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1 281 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                 GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS                 --
4
--                                                                          --
5
--               SYSTEM.TASKING.PROTECTED_OBJECTS.OPERATIONS                --
6
--                                                                          --
7
--                                  B o d y                                 --
8
--                                                                          --
9
--         Copyright (C) 1998-2009, Free Software Foundation, Inc.          --
10
--                                                                          --
11
-- GNARL is free software; you can  redistribute it  and/or modify it under --
12
-- terms of the  GNU General Public License as published  by the Free Soft- --
13
-- ware  Foundation;  either version 3,  or (at your option) any later ver- --
14
-- sion.  GNAT is distributed in the hope that it will be useful, but WITH- --
15
-- OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY --
16
-- or FITNESS FOR A PARTICULAR PURPOSE.                                     --
17
--                                                                          --
18
-- As a special exception under Section 7 of GPL version 3, you are granted --
19
-- additional permissions described in the GCC Runtime Library Exception,   --
20
-- version 3.1, as published by the Free Software Foundation.               --
21
--                                                                          --
22
-- You should have received a copy of the GNU General Public License and    --
23
-- a copy of the GCC Runtime Library Exception along with this program;     --
24
-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
25
-- <http://www.gnu.org/licenses/>.                                          --
26
--                                                                          --
27
-- GNARL was developed by the GNARL team at Florida State University.       --
28
-- Extensive contributions were provided by Ada Core Technologies, Inc.     --
29
--                                                                          --
30
------------------------------------------------------------------------------
31
 
32
--  This package contains all extended primitives related to Protected_Objects
33
--  with entries.
34
 
35
--  The handling of protected objects with no entries is done in
36
--  System.Tasking.Protected_Objects, the simple routines for protected
37
--  objects with entries in System.Tasking.Protected_Objects.Entries.
38
 
39
--  The split between Entries and Operations is needed to break circular
40
--  dependencies inside the run time.
41
 
42
--  This package contains all primitives related to Protected_Objects.
43
--  Note: the compiler generates direct calls to this interface, via Rtsfind.
44
 
45
with System.Task_Primitives.Operations;
46
with System.Tasking.Entry_Calls;
47
with System.Tasking.Queuing;
48
with System.Tasking.Rendezvous;
49
with System.Tasking.Utilities;
50
with System.Tasking.Debug;
51
with System.Parameters;
52
with System.Traces.Tasking;
53
with System.Restrictions;
54
 
55
with System.Tasking.Initialization;
56
pragma Elaborate_All (System.Tasking.Initialization);
57
--  Insures that tasking is initialized if any protected objects are created
58
 
59
package body System.Tasking.Protected_Objects.Operations is
60
 
61
   package STPO renames System.Task_Primitives.Operations;
62
 
63
   use Parameters;
64
   use Task_Primitives;
65
   use Ada.Exceptions;
66
   use Entries;
67
 
68
   use System.Restrictions;
69
   use System.Restrictions.Rident;
70
   use System.Traces;
71
   use System.Traces.Tasking;
72
 
73
   -----------------------
74
   -- Local Subprograms --
75
   -----------------------
76
 
77
   procedure Update_For_Queue_To_PO
78
     (Entry_Call : Entry_Call_Link;
79
      With_Abort : Boolean);
80
   pragma Inline (Update_For_Queue_To_PO);
81
   --  Update the state of an existing entry call to reflect the fact that it
82
   --  is being enqueued, based on whether the current queuing action is with
83
   --  or without abort. Call this only while holding the PO's lock. It returns
84
   --  with the PO's lock still held.
85
 
86
   procedure Requeue_Call
87
     (Self_Id    : Task_Id;
88
      Object     : Protection_Entries_Access;
89
      Entry_Call : Entry_Call_Link);
90
   --  Handle requeue of Entry_Call.
91
   --  In particular, queue the call if needed, or service it immediately
92
   --  if possible.
93
 
94
   ---------------------------------
95
   -- Cancel_Protected_Entry_Call --
96
   ---------------------------------
97
 
98
   --  Compiler interface only (do not call from within the RTS)
99
 
100
   --  This should have analogous effect to Cancel_Task_Entry_Call, setting
101
   --  the value of Block.Cancelled instead of returning the parameter value
102
   --  Cancelled.
103
 
104
   --  The effect should be idempotent, since the call may already have been
105
   --  dequeued.
106
 
107
   --  Source code:
108
 
109
   --      select r.e;
110
   --         ...A...
111
   --      then abort
112
   --         ...B...
113
   --      end select;
114
 
115
   --  Expanded code:
116
 
117
   --      declare
118
   --         X : protected_entry_index := 1;
119
   --         B80b : communication_block;
120
   --         communication_blockIP (B80b);
121
 
122
   --      begin
123
   --         begin
124
   --            A79b : label
125
   --            A79b : declare
126
   --               procedure _clean is
127
   --               begin
128
   --                  if enqueued (B80b) then
129
   --                     cancel_protected_entry_call (B80b);
130
   --                  end if;
131
   --                  return;
132
   --               end _clean;
133
 
134
   --            begin
135
   --               protected_entry_call (rTV!(r)._object'unchecked_access, X,
136
   --                 null_address, asynchronous_call, B80b, objectF => 0);
137
   --               if enqueued (B80b) then
138
   --                  ...B...
139
   --               end if;
140
   --            at end
141
   --               _clean;
142
   --            end A79b;
143
 
144
   --         exception
145
   --            when _abort_signal =>
146
   --               abort_undefer.all;
147
   --               null;
148
   --         end;
149
 
150
   --         if not cancelled (B80b) then
151
   --            x := ...A...
152
   --         end if;
153
   --      end;
154
 
155
   --  If the entry call completes after we get into the abortable part,
156
   --  Abort_Signal should be raised and ATC will take us to the at-end
157
   --  handler, which will call _clean.
158
 
159
   --  If the entry call returns with the call already completed, we can skip
160
   --  this, and use the "if enqueued()" to go past the at-end handler, but we
161
   --  will still call _clean.
162
 
163
   --  If the abortable part completes before the entry call is Done, it will
164
   --  call _clean.
165
 
166
   --  If the entry call or the abortable part raises an exception,
167
   --  we will still call _clean, but the value of Cancelled should not matter.
168
 
169
   --  Whoever calls _clean first gets to decide whether the call
170
   --  has been "cancelled".
171
 
172
   --  Enqueued should be true if there is any chance that the call is still on
173
   --  a queue. It seems to be safe to make it True if the call was Onqueue at
174
   --  some point before return from Protected_Entry_Call.
175
 
176
   --  Cancelled should be true iff the abortable part completed
177
   --  and succeeded in cancelling the entry call before it completed.
178
 
179
   --  ?????
180
   --  The need for Enqueued is less obvious. The "if enqueued ()" tests are
181
   --  not necessary, since Cancel_Protected_Entry_Call/Protected_Entry_Call
182
   --  must do the same test internally, with locking. The one that makes
183
   --  cancellation conditional may be a useful heuristic since at least 1/2
184
   --  the time the call should be off-queue by that point. The other one seems
185
   --  totally useless, since Protected_Entry_Call must do the same check and
186
   --  then possibly wait for the call to be abortable, internally.
187
 
188
   --  We can check Call.State here without locking the caller's mutex,
189
   --  since the call must be over after returning from Wait_For_Completion.
190
   --  No other task can access the call record at this point.
191
 
192
   procedure Cancel_Protected_Entry_Call
193
     (Block : in out Communication_Block) is
194
   begin
195
      Entry_Calls.Try_To_Cancel_Entry_Call (Block.Cancelled);
196
   end Cancel_Protected_Entry_Call;
197
 
198
   ---------------
199
   -- Cancelled --
200
   ---------------
201
 
202
   function Cancelled (Block : Communication_Block) return Boolean is
203
   begin
204
      return Block.Cancelled;
205
   end Cancelled;
206
 
207
   -------------------------
208
   -- Complete_Entry_Body --
209
   -------------------------
210
 
211
   procedure Complete_Entry_Body (Object : Protection_Entries_Access) is
212
   begin
213
      Exceptional_Complete_Entry_Body (Object, Ada.Exceptions.Null_Id);
214
   end Complete_Entry_Body;
215
 
216
   --------------
217
   -- Enqueued --
218
   --------------
219
 
220
   function Enqueued (Block : Communication_Block) return Boolean is
221
   begin
222
      return Block.Enqueued;
223
   end Enqueued;
224
 
225
   -------------------------------------
226
   -- Exceptional_Complete_Entry_Body --
227
   -------------------------------------
228
 
229
   procedure Exceptional_Complete_Entry_Body
230
     (Object : Protection_Entries_Access;
231
      Ex     : Ada.Exceptions.Exception_Id)
232
   is
233
      procedure Transfer_Occurrence
234
        (Target : Ada.Exceptions.Exception_Occurrence_Access;
235
         Source : Ada.Exceptions.Exception_Occurrence);
236
      pragma Import (C, Transfer_Occurrence, "__gnat_transfer_occurrence");
237
 
238
      Entry_Call : constant Entry_Call_Link := Object.Call_In_Progress;
239
      Self_Id    : Task_Id;
240
 
241
   begin
242
      pragma Debug
243
       (Debug.Trace (STPO.Self, "Exceptional_Complete_Entry_Body", 'P'));
244
 
245
      --  We must have abort deferred, since we are inside a protected
246
      --  operation.
247
 
248
      if Entry_Call /= null then
249
 
250
         --  The call was not requeued
251
 
252
         Entry_Call.Exception_To_Raise := Ex;
253
 
254
         if Ex /= Ada.Exceptions.Null_Id then
255
 
256
            --  An exception was raised and abort was deferred, so adjust
257
            --  before propagating, otherwise the task will stay with deferral
258
            --  enabled for its remaining life.
259
 
260
            Self_Id := STPO.Self;
261
            Initialization.Undefer_Abort_Nestable (Self_Id);
262
            Transfer_Occurrence
263
              (Entry_Call.Self.Common.Compiler_Data.Current_Excep'Access,
264
               Self_Id.Common.Compiler_Data.Current_Excep);
265
         end if;
266
 
267
         --  Wakeup_Entry_Caller will be called from PO_Do_Or_Queue or
268
         --  PO_Service_Entries on return.
269
 
270
      end if;
271
 
272
      if Runtime_Traces then
273
         Send_Trace_Info (PO_Done, Entry_Call.Self);
274
      end if;
275
   end Exceptional_Complete_Entry_Body;
276
 
277
   --------------------
278
   -- PO_Do_Or_Queue --
279
   --------------------
280
 
281
   procedure PO_Do_Or_Queue
282
     (Self_ID    : Task_Id;
283
      Object     : Protection_Entries_Access;
284
      Entry_Call : Entry_Call_Link)
285
   is
286
      E             : constant Protected_Entry_Index :=
287
                        Protected_Entry_Index (Entry_Call.E);
288
      Barrier_Value : Boolean;
289
 
290
   begin
291
      --  When the Action procedure for an entry body returns, it is either
292
      --  completed (having called [Exceptional_]Complete_Entry_Body) or it
293
      --  is queued, having executed a requeue statement.
294
 
295
      Barrier_Value :=
296
        Object.Entry_Bodies (
297
          Object.Find_Body_Index (Object.Compiler_Info, E)).
298
            Barrier (Object.Compiler_Info, E);
299
 
300
      if Barrier_Value then
301
 
302
         --  Not abortable while service is in progress
303
 
304
         if Entry_Call.State = Now_Abortable then
305
            Entry_Call.State := Was_Abortable;
306
         end if;
307
 
308
         Object.Call_In_Progress := Entry_Call;
309
 
310
         pragma Debug
311
          (Debug.Trace (Self_ID, "PODOQ: start entry body", 'P'));
312
         Object.Entry_Bodies (
313
           Object.Find_Body_Index (Object.Compiler_Info, E)).Action (
314
             Object.Compiler_Info, Entry_Call.Uninterpreted_Data, E);
315
 
316
         if Object.Call_In_Progress /= null then
317
 
318
            --  Body of current entry served call to completion
319
 
320
            Object.Call_In_Progress := null;
321
 
322
            if Single_Lock then
323
               STPO.Lock_RTS;
324
            end if;
325
 
326
            STPO.Write_Lock (Entry_Call.Self);
327
            Initialization.Wakeup_Entry_Caller (Self_ID, Entry_Call, Done);
328
            STPO.Unlock (Entry_Call.Self);
329
 
330
            if Single_Lock then
331
               STPO.Unlock_RTS;
332
            end if;
333
 
334
         else
335
            Requeue_Call (Self_ID, Object, Entry_Call);
336
         end if;
337
 
338
      elsif Entry_Call.Mode /= Conditional_Call
339
        or else not Entry_Call.With_Abort
340
      then
341
 
342
         if Run_Time_Restrictions.Set (Max_Entry_Queue_Length)
343
              and then
344
            Run_Time_Restrictions.Value (Max_Entry_Queue_Length) <=
345
              Queuing.Count_Waiting (Object.Entry_Queues (E))
346
         then
347
            --  This violates the Max_Entry_Queue_Length restriction,
348
            --  raise Program_Error.
349
 
350
            Entry_Call.Exception_To_Raise := Program_Error'Identity;
351
 
352
            if Single_Lock then
353
               STPO.Lock_RTS;
354
            end if;
355
 
356
            STPO.Write_Lock (Entry_Call.Self);
357
            Initialization.Wakeup_Entry_Caller (Self_ID, Entry_Call, Done);
358
            STPO.Unlock (Entry_Call.Self);
359
 
360
            if Single_Lock then
361
               STPO.Unlock_RTS;
362
            end if;
363
         else
364
            Queuing.Enqueue (Object.Entry_Queues (E), Entry_Call);
365
            Update_For_Queue_To_PO (Entry_Call, Entry_Call.With_Abort);
366
         end if;
367
      else
368
         --  Conditional_Call and With_Abort
369
 
370
         if Single_Lock then
371
            STPO.Lock_RTS;
372
         end if;
373
 
374
         STPO.Write_Lock (Entry_Call.Self);
375
         pragma Assert (Entry_Call.State >= Was_Abortable);
376
         Initialization.Wakeup_Entry_Caller (Self_ID, Entry_Call, Cancelled);
377
         STPO.Unlock (Entry_Call.Self);
378
 
379
         if Single_Lock then
380
            STPO.Unlock_RTS;
381
         end if;
382
      end if;
383
 
384
   exception
385
      when others =>
386
         Queuing.Broadcast_Program_Error (Self_ID, Object, Entry_Call);
387
   end PO_Do_Or_Queue;
388
 
389
   ------------------------
390
   -- PO_Service_Entries --
391
   ------------------------
392
 
393
   procedure PO_Service_Entries
394
     (Self_ID       : Task_Id;
395
      Object        : Entries.Protection_Entries_Access;
396
      Unlock_Object : Boolean := True)
397
   is
398
      E          : Protected_Entry_Index;
399
      Caller     : Task_Id;
400
      Entry_Call : Entry_Call_Link;
401
 
402
   begin
403
      loop
404
         Queuing.Select_Protected_Entry_Call (Self_ID, Object, Entry_Call);
405
 
406
         exit when Entry_Call = null;
407
 
408
         E := Protected_Entry_Index (Entry_Call.E);
409
 
410
         --  Not abortable while service is in progress
411
 
412
         if Entry_Call.State = Now_Abortable then
413
            Entry_Call.State := Was_Abortable;
414
         end if;
415
 
416
         Object.Call_In_Progress := Entry_Call;
417
 
418
         begin
419
            if Runtime_Traces then
420
               Send_Trace_Info (PO_Run, Self_ID,
421
                                Entry_Call.Self, Entry_Index (E));
422
            end if;
423
 
424
            pragma Debug
425
              (Debug.Trace (Self_ID, "POSE: start entry body", 'P'));
426
 
427
            Object.Entry_Bodies
428
              (Object.Find_Body_Index (Object.Compiler_Info, E)).Action
429
                (Object.Compiler_Info, Entry_Call.Uninterpreted_Data, E);
430
 
431
         exception
432
            when others =>
433
               Queuing.Broadcast_Program_Error
434
                 (Self_ID, Object, Entry_Call);
435
         end;
436
 
437
         if Object.Call_In_Progress = null then
438
            Requeue_Call (Self_ID, Object, Entry_Call);
439
            exit when Entry_Call.State = Cancelled;
440
 
441
         else
442
            Object.Call_In_Progress := null;
443
            Caller := Entry_Call.Self;
444
 
445
            if Single_Lock then
446
               STPO.Lock_RTS;
447
            end if;
448
 
449
            STPO.Write_Lock (Caller);
450
            Initialization.Wakeup_Entry_Caller (Self_ID, Entry_Call, Done);
451
            STPO.Unlock (Caller);
452
 
453
            if Single_Lock then
454
               STPO.Unlock_RTS;
455
            end if;
456
         end if;
457
      end loop;
458
 
459
      if Unlock_Object then
460
         Unlock_Entries (Object);
461
      end if;
462
   end PO_Service_Entries;
463
 
464
   ---------------------
465
   -- Protected_Count --
466
   ---------------------
467
 
468
   function Protected_Count
469
     (Object : Protection_Entries'Class;
470
      E      : Protected_Entry_Index) return Natural
471
   is
472
   begin
473
      return Queuing.Count_Waiting (Object.Entry_Queues (E));
474
   end Protected_Count;
475
 
476
   --------------------------
477
   -- Protected_Entry_Call --
478
   --------------------------
479
 
480
   --  Compiler interface only (do not call from within the RTS)
481
 
482
   --  select r.e;
483
   --     ...A...
484
   --  else
485
   --     ...B...
486
   --  end select;
487
 
488
   --  declare
489
   --     X : protected_entry_index := 1;
490
   --     B85b : communication_block;
491
   --     communication_blockIP (B85b);
492
 
493
   --  begin
494
   --     protected_entry_call (rTV!(r)._object'unchecked_access, X,
495
   --       null_address, conditional_call, B85b, objectF => 0);
496
 
497
   --     if cancelled (B85b) then
498
   --        ...B...
499
   --     else
500
   --        ...A...
501
   --     end if;
502
   --  end;
503
 
504
   --  See also Cancel_Protected_Entry_Call for code expansion of asynchronous
505
   --  entry call.
506
 
507
   --  The initial part of this procedure does not need to lock the calling
508
   --  task's ATCB, up to the point where the call record first may be queued
509
   --  (PO_Do_Or_Queue), since before that no other task will have access to
510
   --  the record.
511
 
512
   --  If this is a call made inside of an abort deferred region, the call
513
   --  should be never abortable.
514
 
515
   --  If the call was not queued abortably, we need to wait until it is before
516
   --  proceeding with the abortable part.
517
 
518
   --  There are some heuristics here, just to save time for frequently
519
   --  occurring cases. For example, we check Initially_Abortable to try to
520
   --  avoid calling the procedure Wait_Until_Abortable, since the normal case
521
   --  for async. entry calls is to be queued abortably.
522
 
523
   --  Another heuristic uses the Block.Enqueued to try to avoid calling
524
   --  Cancel_Protected_Entry_Call if the call can be served immediately.
525
 
526
   procedure Protected_Entry_Call
527
     (Object              : Protection_Entries_Access;
528
      E                   : Protected_Entry_Index;
529
      Uninterpreted_Data  : System.Address;
530
      Mode                : Call_Modes;
531
      Block               : out Communication_Block)
532
   is
533
      Self_ID             : constant Task_Id := STPO.Self;
534
      Entry_Call          : Entry_Call_Link;
535
      Initially_Abortable : Boolean;
536
      Ceiling_Violation   : Boolean;
537
 
538
   begin
539
      pragma Debug
540
        (Debug.Trace (Self_ID, "Protected_Entry_Call", 'P'));
541
 
542
      if Runtime_Traces then
543
         Send_Trace_Info (PO_Call, Entry_Index (E));
544
      end if;
545
 
546
      if Self_ID.ATC_Nesting_Level = ATC_Level'Last then
547
         raise Storage_Error with "not enough ATC nesting levels";
548
      end if;
549
 
550
      --  If pragma Detect_Blocking is active then Program_Error must be
551
      --  raised if this potentially blocking operation is called from a
552
      --  protected action.
553
 
554
      if Detect_Blocking
555
        and then Self_ID.Common.Protected_Action_Nesting > 0
556
      then
557
         raise Program_Error with "potentially blocking operation";
558
      end if;
559
 
560
      --  Self_ID.Deferral_Level should be 0, except when called from Finalize,
561
      --  where abort is already deferred.
562
 
563
      Initialization.Defer_Abort_Nestable (Self_ID);
564
      Lock_Entries (Object, Ceiling_Violation);
565
 
566
      if Ceiling_Violation then
567
 
568
         --  Failed ceiling check
569
 
570
         Initialization.Undefer_Abort_Nestable (Self_ID);
571
         raise Program_Error;
572
      end if;
573
 
574
      Block.Self := Self_ID;
575
      Self_ID.ATC_Nesting_Level := Self_ID.ATC_Nesting_Level + 1;
576
      pragma Debug
577
        (Debug.Trace (Self_ID, "PEC: entered ATC level: " &
578
         ATC_Level'Image (Self_ID.ATC_Nesting_Level), 'A'));
579
      Entry_Call :=
580
         Self_ID.Entry_Calls (Self_ID.ATC_Nesting_Level)'Access;
581
      Entry_Call.Next := null;
582
      Entry_Call.Mode := Mode;
583
      Entry_Call.Cancellation_Attempted := False;
584
 
585
      Entry_Call.State :=
586
        (if Self_ID.Deferral_Level > 1
587
         then Never_Abortable else Now_Abortable);
588
 
589
      Entry_Call.E := Entry_Index (E);
590
      Entry_Call.Prio := STPO.Get_Priority (Self_ID);
591
      Entry_Call.Uninterpreted_Data := Uninterpreted_Data;
592
      Entry_Call.Called_PO := To_Address (Object);
593
      Entry_Call.Called_Task := null;
594
      Entry_Call.Exception_To_Raise := Ada.Exceptions.Null_Id;
595
      Entry_Call.With_Abort := True;
596
 
597
      PO_Do_Or_Queue (Self_ID, Object, Entry_Call);
598
      Initially_Abortable := Entry_Call.State = Now_Abortable;
599
      PO_Service_Entries (Self_ID, Object);
600
 
601
      --  Try to prevent waiting later (in Try_To_Cancel_Protected_Entry_Call)
602
      --  for completed or cancelled calls.  (This is a heuristic, only.)
603
 
604
      if Entry_Call.State >= Done then
605
 
606
         --  Once State >= Done it will not change any more
607
 
608
         if Single_Lock then
609
            STPO.Lock_RTS;
610
         end if;
611
 
612
         STPO.Write_Lock (Self_ID);
613
         Utilities.Exit_One_ATC_Level (Self_ID);
614
         STPO.Unlock (Self_ID);
615
 
616
         if Single_Lock then
617
            STPO.Unlock_RTS;
618
         end if;
619
 
620
         Block.Enqueued := False;
621
         Block.Cancelled := Entry_Call.State = Cancelled;
622
         Initialization.Undefer_Abort_Nestable (Self_ID);
623
         Entry_Calls.Check_Exception (Self_ID, Entry_Call);
624
         return;
625
 
626
      else
627
         --  In this case we cannot conclude anything, since State can change
628
         --  concurrently.
629
 
630
         null;
631
      end if;
632
 
633
      --  Now for the general case
634
 
635
      if Mode = Asynchronous_Call then
636
 
637
         --  Try to avoid an expensive call
638
 
639
         if not Initially_Abortable then
640
            if Single_Lock then
641
               STPO.Lock_RTS;
642
               Entry_Calls.Wait_Until_Abortable (Self_ID, Entry_Call);
643
               STPO.Unlock_RTS;
644
            else
645
               Entry_Calls.Wait_Until_Abortable (Self_ID, Entry_Call);
646
            end if;
647
         end if;
648
 
649
      elsif Mode < Asynchronous_Call then
650
 
651
         --  Simple_Call or Conditional_Call
652
 
653
         if Single_Lock then
654
            STPO.Lock_RTS;
655
            Entry_Calls.Wait_For_Completion (Entry_Call);
656
            STPO.Unlock_RTS;
657
 
658
         else
659
            STPO.Write_Lock (Self_ID);
660
            Entry_Calls.Wait_For_Completion (Entry_Call);
661
            STPO.Unlock (Self_ID);
662
         end if;
663
 
664
         Block.Cancelled := Entry_Call.State = Cancelled;
665
 
666
      else
667
         pragma Assert (False);
668
         null;
669
      end if;
670
 
671
      Initialization.Undefer_Abort_Nestable (Self_ID);
672
      Entry_Calls.Check_Exception (Self_ID, Entry_Call);
673
   end Protected_Entry_Call;
674
 
675
   ------------------
676
   -- Requeue_Call --
677
   ------------------
678
 
679
   procedure Requeue_Call
680
     (Self_Id    : Task_Id;
681
      Object     : Protection_Entries_Access;
682
      Entry_Call : Entry_Call_Link)
683
   is
684
      New_Object        : Protection_Entries_Access;
685
      Ceiling_Violation : Boolean;
686
      Result            : Boolean;
687
      E                 : Protected_Entry_Index;
688
 
689
   begin
690
      New_Object := To_Protection (Entry_Call.Called_PO);
691
 
692
      if New_Object = null then
693
 
694
         --  Call is to be requeued to a task entry
695
 
696
         if Single_Lock then
697
            STPO.Lock_RTS;
698
         end if;
699
 
700
         Result := Rendezvous.Task_Do_Or_Queue (Self_Id, Entry_Call);
701
 
702
         if not Result then
703
            Queuing.Broadcast_Program_Error
704
              (Self_Id, Object, Entry_Call, RTS_Locked => True);
705
         end if;
706
 
707
         if Single_Lock then
708
            STPO.Unlock_RTS;
709
         end if;
710
 
711
      else
712
         --  Call should be requeued to a PO
713
 
714
         if Object /= New_Object then
715
 
716
            --  Requeue is to different PO
717
 
718
            Lock_Entries (New_Object, Ceiling_Violation);
719
 
720
            if Ceiling_Violation then
721
               Object.Call_In_Progress := null;
722
               Queuing.Broadcast_Program_Error (Self_Id, Object, Entry_Call);
723
 
724
            else
725
               PO_Do_Or_Queue (Self_Id, New_Object, Entry_Call);
726
               PO_Service_Entries (Self_Id, New_Object);
727
            end if;
728
 
729
         else
730
            --  Requeue is to same protected object
731
 
732
            --  ??? Try to compensate apparent failure of the scheduler on some
733
            --  OS (e.g VxWorks) to give higher priority tasks a chance to run
734
            --  (see CXD6002).
735
 
736
            STPO.Yield (False);
737
 
738
            if Entry_Call.With_Abort
739
              and then Entry_Call.Cancellation_Attempted
740
            then
741
               --  If this is a requeue with abort and someone tried to cancel
742
               --  this call, cancel it at this point.
743
 
744
               Entry_Call.State := Cancelled;
745
               return;
746
            end if;
747
 
748
            if not Entry_Call.With_Abort
749
              or else Entry_Call.Mode /= Conditional_Call
750
            then
751
               E := Protected_Entry_Index (Entry_Call.E);
752
 
753
               if Run_Time_Restrictions.Set (Max_Entry_Queue_Length)
754
                    and then
755
                  Run_Time_Restrictions.Value (Max_Entry_Queue_Length) <=
756
                    Queuing.Count_Waiting (Object.Entry_Queues (E))
757
               then
758
                  --  This violates the Max_Entry_Queue_Length restriction,
759
                  --  raise Program_Error.
760
 
761
                  Entry_Call.Exception_To_Raise := Program_Error'Identity;
762
 
763
                  if Single_Lock then
764
                     STPO.Lock_RTS;
765
                  end if;
766
 
767
                  STPO.Write_Lock (Entry_Call.Self);
768
                  Initialization.Wakeup_Entry_Caller
769
                    (Self_Id, Entry_Call, Done);
770
                  STPO.Unlock (Entry_Call.Self);
771
 
772
                  if Single_Lock then
773
                     STPO.Unlock_RTS;
774
                  end if;
775
 
776
               else
777
                  Queuing.Enqueue
778
                    (New_Object.Entry_Queues (E), Entry_Call);
779
                  Update_For_Queue_To_PO (Entry_Call, Entry_Call.With_Abort);
780
               end if;
781
 
782
            else
783
               PO_Do_Or_Queue (Self_Id, New_Object, Entry_Call);
784
            end if;
785
         end if;
786
      end if;
787
   end Requeue_Call;
788
 
789
   ----------------------------
790
   -- Protected_Entry_Caller --
791
   ----------------------------
792
 
793
   function Protected_Entry_Caller
794
     (Object : Protection_Entries'Class) return Task_Id is
795
   begin
796
      return Object.Call_In_Progress.Self;
797
   end Protected_Entry_Caller;
798
 
799
   -----------------------------
800
   -- Requeue_Protected_Entry --
801
   -----------------------------
802
 
803
   --  Compiler interface only (do not call from within the RTS)
804
 
805
   --  entry e when b is
806
   --  begin
807
   --     b := false;
808
   --     ...A...
809
   --     requeue e2;
810
   --  end e;
811
 
812
   --  procedure rPT__E10b (O : address; P : address; E :
813
   --    protected_entry_index) is
814
   --     type rTVP is access rTV;
815
   --     freeze rTVP []
816
   --     _object : rTVP := rTVP!(O);
817
   --  begin
818
   --     declare
819
   --        rR : protection renames _object._object;
820
   --        vP : integer renames _object.v;
821
   --        bP : boolean renames _object.b;
822
   --     begin
823
   --        b := false;
824
   --        ...A...
825
   --        requeue_protected_entry (rR'unchecked_access, rR'
826
   --          unchecked_access, 2, false, objectF => 0, new_objectF =>
827
   --          0);
828
   --        return;
829
   --     end;
830
   --     complete_entry_body (_object._object'unchecked_access, objectF =>
831
   --       0);
832
   --     return;
833
   --  exception
834
   --     when others =>
835
   --        abort_undefer.all;
836
   --        exceptional_complete_entry_body (_object._object'
837
   --          unchecked_access, current_exception, objectF => 0);
838
   --        return;
839
   --  end rPT__E10b;
840
 
841
   procedure Requeue_Protected_Entry
842
     (Object     : Protection_Entries_Access;
843
      New_Object : Protection_Entries_Access;
844
      E          : Protected_Entry_Index;
845
      With_Abort : Boolean)
846
   is
847
      Entry_Call : constant Entry_Call_Link := Object.Call_In_Progress;
848
 
849
   begin
850
      pragma Debug
851
        (Debug.Trace (STPO.Self, "Requeue_Protected_Entry", 'P'));
852
      pragma Assert (STPO.Self.Deferral_Level > 0);
853
 
854
      Entry_Call.E := Entry_Index (E);
855
      Entry_Call.Called_PO := To_Address (New_Object);
856
      Entry_Call.Called_Task := null;
857
      Entry_Call.With_Abort := With_Abort;
858
      Object.Call_In_Progress := null;
859
   end Requeue_Protected_Entry;
860
 
861
   -------------------------------------
862
   -- Requeue_Task_To_Protected_Entry --
863
   -------------------------------------
864
 
865
   --  Compiler interface only (do not call from within the RTS)
866
 
867
   --    accept e1 do
868
   --      ...A...
869
   --      requeue r.e2;
870
   --    end e1;
871
 
872
   --    A79b : address;
873
   --    L78b : label
874
 
875
   --    begin
876
   --       accept_call (1, A79b);
877
   --       ...A...
878
   --       requeue_task_to_protected_entry (rTV!(r)._object'
879
   --         unchecked_access, 2, false, new_objectF => 0);
880
   --       goto L78b;
881
   --       <<L78b>>
882
   --       complete_rendezvous;
883
 
884
   --    exception
885
   --       when all others =>
886
   --          exceptional_complete_rendezvous (get_gnat_exception);
887
   --    end;
888
 
889
   procedure Requeue_Task_To_Protected_Entry
890
     (New_Object : Protection_Entries_Access;
891
      E          : Protected_Entry_Index;
892
      With_Abort : Boolean)
893
   is
894
      Self_ID    : constant Task_Id := STPO.Self;
895
      Entry_Call : constant Entry_Call_Link := Self_ID.Common.Call;
896
 
897
   begin
898
      Initialization.Defer_Abort (Self_ID);
899
 
900
      --  We do not need to lock Self_ID here since the call is not abortable
901
      --  at this point, and therefore, the caller cannot cancel the call.
902
 
903
      Entry_Call.Needs_Requeue := True;
904
      Entry_Call.With_Abort := With_Abort;
905
      Entry_Call.Called_PO := To_Address (New_Object);
906
      Entry_Call.Called_Task := null;
907
      Entry_Call.E := Entry_Index (E);
908
      Initialization.Undefer_Abort (Self_ID);
909
   end Requeue_Task_To_Protected_Entry;
910
 
911
   ---------------------
912
   -- Service_Entries --
913
   ---------------------
914
 
915
   procedure Service_Entries (Object : Protection_Entries_Access) is
916
      Self_ID : constant Task_Id := STPO.Self;
917
   begin
918
      PO_Service_Entries (Self_ID, Object);
919
   end Service_Entries;
920
 
921
   --------------------------------
922
   -- Timed_Protected_Entry_Call --
923
   --------------------------------
924
 
925
   --  Compiler interface only (do not call from within the RTS)
926
 
927
   procedure Timed_Protected_Entry_Call
928
     (Object                : Protection_Entries_Access;
929
      E                     : Protected_Entry_Index;
930
      Uninterpreted_Data    : System.Address;
931
      Timeout               : Duration;
932
      Mode                  : Delay_Modes;
933
      Entry_Call_Successful : out Boolean)
934
   is
935
      Self_Id           : constant Task_Id  := STPO.Self;
936
      Entry_Call        : Entry_Call_Link;
937
      Ceiling_Violation : Boolean;
938
 
939
      Yielded : Boolean;
940
      pragma Unreferenced (Yielded);
941
 
942
   begin
943
      if Self_Id.ATC_Nesting_Level = ATC_Level'Last then
944
         raise Storage_Error with "not enough ATC nesting levels";
945
      end if;
946
 
947
      --  If pragma Detect_Blocking is active then Program_Error must be
948
      --  raised if this potentially blocking operation is called from a
949
      --  protected action.
950
 
951
      if Detect_Blocking
952
        and then Self_Id.Common.Protected_Action_Nesting > 0
953
      then
954
         raise Program_Error with "potentially blocking operation";
955
      end if;
956
 
957
      if Runtime_Traces then
958
         Send_Trace_Info (POT_Call, Entry_Index (E), Timeout);
959
      end if;
960
 
961
      Initialization.Defer_Abort (Self_Id);
962
      Lock_Entries (Object, Ceiling_Violation);
963
 
964
      if Ceiling_Violation then
965
         Initialization.Undefer_Abort (Self_Id);
966
         raise Program_Error;
967
      end if;
968
 
969
      Self_Id.ATC_Nesting_Level := Self_Id.ATC_Nesting_Level + 1;
970
      pragma Debug
971
        (Debug.Trace (Self_Id, "TPEC: exited to ATC level: " &
972
         ATC_Level'Image (Self_Id.ATC_Nesting_Level), 'A'));
973
      Entry_Call := Self_Id.Entry_Calls (Self_Id.ATC_Nesting_Level)'Access;
974
      Entry_Call.Next := null;
975
      Entry_Call.Mode := Timed_Call;
976
      Entry_Call.Cancellation_Attempted := False;
977
 
978
      Entry_Call.State :=
979
        (if Self_Id.Deferral_Level > 1
980
         then Never_Abortable
981
         else Now_Abortable);
982
 
983
      Entry_Call.E := Entry_Index (E);
984
      Entry_Call.Prio := STPO.Get_Priority (Self_Id);
985
      Entry_Call.Uninterpreted_Data := Uninterpreted_Data;
986
      Entry_Call.Called_PO := To_Address (Object);
987
      Entry_Call.Called_Task := null;
988
      Entry_Call.Exception_To_Raise := Ada.Exceptions.Null_Id;
989
      Entry_Call.With_Abort := True;
990
 
991
      PO_Do_Or_Queue (Self_Id, Object, Entry_Call);
992
      PO_Service_Entries (Self_Id, Object);
993
 
994
      if Single_Lock then
995
         STPO.Lock_RTS;
996
      else
997
         STPO.Write_Lock (Self_Id);
998
      end if;
999
 
1000
      --  Try to avoid waiting for completed or cancelled calls
1001
 
1002
      if Entry_Call.State >= Done then
1003
         Utilities.Exit_One_ATC_Level (Self_Id);
1004
 
1005
         if Single_Lock then
1006
            STPO.Unlock_RTS;
1007
         else
1008
            STPO.Unlock (Self_Id);
1009
         end if;
1010
 
1011
         Entry_Call_Successful := Entry_Call.State = Done;
1012
         Initialization.Undefer_Abort (Self_Id);
1013
         Entry_Calls.Check_Exception (Self_Id, Entry_Call);
1014
         return;
1015
      end if;
1016
 
1017
      Entry_Calls.Wait_For_Completion_With_Timeout
1018
        (Entry_Call, Timeout, Mode, Yielded);
1019
 
1020
      if Single_Lock then
1021
         STPO.Unlock_RTS;
1022
      else
1023
         STPO.Unlock (Self_Id);
1024
      end if;
1025
 
1026
      --  ??? Do we need to yield in case Yielded is False
1027
 
1028
      Initialization.Undefer_Abort (Self_Id);
1029
      Entry_Call_Successful := Entry_Call.State = Done;
1030
      Entry_Calls.Check_Exception (Self_Id, Entry_Call);
1031
   end Timed_Protected_Entry_Call;
1032
 
1033
   ----------------------------
1034
   -- Update_For_Queue_To_PO --
1035
   ----------------------------
1036
 
1037
   --  Update the state of an existing entry call, based on
1038
   --  whether the current queuing action is with or without abort.
1039
   --  Call this only while holding the server's lock.
1040
   --  It returns with the server's lock released.
1041
 
1042
   New_State : constant array (Boolean, Entry_Call_State)
1043
     of Entry_Call_State :=
1044
       (True =>
1045
         (Never_Abortable   => Never_Abortable,
1046
          Not_Yet_Abortable => Now_Abortable,
1047
          Was_Abortable     => Now_Abortable,
1048
          Now_Abortable     => Now_Abortable,
1049
          Done              => Done,
1050
          Cancelled         => Cancelled),
1051
        False =>
1052
         (Never_Abortable   => Never_Abortable,
1053
          Not_Yet_Abortable => Not_Yet_Abortable,
1054
          Was_Abortable     => Was_Abortable,
1055
          Now_Abortable     => Now_Abortable,
1056
          Done              => Done,
1057
          Cancelled         => Cancelled)
1058
       );
1059
 
1060
   procedure Update_For_Queue_To_PO
1061
     (Entry_Call : Entry_Call_Link;
1062
      With_Abort : Boolean)
1063
   is
1064
      Old : constant Entry_Call_State := Entry_Call.State;
1065
 
1066
   begin
1067
      pragma Assert (Old < Done);
1068
 
1069
      Entry_Call.State := New_State (With_Abort, Entry_Call.State);
1070
 
1071
      if Entry_Call.Mode = Asynchronous_Call then
1072
         if Old < Was_Abortable and then
1073
           Entry_Call.State = Now_Abortable
1074
         then
1075
            if Single_Lock then
1076
               STPO.Lock_RTS;
1077
            end if;
1078
 
1079
            STPO.Write_Lock (Entry_Call.Self);
1080
 
1081
            if Entry_Call.Self.Common.State = Async_Select_Sleep then
1082
               STPO.Wakeup (Entry_Call.Self, Async_Select_Sleep);
1083
            end if;
1084
 
1085
            STPO.Unlock (Entry_Call.Self);
1086
 
1087
            if Single_Lock then
1088
               STPO.Unlock_RTS;
1089
            end if;
1090
 
1091
         end if;
1092
 
1093
      elsif Entry_Call.Mode = Conditional_Call then
1094
         pragma Assert (Entry_Call.State < Was_Abortable);
1095
         null;
1096
      end if;
1097
   end Update_For_Queue_To_PO;
1098
 
1099
end System.Tasking.Protected_Objects.Operations;

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