized. If the NDOOidType-Attribute is valid for the given class, the transfered |
299 | ········/// oids will be reused by the receiving PersistenceManager. |
300 | ········/// </remarks> |
301 | ········/// <param name="ocb">The object container to be merged.</param> |
302 | ········public void MergeObjectContainer(ObjectContainerBase ocb) |
303 | ········{ |
304 | ············ChangeSetContainer csc = ocb as ChangeSetContainer; |
305 | ············if (csc != null) |
306 | ············{ |
307 | ················MergeChangeSet(csc); |
308 | ················return; |
309 | ············} |
310 | ············ObjectContainer oc = ocb as ObjectContainer; |
311 | ············if (oc != null) |
312 | ············{ |
313 | ················InternalMergeObjectContainer(oc); |
314 | ················return; |
315 | ············} |
316 | ············throw new NDOException(42, "Wrong argument type: MergeObjectContainer expects either an ObjectContainer or a ChangeSetContainer object as parameter."); |
317 | ········} |
318 | |
319 | |
320 | ········void InternalMergeObjectContainer(ObjectContainer oc) |
321 | ········{ |
322 | ············// TODO: Check, if other states are useful. Find use scenarios. |
323 | ············foreach(IPersistenceCapable pc in oc.RootObjects) |
324 | ············{ |
325 | ················if (pc.NDOObjectState == NDOObjectState.Transient) |
326 | ····················MakePersistent(pc); |
327 | ············} |
328 | ············foreach(IPersistenceCapable pc in oc.RootObjects) |
329 | ············{ |
330 | ················new OnlineMergeIterator(this.sm, this.cache).Iterate(pc); |
331 | ············} |
332 | ········} |
333 | |
334 | ········void MergeChangeSet(ChangeSetContainer cs) |
335 | ········{ |
336 | ············foreach(IPersistenceCapable pc in cs.AddedObjects) |
337 | ············{ |
338 | ················InternalMakePersistent(pc, false); |
339 | ············} |
340 | ············foreach(ObjectId oid in cs.DeletedObjects) |
341 | ············{ |
342 | ················IPersistenceCapable pc2 = FindObject(oid); |
343 | ················Delete(pc2); |
344 | ············} |
345 | ············foreach(IPersistenceCapable pc in cs.ChangedObjects) |
346 | ············{ |
347 | ················IPersistenceCapable pc2 = FindObject(pc.NDOObjectId); |
348 | ················Class pcClass = GetClass(pc); |
349 | ················// Make sure, the object is loaded. |
350 | ················if (pc2.NDOObjectState == NDOObjectState.Hollow) |
351 | ····················LoadData(pc2); |
352 | ················MarkDirty( pc2 );··// This locks the object and generates a LockEntry, which contains a row |
353 | ················var entry = cache.LockedObjects.FirstOrDefault( e => e.pc.NDOObjectId == pc.NDOObjectId ); |
354 | ················DataRow row = entry.row; |
355 | ················pc.NDOWrite(row, pcClass.ColumnNames, 0); |
356 | ················pc2.NDORead(row, pcClass.ColumnNames, 0); |
357 | ············} |
358 | ············foreach(RelationChangeRecord rcr in cs.RelationChanges) |
359 | ············{ |
360 | ················IPersistenceCapable parent = FindObject(rcr.Parent.NDOObjectId); |
361 | ················IPersistenceCapable child = FindObject(rcr.Child.NDOObjectId); |
362 | ················Class pcClass = GetClass(parent); |
363 | ················Relation r = pcClass.FindRelation(rcr.RelationName); |
364 | ················if (!parent.NDOLoadState.RelationLoadState[r.Ordinal]) |
365 | ····················LoadRelation(parent, r, true); |
366 | ················if (rcr.IsAdded) |
367 | ················{ |
368 | ····················InternalAddRelatedObject(parent, r, child, true); |
369 | ····················if (r.Multiplicity == RelationMultiplicity.Element) |
370 | ····················{ |
371 | ························mappings.SetRelationField(parent, r.FieldName, child); |
372 | ····················} |
373 | ····················else |
374 | ····················{ |
375 | ························IList l = mappings.GetRelationContainer(parent, r); |
376 | ························l.Add(child); |
377 | ····················} |
378 | ················} |
379 | ················else |
380 | ················{ |
381 | ····················RemoveRelatedObject(parent, r.FieldName, child); |
382 | ····················if (r.Multiplicity == RelationMultiplicity.Element) |
383 | ····················{ |
384 | ························mappings.SetRelationField(parent, r.FieldName, null); |
385 | ····················} |
386 | ····················else |
387 | ····················{ |
388 | ························IList l = mappings.GetRelationContainer(parent, r); |
389 | ························try |
390 | ························{ |
391 | ····························ObjectListManipulator.Remove(l, child); |
392 | ························} |
393 | ························catch |
394 | ························{ |
395 | ····························throw new NDOException(50, "Error while merging a ChangeSetContainer: Child " + child.NDOObjectId.ToString() + " doesn't exist in relation " + parent.GetType().FullName + '.' + r.FieldName); |
396 | ························} |
397 | ····················} |
398 | ················} |
399 | ············} |
400 | |
401 | ········} |
402 | ········#endregion |
403 | |
404 | ········#region Implementation of IPersistenceManager |
405 | |
406 | ········// Complete documentation can be found in IPersistenceManager |
407 | |
408 | |
409 | ········void WriteDependentForeignKeysToRow(IPersistenceCapable pc, Class cl, DataRow row) |
410 | ········{ |
411 | ············if (!cl.Oid.IsDependent) |
412 | ················return; |
413 | ············WriteForeignKeysToRow(pc, row); |
414 | ········} |
415 | |
416 | ········void InternalMakePersistent(IPersistenceCapable pc, bool checkRelations) |
417 | ········{ |
418 | ············// Object is now under control of the state manager |
419 | ············pc.NDOStateManager = sm; |
420 | |
421 | ············Type pcType = pc.GetType(); |
422 | ············Class pcClass = GetClass(pc); |
423 | |
424 | ············// Create new object |
425 | ············DataTable dt = GetTable(pcType); |
426 | ············DataRow row = dt.NewRow();·· // In case of autoincremented oid, the row has a temporary oid value |
427 | |
428 | ············// In case of a Guid oid the value will be computed now. |
429 | ············foreach (OidColumn oidColumn in pcClass.Oid.OidColumns) |
430 | ············{ |
431 | ················if (oidColumn.SystemType == typeof(Guid) && oidColumn.FieldName == null && oidColumn.RelationName ==null) |
432 | ················{ |
433 | ····················if (dt.Columns[oidColumn.Name].DataType == typeof(string)) |
434 | ························row[oidColumn.Name] = Guid.NewGuid().ToString(); |
435 | ····················else |
436 | ························row[oidColumn.Name] = Guid.NewGuid(); |
437 | ················} |
438 | ············} |
439 | |
440 | ············WriteObject(pc, row, pcClass.ColumnNames, 0); // save current state in DS |
441 | |
442 | ············// If the object is merged from an ObjectContainer, the id should be reused, |
443 | ············// if the id is client generated (not Autoincremented). |
444 | ············// In every other case, the oid is set to null, to force generating a new oid. |
445 | ············bool fireIdGeneration = (Object)pc.NDOObjectId == null; |
446 | ············if ((object)pc.NDOObjectId != null) |
447 | ············{ |
448 | ················bool hasAutoincrement = false; |
449 | ················foreach (OidColumn oidColumn in pcClass.Oid.OidColumns) |
450 | ················{ |
451 | ····················if (oidColumn.AutoIncremented) |
452 | ····················{ |
453 | ························hasAutoincrement = true; |
454 | ························break; |
455 | ····················} |
456 | ················} |
457 | ················if (hasAutoincrement) // can't store existing id |
458 | ················{ |
459 | ····················pc.NDOObjectId = null; |
460 | ····················fireIdGeneration = true; |
461 | ················} |
462 | ············} |
463 | |
464 | ············// In case of a dependent class the oid has to be read from the fields according to the relations |
465 | ············WriteDependentForeignKeysToRow(pc, pcClass, row); |
466 | |
467 | ············if ((object)pc.NDOObjectId == null) |
468 | ············{ |
469 | ················pc.NDOObjectId = ObjectIdFactory.NewObjectId(pcType, pcClass, row, this.typeManager); |
470 | ············} |
471 | |
472 | ············if (!pcClass.Oid.IsDependent) // Dependent keys can't be filled with user defined data |
473 | ············{ |
474 | ················if (fireIdGeneration) |
475 | ····················FireIdGenerationEvent(pcType, pc.NDOObjectId); |
476 | ················// At this place the oid might have been |
477 | ················// - deserialized (MergeObjectContainer) |
478 | ················// - created using NewObjectId |
479 | ················// - defined by the IdGenerationEvent |
480 | |
481 | ················// At this point we have a valid oid. |
482 | ················// If the object has a field mapped to the oid we have |
483 | ················// to write back the oid to the field |
484 | ················int i = 0; |
485 | ················new OidColumnIterator(pcClass).Iterate(delegate(OidColumn oidColumn, bool isLastElement) |
486 | ················{ |
487 | ····················if (oidColumn.FieldName != null) |
488 | ····················{ |
489 | ························FieldInfo fi = new BaseClassReflector(pcType).GetField(oidColumn.FieldName, BindingFlags.NonPublic | BindingFlags.Instance); |
490 | ························fi.SetValue(pc, pc.NDOObjectId.Id[i]); |
491 | ····················} |
492 | ····················i++; |
493 | ················}); |
494 | |
495 | |
496 | |
497 | ················// Now write back the data into the row |
498 | ················pc.NDOObjectId.Id.ToRow(pcClass, row); |
499 | ············} |
500 | |
501 | ············ |
502 | ············ReadLostForeignKeysFromRow(pcClass, pc, row);··// they contain all DBNull at the moment |
503 | ············dt.Rows.Add(row); |
504 | |
505 | ············cache.Register(pc); |
506 | |
507 | ············// new object that has never been written to the DS |
508 | ············pc.NDOObjectState = NDOObjectState.Created; |
509 | ············// Mark all Relations as loaded |
510 | ············SetRelationState(pc); |
511 | |
512 | ············if (checkRelations) |
513 | ············{ |
514 | ················// Handle related objects: |
515 | ················foreach(Relation r in pcClass.Relations) |
516 | ················{ |
517 | ····················if (r.Multiplicity == RelationMultiplicity.Element) |
518 | ····················{ |
519 | ························IPersistenceCapable child = (IPersistenceCapable) mappings.GetRelationField(pc, r.FieldName); |
520 | ························if(child != null) |
521 | ························{ |
522 | ····························AddRelatedObject(pc, r, child); |
523 | ························} |
524 | ····················} |
525 | ····················else |
526 | ····················{ |
527 | ························IList list = mappings.GetRelationContainer(pc, r); |
528 | ························if(list != null) |
529 | ························{ |
530 | ····························foreach(IPersistenceCapable relObj in list) |
531 | ····························{ |
532 | ································if (relObj != null) |
533 | ····································AddRelatedObject(pc, r, relObj); |
534 | ····························} |
535 | ························} |
536 | ····················} |
537 | ················} |
538 | ············} |
539 | |
540 | ············var relations··= CollectRelationStates(pc); |
541 | ············cache.Lock(pc, row, relations); |
542 | ········} |
543 | |
544 | |
545 | ········/// <summary> |
546 | ········/// Make an object persistent. |
547 | ········/// </summary> |
548 | ········/// <param name="o">the transient object that should be made persistent</param> |
549 | ········public void MakePersistent(object o) |
550 | ········{ |
551 | ············IPersistenceCapable pc = CheckPc(o); |
552 | |
553 | ············//Debug.WriteLine("MakePersistent: " + pc.GetType().Name); |
554 | ············//Debug.Indent(); |
555 | |
556 | ············if (pc.NDOObjectState != NDOObjectState.Transient) |
557 | ················throw new NDOException(54, "MakePersistent: Object is already persistent: " + pc.NDOObjectId.Dump()); |
558 | |
559 | ············InternalMakePersistent(pc, true); |
560 | |
561 | ········} |
562 | |
563 | |
564 | |
565 | ········//········/// <summary> |
566 | ········//········/// Checks, if an object has a valid id, which was created by the database |
567 | ········//········/// </summary> |
568 | ········//········/// <param name="pc"></param> |
569 | ········//········/// <returns></returns> |
570 | ········//········private bool HasValidId(IPersistenceCapable pc) |
571 | ········//········{ |
572 | ········//············if (this.IdGenerationEvent != null) |
573 | ········//················return true; |
574 | ········//············return (pc.NDOObjectState != NDOObjectState.Created && pc.NDOObjectState != NDOObjectState.Transient); |
575 | ········//········} |
576 | |
577 | |
578 | ········private void CreateAddedObjectRow(IPersistenceCapable pc, Relation r, IPersistenceCapable relObj, bool makeRelObjPersistent) |
579 | ········{ |
580 | ············// for a "1:n"-Relation w/o mapping table, we add the foreign key here. |
581 | ············if(r.HasSubclasses) |
582 | ············{ |
583 | ················// we don't support 1:n with foreign fields in subclasses because we would have to |
584 | ················// search for objects in all subclasses! Instead use a mapping table. |
585 | ················// throw new NDOException(55, "1:n Relations with subclasses must use a mapping table: " + r.FieldName); |
586 | ················Debug.WriteLine("CreateAddedObjectRow: Polymorphic 1:n-relation " + r.Parent.FullName + "." + r.FieldName + " w/o mapping table"); |
587 | ············} |
588 | |
589 | ············if (!makeRelObjPersistent) |
590 | ················MarkDirty(relObj); |
591 | ············// Because we just marked the object as dirty, we know it's in the cache, so we don't supply the idColumn |
592 | ············DataRow relObjRow = this.cache.GetDataRow(relObj); |
593 | |
594 | ············if (relObjRow == null) |
595 | ················throw new InternalException(537, "CreateAddedObjectRow: relObjRow == null"); |
596 | |
597 | ············pc.NDOObjectId.Id.ToForeignKey(r, relObjRow); |
598 | |
599 | ············if (relObj.NDOLoadState.LostRowInfo == null) |
600 | ············{ |
601 | ················ReadLostForeignKeysFromRow(GetClass(relObj), relObj, relObjRow); |
602 | ············} |
603 | ············else |
604 | ············{ |
605 | ················relObj.NDOLoadState.ReplaceRowInfos(r, pc.NDOObjectId.Id); |
606 | ············} |
607 | ········} |
608 | |
609 | ········private void PatchForeignRelation(IPersistenceCapable pc, Relation r, IPersistenceCapable relObj) |
610 | ········{ |
611 | ············switch(relObj.NDOObjectState) |
612 | ············{ |
613 | ················case NDOObjectState.Persistent: |
614 | ····················MarkDirty(relObj); |
615 | ····················break; |
616 | ················case NDOObjectState.Hollow: |
617 | ····················LoadData(relObj); |
618 | ····················MarkDirty(relObj); |
619 | ····················break; |
620 | ············} |
621 | |
622 | ············if(r.ForeignRelation.Multiplicity == RelationMultiplicity.Element) |
623 | ············{ |
624 | ················IPersistenceCapable newpc; |
625 | ················if((newpc = (IPersistenceCapable) mappings.GetRelationField(relObj, r.ForeignRelation.FieldName)) != null) |
626 | ················{ |
627 | ····················if (newpc != pc) |
628 | ························throw new NDOException(56, "Object is already part of another relation: " + relObj.NDOObjectId.Dump()); |
629 | ················} |
630 | ················else |
631 | ················{ |
632 | ····················mappings.SetRelationField(relObj, r.ForeignRelation.FieldName, pc); |
633 | ················} |
634 | ············} |
635 | ············else |
636 | ············{ |
637 | ················if (!relObj.NDOGetLoadState(r.ForeignRelation.Ordinal)) |
638 | ····················LoadRelation(relObj, r.ForeignRelation, true); |
639 | ················IList l = mappings.GetRelationContainer(relObj, r.ForeignRelation); |
640 | ················if(l == null) |
641 | ················{ |
642 | ····················try |
643 | ····················{ |
644 | ························l = mappings.CreateRelationContainer(relObj, r.ForeignRelation); |
645 | ····················} |
646 | ····················catch |
647 | ····················{ |
648 | ························throw new NDOException(57, "Can't construct IList member " + relObj.GetType().FullName + "." + r.FieldName + ". Initialize the field in the default class constructor."); |
649 | ····················} |
650 | ····················mappings.SetRelationContainer(relObj, r.ForeignRelation, l); |
651 | ················} |
652 | ················// Hack: Es sollte erst gar nicht zu diesem Aufruf kommen. |
653 | ················// Zus�tzlicher Funktions-Parameter addObjectToList oder so. |
654 | ················if (!ObjectListManipulator.Contains(l, pc)) |
655 | ····················l.Add(pc); |
656 | ············} |
657 | ············//AddRelatedObject(relObj, r.ForeignRelation, pc); |
658 | ········} |
659 | |
660 | |
661 | ········/// <summary> |
662 | ········/// Add a related object to the specified object. |
663 | ········/// </summary> |
664 | ········/// <param name="pc">the parent object</param> |
665 | ········/// <param name="fieldName">the field name of the relation</param> |
666 | ········/// <param name="relObj">the related object that should be added</param> |
667 | ········internal virtual void AddRelatedObject(IPersistenceCapable pc, string fieldName, IPersistenceCapable relObj) |
668 | ········{ |
669 | ············Debug.Assert(pc.NDOObjectState != NDOObjectState.Transient); |
670 | ············Relation r = mappings.FindRelation(pc, fieldName); |
671 | ············AddRelatedObject(pc, r, relObj); |
672 | ········} |
673 | |
674 | ········/// <summary> |
675 | ········/// Core functionality to add an object to a relation container or relation field. |
676 | ········/// </summary> |
677 | ········/// <param name="pc"></param> |
678 | ········/// <param name="r"></param> |
679 | ········/// <param name="relObj"></param> |
680 | ········/// <param name="isMerging"></param> |
681 | ········protected virtual void InternalAddRelatedObject(IPersistenceCapable pc, Relation r, IPersistenceCapable relObj, bool isMerging) |
682 | ········{ |
683 | ············ |
684 | ············// avoid recursion |
685 | ············if (!addLock.GetLock(relObj)) |
686 | ················return; |
687 | |
688 | ············try |
689 | ············{ |
690 | ················//TODO: We need a relation management, which is independent of |
691 | ················//the state management of an object. Currently the relation |
692 | ················//lists or elements are cached for restore, if an object is marked dirty. |
693 | ················//Thus we have to mark dirty our parent object in any case at the moment. |
694 | ················MarkDirty(pc); |
695 | |
696 | ················//We should mark pc as dirty if we have a 1:1 w/o mapping table |
697 | ················//We should mark relObj as dirty if we have a 1:n w/o mapping table |
698 | ················//The latter happens in CreateAddedObjectRow |
699 | |
700 | ················Class relClass = GetClass(relObj); |
701 | |
702 | ················if (r.Multiplicity == RelationMultiplicity.Element |
703 | ····················&& r.HasSubclasses |
704 | ····················&& r.MappingTable == null················ |
705 | ····················&& !this.HasOwnerCreatedIds |
706 | ····················&& GetClass(pc).Oid.HasAutoincrementedColumn |
707 | ····················&& !relClass.HasGuidOid) |
708 | ················{ |
709 | ····················if (pc.NDOObjectState == NDOObjectState.Created && (relObj.NDOObjectState == NDOObjectState.Created || relObj.NDOObjectState == NDOObjectState.Transient )) |
710 | ························throw new NDOException(61, "Can't assign object of type " + relObj + " to relation " + pc.GetType().FullName + "." + r.FieldName + ". The parent object must be saved first to obtain the Id (for example with pm.Save(true)). As an alternative you can use client generated Id's or a mapping table."); |
711 | ····················if (r.Composition) |
712 | ························throw new NDOException(62, "Can't assign object of type " + relObj + " to relation " + pc.GetType().FullName + "." + r.FieldName + ". Can't handle a polymorphic composite relation with cardinality 1 with autonumbered id's. Use a mapping table or client generated id's."); |
713 | ····················if (relObj.NDOObjectState == NDOObjectState.Created || relObj.NDOObjectState == NDOObjectState.Transient) |
714 | ························throw new NDOException(63, "Can't assign an object of type " + relObj + " to relation " + pc.GetType().FullName + "." + r.FieldName + ". The child object must be saved first to obtain the Id (for example with pm.Save(true)). As an alternative you can use client generated Id's or a mapping table." ); |
715 | ················} |
716 | |
717 | ················bool isDependent = relClass.Oid.IsDependent; |
718 | |
719 | ················if (r.Multiplicity == RelationMultiplicity.Element && isDependent) |
720 | ····················throw new NDOException(28, "Relations to intermediate classes must have RelationMultiplicity.List."); |
721 | |
722 | ················// Need to patch pc into the relation relObj->pc, because |
723 | ················// the oid is built on base of this information |
724 | ················if (isDependent) |
725 | ················{ |
726 | ····················CheckDependentKeyPreconditions(pc, r, relObj, relClass); |
727 | ················} |
728 | |
729 | ················if (r.Composition || isDependent) |
730 | ················{ |
731 | ····················if (!isMerging || relObj.NDOObjectState == NDOObjectState.Transient) |
732 | ························MakePersistent(relObj); |
733 | ················} |
734 | |
735 | ················if(r.MappingTable == null) |
736 | ················{ |
737 | ····················if (r.Bidirectional) |
738 | ····················{ |
739 | ························// This object hasn't been saved yet, so the key is wrong. |
740 | ························// Therefore, the child must be written twice to update the foreign key. |
741 | #if trace |
742 | ························System.Text.StringBuilder sb = new System.Text.StringBuilder(); |
743 | ························if (r.Multiplicity == RelationMultiplicity.Element) |
744 | ····························sb.Append("1"); |
745 | ························else |
746 | ····························sb.Append("n"); |
747 | ························sb.Append(":"); |
748 | ························if (r.ForeignRelation.Multiplicity == RelationMultiplicity.Element) |
749 | ····························sb.Append("1"); |
750 | ························else |
751 | ····························sb.Append("n"); |
752 | ························sb.Append ("OwnCreatedOther"); |
753 | ························sb.Append(relObj.NDOObjectState.ToString()); |
754 | ························sb.Append(' '); |
755 | |
756 | ························sb.Append(types[0].ToString()); |
757 | ························sb.Append(' '); |
758 | ························sb.Append(types[1].ToString()); |
759 | ························Debug.WriteLine(sb.ToString()); |
760 | #endif |
761 | ························//························if (r.Multiplicity == RelationMultiplicity.Element |
762 | ························//····························&& r.ForeignRelation.Multiplicity == RelationMultiplicity.Element) |
763 | ························//························{ |
764 | ························// Element means: |
765 | ························// pc is keyholder |
766 | ························// -> relObj is saved first |
767 | ························// -> UpdateOrder(pc) > UpdateOrder(relObj) |
768 | ························// Both are Created - use type sort order |
769 | ························if (pc.NDOObjectState == NDOObjectState.Created && (relObj.NDOObjectState == NDOObjectState.Created || relObj.NDOObjectState == NDOObjectState.Transient) |
770 | ····························&& GetClass(pc).Oid.HasAutoincrementedColumn && GetClass(relObj).Oid.HasAutoincrementedColumn) |
771 | ························{ |
772 | ····························if (mappings.GetUpdateOrder(pc.GetType()) |
773 | ································< mappings.GetUpdateOrder(relObj.GetType())) |
774 | ································createdDirectObjects.Add(pc); |
775 | ····························else |
776 | ································createdDirectObjects.Add( relObj ); |
777 | ························} |
778 | ····················} |
779 | ····················if (r.Multiplicity == RelationMultiplicity.List) |
780 | ····················{ |
781 | ························CreateAddedObjectRow(pc, r, relObj, r.Composition); |
782 | ····················} |
783 | ················} |
784 | ················else |
785 | ················{ |
786 | ····················createdMappingTableObjects.Add(new MappingTableEntry(pc, relObj, r)); |
787 | ················} |
788 | ················if(r.Bidirectional) |
789 | ················{ |
790 | ····················if (r.Multiplicity == RelationMultiplicity.List && mappings.GetRelationField(relObj, r.ForeignRelation.FieldName) == null) |
791 | ····················{ |
792 | ························if ( r.ForeignRelation.Multiplicity == RelationMultiplicity.Element ) |
793 | ····························mappings.SetRelationField(relObj, r.ForeignRelation.FieldName, pc); |
794 | ····················} |
795 | ····················else if ( !addLock.IsLocked( pc ) ) |
796 | ····················{ |
797 | ························PatchForeignRelation( pc, r, relObj ); |
798 | ····················} |
799 | ················} |
800 | |
801 | ················this.relationChanges.Add( new RelationChangeRecord( pc, relObj, r.FieldName, true ) ); |
802 | ············} |
803 | ············finally |
804 | ············{ |
805 | ················addLock.Unlock(relObj); |
806 | ················//Debug.Unindent(); |
807 | ············} |
808 | ········} |
809 | |
810 | ········/// <summary> |
811 | ········/// Returns an integer value which determines the rank of the given type in the update order list. |
812 | ········/// </summary> |
813 | ········/// <param name="t">The type to determine the update order.</param> |
814 | ········/// <returns>An integer value determining the rank of the given type in the update order list.</returns> |
815 | ········/// <remarks> |
816 | ········/// This method is used by NDO for diagnostic purposes. There is no value in using this method in user code. |
817 | ········/// </remarks> |
818 | ········public int GetUpdateRank(Type t) |
819 | ········{ |
820 | ············return mappings.GetUpdateOrder(t); |
821 | ········} |
822 | |
823 | ········/// <summary> |
824 | ········/// Add a related object to the specified object. |
825 | ········/// </summary> |
826 | ········/// <param name="pc">the parent object</param> |
827 | ········/// <param name="r">the relation mapping info</param> |
828 | ········/// <param name="relObj">the related object that should be added</param> |
829 | ········protected virtual void AddRelatedObject(IPersistenceCapable pc, Relation r, IPersistenceCapable relObj) |
830 | ········{ |
831 | ············//············string idstr; |
832 | ············//············if (relObj.NDOObjectId == null) |
833 | ············//················idstr = relObj.GetType().ToString(); |
834 | ············//············else |
835 | ············//················idstr = relObj.NDOObjectId.Dump(); |
836 | ············//Debug.WriteLine("AddRelatedObject " + pc.NDOObjectId.Dump() + " " + idstr); |
837 | ············//Debug.Indent(); |
838 | |
839 | ············Class relClass = GetClass(relObj); |
840 | ············bool isDependent = relClass.Oid.IsDependent; |
841 | |
842 | ············// Do some checks to guarantee that the assignment is correct |
843 | ············if(r.Composition) |
844 | ············{ |
845 | ················if(relObj.NDOObjectState != NDOObjectState.Transient) |
846 | ················{ |
847 | ····················throw new NDOException(58, "Can only add transient objects in Composite relation " + pc.GetType().FullName + "->" + r.ReferencedTypeName + "."); |
848 | ················} |
849 | ············} |
850 | ············else |
851 | ············{ |
852 | ················if(relObj.NDOObjectState == NDOObjectState.Transient && !isDependent) |
853 | ················{ |
854 | ····················throw new NDOException(59, "Can only add persistent objects in Assoziation " + pc.GetType().FullName + "->" + r.ReferencedTypeName + "."); |
855 | ················} |
856 | ············} |
857 | |
858 | ············if(!r.ReferencedType.IsAssignableFrom(relObj.GetType())) |
859 | ············{ |
860 | ················throw new NDOException(60, "AddRelatedObject: Related object must be assignable to type: " + r.ReferencedTypeName + ". Assigned object was: " + relObj.NDOObjectId.Dump() + " Type = " + relObj.GetType()); |
861 | ············} |
862 | |
863 | ············InternalAddRelatedObject(pc, r, relObj, false); |
864 | |
865 | ········} |
866 | |
867 | ········private void CheckDependentKeyPreconditions(IPersistenceCapable pc, Relation r, IPersistenceCapable relObj, Class relClass) |
868 | ········{ |
869 | ············// Need to patch pc into the relation relObj->pc, because |
870 | ············// the oid is built on base of this information |
871 | ············// The second relation has to be set before adding relObj |
872 | ············// to the relation list. |
873 | ············PatchForeignRelation(pc, r, relObj); |
874 | ············IPersistenceCapable parent; |
875 | ············foreach (Relation oidRelation in relClass.Oid.Relations) |
876 | ············{ |
877 | ················parent = (IPersistenceCapable)mappings.GetRelationField(relObj, oidRelation.FieldName); |
878 | ················if (parent == null) |
879 | ····················throw new NDOException(41, "'" + relClass.FullName + "." + oidRelation.FieldName + "': One of the defining relations of a dependent class object is null - have a look at the documentation about how to initialize dependent class objects."); |
880 | ················if (parent.NDOObjectState == NDOObjectState.Transient) |
881 | ····················throw new NDOException(59, "Can only add persistent objects in Assoziation " + relClass.FullName + "." + oidRelation.FieldName + ". Make the object of type " + parent.GetType().FullName + " persistent."); |
882 | |
883 | ············} |
884 | ········} |
885 | |
886 | |
887 | ········/// <summary> |
888 | ········/// Remove a related object from the specified object. |
889 | ········/// </summary> |
890 | ········/// <param name="pc">the parent object</param> |
891 | ········/// <param name="fieldName">Field name of the relation</param> |
892 | ········/// <param name="relObj">the related object that should be removed</param> |
893 | ········internal virtual void RemoveRelatedObject(IPersistenceCapable pc, string fieldName, IPersistenceCapable relObj) |
894 | ········{ |
895 | ············Debug.Assert(pc.NDOObjectState != NDOObjectState.Transient); |
896 | ············Relation r = mappings.FindRelation(pc, fieldName); |
897 | ············InternalRemoveRelatedObject(pc, r, relObj, true); |
898 | ········} |
899 | |
900 | ········/// <summary> |
901 | ········/// Registers a listener which will be notified, if a new connection is opened. |
902 | ········/// </summary> |
903 | ········/// <param name="listener">Delegate of a listener function</param> |
904 | ········/// <remarks>The listener is called the first time a certain connection is used. A call to Save() resets the connection list so that the listener is called again.</remarks> |
905 | ········public virtual void RegisterConnectionListener(OpenConnectionListener listener) |
906 | ········{ |
907 | ············this.openConnectionListener = listener; |
908 | ········} |
909 | |
910 | ········internal string OnNewConnection(NDO.Mapping.Connection conn) |
911 | ········{ |
912 | ············if (openConnectionListener != null) |
913 | ················return openConnectionListener(conn); |
914 | ············return conn.Name; |
915 | ········} |
916 | |
917 | |
918 | ········/* |
919 | ········doCommit should be: |
920 | ········ |
921 | ····················Query····Save····Save(true) |
922 | ········Optimistic····1········1········0 |
923 | ········Pessimistic····0········1········0 |
924 | ············ |
925 | ········Deferred Mode············ |
926 | ····················Query····Save····Save(true) |
927 | ········Optimistic····0········1········0 |
928 | ········Pessimistic····0········1········0 |
929 | ········ */ |
930 | |
931 | ········internal void CheckEndTransaction(bool doCommit) |
932 | ········{ |
933 | ············if (doCommit) |
934 | ············{ |
935 | ················TransactionScope.Complete(); |
936 | ············} |
937 | ········} |
938 | |
939 | ········internal void CheckTransaction(IPersistenceHandlerBase handler, Type t) |
940 | ········{ |
941 | ············CheckTransaction(handler, this.GetClass(t).Connection); |
942 | ········} |
943 | |
944 | ········/// <summary> |
945 | ········/// Each and every database operation has to be preceded by a call to this function. |
946 | ········/// </summary> |
947 | ········internal void CheckTransaction( IPersistenceHandlerBase handler, Connection ndoConn ) |
948 | ········{ |
949 | ············TransactionScope.CheckTransaction(); |
950 | ············ |
951 | ············if (handler.Connection == null) |
952 | ············{ |
953 | ················handler.Connection = TransactionScope.GetConnection(ndoConn.ID, () => |
954 | ················{ |
955 | ····················IProvider p = ndoConn.Parent.GetProvider( ndoConn ); |
956 | ····················string connStr = this.OnNewConnection( ndoConn ); |
957 | ····················var connection = p.NewConnection( connStr ); |
958 | ····················if (connection == null) |
959 | ························throw new NDOException( 119, $"Can't construct connection for {connStr}. The provider returns null." ); |
960 | ····················LogIfVerbose( $"Creating a connection object for {ndoConn.DisplayName}" ); |
961 | ····················return connection; |
962 | ················} ); |
963 | ············} |
964 | |
965 | ············if (TransactionMode != TransactionMode.None) |
966 | ············{ |
967 | ················handler.Transaction = TransactionScope.GetTransaction( ndoConn.ID ); |
968 | ············} |
969 | |
970 | ············// During the tests, we work with a handler mock that always returns zero for the Connection property. |
971 | ············if (handler.Connection != null && handler.Connection.State != ConnectionState.Open) |
972 | ············{ |
973 | ················handler.Connection.Open(); |
974 | ················LogIfVerbose( $"Opening connection {ndoConn.DisplayName}" ); |
975 | ············} |
976 | ········} |
977 | |
978 | ········/// <summary> |
979 | ········/// Event Handler for the ConcurrencyError event of the IPersistenceHandler. |
980 | ········/// We try to tell the object which caused the concurrency exception, that a collicion occured. |
981 | ········/// This is possible if there is a listener for the CollisionEvent. |
982 | ········/// Else we throw an exception. |
983 | ········/// </summary> |
984 | ········/// <param name="ex">Concurrency Exception which was catched during update.</param> |
985 | ········private void OnConcurrencyError(System.Data.DBConcurrencyException ex) |
986 | ········{ |
987 | ············DataRow row = ex.Row; |
988 | ············if (row == null || CollisionEvent == null || CollisionEvent.GetInvocationList().Length == 0) |
989 | ················throw(ex); |
990 | ············if (row.RowState == DataRowState.Detached) |
991 | ················return; |
992 | ············foreach (Cache.Entry e in cache.LockedObjects) |
993 | ············{ |
994 | ················if (e.row == row) |
995 | ················{ |
996 | ····················CollisionEvent(e.pc); |
997 | ····················return; |
998 | ················} |
999 | ············} |
1000 | ············throw ex; |
1001 | ········} |
1002 | |
1003 | |
1004 | ········private void ReadObject(IPersistenceCapable pc, DataRow row, string[] fieldNames, int startIndex) |
1005 | ········{ |
1006 | ············Class cl = GetClass(pc); |
1007 | ············string[] etypes = cl.EmbeddedTypes.ToArray(); |
1008 | ············Dictionary<string,MemberInfo> persistentFields = null; |
1009 | ············if (etypes.Length > 0) |
1010 | ············{ |
1011 | ················FieldMap fm = new FieldMap(cl); |
1012 | ················persistentFields = fm.PersistentFields; |
1013 | ············} |
1014 | ············foreach(string s in etypes) |
1015 | ············{ |
1016 | ················try |
1017 | ················{ |
1018 | ····················NDO.Mapping.Field f = cl.FindField(s); |
1019 | ····················if (f == null) |
1020 | ························continue; |
1021 | ····················object o = row[f.Column.Name]; |
1022 | ····················string[] arr = s.Split('.'); |
1023 | ····················// Suche Embedded Type-Feld mit Namen arr[0] |
1024 | ····················BaseClassReflector bcr = new BaseClassReflector(pc.GetType()); |
1025 | ····················FieldInfo parentFi = bcr.GetField(arr[0], BindingFlags.NonPublic | BindingFlags.Instance); |
1026 | ····················// Hole das Embedded Object |
1027 | ····················object parentOb = parentFi.GetValue(pc); |
1028 | |
1029 | ····················if (parentOb == null) |
1030 | ························throw new Exception(String.Format("Can't read subfield {0} of type {1}, because the field {2} is null. Initialize the field {2} in your default constructor.", s, pc.GetType().FullName, arr[0])); |
1031 | |
1032 | ····················// Suche darin das Feld mit Namen Arr[1] |
1033 | |
1034 | ····················FieldInfo childFi = parentFi.FieldType.GetField(arr[1], BindingFlags.NonPublic | BindingFlags.Instance); |
1035 | ····················Type childType = childFi.FieldType; |
1036 | |
1037 | ····················// Don't initialize value types, if DBNull is stored in the field. |
1038 | ····················// Exception: DateTime and Guid. |
1039 | ····················if (o == DBNull.Value && childType.IsValueType |
1040 | ························&& childType != typeof(Guid) |
1041 | ························&& childType != typeof(DateTime)) |
1042 | ························continue; |
1043 | |
1044 | ····················if (childType == typeof(DateTime)) |
1045 | ····················{ |
1046 | ························if (o == DBNull.Value) |
1047 | ····························o = DateTime.MinValue; |
1048 | ····················} |
1049 | ····················if (childType.IsClass) |
1050 | ····················{ |
1051 | ························if (o == DBNull.Value) |
1052 | ····························o = null; |
1053 | ····················} |
1054 | |
1055 | ····················if (childType == typeof (Guid)) |
1056 | ····················{ |
1057 | ························if (o == DBNull.Value) |
1058 | ····························o = Guid.Empty; |
1059 | ························if (o is string) |
1060 | ························{ |
1061 | ····························childFi.SetValue(parentOb, new Guid((string)o)); |
1062 | ························} |
1063 | ························else if (o is Guid) |
1064 | ························{ |
1065 | ····························childFi.SetValue(parentOb, o); |
1066 | ························} |
1067 | ························else if (o is byte[]) |
1068 | ························{ |
1069 | ····························childFi.SetValue(parentOb, new Guid((byte[])o)); |
1070 | ························} |
1071 | ························else |
1072 | ····························throw new Exception(string.Format("Can't convert Guid field to column type {0}.", o.GetType().FullName)); |
1073 | ····················} |
1074 | ····················else if (childType.IsSubclassOf(typeof(System.Enum))) |
1075 | ····················{ |
1076 | ························object childOb = childFi.GetValue(parentOb); |
1077 | ························FieldInfo valueFi = childType.GetField("value__"); |
1078 | ························valueFi.SetValue(childOb, o); |
1079 | ························childFi.SetValue(parentOb, childOb); |
1080 | ····················} |
1081 | ····················else |
1082 | ····················{ |
1083 | ························childFi.SetValue(parentOb, o); |
1084 | ····················} |
1085 | ················} |
1086 | ················catch (Exception ex) |
1087 | ················{ |
1088 | ····················string msg = "Error while writing the embedded object {0} of an object of type {1}. Check your mapping file.\n{2}"; |
1089 | |
1090 | ····················throw new NDOException(68, string.Format(msg, s, pc.GetType().FullName, ex.Message)); |
1091 | ················} |
1092 | |
1093 | ············} |
1094 | ············ |
1095 | ············try |
1096 | ············{ |
1097 | ················if (cl.HasEncryptedFields) |
1098 | ················{ |
1099 | ····················foreach (var field in cl.Fields.Where( f => f.Encrypted )) |
1100 | ····················{ |
1101 | ························string name = field.Column.Name; |
1102 | ························string s = (string) row[name]; |
1103 | ························string es = AesHelper.Decrypt( s, EncryptionKey ); |
1104 | ························row[name] = es; |
1105 | ····················} |
1106 | ················} |
1107 | ················pc.NDORead(row, fieldNames, startIndex); |
1108 | ············} |
1109 | ············catch (Exception ex) |
1110 | ············{ |
1111 | ················throw new NDOException(69, "Error while writing to a field of an object of type " + pc.GetType().FullName + ". Check your mapping file.\n" |
1112 | ····················+ ex.Message); |
1113 | ············} |
1114 | ········} |
1115 | |
1116 | ········/// <summary> |
1117 | ········/// Executes a sql script to generate the database tables. |
1118 | ········/// The function will execute any sql statements in the script |
1119 | ········/// which are valid according to the |
1120 | ········/// rules of the underlying database. Result sets are ignored. |
1121 | ········/// </summary> |
1122 | ········/// <param name="scriptFile">The script file to execute.</param> |
1123 | ········/// <param name="conn">A connection object, containing the connection |
1124 | ········/// string to the database, which should be altered.</param> |
1125 | ········/// <returns>A string array with error messages or the string "OK" for each of the statements in the file.</returns> |
1126 | ········/// <remarks> |
1127 | ········/// If the Connection object is invalid or null, a NDOException with ErrorNumber 44 will be thrown. |
1128 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1129 | ········/// Their message property will appear in the result array. |
1130 | ········/// If the script doesn't exist, a NDOException with ErrorNumber 48 will be thrown. |
1131 | ········/// </remarks> |
1132 | ········public string[] BuildDatabase( string scriptFile, Connection conn ) |
1133 | ········{ |
1134 | ············return BuildDatabase( scriptFile, conn, Encoding.UTF8 ); |
1135 | ········} |
1136 | |
1137 | ········/// <summary> |
1138 | ········/// Executes a sql script to generate the database tables. |
1139 | ········/// The function will execute any sql statements in the script |
1140 | ········/// which are valid according to the |
1141 | ········/// rules of the underlying database. Result sets are ignored. |
1142 | ········/// </summary> |
1143 | ········/// <param name="scriptFile">The script file to execute.</param> |
1144 | ········/// <param name="conn">A connection object, containing the connection |
1145 | ········/// string to the database, which should be altered.</param> |
1146 | ········/// <param name="encoding">The encoding of the script file. Default is UTF8.</param> |
1147 | ········/// <returns>A string array with error messages or the string "OK" for each of the statements in the file.</returns> |
1148 | ········/// <remarks> |
1149 | ········/// If the Connection object is invalid or null, a NDOException with ErrorNumber 44 will be thrown. |
1150 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1151 | ········/// Their message property will appear in the result array. |
1152 | ········/// If the script doesn't exist, a NDOException with ErrorNumber 48 will be thrown. |
1153 | ········/// </remarks> |
1154 | ········public string[] BuildDatabase(string scriptFile, Connection conn, Encoding encoding) |
1155 | ········{ |
1156 | ············StreamReader sr = new StreamReader(scriptFile, encoding); |
1157 | ············string s = sr.ReadToEnd(); |
1158 | ············sr.Close(); |
1159 | ············string[] arr = s.Split(';'); |
1160 | ············string last = arr[arr.Length - 1]; |
1161 | ············bool lastInvalid = (last == null || last.Trim() == string.Empty); |
1162 | ············string[] result = new string[arr.Length - (lastInvalid ? 1 : 0)]; |
1163 | ············using (var handler = GetSqlPassThroughHandler()) |
1164 | ············{ |
1165 | ················int i = 0; |
1166 | ················string ok = "OK"; |
1167 | ················foreach (string statement in arr) |
1168 | ················{ |
1169 | ····················if (statement != null && statement.Trim() != string.Empty) |
1170 | ····················{ |
1171 | ························try |
1172 | ························{ |
1173 | ····························handler.Execute(statement); |
1174 | ····························result[i] = ok; |
1175 | ························} |
1176 | ························catch (Exception ex) |
1177 | ························{ |
1178 | ····························result[i] = ex.Message; |
1179 | ························} |
1180 | ····················} |
1181 | ····················i++; |
1182 | ················} |
1183 | ················CheckEndTransaction(true); |
1184 | ············} |
1185 | ············return result; |
1186 | ········} |
1187 | |
1188 | ········/// <summary> |
1189 | ········/// Executes a sql script to generate the database tables. |
1190 | ········/// The function will execute any sql statements in the script |
1191 | ········/// which are valid according to the |
1192 | ········/// rules of the underlying database. Result sets are ignored. |
1193 | ········/// </summary> |
1194 | ········/// <param name="scriptFile">The script file to execute.</param> |
1195 | ········/// <returns></returns> |
1196 | ········/// <remarks> |
1197 | ········/// This function takes the first Connection object in the Connections list |
1198 | ········/// of the Mapping file und executes the script using that connection. |
1199 | ········/// If no default connection exists, a NDOException with ErrorNumber 44 will be thrown. |
1200 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1201 | ········/// Their message property will appear in the result array. |
1202 | ········/// If the script file doesn't exist, a NDOException with ErrorNumber 48 will be thrown. |
1203 | ········/// </remarks> |
1204 | ········public string[] BuildDatabase(string scriptFile) |
1205 | ········{ |
1206 | ············if (!File.Exists(scriptFile)) |
1207 | ················throw new NDOException(48, "Script file " + scriptFile + " doesn't exist."); |
1208 | ············if (!this.mappings.Connections.Any()) |
1209 | ················throw new NDOException(48, "Mapping file doesn't define a connection."); |
1210 | ············Connection conn = new Connection( this.mappings ); |
1211 | ············Connection originalConnection = (Connection)this.mappings.Connections.First(); |
1212 | ············conn.Name = OnNewConnection( originalConnection ); |
1213 | ············conn.Type = originalConnection.Type; |
1214 | ············//Connection conn = (Connection) this.mappings.Connections[0]; |
1215 | ············return BuildDatabase(scriptFile, conn); |
1216 | ········} |
1217 | |
1218 | ········/// <summary> |
1219 | ········/// Executes a sql script to generate the database tables. |
1220 | ········/// The function will execute any sql statements in the script |
1221 | ········/// which are valid according to the |
1222 | ········/// rules of the underlying database. Result sets are ignored. |
1223 | ········/// </summary> |
1224 | ········/// <returns> |
1225 | ········/// A string array, containing the error messages produced by the statements |
1226 | ········/// contained in the script. |
1227 | ········/// </returns> |
1228 | ········/// <remarks> |
1229 | ········/// The sql script is assumed to be the executable name of the entry assembly with the |
1230 | ········/// extension .ndo.sql. Use BuildDatabase(string) to provide a path to a script. |
1231 | ········/// If the executable name can't be determined a NDOException with ErrorNumber 49 will be thrown. |
1232 | ········/// This function takes the first Connection object in the Connections list |
1233 | ········/// of the Mapping file und executes the script using that connection. |
1234 | ········/// If no default connection exists, a NDOException with ErrorNumber 44 will be thrown. |
1235 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1236 | ········/// Their message property will appear in the result array. |
1237 | ········/// If the script file doesn't exist, a NDOException with ErrorNumber 48 will be thrown. |
1238 | ········/// </remarks> |
1239 | ········public string[] BuildDatabase() |
1240 | ········{ |
1241 | ············Assembly ass = Assembly.GetEntryAssembly(); |
1242 | ············if (ass == null) |
1243 | ················throw new NDOException(49, "Can't determine the path of the entry assembly - please pass a sql script path as argument to BuildDatabase."); |
1244 | ············string file = Path.ChangeExtension(ass.Location, ".ndo.sql"); |
1245 | ············return BuildDatabase(file); |
1246 | ········} |
1247 | |
1248 | ········/// <summary> |
1249 | ········/// Gets a SqlPassThroughHandler object which can be used to execute raw Sql statements. |
1250 | ········/// </summary> |
1251 | ········/// <param name="conn">Optional: The NDO-Connection to the database to be used.</param> |
1252 | ········/// <returns>An ISqlPassThroughHandler implementation</returns> |
1253 | ········public ISqlPassThroughHandler GetSqlPassThroughHandler( Connection conn = null ) |
1254 | ········{ |
1255 | ············if (!this.mappings.Connections.Any()) |
1256 | ················throw new NDOException( 48, "Mapping file doesn't define a connection." ); |
1257 | ············if (conn == null) |
1258 | ············{ |
1259 | ················conn = new Connection( this.mappings ); |
1260 | ················Connection originalConnection = (Connection) this.mappings.Connections.First(); |
1261 | ················conn.Name = OnNewConnection( originalConnection ); |
1262 | ················conn.Type = originalConnection.Type; |
1263 | ············} |
1264 | |
1265 | ············return new SqlPassThroughHandler( this, conn ); |
1266 | ········} |
1267 | |
1268 | ········/// <summary> |
1269 | ········/// Gets a SqlPassThroughHandler object which can be used to execute raw Sql statements. |
1270 | ········/// </summary> |
1271 | ········/// <param name="predicate">A predicate defining which connection has to be used.</param> |
1272 | ········/// <returns>An ISqlPassThroughHandler implementation</returns> |
1273 | ········public ISqlPassThroughHandler GetSqlPassThroughHandler( Func<Connection, bool> predicate ) |
1274 | ········{ |
1275 | ············if (!this.mappings.Connections.Any()) |
1276 | ················throw new NDOException( 48, "The Mapping file doesn't define a connection." ); |
1277 | ············Connection conn = this.mappings.Connections.FirstOrDefault( predicate ); |
1278 | ············if (conn == null) |
1279 | ················throw new NDOException( 48, "The Mapping file doesn't define a connection with this predicate." ); |
1280 | ············return GetSqlPassThroughHandler( conn ); |
1281 | ········} |
1282 | |
1283 | ········/// <summary> |
1284 | ········/// Executes a xml script to generate the database tables. |
1285 | ········/// The function will generate and execute sql statements to perform |
1286 | ········/// the changes described by the xml. |
1287 | ········/// </summary> |
1288 | ········/// <returns></returns> |
1289 | ········/// <remarks> |
1290 | ········/// The script file is the first file found with the search string [AssemblyNameWithoutExtension].ndodiff.[SchemaVersion].xml. |
1291 | ········/// If several files match the search string biggest file name in the default sort order will be executed. |
1292 | ········/// This function takes the first Connection object in the Connections list |
1293 | ········/// of the Mapping file und executes the script using that connection. |
1294 | ········/// If no default connection exists, a NDOException with ErrorNumber 44 will be thrown. |
1295 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1296 | ········/// Their message property will appear in the result string array. |
1297 | ········/// If no script file exists, a NDOException with ErrorNumber 48 will be thrown. |
1298 | ········/// Note that an additional command is executed, which will update the NDOSchemaVersion entry. |
1299 | ········/// </remarks> |
1300 | ········public string[] PerformSchemaTransitions() |
1301 | ········{ |
1302 | ············Assembly ass = Assembly.GetEntryAssembly(); |
1303 | ············if (ass == null) |
1304 | ················throw new NDOException(49, "Can't determine the path of the entry assembly - please pass a sql script path as argument to PerformSchemaTransitions."); |
1305 | ············string mask = Path.GetFileNameWithoutExtension( ass.Location ) + ".ndodiff.*.xml"; |
1306 | ············List<string> fileNames = Directory.GetFiles( Path.GetDirectoryName( ass.Location ), mask ).ToList(); |
1307 | ············if (fileNames.Count == 0) |
1308 | ················return new String[] { String.Format( "No xml script file with a name like {0} found.", mask ) }; |
1309 | ············if (fileNames.Count > 1) |
1310 | ················fileNames.Sort( ( fn1, fn2 ) => CompareFileName( fn1, fn2 ) ); |
1311 | ············return PerformSchemaTransitions( fileNames[0] ); |
1312 | ········} |
1313 | |
1314 | |
1315 | ········/// <summary> |
1316 | ········/// Executes a xml script to generate the database tables. |
1317 | ········/// The function will generate and execute sql statements to perform |
1318 | ········/// the changes described by the xml. |
1319 | ········/// </summary> |
1320 | ········/// <param name="scriptFile">The script file to execute.</param> |
1321 | ········/// <returns></returns> |
1322 | ········/// <remarks> |
1323 | ········/// This function takes the first Connection object in the Connections list |
1324 | ········/// of the Mapping file und executes the script using that connection. |
1325 | ········/// If no default connection exists, a NDOException with ErrorNumber 44 will be thrown. |
1326 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1327 | ········/// Their message property will appear in the result string array. |
1328 | ········/// If the script file doesn't exist, a NDOException with ErrorNumber 48 will be thrown. |
1329 | ········/// Note that an additional command is executed, which will update the NDOSchemaVersion entry. |
1330 | ········/// </remarks> |
1331 | ········public string[] PerformSchemaTransitions(string scriptFile) |
1332 | ········{ |
1333 | ············if (!File.Exists(scriptFile)) |
1334 | ················throw new NDOException(48, "Script file " + scriptFile + " doesn't exist."); |
1335 | |
1336 | ············if (!this.mappings.Connections.Any()) |
1337 | ················throw new NDOException(48, "Mapping file doesn't define any connection."); |
1338 | ············Connection conn = new Connection( mappings ); |
1339 | ············Connection originalConnection = mappings.Connections.First(); |
1340 | ············conn.Name = OnNewConnection( originalConnection ); |
1341 | ············conn.Type = originalConnection.Type; |
1342 | ············return PerformSchemaTransitions(scriptFile, conn); |
1343 | ········} |
1344 | |
1345 | |
1346 | ········int CompareFileName( string fn1, string fn2) |
1347 | ········{ |
1348 | ············Regex regex = new Regex( @"ndodiff\.(.+)\.xml" ); |
1349 | ············Match match = regex.Match( fn1 ); |
1350 | ············string v1 = match.Groups[1].Value; |
1351 | ············match = regex.Match( fn2 ); |
1352 | ············string v2 = match.Groups[1].Value; |
1353 | ············return new Version( v2 ).CompareTo( new Version( v1 ) ); |
1354 | ········} |
1355 | |
1356 | ········string GetSchemaVersion(Connection ndoConn, string schemaName) |
1357 | ········{ |
1358 | ············IProvider provider = this.mappings.GetProvider( ndoConn ); |
1359 | ············string version = "0.0";··// Initial value |
1360 | ············var connection = provider.NewConnection( ndoConn.Name ); |
1361 | ············using (var handler = GetSqlPassThroughHandler()) |
1362 | ············{ |
1363 | ················string[] TableNames = provider.GetTableNames( connection ); |
1364 | ················if (TableNames.Any(t=>t=="NDOSchemaVersion")) |
1365 | ················{ |
1366 | ····················string sql = "SELECT Version from NDOSchemaVersion WHERE SchemaName "; |
1367 | ····················if (schemaName == null) |
1368 | ························sql += "IS NULL;"; |
1369 | ····················else |
1370 | ························sql += "LIKE '" + schemaName + "'"; |
1371 | ····················using(IDataReader dr = handler.Execute(sql, true)) |
1372 | ····················{ |
1373 | ························if (dr.Read()) |
1374 | ····························version = dr.GetString( 0 ); |
1375 | ····················} |
1376 | ················} |
1377 | ················else |
1378 | ················{ |
1379 | ····················SchemaTransitionGenerator schemaTransitionGenerator = new SchemaTransitionGenerator( NDOProviderFactory.Instance.Generators[ndoConn.Type], this.mappings ); |
1380 | ····················string transition = @"<NdoSchemaTransition> |
1381 | ····<CreateTable name=""NDOSchemaVersion""> |
1382 | ······<CreateColumn name=""SchemaName"" type=""System.String,mscorlib"" allowNull=""True"" /> |
1383 | ······<CreateColumn name=""Version"" type=""System.String,mscorlib"" size=""50"" /> |
1384 | ····</CreateTable> |
1385 | </NdoSchemaTransition>"; |
1386 | ····················XElement transitionElement = XElement.Parse(transition); |
1387 | |
1388 | ····················string sql = schemaTransitionGenerator.Generate( transitionElement ); |
1389 | ····················handler.Execute(sql); |
1390 | ····················sql = String.Format( "INSERT INTO NDOSchemaVersion([SchemaName],[Version]) VALUES({0},'0')", schemaName == null ? "NULL" : provider.GetSqlLiteral( schemaName ) ); |
1391 | ····················handler.Execute( sql ); |
1392 | ····················handler.CommitTransaction(); |
1393 | ················} |
1394 | ············} |
1395 | |
1396 | ············return version; |
1397 | ········} |
1398 | |
1399 | ········/// <summary> |
1400 | ········/// Executes a xml script to generate the database tables. |
1401 | ········/// The function will generate and execute sql statements to perform |
1402 | ········/// the changes described by the xml. |
1403 | ········/// </summary> |
1404 | ········/// <param name="scriptFile">The xml script file.</param> |
1405 | ········/// <param name="ndoConn">The connection to be used to perform the schema changes.</param> |
1406 | ········/// <returns>A list of strings about the states of the different schema change commands.</returns> |
1407 | ········/// <remarks>Note that an additional command is executed, which will update the NDOSchemaVersion entry.</remarks> |
1408 | ········public string[] PerformSchemaTransitions(string scriptFile, Connection ndoConn) |
1409 | ········{ |
1410 | ············string schemaName = null; |
1411 | ············// Gespeicherte Version ermitteln. |
1412 | ············XElement transitionElements = XElement.Load( scriptFile ); |
1413 | ············if (transitionElements.Attribute( "schemaName" ) != null) |
1414 | ················schemaName = transitionElements.Attribute( "schemaName" ).Value; |
1415 | ············Version version = new Version( GetSchemaVersion( ndoConn, schemaName ) ); |
1416 | ············SchemaTransitionGenerator schemaTransitionGenerator = new SchemaTransitionGenerator( NDOProviderFactory.Instance.Generators[ndoConn.Type], this.mappings ); |
1417 | ············MemoryStream ms = new MemoryStream(); |
1418 | ············StreamWriter sw = new StreamWriter(ms, System.Text.Encoding.UTF8); |
1419 | ············bool hasChanges = false; |
1420 | |
1421 | ············foreach (XElement transitionElement in transitionElements.Elements("NdoSchemaTransition").Where(e=>new Version(e.Attribute("schemaVersion").Value).CompareTo(version) > 0)) |
1422 | ············{ |
1423 | ················hasChanges = true; |
1424 | ················sw.Write( schemaTransitionGenerator.Generate( transitionElement ) ); |
1425 | ············} |
1426 | |
1427 | ············if (!hasChanges) |
1428 | ················return new string[] { }; |
1429 | |
1430 | ············sw.Write( "UPDATE NDOSchemaVersion SET Version = '" ); |
1431 | ············sw.Write( transitionElements.Attribute( "schemaVersion" ).Value ); |
1432 | ············sw.Write( "' WHERE SchemaName " ); |
1433 | ············if (schemaName == null) |
1434 | ················sw.WriteLine( "IS NULL;" ); |
1435 | ············else |
1436 | ················sw.WriteLine( "LIKE '" + schemaName + "'" );············ |
1437 | |
1438 | ············sw.Flush(); |
1439 | ············ms.Position = 0L; |
1440 | |
1441 | ············StreamReader sr = new StreamReader(ms, System.Text.Encoding.UTF8); |
1442 | ············string s = sr.ReadToEnd(); |
1443 | ············sr.Close(); |
1444 | |
1445 | ············return InternalPerformSchemaTransitions( ndoConn, s ); |
1446 | ········} |
1447 | |
1448 | ········private string[] InternalPerformSchemaTransitions( Connection ndoConn, string sql ) |
1449 | ········{ |
1450 | ············string[] arr = sql.Split( ';' ); |
1451 | ············string last = arr[arr.Length - 1]; |
1452 | ············bool lastInvalid = (last == null || last.Trim() == string.Empty); |
1453 | ············string[] result = new string[arr.Length - (lastInvalid ? 1 : 0)]; |
1454 | ············IProvider provider = this.mappings.GetProvider( ndoConn ); |
1455 | ············//TransactionInfo ti = transactionTable[conn]; |
1456 | ············//IDbConnection cn = ti.Connection; |
1457 | ············IDbConnection cn = provider.NewConnection( ndoConn.Name ); |
1458 | ············cn.Open(); |
1459 | ············IDbCommand cmd = provider.NewSqlCommand( cn ); |
1460 | ············int i = 0; |
1461 | ············string ok = "OK"; |
1462 | ············foreach (string statement in arr) |
1463 | ············{ |
1464 | ················if (statement != null && statement.Trim() != string.Empty) |
1465 | ················{ |
1466 | ····················try |
1467 | ····················{ |
1468 | ························cmd.CommandText = statement; |
1469 | ························cmd.ExecuteNonQuery(); |
1470 | ························result[i] = ok; |
1471 | ····················} |
1472 | ····················catch (Exception ex) |
1473 | ····················{ |
1474 | ························result[i] = ex.Message; |
1475 | ····················} |
1476 | ················} |
1477 | ················i++; |
1478 | ············} |
1479 | ············cn.Close(); |
1480 | ············return result; |
1481 | ········} |
1482 | ········ |
1483 | ········/// <summary> |
1484 | ········/// Transfers Data from the object to the DataRow |
1485 | ········/// </summary> |
1486 | ········/// <param name="pc"></param> |
1487 | ········/// <param name="row"></param> |
1488 | ········/// <param name="fieldNames"></param> |
1489 | ········/// <param name="startIndex"></param> |
1490 | ········protected virtual void WriteObject(IPersistenceCapable pc, DataRow row, string[] fieldNames, int startIndex) |
1491 | ········{ |
1492 | ············Class cl = GetClass( pc ); |
1493 | ············try |
1494 | ············{ |
1495 | ················pc.NDOWrite(row, fieldNames, startIndex); |
1496 | ················if (cl.HasEncryptedFields) |
1497 | ················{ |
1498 | ····················foreach (var field in cl.Fields.Where( f => f.Encrypted )) |
1499 | ····················{ |
1500 | ························string name = field.Column.Name; |
1501 | ························string s = (string) row[name]; |
1502 | ························string es = AesHelper.Encrypt( s, EncryptionKey ); |
1503 | ························row[name] = es; |
1504 | ····················} |
1505 | ················} |
1506 | ············} |
1507 | ············catch (Exception ex) |
1508 | ············{ |
1509 | ················throw new NDOException(70, "Error while reading a field of an object of type " + pc.GetType().FullName + ". Check your mapping file.\n" |
1510 | ····················+ ex.Message); |
1511 | ············} |
1512 | |
1513 | ············if (cl.TypeNameColumn != null) |
1514 | ············{ |
1515 | ················Type t = pc.GetType(); |
1516 | ················row[cl.TypeNameColumn.Name] = t.FullName + "," + t.Assembly.GetName().Name; |
1517 | ············} |
1518 | |
1519 | ············var etypes = cl.EmbeddedTypes; |
1520 | ············foreach(string s in etypes) |
1521 | ············{ |
1522 | ················try |
1523 | ················{ |
1524 | ····················NDO.Mapping.Field f = cl.FindField(s); |
1525 | ····················if (f == null) |
1526 | ························continue; |
1527 | ····················string[] arr = s.Split('.'); |
1528 | ····················// Suche Feld mit Namen arr[0] als object |
1529 | ····················BaseClassReflector bcr = new BaseClassReflector(pc.GetType()); |
1530 | ····················FieldInfo parentFi = bcr.GetField(arr[0], BindingFlags.NonPublic | BindingFlags.Instance); |
1531 | ····················Object parentOb = parentFi.GetValue(pc); |
1532 | ····················if (parentOb == null) |
1533 | ························throw new Exception(String.Format("The field {0} is null. Initialize the field in your default constructor.", arr[0])); |
1534 | ····················// Suche darin das Feld mit Namen Arr[1] |
1535 | ····················FieldInfo childFi = parentFi.FieldType.GetField(arr[1], BindingFlags.NonPublic | BindingFlags.Instance); |
1536 | ····················object o = childFi.GetValue(parentOb); |
1537 | ····················if (o == null |
1538 | ························|| o is DateTime && (DateTime) o == DateTime.MinValue |
1539 | ························|| o is Guid && (Guid) o == Guid.Empty) |
1540 | ························o = DBNull.Value; |
1541 | ····················row[f.Column.Name] = o; |
1542 | ················} |
1543 | ················catch (Exception ex) |
1544 | ················{ |
1545 | ····················string msg = "Error while reading the embedded object {0} of an object of type {1}. Check your mapping file.\n{2}"; |
1546 | |
1547 | ····················throw new NDOException(71, string.Format(msg, s, pc.GetType().FullName, ex.Message)); |
1548 | ················} |
1549 | ············} |
1550 | ········} |
1551 | |
1552 | ········/// <summary> |
1553 | ········/// Check, if the specific field is loaded. If not, LoadData will be called. |
1554 | ········/// </summary> |
1555 | ········/// <param name="o">The parent object.</param> |
1556 | ········/// <param name="fieldOrdinal">A number to identify the field.</param> |
1557 | ········public virtual void LoadField(object o, int fieldOrdinal) |
1558 | ········{ |
1559 | ············IPersistenceCapable pc = CheckPc(o); |
1560 | ············if (pc.NDOObjectState == NDOObjectState.Hollow) |
1561 | ············{ |
1562 | ················LoadState ls = pc.NDOLoadState; |
1563 | ················if (ls.FieldLoadState != null) |
1564 | ················{ |
1565 | ····················if (ls.FieldLoadState[fieldOrdinal]) |
1566 | ························return; |
1567 | ················} |
1568 | ················else |
1569 | ················{ |
1570 | ····················ls.FieldLoadState = new BitArray( GetClass( pc ).Fields.Count() ); |
1571 | ················} |
1572 | ················LoadData(o); |
1573 | ········} |
1574 | ········} |
1575 | |
1576 | #pragma warning disable 419 |
1577 | ········/// <summary> |
1578 | ········/// Load the data of a persistent object. This forces the transition of the object state from hollow to persistent. |
1579 | ········/// </summary> |
1580 | ········/// <param name="o">The hollow object.</param> |
1581 | ········/// <remarks>Note, that the relations won't be resolved with this function, with one Exception: 1:1 relations without mapping table will be resolved during LoadData. In all other cases, use <see cref="LoadRelation">LoadRelation</see>, to force resolving a relation.<seealso cref="NDOObjectState"/></remarks> |
1582 | #pragma warning restore 419 |
1583 | ········public virtual void LoadData( object o ) |
1584 | ········{ |
1585 | ············IPersistenceCapable pc = CheckPc(o); |
1586 | ············Debug.Assert(pc.NDOObjectState == NDOObjectState.Hollow, "Can only load hollow objects"); |
1587 | ············if (pc.NDOObjectState != NDOObjectState.Hollow) |
1588 | ················return; |
1589 | ············Class cl = GetClass(pc); |
1590 | ············IQuery q; |
1591 | ············q = CreateOidQuery(pc, cl); |
1592 | ············cache.UpdateCache(pc); // Make sure the object is in the cache |
1593 | |
1594 | ············var objects = q.Execute(); |
1595 | ············var count = objects.Count; |
1596 | |
1597 | ············if (count > 1) |
1598 | ············{ |
1599 | ················throw new NDOException( 72, "Load Data: " + count + " result objects with the same oid" ); |
1600 | ············} |
1601 | ············else if (count == 0) |
1602 | ············{ |
1603 | ················if (ObjectNotPresentEvent == null || !ObjectNotPresentEvent(pc)) |
1604 | ················throw new NDOException( 72, "LoadData: Object " + pc.NDOObjectId.Dump() + " is not present in the database." ); |
1605 | ············} |
1606 | ········} |
1607 | |
1608 | ········/// <summary> |
1609 | ········/// Creates a new IQuery object for the given type |
1610 | ········/// </summary> |
1611 | ········/// <param name="t"></param> |
1612 | ········/// <param name="oql"></param> |
1613 | ········/// <param name="hollow"></param> |
1614 | ········/// <param name="queryLanguage"></param> |
1615 | ········/// <returns></returns> |
1616 | ········public IQuery NewQuery(Type t, string oql, bool hollow = false, QueryLanguage queryLanguage = QueryLanguage.NDOql) |
1617 | ········{ |
1618 | ············Type template = typeof( NDOQuery<object> ).GetGenericTypeDefinition(); |
1619 | ············Type qt = template.MakeGenericType( t ); |
1620 | ············return (IQuery)Activator.CreateInstance( qt, this, oql, hollow, queryLanguage ); |
1621 | ········} |
1622 | |
1623 | ········private IQuery CreateOidQuery(IPersistenceCapable pc, Class cl) |
1624 | ········{ |
1625 | ············ArrayList parameters = new ArrayList(); |
1626 | ············string oql = "oid = {0}"; |
1627 | ············IQuery q = NewQuery(pc.GetType(), oql, false); |
1628 | ············q.Parameters.Add( pc.NDOObjectId ); |
1629 | ············q.AllowSubclasses = false; |
1630 | ············return q; |
1631 | ········} |
1632 | |
1633 | ········/// <summary> |
1634 | ········/// Mark the object dirty. The current state is |
1635 | ········/// saved in a DataRow, which is stored in the DS. This is done, to allow easy rollback later. Also, the |
1636 | ········/// object is locked in the cache. |
1637 | ········/// </summary> |
1638 | ········/// <param name="pc"></param> |
1639 | ········internal virtual void MarkDirty(IPersistenceCapable pc) |
1640 | ········{ |
1641 | ············if (pc.NDOObjectState != NDOObjectState.Persistent) |
1642 | ················return; |
1643 | ············SaveObjectState(pc); |
1644 | ············pc.NDOObjectState = NDOObjectState.PersistentDirty; |
1645 | ········} |
1646 | |
1647 | ········/// <summary> |
1648 | ········/// Mark the object dirty, but make sure first, that the object is loaded. |
1649 | ········/// The current or loaded state is saved in a DataRow, which is stored in the DS. |
1650 | ········/// This is done, to allow easy rollback later. Also, the |
1651 | ········/// object is locked in the cache. |
1652 | ········/// </summary> |
1653 | ········/// <param name="pc"></param> |
1654 | ········internal void LoadAndMarkDirty(IPersistenceCapable pc) |
1655 | ········{ |
1656 | ············Debug.Assert(pc.NDOObjectState != NDOObjectState.Transient, "Transient objects can't be marked as dirty."); |
1657 | |
1658 | ············if(pc.NDOObjectState == NDOObjectState.Deleted) |
1659 | ············{ |
1660 | ················throw new NDOException(73, "LoadAndMarkDirty: Access to deleted objects is not allowed."); |
1661 | ············} |
1662 | |
1663 | ············if (pc.NDOObjectState == NDOObjectState.Hollow) |
1664 | ················LoadData(pc); |
1665 | |
1666 | ············// state is either (Created), Persistent, PersistentDirty |
1667 | ············if(pc.NDOObjectState == NDOObjectState.Persistent) |
1668 | ············{ |
1669 | ················MarkDirty(pc); |
1670 | ············} |
1671 | ········} |
1672 | |
1673 | |
1674 | |
1675 | ········/// <summary> |
1676 | ········/// Save current object state in DS and lock the object in the cache. |
1677 | ········/// The saved state can be used later to retrieve the original object value if the |
1678 | ········/// current transaction is aborted. Also the state of all relations (not related objects) is stored. |
1679 | ········/// </summary> |
1680 | ········/// <param name="pc">The object that should be saved</param> |
1681 | ········/// <param name="isDeleting">Determines, if the object is about being deletet.</param> |
1682 | ········/// <remarks> |
1683 | ········/// In a data row there are the following things: |
1684 | ········/// Item································Responsible for writing |
1685 | ········/// State (own, inherited, embedded)····WriteObject |
1686 | ········/// TimeStamp····························NDOPersistenceHandler |
1687 | ········/// Oid····································WriteId |
1688 | ········/// Foreign Keys and their Type Codes····WriteForeignKeys |
1689 | ········/// </remarks> |
1690 | ········protected virtual void SaveObjectState(IPersistenceCapable pc, bool isDeleting = false) |
1691 | ········{ |
1692 | ············Debug.Assert(pc.NDOObjectState == NDOObjectState.Persistent, "Object must be unmodified and persistent but is " + pc.NDOObjectState); |
1693 | ············ |
1694 | ············DataTable table = GetTable(pc); |
1695 | ············DataRow row = table.NewRow(); |
1696 | ············Class cl = GetClass(pc); |
1697 | ············WriteObject(pc, row, cl.ColumnNames, 0); |
1698 | ············WriteIdToRow(pc, row); |
1699 | ············if (!isDeleting) |
1700 | ················WriteLostForeignKeysToRow(cl, pc, row); |
1701 | ············table.Rows.Add(row); |
1702 | ············row.AcceptChanges(); |
1703 | ············ |
1704 | ············var relations = CollectRelationStates(pc); |
1705 | ············cache.Lock(pc, row, relations); |
1706 | ········} |
1707 | |
1708 | ········private void SaveFakeRow(IPersistenceCapable pc) |
1709 | ········{ |
1710 | ············Debug.Assert(pc.NDOObjectState == NDOObjectState.Hollow, "Object must be hollow but is " + pc.NDOObjectState); |
1711 | ············ |
1712 | ············DataTable table = GetTable(pc); |
1713 | ············DataRow row = table.NewRow(); |
1714 | ············Class pcClass = GetClass(pc); |
1715 | ············row.SetColumnError(GetFakeRowOidColumnName(pcClass), hollowMarker); |
1716 | ············Class cl = GetClass(pc); |
1717 | ············//WriteObject(pc, row, cl.FieldNames, 0); |
1718 | ············WriteIdToRow(pc, row); |
1719 | ············table.Rows.Add(row); |
1720 | ············row.AcceptChanges(); |
1721 | ············ |
1722 | ············cache.Lock(pc, row, null); |
1723 | ········} |
1724 | |
1725 | ········/// <summary> |
1726 | ········/// This defines one column of the row, in which we use the |
1727 | ········/// ColumnError property to determine, if the row is a fake row. |
1728 | ········/// </summary> |
1729 | ········/// <param name="pcClass"></param> |
1730 | ········/// <returns></returns> |
1731 | ········private string GetFakeRowOidColumnName(Class pcClass) |
1732 | ········{ |
1733 | ············// In case of several OidColumns the first column defined in the mapping |
1734 | ············// will be the one, holding the fake row info. |
1735 | ············return ((OidColumn)pcClass.Oid.OidColumns[0]).Name; |
1736 | ········} |
1737 | |
1738 | ········private bool IsFakeRow(Class cl, DataRow row) |
1739 | ········{ |
1740 | ············return (row.GetColumnError(GetFakeRowOidColumnName(cl)) == hollowMarker); |
1741 | ········} |
1742 | |
1743 | ········/// <summary> |
1744 | ········/// Make a list of objects persistent. |
1745 | ········/// </summary> |
1746 | ········/// <param name="list">the list of IPersistenceCapable objects</param> |
1747 | ········public void MakePersistent(System.Collections.IList list) |
1748 | ········{ |
1749 | ············foreach (IPersistenceCapable pc in list) |
1750 | ············{ |
1751 | ················MakePersistent(pc); |
1752 | ············} |
1753 | ········} |
1754 | |
1755 | ········/// <summary> |
1756 | ········/// Save state of related objects in the cache. Only the list itself is duplicated and stored. The related objects are |
1757 | ········/// not duplicated. |
1758 | ········/// </summary> |
1759 | ········/// <param name="pc">the parent object of all relations</param> |
1760 | ········/// <returns></returns> |
1761 | ········protected internal virtual List<KeyValuePair<Relation,object>> CollectRelationStates(IPersistenceCapable pc) |
1762 | ········{ |
1763 | ············// Save state of relations |
1764 | ············Class c = GetClass(pc); |
1765 | ············List<KeyValuePair<Relation, object>> relations = new List<KeyValuePair<Relation, object>>( c.Relations.Count()); |
1766 | ············foreach(Relation r in c.Relations) |
1767 | ············{ |
1768 | ················if (r.Multiplicity == RelationMultiplicity.Element) |
1769 | ················{ |
1770 | ····················relations.Add( new KeyValuePair<Relation, object>( r, mappings.GetRelationField( pc, r.FieldName ) ) ); |
1771 | ················} |
1772 | ················else |
1773 | ················{ |
1774 | ····················IList l = mappings.GetRelationContainer(pc, r); |
1775 | ····················if(l != null) |
1776 | ····················{ |
1777 | ························l = (IList) ListCloner.CloneList(l); |
1778 | ····················} |
1779 | ····················relations.Add( new KeyValuePair<Relation, object>( r, l ) ); |
1780 | ················} |
1781 | ············} |
1782 | |
1783 | ············return relations; |
1784 | ········} |
1785 | |
1786 | |
1787 | ········/// <summary> |
1788 | ········/// Restore the saved relations.··Note that the objects are not restored as this is handled transparently |
1789 | ········/// by the normal persistence mechanism. Only the number and order of objects are restored, e.g. the state, |
1790 | ········/// the list had at the beginning of the transaction. |
1791 | ········/// </summary> |
1792 | ········/// <param name="pc"></param> |
1793 | ········/// <param name="relations"></param> |
1794 | ········private void RestoreRelatedObjects(IPersistenceCapable pc, List<KeyValuePair<Relation, object>> relations ) |
1795 | ········{ |
1796 | ············Class c = GetClass(pc); |
1797 | |
1798 | ············foreach(var entry in relations) |
1799 | ············{ |
1800 | ················var r = entry.Key; |
1801 | ················if (r.Multiplicity == RelationMultiplicity.Element) |
1802 | ················{ |
1803 | ····················mappings.SetRelationField(pc, r.FieldName, entry.Value); |
1804 | ················} |
1805 | ················else |
1806 | ················{ |
1807 | ····················if (pc.NDOGetLoadState(r.Ordinal)) |
1808 | ····················{ |
1809 | ························// Help GC by clearing lists |
1810 | ························IList l = mappings.GetRelationContainer(pc, r); |
1811 | ························if(l != null) |
1812 | ························{ |
1813 | ····························l.Clear(); |
1814 | ························} |
1815 | ························// Restore relation |
1816 | ························mappings.SetRelationContainer(pc, r, (IList)entry.Value); |
1817 | ····················} |
1818 | ················} |
1819 | ············} |
1820 | ········} |
1821 | |
1822 | |
1823 | ········/// <summary> |
1824 | ········/// Generates a query for related objects without mapping table. |
1825 | ········/// Note: this function can't be called in polymorphic scenarios, |
1826 | ········/// since they need a mapping table. |
1827 | ········/// </summary> |
1828 | ········/// <returns></returns> |
1829 | ········IList QueryRelatedObjects(IPersistenceCapable pc, Relation r, IList l, bool hollow) |
1830 | ········{ |
1831 | ············// At this point of execution we know, |
1832 | ············// that the target type is not polymorphic and is not 1:1. |
1833 | |
1834 | ············// We can't fetch these objects with an NDOql query |
1835 | ············// since this would require a relation in the opposite direction |
1836 | |
1837 | ············IList relatedObjects; |
1838 | ············if (l != null) |
1839 | ················relatedObjects = l; |
1840 | ············else |
1841 | ················relatedObjects = mappings.CreateRelationContainer( pc, r ); |
1842 | |
1843 | ············Type t = r.ReferencedType; |
1844 | ············Class cl = GetClass( t ); |
1845 | ············var provider = cl.Provider; |
1846 | |
1847 | ············StringBuilder sb = new StringBuilder("SELECT * FROM "); |
1848 | ············var relClass = GetClass( r.ReferencedType ); |
1849 | ············sb.Append( GetClass( r.ReferencedType ).GetQualifiedTableName() ); |
1850 | ············sb.Append( " WHERE " ); |
1851 | ············int i = 0; |
1852 | ············List<object> parameters = new List<object>(); |
1853 | ············new ForeignKeyIterator( r ).Iterate( delegate ( ForeignKeyColumn fkColumn, bool isLastElement ) |
1854 | ·············· { |
1855 | ·················· sb.Append( fkColumn.GetQualifiedName(relClass) ); |
1856 | ·················· sb.Append( " = {" ); |
1857 | ·················· sb.Append(i); |
1858 | ·················· sb.Append( '}' ); |
1859 | ·················· parameters.Add( pc.NDOObjectId.Id[i] ); |
1860 | ·················· if (!isLastElement) |
1861 | ······················ sb.Append( " AND " ); |
1862 | ·················· i++; |
1863 | ·············· } ); |
1864 | |
1865 | ············if (!(String.IsNullOrEmpty( r.ForeignKeyTypeColumnName ))) |
1866 | ············{ |
1867 | ················sb.Append( " AND " ); |
1868 | ················sb.Append( provider.GetQualifiedTableName( relClass.TableName + "." + r.ForeignKeyTypeColumnName ) ); |
1869 | ················sb.Append( " = " ); |
1870 | ················sb.Append( pc.NDOObjectId.Id.TypeId ); |
1871 | ············} |
1872 | |
1873 | ············IQuery q = NewQuery( t, sb.ToString(), hollow, Query.QueryLanguage.Sql ); |
1874 | |
1875 | ············foreach (var p in parameters) |
1876 | ············{ |
1877 | ················q.Parameters.Add( p ); |
1878 | ············} |
1879 | |
1880 | ············q.AllowSubclasses = false;··// Remember: polymorphic relations always have a mapping table |
1881 | |
1882 | ············IList l2 = q.Execute(); |
1883 | |
1884 | ············foreach (object o in l2) |
1885 | ················relatedObjects.Add( o ); |
1886 | |
1887 | ············return relatedObjects; |
1888 | ········} |
1889 | |
1890 | |
1891 | ········/// <summary> |
1892 | ········/// Resolves an relation. The loaded objects will be hollow. |
1893 | ········/// </summary> |
1894 | ········/// <param name="o">The parent object.</param> |
1895 | ········/// <param name="fieldName">The field name of the container or variable, which represents the relation.</param> |
1896 | ········/// <param name="hollow">True, if the fetched objects should be hollow.</param> |
1897 | ········/// <remarks>Note: 1:1 relations without mapping table will be resolved during the transition from the hollow to the persistent state. To force this transition, use the <see cref="LoadData">LoadData</see> function.<seealso cref="LoadData"/></remarks> |
1898 | ········public virtual void LoadRelation(object o, string fieldName, bool hollow) |
1899 | ········{ |
1900 | ············IPersistenceCapable pc = CheckPc(o); |
1901 | ············LoadRelationInternal(pc, fieldName, hollow); |
1902 | ········} |
1903 | |
1904 | ········ |
1905 | |
1906 | ········internal IList LoadRelation(IPersistenceCapable pc, Relation r, bool hollow) |
1907 | ········{ |
1908 | ············IList result = null; |
1909 | |
1910 | ············if (pc.NDOObjectState == NDOObjectState.Created) |
1911 | ················return null; |
1912 | |
1913 | ············if (pc.NDOObjectState == NDOObjectState.Hollow) |
1914 | ················LoadData(pc); |
1915 | |
1916 | ············if(r.MappingTable == null) |
1917 | ············{ |
1918 | ················// 1:1 are loaded with LoadData |
1919 | ················if (r.Multiplicity == RelationMultiplicity.List) |
1920 | ················{ |
1921 | ····················// Help GC by clearing lists |
1922 | ····················IList l = mappings.GetRelationContainer(pc, r); |
1923 | ····················if(l != null) |
1924 | ························l.Clear(); |
1925 | ····················IList relatedObjects = QueryRelatedObjects(pc, r, l, hollow); |
1926 | ····················mappings.SetRelationContainer(pc, r, relatedObjects); |
1927 | ····················result = relatedObjects; |
1928 | ················} |
1929 | ············} |
1930 | ············else |
1931 | ············{ |
1932 | ················DataTable dt = null; |
1933 | |
1934 | ················using (IMappingTableHandler handler = PersistenceHandlerManager.GetPersistenceHandler( pc ).GetMappingTableHandler( r )) |
1935 | ················{ |
1936 | ····················handler.VerboseMode = VerboseMode; |
1937 | ····················handler.LogAdapter = LogAdapter; |
1938 | ····················CheckTransaction( handler, r.MappingTable.Connection ); |
1939 | ····················dt = handler.FindRelatedObjects(pc.NDOObjectId, this.ds); |
1940 | ················} |
1941 | |
1942 | ················IList relatedObjects; |
1943 | ················if(r.Multiplicity == RelationMultiplicity.Element) |
1944 | ····················relatedObjects = GenericListReflector.CreateList(r.ReferencedType, dt.Rows.Count); |
1945 | ················else |
1946 | ················{ |
1947 | ····················relatedObjects = mappings.GetRelationContainer(pc, r); |
1948 | ····················if(relatedObjects != null) |
1949 | ························relatedObjects.Clear();··// Objects will be reread |
1950 | ····················else |
1951 | ························relatedObjects = mappings.CreateRelationContainer(pc, r); |
1952 | ················} |
1953 | ···················· |
1954 | ················foreach(DataRow objRow in dt.Rows) |
1955 | ················{ |
1956 | ····················Type relType; |
1957 | |
1958 | ····················if (r.MappingTable.ChildForeignKeyTypeColumnName != null)························ |
1959 | ····················{ |
1960 | ························object typeCodeObj = objRow[r.MappingTable.ChildForeignKeyTypeColumnName]; |
1961 | ························if (typeCodeObj is System.DBNull) |
1962 | ····························throw new NDOException( 75, String.Format( "Can't resolve subclass type code of type {0} in relation '{1}' - the type code in the data row is null.", r.ReferencedTypeName, r.ToString() ) ); |
1963 | ························relType = typeManager[(int)typeCodeObj]; |
1964 | ························if (relType == null) |
1965 | ····························throw new NDOException(75, String.Format("Can't resolve subclass type code {0} of type {1} - check, if your NDOTypes.xml exists.", objRow[r.MappingTable.ChildForeignKeyTypeColumnName], r.ReferencedTypeName)); |
1966 | ····················}························ |
1967 | ····················else |
1968 | ····················{ |
1969 | ························relType = r.ReferencedType; |
1970 | ····················} |
1971 | |
1972 | ····················//TODO: Generic Types: Exctract the type description from the type name column |
1973 | ····················if (relType.IsGenericTypeDefinition) |
1974 | ························throw new NotImplementedException("NDO doesn't support relations to generic types via mapping tables."); |
1975 | ····················ObjectId id = ObjectIdFactory.NewObjectId(relType, GetClass(relType), objRow, r.MappingTable, this.typeManager); |
1976 | ····················IPersistenceCapable relObj = FindObject(id); |
1977 | ····················relatedObjects.Add(relObj); |
1978 | ················}···· |
1979 | ················if (r.Multiplicity == RelationMultiplicity.Element) |
1980 | ················{ |
1981 | ····················Debug.Assert(relatedObjects.Count <= 1, "NDO retrieved more than one object for relation with cardinality 1"); |
1982 | ····················mappings.SetRelationField(pc, r.FieldName, relatedObjects.Count > 0 ? relatedObjects[0] : null); |
1983 | ················} |
1984 | ················else |
1985 | ················{ |
1986 | ····················mappings.SetRelationContainer(pc, r, relatedObjects); |
1987 | ····················result = relatedObjects; |
1988 | ················} |
1989 | ············} |
1990 | ············// Mark relation as loaded |
1991 | ············pc.NDOSetLoadState(r.Ordinal, true); |
1992 | ············return result; |
1993 | ········} |
1994 | |
1995 | ········/// <summary> |
1996 | ········/// Loads elements of a relation |
1997 | ········/// </summary> |
1998 | ········/// <param name="pc">The object which needs to load the relation</param> |
1999 | ········/// <param name="relationName">The name of the relation</param> |
2000 | ········/// <param name="hollow">Determines, if the related objects should be hollow.</param> |
2001 | ········internal IList LoadRelationInternal(IPersistenceCapable pc, string relationName, bool hollow) |
2002 | ········{ |
2003 | ············if (pc.NDOObjectState == NDOObjectState.Created) |
2004 | ················return null; |
2005 | ············Class cl = GetClass(pc); |
2006 | |
2007 | ············Relation r = cl.FindRelation(relationName); |
2008 | |
2009 | ············if ( r == null ) |
2010 | ················throw new NDOException( 76, String.Format( "Error while loading related objects: Can't find relation mapping for the field {0}.{1}. Check your mapping file.", pc.GetType().FullName, relationName ) ); |
2011 | |
2012 | ············if ( pc.NDOGetLoadState( r.Ordinal ) ) |
2013 | ················return null; |
2014 | |
2015 | ············return LoadRelation(pc, r, hollow); |
2016 | ········} |
2017 | |
2018 | ········/// <summary> |
2019 | ········/// Load the related objects of a parent object. The current value of the relation is replaced by the |
2020 | ········/// a list of objects that has been read from the DB. |
2021 | ········/// </summary> |
2022 | ········/// <param name="pc">The parent object of the relations</param> |
2023 | ········/// <param name="row">A data row containing the state of the object</param> |
2024 | ········private void LoadRelated1To1Objects(IPersistenceCapable pc, DataRow row) |
2025 | ········{ |
2026 | ············// Stripped down to only serve 1:1-Relations w/out mapping table |
2027 | ············Class cl = GetClass(pc); |
2028 | ············foreach(Relation r in cl.Relations) |
2029 | ············{ |
2030 | ················if(r.MappingTable == null) |
2031 | ················{ |
2032 | ····················if (r.Multiplicity == RelationMultiplicity.Element) |
2033 | ····················{ |
2034 | ························bool isNull = false; |
2035 | ························foreach (ForeignKeyColumn fkColumn in r.ForeignKeyColumns) |
2036 | ························{ |
2037 | ····························isNull = isNull || (row[fkColumn.Name] == DBNull.Value); |
2038 | ························} |
2039 | ························if (isNull) |
2040 | ························{ |
2041 | ····························mappings.SetRelationField(pc, r.FieldName, null); |
2042 | ························} |
2043 | ························else |
2044 | ························{ |
2045 | ····························Type relType; |
2046 | ····························if (r.HasSubclasses) |
2047 | ····························{ |
2048 | ································object o = row[r.ForeignKeyTypeColumnName]; |
2049 | ································if (o == DBNull.Value) |
2050 | ····································throw new NDOException(75, String.Format( |
2051 | ········································"Can't resolve subclass type code {0} of type {1} - type code value is DBNull.", |
2052 | ········································row[r.ForeignKeyTypeColumnName], r.ReferencedTypeName)); |
2053 | ································relType = typeManager[(int)o]; |
2054 | ····························} |
2055 | ····························else |
2056 | ····························{ |
2057 | ································relType = r.ReferencedType; |
2058 | ····························} |
2059 | ····························if (relType == null) |
2060 | ····························{ |
2061 | ································throw new NDOException(75, String.Format( |
2062 | ····································"Can't resolve subclass type code {0} of type {1} - check, if your NDOTypes.xml exists.", |
2063 | ····································row[r.ForeignKeyTypeColumnName], r.ReferencedTypeName)); |
2064 | ····························} |
2065 | ···· |
2066 | ····························int count = r.ForeignKeyColumns.Count(); |
2067 | ····························object[] keydata = new object[count]; |
2068 | ····························int i = 0; |
2069 | ····························foreach(ForeignKeyColumn fkColumn in r.ForeignKeyColumns) |
2070 | ····························{ |
2071 | ································keydata[i++] = row[fkColumn.Name]; |
2072 | ····························} |
2073 | |
2074 | ····························Type oidType = relType; |
2075 | ····························if (oidType.IsGenericTypeDefinition) |
2076 | ································oidType = mappings.GetRelationFieldType(r); |
2077 | |
2078 | ····························ObjectId childOid = ObjectIdFactory.NewObjectId(oidType, GetClass(relType), keydata, this.typeManager); |
2079 | ····························if(childOid.IsValid()) |
2080 | ································mappings.SetRelationField(pc, r.FieldName, FindObject(childOid)); |
2081 | ····························else |
2082 | ································mappings.SetRelationField(pc, r.FieldName, null); |
2083 | |
2084 | ························} |
2085 | ························pc.NDOSetLoadState(r.Ordinal, true); |
2086 | ····················} |
2087 | ················} |
2088 | ············} |
2089 | ········} |
2090 | |
2091 | ········ |
2092 | ········/// <summary> |
2093 | ········/// Creates a new ObjectId with the same Key value as a given ObjectId. |
2094 | ········/// </summary> |
2095 | ········/// <param name="oid">An ObjectId, which Key value will be used to build the new ObjectId.</param> |
2096 | ········/// <param name="t">The type of the object, the id will belong to.</param> |
2097 | ········/// <returns>An object of type ObjectId, or ObjectId.InvalidId</returns> |
2098 | ········/// <remarks>If the type t doesn't have a mapping in the mapping file an Exception of type NDOException is thrown.</remarks> |
2099 | ········public ObjectId NewObjectId(ObjectId oid, Type t) |
2100 | ········{ |
2101 | ············return new ObjectId(oid.Id, t); |
2102 | ········} |
2103 | |
2104 | ········/* |
2105 | ········/// <summary> |
2106 | ········/// Creates a new ObjectId which can be used to retrieve objects from the database. |
2107 | ········/// </summary> |
2108 | ········/// <param name="keyData">The id, which will be used to search for the object in the database</param> |
2109 | ········/// <param name="t">The type of the object.</param> |
2110 | ········/// <returns>An object of type ObjectId, or ObjectId.InvalidId</returns> |
2111 | ········/// <remarks>The keyData parameter must be one of the types Int32, String, Byte[] or Guid. If keyData is null or the type of keyData is invalid the function returns ObjectId.InvalidId. If the type t doesn't have a mapping in the mapping file, an Exception of type NDOException is thrown.</remarks> |
2112 | ········public ObjectId NewObjectId(object keyData, Type t) |
2113 | ········{ |
2114 | ············if (keyData == null || keyData == DBNull.Value) |
2115 | ················return ObjectId.InvalidId; |
2116 | |
2117 | ············Class cl =··GetClass(t);············ |
2118 | ············ |
2119 | ············if (cl.Oid.FieldType == typeof(int)) |
2120 | ················return new ObjectId(new Int32Key(t, (int)keyData)); |
2121 | ············else if (cl.Oid.FieldType == typeof(string)) |
2122 | ················return new ObjectId(new StringKey(t, (String) keyData)); |
2123 | ············else if (cl.Oid.FieldType == typeof(Guid)) |
2124 | ················if (keyData is string) |
2125 | ····················return new ObjectId(new GuidKey(t, new Guid((String) keyData))); |
2126 | ················else |
2127 | ····················return new ObjectId(new GuidKey(t, (Guid) keyData)); |
2128 | ············else if (cl.Oid.FieldType == typeof(MultiKey)) |
2129 | ················return new ObjectId(new MultiKey(t, (object[]) keyData)); |
2130 | ············else |
2131 | ················return ObjectId.InvalidId; |
2132 | ········} |
2133 | ········*/ |
2134 | |
2135 | |
2136 | ········/* |
2137 | ········ * ····················if (cl.Oid.FieldName != null && HasOwnerCreatedIds) |
2138 | ····················{ |
2139 | ························// The column, which hold the oid gets overwritten, if |
2140 | ························// Oid.FieldName contains a value. |
2141 | */ |
2142 | ········private void WriteIdFieldsToRow(IPersistenceCapable pc, DataRow row) |
2143 | ········{ |
2144 | ············Class cl = GetClass(pc); |
2145 | |
2146 | ············if (cl.Oid.IsDependent) |
2147 | ················return; |
2148 | |
2149 | ············Key key = pc.NDOObjectId.Id; |
2150 | |
2151 | ············for (int i = 0; i < cl.Oid.OidColumns.Count; i++) |
2152 | ············{ |
2153 | ················OidColumn oidColumn = (OidColumn)cl.Oid.OidColumns[i]; |
2154 | ················if (oidColumn.FieldName != null) |
2155 | ················{ |
2156 | ····················row[oidColumn.Name] = key[i]; |
2157 | ················} |
2158 | ············} |
2159 | ········} |
2160 | |
2161 | ········private void WriteIdToRow(IPersistenceCapable pc, DataRow row) |
2162 | ········{ |
2163 | ············NDO.Mapping.Class cl = GetClass(pc); |
2164 | ············ObjectId oid = pc.NDOObjectId; |
2165 | |
2166 | ············if (cl.TimeStampColumn != null) |
2167 | ················row[cl.TimeStampColumn] = pc.NDOTimeStamp; |
2168 | |
2169 | ············if (cl.Oid.IsDependent)··// Oid data is in relation columns |
2170 | ················return; |
2171 | |
2172 | ············Key key = oid.Id; |
2173 | |
2174 | ············for (int i = 0; i < cl.Oid.OidColumns.Count; i++) |
2175 | ············{ |
2176 | ················OidColumn oidColumn = (OidColumn)cl.Oid.OidColumns[i]; |
2177 | ················row[oidColumn.Name] = key[i]; |
2178 | ············} |
2179 | ········} |
2180 | |
2181 | ········private void ReadIdFromRow(IPersistenceCapable pc, DataRow row) |
2182 | ········{ |
2183 | ············ObjectId oid = pc.NDOObjectId; |
2184 | ············NDO.Mapping.Class cl = GetClass(pc); |
2185 | |
2186 | ············if (cl.Oid.IsDependent)··// Oid data is in relation columns |
2187 | ················return; |
2188 | |
2189 | ············Key key = oid.Id; |
2190 | |
2191 | ············for (int i = 0; i < cl.Oid.OidColumns.Count; i++) |
2192 | ············{ |
2193 | ················OidColumn oidColumn = (OidColumn)cl.Oid.OidColumns[i]; |
2194 | ················object o = row[oidColumn.Name]; |
2195 | ················if (!(o is Int32) && !(o is Guid) && !(o is String) && !(o is Int64)) |
2196 | ····················throw new NDOException(78, "ReadId: invalid Id Column type in " + oidColumn.Name + ": " + o.GetType().FullName); |
2197 | ················if (oidColumn.SystemType == typeof(Guid) && (o is String)) |
2198 | ····················key[i] = new Guid((string)o); |
2199 | ················else |
2200 | ····················key[i] = o; |
2201 | ············} |
2202 | |
2203 | ········} |
2204 | |
2205 | ········private void ReadId (Cache.Entry e) |
2206 | ········{ |
2207 | ············ReadIdFromRow(e.pc, e.row); |
2208 | ········} |
2209 | |
2210 | ········private void WriteObject(IPersistenceCapable pc, DataRow row, string[] fieldNames) |
2211 | ········{ |
2212 | ············WriteObject(pc, row, fieldNames, 0); |
2213 | ········} |
2214 | |
2215 | ········private void ReadTimeStamp(Class cl, IPersistenceCapable pc, DataRow row) |
2216 | ········{ |
2217 | ············if (cl.TimeStampColumn == null) |
2218 | ················return; |
2219 | ············object col = row[cl.TimeStampColumn]; |
2220 | ············if (col is String) |
2221 | ················pc.NDOTimeStamp = new Guid(col.ToString()); |
2222 | ············else |
2223 | ················pc.NDOTimeStamp = (Guid) col; |
2224 | ········} |
2225 | |
2226 | |
2227 | |
2228 | ········private void ReadTimeStamp(Cache.Entry e) |
2229 | ········{ |
2230 | ············IPersistenceCapable pc = e.pc; |
2231 | ············NDO.Mapping.Class cl = GetClass(pc); |
2232 | ············Debug.Assert(!IsFakeRow(cl, e.row)); |
2233 | ············if (cl.TimeStampColumn == null) |
2234 | ················return; |
2235 | ············if (e.row[cl.TimeStampColumn] is String) |
2236 | ················e.pc.NDOTimeStamp = new Guid(e.row[cl.TimeStampColumn].ToString()); |
2237 | ············else |
2238 | ················e.pc.NDOTimeStamp = (Guid) e.row[cl.TimeStampColumn]; |
2239 | ········} |
2240 | |
2241 | ········/// <summary> |
2242 | ········/// Determines, if any objects are new, changed or deleted. |
2243 | ········/// </summary> |
2244 | ········public virtual bool HasChanges |
2245 | ········{ |
2246 | ············get |
2247 | ············{ |
2248 | ················return cache.LockedObjects.Count > 0; |
2249 | ············} |
2250 | ········} |
2251 | |
2252 | ········/// <summary> |
2253 | ········/// Do the update for all rows in the ds. |
2254 | ········/// </summary> |
2255 | ········/// <param name="types">Types with changes.</param> |
2256 | ········/// <param name="delete">True, if delete operations are to be performed.</param> |
2257 | ········/// <remarks> |
2258 | ········/// Delete and Insert/Update operations are to be separated to maintain the type order. |
2259 | ········/// </remarks> |
2260 | ········private void UpdateTypes(IList types, bool delete) |
2261 | ········{ |
2262 | ············foreach(Type t in types) |
2263 | ············{ |
2264 | ················//Debug.WriteLine("Update Deleted Objects: "··+ t.Name); |
2265 | ················using (IPersistenceHandler handler = PersistenceHandlerManager.GetPersistenceHandler( t )) |
2266 | ················{ |
2267 | ····················handler.VerboseMode = VerboseMode; |
2268 | ····················handler.LogAdapter = LogAdapter; |
2269 | ····················CheckTransaction( handler, t ); |
2270 | ····················ConcurrencyErrorHandler ceh = new ConcurrencyErrorHandler(this.OnConcurrencyError); |
2271 | ····················handler.ConcurrencyError += ceh; |
2272 | ····················try |
2273 | ····················{ |
2274 | ························DataTable dt = GetTable(t); |
2275 | ························if (delete) |
2276 | ····························handler.UpdateDeletedObjects( dt ); |
2277 | ························else |
2278 | ····························handler.Update( dt ); |
2279 | ····················} |
2280 | ····················finally |
2281 | ····················{ |
2282 | ························handler.ConcurrencyError -= ceh; |
2283 | ····················} |
2284 | ················} |
2285 | ············} |
2286 | ········} |
2287 | |
2288 | ········internal void UpdateCreatedMappingTableEntries() |
2289 | ········{ |
2290 | ············foreach (MappingTableEntry e in createdMappingTableObjects) |
2291 | ············{ |
2292 | ················if (!e.DeleteEntry) |
2293 | ····················WriteMappingTableEntry(e); |
2294 | ············} |
2295 | ············// Now update all mapping tables |
2296 | ············foreach (IMappingTableHandler handler in mappingHandler.Values) |
2297 | ············{ |
2298 | ················handler.LogAdapter = this.LogAdapter; |
2299 | ················handler.VerboseMode = this.VerboseMode; |
2300 | ················CheckTransaction( handler, handler.Relation.MappingTable.Connection ); |
2301 | ················handler.Update(ds); |
2302 | ············} |
2303 | ········} |
2304 | |
2305 | ········internal void UpdateDeletedMappingTableEntries() |
2306 | ········{ |
2307 | ············foreach (MappingTableEntry e in createdMappingTableObjects) |
2308 | ············{ |
2309 | ················if (e.DeleteEntry) |
2310 | ····················WriteMappingTableEntry(e); |
2311 | ············} |
2312 | ············// Now update all mapping tables |
2313 | ············foreach (IMappingTableHandler handler in mappingHandler.Values) |
2314 | ············{ |
2315 | ················handler.LogAdapter = this.LogAdapter; |
2316 | ················handler.VerboseMode = this.VerboseMode; |
2317 | ················CheckTransaction( handler, handler.Relation.MappingTable.Connection ); |
2318 | ················handler.Update(ds); |
2319 | ············} |
2320 | ········} |
2321 | |
2322 | ········/// <summary> |
2323 | ········/// Save all changed object into the DataSet and update the DB. |
2324 | ········/// When a newly created object is written to DB, the key might change. Therefore, |
2325 | ········/// the id is updated and the object is removed and re-inserted into the cache. |
2326 | ········/// </summary> |
2327 | ········public virtual void Save(bool deferCommit = false) |
2328 | ········{ |
2329 | ············this.DeferredMode = deferCommit; |
2330 | ············var htOnSaving = new HashSet<ObjectId>(); |
2331 | ············for(;;) |
2332 | ············{ |
2333 | ················// We need to work on a copy of the locked objects list, |
2334 | ················// since the handlers might add more objects to the cache |
2335 | ················var lockedObjects = cache.LockedObjects.ToList(); |
2336 | ················int count = lockedObjects.Count; |
2337 | ················foreach(Cache.Entry e in lockedObjects) |
2338 | ················{ |
2339 | ····················if (e.pc.NDOObjectState != NDOObjectState.Deleted) |
2340 | ····················{ |
2341 | ························IPersistenceNotifiable ipn = e.pc as IPersistenceNotifiable; |
2342 | ························if (ipn != null) |
2343 | ························{ |
2344 | ····························if (!htOnSaving.Contains(e.pc.NDOObjectId)) |
2345 | ····························{ |
2346 | ································ipn.OnSaving(); |
2347 | ································htOnSaving.Add(e.pc.NDOObjectId); |
2348 | ····························} |
2349 | ························} |
2350 | ····················} |
2351 | ················} |
2352 | ················// The system is stable, if the count doesn't change |
2353 | ················if (cache.LockedObjects.Count == count) |
2354 | ····················break; |
2355 | ············} |
2356 | |
2357 | ············if (this.OnSavingEvent != null) |
2358 | ············{ |
2359 | ················IList onSavingObjects = new ArrayList(cache.LockedObjects.Count); |
2360 | ················foreach(Cache.Entry e in cache.LockedObjects) |
2361 | ····················onSavingObjects.Add(e.pc); |
2362 | ················OnSavingEvent(onSavingObjects); |
2363 | ············} |
2364 | |
2365 | ············List<Type> types = new List<Type>(); |
2366 | ············List<IPersistenceCapable> deletedObjects = new List<IPersistenceCapable>(); |
2367 | ············List<IPersistenceCapable> hollowModeObjects = hollowMode ? new List<IPersistenceCapable>() : null; |
2368 | ············List<IPersistenceCapable> changedObjects = new List<IPersistenceCapable>(); |
2369 | ············List<IPersistenceCapable> addedObjects = new List<IPersistenceCapable>(); |
2370 | ············List<Cache.Entry> addedCacheEntries = new List<Cache.Entry>(); |
2371 | |
2372 | ············// Save current state in DataSet |
2373 | ············foreach (Cache.Entry e in cache.LockedObjects) |
2374 | ············{ |
2375 | ················Type objType = e.pc.GetType(); |
2376 | |
2377 | ················if (objType.IsGenericType && !objType.IsGenericTypeDefinition) |
2378 | ····················objType = objType.GetGenericTypeDefinition(); |
2379 | |
2380 | ················Class cl = GetClass(e.pc); |
2381 | ················//Debug.WriteLine("Saving: " + objType.Name + " id = " + e.pc.NDOObjectId.Dump()); |
2382 | ················if(!types.Contains(objType)) |
2383 | ················{ |
2384 | ····················//Debug.WriteLine("Added··type " + objType.Name); |
2385 | ····················types.Add(objType); |
2386 | ················} |
2387 | ················NDOObjectState objectState = e.pc.NDOObjectState; |
2388 | ················if(objectState == NDOObjectState.Deleted) |
2389 | ················{ |
2390 | ····················deletedObjects.Add(e.pc); |
2391 | ················} |
2392 | ················else if(objectState == NDOObjectState.Created) |
2393 | ················{ |
2394 | ····················WriteObject(e.pc, e.row, cl.ColumnNames);···················· |
2395 | ····················WriteIdFieldsToRow(e.pc, e.row);··// If fields are mapped to Oid, write them into the row |
2396 | ····················WriteForeignKeysToRow(e.pc, e.row); |
2397 | ····················//····················Debug.WriteLine(e.pc.GetType().FullName); |
2398 | ····················//····················DataRow[] rows = new DataRow[cache.LockedObjects.Count]; |
2399 | ····················//····················i = 0; |
2400 | ····················//····················foreach(Cache.Entry e2 in cache.LockedObjects) |
2401 | ····················//····················{ |
2402 | ····················//························rows[i++] = e2.row; |
2403 | ····················//····················} |
2404 | ····················//····················System.Data.SqlClient.SqlCommand cmd = new System.Data.SqlClient.SqlCommand("testCommand"); |
2405 | ····················//····················new SqlDumper(new DebugLogAdapter(), NDOProviderFactory.Instance["Sql"], cmd, cmd, cmd, cmd).Dump(rows); |
2406 | |
2407 | ····················addedCacheEntries.Add(e); |
2408 | ····················addedObjects.Add( e.pc ); |
2409 | ····················//····················objectState = NDOObjectState.Persistent; |
2410 | ················} |
2411 | ················else |
2412 | ················{ |
2413 | ····················if (e.pc.NDOObjectState == NDOObjectState.PersistentDirty) |
2414 | ························changedObjects.Add( e.pc ); |
2415 | ····················WriteObject(e.pc, e.row, cl.ColumnNames); |
2416 | ····················WriteForeignKeysToRow(e.pc, e.row); ···················· |
2417 | ················} |
2418 | ················if(hollowMode && (objectState == NDOObjectState.Persistent || objectState == NDOObjectState.Created || objectState == NDOObjectState.PersistentDirty) ) |
2419 | ················{ |
2420 | ····················hollowModeObjects.Add(e.pc); |
2421 | ················} |
2422 | ············} |
2423 | |
2424 | ············// Before we delete any db rows, we have to make sure, to delete mapping |
2425 | ············// table entries first, which might have relations to the db rows to be deleted |
2426 | ············UpdateDeletedMappingTableEntries(); |
2427 | |
2428 | ············// Update DB |
2429 | ············if (ds.HasChanges()) |
2430 | ············{ |
2431 | |
2432 | ················// We need the reversed update order for deletions. |
2433 | ················types.Sort( ( t1, t2 ) => |
2434 | ················{ |
2435 | ····················int i1 = mappings.GetUpdateOrder( t1 ); |
2436 | ····················int i2 = mappings.GetUpdateOrder( t2 ); |
2437 | ····················if (i1 < i2) |
2438 | ····················{ |
2439 | ························if (!addedObjects.Any( pc => pc.GetType() == t1 )) |
2440 | ····························i1 += 100000; |
2441 | ····················} |
2442 | ····················else |
2443 | ····················{ |
2444 | ························if (!addedObjects.Any( pc => pc.GetType() == t2 )) |
2445 | ····························i2 += 100000; |
2446 | ····················} |
2447 | ····················return i2 - i1; |
2448 | ················} ); |
2449 | |
2450 | ················// Delete records first |
2451 | |
2452 | ················UpdateTypes(types, true); |
2453 | |
2454 | ················// Now do all other updates in correct order. |
2455 | ················types.Reverse(); |
2456 | |
2457 | ················UpdateTypes(types, false); |
2458 | ················ |
2459 | ················ds.AcceptChanges(); |
2460 | ················if(createdDirectObjects.Count > 0) |
2461 | ················{ |
2462 | ····················// Rewrite all children that have foreign keys to parents which have just been saved now. |
2463 | ····················// They must be written again to store the correct foreign keys. |
2464 | ····················foreach(IPersistenceCapable pc in createdDirectObjects) |
2465 | ····················{ |
2466 | ························Class cl = GetClass(pc); |
2467 | ························DataRow r = this.cache.GetDataRow(pc); |
2468 | ························string fakeColumnName = GetFakeRowOidColumnName(cl); |
2469 | ························object o = r[fakeColumnName]; |
2470 | ························r[fakeColumnName] = o; |
2471 | ····················} |
2472 | |
2473 | ····················UpdateTypes(types, false); |
2474 | ················} |
2475 | |
2476 | ················// Because object id might have changed during DB insertion, re-register newly created objects in the cache. |
2477 | ················foreach(Cache.Entry e in addedCacheEntries) |
2478 | ················{ |
2479 | ····················cache.DeregisterLockedObject(e.pc); |
2480 | ····················ReadId(e); |
2481 | ····················cache.RegisterLockedObject(e.pc, e.row, e.relations); |
2482 | ················} |
2483 | |
2484 | ················// Now update all mapping tables. Because of possible subclasses, there is no |
2485 | ················// relation between keys in the dataset schema. Therefore, we can update mapping |
2486 | ················// tables only after all other objects have been written to ensure correct foreign keys. |
2487 | ················UpdateCreatedMappingTableEntries(); |
2488 | |
2489 | ················// The rows may contain now new Ids, which should be |
2490 | ················// stored in the lostRowInfo's before the rows get detached |
2491 | ················foreach(Cache.Entry e in cache.LockedObjects) |
2492 | ················{ |
2493 | ····················if (e.row.RowState != DataRowState.Detached) |
2494 | ····················{ |
2495 | ························IPersistenceCapable pc = e.pc; |
2496 | ························ReadLostForeignKeysFromRow(GetClass(pc), pc, e.row); |
2497 | ····················} |
2498 | ················} |
2499 | |
2500 | ················ds.AcceptChanges(); |
2501 | ············} |
2502 | |
2503 | ············EndSave(!deferCommit); |
2504 | |
2505 | ············foreach(IPersistenceCapable pc in deletedObjects) |
2506 | ············{ |
2507 | ················MakeObjectTransient(pc, false); |
2508 | ············} |
2509 | |
2510 | ············ds.Clear(); |
2511 | ············mappingHandler.Clear(); |
2512 | ············createdDirectObjects.Clear(); |
2513 | ············createdMappingTableObjects.Clear(); |
2514 | ············this.relationChanges.Clear(); |
2515 | |
2516 | ············if(hollowMode) |
2517 | ············{ |
2518 | ················MakeHollow(hollowModeObjects); |
2519 | ············} |
2520 | |
2521 | ············if (this.OnSavedEvent != null) |
2522 | ············{ |
2523 | ················AuditSet auditSet = new AuditSet() |
2524 | ················{ |
2525 | ····················ChangedObjects = changedObjects, |
2526 | ····················CreatedObjects = addedObjects, |
2527 | ····················DeletedObjects = deletedObjects |
2528 | ················}; |
2529 | ················this.OnSavedEvent( auditSet ); |
2530 | ············} |
2531 | ········} |
2532 | |
2533 | ········private void EndSave(bool forceCommit) |
2534 | ········{ |
2535 | ············foreach(Cache.Entry e in cache.LockedObjects) |
2536 | ············{ |
2537 | ················if (e.pc.NDOObjectState == NDOObjectState.Created || e.pc.NDOObjectState == NDOObjectState.PersistentDirty) |
2538 | ····················this.ReadTimeStamp(e); |
2539 | ················e.pc.NDOObjectState = NDOObjectState.Persistent; |
2540 | ············} |
2541 | |
2542 | ············cache.UnlockAll(); |
2543 | |
2544 | ············CheckEndTransaction(forceCommit); |
2545 | ········} |
2546 | |
2547 | ········/// <summary> |
2548 | ········/// Write all foreign keys for 1:1-relations. |
2549 | ········/// </summary> |
2550 | ········/// <param name="pc">The persistent object.</param> |
2551 | ········/// <param name="pcRow">The DataRow of the pesistent object.</param> |
2552 | ········private void WriteForeignKeysToRow(IPersistenceCapable pc, DataRow pcRow) |
2553 | ········{ |
2554 | ············foreach(Relation r in mappings.Get1to1Relations(pc.GetType())) |
2555 | ············{ |
2556 | ················IPersistenceCapable relObj = (IPersistenceCapable)mappings.GetRelationField(pc, r.FieldName); |
2557 | ················bool isDependent = GetClass(pc).Oid.IsDependent; |
2558 | |
2559 | ················if ( relObj != null ) |
2560 | ················{ |
2561 | ····················int i = 0; |
2562 | ····················foreach ( ForeignKeyColumn fkColumn in r.ForeignKeyColumns ) |
2563 | ····················{ |
2564 | ························pcRow[fkColumn.Name] = relObj.NDOObjectId.Id[i++]; |
2565 | ····················} |
2566 | ····················if ( r.ForeignKeyTypeColumnName != null ) |
2567 | ····················{ |
2568 | ························pcRow[r.ForeignKeyTypeColumnName] = relObj.NDOObjectId.Id.TypeId; |
2569 | ····················} |
2570 | ················} |
2571 | ················else |
2572 | ················{ |
2573 | ····················foreach ( ForeignKeyColumn fkColumn in r.ForeignKeyColumns ) |
2574 | ····················{ |
2575 | ························pcRow[fkColumn.Name] = DBNull.Value; |
2576 | ····················} |
2577 | ····················if ( r.ForeignKeyTypeColumnName != null ) |
2578 | ····················{ |
2579 | ························pcRow[r.ForeignKeyTypeColumnName] = DBNull.Value; |
2580 | ····················} |
2581 | ················} |
2582 | ············} |
2583 | ········} |
2584 | |
2585 | |
2586 | |
2587 | ········/// <summary> |
2588 | ········/// Write a mapping table entry to it's corresponding table. This is a pair of foreign keys. |
2589 | ········/// </summary> |
2590 | ········/// <param name="e">the mapping table entry</param> |
2591 | ········private void WriteMappingTableEntry(MappingTableEntry e) |
2592 | ········{ |
2593 | ············IPersistenceCapable pc = e.ParentObject; |
2594 | ············IPersistenceCapable relObj = e.RelatedObject; |
2595 | ············Relation r = e.Relation; |
2596 | ············DataTable dt = GetTable(r.MappingTable.TableName); |
2597 | ············DataRow row = dt.NewRow(); |
2598 | ············int i = 0; |
2599 | ············foreach (ForeignKeyColumn fkColumn in r.ForeignKeyColumns ) |
2600 | ············{ |
2601 | ················row[fkColumn.Name] = pc.NDOObjectId.Id[i++]; |
2602 | ············} |
2603 | ············i = 0; |
2604 | ············foreach (ForeignKeyColumn fkColumn in r.MappingTable.ChildForeignKeyColumns) |
2605 | ············{ |
2606 | ················row[fkColumn.Name] = relObj.NDOObjectId.Id[i++]; |
2607 | ············} |
2608 | |
2609 | ············if (r.ForeignKeyTypeColumnName != null) |
2610 | ················row[r.ForeignKeyTypeColumnName] = pc.NDOObjectId.Id.TypeId; |
2611 | ············if (r.MappingTable.ChildForeignKeyTypeColumnName != null) |
2612 | ················row[r.MappingTable.ChildForeignKeyTypeColumnName] = relObj.NDOObjectId.Id.TypeId; |
2613 | |
2614 | ············dt.Rows.Add(row); |
2615 | ············if(e.DeleteEntry) |
2616 | ············{ |
2617 | ················row.AcceptChanges(); |
2618 | ················row.Delete(); |
2619 | ············} |
2620 | |
2621 | ············IMappingTableHandler handler; |
2622 | ············if (!mappingHandler.TryGetValue( r, out handler )) |
2623 | ············{ |
2624 | ················mappingHandler[r] = handler = PersistenceHandlerManager.GetPersistenceHandler( pc ).GetMappingTableHandler( r ); |
2625 | ············} |
2626 | ········} |
2627 | |
2628 | |
2629 | ········/// <summary> |
2630 | ········/// Undo changes of a certain object |
2631 | ········/// </summary> |
2632 | ········/// <param name="o">Object to undo</param> |
2633 | ········public void Restore(object o) |
2634 | ········{············ |
2635 | ············IPersistenceCapable pc = CheckPc(o); |
2636 | ············Cache.Entry e = null; |
2637 | ············foreach (Cache.Entry entry in cache.LockedObjects) |
2638 | ············{ |
2639 | ················if (entry.pc == pc) |
2640 | ················{ |
2641 | ····················e = entry; |
2642 | ····················break; |
2643 | ················} |
2644 | ············} |
2645 | ············if (e == null) |
2646 | ················return; |
2647 | ············Class cl = GetClass(e.pc); |
2648 | ············switch (pc.NDOObjectState) |
2649 | ············{ |
2650 | ················case NDOObjectState.PersistentDirty: |
2651 | ····················ObjectListManipulator.Remove(createdDirectObjects, pc); |
2652 | ····················foreach(Relation r in cl.Relations) |
2653 | ····················{ |
2654 | ························if (r.Multiplicity == RelationMultiplicity.Element) |
2655 | ························{ |
2656 | ····························IPersistenceCapable subPc = (IPersistenceCapable) mappings.GetRelationField(pc, r.FieldName); |
2657 | ····························if (subPc != null && cache.IsLocked(subPc)) |
2658 | ································Restore(subPc); |
2659 | ························} |
2660 | ························else |
2661 | ························{ |
2662 | ····························if (!pc.NDOGetLoadState(r.Ordinal)) |
2663 | ································continue; |
2664 | ····························IList subList = (IList) mappings.GetRelationContainer(pc, r); |
2665 | ····························if (subList != null) |
2666 | ····························{ |
2667 | ································foreach(IPersistenceCapable subPc2 in subList) |
2668 | ································{ |
2669 | ····································if (cache.IsLocked(subPc2)) |
2670 | ········································Restore(subPc2); |
2671 | ································} |
2672 | ····························} |
2673 | ························} |
2674 | ····················} |
2675 | ····················RestoreRelatedObjects(pc, e.relations); |
2676 | ····················e.row.RejectChanges(); |
2677 | ····················ReadObject(pc, e.row, cl.ColumnNames, 0); |
2678 | ····················cache.Unlock(pc); |
2679 | ····················pc.NDOObjectState = NDOObjectState.Persistent; |
2680 | ····················break; |
2681 | ················case NDOObjectState.Created: |
2682 | ····················ReadObject(pc, e.row, cl.ColumnNames, 0); |
2683 | ····················cache.Unlock(pc); |
2684 | ····················MakeObjectTransient(pc, true); |
2685 | ····················break; |
2686 | ················case NDOObjectState.Deleted: |
2687 | ····················if (!this.IsFakeRow(cl, e.row)) |
2688 | ····················{ |
2689 | ························e.row.RejectChanges(); |
2690 | ························ReadObject(e.pc, e.row, cl.ColumnNames, 0); |
2691 | ························e.pc.NDOObjectState = NDOObjectState.Persistent; |
2692 | ····················} |
2693 | ····················else |
2694 | ····················{ |
2695 | ························e.row.RejectChanges(); |
2696 | ························e.pc.NDOObjectState = NDOObjectState.Hollow; |
2697 | ····················} |
2698 | ····················cache.Unlock(pc); |
2699 | ····················break; |
2700 | |
2701 | ············} |
2702 | ········} |
2703 | |
2704 | ········/// <summary> |
2705 | ········/// Aborts a pending transaction without restoring the object state. |
2706 | ········/// </summary> |
2707 | ········/// <remarks>Supports both local and EnterpriseService Transactions.</remarks> |
2708 | ········public virtual void AbortTransaction() |
2709 | ········{ |
2710 | ············TransactionScope.Dispose(); |
2711 | ········} |
2712 | |
2713 | ········/// <summary> |
2714 | ········/// Rejects all changes and restores the original object state. Added Objects will be made transient. |
2715 | ········/// </summary> |
2716 | ········public virtual void Abort() |
2717 | ········{ |
2718 | ············// RejectChanges of the DS cannot be called because newly added rows would be deleted, |
2719 | ············// and therefore, couldn't be restored. Instead we call RejectChanges() for each |
2720 | ············// individual row. |
2721 | ············createdDirectObjects.Clear(); |
2722 | ············createdMappingTableObjects.Clear(); |
2723 | ············ArrayList deletedObjects = new ArrayList(); |
2724 | ············ArrayList hollowModeObjects = hollowMode ? new ArrayList() : null; |
2725 | |
2726 | ············// Read all objects from DataSet |
2727 | ············foreach (Cache.Entry e in cache.LockedObjects) |
2728 | ············{ |
2729 | ················//Debug.WriteLine("Reading: " + e.pc.GetType().Name); |
2730 | |
2731 | ················Class cl = GetClass(e.pc); |
2732 | ················bool isFakeRow = this.IsFakeRow(cl, e.row); |
2733 | ················if (!isFakeRow) |
2734 | ················{ |
2735 | ····················RestoreRelatedObjects(e.pc, e.relations); |
2736 | ················} |
2737 | ················else |
2738 | ················{ |
2739 | ····················Debug.Assert(e.pc.NDOObjectState == NDOObjectState.Deleted, "Fake row objects can only exist in deleted state"); |
2740 | ················} |
2741 | |
2742 | ················switch(e.pc.NDOObjectState) |
2743 | ················{ |
2744 | ····················case NDOObjectState.Created: |
2745 | ························ReadObject(e.pc, e.row, cl.ColumnNames, 0); |
2746 | ························deletedObjects.Add(e.pc); |
2747 | ························break; |
2748 | |
2749 | ····················case NDOObjectState.PersistentDirty: |
2750 | ························e.row.RejectChanges(); |
2751 | ························ReadObject(e.pc, e.row, cl.ColumnNames, 0); |
2752 | ························e.pc.NDOObjectState = NDOObjectState.Persistent; |
2753 | ························break; |
2754 | |
2755 | ····················case NDOObjectState.Deleted: |
2756 | ························if (!isFakeRow) |
2757 | ························{ |
2758 | ····························e.row.RejectChanges(); |
2759 | ····························ReadObject(e.pc, e.row, cl.ColumnNames, 0); |
2760 | ····························e.pc.NDOObjectState = NDOObjectState.Persistent; |
2761 | ························} |
2762 | ························else |
2763 | ························{ |
2764 | ····························e.row.RejectChanges(); |
2765 | ····························e.pc.NDOObjectState = NDOObjectState.Hollow; |
2766 | ························} |
2767 | ························break; |
2768 | |
2769 | ····················default: |
2770 | ························throw new InternalException(2082, "Abort(): wrong state detected: " + e.pc.NDOObjectState + " id = " + e.pc.NDOObjectId.Dump()); |
2771 | ························//Debug.Assert(false, "Object with wrong state detected: " + e.pc.NDOObjectState); |
2772 | ························//break; |
2773 | ················} |
2774 | ················if(hollowMode && e.pc.NDOObjectState == NDOObjectState.Persistent) |
2775 | ················{ |
2776 | ····················hollowModeObjects.Add(e.pc); |
2777 | ················} |
2778 | ············} |
2779 | ············cache.UnlockAll(); |
2780 | ············foreach(IPersistenceCapable pc in deletedObjects) |
2781 | ············{ |
2782 | ················MakeObjectTransient(pc, true); |
2783 | ············} |
2784 | ············ds.Clear(); |
2785 | ············mappingHandler.Clear(); |
2786 | ············if(hollowMode) |
2787 | ············{ |
2788 | ················MakeHollow(hollowModeObjects); |
2789 | ············} |
2790 | |
2791 | ············this.relationChanges.Clear(); |
2792 | |
2793 | |
2794 | ············AbortTransaction(); |
2795 | ········} |
2796 | |
2797 | |
2798 | ········/// <summary> |
2799 | ········/// Reset object to its transient state and remove it from the cache. Optinally, remove the object id to |
2800 | ········/// disable future access. |
2801 | ········/// </summary> |
2802 | ········/// <param name="pc"></param> |
2803 | ········/// <param name="removeId">Indicates if the object id should be nulled</param> |
2804 | ········private void MakeObjectTransient(IPersistenceCapable pc, bool removeId) |
2805 | ········{ |
2806 | ············cache.Deregister(pc); |
2807 | ············// MakeTransient doesn't remove the ID, because delete makes objects transient and we need the id for the ChangeLog············ |
2808 | ············if(removeId) |
2809 | ············{ |
2810 | ················pc.NDOObjectId = null; |
2811 | ············} |
2812 | ············pc.NDOObjectState = NDOObjectState.Transient; |
2813 | ············pc.NDOStateManager = null; |
2814 | ········} |
2815 | |
2816 | ········/// <summary> |
2817 | ········/// Makes an object transient. |
2818 | ········/// The object can be used afterwards, but changes will not be saved in the database. |
2819 | ········/// </summary> |
2820 | ········/// <remarks> |
2821 | ········/// Only persistent or hollow objects can be detached. Hollow objects are loaded to ensure valid data. |
2822 | ········/// </remarks> |
2823 | ········/// <param name="o">The object to detach.</param> |
2824 | ········public void MakeTransient(object o) |
2825 | ········{ |
2826 | ············IPersistenceCapable pc = CheckPc(o); |
2827 | ············if(pc.NDOObjectState != NDOObjectState.Persistent && pc.NDOObjectState··!= NDOObjectState.Hollow) |
2828 | ············{ |
2829 | ················throw new NDOException(79, "MakeTransient: Illegal state '" + pc.NDOObjectState + "' for this operation"); |
2830 | ············} |
2831 | |
2832 | ············if(pc.NDOObjectState··== NDOObjectState.Hollow) |
2833 | ············{ |
2834 | ················LoadData(pc); |
2835 | ············} |
2836 | ············MakeObjectTransient(pc, true); |
2837 | ········} |
2838 | |
2839 | |
2840 | ········/// <summary> |
2841 | ········/// Make all objects of a list transient. |
2842 | ········/// </summary> |
2843 | ········/// <param name="list">the list of transient objects</param> |
2844 | ········public void MakeTransient(System.Collections.IList list) |
2845 | ········{ |
2846 | ············foreach (IPersistenceCapable pc in list) |
2847 | ················MakeTransient(pc); |
2848 | ········} |
2849 | |
2850 | ········/// <summary> |
2851 | ········/// Remove an object from the DB. Note that the object itself is not destroyed and may still be used. |
2852 | ········/// </summary> |
2853 | ········/// <param name="o">The object to remove</param> |
2854 | ········public void Delete(object o) |
2855 | ········{ |
2856 | ············IPersistenceCapable pc = CheckPc(o); |
2857 | if( pc. NDOObjectState != NDOObjectState. Deleted) |
2858 | ············{ |
2859 | ················Delete(pc, true); |
2860 | ············} |
2861 | ········} |
2862 | |
2863 | |
2864 | ········private void LoadAllRelations(object o) |
2865 | ········{ |
2866 | ············IPersistenceCapable pc = CheckPc(o); |
2867 | ············Class cl = GetClass(pc); |
2868 | ············foreach(Relation r in cl.Relations) |
2869 | ············{ |
2870 | ················if (!pc.NDOGetLoadState(r.Ordinal)) |
2871 | ····················LoadRelation(pc, r, true); |
2872 | ············} |
2873 | ········} |
2874 | |
2875 | |
2876 | ········/// <summary> |
2877 | ········/// Remove an object from the DB. Note that the object itself is not destroyed and may still be used. |
2878 | ········/// </summary> |
2879 | ········/// <remarks> |
2880 | ········/// If checkAssoziations it true, the object cannot be deleted if it is part of a bidirectional assoziation. |
2881 | ········/// This is the case if delete was called from user code. Internally, an object may be deleted because it is called from |
2882 | ········/// the parent object. |
2883 | ········/// </remarks> |
2884 | ········/// <param name="pc">the object to remove</param> |
2885 | ········/// <param name="checkAssoziations">true if child of a composition can't be deleted</param> |
2886 | ········private void Delete(IPersistenceCapable pc, bool checkAssoziations) |
2887 | ········{ |
2888 | ············//Debug.WriteLine("Delete " + pc.NDOObjectId.Dump()); |
2889 | ············//Debug.Indent(); |
2890 | ············IDeleteNotifiable idn = pc as IDeleteNotifiable; |
2891 | ············if (idn != null) |
2892 | ················idn.OnDelete(); |
2893 | |
2894 | ············LoadAllRelations(pc); |
2895 | ············DeleteRelatedObjects(pc, checkAssoziations); |
2896 | |
2897 | ············switch(pc.NDOObjectState) |
2898 | ············{ |
2899 | ················case NDOObjectState.Transient: |
2900 | ····················throw new NDOException(80, "Cannot delete transient object: " + pc.NDOObjectId); |
2901 | |
2902 | ················case NDOObjectState.Created: |
2903 | ····················DataRow row = cache.GetDataRow(pc); |
2904 | ····················row.Delete(); |
2905 | ····················ArrayList cdosToDelete = new ArrayList(); |
2906 | ····················foreach (IPersistenceCapable cdo in createdDirectObjects) |
2907 | ························if ((object)cdo == (object)pc) |
2908 | ····························cdosToDelete.Add(cdo); |
2909 | ····················foreach (object o in cdosToDelete) |
2910 | ························ObjectListManipulator.Remove(createdDirectObjects, o); |
2911 | ····················MakeObjectTransient(pc, true); |
2912 | ····················break; |
2913 | ················case NDOObjectState.Persistent: |
2914 | ····················if (!cache.IsLocked(pc)) // Deletes k�nnen durchaus mehrmals aufgerufen werden |
2915 | ························SaveObjectState(pc, true); |
2916 | ····················row = cache.GetDataRow(pc); |
2917 | ····················row.Delete(); |
2918 | ····················pc.NDOObjectState = NDOObjectState.Deleted; |
2919 | ····················break; |
2920 | ················case NDOObjectState.Hollow: |
2921 | ····················if (!cache.IsLocked(pc)) // Deletes k�nnen durchaus mehrmals aufgerufen werden |
2922 | ························SaveFakeRow(pc); |
2923 | ····················row = cache.GetDataRow(pc); |
2924 | ····················row.Delete(); |
2925 | ····················pc.NDOObjectState = NDOObjectState.Deleted; |
2926 | ····················break; |
2927 | |
2928 | ················case NDOObjectState.PersistentDirty: |
2929 | ····················row = cache.GetDataRow(pc); |
2930 | ····················row.Delete(); |
2931 | ····················pc.NDOObjectState··= NDOObjectState.Deleted; |
2932 | ····················break; |
2933 | |
2934 | ················case NDOObjectState.Deleted: |
2935 | ····················break; |
2936 | ············} |
2937 | |
2938 | ············//Debug.Unindent(); |
2939 | ········} |
2940 | |
2941 | |
2942 | ········private void DeleteMappingTableEntry(IPersistenceCapable pc, Relation r, IPersistenceCapable child) |
2943 | ········{ |
2944 | ············MappingTableEntry mte = null; |
2945 | ············foreach(MappingTableEntry e in createdMappingTableObjects) |
2946 | ············{ |
2947 | ················if(e.ParentObject.NDOObjectId == pc.NDOObjectId && e.RelatedObject.NDOObjectId == child.NDOObjectId && e.Relation == r) |
2948 | ················{ |
2949 | ····················mte = e; |
2950 | ····················break; |
2951 | ················} |
2952 | ············} |
2953 | |
2954 | ············if(pc.NDOObjectState == NDOObjectState.Created || child.NDOObjectState == NDOObjectState.Created) |
2955 | ············{ |
2956 | ················if (mte != null) |
2957 | ····················createdMappingTableObjects.Remove(mte); |
2958 | ············} |
2959 | ············else |
2960 | ············{ |
2961 | ················if (mte == null) |
2962 | ····················createdMappingTableObjects.Add(new MappingTableEntry(pc, child, r, true)); |
2963 | ············} |
2964 | ········} |
2965 | |
2966 | ········private void DeleteOrNullForeignRelation(IPersistenceCapable pc, Relation r, IPersistenceCapable child) |
2967 | ········{ |
2968 | ············// Two tasks: a) Null the foreign key |
2969 | ············//··············b) remove the element from the foreign container |
2970 | |
2971 | ············if (!r.Bidirectional) |
2972 | ················return; |
2973 | |
2974 | ············// this keeps the oid valid |
2975 | ············if (GetClass(child.GetType()).Oid.IsDependent) |
2976 | ················return; |
2977 | |
2978 | ············if(r.ForeignRelation.Multiplicity == RelationMultiplicity.Element) |
2979 | ············{ |
2980 | ················LoadAndMarkDirty(child); |
2981 | ················mappings.SetRelationField(child, r.ForeignRelation.FieldName, null); |
2982 | ············} |
2983 | ············else //if(r.Multiplicity == RelationMultiplicity.List && |
2984 | ················// r.ForeignRelation.Multiplicity == RelationMultiplicity.List)·· |
2985 | ············{ |
2986 | ················if (!child.NDOGetLoadState(r.ForeignRelation.Ordinal)) |
2987 | ····················LoadRelation(child, r.ForeignRelation, true); |
2988 | ················IList l = mappings.GetRelationContainer(child, r.ForeignRelation); |
2989 | ················if (l == null) |
2990 | ····················throw new NDOException(67, "Can't remove object from the list " + child.GetType().FullName + "." + r.ForeignRelation.FieldName + ". The list is null."); |
2991 | ················ObjectListManipulator.Remove(l, pc); |
2992 | ················// Don't need to delete the mapping table entry, because that was done |
2993 | ················// through the parent. |
2994 | ············} |
2995 | ········} |
2996 | |
2997 | ········private void DeleteOrNullRelation(IPersistenceCapable pc, Relation r, IPersistenceCapable child) |
2998 | ········{ |
2999 | ············// 1) Element····nomap····ass |
3000 | ············// 2) Element····nomap····comp |
3001 | ············// 3) Element····map········ass |
3002 | ············// 4) Element····map········comp |
3003 | ············// 5) List········nomap····ass |
3004 | ············// 6) List········nomap····comp |
3005 | ············// 7) List········map········ass |
3006 | ············// 8) List········map········comp |
3007 | |
3008 | ············// Two tasks: Null foreign key and, if Composition, delete the child |
3009 | |
3010 | ············// If Mapping Table, delete the entry - 3,7 |
3011 | ············// If List and assoziation, null the foreign key in the foreign class - 5 |
3012 | ············// If Element, null the foreign key in the own class 1,2,3,4 |
3013 | ············// If composition, delete the child 2,4,6,8 |
3014 | |
3015 | ············// If the relObj is newly created |
3016 | ············ObjectListManipulator.Remove(createdDirectObjects, child); |
3017 | ············Class childClass = GetClass(child); |
3018 | |
3019 | ············if (r.MappingTable != null)··// 3,7 |
3020 | ············{················ |
3021 | ················DeleteMappingTableEntry(pc, r, child); |
3022 | ············} |
3023 | ············else if (r.Multiplicity == RelationMultiplicity.List |
3024 | ················&& !r.Composition && !childClass.Oid.IsDependent) // 5 |
3025 | ············{················ |
3026 | ················LoadAndMarkDirty(child); |
3027 | ················DataRow row = this.cache.GetDataRow(child); |
3028 | ················foreach (ForeignKeyColumn fkColumnn in r.ForeignKeyColumns) |
3029 | ················{ |
3030 | ····················row[fkColumnn.Name] = DBNull.Value; |
3031 | ····················child.NDOLoadState.ReplaceRowInfo(fkColumnn.Name, DBNull.Value); |
3032 | ················} |
3033 | ············} |
3034 | ············else if (r.Multiplicity == RelationMultiplicity.Element) // 1,2,3,4 |
3035 | ············{ |
3036 | ················LoadAndMarkDirty(pc); |
3037 | ············} |
3038 | ············if (r.Composition || childClass.Oid.IsDependent) |
3039 | ············{ |
3040 | #if DEBUG |
3041 | ················if (child.NDOObjectState == NDOObjectState.Transient) |
3042 | ····················Debug.WriteLine("***** Object shouldn't be transient: " + child.GetType().FullName); |
3043 | #endif |
3044 | ················// Deletes the foreign key in case of List multiplicity |
3045 | ················// In case of Element multiplicity, the parent is either deleted, |
3046 | ················// or RemoveRelatedObject is called because the relation has been nulled. |
3047 | ················Delete(child);·· |
3048 | ············} |
3049 | ········} |
3050 | |
3051 | ········/// <summary> |
3052 | ········/// Remove a related object |
3053 | ········/// </summary> |
3054 | ········/// <param name="pc"></param> |
3055 | ········/// <param name="r"></param> |
3056 | ········/// <param name="child"></param> |
3057 | ········/// <param name="calledFromStateManager"></param> |
3058 | ········protected virtual void InternalRemoveRelatedObject(IPersistenceCapable pc, Relation r, IPersistenceCapable child, bool calledFromStateManager) |
3059 | ········{ |
3060 | ············//TODO: We need a relation management, which is independent of |
3061 | ············//the state management of an object. At the moment the relation |
3062 | ············//lists or elements are cached for restore, if an object is marked dirty. |
3063 | ············//Thus we have to mark dirty our parent object in any case at the moment. |
3064 | ············if (calledFromStateManager) |
3065 | ················MarkDirty(pc); |
3066 | |
3067 | ············// Object can be deleted in an OnDelete-Handler |
3068 | ············if (child.NDOObjectState == NDOObjectState.Deleted) |
3069 | ················return; |
3070 | ············//············Debug.WriteLine("InternalRemoveRelatedObject " + pc.GetType().Name + " " + r.FieldName + " " + child.GetType()); |
3071 | ············// Preconditions |
3072 | ············// This is called either by DeleteRelatedObjects or by RemoveRelatedObject |
3073 | ············// The Object state is checked there |
3074 | |
3075 | ············// If there is a composition in the opposite direction |
3076 | ············// && the other direction hasn't been processed |
3077 | ············// throw an exception. |
3078 | ············// If an exception is thrown at this point, have a look at IsLocked.... |
3079 | ············if (r.Bidirectional && r.ForeignRelation.Composition |
3080 | ················&& !removeLock.IsLocked(child, r.ForeignRelation, pc)) |
3081 | ················throw new NDOException(82, "Cannot remove related object " + child.GetType().FullName + " from parent " + pc.NDOObjectId.Dump() + ". Object must be removed through the parent."); |
3082 | |
3083 | ············if (!removeLock.GetLock(pc, r, child)) |
3084 | ················return; |
3085 | |
3086 | ············try |
3087 | ············{ |
3088 | ················// must be in this order, since the child |
3089 | ················// can be deleted in DeleteOrNullRelation |
3090 | ················//if (changeForeignRelations) |
3091 | ················DeleteOrNullForeignRelation(pc, r, child); |
3092 | ················DeleteOrNullRelation(pc, r, child); |
3093 | ············} |
3094 | ············finally |
3095 | ············{ |
3096 | ················removeLock.Unlock(pc, r, child); |
3097 | ············} |
3098 | |
3099 | ············this.relationChanges.Add( new RelationChangeRecord( pc, child, r.FieldName, false ) ); |
3100 | ········} |
3101 | |
3102 | ········private void DeleteRelatedObjects2(IPersistenceCapable pc, Class parentClass, bool checkAssoziations, Relation r) |
3103 | ········{ |
3104 | ············//············Debug.WriteLine("DeleteRelatedObjects2 " + pc.GetType().Name + " " + r.FieldName); |
3105 | ············//············Debug.Indent(); |
3106 | ············if (r.Multiplicity == RelationMultiplicity.Element) |
3107 | ············{ |
3108 | ················IPersistenceCapable child = (IPersistenceCapable) mappings.GetRelationField(pc, r.FieldName); |
3109 | ················if(child != null) |
3110 | ················{ |
3111 | ····················//····················if(checkAssoziations && r.Bidirectional && !r.Composition) |
3112 | ····················//····················{ |
3113 | ····················//························if (!r.ForeignRelation.Composition) |
3114 | ····················//························{ |
3115 | ····················//····························mappings.SetRelationField(pc, r.FieldName, null); |
3116 | ····················//····························mappings.SetRelationField(child, r.ForeignRelation.FieldName, null); |
3117 | ····················//························} |
3118 | ····················//····························//System.Diagnostics.Debug.WriteLine("Nullen: pc = " + pc.GetType().Name + " child = " + child.GetType().Name); |
3119 | ····················//························else |
3120 | ····················//····························throw new NDOException(83, "Can't remove object of type " + pc.GetType().FullName + "; It is contained by an object of type " + child.GetType().FullName); |
3121 | ····················//····················} |
3122 | ····················InternalRemoveRelatedObject(pc, r, child, false); |
3123 | ················} |
3124 | ············} |
3125 | ············else |
3126 | ············{ |
3127 | ················IList list = mappings.GetRelationContainer(pc, r); |
3128 | ················if(list != null && list.Count > 0) |
3129 | ················{ |
3130 | ····················//····················if(checkAssoziations && r.Bidirectional && !r.Composition) |
3131 | ····················//····················{ |
3132 | ····················//························throw new xxNDOException(84, "Cannot delete object " + pc.NDOObjectId + " in an assoziation. Remove related objects first."); |
3133 | ····················//····················} |
3134 | ····················// Since RemoveRelatedObjects probably changes the list, |
3135 | ····················// we iterate through a copy of the list. |
3136 | ····················ArrayList al = new ArrayList(list); |
3137 | ····················foreach(IPersistenceCapable relObj in al) |
3138 | ····················{ |
3139 | ························InternalRemoveRelatedObject(pc, r, relObj, false); |
3140 | ····················} |
3141 | ················} |
3142 | ············} |
3143 | ············//············Debug.Unindent(); |
3144 | ········} |
3145 | |
3146 | ········/// <summary> |
3147 | ········/// Remove all related objects from a parent. |
3148 | ········/// </summary> |
3149 | ········/// <param name="pc">the parent object</param> |
3150 | ········/// <param name="checkAssoziations"></param> |
3151 | ········private void DeleteRelatedObjects(IPersistenceCapable pc, bool checkAssoziations) |
3152 | ········{ |
3153 | ············//············Debug.WriteLine("DeleteRelatedObjects " + pc.NDOObjectId.Dump()); |
3154 | ············//············Debug.Indent(); |
3155 | ············// delete all related objects: |
3156 | ············Class parentClass = GetClass(pc); |
3157 | ············// Remove Assoziations first |
3158 | ············foreach(Relation r in parentClass.Relations) |
3159 | ············{ |
3160 | ················if (!r.Composition) |
3161 | ····················DeleteRelatedObjects2(pc, parentClass, checkAssoziations, r); |
3162 | ············} |
3163 | ············foreach(Relation r in parentClass.Relations) |
3164 | ············{ |
3165 | ················if (r.Composition) |
3166 | ····················DeleteRelatedObjects2(pc, parentClass, checkAssoziations, r); |
3167 | ············} |
3168 | |
3169 | ············//············Debug.Unindent(); |
3170 | ········} |
3171 | |
3172 | ········/// <summary> |
3173 | ········/// Delete a list of objects |
3174 | ········/// </summary> |
3175 | ········/// <param name="list">the list of objects to remove</param> |
3176 | ········public void Delete(IList list) |
3177 | ········{ |
3178 | ············for (int i = 0; i < list.Count; i++) |
3179 | ············{ |
3180 | ················IPersistenceCapable pc = (IPersistenceCapable) list[i]; |
3181 | ················Delete(pc); |
3182 | ············} |
3183 | ········} |
3184 | |
3185 | ········/// <summary> |
3186 | ········/// Make object hollow. All relations will be unloaded and object data will be |
3187 | ········/// newly fetched during the next touch of a persistent field. |
3188 | ········/// </summary> |
3189 | ········/// <param name="o"></param> |
3190 | ········public virtual void MakeHollow(object o) |
3191 | ········{ |
3192 | ············IPersistenceCapable pc = CheckPc(o); |
3193 | ············MakeHollow(pc, false); |
3194 | ········} |
3195 | |
3196 | ········/// <summary> |
3197 | ········/// Make the object hollow if it is persistent. Unload all complex data. |
3198 | ········/// </summary> |
3199 | ········/// <param name="o"></param> |
3200 | ········/// <param name="recursive">if true then unload related objects as well</param> |
3201 | ········public virtual void MakeHollow(object o, bool recursive) |
3202 | ········{ |
3203 | ············IPersistenceCapable pc = CheckPc(o); |
3204 | ············if(pc.NDOObjectState == NDOObjectState.Hollow) |
3205 | ················return; |
3206 | ············if(pc.NDOObjectState != NDOObjectState.Persistent) |
3207 | ············{ |
3208 | ················throw new NDOException(85, "MakeHollow: Illegal state for this operation (" + pc.NDOObjectState.ToString() + ")"); |
3209 | ············} |
3210 | ············pc.NDOObjectState = NDOObjectState.Hollow; |
3211 | ············MakeRelationsHollow(pc, recursive); |
3212 | ········} |
3213 | |
3214 | ········/// <summary> |
3215 | ········/// Make all objects of a list hollow. |
3216 | ········/// </summary> |
3217 | ········/// <param name="list">the list of objects that should be made hollow</param> |
3218 | ········public virtual void MakeHollow(System.Collections.IList list) |
3219 | ········{ |
3220 | ············MakeHollow(list, false); |
3221 | ········} |
3222 | |
3223 | ········/// <summary> |
3224 | ········/// Make all objects of a list hollow. |
3225 | ········/// </summary> |
3226 | ········/// <param name="list">the list of objects that should be made hollow</param> |
3227 | ········/// <param name="recursive">if true then unload related objects as well</param> |
3228 | ········public void MakeHollow(System.Collections.IList list, bool recursive) |
3229 | ········{ |
3230 | ············foreach (IPersistenceCapable pc in list) |
3231 | ················MakeHollow(pc, recursive);················ |
3232 | ········} |
3233 | |
3234 | ········/// <summary> |
3235 | ········/// Make all unlocked objects in the cache hollow. |
3236 | ········/// </summary> |
3237 | ········public virtual void MakeAllHollow() |
3238 | ········{ |
3239 | ············foreach(var pc in cache.UnlockedObjects) |
3240 | ············{ |
3241 | ················MakeHollow(pc, false); |
3242 | ············} |
3243 | ········} |
3244 | |
3245 | ········/// <summary> |
3246 | ········/// Make relations hollow. |
3247 | ········/// </summary> |
3248 | ········/// <param name="pc">The parent object</param> |
3249 | ········/// <param name="recursive">If true, the function unloads related objects as well.</param> |
3250 | ········private void MakeRelationsHollow(IPersistenceCapable pc, bool recursive) |
3251 | ········{ |
3252 | ············Class c = GetClass(pc); |
3253 | ············foreach(Relation r in c.Relations) |
3254 | ············{ |
3255 | ················if (r.Multiplicity == RelationMultiplicity.Element) |
3256 | ················{ |
3257 | ····················mappings.SetRelationField(pc, r.FieldName, null); |
3258 | ····················//····················IPersistenceCapable child = (IPersistenceCapable) mappings.GetRelationField(pc, r.FieldName); |
3259 | ····················//····················if((null != child) && recursive) |
3260 | ····················//····················{ |
3261 | ····················//························MakeHollow(child, true); |
3262 | ····················//····················} |
3263 | ················} |
3264 | ················else |
3265 | ················{ |
3266 | ····················if (!pc.NDOGetLoadState(r.Ordinal)) |
3267 | ························continue; |
3268 | ····················// Help GC by clearing lists |
3269 | ····················IList l = mappings.GetRelationContainer(pc, r); |
3270 | ····················if(l != null) |
3271 | ····················{ |
3272 | ························if(recursive) |
3273 | ························{ |
3274 | ····························MakeHollow(l, true); |
3275 | ························} |
3276 | ························l.Clear(); |
3277 | ····················} |
3278 | ····················// Hollow relation |
3279 | ····················mappings.SetRelationContainer(pc, r, null); |
3280 | ················} |
3281 | ············} |
3282 | ············ClearRelationState(pc); |
3283 | ········} |
3284 | |
3285 | ········private void ClearRelationState(IPersistenceCapable pc) |
3286 | ········{ |
3287 | ············Class cl = GetClass(pc); |
3288 | ············foreach(Relation r in cl.Relations) |
3289 | ················pc.NDOSetLoadState(r.Ordinal, false); |
3290 | ········} |
3291 | |
3292 | ········private void SetRelationState(IPersistenceCapable pc) |
3293 | ········{ |
3294 | ············Class cl = GetClass(pc); |
3295 | ············// Due to a bug in the enhancer the constructors are not always patched right, |
3296 | ············// so NDOLoadState might be uninitialized |
3297 | ············if (pc.NDOLoadState == null) |
3298 | ············{ |
3299 | ················FieldInfo fi = new BaseClassReflector(pc.GetType()).GetField("_ndoLoadState", BindingFlags.Instance | BindingFlags.NonPublic); |
3300 | ················if (fi == null) |
3301 | ····················throw new InternalException(3131, "pm.SetRelationState: No FieldInfo for _ndoLoadState"); |
3302 | ················fi.SetValue(pc, new LoadState()); |
3303 | ············} |
3304 | |
3305 | ············// After serialization the relation load state is null |
3306 | ············if (pc.NDOLoadState.RelationLoadState == null) |
3307 | ················pc.NDOLoadState.RelationLoadState = new BitArray(LoadState.RelationLoadStateSize); |
3308 | ············foreach(Relation r in cl.Relations) |
3309 | ················pc.NDOSetLoadState(r.Ordinal, true); |
3310 | ········} |
3311 | |
3312 | ········/// <summary> |
3313 | ········/// Creates an object of a given type and resolves constructor parameters using the container. |
3314 | ········/// </summary> |
3315 | ········/// <param name="t">The type of the persistent object</param> |
3316 | ········/// <returns></returns> |
3317 | ········public IPersistenceCapable CreateObject(Type t) |
3318 | ········{ |
3319 | ············return Metaclasses.GetClass( t ).CreateObject( this.ConfigContainer ); |
3320 | ········} |
3321 | |
3322 | ········/// <summary> |
3323 | ········/// Creates an object of a given type and resolves constructor parameters using the container. |
3324 | ········/// </summary> |
3325 | ········/// <typeparam name="T">The type of the object to create.</typeparam> |
3326 | ········/// <returns></returns> |
3327 | ········public T CreateObject<T>() |
3328 | ········{ |
3329 | ············return (T)CreateObject( typeof( T ) ); |
3330 | ········} |
3331 | |
3332 | ········/// <summary> |
3333 | ········/// Gets the requested object. It first builds an ObjectId using the type and the |
3334 | ········/// key data. Then it uses FindObject to retrieve the object. No database access |
3335 | ········/// is performed. |
3336 | ········/// </summary> |
3337 | ········/// <param name="t">The type of the object to retrieve.</param> |
3338 | ········/// <param name="keyData">The key value to build the object id.</param> |
3339 | ········/// <returns>A hollow object</returns> |
3340 | ········/// <remarks>If the key value is of a wrong type, an exception will be thrown, if the object state changes from hollow to persistent.</remarks> |
3341 | ········public IPersistenceCapable FindObject(Type t, object keyData) |
3342 | ········{ |
3343 | ············ObjectId oid = ObjectIdFactory.NewObjectId(t, GetClass(t), keyData, this.typeManager); |
3344 | ············return FindObject(oid); |
3345 | ········} |
3346 | |
3347 | ········/// <summary> |
3348 | ········/// Finds an object using a short id. |
3349 | ········/// </summary> |
3350 | ········/// <param name="encodedShortId"></param> |
3351 | ········/// <returns></returns> |
3352 | ········public IPersistenceCapable FindObject(string encodedShortId) |
3353 | ········{ |
3354 | ············string shortId = encodedShortId.Decode(); |
3355 | ············string[] arr = shortId.Split( '-' ); |
3356 | ············if (arr.Length != 3) |
3357 | ················throw new ArgumentException( "The format of the string is not valid", "shortId" ); |
3358 | ············Type t = shortId.GetObjectType(this);··// try readable format |
3359 | ············if (t == null) |
3360 | ············{ |
3361 | ················int typeCode = 0; |
3362 | ················if (!int.TryParse( arr[2], NumberStyles.HexNumber, CultureInfo.InvariantCulture, out typeCode )) |
3363 | ····················throw new ArgumentException( "The string doesn't represent a loadable type", "shortId" ); |
3364 | ················t = this.typeManager[typeCode]; |
3365 | ················if (t == null) |
3366 | ····················throw new ArgumentException( "The string doesn't represent a loadable type", "shortId" ); |
3367 | ············} |
3368 | |
3369 | ············Class cls = GetClass( t ); |
3370 | ············if (cls == null) |
3371 | ················throw new ArgumentException( "The type identified by the string is not persistent or is not managed by the given mapping file", "shortId" ); |
3372 | |
3373 | ············object[] keydata = new object[cls.Oid.OidColumns.Count]; |
3374 | ············string[] oidValues = arr[2].Split( ' ' ); |
3375 | |
3376 | ············int i = 0; |
3377 | ············foreach (var oidValue in oidValues) |
3378 | ············{ |
3379 | ················Type oidType = cls.Oid.OidColumns[i].SystemType; |
3380 | ················if (oidType == typeof( int )) |
3381 | ················{ |
3382 | ····················int key; |
3383 | ····················if (!int.TryParse( oidValue, out key )) |
3384 | ························throw new ArgumentException( $"The ShortId value at index {i} doesn't contain an int value", nameof(encodedShortId) ); |
3385 | ····················if (key > (int.MaxValue >> 1)) |
3386 | ························key = -(int.MaxValue - key); |
3387 | ····················keydata[i] = key; |
3388 | ················} |
3389 | ················else if (oidType == typeof( Guid )) |
3390 | ················{ |
3391 | ····················Guid key; |
3392 | ····················if (!Guid.TryParse( oidValue, out key )) |
3393 | ························throw new ArgumentException( $"The ShortId value at index {i} doesn't contain an Guid value", nameof( encodedShortId ) ); |
3394 | ····················keydata[i] = key; |
3395 | ················} |
3396 | ················else if (oidType == typeof( string )) |
3397 | ················{ |
3398 | ····················keydata[i] = oidValue; |
3399 | ················} |
3400 | ················else |
3401 | ················{ |
3402 | ····················throw new ArgumentException( $"The oid type at index {i} of the persistent type {t} can't be used by a ShortId: {oidType.FullName}", nameof( encodedShortId ) ); |
3403 | ················} |
3404 | |
3405 | ················i++; |
3406 | ············} |
3407 | |
3408 | ············if (keydata.Length == 1) |
3409 | ················return FindObject( t, keydata[0] ); |
3410 | |
3411 | ············return FindObject( t, keydata );············ |
3412 | ········} |
3413 | |
3414 | ········/// <summary> |
3415 | ········/// Gets the requested object. If it is in the cache, the cached object is returned, otherwise, a new (hollow) |
3416 | ········/// instance of the object is returned. In either case, the DB is not accessed! |
3417 | ········/// </summary> |
3418 | ········/// <param name="id">Object id</param> |
3419 | ········/// <returns>The object to retrieve in hollow state</returns>········ |
3420 | ········public IPersistenceCapable FindObject(ObjectId id) |
3421 | ········{ |
3422 | ············if(id == null) |
3423 | ············{ |
3424 | ················throw new ArgumentNullException("id"); |
3425 | ············} |
3426 | |
3427 | ············if(!id.IsValid()) |
3428 | ············{ |
3429 | ················throw new NDOException(86, "FindObject: Invalid object id. Object does not exist"); |
3430 | ············} |
3431 | |
3432 | ············IPersistenceCapable pc = cache.GetObject(id); |
3433 | ············if(pc == null) |
3434 | ············{ |
3435 | ················pc = CreateObject(id.Id.Type); |
3436 | ················pc.NDOObjectId = id; |
3437 | ················pc.NDOStateManager = sm; |
3438 | ················pc.NDOObjectState = NDOObjectState.Hollow; |
3439 | ················cache.UpdateCache(pc); |
3440 | ············} |
3441 | ············return pc; |
3442 | ········} |
3443 | |
3444 | |
3445 | ········/// <summary> |
3446 | ········/// Reload an object from the database. |
3447 | ········/// </summary> |
3448 | ········/// <param name="o">The object to be reloaded.</param> |
3449 | ········public virtual void Refresh(object o) |
3450 | ········{ |
3451 | ············IPersistenceCapable pc = CheckPc(o); |
3452 | ············if(pc.NDOObjectState == NDOObjectState.Transient || pc.NDOObjectState == NDOObjectState.Deleted) |
3453 | ············{ |
3454 | ················throw new NDOException(87, "Refresh: Illegal state " + pc.NDOObjectState + " for this operation"); |
3455 | ············} |
3456 | |
3457 | ············if(pc.NDOObjectState == NDOObjectState.Created || pc.NDOObjectState == NDOObjectState.PersistentDirty) |
3458 | ················return; // Cannot update objects in current transaction |
3459 | |
3460 | ············MakeHollow(pc); |
3461 | ············LoadData(pc); |
3462 | ········} |
3463 | |
3464 | ········/// <summary> |
3465 | ········/// Refresh a list of objects. |
3466 | ········/// </summary> |
3467 | ········/// <param name="list">The list of objects to be refreshed.</param> |
3468 | ········public virtual void Refresh(IList list) |
3469 | ········{ |
3470 | ············foreach (IPersistenceCapable pc in list) |
3471 | ················Refresh(pc);························ |
3472 | ········} |
3473 | |
3474 | ········/// <summary> |
3475 | ········/// Refreshes all unlocked objects in the cache. |
3476 | ········/// </summary> |
3477 | ········public virtual void RefreshAll() |
3478 | ········{ |
3479 | ············Refresh( cache.UnlockedObjects.ToList() ); |
3480 | ········} |
3481 | |
3482 | ········/// <summary> |
3483 | ········/// Closes the PersistenceManager and releases all resources. |
3484 | ········/// </summary> |
3485 | ········public override void Close() |
3486 | ········{ |
3487 | ············if (this.isClosing) |
3488 | ················return; |
3489 | ············this.isClosing = true; |
3490 | ············TransactionScope.Dispose(); |
3491 | ············UnloadCache(); |
3492 | ············base.Close(); |
3493 | ········} |
3494 | |
3495 | ········internal void LogIfVerbose(string msg) |
3496 | ········{ |
3497 | ············if (VerboseMode && LogAdapter != null) |
3498 | ············{ |
3499 | ················this.LogAdapter.Info( msg ); |
3500 | ············} |
3501 | ········} |
3502 | |
3503 | |
3504 | ········#endregion |
3505 | |
3506 | |
3507 | #region Class extent |
3508 | ········/// <summary> |
3509 | ········/// Gets all objects of a given class. |
3510 | ········/// </summary> |
3511 | ········/// <param name="t">the type of the class</param> |
3512 | ········/// <returns>A list of all persistent objects of the given class. Subclasses will not be included in the result set.</returns> |
3513 | ········public virtual IList GetClassExtent(Type t) |
3514 | ········{ |
3515 | ············return GetClassExtent(t, true); |
3516 | ········} |
3517 | |
3518 | ········/// <summary> |
3519 | ········/// Gets all objects of a given class. |
3520 | ········/// </summary> |
3521 | ········/// <param name="t">The type of the class.</param> |
3522 | ········/// <param name="hollow">If true, return objects in hollow state instead of persistent state.</param> |
3523 | ········/// <returns>A list of all persistent objects of the given class.</returns> |
3524 | ········/// <remarks>Subclasses of the given type are not fetched.</remarks> |
3525 | ········public virtual IList GetClassExtent(Type t, bool hollow) |
3526 | ········{ |
3527 | ············IQuery q = NewQuery( t, null, hollow ); |
3528 | ············return q.Execute(); |
3529 | ········} |
3530 | |
3531 | #endregion |
3532 | |
3533 | #region Query engine |
3534 | |
3535 | |
3536 | ········/// <summary> |
3537 | ········/// Returns a virtual table for Linq queries. |
3538 | ········/// </summary> |
3539 | ········/// <typeparam name="T"></typeparam> |
3540 | ········/// <returns></returns> |
3541 | ········public VirtualTable<T> Objects<T>() //where T: IPersistenceCapable |
3542 | ········{ |
3543 | ············return new VirtualTable<T>( this ); |
3544 | ········} |
3545 | |
3546 | ········ |
3547 | ········/// <summary> |
3548 | ········/// Suppose, you had a directed 1:n relation from class A to class B. If you load an object of type B, |
3549 | ········/// a foreign key pointing to a row in the table A is read as part of the B row. But since B doesn't have |
3550 | ········/// a relation to A the foreign key would get lost if we discard the row after building the B object. To |
3551 | ········/// not lose the foreign key it will be stored as part of the object. |
3552 | ········/// </summary> |
3553 | ········/// <param name="cl"></param> |
3554 | ········/// <param name="pc"></param> |
3555 | ········/// <param name="row"></param> |
3556 | ········void ReadLostForeignKeysFromRow(Class cl, IPersistenceCapable pc, DataRow row) |
3557 | ········{ |
3558 | ············if (cl.FKColumnNames != null) |
3559 | ············{ |
3560 | ················//················Debug.WriteLine("GetLostForeignKeysFromRow " + pc.NDOObjectId.Dump()); |
3561 | ················KeyValueList kvl = new KeyValueList(cl.FKColumnNames.Count()); |
3562 | ················foreach(string colName in cl.FKColumnNames) |
3563 | ····················kvl.Add(new KeyValuePair(colName, row[colName])); |
3564 | ················pc.NDOLoadState.LostRowInfo = kvl;················ |
3565 | ············} |
3566 | ········} |
3567 | |
3568 | ········/// <summary> |
3569 | ········/// Writes information into the data row, which cannot be stored in the object. |
3570 | ········/// </summary> |
3571 | ········/// <param name="cl"></param> |
3572 | ········/// <param name="pc"></param> |
3573 | ········/// <param name="row"></param> |
3574 | ········protected virtual void WriteLostForeignKeysToRow(Class cl, IPersistenceCapable pc, DataRow row) |
3575 | ········{ |
3576 | ············if (cl.FKColumnNames != null) |
3577 | ············{ |
3578 | ················//················Debug.WriteLine("WriteLostForeignKeys " + pc.NDOObjectId.Dump()); |
3579 | ················KeyValueList kvl = (KeyValueList)pc.NDOLoadState.LostRowInfo; |
3580 | ················if (kvl == null) |
3581 | ····················throw new NDOException(88, "Can't find foreign keys for the relations of the object " + pc.NDOObjectId.Dump()); |
3582 | ················foreach (KeyValuePair pair in kvl) |
3583 | ····················row[(string) pair.Key] = pair.Value; |
3584 | ············} |
3585 | ········} |
3586 | |
3587 | ········void Row2Object(Class cl, IPersistenceCapable pc, DataRow row) |
3588 | ········{ |
3589 | ············ReadObject(pc, row, cl.ColumnNames, 0); |
3590 | ············ReadTimeStamp(cl, pc, row); |
3591 | ············ReadLostForeignKeysFromRow(cl, pc, row); |
3592 | ············LoadRelated1To1Objects(pc, row); |
3593 | ············pc.NDOObjectState = NDOObjectState.Persistent; |
3594 | ········} |
3595 | |
3596 | |
3597 | ········/// <summary> |
3598 | ········/// Convert a data table to objects. Note that the table might only hold objects of the specified type. |
3599 | ········/// </summary> |
3600 | ········internal IList DataTableToIList(Type t, ICollection rows, bool hollow) |
3601 | ········{ |
3602 | ············IList queryResult = GenericListReflector.CreateList(t, rows.Count); |
3603 | ············if (rows.Count == 0) |
3604 | ················return queryResult; |
3605 | |
3606 | ············IList callbackObjects = new ArrayList(); |
3607 | ············Class cl = GetClass(t); |
3608 | ············if (t.IsGenericTypeDefinition) |
3609 | ············{ |
3610 | ················if (cl.TypeNameColumn == null) |
3611 | ····················throw new NDOException(104, "No type name column defined for generic type '" + t.FullName + "'. Check your mapping file."); |
3612 | ················IEnumerator en = rows.GetEnumerator(); |
3613 | ················en.MoveNext();··// Move to the first element |
3614 | ················DataRow testrow = (DataRow)en.Current; |
3615 | ················if (testrow.Table.Columns[cl.TypeNameColumn.Name] == null) |
3616 | ····················throw new InternalException(3333, "DataTableToIList: TypeNameColumn isn't defined in the schema."); |
3617 | ············} |
3618 | |
3619 | ············foreach(DataRow row in rows) |
3620 | ············{ |
3621 | ················Type concreteType = t; |
3622 | ················if (t.IsGenericTypeDefinition)··// type information is in the row |
3623 | ················{ |
3624 | ····················if (row[cl.TypeNameColumn.Name] == DBNull.Value) |
3625 | ····················{ |
3626 | ························ObjectId tempid = ObjectIdFactory.NewObjectId(t, cl, row, this.typeManager); |
3627 | ························throw new NDOException(105, "Null entry in the TypeNameColumn of the type '" + t.FullName + "'. Oid = " + tempid.ToString()); |
3628 | ····················} |
3629 | ····················string typeStr = (string)row[cl.TypeNameColumn.Name]; |
3630 | ····················concreteType = Type.GetType(typeStr); |
3631 | ····················if (concreteType == null) |
3632 | ························throw new NDOException(106, "Can't load generic type " + typeStr); |
3633 | ················} |
3634 | ················ObjectId id = ObjectIdFactory.NewObjectId(concreteType, cl, row, this.typeManager); |
3635 | ················IPersistenceCapable pc = cache.GetObject(id);················ |
3636 | ················if(pc == null) |
3637 | ················{ |
3638 | ····················var mc = Metaclasses.GetClass(concreteType); |
3639 | ····················pc = mc.CreateObject( this.ConfigContainer ); |
3640 | ····················pc.NDOObjectId = id; |
3641 | ····················pc.NDOStateManager = sm; |
3642 | ····················// If the object shouldn't be hollow, this will be overwritten later. |
3643 | ····················pc.NDOObjectState = NDOObjectState.Hollow; |
3644 | ················} |
3645 | ················// If we have found a non hollow object, the time stamp remains the old one. |
3646 | ················// In every other case we use the new time stamp. |
3647 | ················// Note, that there could be a hollow object in the cache. |
3648 | ················// We need the time stamp in hollow objects in order to correctly |
3649 | ················// delete objects using fake rows. |
3650 | ················if (pc.NDOObjectState == NDOObjectState.Hollow) |
3651 | ················{ |
3652 | ····················ReadTimeStamp(cl, pc, row); |
3653 | ················} |
3654 | ················if(!hollow && pc.NDOObjectState != NDOObjectState.PersistentDirty) |
3655 | ················{ |
3656 | ····················Row2Object(cl, pc, row); |
3657 | ····················if ((pc as IPersistenceNotifiable) != null) |
3658 | ························callbackObjects.Add(pc); |
3659 | ················} |
3660 | |
3661 | ················cache.UpdateCache(pc); |
3662 | ················queryResult.Add(pc); |
3663 | ············} |
3664 | ············// Make shure this is the last statement before returning |
3665 | ············// to the caller, so the user can recursively use persistent |
3666 | ············// objects |
3667 | ············foreach(IPersistenceNotifiable ipn in callbackObjects) |
3668 | ················ipn.OnLoaded(); |
3669 | |
3670 | ············return queryResult; |
3671 | ········} |
3672 | |
3673 | #endregion |
3674 | |
3675 | #region Cache Management |
3676 | ········/// <summary> |
3677 | ········/// Remove all unused entries from the cache. |
3678 | ········/// </summary> |
3679 | ········public void CleanupCache() |
3680 | ········{ |
3681 | ············GC.Collect(GC.MaxGeneration); |
3682 | ············GC.WaitForPendingFinalizers(); |
3683 | ············cache.Cleanup(); |
3684 | ········} |
3685 | |
3686 | ········/// <summary> |
3687 | ········/// Remove all unlocked objects from the cache. Use with care! |
3688 | ········/// </summary> |
3689 | ········public void UnloadCache() |
3690 | ········{ |
3691 | ············cache.Unload(); |
3692 | ········} |
3693 | #endregion |
3694 | |
3695 | ········/// <summary> |
3696 | ········/// Default encryption key for NDO |
3697 | ········/// </summary> |
3698 | ········/// <remarks> |
3699 | ········/// We recommend strongly to use an own encryption key, which can be set with this property. |
3700 | ········/// </remarks> |
3701 | ········public virtual byte[] EncryptionKey |
3702 | ········{ |
3703 | ············get |
3704 | ············{ |
3705 | ················if (this.encryptionKey == null) |
3706 | ····················this.encryptionKey = new byte[] { 0x09,0xA2,0x79,0x5C,0x99,0xFF,0xCB,0x8B,0xA3,0x37,0x76,0xC8,0xA6,0x5D,0x6D,0x66, |
3707 | ······················································0xE2,0x74,0xCF,0xF0,0xF7,0xEA,0xC4,0x82,0x1E,0xD5,0x19,0x4C,0x5A,0xB4,0x89,0x4D }; |
3708 | ················return this.encryptionKey; |
3709 | ············} |
3710 | ············set { this.encryptionKey = value; } |
3711 | ········} |
3712 | |
3713 | ········/// <summary> |
3714 | ········/// Hollow mode: If true all objects are made hollow after each transaction. |
3715 | ········/// </summary> |
3716 | ········public virtual bool HollowMode |
3717 | ········{ |
3718 | ············get { return hollowMode; } |
3719 | ············set { hollowMode = value; } |
3720 | ········} |
3721 | |
3722 | ········internal TypeManager TypeManager |
3723 | ········{ |
3724 | ············get { return typeManager; } |
3725 | ········} |
3726 | |
3727 | ········/// <summary> |
3728 | ········/// Sets or gets transaction mode. Uses TransactionMode enum. |
3729 | ········/// </summary> |
3730 | ········/// <remarks> |
3731 | ········/// Set this value before you start any transactions. |
3732 | ········/// </remarks> |
3733 | ········public TransactionMode TransactionMode |
3734 | ········{ |
3735 | ············get { return TransactionScope.TransactionMode; } |
3736 | ············set { TransactionScope.TransactionMode = value; } |
3737 | ········} |
3738 | |
3739 | ········/// <summary> |
3740 | ········/// Sets or gets the Isolation Level. |
3741 | ········/// </summary> |
3742 | ········/// <remarks> |
3743 | ········/// Set this value before you start any transactions. |
3744 | ········/// </remarks> |
3745 | ········public IsolationLevel IsolationLevel |
3746 | ········{ |
3747 | ············get { return TransactionScope.IsolationLevel; } |
3748 | ············set { TransactionScope.IsolationLevel = value; } |
3749 | ········} |
3750 | |
3751 | ········internal class MappingTableEntry |
3752 | ········{ |
3753 | ············private IPersistenceCapable parentObject; |
3754 | ············private IPersistenceCapable relatedObject; |
3755 | ············private Relation relation; |
3756 | ············private bool deleteEntry; |
3757 | ············ |
3758 | ············public MappingTableEntry(IPersistenceCapable pc, IPersistenceCapable relObj, Relation r) : this(pc, relObj, r, false) |
3759 | ············{ |
3760 | ············} |
3761 | ············ |
3762 | ············public MappingTableEntry(IPersistenceCapable pc, IPersistenceCapable relObj, Relation r, bool deleteEntry) |
3763 | ············{ |
3764 | ················parentObject = pc; |
3765 | ················relatedObject = relObj; |
3766 | ················relation = r; |
3767 | ················this.deleteEntry = deleteEntry; |
3768 | ············} |
3769 | |
3770 | ············public bool DeleteEntry |
3771 | ············{ |
3772 | ················get |
3773 | ················{ |
3774 | ····················return deleteEntry; |
3775 | ················} |
3776 | ············} |
3777 | |
3778 | ············public IPersistenceCapable ParentObject |
3779 | ············{ |
3780 | ················get |
3781 | ················{ |
3782 | ····················return parentObject; |
3783 | ················} |
3784 | ············} |
3785 | |
3786 | ············public IPersistenceCapable RelatedObject |
3787 | ············{ |
3788 | ················get |
3789 | ················{ |
3790 | ····················return relatedObject; |
3791 | ················} |
3792 | ············} |
3793 | |
3794 | ············public Relation Relation |
3795 | ············{ |
3796 | ················get |
3797 | ················{ |
3798 | ····················return relation; |
3799 | ················} |
3800 | ············} |
3801 | ········} |
3802 | |
3803 | ········/// <summary> |
3804 | ········/// Get a DataRow representing the given object. |
3805 | ········/// </summary> |
3806 | ········/// <param name="o"></param> |
3807 | ········/// <returns></returns> |
3808 | ········public DataRow GetClonedDataRow( object o ) |
3809 | ········{ |
3810 | ············IPersistenceCapable pc = CheckPc( o ); |
3811 | |
3812 | ············if (pc.NDOObjectState == NDOObjectState.Deleted || pc.NDOObjectState == NDOObjectState.Transient) |
3813 | ················throw new Exception( "GetDataRow: State of the object must not be Deleted or Transient." ); |
3814 | |
3815 | ············DataRow row = cache.GetDataRow( pc ); |
3816 | ············DataTable newTable = row.Table.Clone(); |
3817 | ············newTable.ImportRow( row ); |
3818 | ············row = newTable.Rows[0]; |
3819 | |
3820 | ············Class cls = mappings.FindClass(o.GetType()); |
3821 | ············WriteObject( pc, row, cls.ColumnNames ); |
3822 | ············WriteForeignKeysToRow( pc, row ); |
3823 | |
3824 | ············return row; |
3825 | ········} |
3826 | |
3827 | ········/// <summary> |
3828 | ········/// Gets an object, which shows all changes applied to the given object. |
3829 | ········/// This function can be used to build an audit system. |
3830 | ········/// </summary> |
3831 | ········/// <param name="o"></param> |
3832 | ········/// <returns>An ExpandoObject</returns> |
3833 | ········public ChangeLog GetChangeSet( object o ) |
3834 | ········{ |
3835 | ············var changeLog = new ChangeLog(this); |
3836 | ············changeLog.Initialize( o ); |
3837 | ············return changeLog; |
3838 | ········} |
3839 | |
3840 | ········/// <summary> |
3841 | ········/// Outputs a revision number representing the assembly version. |
3842 | ········/// </summary> |
3843 | ········/// <remarks>This can be used for debugging purposes</remarks> |
3844 | ········public int Revision |
3845 | ········{ |
3846 | ············get |
3847 | ············{ |
3848 | ················Version v = new AssemblyName( GetType().Assembly.FullName ).Version; |
3849 | ················string vstring = String.Format( "{0}{1:D2}{2}{3:D2}", v.Major, v.Minor, v.Build, v.MinorRevision ); |
3850 | ················return int.Parse( vstring ); |
3851 | ············} |
3852 | ········} |
3853 | ····} |
3854 | } |
3855 |
New Commit (3eaf9d3)
1 | // |
2 | // Copyright (c) 2002-2016 Mirko Matytschak |
3 | // (www.netdataobjects.de) |
4 | // |
5 | // Author: Mirko Matytschak |
6 | // |
7 | // Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated |
8 | // documentation files (the "Software"), to deal in the Software without restriction, including without limitation |
9 | // the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the |
10 | // Software, and to permit persons to whom the Software is furnished to do so, subject to the following |
11 | // conditions: |
12 | |
13 | // The above copyright notice and this permission notice shall be included in all copies or substantial portions |
14 | // of the Software. |
15 | // |
16 | // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED |
17 | // TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL |
18 | // THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF |
19 | // CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER |
20 | // DEALINGS IN THE SOFTWARE. |
21 | |
22 | |
23 | using System; |
24 | using System.Text; |
25 | using System.IO; |
26 | using System.Collections; |
27 | using System.Collections.Generic; |
28 | using System.Data; |
29 | using System.Diagnostics; |
30 | using System.Reflection; |
31 | using System.Dynamic; |
32 | using System.Text.RegularExpressions; |
33 | using System.Linq; |
34 | using System.Xml.Linq; |
35 | |
36 | using NDO.Mapping; |
37 | using NDOInterfaces; |
38 | using NDO.ShortId; |
39 | using System.Globalization; |
40 | using NDO.Linq; |
41 | using NDO.Query; |
42 | using ST = System.Transactions; |
43 | using NDO.Configuration; |
44 | using NDO.ChangeLogging; |
45 | |
46 | namespace NDO |
47 | { |
48 | ····/// <summary> |
49 | ····/// Delegate type of an handler, which can be registered by the CollisionEvent of the PersistenceManager. |
50 | ····/// <see cref="NDO.PersistenceManager.CollisionEvent"/> |
51 | ····/// </summary> |
52 | ····public delegate void CollisionHandler(object o); |
53 | ····/// <summary> |
54 | ····/// Delegate type of an handler, which can be registered by the IdGenerationEvent event of the PersistenceManager. |
55 | ····/// <see cref="NDO.PersistenceManagerBase.IdGenerationEvent"/> |
56 | ····/// </summary> |
57 | ····public delegate void IdGenerationHandler(Type t, ObjectId oid); |
58 | ····/// <summary> |
59 | ····/// Delegate type of an handler, which can be registered by the OnSaving event of the PersistenceManager. |
60 | ····/// </summary> |
61 | ····public delegate void OnSavingHandler(ICollection l); |
62 | ····/// <summary> |
63 | ····/// Delegate type for the OnSavedEvent. |
64 | ····/// </summary> |
65 | ····/// <param name="auditSet"></param> |
66 | ····public delegate void OnSavedHandler(AuditSet auditSet); |
67 | |
68 | ····/// <summary> |
69 | ····/// Delegate type of an handler, which can be registered by the ObjectNotPresentEvent of the PersistenceManager. The event will be called, if LoadData doesn't find an object with the given oid. |
70 | ····/// </summary> |
71 | ····/// <param name="pc"></param> |
72 | ····/// <returns>A boolean value which determines, if the handler could solve the situation.</returns> |
73 | ····/// <remarks>If the handler returns false, NDO will throw an exception.</remarks> |
74 | ····public delegate bool ObjectNotPresentHandler( IPersistenceCapable pc ); |
75 | |
76 | ····/// <summary> |
77 | ····/// Standard implementation of the IPersistenceManager interface. Provides transaction like manipulation of data sets. |
78 | ····/// This is the main class you'll work with in your application code. For more information see the topic "Persistence Manager" in the NDO Documentation. |
79 | ····/// </summary> |
80 | ····public class PersistenceManager : PersistenceManagerBase, IPersistenceManager |
81 | ····{········ |
82 | ········private bool hollowMode = false; |
83 | ········private Dictionary<Relation, IMappingTableHandler> mappingHandler = new Dictionary<Relation,IMappingTableHandler>(); // currently used handlers |
84 | |
85 | ········private Hashtable currentRelations = new Hashtable(); // Contains names of current bidirectional relations |
86 | ········private ObjectLock removeLock = new ObjectLock(); |
87 | ········private ObjectLock addLock = new ObjectLock(); |
88 | ········private ArrayList createdDirectObjects = new ArrayList(); // List of newly created objects that need to be stored twice to update foreign keys. |
89 | ········// List of created objects that use mapping table and need to be stored in mapping table |
90 | ········// after they have been stored to the database to update foreign keys. |
91 | ········private ArrayList createdMappingTableObjects = new ArrayList();·· |
92 | ········private TypeManager typeManager; |
93 | ········internal bool DeferredMode { get; private set; } |
94 | ········private INDOTransactionScope transactionScope; |
95 | ········internal INDOTransactionScope TransactionScope => transactionScope ?? (transactionScope = ConfigContainer.Resolve<INDOTransactionScope>());········ |
96 | |
97 | ········private OpenConnectionListener openConnectionListener; |
98 | |
99 | ········/// <summary> |
100 | ········/// Register a listener to this event if you work in concurrent scenarios and you use TimeStamps. |
101 | ········/// If a collision occurs, this event gets fired and gives the opportunity to handle the situation. |
102 | ········/// </summary> |
103 | ········public event CollisionHandler CollisionEvent; |
104 | |
105 | ········/// <summary> |
106 | ········/// Register a listener to this event to handle situations where LoadData doesn't find an object. |
107 | ········/// The listener can determine, whether an exception should be thrown, if the situation occurs. |
108 | ········/// </summary> |
109 | ········public event ObjectNotPresentHandler ObjectNotPresentEvent; |
110 | |
111 | ········/// <summary> |
112 | ········/// Register a listener to this event, if you want to be notified about the end |
113 | ········/// of a transaction. The listener gets a ICollection of all objects, which have been changed |
114 | ········/// during the transaction and are to be saved or deleted. |
115 | ········/// </summary> |
116 | ········public event OnSavingHandler OnSavingEvent; |
117 | ········/// <summary> |
118 | ········/// This event is fired at the very end of the Save() method. It provides lists of the added, changed, and deleted objects. |
119 | ········/// </summary> |
120 | ········public event OnSavedHandler OnSavedEvent; |
121 | ········ |
122 | ········private const string hollowMarker = "Hollow"; |
123 | ········private byte[] encryptionKey; |
124 | ········private List<RelationChangeRecord> relationChanges = new List<RelationChangeRecord>(); |
125 | ········private bool isClosing = false; |
126 | |
127 | ········/// <summary> |
128 | ········/// Gets a list of structures which represent relation changes, i.e. additions and removals |
129 | ········/// </summary> |
130 | ········protected internal List<RelationChangeRecord> RelationChanges |
131 | ········{ |
132 | ············get { return this.relationChanges; } |
133 | ········} |
134 | |
135 | ········/// <summary> |
136 | ········/// Initializes a new PersistenceManager instance. |
137 | ········/// </summary> |
138 | ········/// <param name="mappingFileName"></param> |
139 | ········protected override void Init(string mappingFileName) |
140 | ········{ |
141 | ············try |
142 | ············{ |
143 | ················base.Init(mappingFileName); |
144 | ············} |
145 | ············catch (Exception ex) |
146 | ············{ |
147 | ················if (ex is NDOException) |
148 | ····················throw ex; |
149 | ················throw new NDOException(30, "Persistence manager initialization error: " + ex.ToString()); |
150 | ············} |
151 | |
152 | ········} |
153 | |
154 | ········/// <summary> |
155 | ········/// Initializes the persistence manager |
156 | ········/// </summary> |
157 | ········/// <remarks> |
158 | ········/// Note: This is the method, which will be called from all different ways to instantiate a PersistenceManagerBase. |
159 | ········/// </remarks> |
160 | ········/// <param name="mapping"></param> |
161 | ········internal override void Init( Mappings mapping ) |
162 | ········{ |
163 | ············ConfigContainer.RegisterType<INDOTransactionScope, NDOTransactionScope>(); |
164 | |
165 | ············base.Init( mapping ); |
166 | |
167 | ············string dir = Path.GetDirectoryName( mapping.FileName ); |
168 | |
169 | ············string typesFile = Path.Combine( dir, "NDOTypes.xml" ); |
170 | ············typeManager = new TypeManager( typesFile, this.mappings ); |
171 | |
172 | ············sm = new StateManager( this ); |
173 | |
174 | ············InitClasses(); |
175 | ········} |
176 | |
177 | |
178 | ········/// <summary> |
179 | ········/// Standard Constructor. |
180 | ········/// </summary> |
181 | ········/// <remarks> |
182 | ········/// Searches for a mapping file in the application directory. |
183 | ········/// The constructor tries to find a file with the same name as |
184 | ········/// the assembly, but with the extension .ndo.xml. If the file is not found the constructor tries to find a |
185 | ········/// file called AssemblyName.ndo.mapping in the application directory. |
186 | ········/// </remarks> |
187 | ········public PersistenceManager() : base() |
188 | ········{ |
189 | ········} |
190 | |
191 | ········/// <summary> |
192 | ········/// Loads the mapping file from the specified location. This allows to use |
193 | ········/// different mapping files with different classes mapped in it. |
194 | ········/// </summary> |
195 | ········/// <param name="mappingFile">Path to the mapping file.</param> |
196 | ········/// <remarks>Only the Professional and Enterprise |
197 | ········/// Editions can handle more than one mapping file.</remarks> |
198 | ········public PersistenceManager(string mappingFile) : base (mappingFile) |
199 | ········{ |
200 | ········} |
201 | |
202 | ········/// <summary> |
203 | ········/// Constructs a PersistenceManager and reuses a cached NDOMapping. |
204 | ········/// </summary> |
205 | ········/// <param name="mapping">The cached mapping object</param> |
206 | ········public PersistenceManager(NDOMapping mapping) : base (mapping) |
207 | ········{ |
208 | ········} |
209 | |
210 | ········#region Object Container Stuff |
211 | ········/// <summary> |
212 | ········/// Gets a container of all loaded objects and tries to load all child objects, |
213 | ········/// which are reachable through composite relations. |
214 | ········/// </summary> |
215 | ········/// <returns>An ObjectContainer object.</returns> |
216 | ········/// <remarks> |
217 | ········/// It is not recommended, to transfer objects with a state other than Hollow, |
218 | ········/// Persistent, or Transient. |
219 | ········/// The transfer format is binary. |
220 | ········/// </remarks> |
221 | ········public ObjectContainer GetObjectContainer() |
222 | ········{ |
223 | ············IList l = this.cache.AllObjects; |
224 | ············foreach(IPersistenceCapable pc in l) |
225 | ············{ |
226 | ················if (pc.NDOObjectState == NDOObjectState.PersistentDirty) |
227 | ················{ |
228 | ····················if (this.VerboseMode) |
229 | ························this.LogAdapter.Warn("Call to GetObjectContainer returns changed objects."); |
230 | ····················System.Diagnostics.Trace.WriteLine("NDO warning: Call to GetObjectContainer returns changed objects."); |
231 | ················} |
232 | ············} |
233 | ············ObjectContainer oc = new ObjectContainer(); |
234 | ············oc.AddList(l); |
235 | ············return oc; |
236 | ········} |
237 | |
238 | ········/// <summary> |
239 | ········/// Returns a container of all objects provided in the objects list and searches for |
240 | ········/// child objects according to the serFlags. |
241 | ········/// </summary> |
242 | ········/// <param name="objects">The list of the root objects to add to the container.</param> |
243 | ········/// <returns>An ObjectContainer object.</returns> |
244 | ········/// <remarks> |
245 | ········/// It is not recommended, to transfer objects with a state other than Hollow, |
246 | ········/// Persistent, or Transient. |
247 | ········/// </remarks> |
248 | ········public ObjectContainer GetObjectContainer(IList objects) |
249 | ········{ |
250 | ············foreach(object o in objects) |
251 | ············{ |
252 | ················CheckPc(o); |
253 | ················IPersistenceCapable pc = o as IPersistenceCapable; |
254 | ················if (pc.NDOObjectState == NDOObjectState.Hollow) |
255 | ····················LoadData(pc); |
256 | ············} |
257 | ············ObjectContainer oc = new ObjectContainer(); |
258 | ············oc.AddList(objects); |
259 | ············return oc; |
260 | ········} |
261 | |
262 | |
263 | ········/// <summary> |
264 | ········/// Returns a container containing the provided object |
265 | ········/// and tries to load all child objects |
266 | ········/// reachable through composite relations. |
267 | ········/// </summary> |
268 | ········/// <param name="obj">The object to be added to the container.</param> |
269 | ········/// <returns>An ObjectContainer object.</returns> |
270 | ········/// <remarks> |
271 | ········/// It is not recommended, to transfer objects with a state other than Hollow, |
272 | ········/// Persistent, or Transient. |
273 | ········/// The transfer format is binary. |
274 | ········/// </remarks> |
275 | ········public ObjectContainer GetObjectContainer(Object obj) |
276 | ········{ |
277 | ············CheckPc(obj); |
278 | ············if (((IPersistenceCapable)obj).NDOObjectState == NDOObjectState.Hollow) |
279 | ················LoadData(obj); |
280 | ············ObjectContainer oc = new ObjectContainer(); |
281 | ············oc.AddObject(obj); |
282 | ············return oc; |
283 | ········} |
284 | |
285 | ········/// <summary> |
286 | ········/// Merges an object container to the active objects in the pm. All changes and the state |
287 | ········/// of the objects will be taken over by the pm. |
288 | ········/// </summary> |
289 | ········/// <remarks> |
290 | ········/// The parameter can be either an ObjectContainer or a ChangeSetContainer. |
291 | ········/// The flag MarkAsTransient can be used to perform a kind |
292 | ········/// of object based replication using the ObjectContainer class. |
293 | ········/// Objects, which are persistent at one machine, can be transfered |
294 | ········/// to a second machine and treated by the receiving PersistenceManager like a newly created |
295 | ········/// object. The receiving PersistenceManager will use MakePersistent to store the whole |
296 | ········/// transient object tree. |
297 | ········/// There is one difference to freshly created objects: If an object id exists, it will be |
298 | ········/// serialized. If the NDOOidType-Attribute is valid for the given class, the transfered |
299 | ········/// oids will be reused by the receiving PersistenceManager. |
300 | ········/// </remarks> |
301 | ········/// <param name="ocb">The object container to be merged.</param> |
302 | ········public void MergeObjectContainer(ObjectContainerBase ocb) |
303 | ········{ |
304 | ············ChangeSetContainer csc = ocb as ChangeSetContainer; |
305 | ············if (csc != null) |
306 | ············{ |
307 | ················MergeChangeSet(csc); |
308 | ················return; |
309 | ············} |
310 | ············ObjectContainer oc = ocb as ObjectContainer; |
311 | ············if (oc != null) |
312 | ············{ |
313 | ················InternalMergeObjectContainer(oc); |
314 | ················return; |
315 | ············} |
316 | ············throw new NDOException(42, "Wrong argument type: MergeObjectContainer expects either an ObjectContainer or a ChangeSetContainer object as parameter."); |
317 | ········} |
318 | |
319 | |
320 | ········void InternalMergeObjectContainer(ObjectContainer oc) |
321 | ········{ |
322 | ············// TODO: Check, if other states are useful. Find use scenarios. |
323 | ············foreach(IPersistenceCapable pc in oc.RootObjects) |
324 | ············{ |
325 | ················if (pc.NDOObjectState == NDOObjectState.Transient) |
326 | ····················MakePersistent(pc); |
327 | ············} |
328 | ············foreach(IPersistenceCapable pc in oc.RootObjects) |
329 | ············{ |
330 | ················new OnlineMergeIterator(this.sm, this.cache).Iterate(pc); |
331 | ············} |
332 | ········} |
333 | |
334 | ········void MergeChangeSet(ChangeSetContainer cs) |
335 | ········{ |
336 | ············foreach(IPersistenceCapable pc in cs.AddedObjects) |
337 | ············{ |
338 | ················InternalMakePersistent(pc, false); |
339 | ············} |
340 | ············foreach(ObjectId oid in cs.DeletedObjects) |
341 | ············{ |
342 | ················IPersistenceCapable pc2 = FindObject(oid); |
343 | ················Delete(pc2); |
344 | ············} |
345 | ············foreach(IPersistenceCapable pc in cs.ChangedObjects) |
346 | ············{ |
347 | ················IPersistenceCapable pc2 = FindObject(pc.NDOObjectId); |
348 | ················Class pcClass = GetClass(pc); |
349 | ················// Make sure, the object is loaded. |
350 | ················if (pc2.NDOObjectState == NDOObjectState.Hollow) |
351 | ····················LoadData(pc2); |
352 | ················MarkDirty( pc2 );··// This locks the object and generates a LockEntry, which contains a row |
353 | ················var entry = cache.LockedObjects.FirstOrDefault( e => e.pc.NDOObjectId == pc.NDOObjectId ); |
354 | ················DataRow row = entry.row; |
355 | ················pc.NDOWrite(row, pcClass.ColumnNames, 0); |
356 | ················pc2.NDORead(row, pcClass.ColumnNames, 0); |
357 | ············} |
358 | ············foreach(RelationChangeRecord rcr in cs.RelationChanges) |
359 | ············{ |
360 | ················IPersistenceCapable parent = FindObject(rcr.Parent.NDOObjectId); |
361 | ················IPersistenceCapable child = FindObject(rcr.Child.NDOObjectId); |
362 | ················Class pcClass = GetClass(parent); |
363 | ················Relation r = pcClass.FindRelation(rcr.RelationName); |
364 | ················if (!parent.NDOLoadState.RelationLoadState[r.Ordinal]) |
365 | ····················LoadRelation(parent, r, true); |
366 | ················if (rcr.IsAdded) |
367 | ················{ |
368 | ····················InternalAddRelatedObject(parent, r, child, true); |
369 | ····················if (r.Multiplicity == RelationMultiplicity.Element) |
370 | ····················{ |
371 | ························mappings.SetRelationField(parent, r.FieldName, child); |
372 | ····················} |
373 | ····················else |
374 | ····················{ |
375 | ························IList l = mappings.GetRelationContainer(parent, r); |
376 | ························l.Add(child); |
377 | ····················} |
378 | ················} |
379 | ················else |
380 | ················{ |
381 | ····················RemoveRelatedObject(parent, r.FieldName, child); |
382 | ····················if (r.Multiplicity == RelationMultiplicity.Element) |
383 | ····················{ |
384 | ························mappings.SetRelationField(parent, r.FieldName, null); |
385 | ····················} |
386 | ····················else |
387 | ····················{ |
388 | ························IList l = mappings.GetRelationContainer(parent, r); |
389 | ························try |
390 | ························{ |
391 | ····························ObjectListManipulator.Remove(l, child); |
392 | ························} |
393 | ························catch |
394 | ························{ |
395 | ····························throw new NDOException(50, "Error while merging a ChangeSetContainer: Child " + child.NDOObjectId.ToString() + " doesn't exist in relation " + parent.GetType().FullName + '.' + r.FieldName); |
396 | ························} |
397 | ····················} |
398 | ················} |
399 | ············} |
400 | |
401 | ········} |
402 | ········#endregion |
403 | |
404 | ········#region Implementation of IPersistenceManager |
405 | |
406 | ········// Complete documentation can be found in IPersistenceManager |
407 | |
408 | |
409 | ········void WriteDependentForeignKeysToRow(IPersistenceCapable pc, Class cl, DataRow row) |
410 | ········{ |
411 | ············if (!cl.Oid.IsDependent) |
412 | ················return; |
413 | ············WriteForeignKeysToRow(pc, row); |
414 | ········} |
415 | |
416 | ········void InternalMakePersistent(IPersistenceCapable pc, bool checkRelations) |
417 | ········{ |
418 | ············// Object is now under control of the state manager |
419 | ············pc.NDOStateManager = sm; |
420 | |
421 | ············Type pcType = pc.GetType(); |
422 | ············Class pcClass = GetClass(pc); |
423 | |
424 | ············// Create new object |
425 | ············DataTable dt = GetTable(pcType); |
426 | ············DataRow row = dt.NewRow();·· // In case of autoincremented oid, the row has a temporary oid value |
427 | |
428 | ············// In case of a Guid oid the value will be computed now. |
429 | ············foreach (OidColumn oidColumn in pcClass.Oid.OidColumns) |
430 | ············{ |
431 | ················if (oidColumn.SystemType == typeof(Guid) && oidColumn.FieldName == null && oidColumn.RelationName ==null) |
432 | ················{ |
433 | ····················if (dt.Columns[oidColumn.Name].DataType == typeof(string)) |
434 | ························row[oidColumn.Name] = Guid.NewGuid().ToString(); |
435 | ····················else |
436 | ························row[oidColumn.Name] = Guid.NewGuid(); |
437 | ················} |
438 | ············} |
439 | |
440 | ············WriteObject(pc, row, pcClass.ColumnNames, 0); // save current state in DS |
441 | |
442 | ············// If the object is merged from an ObjectContainer, the id should be reused, |
443 | ············// if the id is client generated (not Autoincremented). |
444 | ············// In every other case, the oid is set to null, to force generating a new oid. |
445 | ············bool fireIdGeneration = (Object)pc.NDOObjectId == null; |
446 | ············if ((object)pc.NDOObjectId != null) |
447 | ············{ |
448 | ················bool hasAutoincrement = false; |
449 | ················foreach (OidColumn oidColumn in pcClass.Oid.OidColumns) |
450 | ················{ |
451 | ····················if (oidColumn.AutoIncremented) |
452 | ····················{ |
453 | ························hasAutoincrement = true; |
454 | ························break; |
455 | ····················} |
456 | ················} |
457 | ················if (hasAutoincrement) // can't store existing id |
458 | ················{ |
459 | ····················pc.NDOObjectId = null; |
460 | ····················fireIdGeneration = true; |
461 | ················} |
462 | ············} |
463 | |
464 | ············// In case of a dependent class the oid has to be read from the fields according to the relations |
465 | ············WriteDependentForeignKeysToRow(pc, pcClass, row); |
466 | |
467 | ············if ((object)pc.NDOObjectId == null) |
468 | ············{ |
469 | ················pc.NDOObjectId = ObjectIdFactory.NewObjectId(pcType, pcClass, row, this.typeManager); |
470 | ············} |
471 | |
472 | ············if (!pcClass.Oid.IsDependent) // Dependent keys can't be filled with user defined data |
473 | ············{ |
474 | ················if (fireIdGeneration) |
475 | ····················FireIdGenerationEvent(pcType, pc.NDOObjectId); |
476 | ················// At this place the oid might have been |
477 | ················// - deserialized (MergeObjectContainer) |
478 | ················// - created using NewObjectId |
479 | ················// - defined by the IdGenerationEvent |
480 | |
481 | ················// At this point we have a valid oid. |
482 | ················// If the object has a field mapped to the oid we have |
483 | ················// to write back the oid to the field |
484 | ················int i = 0; |
485 | ················new OidColumnIterator(pcClass).Iterate(delegate(OidColumn oidColumn, bool isLastElement) |
486 | ················{ |
487 | ····················if (oidColumn.FieldName != null) |
488 | ····················{ |
489 | ························FieldInfo fi = new BaseClassReflector(pcType).GetField(oidColumn.FieldName, BindingFlags.NonPublic | BindingFlags.Instance); |
490 | ························fi.SetValue(pc, pc.NDOObjectId.Id[i]); |
491 | ····················} |
492 | ····················i++; |
493 | ················}); |
494 | |
495 | |
496 | |
497 | ················// Now write back the data into the row |
498 | ················pc.NDOObjectId.Id.ToRow(pcClass, row); |
499 | ············} |
500 | |
501 | ············ |
502 | ············ReadLostForeignKeysFromRow(pcClass, pc, row);··// they contain all DBNull at the moment |
503 | ············dt.Rows.Add(row); |
504 | |
505 | ············cache.Register(pc); |
506 | |
507 | ············// new object that has never been written to the DS |
508 | ············pc.NDOObjectState = NDOObjectState.Created; |
509 | ············// Mark all Relations as loaded |
510 | ············SetRelationState(pc); |
511 | |
512 | ············if (checkRelations) |
513 | ············{ |
514 | ················// Handle related objects: |
515 | ················foreach(Relation r in pcClass.Relations) |
516 | ················{ |
517 | ····················if (r.Multiplicity == RelationMultiplicity.Element) |
518 | ····················{ |
519 | ························IPersistenceCapable child = (IPersistenceCapable) mappings.GetRelationField(pc, r.FieldName); |
520 | ························if(child != null) |
521 | ························{ |
522 | ····························AddRelatedObject(pc, r, child); |
523 | ························} |
524 | ····················} |
525 | ····················else |
526 | ····················{ |
527 | ························IList list = mappings.GetRelationContainer(pc, r); |
528 | ························if(list != null) |
529 | ························{ |
530 | ····························foreach(IPersistenceCapable relObj in list) |
531 | ····························{ |
532 | ································if (relObj != null) |
533 | ····································AddRelatedObject(pc, r, relObj); |
534 | ····························} |
535 | ························} |
536 | ····················} |
537 | ················} |
538 | ············} |
539 | |
540 | ············var relations··= CollectRelationStates(pc); |
541 | ············cache.Lock(pc, row, relations); |
542 | ········} |
543 | |
544 | |
545 | ········/// <summary> |
546 | ········/// Make an object persistent. |
547 | ········/// </summary> |
548 | ········/// <param name="o">the transient object that should be made persistent</param> |
549 | ········public void MakePersistent(object o) |
550 | ········{ |
551 | ············IPersistenceCapable pc = CheckPc(o); |
552 | |
553 | ············//Debug.WriteLine("MakePersistent: " + pc.GetType().Name); |
554 | ············//Debug.Indent(); |
555 | |
556 | ············if (pc.NDOObjectState != NDOObjectState.Transient) |
557 | ················throw new NDOException(54, "MakePersistent: Object is already persistent: " + pc.NDOObjectId.Dump()); |
558 | |
559 | ············InternalMakePersistent(pc, true); |
560 | |
561 | ········} |
562 | |
563 | |
564 | |
565 | ········//········/// <summary> |
566 | ········//········/// Checks, if an object has a valid id, which was created by the database |
567 | ········//········/// </summary> |
568 | ········//········/// <param name="pc"></param> |
569 | ········//········/// <returns></returns> |
570 | ········//········private bool HasValidId(IPersistenceCapable pc) |
571 | ········//········{ |
572 | ········//············if (this.IdGenerationEvent != null) |
573 | ········//················return true; |
574 | ········//············return (pc.NDOObjectState != NDOObjectState.Created && pc.NDOObjectState != NDOObjectState.Transient); |
575 | ········//········} |
576 | |
577 | |
578 | ········private void CreateAddedObjectRow(IPersistenceCapable pc, Relation r, IPersistenceCapable relObj, bool makeRelObjPersistent) |
579 | ········{ |
580 | ············// for a "1:n"-Relation w/o mapping table, we add the foreign key here. |
581 | ············if(r.HasSubclasses) |
582 | ············{ |
583 | ················// we don't support 1:n with foreign fields in subclasses because we would have to |
584 | ················// search for objects in all subclasses! Instead use a mapping table. |
585 | ················// throw new NDOException(55, "1:n Relations with subclasses must use a mapping table: " + r.FieldName); |
586 | ················Debug.WriteLine("CreateAddedObjectRow: Polymorphic 1:n-relation " + r.Parent.FullName + "." + r.FieldName + " w/o mapping table"); |
587 | ············} |
588 | |
589 | ············if (!makeRelObjPersistent) |
590 | ················MarkDirty(relObj); |
591 | ············// Because we just marked the object as dirty, we know it's in the cache, so we don't supply the idColumn |
592 | ············DataRow relObjRow = this.cache.GetDataRow(relObj); |
593 | |
594 | ············if (relObjRow == null) |
595 | ················throw new InternalException(537, "CreateAddedObjectRow: relObjRow == null"); |
596 | |
597 | ············pc.NDOObjectId.Id.ToForeignKey(r, relObjRow); |
598 | |
599 | ············if (relObj.NDOLoadState.LostRowInfo == null) |
600 | ············{ |
601 | ················ReadLostForeignKeysFromRow(GetClass(relObj), relObj, relObjRow); |
602 | ············} |
603 | ············else |
604 | ············{ |
605 | ················relObj.NDOLoadState.ReplaceRowInfos(r, pc.NDOObjectId.Id); |
606 | ············} |
607 | ········} |
608 | |
609 | ········private void PatchForeignRelation(IPersistenceCapable pc, Relation r, IPersistenceCapable relObj) |
610 | ········{ |
611 | ············switch(relObj.NDOObjectState) |
612 | ············{ |
613 | ················case NDOObjectState.Persistent: |
614 | ····················MarkDirty(relObj); |
615 | ····················break; |
616 | ················case NDOObjectState.Hollow: |
617 | ····················LoadData(relObj); |
618 | ····················MarkDirty(relObj); |
619 | ····················break; |
620 | ············} |
621 | |
622 | ············if(r.ForeignRelation.Multiplicity == RelationMultiplicity.Element) |
623 | ············{ |
624 | ················IPersistenceCapable newpc; |
625 | ················if((newpc = (IPersistenceCapable) mappings.GetRelationField(relObj, r.ForeignRelation.FieldName)) != null) |
626 | ················{ |
627 | ····················if (newpc != pc) |
628 | ························throw new NDOException(56, "Object is already part of another relation: " + relObj.NDOObjectId.Dump()); |
629 | ················} |
630 | ················else |
631 | ················{ |
632 | ····················mappings.SetRelationField(relObj, r.ForeignRelation.FieldName, pc); |
633 | ················} |
634 | ············} |
635 | ············else |
636 | ············{ |
637 | ················if (!relObj.NDOGetLoadState(r.ForeignRelation.Ordinal)) |
638 | ····················LoadRelation(relObj, r.ForeignRelation, true); |
639 | ················IList l = mappings.GetRelationContainer(relObj, r.ForeignRelation); |
640 | ················if(l == null) |
641 | ················{ |
642 | ····················try |
643 | ····················{ |
644 | ························l = mappings.CreateRelationContainer(relObj, r.ForeignRelation); |
645 | ····················} |
646 | ····················catch |
647 | ····················{ |
648 | ························throw new NDOException(57, "Can't construct IList member " + relObj.GetType().FullName + "." + r.FieldName + ". Initialize the field in the default class constructor."); |
649 | ····················} |
650 | ····················mappings.SetRelationContainer(relObj, r.ForeignRelation, l); |
651 | ················} |
652 | ················// Hack: Es sollte erst gar nicht zu diesem Aufruf kommen. |
653 | ················// Zus�tzlicher Funktions-Parameter addObjectToList oder so. |
654 | ················if (!ObjectListManipulator.Contains(l, pc)) |
655 | ····················l.Add(pc); |
656 | ············} |
657 | ············//AddRelatedObject(relObj, r.ForeignRelation, pc); |
658 | ········} |
659 | |
660 | |
661 | ········/// <summary> |
662 | ········/// Add a related object to the specified object. |
663 | ········/// </summary> |
664 | ········/// <param name="pc">the parent object</param> |
665 | ········/// <param name="fieldName">the field name of the relation</param> |
666 | ········/// <param name="relObj">the related object that should be added</param> |
667 | ········internal virtual void AddRelatedObject(IPersistenceCapable pc, string fieldName, IPersistenceCapable relObj) |
668 | ········{ |
669 | ············Debug.Assert(pc.NDOObjectState != NDOObjectState.Transient); |
670 | ············Relation r = mappings.FindRelation(pc, fieldName); |
671 | ············AddRelatedObject(pc, r, relObj); |
672 | ········} |
673 | |
674 | ········/// <summary> |
675 | ········/// Core functionality to add an object to a relation container or relation field. |
676 | ········/// </summary> |
677 | ········/// <param name="pc"></param> |
678 | ········/// <param name="r"></param> |
679 | ········/// <param name="relObj"></param> |
680 | ········/// <param name="isMerging"></param> |
681 | ········protected virtual void InternalAddRelatedObject(IPersistenceCapable pc, Relation r, IPersistenceCapable relObj, bool isMerging) |
682 | ········{ |
683 | ············ |
684 | ············// avoid recursion |
685 | ············if (!addLock.GetLock(relObj)) |
686 | ················return; |
687 | |
688 | ············try |
689 | ············{ |
690 | ················//TODO: We need a relation management, which is independent of |
691 | ················//the state management of an object. Currently the relation |
692 | ················//lists or elements are cached for restore, if an object is marked dirty. |
693 | ················//Thus we have to mark dirty our parent object in any case at the moment. |
694 | ················MarkDirty(pc); |
695 | |
696 | ················//We should mark pc as dirty if we have a 1:1 w/o mapping table |
697 | ················//We should mark relObj as dirty if we have a 1:n w/o mapping table |
698 | ················//The latter happens in CreateAddedObjectRow |
699 | |
700 | ················Class relClass = GetClass(relObj); |
701 | |
702 | ················if (r.Multiplicity == RelationMultiplicity.Element |
703 | ····················&& r.HasSubclasses |
704 | ····················&& r.MappingTable == null················ |
705 | ····················&& !this.HasOwnerCreatedIds |
706 | ····················&& GetClass(pc).Oid.HasAutoincrementedColumn |
707 | ····················&& !relClass.HasGuidOid) |
708 | ················{ |
709 | ····················if (pc.NDOObjectState == NDOObjectState.Created && (relObj.NDOObjectState == NDOObjectState.Created || relObj.NDOObjectState == NDOObjectState.Transient )) |
710 | ························throw new NDOException(61, "Can't assign object of type " + relObj + " to relation " + pc.GetType().FullName + "." + r.FieldName + ". The parent object must be saved first to obtain the Id (for example with pm.Save(true)). As an alternative you can use client generated Id's or a mapping table."); |
711 | ····················if (r.Composition) |
712 | ························throw new NDOException(62, "Can't assign object of type " + relObj + " to relation " + pc.GetType().FullName + "." + r.FieldName + ". Can't handle a polymorphic composite relation with cardinality 1 with autonumbered id's. Use a mapping table or client generated id's."); |
713 | ····················if (relObj.NDOObjectState == NDOObjectState.Created || relObj.NDOObjectState == NDOObjectState.Transient) |
714 | ························throw new NDOException(63, "Can't assign an object of type " + relObj + " to relation " + pc.GetType().FullName + "." + r.FieldName + ". The child object must be saved first to obtain the Id (for example with pm.Save(true)). As an alternative you can use client generated Id's or a mapping table." ); |
715 | ················} |
716 | |
717 | ················bool isDependent = relClass.Oid.IsDependent; |
718 | |
719 | ················if (r.Multiplicity == RelationMultiplicity.Element && isDependent) |
720 | ····················throw new NDOException(28, "Relations to intermediate classes must have RelationMultiplicity.List."); |
721 | |
722 | ················// Need to patch pc into the relation relObj->pc, because |
723 | ················// the oid is built on base of this information |
724 | ················if (isDependent) |
725 | ················{ |
726 | ····················CheckDependentKeyPreconditions(pc, r, relObj, relClass); |
727 | ················} |
728 | |
729 | ················if (r.Composition || isDependent) |
730 | ················{ |
731 | ····················if (!isMerging || relObj.NDOObjectState == NDOObjectState.Transient) |
732 | ························MakePersistent(relObj); |
733 | ················} |
734 | |
735 | ················if(r.MappingTable == null) |
736 | ················{ |
737 | ····················if (r.Bidirectional) |
738 | ····················{ |
739 | ························// This object hasn't been saved yet, so the key is wrong. |
740 | ························// Therefore, the child must be written twice to update the foreign key. |
741 | #if trace |
742 | ························System.Text.StringBuilder sb = new System.Text.StringBuilder(); |
743 | ························if (r.Multiplicity == RelationMultiplicity.Element) |
744 | ····························sb.Append("1"); |
745 | ························else |
746 | ····························sb.Append("n"); |
747 | ························sb.Append(":"); |
748 | ························if (r.ForeignRelation.Multiplicity == RelationMultiplicity.Element) |
749 | ····························sb.Append("1"); |
750 | ························else |
751 | ····························sb.Append("n"); |
752 | ························sb.Append ("OwnCreatedOther"); |
753 | ························sb.Append(relObj.NDOObjectState.ToString()); |
754 | ························sb.Append(' '); |
755 | |
756 | ························sb.Append(types[0].ToString()); |
757 | ························sb.Append(' '); |
758 | ························sb.Append(types[1].ToString()); |
759 | ························Debug.WriteLine(sb.ToString()); |
760 | #endif |
761 | ························//························if (r.Multiplicity == RelationMultiplicity.Element |
762 | ························//····························&& r.ForeignRelation.Multiplicity == RelationMultiplicity.Element) |
763 | ························//························{ |
764 | ························// Element means: |
765 | ························// pc is keyholder |
766 | ························// -> relObj is saved first |
767 | ························// -> UpdateOrder(pc) > UpdateOrder(relObj) |
768 | ························// Both are Created - use type sort order |
769 | ························if (pc.NDOObjectState == NDOObjectState.Created && (relObj.NDOObjectState == NDOObjectState.Created || relObj.NDOObjectState == NDOObjectState.Transient) |
770 | ····························&& GetClass(pc).Oid.HasAutoincrementedColumn && GetClass(relObj).Oid.HasAutoincrementedColumn) |
771 | ························{ |
772 | ····························if (mappings.GetUpdateOrder(pc.GetType()) |
773 | ································< mappings.GetUpdateOrder(relObj.GetType())) |
774 | ································createdDirectObjects.Add(pc); |
775 | ····························else |
776 | ································createdDirectObjects.Add( relObj ); |
777 | ························} |
778 | ····················} |
779 | ····················if (r.Multiplicity == RelationMultiplicity.List) |
780 | ····················{ |
781 | ························CreateAddedObjectRow(pc, r, relObj, r.Composition); |
782 | ····················} |
783 | ················} |
784 | ················else |
785 | ················{ |
786 | ····················createdMappingTableObjects.Add(new MappingTableEntry(pc, relObj, r)); |
787 | ················} |
788 | ················if(r.Bidirectional) |
789 | ················{ |
790 | ····················if (r.Multiplicity == RelationMultiplicity.List && mappings.GetRelationField(relObj, r.ForeignRelation.FieldName) == null) |
791 | ····················{ |
792 | ························if ( r.ForeignRelation.Multiplicity == RelationMultiplicity.Element ) |
793 | ····························mappings.SetRelationField(relObj, r.ForeignRelation.FieldName, pc); |
794 | ····················} |
795 | ····················else if ( !addLock.IsLocked( pc ) ) |
796 | ····················{ |
797 | ························PatchForeignRelation( pc, r, relObj ); |
798 | ····················} |
799 | ················} |
800 | |
801 | ················this.relationChanges.Add( new RelationChangeRecord( pc, relObj, r.FieldName, true ) ); |
802 | ············} |
803 | ············finally |
804 | ············{ |
805 | ················addLock.Unlock(relObj); |
806 | ················//Debug.Unindent(); |
807 | ············} |
808 | ········} |
809 | |
810 | ········/// <summary> |
811 | ········/// Returns an integer value which determines the rank of the given type in the update order list. |
812 | ········/// </summary> |
813 | ········/// <param name="t">The type to determine the update order.</param> |
814 | ········/// <returns>An integer value determining the rank of the given type in the update order list.</returns> |
815 | ········/// <remarks> |
816 | ········/// This method is used by NDO for diagnostic purposes. There is no value in using this method in user code. |
817 | ········/// </remarks> |
818 | ········public int GetUpdateRank(Type t) |
819 | ········{ |
820 | ············return mappings.GetUpdateOrder(t); |
821 | ········} |
822 | |
823 | ········/// <summary> |
824 | ········/// Add a related object to the specified object. |
825 | ········/// </summary> |
826 | ········/// <param name="pc">the parent object</param> |
827 | ········/// <param name="r">the relation mapping info</param> |
828 | ········/// <param name="relObj">the related object that should be added</param> |
829 | ········protected virtual void AddRelatedObject(IPersistenceCapable pc, Relation r, IPersistenceCapable relObj) |
830 | ········{ |
831 | ············//············string idstr; |
832 | ············//············if (relObj.NDOObjectId == null) |
833 | ············//················idstr = relObj.GetType().ToString(); |
834 | ············//············else |
835 | ············//················idstr = relObj.NDOObjectId.Dump(); |
836 | ············//Debug.WriteLine("AddRelatedObject " + pc.NDOObjectId.Dump() + " " + idstr); |
837 | ············//Debug.Indent(); |
838 | |
839 | ············Class relClass = GetClass(relObj); |
840 | ············bool isDependent = relClass.Oid.IsDependent; |
841 | |
842 | ············// Do some checks to guarantee that the assignment is correct |
843 | ············if(r.Composition) |
844 | ············{ |
845 | ················if(relObj.NDOObjectState != NDOObjectState.Transient) |
846 | ················{ |
847 | ····················throw new NDOException(58, "Can only add transient objects in Composite relation " + pc.GetType().FullName + "->" + r.ReferencedTypeName + "."); |
848 | ················} |
849 | ············} |
850 | ············else |
851 | ············{ |
852 | ················if(relObj.NDOObjectState == NDOObjectState.Transient && !isDependent) |
853 | ················{ |
854 | ····················throw new NDOException(59, "Can only add persistent objects in Assoziation " + pc.GetType().FullName + "->" + r.ReferencedTypeName + "."); |
855 | ················} |
856 | ············} |
857 | |
858 | ············if(!r.ReferencedType.IsAssignableFrom(relObj.GetType())) |
859 | ············{ |
860 | ················throw new NDOException(60, "AddRelatedObject: Related object must be assignable to type: " + r.ReferencedTypeName + ". Assigned object was: " + relObj.NDOObjectId.Dump() + " Type = " + relObj.GetType()); |
861 | ············} |
862 | |
863 | ············InternalAddRelatedObject(pc, r, relObj, false); |
864 | |
865 | ········} |
866 | |
867 | ········private void CheckDependentKeyPreconditions(IPersistenceCapable pc, Relation r, IPersistenceCapable relObj, Class relClass) |
868 | ········{ |
869 | ············// Need to patch pc into the relation relObj->pc, because |
870 | ············// the oid is built on base of this information |
871 | ············// The second relation has to be set before adding relObj |
872 | ············// to the relation list. |
873 | ············PatchForeignRelation(pc, r, relObj); |
874 | ············IPersistenceCapable parent; |
875 | ············foreach (Relation oidRelation in relClass.Oid.Relations) |
876 | ············{ |
877 | ················parent = (IPersistenceCapable)mappings.GetRelationField(relObj, oidRelation.FieldName); |
878 | ················if (parent == null) |
879 | ····················throw new NDOException(41, "'" + relClass.FullName + "." + oidRelation.FieldName + "': One of the defining relations of a dependent class object is null - have a look at the documentation about how to initialize dependent class objects."); |
880 | ················if (parent.NDOObjectState == NDOObjectState.Transient) |
881 | ····················throw new NDOException(59, "Can only add persistent objects in Assoziation " + relClass.FullName + "." + oidRelation.FieldName + ". Make the object of type " + parent.GetType().FullName + " persistent."); |
882 | |
883 | ············} |
884 | ········} |
885 | |
886 | |
887 | ········/// <summary> |
888 | ········/// Remove a related object from the specified object. |
889 | ········/// </summary> |
890 | ········/// <param name="pc">the parent object</param> |
891 | ········/// <param name="fieldName">Field name of the relation</param> |
892 | ········/// <param name="relObj">the related object that should be removed</param> |
893 | ········internal virtual void RemoveRelatedObject(IPersistenceCapable pc, string fieldName, IPersistenceCapable relObj) |
894 | ········{ |
895 | ············Debug.Assert(pc.NDOObjectState != NDOObjectState.Transient); |
896 | ············Relation r = mappings.FindRelation(pc, fieldName); |
897 | ············InternalRemoveRelatedObject(pc, r, relObj, true); |
898 | ········} |
899 | |
900 | ········/// <summary> |
901 | ········/// Registers a listener which will be notified, if a new connection is opened. |
902 | ········/// </summary> |
903 | ········/// <param name="listener">Delegate of a listener function</param> |
904 | ········/// <remarks>The listener is called the first time a certain connection is used. A call to Save() resets the connection list so that the listener is called again.</remarks> |
905 | ········public virtual void RegisterConnectionListener(OpenConnectionListener listener) |
906 | ········{ |
907 | ············this.openConnectionListener = listener; |
908 | ········} |
909 | |
910 | ········internal string OnNewConnection(NDO.Mapping.Connection conn) |
911 | ········{ |
912 | ············if (openConnectionListener != null) |
913 | ················return openConnectionListener(conn); |
914 | ············return conn.Name; |
915 | ········} |
916 | |
917 | |
918 | ········/* |
919 | ········doCommit should be: |
920 | ········ |
921 | ····················Query····Save····Save(true) |
922 | ········Optimistic····1········1········0 |
923 | ········Pessimistic····0········1········0 |
924 | ············ |
925 | ········Deferred Mode············ |
926 | ····················Query····Save····Save(true) |
927 | ········Optimistic····0········1········0 |
928 | ········Pessimistic····0········1········0 |
929 | ········ */ |
930 | |
931 | ········internal void CheckEndTransaction(bool doCommit) |
932 | ········{ |
933 | ············if (doCommit) |
934 | ············{ |
935 | ················TransactionScope.Complete(); |
936 | ············} |
937 | ········} |
938 | |
939 | ········internal void CheckTransaction(IPersistenceHandlerBase handler, Type t) |
940 | ········{ |
941 | ············CheckTransaction(handler, this.GetClass(t).Connection); |
942 | ········} |
943 | |
944 | ········/// <summary> |
945 | ········/// Each and every database operation has to be preceded by a call to this function. |
946 | ········/// </summary> |
947 | ········internal void CheckTransaction( IPersistenceHandlerBase handler, Connection ndoConn ) |
948 | ········{ |
949 | ············TransactionScope.CheckTransaction(); |
950 | ············ |
951 | ············if (handler.Connection == null) |
952 | ············{ |
953 | ················handler.Connection = TransactionScope.GetConnection(ndoConn.ID, () => |
954 | ················{ |
955 | ····················IProvider p = ndoConn.Parent.GetProvider( ndoConn ); |
956 | ····················string connStr = this.OnNewConnection( ndoConn ); |
957 | ····················var connection = p.NewConnection( connStr ); |
958 | ····················if (connection == null) |
959 | ························throw new NDOException( 119, $"Can't construct connection for {connStr}. The provider returns null." ); |
960 | ····················LogIfVerbose( $"Creating a connection object for {ndoConn.DisplayName}" ); |
961 | ····················return connection; |
962 | ················} ); |
963 | ············} |
964 | |
965 | ············if (TransactionMode != TransactionMode.None) |
966 | ············{ |
967 | ················handler.Transaction = TransactionScope.GetTransaction( ndoConn.ID ); |
968 | ············} |
969 | |
970 | ············// During the tests, we work with a handler mock that always returns zero for the Connection property. |
971 | ············if (handler.Connection != null && handler.Connection.State != ConnectionState.Open) |
972 | ············{ |
973 | ················handler.Connection.Open(); |
974 | ················LogIfVerbose( $"Opening connection {ndoConn.DisplayName}" ); |
975 | ············} |
976 | ········} |
977 | |
978 | ········/// <summary> |
979 | ········/// Event Handler for the ConcurrencyError event of the IPersistenceHandler. |
980 | ········/// We try to tell the object which caused the concurrency exception, that a collicion occured. |
981 | ········/// This is possible if there is a listener for the CollisionEvent. |
982 | ········/// Else we throw an exception. |
983 | ········/// </summary> |
984 | ········/// <param name="ex">Concurrency Exception which was catched during update.</param> |
985 | ········private void OnConcurrencyError(System.Data.DBConcurrencyException ex) |
986 | ········{ |
987 | ············DataRow row = ex.Row; |
988 | ············if (row == null || CollisionEvent == null || CollisionEvent.GetInvocationList().Length == 0) |
989 | ················throw(ex); |
990 | ············if (row.RowState == DataRowState.Detached) |
991 | ················return; |
992 | ············foreach (Cache.Entry e in cache.LockedObjects) |
993 | ············{ |
994 | ················if (e.row == row) |
995 | ················{ |
996 | ····················CollisionEvent(e.pc); |
997 | ····················return; |
998 | ················} |
999 | ············} |
1000 | ············throw ex; |
1001 | ········} |
1002 | |
1003 | |
1004 | ········private void ReadObject(IPersistenceCapable pc, DataRow row, string[] fieldNames, int startIndex) |
1005 | ········{ |
1006 | ············Class cl = GetClass(pc); |
1007 | ············string[] etypes = cl.EmbeddedTypes.ToArray(); |
1008 | ············Dictionary<string,MemberInfo> persistentFields = null; |
1009 | ············if (etypes.Length > 0) |
1010 | ············{ |
1011 | ················FieldMap fm = new FieldMap(cl); |
1012 | ················persistentFields = fm.PersistentFields; |
1013 | ············} |
1014 | ············foreach(string s in etypes) |
1015 | ············{ |
1016 | ················try |
1017 | ················{ |
1018 | ····················NDO.Mapping.Field f = cl.FindField(s); |
1019 | ····················if (f == null) |
1020 | ························continue; |
1021 | ····················object o = row[f.Column.Name]; |
1022 | ····················string[] arr = s.Split('.'); |
1023 | ····················// Suche Embedded Type-Feld mit Namen arr[0] |
1024 | ····················BaseClassReflector bcr = new BaseClassReflector(pc.GetType()); |
1025 | ····················FieldInfo parentFi = bcr.GetField(arr[0], BindingFlags.NonPublic | BindingFlags.Instance); |
1026 | ····················// Hole das Embedded Object |
1027 | ····················object parentOb = parentFi.GetValue(pc); |
1028 | |
1029 | ····················if (parentOb == null) |
1030 | ························throw new Exception(String.Format("Can't read subfield {0} of type {1}, because the field {2} is null. Initialize the field {2} in your default constructor.", s, pc.GetType().FullName, arr[0])); |
1031 | |
1032 | ····················// Suche darin das Feld mit Namen Arr[1] |
1033 | |
1034 | ····················FieldInfo childFi = parentFi.FieldType.GetField(arr[1], BindingFlags.NonPublic | BindingFlags.Instance); |
1035 | ····················Type childType = childFi.FieldType; |
1036 | |
1037 | ····················// Don't initialize value types, if DBNull is stored in the field. |
1038 | ····················// Exception: DateTime and Guid. |
1039 | ····················if (o == DBNull.Value && childType.IsValueType |
1040 | ························&& childType != typeof(Guid) |
1041 | ························&& childType != typeof(DateTime)) |
1042 | ························continue; |
1043 | |
1044 | ····················if (childType == typeof(DateTime)) |
1045 | ····················{ |
1046 | ························if (o == DBNull.Value) |
1047 | ····························o = DateTime.MinValue; |
1048 | ····················} |
1049 | ····················if (childType.IsClass) |
1050 | ····················{ |
1051 | ························if (o == DBNull.Value) |
1052 | ····························o = null; |
1053 | ····················} |
1054 | |
1055 | ····················if (childType == typeof (Guid)) |
1056 | ····················{ |
1057 | ························if (o == DBNull.Value) |
1058 | ····························o = Guid.Empty; |
1059 | ························if (o is string) |
1060 | ························{ |
1061 | ····························childFi.SetValue(parentOb, new Guid((string)o)); |
1062 | ························} |
1063 | ························else if (o is Guid) |
1064 | ························{ |
1065 | ····························childFi.SetValue(parentOb, o); |
1066 | ························} |
1067 | ························else if (o is byte[]) |
1068 | ························{ |
1069 | ····························childFi.SetValue(parentOb, new Guid((byte[])o)); |
1070 | ························} |
1071 | ························else |
1072 | ····························throw new Exception(string.Format("Can't convert Guid field to column type {0}.", o.GetType().FullName)); |
1073 | ····················} |
1074 | ····················else if (childType.IsSubclassOf(typeof(System.Enum))) |
1075 | ····················{ |
1076 | ························object childOb = childFi.GetValue(parentOb); |
1077 | ························FieldInfo valueFi = childType.GetField("value__"); |
1078 | ························valueFi.SetValue(childOb, o); |
1079 | ························childFi.SetValue(parentOb, childOb); |
1080 | ····················} |
1081 | ····················else |
1082 | ····················{ |
1083 | ························childFi.SetValue(parentOb, o); |
1084 | ····················} |
1085 | ················} |
1086 | ················catch (Exception ex) |
1087 | ················{ |
1088 | ····················string msg = "Error while writing the embedded object {0} of an object of type {1}. Check your mapping file.\n{2}"; |
1089 | |
1090 | ····················throw new NDOException(68, string.Format(msg, s, pc.GetType().FullName, ex.Message)); |
1091 | ················} |
1092 | |
1093 | ············} |
1094 | ············ |
1095 | ············try |
1096 | ············{ |
1097 | ················if (cl.HasEncryptedFields) |
1098 | ················{ |
1099 | ····················foreach (var field in cl.Fields.Where( f => f.Encrypted )) |
1100 | ····················{ |
1101 | ························string name = field.Column.Name; |
1102 | ························string s = (string) row[name]; |
1103 | ························string es = AesHelper.Decrypt( s, EncryptionKey ); |
1104 | ························row[name] = es; |
1105 | ····················} |
1106 | ················} |
1107 | ················pc.NDORead(row, fieldNames, startIndex); |
1108 | ············} |
1109 | ············catch (Exception ex) |
1110 | ············{ |
1111 | ················throw new NDOException(69, "Error while writing to a field of an object of type " + pc.GetType().FullName + ". Check your mapping file.\n" |
1112 | ····················+ ex.Message); |
1113 | ············} |
1114 | ········} |
1115 | |
1116 | ········/// <summary> |
1117 | ········/// Executes a sql script to generate the database tables. |
1118 | ········/// The function will execute any sql statements in the script |
1119 | ········/// which are valid according to the |
1120 | ········/// rules of the underlying database. Result sets are ignored. |
1121 | ········/// </summary> |
1122 | ········/// <param name="scriptFile">The script file to execute.</param> |
1123 | ········/// <param name="conn">A connection object, containing the connection |
1124 | ········/// string to the database, which should be altered.</param> |
1125 | ········/// <returns>A string array with error messages or the string "OK" for each of the statements in the file.</returns> |
1126 | ········/// <remarks> |
1127 | ········/// If the Connection object is invalid or null, a NDOException with ErrorNumber 44 will be thrown. |
1128 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1129 | ········/// Their message property will appear in the result array. |
1130 | ········/// If the script doesn't exist, a NDOException with ErrorNumber 48 will be thrown. |
1131 | ········/// </remarks> |
1132 | ········public string[] BuildDatabase( string scriptFile, Connection conn ) |
1133 | ········{ |
1134 | ············return BuildDatabase( scriptFile, conn, Encoding.UTF8 ); |
1135 | ········} |
1136 | |
1137 | ········/// <summary> |
1138 | ········/// Executes a sql script to generate the database tables. |
1139 | ········/// The function will execute any sql statements in the script |
1140 | ········/// which are valid according to the |
1141 | ········/// rules of the underlying database. Result sets are ignored. |
1142 | ········/// </summary> |
1143 | ········/// <param name="scriptFile">The script file to execute.</param> |
1144 | ········/// <param name="conn">A connection object, containing the connection |
1145 | ········/// string to the database, which should be altered.</param> |
1146 | ········/// <param name="encoding">The encoding of the script file. Default is UTF8.</param> |
1147 | ········/// <returns>A string array with error messages or the string "OK" for each of the statements in the file.</returns> |
1148 | ········/// <remarks> |
1149 | ········/// If the Connection object is invalid or null, a NDOException with ErrorNumber 44 will be thrown. |
1150 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1151 | ········/// Their message property will appear in the result array. |
1152 | ········/// If the script doesn't exist, a NDOException with ErrorNumber 48 will be thrown. |
1153 | ········/// </remarks> |
1154 | ········public string[] BuildDatabase(string scriptFile, Connection conn, Encoding encoding) |
1155 | ········{ |
1156 | ············StreamReader sr = new StreamReader(scriptFile, encoding); |
1157 | ············string s = sr.ReadToEnd(); |
1158 | ············sr.Close(); |
1159 | ············string[] arr = s.Split(';'); |
1160 | ············string last = arr[arr.Length - 1]; |
1161 | ············bool lastInvalid = (last == null || last.Trim() == string.Empty); |
1162 | ············string[] result = new string[arr.Length - (lastInvalid ? 1 : 0)]; |
1163 | ············using (var handler = GetSqlPassThroughHandler()) |
1164 | ············{ |
1165 | ················int i = 0; |
1166 | ················string ok = "OK"; |
1167 | ················foreach (string statement in arr) |
1168 | ················{ |
1169 | ····················if (statement != null && statement.Trim() != string.Empty) |
1170 | ····················{ |
1171 | ························try |
1172 | ························{ |
1173 | ····························handler.Execute(statement); |
1174 | ····························result[i] = ok; |
1175 | ························} |
1176 | ························catch (Exception ex) |
1177 | ························{ |
1178 | ····························result[i] = ex.Message; |
1179 | ························} |
1180 | ····················} |
1181 | ····················i++; |
1182 | ················} |
1183 | ················CheckEndTransaction(true); |
1184 | ············} |
1185 | ············return result; |
1186 | ········} |
1187 | |
1188 | ········/// <summary> |
1189 | ········/// Executes a sql script to generate the database tables. |
1190 | ········/// The function will execute any sql statements in the script |
1191 | ········/// which are valid according to the |
1192 | ········/// rules of the underlying database. Result sets are ignored. |
1193 | ········/// </summary> |
1194 | ········/// <param name="scriptFile">The script file to execute.</param> |
1195 | ········/// <returns></returns> |
1196 | ········/// <remarks> |
1197 | ········/// This function takes the first Connection object in the Connections list |
1198 | ········/// of the Mapping file und executes the script using that connection. |
1199 | ········/// If no default connection exists, a NDOException with ErrorNumber 44 will be thrown. |
1200 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1201 | ········/// Their message property will appear in the result array. |
1202 | ········/// If the script file doesn't exist, a NDOException with ErrorNumber 48 will be thrown. |
1203 | ········/// </remarks> |
1204 | ········public string[] BuildDatabase(string scriptFile) |
1205 | ········{ |
1206 | ············if (!File.Exists(scriptFile)) |
1207 | ················throw new NDOException(48, "Script file " + scriptFile + " doesn't exist."); |
1208 | ············if (!this.mappings.Connections.Any()) |
1209 | ················throw new NDOException(48, "Mapping file doesn't define a connection."); |
1210 | ············Connection conn = new Connection( this.mappings ); |
1211 | ············Connection originalConnection = (Connection)this.mappings.Connections.First(); |
1212 | ············conn.Name = OnNewConnection( originalConnection ); |
1213 | ············conn.Type = originalConnection.Type; |
1214 | ············//Connection conn = (Connection) this.mappings.Connections[0]; |
1215 | ············return BuildDatabase(scriptFile, conn); |
1216 | ········} |
1217 | |
1218 | ········/// <summary> |
1219 | ········/// Executes a sql script to generate the database tables. |
1220 | ········/// The function will execute any sql statements in the script |
1221 | ········/// which are valid according to the |
1222 | ········/// rules of the underlying database. Result sets are ignored. |
1223 | ········/// </summary> |
1224 | ········/// <returns> |
1225 | ········/// A string array, containing the error messages produced by the statements |
1226 | ········/// contained in the script. |
1227 | ········/// </returns> |
1228 | ········/// <remarks> |
1229 | ········/// The sql script is assumed to be the executable name of the entry assembly with the |
1230 | ········/// extension .ndo.sql. Use BuildDatabase(string) to provide a path to a script. |
1231 | ········/// If the executable name can't be determined a NDOException with ErrorNumber 49 will be thrown. |
1232 | ········/// This function takes the first Connection object in the Connections list |
1233 | ········/// of the Mapping file und executes the script using that connection. |
1234 | ········/// If no default connection exists, a NDOException with ErrorNumber 44 will be thrown. |
1235 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1236 | ········/// Their message property will appear in the result array. |
1237 | ········/// If the script file doesn't exist, a NDOException with ErrorNumber 48 will be thrown. |
1238 | ········/// </remarks> |
1239 | ········public string[] BuildDatabase() |
1240 | ········{ |
1241 | ············Assembly ass = Assembly.GetEntryAssembly(); |
1242 | ············if (ass == null) |
1243 | ················throw new NDOException(49, "Can't determine the path of the entry assembly - please pass a sql script path as argument to BuildDatabase."); |
1244 | ············string file = Path.ChangeExtension(ass.Location, ".ndo.sql"); |
1245 | ············return BuildDatabase(file); |
1246 | ········} |
1247 | |
1248 | ········/// <summary> |
1249 | ········/// Gets a SqlPassThroughHandler object which can be used to execute raw Sql statements. |
1250 | ········/// </summary> |
1251 | ········/// <param name="conn">Optional: The NDO-Connection to the database to be used.</param> |
1252 | ········/// <returns>An ISqlPassThroughHandler implementation</returns> |
1253 | ········public ISqlPassThroughHandler GetSqlPassThroughHandler( Connection conn = null ) |
1254 | ········{ |
1255 | ············if (!this.mappings.Connections.Any()) |
1256 | ················throw new NDOException( 48, "Mapping file doesn't define a connection." ); |
1257 | ············if (conn == null) |
1258 | ············{ |
1259 | ················conn = new Connection( this.mappings ); |
1260 | ················Connection originalConnection = (Connection) this.mappings.Connections.First(); |
1261 | ················conn.Name = OnNewConnection( originalConnection ); |
1262 | ················conn.Type = originalConnection.Type; |
1263 | ············} |
1264 | |
1265 | ············return new SqlPassThroughHandler( this, conn ); |
1266 | ········} |
1267 | |
1268 | ········/// <summary> |
1269 | ········/// Gets a SqlPassThroughHandler object which can be used to execute raw Sql statements. |
1270 | ········/// </summary> |
1271 | ········/// <param name="predicate">A predicate defining which connection has to be used.</param> |
1272 | ········/// <returns>An ISqlPassThroughHandler implementation</returns> |
1273 | ········public ISqlPassThroughHandler GetSqlPassThroughHandler( Func<Connection, bool> predicate ) |
1274 | ········{ |
1275 | ············if (!this.mappings.Connections.Any()) |
1276 | ················throw new NDOException( 48, "The Mapping file doesn't define a connection." ); |
1277 | ············Connection conn = this.mappings.Connections.FirstOrDefault( predicate ); |
1278 | ············if (conn == null) |
1279 | ················throw new NDOException( 48, "The Mapping file doesn't define a connection with this predicate." ); |
1280 | ············return GetSqlPassThroughHandler( conn ); |
1281 | ········} |
1282 | |
1283 | ········/// <summary> |
1284 | ········/// Executes a xml script to generate the database tables. |
1285 | ········/// The function will generate and execute sql statements to perform |
1286 | ········/// the changes described by the xml. |
1287 | ········/// </summary> |
1288 | ········/// <returns></returns> |
1289 | ········/// <remarks> |
1290 | ········/// The script file is the first file found with the search string [AssemblyNameWithoutExtension].ndodiff.[SchemaVersion].xml. |
1291 | ········/// If several files match the search string biggest file name in the default sort order will be executed. |
1292 | ········/// This function takes the first Connection object in the Connections list |
1293 | ········/// of the Mapping file und executes the script using that connection. |
1294 | ········/// If no default connection exists, a NDOException with ErrorNumber 44 will be thrown. |
1295 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1296 | ········/// Their message property will appear in the result string array. |
1297 | ········/// If no script file exists, a NDOException with ErrorNumber 48 will be thrown. |
1298 | ········/// Note that an additional command is executed, which will update the NDOSchemaVersion entry. |
1299 | ········/// </remarks> |
1300 | ········public string[] PerformSchemaTransitions() |
1301 | ········{ |
1302 | ············Assembly ass = Assembly.GetEntryAssembly(); |
1303 | ············if (ass == null) |
1304 | ················throw new NDOException(49, "Can't determine the path of the entry assembly - please pass a sql script path as argument to PerformSchemaTransitions."); |
1305 | ············string mask = Path.GetFileNameWithoutExtension( ass.Location ) + ".ndodiff.*.xml"; |
1306 | ············List<string> fileNames = Directory.GetFiles( Path.GetDirectoryName( ass.Location ), mask ).ToList(); |
1307 | ············if (fileNames.Count == 0) |
1308 | ················return new String[] { String.Format( "No xml script file with a name like {0} found.", mask ) }; |
1309 | ············if (fileNames.Count > 1) |
1310 | ················fileNames.Sort( ( fn1, fn2 ) => CompareFileName( fn1, fn2 ) ); |
1311 | ············return PerformSchemaTransitions( fileNames[0] ); |
1312 | ········} |
1313 | |
1314 | |
1315 | ········/// <summary> |
1316 | ········/// Executes a xml script to generate the database tables. |
1317 | ········/// The function will generate and execute sql statements to perform |
1318 | ········/// the changes described by the xml. |
1319 | ········/// </summary> |
1320 | ········/// <param name="scriptFile">The script file to execute.</param> |
1321 | ········/// <returns></returns> |
1322 | ········/// <remarks> |
1323 | ········/// This function takes the first Connection object in the Connections list |
1324 | ········/// of the Mapping file und executes the script using that connection. |
1325 | ········/// If no default connection exists, a NDOException with ErrorNumber 44 will be thrown. |
1326 | ········/// Any exceptions thrown while executing a statement in the script, will be caught. |
1327 | ········/// Their message property will appear in the result string array. |
1328 | ········/// If the script file doesn't exist, a NDOException with ErrorNumber 48 will be thrown. |
1329 | ········/// Note that an additional command is executed, which will update the NDOSchemaVersion entry. |
1330 | ········/// </remarks> |
1331 | ········public string[] PerformSchemaTransitions(string scriptFile) |
1332 | ········{ |
1333 | ············if (!File.Exists(scriptFile)) |
1334 | ················throw new NDOException(48, "Script file " + scriptFile + " doesn't exist."); |
1335 | |
1336 | ············if (!this.mappings.Connections.Any()) |
1337 | ················throw new NDOException(48, "Mapping file doesn't define any connection."); |
1338 | ············Connection conn = new Connection( mappings ); |
1339 | ············Connection originalConnection = mappings.Connections.First(); |
1340 | ············conn.Name = OnNewConnection( originalConnection ); |
1341 | ············conn.Type = originalConnection.Type; |
1342 | ············return PerformSchemaTransitions(scriptFile, conn); |
1343 | ········} |
1344 | |
1345 | |
1346 | ········int CompareFileName( string fn1, string fn2) |
1347 | ········{ |
1348 | ············Regex regex = new Regex( @"ndodiff\.(.+)\.xml" ); |
1349 | ············Match match = regex.Match( fn1 ); |
1350 | ············string v1 = match.Groups[1].Value; |
1351 | ············match = regex.Match( fn2 ); |
1352 | ············string v2 = match.Groups[1].Value; |
1353 | ············return new Version( v2 ).CompareTo( new Version( v1 ) ); |
1354 | ········} |
1355 | |
1356 | ········string GetSchemaVersion(Connection ndoConn, string schemaName) |
1357 | ········{ |
1358 | ············IProvider provider = this.mappings.GetProvider( ndoConn ); |
1359 | ············string version = "0.0";··// Initial value |
1360 | ············var connection = provider.NewConnection( ndoConn.Name ); |
1361 | ············using (var handler = GetSqlPassThroughHandler()) |
1362 | ············{ |
1363 | ················string[] TableNames = provider.GetTableNames( connection ); |
1364 | ················if (TableNames.Any(t=>t=="NDOSchemaVersion")) |
1365 | ················{ |
1366 | ····················string sql = "SELECT Version from NDOSchemaVersion WHERE SchemaName "; |
1367 | ····················if (schemaName == null) |
1368 | ························sql += "IS NULL;"; |
1369 | ····················else |
1370 | ························sql += "LIKE '" + schemaName + "'"; |
1371 | ····················using(IDataReader dr = handler.Execute(sql, true)) |
1372 | ····················{ |
1373 | ························if (dr.Read()) |
1374 | ····························version = dr.GetString( 0 ); |
1375 | ····················} |
1376 | ················} |
1377 | ················else |
1378 | ················{ |
1379 | ····················SchemaTransitionGenerator schemaTransitionGenerator = new SchemaTransitionGenerator( NDOProviderFactory.Instance.Generators[ndoConn.Type], this.mappings ); |
1380 | ····················string transition = @"<NdoSchemaTransition> |
1381 | ····<CreateTable name=""NDOSchemaVersion""> |
1382 | ······<CreateColumn name=""SchemaName"" type=""System.String,mscorlib"" allowNull=""True"" /> |
1383 | ······<CreateColumn name=""Version"" type=""System.String,mscorlib"" size=""50"" /> |
1384 | ····</CreateTable> |
1385 | </NdoSchemaTransition>"; |
1386 | ····················XElement transitionElement = XElement.Parse(transition); |
1387 | |
1388 | ····················string sql = schemaTransitionGenerator.Generate( transitionElement ); |
1389 | ····················handler.Execute(sql); |
1390 | ····················sql = String.Format( "INSERT INTO NDOSchemaVersion([SchemaName],[Version]) VALUES({0},'0')", schemaName == null ? "NULL" : provider.GetSqlLiteral( schemaName ) ); |
1391 | ····················handler.Execute( sql ); |
1392 | ····················handler.CommitTransaction(); |
1393 | ················} |
1394 | ············} |
1395 | |
1396 | ············return version; |
1397 | ········} |
1398 | |
1399 | ········/// <summary> |
1400 | ········/// Executes a xml script to generate the database tables. |
1401 | ········/// The function will generate and execute sql statements to perform |
1402 | ········/// the changes described by the xml. |
1403 | ········/// </summary> |
1404 | ········/// <param name="scriptFile">The xml script file.</param> |
1405 | ········/// <param name="ndoConn">The connection to be used to perform the schema changes.</param> |
1406 | ········/// <returns>A list of strings about the states of the different schema change commands.</returns> |
1407 | ········/// <remarks>Note that an additional command is executed, which will update the NDOSchemaVersion entry.</remarks> |
1408 | ········public string[] PerformSchemaTransitions(string scriptFile, Connection ndoConn) |
1409 | ········{ |
1410 | ············string schemaName = null; |
1411 | ············// Gespeicherte Version ermitteln. |
1412 | ············XElement transitionElements = XElement.Load( scriptFile ); |
1413 | ············if (transitionElements.Attribute( "schemaName" ) != null) |
1414 | ················schemaName = transitionElements.Attribute( "schemaName" ).Value; |
1415 | ············Version version = new Version( GetSchemaVersion( ndoConn, schemaName ) ); |
1416 | ············SchemaTransitionGenerator schemaTransitionGenerator = new SchemaTransitionGenerator( NDOProviderFactory.Instance.Generators[ndoConn.Type], this.mappings ); |
1417 | ············MemoryStream ms = new MemoryStream(); |
1418 | ············StreamWriter sw = new StreamWriter(ms, System.Text.Encoding.UTF8); |
1419 | ············bool hasChanges = false; |
1420 | |
1421 | ············foreach (XElement transitionElement in transitionElements.Elements("NdoSchemaTransition").Where(e=>new Version(e.Attribute("schemaVersion").Value).CompareTo(version) > 0)) |
1422 | ············{ |
1423 | ················hasChanges = true; |
1424 | ················sw.Write( schemaTransitionGenerator.Generate( transitionElement ) ); |
1425 | ············} |
1426 | |
1427 | ············if (!hasChanges) |
1428 | ················return new string[] { }; |
1429 | |
1430 | ············sw.Write( "UPDATE NDOSchemaVersion SET Version = '" ); |
1431 | ············sw.Write( transitionElements.Attribute( "schemaVersion" ).Value ); |
1432 | ············sw.Write( "' WHERE SchemaName " ); |
1433 | ············if (schemaName == null) |
1434 | ················sw.WriteLine( "IS NULL;" ); |
1435 | ············else |
1436 | ················sw.WriteLine( "LIKE '" + schemaName + "'" );············ |
1437 | |
1438 | ············sw.Flush(); |
1439 | ············ms.Position = 0L; |
1440 | |
1441 | ············StreamReader sr = new StreamReader(ms, System.Text.Encoding.UTF8); |
1442 | ············string s = sr.ReadToEnd(); |
1443 | ············sr.Close(); |
1444 | |
1445 | ············return InternalPerformSchemaTransitions( ndoConn, s ); |
1446 | ········} |
1447 | |
1448 | ········private string[] InternalPerformSchemaTransitions( Connection ndoConn, string sql ) |
1449 | ········{ |
1450 | ············string[] arr = sql.Split( ';' ); |
1451 | ············string last = arr[arr.Length - 1]; |
1452 | ············bool lastInvalid = (last == null || last.Trim() == string.Empty); |
1453 | ············string[] result = new string[arr.Length - (lastInvalid ? 1 : 0)]; |
1454 | ············IProvider provider = this.mappings.GetProvider( ndoConn ); |
1455 | ············//TransactionInfo ti = transactionTable[conn]; |
1456 | ············//IDbConnection cn = ti.Connection; |
1457 | ············IDbConnection cn = provider.NewConnection( ndoConn.Name ); |
1458 | ············cn.Open(); |
1459 | ············IDbCommand cmd = provider.NewSqlCommand( cn ); |
1460 | ············int i = 0; |
1461 | ············string ok = "OK"; |
1462 | ············foreach (string statement in arr) |
1463 | ············{ |
1464 | ················if (statement != null && statement.Trim() != string.Empty) |
1465 | ················{ |
1466 | ····················try |
1467 | ····················{ |
1468 | ························cmd.CommandText = statement; |
1469 | ························cmd.ExecuteNonQuery(); |
1470 | ························result[i] = ok; |
1471 | ····················} |
1472 | ····················catch (Exception ex) |
1473 | ····················{ |
1474 | ························result[i] = ex.Message; |
1475 | ····················} |
1476 | ················} |
1477 | ················i++; |
1478 | ············} |
1479 | ············cn.Close(); |
1480 | ············return result; |
1481 | ········} |
1482 | ········ |
1483 | ········/// <summary> |
1484 | ········/// Transfers Data from the object to the DataRow |
1485 | ········/// </summary> |
1486 | ········/// <param name="pc"></param> |
1487 | ········/// <param name="row"></param> |
1488 | ········/// <param name="fieldNames"></param> |
1489 | ········/// <param name="startIndex"></param> |
1490 | ········protected virtual void WriteObject(IPersistenceCapable pc, DataRow row, string[] fieldNames, int startIndex) |
1491 | ········{ |
1492 | ············Class cl = GetClass( pc ); |
1493 | ············try |
1494 | ············{ |
1495 | ················pc.NDOWrite(row, fieldNames, startIndex); |
1496 | ················if (cl.HasEncryptedFields) |
1497 | ················{ |
1498 | ····················foreach (var field in cl.Fields.Where( f => f.Encrypted )) |
1499 | ····················{ |
1500 | ························string name = field.Column.Name; |
1501 | ························string s = (string) row[name]; |
1502 | ························string es = AesHelper.Encrypt( s, EncryptionKey ); |
1503 | ························row[name] = es; |
1504 | ····················} |
1505 | ················} |
1506 | ············} |
1507 | ············catch (Exception ex) |
1508 | ············{ |
1509 | ················throw new NDOException(70, "Error while reading a field of an object of type " + pc.GetType().FullName + ". Check your mapping file.\n" |
1510 | ····················+ ex.Message); |
1511 | ············} |
1512 | |
1513 | ············if (cl.TypeNameColumn != null) |
1514 | ············{ |
1515 | ················Type t = pc.GetType(); |
1516 | ················row[cl.TypeNameColumn.Name] = t.FullName + "," + t.Assembly.GetName().Name; |
1517 | ············} |
1518 | |
1519 | ············var etypes = cl.EmbeddedTypes; |
1520 | ············foreach(string s in etypes) |
1521 | ············{ |
1522 | ················try |
1523 | ················{ |
1524 | ····················NDO.Mapping.Field f = cl.FindField(s); |
1525 | ····················if (f == null) |
1526 | ························continue; |
1527 | ····················string[] arr = s.Split('.'); |
1528 | ····················// Suche Feld mit Namen arr[0] als object |
1529 | ····················BaseClassReflector bcr = new BaseClassReflector(pc.GetType()); |
1530 | ····················FieldInfo parentFi = bcr.GetField(arr[0], BindingFlags.NonPublic | BindingFlags.Instance); |
1531 | ····················Object parentOb = parentFi.GetValue(pc); |
1532 | ····················if (parentOb == null) |
1533 | ························throw new Exception(String.Format("The field {0} is null. Initialize the field in your default constructor.", arr[0])); |
1534 | ····················// Suche darin das Feld mit Namen Arr[1] |
1535 | ····················FieldInfo childFi = parentFi.FieldType.GetField(arr[1], BindingFlags.NonPublic | BindingFlags.Instance); |
1536 | ····················object o = childFi.GetValue(parentOb); |
1537 | ····················if (o == null |
1538 | ························|| o is DateTime && (DateTime) o == DateTime.MinValue |
1539 | ························|| o is Guid && (Guid) o == Guid.Empty) |
1540 | ························o = DBNull.Value; |
1541 | ····················row[f.Column.Name] = o; |
1542 | ················} |
1543 | ················catch (Exception ex) |
1544 | ················{ |
1545 | ····················string msg = "Error while reading the embedded object {0} of an object of type {1}. Check your mapping file.\n{2}"; |
1546 | |
1547 | ····················throw new NDOException(71, string.Format(msg, s, pc.GetType().FullName, ex.Message)); |
1548 | ················} |
1549 | ············} |
1550 | ········} |
1551 | |
1552 | ········/// <summary> |
1553 | ········/// Check, if the specific field is loaded. If not, LoadData will be called. |
1554 | ········/// </summary> |
1555 | ········/// <param name="o">The parent object.</param> |
1556 | ········/// <param name="fieldOrdinal">A number to identify the field.</param> |
1557 | ········public virtual void LoadField(object o, int fieldOrdinal) |
1558 | ········{ |
1559 | ············IPersistenceCapable pc = CheckPc(o); |
1560 | ············if (pc.NDOObjectState == NDOObjectState.Hollow) |
1561 | ············{ |
1562 | ················LoadState ls = pc.NDOLoadState; |
1563 | ················if (ls.FieldLoadState != null) |
1564 | ················{ |
1565 | ····················if (ls.FieldLoadState[fieldOrdinal]) |
1566 | ························return; |
1567 | ················} |
1568 | ················else |
1569 | ················{ |
1570 | ····················ls.FieldLoadState = new BitArray( GetClass( pc ).Fields.Count() ); |
1571 | ················} |
1572 | ················LoadData(o); |
1573 | ········} |
1574 | ········} |
1575 | |
1576 | #pragma warning disable 419 |
1577 | ········/// <summary> |
1578 | ········/// Load the data of a persistent object. This forces the transition of the object state from hollow to persistent. |
1579 | ········/// </summary> |
1580 | ········/// <param name="o">The hollow object.</param> |
1581 | ········/// <remarks>Note, that the relations won't be resolved with this function, with one Exception: 1:1 relations without mapping table will be resolved during LoadData. In all other cases, use <see cref="LoadRelation">LoadRelation</see>, to force resolving a relation.<seealso cref="NDOObjectState"/></remarks> |
1582 | #pragma warning restore 419 |
1583 | ········public virtual void LoadData( object o ) |
1584 | ········{ |
1585 | ············IPersistenceCapable pc = CheckPc(o); |
1586 | ············Debug.Assert(pc.NDOObjectState == NDOObjectState.Hollow, "Can only load hollow objects"); |
1587 | ············if (pc.NDOObjectState != NDOObjectState.Hollow) |
1588 | ················return; |
1589 | ············Class cl = GetClass(pc); |
1590 | ············IQuery q; |
1591 | ············q = CreateOidQuery(pc, cl); |
1592 | ············cache.UpdateCache(pc); // Make sure the object is in the cache |
1593 | |
1594 | ············var objects = q.Execute(); |
1595 | ············var count = objects.Count; |
1596 | |
1597 | ············if (count > 1) |
1598 | ············{ |
1599 | ················throw new NDOException( 72, "Load Data: " + count + " result objects with the same oid" ); |
1600 | ············} |
1601 | ············else if (count == 0) |
1602 | ············{ |
1603 | ················if (ObjectNotPresentEvent == null || !ObjectNotPresentEvent(pc)) |
1604 | ················throw new NDOException( 72, "LoadData: Object " + pc.NDOObjectId.Dump() + " is not present in the database." ); |
1605 | ············} |
1606 | ········} |
1607 | |
1608 | ········/// <summary> |
1609 | ········/// Creates a new IQuery object for the given type |
1610 | ········/// </summary> |
1611 | ········/// <param name="t"></param> |
1612 | ········/// <param name="oql"></param> |
1613 | ········/// <param name="hollow"></param> |
1614 | ········/// <param name="queryLanguage"></param> |
1615 | ········/// <returns></returns> |
1616 | ········public IQuery NewQuery(Type t, string oql, bool hollow = false, QueryLanguage queryLanguage = QueryLanguage.NDOql) |
1617 | ········{ |
1618 | ············Type template = typeof( NDOQuery<object> ).GetGenericTypeDefinition(); |
1619 | ············Type qt = template.MakeGenericType( t ); |
1620 | ············return (IQuery)Activator.CreateInstance( qt, this, oql, hollow, queryLanguage ); |
1621 | ········} |
1622 | |
1623 | ········private IQuery CreateOidQuery(IPersistenceCapable pc, Class cl) |
1624 | ········{ |
1625 | ············ArrayList parameters = new ArrayList(); |
1626 | ············string oql = "oid = {0}"; |
1627 | ············IQuery q = NewQuery(pc.GetType(), oql, false); |
1628 | ············q.Parameters.Add( pc.NDOObjectId ); |
1629 | ············q.AllowSubclasses = false; |
1630 | ············return q; |
1631 | ········} |
1632 | |
1633 | ········/// <summary> |
1634 | ········/// Mark the object dirty. The current state is |
1635 | ········/// saved in a DataRow, which is stored in the DS. This is done, to allow easy rollback later. Also, the |
1636 | ········/// object is locked in the cache. |
1637 | ········/// </summary> |
1638 | ········/// <param name="pc"></param> |
1639 | ········internal virtual void MarkDirty(IPersistenceCapable pc) |
1640 | ········{ |
1641 | ············if (pc.NDOObjectState != NDOObjectState.Persistent) |
1642 | ················return; |
1643 | ············SaveObjectState(pc); |
1644 | ············pc.NDOObjectState = NDOObjectState.PersistentDirty; |
1645 | ········} |
1646 | |
1647 | ········/// <summary> |
1648 | ········/// Mark the object dirty, but make sure first, that the object is loaded. |
1649 | ········/// The current or loaded state is saved in a DataRow, which is stored in the DS. |
1650 | ········/// This is done, to allow easy rollback later. Also, the |
1651 | ········/// object is locked in the cache. |
1652 | ········/// </summary> |
1653 | ········/// <param name="pc"></param> |
1654 | ········internal void LoadAndMarkDirty(IPersistenceCapable pc) |
1655 | ········{ |
1656 | ············Debug.Assert(pc.NDOObjectState != NDOObjectState.Transient, "Transient objects can't be marked as dirty."); |
1657 | |
1658 | ············if(pc.NDOObjectState == NDOObjectState.Deleted) |
1659 | ············{ |
1660 | ················throw new NDOException(73, "LoadAndMarkDirty: Access to deleted objects is not allowed."); |
1661 | ············} |
1662 | |
1663 | ············if (pc.NDOObjectState == NDOObjectState.Hollow) |
1664 | ················LoadData(pc); |
1665 | |
1666 | ············// state is either (Created), Persistent, PersistentDirty |
1667 | ············if(pc.NDOObjectState == NDOObjectState.Persistent) |
1668 | ············{ |
1669 | ················MarkDirty(pc); |
1670 | ············} |
1671 | ········} |
1672 | |
1673 | |
1674 | |
1675 | ········/// <summary> |
1676 | ········/// Save current object state in DS and lock the object in the cache. |
1677 | ········/// The saved state can be used later to retrieve the original object value if the |
1678 | ········/// current transaction is aborted. Also the state of all relations (not related objects) is stored. |
1679 | ········/// </summary> |
1680 | ········/// <param name="pc">The object that should be saved</param> |
1681 | ········/// <param name="isDeleting">Determines, if the object is about being deletet.</param> |
1682 | ········/// <remarks> |
1683 | ········/// In a data row there are the following things: |
1684 | ········/// Item································Responsible for writing |
1685 | ········/// State (own, inherited, embedded)····WriteObject |
1686 | ········/// TimeStamp····························NDOPersistenceHandler |
1687 | ········/// Oid····································WriteId |
1688 | ········/// Foreign Keys and their Type Codes····WriteForeignKeys |
1689 | ········/// </remarks> |
1690 | ········protected virtual void SaveObjectState(IPersistenceCapable pc, bool isDeleting = false) |
1691 | ········{ |
1692 | ············Debug.Assert(pc.NDOObjectState == NDOObjectState.Persistent, "Object must be unmodified and persistent but is " + pc.NDOObjectState); |
1693 | ············ |
1694 | ············DataTable table = GetTable(pc); |
1695 | ············DataRow row = table.NewRow(); |
1696 | ············Class cl = GetClass(pc); |
1697 | ············WriteObject(pc, row, cl.ColumnNames, 0); |
1698 | ············WriteIdToRow(pc, row); |
1699 | ············if (!isDeleting) |
1700 | ················WriteLostForeignKeysToRow(cl, pc, row); |
1701 | ············table.Rows.Add(row); |
1702 | ············row.AcceptChanges(); |
1703 | ············ |
1704 | ············var relations = CollectRelationStates(pc); |
1705 | ············cache.Lock(pc, row, relations); |
1706 | ········} |
1707 | |
1708 | ········private void SaveFakeRow(IPersistenceCapable pc) |
1709 | ········{ |
1710 | ············Debug.Assert(pc.NDOObjectState == NDOObjectState.Hollow, "Object must be hollow but is " + pc.NDOObjectState); |
1711 | ············ |
1712 | ············DataTable table = GetTable(pc); |
1713 | ············DataRow row = table.NewRow(); |
1714 | ············Class pcClass = GetClass(pc); |
1715 | ············row.SetColumnError(GetFakeRowOidColumnName(pcClass), hollowMarker); |
1716 | ············Class cl = GetClass(pc); |
1717 | ············//WriteObject(pc, row, cl.FieldNames, 0); |
1718 | ············WriteIdToRow(pc, row); |
1719 | ············table.Rows.Add(row); |
1720 | ············row.AcceptChanges(); |
1721 | ············ |
1722 | ············cache.Lock(pc, row, null); |
1723 | ········} |
1724 | |
1725 | ········/// <summary> |
1726 | ········/// This defines one column of the row, in which we use the |
1727 | ········/// ColumnError property to determine, if the row is a fake row. |
1728 | ········/// </summary> |
1729 | ········/// <param name="pcClass"></param> |
1730 | ········/// <returns></returns> |
1731 | ········private string GetFakeRowOidColumnName(Class pcClass) |
1732 | ········{ |
1733 | ············// In case of several OidColumns the first column defined in the mapping |
1734 | ············// will be the one, holding the fake row info. |
1735 | ············return ((OidColumn)pcClass.Oid.OidColumns[0]).Name; |
1736 | ········} |
1737 | |
1738 | ········private bool IsFakeRow(Class cl, DataRow row) |
1739 | ········{ |
1740 | ············return (row.GetColumnError(GetFakeRowOidColumnName(cl)) == hollowMarker); |
1741 | ········} |
1742 | |
1743 | ········/// <summary> |
1744 | ········/// Make a list of objects persistent. |
1745 | ········/// </summary> |
1746 | ········/// <param name="list">the list of IPersistenceCapable objects</param> |
1747 | ········public void MakePersistent(System.Collections.IList list) |
1748 | ········{ |
1749 | ············foreach (IPersistenceCapable pc in list) |
1750 | ············{ |
1751 | ················MakePersistent(pc); |
1752 | ············} |
1753 | ········} |
1754 | |
1755 | ········/// <summary> |
1756 | ········/// Save state of related objects in the cache. Only the list itself is duplicated and stored. The related objects are |
1757 | ········/// not duplicated. |
1758 | ········/// </summary> |
1759 | ········/// <param name="pc">the parent object of all relations</param> |
1760 | ········/// <returns></returns> |
1761 | ········protected internal virtual List<KeyValuePair<Relation,object>> CollectRelationStates(IPersistenceCapable pc) |
1762 | ········{ |
1763 | ············// Save state of relations |
1764 | ············Class c = GetClass(pc); |
1765 | ············List<KeyValuePair<Relation, object>> relations = new List<KeyValuePair<Relation, object>>( c.Relations.Count()); |
1766 | ············foreach(Relation r in c.Relations) |
1767 | ············{ |
1768 | ················if (r.Multiplicity == RelationMultiplicity.Element) |
1769 | ················{ |
1770 | ····················relations.Add( new KeyValuePair<Relation, object>( r, mappings.GetRelationField( pc, r.FieldName ) ) ); |
1771 | ················} |
1772 | ················else |
1773 | ················{ |
1774 | ····················IList l = mappings.GetRelationContainer(pc, r); |
1775 | ····················if(l != null) |
1776 | ····················{ |
1777 | ························l = (IList) ListCloner.CloneList(l); |
1778 | ····················} |
1779 | ····················relations.Add( new KeyValuePair<Relation, object>( r, l ) ); |
1780 | ················} |
1781 | ············} |
1782 | |
1783 | ············return relations; |
1784 | ········} |
1785 | |
1786 | |
1787 | ········/// <summary> |
1788 | ········/// Restore the saved relations.··Note that the objects are not restored as this is handled transparently |
1789 | ········/// by the normal persistence mechanism. Only the number and order of objects are restored, e.g. the state, |
1790 | ········/// the list had at the beginning of the transaction. |
1791 | ········/// </summary> |
1792 | ········/// <param name="pc"></param> |
1793 | ········/// <param name="relations"></param> |
1794 | ········private void RestoreRelatedObjects(IPersistenceCapable pc, List<KeyValuePair<Relation, object>> relations ) |
1795 | ········{ |
1796 | ············Class c = GetClass(pc); |
1797 | |
1798 | ············foreach(var entry in relations) |
1799 | ············{ |
1800 | ················var r = entry.Key; |
1801 | ················if (r.Multiplicity == RelationMultiplicity.Element) |
1802 | ················{ |
1803 | ····················mappings.SetRelationField(pc, r.FieldName, entry.Value); |
1804 | ················} |
1805 | ················else |
1806 | ················{ |
1807 | ····················if (pc.NDOGetLoadState(r.Ordinal)) |
1808 | ····················{ |
1809 | ························// Help GC by clearing lists |
1810 | ························IList l = mappings.GetRelationContainer(pc, r); |
1811 | ························if(l != null) |
1812 | ························{ |
1813 | ····························l.Clear(); |
1814 | ························} |
1815 | ························// Restore relation |
1816 | ························mappings.SetRelationContainer(pc, r, (IList)entry.Value); |
1817 | ····················} |
1818 | ················} |
1819 | ············} |
1820 | ········} |
1821 | |
1822 | |
1823 | ········/// <summary> |
1824 | ········/// Generates a query for related objects without mapping table. |
1825 | ········/// Note: this function can't be called in polymorphic scenarios, |
1826 | ········/// since they need a mapping table. |
1827 | ········/// </summary> |
1828 | ········/// <returns></returns> |
1829 | ········IList QueryRelatedObjects(IPersistenceCapable pc, Relation r, IList l, bool hollow) |
1830 | ········{ |
1831 | ············// At this point of execution we know, |
1832 | ············// that the target type is not polymorphic and is not 1:1. |
1833 | |
1834 | ············// We can't fetch these objects with an NDOql query |
1835 | ············// since this would require a relation in the opposite direction |
1836 | |
1837 | ············IList relatedObjects; |
1838 | ············if (l != null) |
1839 | ················relatedObjects = l; |
1840 | ············else |
1841 | ················relatedObjects = mappings.CreateRelationContainer( pc, r ); |
1842 | |
1843 | ············Type t = r.ReferencedType; |
1844 | ············Class cl = GetClass( t ); |
1845 | ············var provider = cl.Provider; |
1846 | |
1847 | ············StringBuilder sb = new StringBuilder("SELECT * FROM "); |
1848 | ············var relClass = GetClass( r.ReferencedType ); |
1849 | ············sb.Append( GetClass( r.ReferencedType ).GetQualifiedTableName() ); |
1850 | ············sb.Append( " WHERE " ); |
1851 | ············int i = 0; |
1852 | ············List<object> parameters = new List<object>(); |
1853 | ············new ForeignKeyIterator( r ).Iterate( delegate ( ForeignKeyColumn fkColumn, bool isLastElement ) |
1854 | ·············· { |
1855 | ·················· sb.Append( fkColumn.GetQualifiedName(relClass) ); |
1856 | ·················· sb.Append( " = {" ); |
1857 | ·················· sb.Append(i); |
1858 | ·················· sb.Append( '}' ); |
1859 | ·················· parameters.Add( pc.NDOObjectId.Id[i] ); |
1860 | ·················· if (!isLastElement) |
1861 | ······················ sb.Append( " AND " ); |
1862 | ·················· i++; |
1863 | ·············· } ); |
1864 | |
1865 | ············if (!(String.IsNullOrEmpty( r.ForeignKeyTypeColumnName ))) |
1866 | ············{ |
1867 | ················sb.Append( " AND " ); |
1868 | ················sb.Append( provider.GetQualifiedTableName( relClass.TableName + "." + r.ForeignKeyTypeColumnName ) ); |
1869 | ················sb.Append( " = " ); |
1870 | ················sb.Append( pc.NDOObjectId.Id.TypeId ); |
1871 | ············} |
1872 | |
1873 | ············IQuery q = NewQuery( t, sb.ToString(), hollow, Query.QueryLanguage.Sql ); |
1874 | |
1875 | ············foreach (var p in parameters) |
1876 | ············{ |
1877 | ················q.Parameters.Add( p ); |
1878 | ············} |
1879 | |
1880 | ············q.AllowSubclasses = false;··// Remember: polymorphic relations always have a mapping table |
1881 | |
1882 | ············IList l2 = q.Execute(); |
1883 | |
1884 | ············foreach (object o in l2) |
1885 | ················relatedObjects.Add( o ); |
1886 | |
1887 | ············return relatedObjects; |
1888 | ········} |
1889 | |
1890 | |
1891 | ········/// <summary> |
1892 | ········/// Resolves an relation. The loaded objects will be hollow. |
1893 | ········/// </summary> |
1894 | ········/// <param name="o">The parent object.</param> |
1895 | ········/// <param name="fieldName">The field name of the container or variable, which represents the relation.</param> |
1896 | ········/// <param name="hollow">True, if the fetched objects should be hollow.</param> |
1897 | ········/// <remarks>Note: 1:1 relations without mapping table will be resolved during the transition from the hollow to the persistent state. To force this transition, use the <see cref="LoadData">LoadData</see> function.<seealso cref="LoadData"/></remarks> |
1898 | ········public virtual void LoadRelation(object o, string fieldName, bool hollow) |
1899 | ········{ |
1900 | ············IPersistenceCapable pc = CheckPc(o); |
1901 | ············LoadRelationInternal(pc, fieldName, hollow); |
1902 | ········} |
1903 | |
1904 | ········ |
1905 | |
1906 | ········internal IList LoadRelation(IPersistenceCapable pc, Relation r, bool hollow) |
1907 | ········{ |
1908 | ············IList result = null; |
1909 | |
1910 | ············if (pc.NDOObjectState == NDOObjectState.Created) |
1911 | ················return null; |
1912 | |
1913 | ············if (pc.NDOObjectState == NDOObjectState.Hollow) |
1914 | ················LoadData(pc); |
1915 | |
1916 | ············if(r.MappingTable == null) |
1917 | ············{ |
1918 | ················// 1:1 are loaded with LoadData |
1919 | ················if (r.Multiplicity == RelationMultiplicity.List) |
1920 | ················{ |
1921 | ····················// Help GC by clearing lists |
1922 | ····················IList l = mappings.GetRelationContainer(pc, r); |
1923 | ····················if(l != null) |
1924 | ························l.Clear(); |
1925 | ····················IList relatedObjects = QueryRelatedObjects(pc, r, l, hollow); |
1926 | ····················mappings.SetRelationContainer(pc, r, relatedObjects); |
1927 | ····················result = relatedObjects; |
1928 | ················} |
1929 | ············} |
1930 | ············else |
1931 | ············{ |
1932 | ················DataTable dt = null; |
1933 | |
1934 | ················using (IMappingTableHandler handler = PersistenceHandlerManager.GetPersistenceHandler( pc ).GetMappingTableHandler( r )) |
1935 | ················{ |
1936 | ····················handler.VerboseMode = VerboseMode; |
1937 | ····················handler.LogAdapter = LogAdapter; |
1938 | ····················CheckTransaction( handler, r.MappingTable.Connection ); |
1939 | ····················dt = handler.FindRelatedObjects(pc.NDOObjectId, this.ds); |
1940 | ················} |
1941 | |
1942 | ················IList relatedObjects; |
1943 | ················if(r.Multiplicity == RelationMultiplicity.Element) |
1944 | ····················relatedObjects = GenericListReflector.CreateList(r.ReferencedType, dt.Rows.Count); |
1945 | ················else |
1946 | ················{ |
1947 | ····················relatedObjects = mappings.GetRelationContainer(pc, r); |
1948 | ····················if(relatedObjects != null) |
1949 | ························relatedObjects.Clear();··// Objects will be reread |
1950 | ····················else |
1951 | ························relatedObjects = mappings.CreateRelationContainer(pc, r); |
1952 | ················} |
1953 | ···················· |
1954 | ················foreach(DataRow objRow in dt.Rows) |
1955 | ················{ |
1956 | ····················Type relType; |
1957 | |
1958 | ····················if (r.MappingTable.ChildForeignKeyTypeColumnName != null)························ |
1959 | ····················{ |
1960 | ························object typeCodeObj = objRow[r.MappingTable.ChildForeignKeyTypeColumnName]; |
1961 | ························if (typeCodeObj is System.DBNull) |
1962 | ····························throw new NDOException( 75, String.Format( "Can't resolve subclass type code of type {0} in relation '{1}' - the type code in the data row is null.", r.ReferencedTypeName, r.ToString() ) ); |
1963 | ························relType = typeManager[(int)typeCodeObj]; |
1964 | ························if (relType == null) |
1965 | ····························throw new NDOException(75, String.Format("Can't resolve subclass type code {0} of type {1} - check, if your NDOTypes.xml exists.", objRow[r.MappingTable.ChildForeignKeyTypeColumnName], r.ReferencedTypeName)); |
1966 | ····················}························ |
1967 | ····················else |
1968 | ····················{ |
1969 | ························relType = r.ReferencedType; |
1970 | ····················} |
1971 | |
1972 | ····················//TODO: Generic Types: Exctract the type description from the type name column |
1973 | ····················if (relType.IsGenericTypeDefinition) |
1974 | ························throw new NotImplementedException("NDO doesn't support relations to generic types via mapping tables."); |
1975 | ····················ObjectId id = ObjectIdFactory.NewObjectId(relType, GetClass(relType), objRow, r.MappingTable, this.typeManager); |
1976 | ····················IPersistenceCapable relObj = FindObject(id); |
1977 | ····················relatedObjects.Add(relObj); |
1978 | ················}···· |
1979 | ················if (r.Multiplicity == RelationMultiplicity.Element) |
1980 | ················{ |
1981 | ····················Debug.Assert(relatedObjects.Count <= 1, "NDO retrieved more than one object for relation with cardinality 1"); |
1982 | ····················mappings.SetRelationField(pc, r.FieldName, relatedObjects.Count > 0 ? relatedObjects[0] : null); |
1983 | ················} |
1984 | ················else |
1985 | ················{ |
1986 | ····················mappings.SetRelationContainer(pc, r, relatedObjects); |
1987 | ····················result = relatedObjects; |
1988 | ················} |
1989 | ············} |
1990 | ············// Mark relation as loaded |
1991 | ············pc.NDOSetLoadState(r.Ordinal, true); |
1992 | ············return result; |
1993 | ········} |
1994 | |
1995 | ········/// <summary> |
1996 | ········/// Loads elements of a relation |
1997 | ········/// </summary> |
1998 | ········/// <param name="pc">The object which needs to load the relation</param> |
1999 | ········/// <param name="relationName">The name of the relation</param> |
2000 | ········/// <param name="hollow">Determines, if the related objects should be hollow.</param> |
2001 | ········internal IList LoadRelationInternal(IPersistenceCapable pc, string relationName, bool hollow) |
2002 | ········{ |
2003 | ············if (pc.NDOObjectState == NDOObjectState.Created) |
2004 | ················return null; |
2005 | ············Class cl = GetClass(pc); |
2006 | |
2007 | ············Relation r = cl.FindRelation(relationName); |
2008 | |
2009 | ············if ( r == null ) |
2010 | ················throw new NDOException( 76, String.Format( "Error while loading related objects: Can't find relation mapping for the field {0}.{1}. Check your mapping file.", pc.GetType().FullName, relationName ) ); |
2011 | |
2012 | ············if ( pc.NDOGetLoadState( r.Ordinal ) ) |
2013 | ················return null; |
2014 | |
2015 | ············return LoadRelation(pc, r, hollow); |
2016 | ········} |
2017 | |
2018 | ········/// <summary> |
2019 | ········/// Load the related objects of a parent object. The current value of the relation is replaced by the |
2020 | ········/// a list of objects that has been read from the DB. |
2021 | ········/// </summary> |
2022 | ········/// <param name="pc">The parent object of the relations</param> |
2023 | ········/// <param name="row">A data row containing the state of the object</param> |
2024 | ········private void LoadRelated1To1Objects(IPersistenceCapable pc, DataRow row) |
2025 | ········{ |
2026 | ············// Stripped down to only serve 1:1-Relations w/out mapping table |
2027 | ············Class cl = GetClass(pc); |
2028 | ············foreach(Relation r in cl.Relations) |
2029 | ············{ |
2030 | ················if(r.MappingTable == null) |
2031 | ················{ |
2032 | ····················if (r.Multiplicity == RelationMultiplicity.Element) |
2033 | ····················{ |
2034 | ························bool isNull = false; |
2035 | ························foreach (ForeignKeyColumn fkColumn in r.ForeignKeyColumns) |
2036 | ························{ |
2037 | ····························isNull = isNull || (row[fkColumn.Name] == DBNull.Value); |
2038 | ························} |
2039 | ························if (isNull) |
2040 | ························{ |
2041 | ····························mappings.SetRelationField(pc, r.FieldName, null); |
2042 | ························} |
2043 | ························else |
2044 | ························{ |
2045 | ····························Type relType; |
2046 | ····························if (r.HasSubclasses) |
2047 | ····························{ |
2048 | ································object o = row[r.ForeignKeyTypeColumnName]; |
2049 | ································if (o == DBNull.Value) |
2050 | ····································throw new NDOException(75, String.Format( |
2051 | ········································"Can't resolve subclass type code {0} of type {1} - type code value is DBNull.", |
2052 | ········································row[r.ForeignKeyTypeColumnName], r.ReferencedTypeName)); |
2053 | ································relType = typeManager[(int)o]; |
2054 | ····························} |
2055 | ····························else |
2056 | ····························{ |
2057 | ································relType = r.ReferencedType; |
2058 | ····························} |
2059 | ····························if (relType == null) |
2060 | ····························{ |
2061 | ································throw new NDOException(75, String.Format( |
2062 | ····································"Can't resolve subclass type code {0} of type {1} - check, if your NDOTypes.xml exists.", |
2063 | ····································row[r.ForeignKeyTypeColumnName], r.ReferencedTypeName)); |
2064 | ····························} |
2065 | ···· |
2066 | ····························int count = r.ForeignKeyColumns.Count(); |
2067 | ····························object[] keydata = new object[count]; |
2068 | ····························int i = 0; |
2069 | ····························foreach(ForeignKeyColumn fkColumn in r.ForeignKeyColumns) |
2070 | ····························{ |
2071 | ································keydata[i++] = row[fkColumn.Name]; |
2072 | ····························} |
2073 | |
2074 | ····························Type oidType = relType; |
2075 | ····························if (oidType.IsGenericTypeDefinition) |
2076 | ································oidType = mappings.GetRelationFieldType(r); |
2077 | |
2078 | ····························ObjectId childOid = ObjectIdFactory.NewObjectId(oidType, GetClass(relType), keydata, this.typeManager); |
2079 | ····························if(childOid.IsValid()) |
2080 | ································mappings.SetRelationField(pc, r.FieldName, FindObject(childOid)); |
2081 | ····························else |
2082 | ································mappings.SetRelationField(pc, r.FieldName, null); |
2083 | |
2084 | ························} |
2085 | ························pc.NDOSetLoadState(r.Ordinal, true); |
2086 | ····················} |
2087 | ················} |
2088 | ············} |
2089 | ········} |
2090 | |
2091 | ········ |
2092 | ········/// <summary> |
2093 | ········/// Creates a new ObjectId with the same Key value as a given ObjectId. |
2094 | ········/// </summary> |
2095 | ········/// <param name="oid">An ObjectId, which Key value will be used to build the new ObjectId.</param> |
2096 | ········/// <param name="t">The type of the object, the id will belong to.</param> |
2097 | ········/// <returns>An object of type ObjectId, or ObjectId.InvalidId</returns> |
2098 | ········/// <remarks>If the type t doesn't have a mapping in the mapping file an Exception of type NDOException is thrown.</remarks> |
2099 | ········public ObjectId NewObjectId(ObjectId oid, Type t) |
2100 | ········{ |
2101 | ············return new ObjectId(oid.Id, t); |
2102 | ········} |
2103 | |
2104 | ········/* |
2105 | ········/// <summary> |
2106 | ········/// Creates a new ObjectId which can be used to retrieve objects from the database. |
2107 | ········/// </summary> |
2108 | ········/// <param name="keyData">The id, which will be used to search for the object in the database</param> |
2109 | ········/// <param name="t">The type of the object.</param> |
2110 | ········/// <returns>An object of type ObjectId, or ObjectId.InvalidId</returns> |
2111 | ········/// <remarks>The keyData parameter must be one of the types Int32, String, Byte[] or Guid. If keyData is null or the type of keyData is invalid the function returns ObjectId.InvalidId. If the type t doesn't have a mapping in the mapping file, an Exception of type NDOException is thrown.</remarks> |
2112 | ········public ObjectId NewObjectId(object keyData, Type t) |
2113 | ········{ |
2114 | ············if (keyData == null || keyData == DBNull.Value) |
2115 | ················return ObjectId.InvalidId; |
2116 | |
2117 | ············Class cl =··GetClass(t);············ |
2118 | ············ |
2119 | ············if (cl.Oid.FieldType == typeof(int)) |
2120 | ················return new ObjectId(new Int32Key(t, (int)keyData)); |
2121 | ············else if (cl.Oid.FieldType == typeof(string)) |
2122 | ················return new ObjectId(new StringKey(t, (String) keyData)); |
2123 | ············else if (cl.Oid.FieldType == typeof(Guid)) |
2124 | ················if (keyData is string) |
2125 | ····················return new ObjectId(new GuidKey(t, new Guid((String) keyData))); |
2126 | ················else |
2127 | ····················return new ObjectId(new GuidKey(t, (Guid) keyData)); |
2128 | ············else if (cl.Oid.FieldType == typeof(MultiKey)) |
2129 | ················return new ObjectId(new MultiKey(t, (object[]) keyData)); |
2130 | ············else |
2131 | ················return ObjectId.InvalidId; |
2132 | ········} |
2133 | ········*/ |
2134 | |
2135 | |
2136 | ········/* |
2137 | ········ * ····················if (cl.Oid.FieldName != null && HasOwnerCreatedIds) |
2138 | ····················{ |
2139 | ························// The column, which hold the oid gets overwritten, if |
2140 | ························// Oid.FieldName contains a value. |
2141 | */ |
2142 | ········private void WriteIdFieldsToRow(IPersistenceCapable pc, DataRow row) |
2143 | ········{ |
2144 | ············Class cl = GetClass(pc); |
2145 | |
2146 | ············if (cl.Oid.IsDependent) |
2147 | ················return; |
2148 | |
2149 | ············Key key = pc.NDOObjectId.Id; |
2150 | |
2151 | ············for (int i = 0; i < cl.Oid.OidColumns.Count; i++) |
2152 | ············{ |
2153 | ················OidColumn oidColumn = (OidColumn)cl.Oid.OidColumns[i]; |
2154 | ················if (oidColumn.FieldName != null) |
2155 | ················{ |
2156 | ····················row[oidColumn.Name] = key[i]; |
2157 | ················} |
2158 | ············} |
2159 | ········} |
2160 | |
2161 | ········private void WriteIdToRow(IPersistenceCapable pc, DataRow row) |
2162 | ········{ |
2163 | ············NDO.Mapping.Class cl = GetClass(pc); |
2164 | ············ObjectId oid = pc.NDOObjectId; |
2165 | |
2166 | ············if (cl.TimeStampColumn != null) |
2167 | ················row[cl.TimeStampColumn] = pc.NDOTimeStamp; |
2168 | |
2169 | ············if (cl.Oid.IsDependent)··// Oid data is in relation columns |
2170 | ················return; |
2171 | |
2172 | ············Key key = oid.Id; |
2173 | |
2174 | ············for (int i = 0; i < cl.Oid.OidColumns.Count; i++) |
2175 | ············{ |
2176 | ················OidColumn oidColumn = (OidColumn)cl.Oid.OidColumns[i]; |
2177 | ················row[oidColumn.Name] = key[i]; |
2178 | ············} |
2179 | ········} |
2180 | |
2181 | ········private void ReadIdFromRow(IPersistenceCapable pc, DataRow row) |
2182 | ········{ |
2183 | ············ObjectId oid = pc.NDOObjectId; |
2184 | ············NDO.Mapping.Class cl = GetClass(pc); |
2185 | |
2186 | ············if (cl.Oid.IsDependent)··// Oid data is in relation columns |
2187 | ················return; |
2188 | |
2189 | ············Key key = oid.Id; |
2190 | |
2191 | ············for (int i = 0; i < cl.Oid.OidColumns.Count; i++) |
2192 | ············{ |
2193 | ················OidColumn oidColumn = (OidColumn)cl.Oid.OidColumns[i]; |
2194 | ················object o = row[oidColumn.Name]; |
2195 | ················if (!(o is Int32) && !(o is Guid) && !(o is String) && !(o is Int64)) |
2196 | ····················throw new NDOException(78, "ReadId: invalid Id Column type in " + oidColumn.Name + ": " + o.GetType().FullName); |
2197 | ················if (oidColumn.SystemType == typeof(Guid) && (o is String)) |
2198 | ····················key[i] = new Guid((string)o); |
2199 | ················else |
2200 | ····················key[i] = o; |
2201 | ············} |
2202 | |
2203 | ········} |
2204 | |
2205 | ········private void ReadId (Cache.Entry e) |
2206 | ········{ |
2207 | ············ReadIdFromRow(e.pc, e.row); |
2208 | ········} |
2209 | |
2210 | ········private void WriteObject(IPersistenceCapable pc, DataRow row, string[] fieldNames) |
2211 | ········{ |
2212 | ············WriteObject(pc, row, fieldNames, 0); |
2213 | ········} |
2214 | |
2215 | ········private void ReadTimeStamp(Class cl, IPersistenceCapable pc, DataRow row) |
2216 | ········{ |
2217 | ············if (cl.TimeStampColumn == null) |
2218 | ················return; |
2219 | ············object col = row[cl.TimeStampColumn]; |
2220 | ············if (col is String) |
2221 | ················pc.NDOTimeStamp = new Guid(col.ToString()); |
2222 | ············else |
2223 | ················pc.NDOTimeStamp = (Guid) col; |
2224 | ········} |
2225 | |
2226 | |
2227 | |
2228 | ········private void ReadTimeStamp(Cache.Entry e) |
2229 | ········{ |
2230 | ············IPersistenceCapable pc = e.pc; |
2231 | ············NDO.Mapping.Class cl = GetClass(pc); |
2232 | ············Debug.Assert(!IsFakeRow(cl, e.row)); |
2233 | ············if (cl.TimeStampColumn == null) |
2234 | ················return; |
2235 | ············if (e.row[cl.TimeStampColumn] is String) |
2236 | ················e.pc.NDOTimeStamp = new Guid(e.row[cl.TimeStampColumn].ToString()); |
2237 | ············else |
2238 | ················e.pc.NDOTimeStamp = (Guid) e.row[cl.TimeStampColumn]; |
2239 | ········} |
2240 | |
2241 | ········/// <summary> |
2242 | ········/// Determines, if any objects are new, changed or deleted. |
2243 | ········/// </summary> |
2244 | ········public virtual bool HasChanges |
2245 | ········{ |
2246 | ············get |
2247 | ············{ |
2248 | ················return cache.LockedObjects.Count > 0; |
2249 | ············} |
2250 | ········} |
2251 | |
2252 | ········/// <summary> |
2253 | ········/// Do the update for all rows in the ds. |
2254 | ········/// </summary> |
2255 | ········/// <param name="types">Types with changes.</param> |
2256 | ········/// <param name="delete">True, if delete operations are to be performed.</param> |
2257 | ········/// <remarks> |
2258 | ········/// Delete and Insert/Update operations are to be separated to maintain the type order. |
2259 | ········/// </remarks> |
2260 | ········private void UpdateTypes(IList types, bool delete) |
2261 | ········{ |
2262 | ············foreach(Type t in types) |
2263 | ············{ |
2264 | ················//Debug.WriteLine("Update Deleted Objects: "··+ t.Name); |
2265 | ················using (IPersistenceHandler handler = PersistenceHandlerManager.GetPersistenceHandler( t )) |
2266 | ················{ |
2267 | ····················handler.VerboseMode = VerboseMode; |
2268 | ····················handler.LogAdapter = LogAdapter; |
2269 | ····················CheckTransaction( handler, t ); |
2270 | ····················ConcurrencyErrorHandler ceh = new ConcurrencyErrorHandler(this.OnConcurrencyError); |
2271 | ····················handler.ConcurrencyError += ceh; |
2272 | ····················try |
2273 | ····················{ |
2274 | ························DataTable dt = GetTable(t); |
2275 | ························if (delete) |
2276 | ····························handler.UpdateDeletedObjects( dt ); |
2277 | ························else |
2278 | ····························handler.Update( dt ); |
2279 | ····················} |
2280 | ····················finally |
2281 | ····················{ |
2282 | ························handler.ConcurrencyError -= ceh; |
2283 | ····················} |
2284 | ················} |
2285 | ············} |
2286 | ········} |
2287 | |
2288 | ········internal void UpdateCreatedMappingTableEntries() |
2289 | ········{ |
2290 | ············foreach (MappingTableEntry e in createdMappingTableObjects) |
2291 | ············{ |
2292 | ················if (!e.DeleteEntry) |
2293 | ····················WriteMappingTableEntry(e); |
2294 | ············} |
2295 | ············// Now update all mapping tables |
2296 | ············foreach (IMappingTableHandler handler in mappingHandler.Values) |
2297 | ············{ |
2298 | ················handler.LogAdapter = this.LogAdapter; |
2299 | ················handler.VerboseMode = this.VerboseMode; |
2300 | ················CheckTransaction( handler, handler.Relation.MappingTable.Connection ); |
2301 | ················handler.Update(ds); |
2302 | ············} |
2303 | ········} |
2304 | |
2305 | ········internal void UpdateDeletedMappingTableEntries() |
2306 | ········{ |
2307 | ············foreach (MappingTableEntry e in createdMappingTableObjects) |
2308 | ············{ |
2309 | ················if (e.DeleteEntry) |
2310 | ····················WriteMappingTableEntry(e); |
2311 | ············} |
2312 | ············// Now update all mapping tables |
2313 | ············foreach (IMappingTableHandler handler in mappingHandler.Values) |
2314 | ············{ |
2315 | ················handler.LogAdapter = this.LogAdapter; |
2316 | ················handler.VerboseMode = this.VerboseMode; |
2317 | ················CheckTransaction( handler, handler.Relation.MappingTable.Connection ); |
2318 | ················handler.Update(ds); |
2319 | ············} |
2320 | ········} |
2321 | |
2322 | ········/// <summary> |
2323 | ········/// Save all changed object into the DataSet and update the DB. |
2324 | ········/// When a newly created object is written to DB, the key might change. Therefore, |
2325 | ········/// the id is updated and the object is removed and re-inserted into the cache. |
2326 | ········/// </summary> |
2327 | ········public virtual void Save(bool deferCommit = false) |
2328 | ········{ |
2329 | ············this.DeferredMode = deferCommit; |
2330 | ············var htOnSaving = new HashSet<ObjectId>(); |
2331 | ············for(;;) |
2332 | ············{ |
2333 | ················// We need to work on a copy of the locked objects list, |
2334 | ················// since the handlers might add more objects to the cache |
2335 | ················var lockedObjects = cache.LockedObjects.ToList(); |
2336 | ················int count = lockedObjects.Count; |
2337 | ················foreach(Cache.Entry e in lockedObjects) |
2338 | ················{ |
2339 | ····················if (e.pc.NDOObjectState != NDOObjectState.Deleted) |
2340 | ····················{ |
2341 | ························IPersistenceNotifiable ipn = e.pc as IPersistenceNotifiable; |
2342 | ························if (ipn != null) |
2343 | ························{ |
2344 | ····························if (!htOnSaving.Contains(e.pc.NDOObjectId)) |
2345 | ····························{ |
2346 | ································ipn.OnSaving(); |
2347 | ································htOnSaving.Add(e.pc.NDOObjectId); |
2348 | ····························} |
2349 | ························} |
2350 | ····················} |
2351 | ················} |
2352 | ················// The system is stable, if the count doesn't change |
2353 | ················if (cache.LockedObjects.Count == count) |
2354 | ····················break; |
2355 | ············} |
2356 | |
2357 | ············if (this.OnSavingEvent != null) |
2358 | ············{ |
2359 | ················IList onSavingObjects = new ArrayList(cache.LockedObjects.Count); |
2360 | ················foreach(Cache.Entry e in cache.LockedObjects) |
2361 | ····················onSavingObjects.Add(e.pc); |
2362 | ················OnSavingEvent(onSavingObjects); |
2363 | ············} |
2364 | |
2365 | ············List<Type> types = new List<Type>(); |
2366 | ············List<IPersistenceCapable> deletedObjects = new List<IPersistenceCapable>(); |
2367 | ············List<IPersistenceCapable> hollowModeObjects = hollowMode ? new List<IPersistenceCapable>() : null; |
2368 | ············List<IPersistenceCapable> changedObjects = new List<IPersistenceCapable>(); |
2369 | ············List<IPersistenceCapable> addedObjects = new List<IPersistenceCapable>(); |
2370 | ············List<Cache.Entry> addedCacheEntries = new List<Cache.Entry>(); |
2371 | |
2372 | ············// Save current state in DataSet |
2373 | ············foreach (Cache.Entry e in cache.LockedObjects) |
2374 | ············{ |
2375 | ················Type objType = e.pc.GetType(); |
2376 | |
2377 | ················if (objType.IsGenericType && !objType.IsGenericTypeDefinition) |
2378 | ····················objType = objType.GetGenericTypeDefinition(); |
2379 | |
2380 | ················Class cl = GetClass(e.pc); |
2381 | ················//Debug.WriteLine("Saving: " + objType.Name + " id = " + e.pc.NDOObjectId.Dump()); |
2382 | ················if(!types.Contains(objType)) |
2383 | ················{ |
2384 | ····················//Debug.WriteLine("Added··type " + objType.Name); |
2385 | ····················types.Add(objType); |
2386 | ················} |
2387 | ················NDOObjectState objectState = e.pc.NDOObjectState; |
2388 | ················if(objectState == NDOObjectState.Deleted) |
2389 | ················{ |
2390 | ····················deletedObjects.Add(e.pc); |
2391 | ················} |
2392 | ················else if(objectState == NDOObjectState.Created) |
2393 | ················{ |
2394 | ····················WriteObject(e.pc, e.row, cl.ColumnNames);···················· |
2395 | ····················WriteIdFieldsToRow(e.pc, e.row);··// If fields are mapped to Oid, write them into the row |
2396 | ····················WriteForeignKeysToRow(e.pc, e.row); |
2397 | ····················//····················Debug.WriteLine(e.pc.GetType().FullName); |
2398 | ····················//····················DataRow[] rows = new DataRow[cache.LockedObjects.Count]; |
2399 | ····················//····················i = 0; |
2400 | ····················//····················foreach(Cache.Entry e2 in cache.LockedObjects) |
2401 | ····················//····················{ |
2402 | ····················//························rows[i++] = e2.row; |
2403 | ····················//····················} |
2404 | ····················//····················System.Data.SqlClient.SqlCommand cmd = new System.Data.SqlClient.SqlCommand("testCommand"); |
2405 | ····················//····················new SqlDumper(new DebugLogAdapter(), NDOProviderFactory.Instance["Sql"], cmd, cmd, cmd, cmd).Dump(rows); |
2406 | |
2407 | ····················addedCacheEntries.Add(e); |
2408 | ····················addedObjects.Add( e.pc ); |
2409 | ····················//····················objectState = NDOObjectState.Persistent; |
2410 | ················} |
2411 | ················else |
2412 | ················{ |
2413 | ····················if (e.pc.NDOObjectState == NDOObjectState.PersistentDirty) |
2414 | ························changedObjects.Add( e.pc ); |
2415 | ····················WriteObject(e.pc, e.row, cl.ColumnNames); |
2416 | ····················WriteForeignKeysToRow(e.pc, e.row); ···················· |
2417 | ················} |
2418 | ················if(hollowMode && (objectState == NDOObjectState.Persistent || objectState == NDOObjectState.Created || objectState == NDOObjectState.PersistentDirty) ) |
2419 | ················{ |
2420 | ····················hollowModeObjects.Add(e.pc); |
2421 | ················} |
2422 | ············} |
2423 | |
2424 | ············// Before we delete any db rows, we have to make sure, to delete mapping |
2425 | ············// table entries first, which might have relations to the db rows to be deleted |
2426 | ············UpdateDeletedMappingTableEntries(); |
2427 | |
2428 | ············// Update DB |
2429 | ············if (ds.HasChanges()) |
2430 | ············{ |
2431 | |
2432 | ················// We need the reversed update order for deletions. |
2433 | ················types.Sort( ( t1, t2 ) => |
2434 | ················{ |
2435 | ····················int i1 = mappings.GetUpdateOrder( t1 ); |
2436 | ····················int i2 = mappings.GetUpdateOrder( t2 ); |
2437 | ····················if (i1 < i2) |
2438 | ····················{ |
2439 | ························if (!addedObjects.Any( pc => pc.GetType() == t1 )) |
2440 | ····························i1 += 100000; |
2441 | ····················} |
2442 | ····················else |
2443 | ····················{ |
2444 | ························if (!addedObjects.Any( pc => pc.GetType() == t2 )) |
2445 | ····························i2 += 100000; |
2446 | ····················} |
2447 | ····················return i2 - i1; |
2448 | ················} ); |
2449 | |
2450 | ················// Delete records first |
2451 | |
2452 | ················UpdateTypes(types, true); |
2453 | |
2454 | ················// Now do all other updates in correct order. |
2455 | ················types.Reverse(); |
2456 | |
2457 | ················UpdateTypes(types, false); |
2458 | ················ |
2459 | ················ds.AcceptChanges(); |
2460 | ················if(createdDirectObjects.Count > 0) |
2461 | ················{ |
2462 | ····················// Rewrite all children that have foreign keys to parents which have just been saved now. |
2463 | ····················// They must be written again to store the correct foreign keys. |
2464 | ····················foreach(IPersistenceCapable pc in createdDirectObjects) |
2465 | ····················{ |
2466 | ························Class cl = GetClass(pc); |
2467 | ························DataRow r = this.cache.GetDataRow(pc); |
2468 | ························string fakeColumnName = GetFakeRowOidColumnName(cl); |
2469 | ························object o = r[fakeColumnName]; |
2470 | ························r[fakeColumnName] = o; |
2471 | ····················} |
2472 | |
2473 | ····················UpdateTypes(types, false); |
2474 | ················} |
2475 | |
2476 | ················// Because object id might have changed during DB insertion, re-register newly created objects in the cache. |
2477 | ················foreach(Cache.Entry e in addedCacheEntries) |
2478 | ················{ |
2479 | ····················cache.DeregisterLockedObject(e.pc); |
2480 | ····················ReadId(e); |
2481 | ····················cache.RegisterLockedObject(e.pc, e.row, e.relations); |
2482 | ················} |
2483 | |
2484 | ················// Now update all mapping tables. Because of possible subclasses, there is no |
2485 | ················// relation between keys in the dataset schema. Therefore, we can update mapping |
2486 | ················// tables only after all other objects have been written to ensure correct foreign keys. |
2487 | ················UpdateCreatedMappingTableEntries(); |
2488 | |
2489 | ················// The rows may contain now new Ids, which should be |
2490 | ················// stored in the lostRowInfo's before the rows get detached |
2491 | ················foreach(Cache.Entry e in cache.LockedObjects) |
2492 | ················{ |
2493 | ····················if (e.row.RowState != DataRowState.Detached) |
2494 | ····················{ |
2495 | ························IPersistenceCapable pc = e.pc; |
2496 | ························ReadLostForeignKeysFromRow(GetClass(pc), pc, e.row); |
2497 | ····················} |
2498 | ················} |
2499 | |
2500 | ················ds.AcceptChanges(); |
2501 | ············} |
2502 | |
2503 | ············EndSave(!deferCommit); |
2504 | |
2505 | ············foreach(IPersistenceCapable pc in deletedObjects) |
2506 | ············{ |
2507 | ················MakeObjectTransient(pc, false); |
2508 | ············} |
2509 | |
2510 | ············ds.Clear(); |
2511 | ············mappingHandler.Clear(); |
2512 | ············createdDirectObjects.Clear(); |
2513 | ············createdMappingTableObjects.Clear(); |
2514 | ············this.relationChanges.Clear(); |
2515 | |
2516 | ············if(hollowMode) |
2517 | ············{ |
2518 | ················MakeHollow(hollowModeObjects); |
2519 | ············} |
2520 | |
2521 | ············if (this.OnSavedEvent != null) |
2522 | ············{ |
2523 | ················AuditSet auditSet = new AuditSet() |
2524 | ················{ |
2525 | ····················ChangedObjects = changedObjects, |
2526 | ····················CreatedObjects = addedObjects, |
2527 | ····················DeletedObjects = deletedObjects |
2528 | ················}; |
2529 | ················this.OnSavedEvent( auditSet ); |
2530 | ············} |
2531 | ········} |
2532 | |
2533 | ········private void EndSave(bool forceCommit) |
2534 | ········{ |
2535 | ············foreach(Cache.Entry e in cache.LockedObjects) |
2536 | ············{ |
2537 | ················if (e.pc.NDOObjectState == NDOObjectState.Created || e.pc.NDOObjectState == NDOObjectState.PersistentDirty) |
2538 | ····················this.ReadTimeStamp(e); |
2539 | ················e.pc.NDOObjectState = NDOObjectState.Persistent; |
2540 | ············} |
2541 | |
2542 | ············cache.UnlockAll(); |
2543 | |
2544 | ············CheckEndTransaction(forceCommit); |
2545 | ········} |
2546 | |
2547 | ········/// <summary> |
2548 | ········/// Write all foreign keys for 1:1-relations. |
2549 | ········/// </summary> |
2550 | ········/// <param name="pc">The persistent object.</param> |
2551 | ········/// <param name="pcRow">The DataRow of the pesistent object.</param> |
2552 | ········private void WriteForeignKeysToRow(IPersistenceCapable pc, DataRow pcRow) |
2553 | ········{ |
2554 | ············foreach(Relation r in mappings.Get1to1Relations(pc.GetType())) |
2555 | ············{ |
2556 | ················IPersistenceCapable relObj = (IPersistenceCapable)mappings.GetRelationField(pc, r.FieldName); |
2557 | ················bool isDependent = GetClass(pc).Oid.IsDependent; |
2558 | |
2559 | ················if ( relObj != null ) |
2560 | ················{ |
2561 | ····················int i = 0; |
2562 | ····················foreach ( ForeignKeyColumn fkColumn in r.ForeignKeyColumns ) |
2563 | ····················{ |
2564 | ························pcRow[fkColumn.Name] = relObj.NDOObjectId.Id[i++]; |
2565 | ····················} |
2566 | ····················if ( r.ForeignKeyTypeColumnName != null ) |
2567 | ····················{ |
2568 | ························pcRow[r.ForeignKeyTypeColumnName] = relObj.NDOObjectId.Id.TypeId; |
2569 | ····················} |
2570 | ················} |
2571 | ················else |
2572 | ················{ |
2573 | ····················foreach ( ForeignKeyColumn fkColumn in r.ForeignKeyColumns ) |
2574 | ····················{ |
2575 | ························pcRow[fkColumn.Name] = DBNull.Value; |
2576 | ····················} |
2577 | ····················if ( r.ForeignKeyTypeColumnName != null ) |
2578 | ····················{ |
2579 | ························pcRow[r.ForeignKeyTypeColumnName] = DBNull.Value; |
2580 | ····················} |
2581 | ················} |
2582 | ············} |
2583 | ········} |
2584 | |
2585 | |
2586 | |
2587 | ········/// <summary> |
2588 | ········/// Write a mapping table entry to it's corresponding table. This is a pair of foreign keys. |
2589 | ········/// </summary> |
2590 | ········/// <param name="e">the mapping table entry</param> |
2591 | ········private void WriteMappingTableEntry(MappingTableEntry e) |
2592 | ········{ |
2593 | ············IPersistenceCapable pc = e.ParentObject; |
2594 | ············IPersistenceCapable relObj = e.RelatedObject; |
2595 | ············Relation r = e.Relation; |
2596 | ············DataTable dt = GetTable(r.MappingTable.TableName); |
2597 | ············DataRow row = dt.NewRow(); |
2598 | ············int i = 0; |
2599 | ············foreach (ForeignKeyColumn fkColumn in r.ForeignKeyColumns ) |
2600 | ············{ |
2601 | ················row[fkColumn.Name] = pc.NDOObjectId.Id[i++]; |
2602 | ············} |
2603 | ············i = 0; |
2604 | ············foreach (ForeignKeyColumn fkColumn in r.MappingTable.ChildForeignKeyColumns) |
2605 | ············{ |
2606 | ················row[fkColumn.Name] = relObj.NDOObjectId.Id[i++]; |
2607 | ············} |
2608 | |
2609 | ············if (r.ForeignKeyTypeColumnName != null) |
2610 | ················row[r.ForeignKeyTypeColumnName] = pc.NDOObjectId.Id.TypeId; |
2611 | ············if (r.MappingTable.ChildForeignKeyTypeColumnName != null) |
2612 | ················row[r.MappingTable.ChildForeignKeyTypeColumnName] = relObj.NDOObjectId.Id.TypeId; |
2613 | |
2614 | ············dt.Rows.Add(row); |
2615 | ············if(e.DeleteEntry) |
2616 | ············{ |
2617 | ················row.AcceptChanges(); |
2618 | ················row.Delete(); |
2619 | ············} |
2620 | |
2621 | ············IMappingTableHandler handler; |
2622 | ············if (!mappingHandler.TryGetValue( r, out handler )) |
2623 | ············{ |
2624 | ················mappingHandler[r] = handler = PersistenceHandlerManager.GetPersistenceHandler( pc ).GetMappingTableHandler( r ); |
2625 | ············} |
2626 | ········} |
2627 | |
2628 | |
2629 | ········/// <summary> |
2630 | ········/// Undo changes of a certain object |
2631 | ········/// </summary> |
2632 | ········/// <param name="o">Object to undo</param> |
2633 | ········public void Restore(object o) |
2634 | ········{············ |
2635 | ············IPersistenceCapable pc = CheckPc(o); |
2636 | ············Cache.Entry e = null; |
2637 | ············foreach (Cache.Entry entry in cache.LockedObjects) |
2638 | ············{ |
2639 | ················if (entry.pc == pc) |
2640 | ················{ |
2641 | ····················e = entry; |
2642 | ····················break; |
2643 | ················} |
2644 | ············} |
2645 | ············if (e == null) |
2646 | ················return; |
2647 | ············Class cl = GetClass(e.pc); |
2648 | ············switch (pc.NDOObjectState) |
2649 | ············{ |
2650 | ················case NDOObjectState.PersistentDirty: |
2651 | ····················ObjectListManipulator.Remove(createdDirectObjects, pc); |
2652 | ····················foreach(Relation r in cl.Relations) |
2653 | ····················{ |
2654 | ························if (r.Multiplicity == RelationMultiplicity.Element) |
2655 | ························{ |
2656 | ····························IPersistenceCapable subPc = (IPersistenceCapable) mappings.GetRelationField(pc, r.FieldName); |
2657 | ····························if (subPc != null && cache.IsLocked(subPc)) |
2658 | ································Restore(subPc); |
2659 | ························} |
2660 | ························else |
2661 | ························{ |
2662 | ····························if (!pc.NDOGetLoadState(r.Ordinal)) |
2663 | ································continue; |
2664 | ····························IList subList = (IList) mappings.GetRelationContainer(pc, r); |
2665 | ····························if (subList != null) |
2666 | ····························{ |
2667 | ································foreach(IPersistenceCapable subPc2 in subList) |
2668 | ································{ |
2669 | ····································if (cache.IsLocked(subPc2)) |
2670 | ········································Restore(subPc2); |
2671 | ································} |
2672 | ····························} |
2673 | ························} |
2674 | ····················} |
2675 | ····················RestoreRelatedObjects(pc, e.relations); |
2676 | ····················e.row.RejectChanges(); |
2677 | ····················ReadObject(pc, e.row, cl.ColumnNames, 0); |
2678 | ····················cache.Unlock(pc); |
2679 | ····················pc.NDOObjectState = NDOObjectState.Persistent; |
2680 | ····················break; |
2681 | ················case NDOObjectState.Created: |
2682 | ····················ReadObject(pc, e.row, cl.ColumnNames, 0); |
2683 | ····················cache.Unlock(pc); |
2684 | ····················MakeObjectTransient(pc, true); |
2685 | ····················break; |
2686 | ················case NDOObjectState.Deleted: |
2687 | ····················if (!this.IsFakeRow(cl, e.row)) |
2688 | ····················{ |
2689 | ························e.row.RejectChanges(); |
2690 | ························ReadObject(e.pc, e.row, cl.ColumnNames, 0); |
2691 | ························e.pc.NDOObjectState = NDOObjectState.Persistent; |
2692 | ····················} |
2693 | ····················else |
2694 | ····················{ |
2695 | ························e.row.RejectChanges(); |
2696 | ························e.pc.NDOObjectState = NDOObjectState.Hollow; |
2697 | ····················} |
2698 | ····················cache.Unlock(pc); |
2699 | ····················break; |
2700 | |
2701 | ············} |
2702 | ········} |
2703 | |
2704 | ········/// <summary> |
2705 | ········/// Aborts a pending transaction without restoring the object state. |
2706 | ········/// </summary> |
2707 | ········/// <remarks>Supports both local and EnterpriseService Transactions.</remarks> |
2708 | ········public virtual void AbortTransaction() |
2709 | ········{ |
2710 | ············TransactionScope.Dispose(); |
2711 | ········} |
2712 | |
2713 | ········/// <summary> |
2714 | ········/// Rejects all changes and restores the original object state. Added Objects will be made transient. |
2715 | ········/// </summary> |
2716 | ········public virtual void Abort() |
2717 | ········{ |
2718 | ············// RejectChanges of the DS cannot be called because newly added rows would be deleted, |
2719 | ············// and therefore, couldn't be restored. Instead we call RejectChanges() for each |
2720 | ············// individual row. |
2721 | ············createdDirectObjects.Clear(); |
2722 | ············createdMappingTableObjects.Clear(); |
2723 | ············ArrayList deletedObjects = new ArrayList(); |
2724 | ············ArrayList hollowModeObjects = hollowMode ? new ArrayList() : null; |
2725 | |
2726 | ············// Read all objects from DataSet |
2727 | ············foreach (Cache.Entry e in cache.LockedObjects) |
2728 | ············{ |
2729 | ················//Debug.WriteLine("Reading: " + e.pc.GetType().Name); |
2730 | |
2731 | ················Class cl = GetClass(e.pc); |
2732 | ················bool isFakeRow = this.IsFakeRow(cl, e.row); |
2733 | ················if (!isFakeRow) |
2734 | ················{ |
2735 | ····················RestoreRelatedObjects(e.pc, e.relations); |
2736 | ················} |
2737 | ················else |
2738 | ················{ |
2739 | ····················Debug.Assert(e.pc.NDOObjectState == NDOObjectState.Deleted, "Fake row objects can only exist in deleted state"); |
2740 | ················} |
2741 | |
2742 | ················switch(e.pc.NDOObjectState) |
2743 | ················{ |
2744 | ····················case NDOObjectState.Created: |
2745 | ························ReadObject(e.pc, e.row, cl.ColumnNames, 0); |
2746 | ························deletedObjects.Add(e.pc); |
2747 | ························break; |
2748 | |
2749 | ····················case NDOObjectState.PersistentDirty: |
2750 | ························e.row.RejectChanges(); |
2751 | ························ReadObject(e.pc, e.row, cl.ColumnNames, 0); |
2752 | ························e.pc.NDOObjectState = NDOObjectState.Persistent; |
2753 | ························break; |
2754 | |
2755 | ····················case NDOObjectState.Deleted: |
2756 | ························if (!isFakeRow) |
2757 | ························{ |
2758 | ····························e.row.RejectChanges(); |
2759 | ····························ReadObject(e.pc, e.row, cl.ColumnNames, 0); |
2760 | ····························e.pc.NDOObjectState = NDOObjectState.Persistent; |
2761 | ························} |
2762 | ························else |
2763 | ························{ |
2764 | ····························e.row.RejectChanges(); |
2765 | ····························e.pc.NDOObjectState = NDOObjectState.Hollow; |
2766 | ························} |
2767 | ························break; |
2768 | |
2769 | ····················default: |
2770 | ························throw new InternalException(2082, "Abort(): wrong state detected: " + e.pc.NDOObjectState + " id = " + e.pc.NDOObjectId.Dump()); |
2771 | ························//Debug.Assert(false, "Object with wrong state detected: " + e.pc.NDOObjectState); |
2772 | ························//break; |
2773 | ················} |
2774 | ················if(hollowMode && e.pc.NDOObjectState == NDOObjectState.Persistent) |
2775 | ················{ |
2776 | ····················hollowModeObjects.Add(e.pc); |
2777 | ················} |
2778 | ············} |
2779 | ············cache.UnlockAll(); |
2780 | ············foreach(IPersistenceCapable pc in deletedObjects) |
2781 | ············{ |
2782 | ················MakeObjectTransient(pc, true); |
2783 | ············} |
2784 | ············ds.Clear(); |
2785 | ············mappingHandler.Clear(); |
2786 | ············if(hollowMode) |
2787 | ············{ |
2788 | ················MakeHollow(hollowModeObjects); |
2789 | ············} |
2790 | |
2791 | ············this.relationChanges.Clear(); |
2792 | |
2793 | |
2794 | ············AbortTransaction(); |
2795 | ········} |
2796 | |
2797 | |
2798 | ········/// <summary> |
2799 | ········/// Reset object to its transient state and remove it from the cache. Optinally, remove the object id to |
2800 | ········/// disable future access. |
2801 | ········/// </summary> |
2802 | ········/// <param name="pc"></param> |
2803 | ········/// <param name="removeId">Indicates if the object id should be nulled</param> |
2804 | ········private void MakeObjectTransient(IPersistenceCapable pc, bool removeId) |
2805 | ········{ |
2806 | ············cache.Deregister(pc); |
2807 | ············// MakeTransient doesn't remove the ID, because delete makes objects transient and we need the id for the ChangeLog············ |
2808 | ············if(removeId) |
2809 | ············{ |
2810 | ················pc.NDOObjectId = null; |
2811 | ············} |
2812 | ············pc.NDOObjectState = NDOObjectState.Transient; |
2813 | ············pc.NDOStateManager = null; |
2814 | ········} |
2815 | |
2816 | ········/// <summary> |
2817 | ········/// Makes an object transient. |
2818 | ········/// The object can be used afterwards, but changes will not be saved in the database. |
2819 | ········/// </summary> |
2820 | ········/// <remarks> |
2821 | ········/// Only persistent or hollow objects can be detached. Hollow objects are loaded to ensure valid data. |
2822 | ········/// </remarks> |
2823 | ········/// <param name="o">The object to detach.</param> |
2824 | ········public void MakeTransient(object o) |
2825 | ········{ |
2826 | ············IPersistenceCapable pc = CheckPc(o); |
2827 | ············if(pc.NDOObjectState != NDOObjectState.Persistent && pc.NDOObjectState··!= NDOObjectState.Hollow) |
2828 | ············{ |
2829 | ················throw new NDOException(79, "MakeTransient: Illegal state '" + pc.NDOObjectState + "' for this operation"); |
2830 | ············} |
2831 | |
2832 | ············if(pc.NDOObjectState··== NDOObjectState.Hollow) |
2833 | ············{ |
2834 | ················LoadData(pc); |
2835 | ············} |
2836 | ············MakeObjectTransient(pc, true); |
2837 | ········} |
2838 | |
2839 | |
2840 | ········/// <summary> |
2841 | ········/// Make all objects of a list transient. |
2842 | ········/// </summary> |
2843 | ········/// <param name="list">the list of transient objects</param> |
2844 | ········public void MakeTransient(System.Collections.IList list) |
2845 | ········{ |
2846 | ············foreach (IPersistenceCapable pc in list) |
2847 | ················MakeTransient(pc); |
2848 | ········} |
2849 | |
2850 | ········/// <summary> |
2851 | ········/// Remove an object from the DB. Note that the object itself is not destroyed and may still be used. |
2852 | ········/// </summary> |
2853 | ········/// <param name="o">The object to remove</param> |
2854 | ········public void Delete(object o) |
2855 | ········{ |
2856 | ············IPersistenceCapable pc = CheckPc(o); |
2857 | if ( pc. NDOObjectState == NDOObjectState. Transient) |
2858 | ············{ |
2859 | ················throw new NDOException( 120, "Can't delete transient object" ); |
2860 | ············} |
2861 | ············if (pc.NDOObjectState != NDOObjectState.Deleted) |
2862 | ············{ |
2863 | ················Delete(pc, true); |
2864 | ············} |
2865 | ········} |
2866 | |
2867 | |
2868 | ········private void LoadAllRelations(object o) |
2869 | ········{ |
2870 | ············IPersistenceCapable pc = CheckPc(o); |
2871 | ············Class cl = GetClass(pc); |
2872 | ············foreach(Relation r in cl.Relations) |
2873 | ············{ |
2874 | ················if (!pc.NDOGetLoadState(r.Ordinal)) |
2875 | ····················LoadRelation(pc, r, true); |
2876 | ············} |
2877 | ········} |
2878 | |
2879 | |
2880 | ········/// <summary> |
2881 | ········/// Remove an object from the DB. Note that the object itself is not destroyed and may still be used. |
2882 | ········/// </summary> |
2883 | ········/// <remarks> |
2884 | ········/// If checkAssoziations it true, the object cannot be deleted if it is part of a bidirectional assoziation. |
2885 | ········/// This is the case if delete was called from user code. Internally, an object may be deleted because it is called from |
2886 | ········/// the parent object. |
2887 | ········/// </remarks> |
2888 | ········/// <param name="pc">the object to remove</param> |
2889 | ········/// <param name="checkAssoziations">true if child of a composition can't be deleted</param> |
2890 | ········private void Delete(IPersistenceCapable pc, bool checkAssoziations) |
2891 | ········{ |
2892 | ············//Debug.WriteLine("Delete " + pc.NDOObjectId.Dump()); |
2893 | ············//Debug.Indent(); |
2894 | ············IDeleteNotifiable idn = pc as IDeleteNotifiable; |
2895 | ············if (idn != null) |
2896 | ················idn.OnDelete(); |
2897 | |
2898 | ············LoadAllRelations(pc); |
2899 | ············DeleteRelatedObjects(pc, checkAssoziations); |
2900 | |
2901 | ············switch(pc.NDOObjectState) |
2902 | ············{ |
2903 | ················case NDOObjectState.Transient: |
2904 | ····················throw new NDOException(80, "Cannot delete transient object: " + pc.NDOObjectId); |
2905 | |
2906 | ················case NDOObjectState.Created: |
2907 | ····················DataRow row = cache.GetDataRow(pc); |
2908 | ····················row.Delete(); |
2909 | ····················ArrayList cdosToDelete = new ArrayList(); |
2910 | ····················foreach (IPersistenceCapable cdo in createdDirectObjects) |
2911 | ························if ((object)cdo == (object)pc) |
2912 | ····························cdosToDelete.Add(cdo); |
2913 | ····················foreach (object o in cdosToDelete) |
2914 | ························ObjectListManipulator.Remove(createdDirectObjects, o); |
2915 | ····················MakeObjectTransient(pc, true); |
2916 | ····················break; |
2917 | ················case NDOObjectState.Persistent: |
2918 | ····················if (!cache.IsLocked(pc)) // Deletes k�nnen durchaus mehrmals aufgerufen werden |
2919 | ························SaveObjectState(pc, true); |
2920 | ····················row = cache.GetDataRow(pc); |
2921 | ····················row.Delete(); |
2922 | ····················pc.NDOObjectState = NDOObjectState.Deleted; |
2923 | ····················break; |
2924 | ················case NDOObjectState.Hollow: |
2925 | ····················if (!cache.IsLocked(pc)) // Deletes k�nnen durchaus mehrmals aufgerufen werden |
2926 | ························SaveFakeRow(pc); |
2927 | ····················row = cache.GetDataRow(pc); |
2928 | ····················row.Delete(); |
2929 | ····················pc.NDOObjectState = NDOObjectState.Deleted; |
2930 | ····················break; |
2931 | |
2932 | ················case NDOObjectState.PersistentDirty: |
2933 | ····················row = cache.GetDataRow(pc); |
2934 | ····················row.Delete(); |
2935 | ····················pc.NDOObjectState··= NDOObjectState.Deleted; |
2936 | ····················break; |
2937 | |
2938 | ················case NDOObjectState.Deleted: |
2939 | ····················break; |
2940 | ············} |
2941 | |
2942 | ············//Debug.Unindent(); |
2943 | ········} |
2944 | |
2945 | |
2946 | ········private void DeleteMappingTableEntry(IPersistenceCapable pc, Relation r, IPersistenceCapable child) |
2947 | ········{ |
2948 | ············MappingTableEntry mte = null; |
2949 | ············foreach(MappingTableEntry e in createdMappingTableObjects) |
2950 | ············{ |
2951 | ················if(e.ParentObject.NDOObjectId == pc.NDOObjectId && e.RelatedObject.NDOObjectId == child.NDOObjectId && e.Relation == r) |
2952 | ················{ |
2953 | ····················mte = e; |
2954 | ····················break; |
2955 | ················} |
2956 | ············} |
2957 | |
2958 | ············if(pc.NDOObjectState == NDOObjectState.Created || child.NDOObjectState == NDOObjectState.Created) |
2959 | ············{ |
2960 | ················if (mte != null) |
2961 | ····················createdMappingTableObjects.Remove(mte); |
2962 | ············} |
2963 | ············else |
2964 | ············{ |
2965 | ················if (mte == null) |
2966 | ····················createdMappingTableObjects.Add(new MappingTableEntry(pc, child, r, true)); |
2967 | ············} |
2968 | ········} |
2969 | |
2970 | ········private void DeleteOrNullForeignRelation(IPersistenceCapable pc, Relation r, IPersistenceCapable child) |
2971 | ········{ |
2972 | ············// Two tasks: a) Null the foreign key |
2973 | ············//··············b) remove the element from the foreign container |
2974 | |
2975 | ············if (!r.Bidirectional) |
2976 | ················return; |
2977 | |
2978 | ············// this keeps the oid valid |
2979 | ············if (GetClass(child.GetType()).Oid.IsDependent) |
2980 | ················return; |
2981 | |
2982 | ············if(r.ForeignRelation.Multiplicity == RelationMultiplicity.Element) |
2983 | ············{ |
2984 | ················LoadAndMarkDirty(child); |
2985 | ················mappings.SetRelationField(child, r.ForeignRelation.FieldName, null); |
2986 | ············} |
2987 | ············else //if(r.Multiplicity == RelationMultiplicity.List && |
2988 | ················// r.ForeignRelation.Multiplicity == RelationMultiplicity.List)·· |
2989 | ············{ |
2990 | ················if (!child.NDOGetLoadState(r.ForeignRelation.Ordinal)) |
2991 | ····················LoadRelation(child, r.ForeignRelation, true); |
2992 | ················IList l = mappings.GetRelationContainer(child, r.ForeignRelation); |
2993 | ················if (l == null) |
2994 | ····················throw new NDOException(67, "Can't remove object from the list " + child.GetType().FullName + "." + r.ForeignRelation.FieldName + ". The list is null."); |
2995 | ················ObjectListManipulator.Remove(l, pc); |
2996 | ················// Don't need to delete the mapping table entry, because that was done |
2997 | ················// through the parent. |
2998 | ············} |
2999 | ········} |
3000 | |
3001 | ········private void DeleteOrNullRelation(IPersistenceCapable pc, Relation r, IPersistenceCapable child) |
3002 | ········{ |
3003 | ············// 1) Element····nomap····ass |
3004 | ············// 2) Element····nomap····comp |
3005 | ············// 3) Element····map········ass |
3006 | ············// 4) Element····map········comp |
3007 | ············// 5) List········nomap····ass |
3008 | ············// 6) List········nomap····comp |
3009 | ············// 7) List········map········ass |
3010 | ············// 8) List········map········comp |
3011 | |
3012 | ············// Two tasks: Null foreign key and, if Composition, delete the child |
3013 | |
3014 | ············// If Mapping Table, delete the entry - 3,7 |
3015 | ············// If List and assoziation, null the foreign key in the foreign class - 5 |
3016 | ············// If Element, null the foreign key in the own class 1,2,3,4 |
3017 | ············// If composition, delete the child 2,4,6,8 |
3018 | |
3019 | ············// If the relObj is newly created |
3020 | ············ObjectListManipulator.Remove(createdDirectObjects, child); |
3021 | ············Class childClass = GetClass(child); |
3022 | |
3023 | ············if (r.MappingTable != null)··// 3,7 |
3024 | ············{················ |
3025 | ················DeleteMappingTableEntry(pc, r, child); |
3026 | ············} |
3027 | ············else if (r.Multiplicity == RelationMultiplicity.List |
3028 | ················&& !r.Composition && !childClass.Oid.IsDependent) // 5 |
3029 | ············{················ |
3030 | ················LoadAndMarkDirty(child); |
3031 | ················DataRow row = this.cache.GetDataRow(child); |
3032 | ················foreach (ForeignKeyColumn fkColumnn in r.ForeignKeyColumns) |
3033 | ················{ |
3034 | ····················row[fkColumnn.Name] = DBNull.Value; |
3035 | ····················child.NDOLoadState.ReplaceRowInfo(fkColumnn.Name, DBNull.Value); |
3036 | ················} |
3037 | ············} |
3038 | ············else if (r.Multiplicity == RelationMultiplicity.Element) // 1,2,3,4 |
3039 | ············{ |
3040 | ················LoadAndMarkDirty(pc); |
3041 | ············} |
3042 | ············if (r.Composition || childClass.Oid.IsDependent) |
3043 | ············{ |
3044 | #if DEBUG |
3045 | ················if (child.NDOObjectState == NDOObjectState.Transient) |
3046 | ····················Debug.WriteLine("***** Object shouldn't be transient: " + child.GetType().FullName); |
3047 | #endif |
3048 | ················// Deletes the foreign key in case of List multiplicity |
3049 | ················// In case of Element multiplicity, the parent is either deleted, |
3050 | ················// or RemoveRelatedObject is called because the relation has been nulled. |
3051 | ················Delete(child);·· |
3052 | ············} |
3053 | ········} |
3054 | |
3055 | ········/// <summary> |
3056 | ········/// Remove a related object |
3057 | ········/// </summary> |
3058 | ········/// <param name="pc"></param> |
3059 | ········/// <param name="r"></param> |
3060 | ········/// <param name="child"></param> |
3061 | ········/// <param name="calledFromStateManager"></param> |
3062 | ········protected virtual void InternalRemoveRelatedObject(IPersistenceCapable pc, Relation r, IPersistenceCapable child, bool calledFromStateManager) |
3063 | ········{ |
3064 | ············//TODO: We need a relation management, which is independent of |
3065 | ············//the state management of an object. At the moment the relation |
3066 | ············//lists or elements are cached for restore, if an object is marked dirty. |
3067 | ············//Thus we have to mark dirty our parent object in any case at the moment. |
3068 | ············if (calledFromStateManager) |
3069 | ················MarkDirty(pc); |
3070 | |
3071 | ············// Object can be deleted in an OnDelete-Handler |
3072 | ············if (child.NDOObjectState == NDOObjectState.Deleted) |
3073 | ················return; |
3074 | ············//············Debug.WriteLine("InternalRemoveRelatedObject " + pc.GetType().Name + " " + r.FieldName + " " + child.GetType()); |
3075 | ············// Preconditions |
3076 | ············// This is called either by DeleteRelatedObjects or by RemoveRelatedObject |
3077 | ············// The Object state is checked there |
3078 | |
3079 | ············// If there is a composition in the opposite direction |
3080 | ············// && the other direction hasn't been processed |
3081 | ············// throw an exception. |
3082 | ············// If an exception is thrown at this point, have a look at IsLocked.... |
3083 | ············if (r.Bidirectional && r.ForeignRelation.Composition |
3084 | ················&& !removeLock.IsLocked(child, r.ForeignRelation, pc)) |
3085 | ················throw new NDOException(82, "Cannot remove related object " + child.GetType().FullName + " from parent " + pc.NDOObjectId.Dump() + ". Object must be removed through the parent."); |
3086 | |
3087 | ············if (!removeLock.GetLock(pc, r, child)) |
3088 | ················return; |
3089 | |
3090 | ············try |
3091 | ············{ |
3092 | ················// must be in this order, since the child |
3093 | ················// can be deleted in DeleteOrNullRelation |
3094 | ················//if (changeForeignRelations) |
3095 | ················DeleteOrNullForeignRelation(pc, r, child); |
3096 | ················DeleteOrNullRelation(pc, r, child); |
3097 | ············} |
3098 | ············finally |
3099 | ············{ |
3100 | ················removeLock.Unlock(pc, r, child); |
3101 | ············} |
3102 | |
3103 | ············this.relationChanges.Add( new RelationChangeRecord( pc, child, r.FieldName, false ) ); |
3104 | ········} |
3105 | |
3106 | ········private void DeleteRelatedObjects2(IPersistenceCapable pc, Class parentClass, bool checkAssoziations, Relation r) |
3107 | ········{ |
3108 | ············//············Debug.WriteLine("DeleteRelatedObjects2 " + pc.GetType().Name + " " + r.FieldName); |
3109 | ············//············Debug.Indent(); |
3110 | ············if (r.Multiplicity == RelationMultiplicity.Element) |
3111 | ············{ |
3112 | ················IPersistenceCapable child = (IPersistenceCapable) mappings.GetRelationField(pc, r.FieldName); |
3113 | ················if(child != null) |
3114 | ················{ |
3115 | ····················//····················if(checkAssoziations && r.Bidirectional && !r.Composition) |
3116 | ····················//····················{ |
3117 | ····················//························if (!r.ForeignRelation.Composition) |
3118 | ····················//························{ |
3119 | ····················//····························mappings.SetRelationField(pc, r.FieldName, null); |
3120 | ····················//····························mappings.SetRelationField(child, r.ForeignRelation.FieldName, null); |
3121 | ····················//························} |
3122 | ····················//····························//System.Diagnostics.Debug.WriteLine("Nullen: pc = " + pc.GetType().Name + " child = " + child.GetType().Name); |
3123 | ····················//························else |
3124 | ····················//····························throw new NDOException(83, "Can't remove object of type " + pc.GetType().FullName + "; It is contained by an object of type " + child.GetType().FullName); |
3125 | ····················//····················} |
3126 | ····················InternalRemoveRelatedObject(pc, r, child, false); |
3127 | ················} |
3128 | ············} |
3129 | ············else |
3130 | ············{ |
3131 | ················IList list = mappings.GetRelationContainer(pc, r); |
3132 | ················if(list != null && list.Count > 0) |
3133 | ················{ |
3134 | ····················//····················if(checkAssoziations && r.Bidirectional && !r.Composition) |
3135 | ····················//····················{ |
3136 | ····················//························throw new xxNDOException(84, "Cannot delete object " + pc.NDOObjectId + " in an assoziation. Remove related objects first."); |
3137 | ····················//····················} |
3138 | ····················// Since RemoveRelatedObjects probably changes the list, |
3139 | ····················// we iterate through a copy of the list. |
3140 | ····················ArrayList al = new ArrayList(list); |
3141 | ····················foreach(IPersistenceCapable relObj in al) |
3142 | ····················{ |
3143 | ························InternalRemoveRelatedObject(pc, r, relObj, false); |
3144 | ····················} |
3145 | ················} |
3146 | ············} |
3147 | ············//············Debug.Unindent(); |
3148 | ········} |
3149 | |
3150 | ········/// <summary> |
3151 | ········/// Remove all related objects from a parent. |
3152 | ········/// </summary> |
3153 | ········/// <param name="pc">the parent object</param> |
3154 | ········/// <param name="checkAssoziations"></param> |
3155 | ········private void DeleteRelatedObjects(IPersistenceCapable pc, bool checkAssoziations) |
3156 | ········{ |
3157 | ············//············Debug.WriteLine("DeleteRelatedObjects " + pc.NDOObjectId.Dump()); |
3158 | ············//············Debug.Indent(); |
3159 | ············// delete all related objects: |
3160 | ············Class parentClass = GetClass(pc); |
3161 | ············// Remove Assoziations first |
3162 | ············foreach(Relation r in parentClass.Relations) |
3163 | ············{ |
3164 | ················if (!r.Composition) |
3165 | ····················DeleteRelatedObjects2(pc, parentClass, checkAssoziations, r); |
3166 | ············} |
3167 | ············foreach(Relation r in parentClass.Relations) |
3168 | ············{ |
3169 | ················if (r.Composition) |
3170 | ····················DeleteRelatedObjects2(pc, parentClass, checkAssoziations, r); |
3171 | ············} |
3172 | |
3173 | ············//············Debug.Unindent(); |
3174 | ········} |
3175 | |
3176 | ········/// <summary> |
3177 | ········/// Delete a list of objects |
3178 | ········/// </summary> |
3179 | ········/// <param name="list">the list of objects to remove</param> |
3180 | ········public void Delete(IList list) |
3181 | ········{ |
3182 | ············for (int i = 0; i < list.Count; i++) |
3183 | ············{ |
3184 | ················IPersistenceCapable pc = (IPersistenceCapable) list[i]; |
3185 | ················Delete(pc); |
3186 | ············} |
3187 | ········} |
3188 | |
3189 | ········/// <summary> |
3190 | ········/// Make object hollow. All relations will be unloaded and object data will be |
3191 | ········/// newly fetched during the next touch of a persistent field. |
3192 | ········/// </summary> |
3193 | ········/// <param name="o"></param> |
3194 | ········public virtual void MakeHollow(object o) |
3195 | ········{ |
3196 | ············IPersistenceCapable pc = CheckPc(o); |
3197 | ············MakeHollow(pc, false); |
3198 | ········} |
3199 | |
3200 | ········/// <summary> |
3201 | ········/// Make the object hollow if it is persistent. Unload all complex data. |
3202 | ········/// </summary> |
3203 | ········/// <param name="o"></param> |
3204 | ········/// <param name="recursive">if true then unload related objects as well</param> |
3205 | ········public virtual void MakeHollow(object o, bool recursive) |
3206 | ········{ |
3207 | ············IPersistenceCapable pc = CheckPc(o); |
3208 | ············if(pc.NDOObjectState == NDOObjectState.Hollow) |
3209 | ················return; |
3210 | ············if(pc.NDOObjectState != NDOObjectState.Persistent) |
3211 | ············{ |
3212 | ················throw new NDOException(85, "MakeHollow: Illegal state for this operation (" + pc.NDOObjectState.ToString() + ")"); |
3213 | ············} |
3214 | ············pc.NDOObjectState = NDOObjectState.Hollow; |
3215 | ············MakeRelationsHollow(pc, recursive); |
3216 | ········} |
3217 | |
3218 | ········/// <summary> |
3219 | ········/// Make all objects of a list hollow. |
3220 | ········/// </summary> |
3221 | ········/// <param name="list">the list of objects that should be made hollow</param> |
3222 | ········public virtual void MakeHollow(System.Collections.IList list) |
3223 | ········{ |
3224 | ············MakeHollow(list, false); |
3225 | ········} |
3226 | |
3227 | ········/// <summary> |
3228 | ········/// Make all objects of a list hollow. |
3229 | ········/// </summary> |
3230 | ········/// <param name="list">the list of objects that should be made hollow</param> |
3231 | ········/// <param name="recursive">if true then unload related objects as well</param> |
3232 | ········public void MakeHollow(System.Collections.IList list, bool recursive) |
3233 | ········{ |
3234 | ············foreach (IPersistenceCapable pc in list) |
3235 | ················MakeHollow(pc, recursive);················ |
3236 | ········} |
3237 | |
3238 | ········/// <summary> |
3239 | ········/// Make all unlocked objects in the cache hollow. |
3240 | ········/// </summary> |
3241 | ········public virtual void MakeAllHollow() |
3242 | ········{ |
3243 | ············foreach(var pc in cache.UnlockedObjects) |
3244 | ············{ |
3245 | ················MakeHollow(pc, false); |
3246 | ············} |
3247 | ········} |
3248 | |
3249 | ········/// <summary> |
3250 | ········/// Make relations hollow. |
3251 | ········/// </summary> |
3252 | ········/// <param name="pc">The parent object</param> |
3253 | ········/// <param name="recursive">If true, the function unloads related objects as well.</param> |
3254 | ········private void MakeRelationsHollow(IPersistenceCapable pc, bool recursive) |
3255 | ········{ |
3256 | ············Class c = GetClass(pc); |
3257 | ············foreach(Relation r in c.Relations) |
3258 | ············{ |
3259 | ················if (r.Multiplicity == RelationMultiplicity.Element) |
3260 | ················{ |
3261 | ····················mappings.SetRelationField(pc, r.FieldName, null); |
3262 | ····················//····················IPersistenceCapable child = (IPersistenceCapable) mappings.GetRelationField(pc, r.FieldName); |
3263 | ····················//····················if((null != child) && recursive) |
3264 | ····················//····················{ |
3265 | ····················//························MakeHollow(child, true); |
3266 | ····················//····················} |
3267 | ················} |
3268 | ················else |
3269 | ················{ |
3270 | ····················if (!pc.NDOGetLoadState(r.Ordinal)) |
3271 | ························continue; |
3272 | ····················// Help GC by clearing lists |
3273 | ····················IList l = mappings.GetRelationContainer(pc, r); |
3274 | ····················if(l != null) |
3275 | ····················{ |
3276 | ························if(recursive) |
3277 | ························{ |
3278 | ····························MakeHollow(l, true); |
3279 | ························} |
3280 | ························l.Clear(); |
3281 | ····················} |
3282 | ····················// Hollow relation |
3283 | ····················mappings.SetRelationContainer(pc, r, null); |
3284 | ················} |
3285 | ············} |
3286 | ············ClearRelationState(pc); |
3287 | ········} |
3288 | |
3289 | ········private void ClearRelationState(IPersistenceCapable pc) |
3290 | ········{ |
3291 | ············Class cl = GetClass(pc); |
3292 | ············foreach(Relation r in cl.Relations) |
3293 | ················pc.NDOSetLoadState(r.Ordinal, false); |
3294 | ········} |
3295 | |
3296 | ········private void SetRelationState(IPersistenceCapable pc) |
3297 | ········{ |
3298 | ············Class cl = GetClass(pc); |
3299 | ············// Due to a bug in the enhancer the constructors are not always patched right, |
3300 | ············// so NDOLoadState might be uninitialized |
3301 | ············if (pc.NDOLoadState == null) |
3302 | ············{ |
3303 | ················FieldInfo fi = new BaseClassReflector(pc.GetType()).GetField("_ndoLoadState", BindingFlags.Instance | BindingFlags.NonPublic); |
3304 | ················if (fi == null) |
3305 | ····················throw new InternalException(3131, "pm.SetRelationState: No FieldInfo for _ndoLoadState"); |
3306 | ················fi.SetValue(pc, new LoadState()); |
3307 | ············} |
3308 | |
3309 | ············// After serialization the relation load state is null |
3310 | ············if (pc.NDOLoadState.RelationLoadState == null) |
3311 | ················pc.NDOLoadState.RelationLoadState = new BitArray(LoadState.RelationLoadStateSize); |
3312 | ············foreach(Relation r in cl.Relations) |
3313 | ················pc.NDOSetLoadState(r.Ordinal, true); |
3314 | ········} |
3315 | |
3316 | ········/// <summary> |
3317 | ········/// Creates an object of a given type and resolves constructor parameters using the container. |
3318 | ········/// </summary> |
3319 | ········/// <param name="t">The type of the persistent object</param> |
3320 | ········/// <returns></returns> |
3321 | ········public IPersistenceCapable CreateObject(Type t) |
3322 | ········{ |
3323 | ············return Metaclasses.GetClass( t ).CreateObject( this.ConfigContainer ); |
3324 | ········} |
3325 | |
3326 | ········/// <summary> |
3327 | ········/// Creates an object of a given type and resolves constructor parameters using the container. |
3328 | ········/// </summary> |
3329 | ········/// <typeparam name="T">The type of the object to create.</typeparam> |
3330 | ········/// <returns></returns> |
3331 | ········public T CreateObject<T>() |
3332 | ········{ |
3333 | ············return (T)CreateObject( typeof( T ) ); |
3334 | ········} |
3335 | |
3336 | ········/// <summary> |
3337 | ········/// Gets the requested object. It first builds an ObjectId using the type and the |
3338 | ········/// key data. Then it uses FindObject to retrieve the object. No database access |
3339 | ········/// is performed. |
3340 | ········/// </summary> |
3341 | ········/// <param name="t">The type of the object to retrieve.</param> |
3342 | ········/// <param name="keyData">The key value to build the object id.</param> |
3343 | ········/// <returns>A hollow object</returns> |
3344 | ········/// <remarks>If the key value is of a wrong type, an exception will be thrown, if the object state changes from hollow to persistent.</remarks> |
3345 | ········public IPersistenceCapable FindObject(Type t, object keyData) |
3346 | ········{ |
3347 | ············ObjectId oid = ObjectIdFactory.NewObjectId(t, GetClass(t), keyData, this.typeManager); |
3348 | ············return FindObject(oid); |
3349 | ········} |
3350 | |
3351 | ········/// <summary> |
3352 | ········/// Finds an object using a short id. |
3353 | ········/// </summary> |
3354 | ········/// <param name="encodedShortId"></param> |
3355 | ········/// <returns></returns> |
3356 | ········public IPersistenceCapable FindObject(string encodedShortId) |
3357 | ········{ |
3358 | ············string shortId = encodedShortId.Decode(); |
3359 | ············string[] arr = shortId.Split( '-' ); |
3360 | ············if (arr.Length != 3) |
3361 | ················throw new ArgumentException( "The format of the string is not valid", "shortId" ); |
3362 | ············Type t = shortId.GetObjectType(this);··// try readable format |
3363 | ············if (t == null) |
3364 | ············{ |
3365 | ················int typeCode = 0; |
3366 | ················if (!int.TryParse( arr[2], NumberStyles.HexNumber, CultureInfo.InvariantCulture, out typeCode )) |
3367 | ····················throw new ArgumentException( "The string doesn't represent a loadable type", "shortId" ); |
3368 | ················t = this.typeManager[typeCode]; |
3369 | ················if (t == null) |
3370 | ····················throw new ArgumentException( "The string doesn't represent a loadable type", "shortId" ); |
3371 | ············} |
3372 | |
3373 | ············Class cls = GetClass( t ); |
3374 | ············if (cls == null) |
3375 | ················throw new ArgumentException( "The type identified by the string is not persistent or is not managed by the given mapping file", "shortId" ); |
3376 | |
3377 | ············object[] keydata = new object[cls.Oid.OidColumns.Count]; |
3378 | ············string[] oidValues = arr[2].Split( ' ' ); |
3379 | |
3380 | ············int i = 0; |
3381 | ············foreach (var oidValue in oidValues) |
3382 | ············{ |
3383 | ················Type oidType = cls.Oid.OidColumns[i].SystemType; |
3384 | ················if (oidType == typeof( int )) |
3385 | ················{ |
3386 | ····················int key; |
3387 | ····················if (!int.TryParse( oidValue, out key )) |
3388 | ························throw new ArgumentException( $"The ShortId value at index {i} doesn't contain an int value", nameof(encodedShortId) ); |
3389 | ····················if (key > (int.MaxValue >> 1)) |
3390 | ························key = -(int.MaxValue - key); |
3391 | ····················keydata[i] = key; |
3392 | ················} |
3393 | ················else if (oidType == typeof( Guid )) |
3394 | ················{ |
3395 | ····················Guid key; |
3396 | ····················if (!Guid.TryParse( oidValue, out key )) |
3397 | ························throw new ArgumentException( $"The ShortId value at index {i} doesn't contain an Guid value", nameof( encodedShortId ) ); |
3398 | ····················keydata[i] = key; |
3399 | ················} |
3400 | ················else if (oidType == typeof( string )) |
3401 | ················{ |
3402 | ····················keydata[i] = oidValue; |
3403 | ················} |
3404 | ················else |
3405 | ················{ |
3406 | ····················throw new ArgumentException( $"The oid type at index {i} of the persistent type {t} can't be used by a ShortId: {oidType.FullName}", nameof( encodedShortId ) ); |
3407 | ················} |
3408 | |
3409 | ················i++; |
3410 | ············} |
3411 | |
3412 | ············if (keydata.Length == 1) |
3413 | ················return FindObject( t, keydata[0] ); |
3414 | |
3415 | ············return FindObject( t, keydata );············ |
3416 | ········} |
3417 | |
3418 | ········/// <summary> |
3419 | ········/// Gets the requested object. If it is in the cache, the cached object is returned, otherwise, a new (hollow) |
3420 | ········/// instance of the object is returned. In either case, the DB is not accessed! |
3421 | ········/// </summary> |
3422 | ········/// <param name="id">Object id</param> |
3423 | ········/// <returns>The object to retrieve in hollow state</returns>········ |
3424 | ········public IPersistenceCapable FindObject(ObjectId id) |
3425 | ········{ |
3426 | ············if(id == null) |
3427 | ············{ |
3428 | ················throw new ArgumentNullException("id"); |
3429 | ············} |
3430 | |
3431 | ············if(!id.IsValid()) |
3432 | ············{ |
3433 | ················throw new NDOException(86, "FindObject: Invalid object id. Object does not exist"); |
3434 | ············} |
3435 | |
3436 | ············IPersistenceCapable pc = cache.GetObject(id); |
3437 | ············if(pc == null) |
3438 | ············{ |
3439 | ················pc = CreateObject(id.Id.Type); |
3440 | ················pc.NDOObjectId = id; |
3441 | ················pc.NDOStateManager = sm; |
3442 | ················pc.NDOObjectState = NDOObjectState.Hollow; |
3443 | ················cache.UpdateCache(pc); |
3444 | ············} |
3445 | ············return pc; |
3446 | ········} |
3447 | |
3448 | |
3449 | ········/// <summary> |
3450 | ········/// Reload an object from the database. |
3451 | ········/// </summary> |
3452 | ········/// <param name="o">The object to be reloaded.</param> |
3453 | ········public virtual void Refresh(object o) |
3454 | ········{ |
3455 | ············IPersistenceCapable pc = CheckPc(o); |
3456 | ············if(pc.NDOObjectState == NDOObjectState.Transient || pc.NDOObjectState == NDOObjectState.Deleted) |
3457 | ············{ |
3458 | ················throw new NDOException(87, "Refresh: Illegal state " + pc.NDOObjectState + " for this operation"); |
3459 | ············} |
3460 | |
3461 | ············if(pc.NDOObjectState == NDOObjectState.Created || pc.NDOObjectState == NDOObjectState.PersistentDirty) |
3462 | ················return; // Cannot update objects in current transaction |
3463 | |
3464 | ············MakeHollow(pc); |
3465 | ············LoadData(pc); |
3466 | ········} |
3467 | |
3468 | ········/// <summary> |
3469 | ········/// Refresh a list of objects. |
3470 | ········/// </summary> |
3471 | ········/// <param name="list">The list of objects to be refreshed.</param> |
3472 | ········public virtual void Refresh(IList list) |
3473 | ········{ |
3474 | ············foreach (IPersistenceCapable pc in list) |
3475 | ················Refresh(pc);························ |
3476 | ········} |
3477 | |
3478 | ········/// <summary> |
3479 | ········/// Refreshes all unlocked objects in the cache. |
3480 | ········/// </summary> |
3481 | ········public virtual void RefreshAll() |
3482 | ········{ |
3483 | ············Refresh( cache.UnlockedObjects.ToList() ); |
3484 | ········} |
3485 | |
3486 | ········/// <summary> |
3487 | ········/// Closes the PersistenceManager and releases all resources. |
3488 | ········/// </summary> |
3489 | ········public override void Close() |
3490 | ········{ |
3491 | ············if (this.isClosing) |
3492 | ················return; |
3493 | ············this.isClosing = true; |
3494 | ············TransactionScope.Dispose(); |
3495 | ············UnloadCache(); |
3496 | ············base.Close(); |
3497 | ········} |
3498 | |
3499 | ········internal void LogIfVerbose(string msg) |
3500 | ········{ |
3501 | ············if (VerboseMode && LogAdapter != null) |
3502 | ············{ |
3503 | ················this.LogAdapter.Info( msg ); |
3504 | ············} |
3505 | ········} |
3506 | |
3507 | |
3508 | ········#endregion |
3509 | |
3510 | |
3511 | #region Class extent |
3512 | ········/// <summary> |
3513 | ········/// Gets all objects of a given class. |
3514 | ········/// </summary> |
3515 | ········/// <param name="t">the type of the class</param> |
3516 | ········/// <returns>A list of all persistent objects of the given class. Subclasses will not be included in the result set.</returns> |
3517 | ········public virtual IList GetClassExtent(Type t) |
3518 | ········{ |
3519 | ············return GetClassExtent(t, true); |
3520 | ········} |
3521 | |
3522 | ········/// <summary> |
3523 | ········/// Gets all objects of a given class. |
3524 | ········/// </summary> |
3525 | ········/// <param name="t">The type of the class.</param> |
3526 | ········/// <param name="hollow">If true, return objects in hollow state instead of persistent state.</param> |
3527 | ········/// <returns>A list of all persistent objects of the given class.</returns> |
3528 | ········/// <remarks>Subclasses of the given type are not fetched.</remarks> |
3529 | ········public virtual IList GetClassExtent(Type t, bool hollow) |
3530 | ········{ |
3531 | ············IQuery q = NewQuery( t, null, hollow ); |
3532 | ············return q.Execute(); |
3533 | ········} |
3534 | |
3535 | #endregion |
3536 | |
3537 | #region Query engine |
3538 | |
3539 | |
3540 | ········/// <summary> |
3541 | ········/// Returns a virtual table for Linq queries. |
3542 | ········/// </summary> |
3543 | ········/// <typeparam name="T"></typeparam> |
3544 | ········/// <returns></returns> |
3545 | ········public VirtualTable<T> Objects<T>() //where T: IPersistenceCapable |
3546 | ········{ |
3547 | ············return new VirtualTable<T>( this ); |
3548 | ········} |
3549 | |
3550 | ········ |
3551 | ········/// <summary> |
3552 | ········/// Suppose, you had a directed 1:n relation from class A to class B. If you load an object of type B, |
3553 | ········/// a foreign key pointing to a row in the table A is read as part of the B row. But since B doesn't have |
3554 | ········/// a relation to A the foreign key would get lost if we discard the row after building the B object. To |
3555 | ········/// not lose the foreign key it will be stored as part of the object. |
3556 | ········/// </summary> |
3557 | ········/// <param name="cl"></param> |
3558 | ········/// <param name="pc"></param> |
3559 | ········/// <param name="row"></param> |
3560 | ········void ReadLostForeignKeysFromRow(Class cl, IPersistenceCapable pc, DataRow row) |
3561 | ········{ |
3562 | ············if (cl.FKColumnNames != null) |
3563 | ············{ |
3564 | ················//················Debug.WriteLine("GetLostForeignKeysFromRow " + pc.NDOObjectId.Dump()); |
3565 | ················KeyValueList kvl = new KeyValueList(cl.FKColumnNames.Count()); |
3566 | ················foreach(string colName in cl.FKColumnNames) |
3567 | ····················kvl.Add(new KeyValuePair(colName, row[colName])); |
3568 | ················pc.NDOLoadState.LostRowInfo = kvl;················ |
3569 | ············} |
3570 | ········} |
3571 | |
3572 | ········/// <summary> |
3573 | ········/// Writes information into the data row, which cannot be stored in the object. |
3574 | ········/// </summary> |
3575 | ········/// <param name="cl"></param> |
3576 | ········/// <param name="pc"></param> |
3577 | ········/// <param name="row"></param> |
3578 | ········protected virtual void WriteLostForeignKeysToRow(Class cl, IPersistenceCapable pc, DataRow row) |
3579 | ········{ |
3580 | ············if (cl.FKColumnNames != null) |
3581 | ············{ |
3582 | ················//················Debug.WriteLine("WriteLostForeignKeys " + pc.NDOObjectId.Dump()); |
3583 | ················KeyValueList kvl = (KeyValueList)pc.NDOLoadState.LostRowInfo; |
3584 | ················if (kvl == null) |
3585 | ····················throw new NDOException(88, "Can't find foreign keys for the relations of the object " + pc.NDOObjectId.Dump()); |
3586 | ················foreach (KeyValuePair pair in kvl) |
3587 | ····················row[(string) pair.Key] = pair.Value; |
3588 | ············} |
3589 | ········} |
3590 | |
3591 | ········void Row2Object(Class cl, IPersistenceCapable pc, DataRow row) |
3592 | ········{ |
3593 | ············ReadObject(pc, row, cl.ColumnNames, 0); |
3594 | ············ReadTimeStamp(cl, pc, row); |
3595 | ············ReadLostForeignKeysFromRow(cl, pc, row); |
3596 | ············LoadRelated1To1Objects(pc, row); |
3597 | ············pc.NDOObjectState = NDOObjectState.Persistent; |
3598 | ········} |
3599 | |
3600 | |
3601 | ········/// <summary> |
3602 | ········/// Convert a data table to objects. Note that the table might only hold objects of the specified type. |
3603 | ········/// </summary> |
3604 | ········internal IList DataTableToIList(Type t, ICollection rows, bool hollow) |
3605 | ········{ |
3606 | ············IList queryResult = GenericListReflector.CreateList(t, rows.Count); |
3607 | ············if (rows.Count == 0) |
3608 | ················return queryResult; |
3609 | |
3610 | ············IList callbackObjects = new ArrayList(); |
3611 | ············Class cl = GetClass(t); |
3612 | ············if (t.IsGenericTypeDefinition) |
3613 | ············{ |
3614 | ················if (cl.TypeNameColumn == null) |
3615 | ····················throw new NDOException(104, "No type name column defined for generic type '" + t.FullName + "'. Check your mapping file."); |
3616 | ················IEnumerator en = rows.GetEnumerator(); |
3617 | ················en.MoveNext();··// Move to the first element |
3618 | ················DataRow testrow = (DataRow)en.Current; |
3619 | ················if (testrow.Table.Columns[cl.TypeNameColumn.Name] == null) |
3620 | ····················throw new InternalException(3333, "DataTableToIList: TypeNameColumn isn't defined in the schema."); |
3621 | ············} |
3622 | |
3623 | ············foreach(DataRow row in rows) |
3624 | ············{ |
3625 | ················Type concreteType = t; |
3626 | ················if (t.IsGenericTypeDefinition)··// type information is in the row |
3627 | ················{ |
3628 | ····················if (row[cl.TypeNameColumn.Name] == DBNull.Value) |
3629 | ····················{ |
3630 | ························ObjectId tempid = ObjectIdFactory.NewObjectId(t, cl, row, this.typeManager); |
3631 | ························throw new NDOException(105, "Null entry in the TypeNameColumn of the type '" + t.FullName + "'. Oid = " + tempid.ToString()); |
3632 | ····················} |
3633 | ····················string typeStr = (string)row[cl.TypeNameColumn.Name]; |
3634 | ····················concreteType = Type.GetType(typeStr); |
3635 | ····················if (concreteType == null) |
3636 | ························throw new NDOException(106, "Can't load generic type " + typeStr); |
3637 | ················} |
3638 | ················ObjectId id = ObjectIdFactory.NewObjectId(concreteType, cl, row, this.typeManager); |
3639 | ················IPersistenceCapable pc = cache.GetObject(id);················ |
3640 | ················if(pc == null) |
3641 | ················{ |
3642 | ····················var mc = Metaclasses.GetClass(concreteType); |
3643 | ····················pc = mc.CreateObject( this.ConfigContainer ); |
3644 | ····················pc.NDOObjectId = id; |
3645 | ····················pc.NDOStateManager = sm; |
3646 | ····················// If the object shouldn't be hollow, this will be overwritten later. |
3647 | ····················pc.NDOObjectState = NDOObjectState.Hollow; |
3648 | ················} |
3649 | ················// If we have found a non hollow object, the time stamp remains the old one. |
3650 | ················// In every other case we use the new time stamp. |
3651 | ················// Note, that there could be a hollow object in the cache. |
3652 | ················// We need the time stamp in hollow objects in order to correctly |
3653 | ················// delete objects using fake rows. |
3654 | ················if (pc.NDOObjectState == NDOObjectState.Hollow) |
3655 | ················{ |
3656 | ····················ReadTimeStamp(cl, pc, row); |
3657 | ················} |
3658 | ················if(!hollow && pc.NDOObjectState != NDOObjectState.PersistentDirty) |
3659 | ················{ |
3660 | ····················Row2Object(cl, pc, row); |
3661 | ····················if ((pc as IPersistenceNotifiable) != null) |
3662 | ························callbackObjects.Add(pc); |
3663 | ················} |
3664 | |
3665 | ················cache.UpdateCache(pc); |
3666 | ················queryResult.Add(pc); |
3667 | ············} |
3668 | ············// Make shure this is the last statement before returning |
3669 | ············// to the caller, so the user can recursively use persistent |
3670 | ············// objects |
3671 | ············foreach(IPersistenceNotifiable ipn in callbackObjects) |
3672 | ················ipn.OnLoaded(); |
3673 | |
3674 | ············return queryResult; |
3675 | ········} |
3676 | |
3677 | #endregion |
3678 | |
3679 | #region Cache Management |
3680 | ········/// <summary> |
3681 | ········/// Remove all unused entries from the cache. |
3682 | ········/// </summary> |
3683 | ········public void CleanupCache() |
3684 | ········{ |
3685 | ············GC.Collect(GC.MaxGeneration); |
3686 | ············GC.WaitForPendingFinalizers(); |
3687 | ············cache.Cleanup(); |
3688 | ········} |
3689 | |
3690 | ········/// <summary> |
3691 | ········/// Remove all unlocked objects from the cache. Use with care! |
3692 | ········/// </summary> |
3693 | ········public void UnloadCache() |
3694 | ········{ |
3695 | ············cache.Unload(); |
3696 | ········} |
3697 | #endregion |
3698 | |
3699 | ········/// <summary> |
3700 | ········/// Default encryption key for NDO |
3701 | ········/// </summary> |
3702 | ········/// <remarks> |
3703 | ········/// We recommend strongly to use an own encryption key, which can be set with this property. |
3704 | ········/// </remarks> |
3705 | ········public virtual byte[] EncryptionKey |
3706 | ········{ |
3707 | ············get |
3708 | ············{ |
3709 | ················if (this.encryptionKey == null) |
3710 | ····················this.encryptionKey = new byte[] { 0x09,0xA2,0x79,0x5C,0x99,0xFF,0xCB,0x8B,0xA3,0x37,0x76,0xC8,0xA6,0x5D,0x6D,0x66, |
3711 | ······················································0xE2,0x74,0xCF,0xF0,0xF7,0xEA,0xC4,0x82,0x1E,0xD5,0x19,0x4C,0x5A,0xB4,0x89,0x4D }; |
3712 | ················return this.encryptionKey; |
3713 | ············} |
3714 | ············set { this.encryptionKey = value; } |
3715 | ········} |
3716 | |
3717 | ········/// <summary> |
3718 | ········/// Hollow mode: If true all objects are made hollow after each transaction. |
3719 | ········/// </summary> |
3720 | ········public virtual bool HollowMode |
3721 | ········{ |
3722 | ············get { return hollowMode; } |
3723 | ············set { hollowMode = value; } |
3724 | ········} |
3725 | |
3726 | ········internal TypeManager TypeManager |
3727 | ········{ |
3728 | ············get { return typeManager; } |
3729 | ········} |
3730 | |
3731 | ········/// <summary> |
3732 | ········/// Sets or gets transaction mode. Uses TransactionMode enum. |
3733 | ········/// </summary> |
3734 | ········/// <remarks> |
3735 | ········/// Set this value before you start any transactions. |
3736 | ········/// </remarks> |
3737 | ········public TransactionMode TransactionMode |
3738 | ········{ |
3739 | ············get { return TransactionScope.TransactionMode; } |
3740 | ············set { TransactionScope.TransactionMode = value; } |
3741 | ········} |
3742 | |
3743 | ········/// <summary> |
3744 | ········/// Sets or gets the Isolation Level. |
3745 | ········/// </summary> |
3746 | ········/// <remarks> |
3747 | ········/// Set this value before you start any transactions. |
3748 | ········/// </remarks> |
3749 | ········public IsolationLevel IsolationLevel |
3750 | ········{ |
3751 | ············get { return TransactionScope.IsolationLevel; } |
3752 | ············set { TransactionScope.IsolationLevel = value; } |
3753 | ········} |
3754 | |
3755 | ········internal class MappingTableEntry |
3756 | ········{ |
3757 | ············private IPersistenceCapable parentObject; |
3758 | ············private IPersistenceCapable relatedObject; |
3759 | ············private Relation relation; |
3760 | ············private bool deleteEntry; |
3761 | ············ |
3762 | ············public MappingTableEntry(IPersistenceCapable pc, IPersistenceCapable relObj, Relation r) : this(pc, relObj, r, false) |
3763 | ············{ |
3764 | ············} |
3765 | ············ |
3766 | ············public MappingTableEntry(IPersistenceCapable pc, IPersistenceCapable relObj, Relation r, bool deleteEntry) |
3767 | ············{ |
3768 | ················parentObject = pc; |
3769 | ················relatedObject = relObj; |
3770 | ················relation = r; |
3771 | ················this.deleteEntry = deleteEntry; |
3772 | ············} |
3773 | |
3774 | ············public bool DeleteEntry |
3775 | ············{ |
3776 | ················get |
3777 | ················{ |
3778 | ····················return deleteEntry; |
3779 | ················} |
3780 | ············} |
3781 | |
3782 | ············public IPersistenceCapable ParentObject |
3783 | ············{ |
3784 | ················get |
3785 | ················{ |
3786 | ····················return parentObject; |
3787 | ················} |
3788 | ············} |
3789 | |
3790 | ············public IPersistenceCapable RelatedObject |
3791 | ············{ |
3792 | ················get |
3793 | ················{ |
3794 | ····················return relatedObject; |
3795 | ················} |
3796 | ············} |
3797 | |
3798 | ············public Relation Relation |
3799 | ············{ |
3800 | ················get |
3801 | ················{ |
3802 | ····················return relation; |
3803 | ················} |
3804 | ············} |
3805 | ········} |
3806 | |
3807 | ········/// <summary> |
3808 | ········/// Get a DataRow representing the given object. |
3809 | ········/// </summary> |
3810 | ········/// <param name="o"></param> |
3811 | ········/// <returns></returns> |
3812 | ········public DataRow GetClonedDataRow( object o ) |
3813 | ········{ |
3814 | ············IPersistenceCapable pc = CheckPc( o ); |
3815 | |
3816 | ············if (pc.NDOObjectState == NDOObjectState.Deleted || pc.NDOObjectState == NDOObjectState.Transient) |
3817 | ················throw new Exception( "GetDataRow: State of the object must not be Deleted or Transient." ); |
3818 | |
3819 | ············DataRow row = cache.GetDataRow( pc ); |
3820 | ············DataTable newTable = row.Table.Clone(); |
3821 | ············newTable.ImportRow( row ); |
3822 | ············row = newTable.Rows[0]; |
3823 | |
3824 | ············Class cls = mappings.FindClass(o.GetType()); |
3825 | ············WriteObject( pc, row, cls.ColumnNames ); |
3826 | ············WriteForeignKeysToRow( pc, row ); |
3827 | |
3828 | ············return row; |
3829 | ········} |
3830 | |
3831 | ········/// <summary> |
3832 | ········/// Gets an object, which shows all changes applied to the given object. |
3833 | ········/// This function can be used to build an audit system. |
3834 | ········/// </summary> |
3835 | ········/// <param name="o"></param> |
3836 | ········/// <returns>An ExpandoObject</returns> |
3837 | ········public ChangeLog GetChangeSet( object o ) |
3838 | ········{ |
3839 | ············var changeLog = new ChangeLog(this); |
3840 | ············changeLog.Initialize( o ); |
3841 | ············return changeLog; |
3842 | ········} |
3843 | |
3844 | ········/// <summary> |
3845 | ········/// Outputs a revision number representing the assembly version. |
3846 | ········/// </summary> |
3847 | ········/// <remarks>This can be used for debugging purposes</remarks> |
3848 | ········public int Revision |
3849 | ········{ |
3850 | ············get |
3851 | ············{ |
3852 | ················Version v = new AssemblyName( GetType().Assembly.FullName ).Version; |
3853 | ················string vstring = String.Format( "{0}{1:D2}{2}{3:D2}", v.Major, v.Minor, v.Build, v.MinorRevision ); |
3854 | ················return int.Parse( vstring ); |
3855 | ············} |
3856 | ········} |
3857 | ····} |
3858 | } |
3859 |