PR c++/43856
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS --
4 -- --
5 -- S Y S T E M . T A S K I N G . I N I T I A L I Z A T I O N --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2009, 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 ------------------------------------------------------------------------------
32 pragma Style_Checks (All_Checks);
33 -- Turn off subprogram alpha ordering check, since we group soft link bodies
34 -- and dummy soft link bodies together separately in this unit.
36 pragma Polling (Off);
37 -- Turn polling off for this package. We don't need polling during any of the
38 -- routines in this package, and more to the point, if we try to poll it can
39 -- cause infinite loops.
41 with Ada.Exceptions;
43 with System.Task_Primitives;
44 with System.Task_Primitives.Operations;
45 with System.Soft_Links;
46 with System.Soft_Links.Tasking;
47 with System.Tasking.Debug;
48 with System.Parameters;
50 package body System.Tasking.Initialization is
52 package STPO renames System.Task_Primitives.Operations;
53 package SSL renames System.Soft_Links;
54 package AE renames Ada.Exceptions;
56 use Parameters;
57 use Task_Primitives.Operations;
59 Global_Task_Lock : aliased System.Task_Primitives.RTS_Lock;
60 -- This is a global lock; it is used to execute in mutual exclusion from
61 -- all other tasks. It is only used by Task_Lock, Task_Unlock, and
62 -- Final_Task_Unlock.
64 ----------------------------------------------------------------------
65 -- Tasking versions of some services needed by non-tasking programs --
66 ----------------------------------------------------------------------
68 procedure Abort_Defer;
69 -- NON-INLINE versions without Self_ID for soft links
71 procedure Abort_Undefer;
72 -- NON-INLINE versions without Self_ID for soft links
74 procedure Task_Lock;
75 -- Locks out other tasks. Preceding a section of code by Task_Lock and
76 -- following it by Task_Unlock creates a critical region. This is used
77 -- for ensuring that a region of non-tasking code (such as code used to
78 -- allocate memory) is tasking safe. Note that it is valid for calls to
79 -- Task_Lock/Task_Unlock to be nested, and this must work properly, i.e.
80 -- only the corresponding outer level Task_Unlock will actually unlock.
82 procedure Task_Unlock;
83 -- Releases lock previously set by call to Task_Lock. In the nested case,
84 -- all nested locks must be released before other tasks competing for the
85 -- tasking lock are released.
87 function Get_Current_Excep return SSL.EOA;
88 -- Task-safe version of SSL.Get_Current_Excep
90 procedure Update_Exception
91 (X : AE.Exception_Occurrence := SSL.Current_Target_Exception);
92 -- Handle exception setting and check for pending actions
94 function Task_Name return String;
95 -- Returns current task's name
97 ------------------------
98 -- Local Subprograms --
99 ------------------------
101 ----------------------------
102 -- Tasking Initialization --
103 ----------------------------
105 procedure Init_RTS;
106 -- This procedure completes the initialization of the GNARL. The first part
107 -- of the initialization is done in the body of System.Tasking. It consists
108 -- of initializing global locks, and installing tasking versions of certain
109 -- operations used by the compiler. Init_RTS is called during elaboration.
111 --------------------------
112 -- Change_Base_Priority --
113 --------------------------
115 -- Call only with abort deferred and holding Self_ID locked
117 procedure Change_Base_Priority (T : Task_Id) is
118 begin
119 if T.Common.Base_Priority /= T.New_Base_Priority then
120 T.Common.Base_Priority := T.New_Base_Priority;
121 Set_Priority (T, T.Common.Base_Priority);
122 end if;
123 end Change_Base_Priority;
125 ------------------------
126 -- Check_Abort_Status --
127 ------------------------
129 function Check_Abort_Status return Integer is
130 Self_ID : constant Task_Id := Self;
131 begin
132 if Self_ID /= null
133 and then Self_ID.Deferral_Level = 0
134 and then Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level
135 then
136 return 1;
137 else
138 return 0;
139 end if;
140 end Check_Abort_Status;
142 -----------------
143 -- Defer_Abort --
144 -----------------
146 procedure Defer_Abort (Self_ID : Task_Id) is
147 begin
148 if No_Abort then
149 return;
150 end if;
152 pragma Assert (Self_ID.Deferral_Level = 0);
154 -- pragma Assert
155 -- (Self_ID.Pending_ATC_Level >= Self_ID.ATC_Nesting_Level);
157 -- The above check has been useful in detecting mismatched defer/undefer
158 -- pairs. You may uncomment it when testing on systems that support
159 -- preemptive abort.
161 -- If the OS supports preemptive abort (e.g. pthread_kill), it should
162 -- have happened already. A problem is with systems that do not support
163 -- preemptive abort, and so rely on polling. On such systems we may get
164 -- false failures of the assertion, since polling for pending abort does
165 -- no occur until the abort undefer operation.
167 -- Even on systems that only poll for abort, the assertion may be useful
168 -- for catching missed abort completion polling points. The operations
169 -- that undefer abort poll for pending aborts. This covers most of the
170 -- places where the core Ada semantics require abort to be caught,
171 -- without any special attention. However, this generally happens on
172 -- exit from runtime system call, which means a pending abort will not
173 -- be noticed on the way into the runtime system. We considered adding a
174 -- check for pending aborts at this point, but chose not to, because of
175 -- the overhead. Instead, we searched for RTS calls where abort
176 -- completion is required and a task could go farther than Ada allows
177 -- before undeferring abort; we then modified the code to ensure the
178 -- abort would be detected.
180 Self_ID.Deferral_Level := Self_ID.Deferral_Level + 1;
181 end Defer_Abort;
183 --------------------------
184 -- Defer_Abort_Nestable --
185 --------------------------
187 procedure Defer_Abort_Nestable (Self_ID : Task_Id) is
188 begin
189 if No_Abort then
190 return;
191 end if;
193 -- The following assertion is by default disabled. See the comment in
194 -- Defer_Abort on the situations in which it may be useful to uncomment
195 -- this assertion and enable the test.
197 -- pragma Assert
198 -- (Self_ID.Pending_ATC_Level >= Self_ID.ATC_Nesting_Level or else
199 -- Self_ID.Deferral_Level > 0);
201 Self_ID.Deferral_Level := Self_ID.Deferral_Level + 1;
202 end Defer_Abort_Nestable;
204 -----------------
205 -- Abort_Defer --
206 -----------------
208 procedure Abort_Defer is
209 Self_ID : Task_Id;
210 begin
211 if No_Abort then
212 return;
213 end if;
215 Self_ID := STPO.Self;
216 Self_ID.Deferral_Level := Self_ID.Deferral_Level + 1;
217 end Abort_Defer;
219 -----------------------
220 -- Get_Current_Excep --
221 -----------------------
223 function Get_Current_Excep return SSL.EOA is
224 begin
225 return STPO.Self.Common.Compiler_Data.Current_Excep'Access;
226 end Get_Current_Excep;
228 -----------------------
229 -- Do_Pending_Action --
230 -----------------------
232 -- Call only when holding no locks
234 procedure Do_Pending_Action (Self_ID : Task_Id) is
235 use type Ada.Exceptions.Exception_Id;
237 begin
238 pragma Assert (Self_ID = Self and then Self_ID.Deferral_Level = 0);
240 -- Needs loop to recheck for pending action in case a new one occurred
241 -- while we had abort deferred below.
243 loop
244 -- Temporarily defer abort so that we can lock Self_ID
246 Self_ID.Deferral_Level := Self_ID.Deferral_Level + 1;
248 if Single_Lock then
249 Lock_RTS;
250 end if;
252 Write_Lock (Self_ID);
253 Self_ID.Pending_Action := False;
254 Unlock (Self_ID);
256 if Single_Lock then
257 Unlock_RTS;
258 end if;
260 -- Restore the original Deferral value
262 Self_ID.Deferral_Level := Self_ID.Deferral_Level - 1;
264 if not Self_ID.Pending_Action then
265 if Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level then
266 if not Self_ID.Aborting then
267 Self_ID.Aborting := True;
268 pragma Debug
269 (Debug.Trace (Self_ID, "raise Abort_Signal", 'B'));
270 raise Standard'Abort_Signal;
272 pragma Assert (not Self_ID.ATC_Hack);
274 elsif Self_ID.ATC_Hack then
276 -- The solution really belongs in the Abort_Signal handler
277 -- for async. entry calls. The present hack is very
278 -- fragile. It relies that the very next point after
279 -- Exit_One_ATC_Level at which the task becomes abortable
280 -- will be the call to Undefer_Abort in the
281 -- Abort_Signal handler.
283 Self_ID.ATC_Hack := False;
285 pragma Debug
286 (Debug.Trace
287 (Self_ID, "raise Abort_Signal (ATC hack)", 'B'));
288 raise Standard'Abort_Signal;
289 end if;
290 end if;
292 return;
293 end if;
294 end loop;
295 end Do_Pending_Action;
297 -----------------------
298 -- Final_Task_Unlock --
299 -----------------------
301 -- This version is only for use in Terminate_Task, when the task is
302 -- relinquishing further rights to its own ATCB.
304 -- There is a very interesting potential race condition there, where the
305 -- old task may run concurrently with a new task that is allocated the old
306 -- tasks (now reused) ATCB. The critical thing here is to not make any
307 -- reference to the ATCB after the lock is released. See also comments on
308 -- Terminate_Task and Unlock.
310 procedure Final_Task_Unlock (Self_ID : Task_Id) is
311 begin
312 pragma Assert (Self_ID.Common.Global_Task_Lock_Nesting = 1);
313 Unlock (Global_Task_Lock'Access, Global_Lock => True);
314 end Final_Task_Unlock;
316 --------------
317 -- Init_RTS --
318 --------------
320 procedure Init_RTS is
321 Self_Id : Task_Id;
322 begin
323 Tasking.Initialize;
325 -- Terminate run time (regular vs restricted) specific initialization
326 -- of the environment task.
328 Self_Id := Environment_Task;
329 Self_Id.Master_of_Task := Environment_Task_Level;
330 Self_Id.Master_Within := Self_Id.Master_of_Task + 1;
332 for L in Self_Id.Entry_Calls'Range loop
333 Self_Id.Entry_Calls (L).Self := Self_Id;
334 Self_Id.Entry_Calls (L).Level := L;
335 end loop;
337 Self_Id.Awake_Count := 1;
338 Self_Id.Alive_Count := 1;
340 -- Normally, a task starts out with internal master nesting level one
341 -- larger than external master nesting level. It is incremented to one
342 -- by Enter_Master, which is called in the task body only if the
343 -- compiler thinks the task may have dependent tasks. There is no
344 -- corresponding call to Enter_Master for the environment task, so we
345 -- would need to increment it to 2 here. Instead, we set it to 3. By
346 -- doing this we reserve the level 2 for server tasks of the runtime
347 -- system. The environment task does not need to wait for these server
349 Self_Id.Master_Within := Library_Task_Level;
351 -- Initialize lock used to implement mutual exclusion between all tasks
353 Initialize_Lock (Global_Task_Lock'Access, STPO.Global_Task_Level);
355 -- Notify that the tasking run time has been elaborated so that
356 -- the tasking version of the soft links can be used.
358 if not No_Abort then
359 SSL.Abort_Defer := Abort_Defer'Access;
360 SSL.Abort_Undefer := Abort_Undefer'Access;
361 end if;
363 SSL.Lock_Task := Task_Lock'Access;
364 SSL.Unlock_Task := Task_Unlock'Access;
365 SSL.Check_Abort_Status := Check_Abort_Status'Access;
366 SSL.Task_Name := Task_Name'Access;
367 SSL.Update_Exception := Update_Exception'Access;
368 SSL.Get_Current_Excep := Get_Current_Excep'Access;
370 -- Initialize the tasking soft links (if not done yet) that are common
371 -- to the full and the restricted run times.
373 SSL.Tasking.Init_Tasking_Soft_Links;
375 -- Abort is deferred in a new ATCB, so we need to undefer abort at this
376 -- stage to make the environment task abortable.
378 Undefer_Abort (Environment_Task);
379 end Init_RTS;
381 ---------------------------
382 -- Locked_Abort_To_Level--
383 ---------------------------
385 -- Abort a task to the specified ATC nesting level.
386 -- Call this only with T locked.
388 -- An earlier version of this code contained a call to Wakeup. That should
389 -- not be necessary here, if Abort_Task is implemented correctly, since
390 -- Abort_Task should include the effect of Wakeup. However, the above call
391 -- was in earlier versions of this file, and at least for some targets
392 -- Abort_Task has not been doing Wakeup. It should not hurt to uncomment
393 -- the above call, until the error is corrected for all targets.
395 -- See extended comments in package body System.Tasking.Abort for the
396 -- overall design of the implementation of task abort.
397 -- ??? there is no such package ???
399 -- If the task is sleeping it will be in an abort-deferred region, and will
400 -- not have Abort_Signal raised by Abort_Task. Such an "abort deferral" is
401 -- just to protect the RTS internals, and not necessarily required to
402 -- enforce Ada semantics. Abort_Task should wake the task up and let it
403 -- decide if it wants to complete the aborted construct immediately.
405 -- Note that the effect of the low-level Abort_Task is not persistent.
406 -- If the target task is not blocked, this wakeup will be missed.
408 -- We don't bother calling Abort_Task if this task is aborting itself,
409 -- since we are inside the RTS and have abort deferred. Similarly, We don't
410 -- bother to call Abort_Task if T is terminated, since there is no need to
411 -- abort a terminated task, and it could be dangerous to try if the task
412 -- has stopped executing.
414 -- Note that an earlier version of this code had some false reasoning about
415 -- being able to reliably wake up a task that had suspended on a blocking
416 -- system call that does not atomically release the task's lock (e.g., UNIX
417 -- nanosleep, which we once thought could be used to implement delays).
418 -- That still left the possibility of missed wakeups.
420 -- We cannot safely call Vulnerable_Complete_Activation here, since that
421 -- requires locking Self_ID.Parent. The anti-deadlock lock ordering rules
422 -- would then require us to release the lock on Self_ID first, which would
423 -- create a timing window for other tasks to lock Self_ID. This is
424 -- significant for tasks that may be aborted before their execution can
425 -- enter the task body, and so they do not get a chance to call
426 -- Complete_Task. The actual work for this case is done in Terminate_Task.
428 procedure Locked_Abort_To_Level
429 (Self_ID : Task_Id;
430 T : Task_Id;
431 L : ATC_Level)
433 begin
434 if not T.Aborting and then T /= Self_ID then
435 case T.Common.State is
436 when Unactivated | Terminated =>
437 pragma Assert (False);
438 null;
440 when Activating | Runnable =>
442 -- This is needed to cancel an asynchronous protected entry
443 -- call during a requeue with abort.
445 T.Entry_Calls
446 (T.ATC_Nesting_Level).Cancellation_Attempted := True;
448 when Interrupt_Server_Blocked_On_Event_Flag =>
449 null;
451 when Delay_Sleep |
452 Async_Select_Sleep |
453 Interrupt_Server_Idle_Sleep |
454 Interrupt_Server_Blocked_Interrupt_Sleep |
455 Timer_Server_Sleep |
456 AST_Server_Sleep =>
457 Wakeup (T, T.Common.State);
459 when Acceptor_Sleep | Acceptor_Delay_Sleep =>
460 T.Open_Accepts := null;
461 Wakeup (T, T.Common.State);
463 when Entry_Caller_Sleep =>
464 T.Entry_Calls
465 (T.ATC_Nesting_Level).Cancellation_Attempted := True;
466 Wakeup (T, T.Common.State);
468 when Activator_Sleep |
469 Master_Completion_Sleep |
470 Master_Phase_2_Sleep |
471 Asynchronous_Hold =>
472 null;
473 end case;
474 end if;
476 if T.Pending_ATC_Level > L then
477 T.Pending_ATC_Level := L;
478 T.Pending_Action := True;
480 if L = 0 then
481 T.Callable := False;
482 end if;
484 -- This prevents aborted task from accepting calls
486 if T.Aborting then
488 -- The test above is just a heuristic, to reduce wasteful
489 -- calls to Abort_Task. We are holding T locked, and this
490 -- value will not be set to False except with T also locked,
491 -- inside Exit_One_ATC_Level, so we should not miss wakeups.
493 if T.Common.State = Acceptor_Sleep
494 or else
495 T.Common.State = Acceptor_Delay_Sleep
496 then
497 T.Open_Accepts := null;
498 end if;
500 elsif T /= Self_ID and then
501 (T.Common.State = Runnable
502 or else T.Common.State = Interrupt_Server_Blocked_On_Event_Flag)
504 -- The task is blocked on a system call waiting for the
505 -- completion event. In this case Abort_Task may need to take
506 -- special action in order to succeed. Example system: VMS.
508 then
509 Abort_Task (T);
510 end if;
511 end if;
512 end Locked_Abort_To_Level;
514 --------------------------------
515 -- Remove_From_All_Tasks_List --
516 --------------------------------
518 procedure Remove_From_All_Tasks_List (T : Task_Id) is
519 C : Task_Id;
520 Previous : Task_Id;
522 begin
523 pragma Debug
524 (Debug.Trace (Self, "Remove_From_All_Tasks_List", 'C'));
526 Previous := Null_Task;
527 C := All_Tasks_List;
528 while C /= Null_Task loop
529 if C = T then
530 if Previous = Null_Task then
531 All_Tasks_List := All_Tasks_List.Common.All_Tasks_Link;
532 else
533 Previous.Common.All_Tasks_Link := C.Common.All_Tasks_Link;
534 end if;
536 return;
537 end if;
539 Previous := C;
540 C := C.Common.All_Tasks_Link;
541 end loop;
543 pragma Assert (False);
544 end Remove_From_All_Tasks_List;
546 ---------------
547 -- Task_Lock --
548 ---------------
550 procedure Task_Lock (Self_ID : Task_Id) is
551 begin
552 Self_ID.Common.Global_Task_Lock_Nesting :=
553 Self_ID.Common.Global_Task_Lock_Nesting + 1;
555 if Self_ID.Common.Global_Task_Lock_Nesting = 1 then
556 Defer_Abort_Nestable (Self_ID);
557 Write_Lock (Global_Task_Lock'Access, Global_Lock => True);
558 end if;
559 end Task_Lock;
561 procedure Task_Lock is
562 begin
563 Task_Lock (STPO.Self);
564 end Task_Lock;
566 ---------------
567 -- Task_Name --
568 ---------------
570 function Task_Name return String is
571 Self_Id : constant Task_Id := STPO.Self;
572 begin
573 return Self_Id.Common.Task_Image (1 .. Self_Id.Common.Task_Image_Len);
574 end Task_Name;
576 -----------------
577 -- Task_Unlock --
578 -----------------
580 procedure Task_Unlock (Self_ID : Task_Id) is
581 begin
582 pragma Assert (Self_ID.Common.Global_Task_Lock_Nesting > 0);
583 Self_ID.Common.Global_Task_Lock_Nesting :=
584 Self_ID.Common.Global_Task_Lock_Nesting - 1;
586 if Self_ID.Common.Global_Task_Lock_Nesting = 0 then
587 Unlock (Global_Task_Lock'Access, Global_Lock => True);
588 Undefer_Abort_Nestable (Self_ID);
589 end if;
590 end Task_Unlock;
592 procedure Task_Unlock is
593 begin
594 Task_Unlock (STPO.Self);
595 end Task_Unlock;
597 -------------------
598 -- Undefer_Abort --
599 -------------------
601 -- Precondition : Self does not hold any locks!
603 -- Undefer_Abort is called on any abort completion point (aka.
604 -- synchronization point). It performs the following actions if they
605 -- are pending: (1) change the base priority, (2) abort the task.
607 -- The priority change has to occur before abort. Otherwise, it would
608 -- take effect no earlier than the next abort completion point.
610 procedure Undefer_Abort (Self_ID : Task_Id) is
611 begin
612 if No_Abort then
613 return;
614 end if;
616 pragma Assert (Self_ID.Deferral_Level = 1);
618 Self_ID.Deferral_Level := Self_ID.Deferral_Level - 1;
620 if Self_ID.Deferral_Level = 0 then
621 pragma Assert (Check_No_Locks (Self_ID));
623 if Self_ID.Pending_Action then
624 Do_Pending_Action (Self_ID);
625 end if;
626 end if;
627 end Undefer_Abort;
629 ----------------------------
630 -- Undefer_Abort_Nestable --
631 ----------------------------
633 -- An earlier version would re-defer abort if an abort is in progress.
634 -- Then, we modified the effect of the raise statement so that it defers
635 -- abort until control reaches a handler. That was done to prevent
636 -- "skipping over" a handler if another asynchronous abort occurs during
637 -- the propagation of the abort to the handler.
639 -- There has been talk of reversing that decision, based on a newer
640 -- implementation of exception propagation. Care must be taken to evaluate
641 -- how such a change would interact with the above code and all the places
642 -- where abort-deferral is used to bridge over critical transitions, such
643 -- as entry to the scope of a region with a finalizer and entry into the
644 -- body of an accept-procedure.
646 procedure Undefer_Abort_Nestable (Self_ID : Task_Id) is
647 begin
648 if No_Abort then
649 return;
650 end if;
652 pragma Assert (Self_ID.Deferral_Level > 0);
654 Self_ID.Deferral_Level := Self_ID.Deferral_Level - 1;
656 if Self_ID.Deferral_Level = 0 then
658 pragma Assert (Check_No_Locks (Self_ID));
660 if Self_ID.Pending_Action then
661 Do_Pending_Action (Self_ID);
662 end if;
663 end if;
664 end Undefer_Abort_Nestable;
666 -------------------
667 -- Abort_Undefer --
668 -------------------
670 procedure Abort_Undefer is
671 Self_ID : Task_Id;
672 begin
673 if No_Abort then
674 return;
675 end if;
677 Self_ID := STPO.Self;
679 if Self_ID.Deferral_Level = 0 then
681 -- In case there are different views on whether Abort is supported
682 -- between the expander and the run time, we may end up with
683 -- Self_ID.Deferral_Level being equal to zero, when called from
684 -- the procedure created by the expander that corresponds to a
685 -- task body.
687 -- In this case, there's nothing to be done
689 -- See related code in System.Tasking.Stages.Create_Task resetting
690 -- Deferral_Level when System.Restrictions.Abort_Allowed is False.
692 return;
693 end if;
695 pragma Assert (Self_ID.Deferral_Level > 0);
696 Self_ID.Deferral_Level := Self_ID.Deferral_Level - 1;
698 if Self_ID.Deferral_Level = 0 then
699 pragma Assert (Check_No_Locks (Self_ID));
701 if Self_ID.Pending_Action then
702 Do_Pending_Action (Self_ID);
703 end if;
704 end if;
705 end Abort_Undefer;
707 ----------------------
708 -- Update_Exception --
709 ----------------------
711 -- Call only when holding no locks
713 procedure Update_Exception
714 (X : AE.Exception_Occurrence := SSL.Current_Target_Exception)
716 Self_Id : constant Task_Id := Self;
717 use Ada.Exceptions;
719 begin
720 Save_Occurrence (Self_Id.Common.Compiler_Data.Current_Excep, X);
722 if Self_Id.Deferral_Level = 0 then
723 if Self_Id.Pending_Action then
724 Self_Id.Pending_Action := False;
725 Self_Id.Deferral_Level := Self_Id.Deferral_Level + 1;
727 if Single_Lock then
728 Lock_RTS;
729 end if;
731 Write_Lock (Self_Id);
732 Self_Id.Pending_Action := False;
733 Unlock (Self_Id);
735 if Single_Lock then
736 Unlock_RTS;
737 end if;
739 Self_Id.Deferral_Level := Self_Id.Deferral_Level - 1;
741 if Self_Id.Pending_ATC_Level < Self_Id.ATC_Nesting_Level then
742 if not Self_Id.Aborting then
743 Self_Id.Aborting := True;
744 raise Standard'Abort_Signal;
745 end if;
746 end if;
747 end if;
748 end if;
749 end Update_Exception;
751 --------------------------
752 -- Wakeup_Entry_Caller --
753 --------------------------
755 -- This is called at the end of service of an entry call, to abort the
756 -- caller if he is in an abortable part, and to wake up the caller if it
757 -- is on Entry_Caller_Sleep. It assumes that the call is already off-queue.
759 -- (This enforces the rule that a task must be off-queue if its state is
760 -- Done or Cancelled.) Call it holding the lock of Entry_Call.Self.
762 -- Timed_Call or Simple_Call:
763 -- The caller is waiting on Entry_Caller_Sleep, in
764 -- Wait_For_Completion, or Wait_For_Completion_With_Timeout.
766 -- Conditional_Call:
767 -- The caller might be in Wait_For_Completion,
768 -- waiting for a rendezvous (possibly requeued without abort)
769 -- to complete.
771 -- Asynchronous_Call:
772 -- The caller may be executing in the abortable part o
773 -- an async. select, or on a time delay,
774 -- if Entry_Call.State >= Was_Abortable.
776 procedure Wakeup_Entry_Caller
777 (Self_ID : Task_Id;
778 Entry_Call : Entry_Call_Link;
779 New_State : Entry_Call_State)
781 Caller : constant Task_Id := Entry_Call.Self;
783 begin
784 pragma Debug (Debug.Trace
785 (Self_ID, "Wakeup_Entry_Caller", 'E', Caller));
786 pragma Assert (New_State = Done or else New_State = Cancelled);
788 pragma Assert (Caller.Common.State /= Unactivated);
790 Entry_Call.State := New_State;
792 if Entry_Call.Mode = Asynchronous_Call then
794 -- Abort the caller in his abortable part, but do so only if call has
795 -- been queued abortably.
797 if Entry_Call.State >= Was_Abortable or else New_State = Done then
798 Locked_Abort_To_Level (Self_ID, Caller, Entry_Call.Level - 1);
799 end if;
801 elsif Caller.Common.State = Entry_Caller_Sleep then
802 Wakeup (Caller, Entry_Caller_Sleep);
803 end if;
804 end Wakeup_Entry_Caller;
806 -----------------------
807 -- Soft-Link Dummies --
808 -----------------------
810 -- These are dummies for subprograms that are only needed by certain
811 -- optional run-time system packages. If they are needed, the soft links
812 -- will be redirected to the real subprogram by elaboration of the
813 -- subprogram body where the real subprogram is declared.
815 procedure Finalize_Attributes (T : Task_Id) is
816 pragma Unreferenced (T);
817 begin
818 null;
819 end Finalize_Attributes;
821 procedure Initialize_Attributes (T : Task_Id) is
822 pragma Unreferenced (T);
823 begin
824 null;
825 end Initialize_Attributes;
827 begin
828 Init_RTS;
829 end System.Tasking.Initialization;