2015-06-23 Paolo Carlini <paolo.carlini@oracle.com>
[official-gcc.git] / gcc / ada / s-tarest.adb
blob5d44196216ca9f8e64f2a31b182369d5395680ae
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS --
4 -- --
5 -- S Y S T E M . T A S K I N G . R E S T R I C T E D . S T A G E S --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1999-2014, 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 order check, since we group soft link
34 -- bodies and also separate off subprograms for restricted GNARLI.
36 -- This is a simplified version of the System.Tasking.Stages package,
37 -- intended to be used in a restricted run time.
39 -- This package represents the high level tasking interface used by the
40 -- compiler to expand Ada 95 tasking constructs into simpler run time calls.
42 pragma Polling (Off);
43 -- Turn off polling, we do not want ATC polling to take place during
44 -- tasking operations. It causes infinite loops and other problems.
46 with Ada.Exceptions;
48 with System.Task_Primitives.Operations;
49 with System.Soft_Links.Tasking;
50 with System.Storage_Elements;
52 with System.Secondary_Stack;
53 pragma Elaborate_All (System.Secondary_Stack);
54 -- Make sure the body of Secondary_Stack is elaborated before calling
55 -- Init_Tasking_Soft_Links. See comments for this routine for explanation.
57 with System.Soft_Links;
58 -- Used for the non-tasking routines (*_NT) that refer to global data. They
59 -- are needed here before the tasking run time has been elaborated. used for
60 -- Create_TSD This package also provides initialization routines for task
61 -- specific data. The GNARL must call these to be sure that all non-tasking
62 -- Ada constructs will work.
64 package body System.Tasking.Restricted.Stages is
66 package STPO renames System.Task_Primitives.Operations;
67 package SSL renames System.Soft_Links;
68 package SSE renames System.Storage_Elements;
69 package SST renames System.Secondary_Stack;
71 use Ada.Exceptions;
73 use Parameters;
74 use Task_Primitives.Operations;
75 use Task_Info;
77 Tasks_Activation_Chain : Task_Id;
78 -- Chain of all the tasks to activate
80 Global_Task_Lock : aliased System.Task_Primitives.RTS_Lock;
81 -- This is a global lock; it is used to execute in mutual exclusion
82 -- from all other tasks. It is only used by Task_Lock and Task_Unlock.
84 -----------------------------------------------------------------
85 -- Tasking versions of services needed by non-tasking programs --
86 -----------------------------------------------------------------
88 function Get_Current_Excep return SSL.EOA;
89 -- Task-safe version of SSL.Get_Current_Excep
91 procedure Task_Lock;
92 -- Locks out other tasks. Preceding a section of code by Task_Lock and
93 -- following it by Task_Unlock creates a critical region. This is used
94 -- for ensuring that a region of non-tasking code (such as code used to
95 -- allocate memory) is tasking safe. Note that it is valid for calls to
96 -- Task_Lock/Task_Unlock to be nested, and this must work properly, i.e.
97 -- only the corresponding outer level Task_Unlock will actually unlock.
99 procedure Task_Unlock;
100 -- Releases lock previously set by call to Task_Lock. In the nested case,
101 -- all nested locks must be released before other tasks competing for the
102 -- tasking lock are released.
104 -----------------------
105 -- Local Subprograms --
106 -----------------------
108 procedure Task_Wrapper (Self_ID : Task_Id);
109 -- This is the procedure that is called by the GNULL from the
110 -- new context when a task is created. It waits for activation
111 -- and then calls the task body procedure. When the task body
112 -- procedure completes, it terminates the task.
114 procedure Terminate_Task (Self_ID : Task_Id);
115 -- Terminate the calling task.
116 -- This should only be called by the Task_Wrapper procedure.
118 procedure Create_Restricted_Task
119 (Priority : Integer;
120 Stack_Address : System.Address;
121 Size : System.Parameters.Size_Type;
122 Task_Info : System.Task_Info.Task_Info_Type;
123 CPU : Integer;
124 State : Task_Procedure_Access;
125 Discriminants : System.Address;
126 Elaborated : Access_Boolean;
127 Task_Image : String;
128 Created_Task : Task_Id);
129 -- Code shared between Create_Restricted_Task (the concurrent version) and
130 -- Create_Restricted_Task_Sequential. See comment of the former in the
131 -- specification of this package.
133 procedure Activate_Tasks (Chain : Task_Id);
134 -- Activate the list of tasks started by Chain
136 procedure Init_RTS;
137 -- This procedure performs the initialization of the GNARL.
138 -- It consists of initializing the environment task, global locks, and
139 -- installing tasking versions of certain operations used by the compiler.
140 -- Init_RTS is called during elaboration.
142 -----------------------
143 -- Get_Current_Excep --
144 -----------------------
146 function Get_Current_Excep return SSL.EOA is
147 begin
148 return STPO.Self.Common.Compiler_Data.Current_Excep'Access;
149 end Get_Current_Excep;
151 ---------------
152 -- Task_Lock --
153 ---------------
155 procedure Task_Lock is
156 Self_ID : constant Task_Id := STPO.Self;
158 begin
159 Self_ID.Common.Global_Task_Lock_Nesting :=
160 Self_ID.Common.Global_Task_Lock_Nesting + 1;
162 if Self_ID.Common.Global_Task_Lock_Nesting = 1 then
163 STPO.Write_Lock (Global_Task_Lock'Access, Global_Lock => True);
164 end if;
165 end Task_Lock;
167 -----------------
168 -- Task_Unlock --
169 -----------------
171 procedure Task_Unlock is
172 Self_ID : constant Task_Id := STPO.Self;
174 begin
175 pragma Assert (Self_ID.Common.Global_Task_Lock_Nesting > 0);
176 Self_ID.Common.Global_Task_Lock_Nesting :=
177 Self_ID.Common.Global_Task_Lock_Nesting - 1;
179 if Self_ID.Common.Global_Task_Lock_Nesting = 0 then
180 STPO.Unlock (Global_Task_Lock'Access, Global_Lock => True);
181 end if;
182 end Task_Unlock;
184 ------------------
185 -- Task_Wrapper --
186 ------------------
188 -- The task wrapper is a procedure that is called first for each task
189 -- task body, and which in turn calls the compiler-generated task body
190 -- procedure. The wrapper's main job is to do initialization for the task.
192 -- The variable ID in the task wrapper is used to implement the Self
193 -- function on targets where there is a fast way to find the stack base
194 -- of the current thread, since it should be at a fixed offset from the
195 -- stack base.
197 procedure Task_Wrapper (Self_ID : Task_Id) is
198 ID : Task_Id := Self_ID;
199 pragma Volatile (ID);
200 pragma Warnings (Off, ID);
201 -- Variable used on some targets to implement a fast self. We turn off
202 -- warnings because a stand alone volatile constant has to be imported,
203 -- so we don't want warnings about ID not being referenced, and volatile
204 -- having no effect.
206 -- DO NOT delete ID. As noted, it is needed on some targets.
208 use type SSE.Storage_Offset;
210 Secondary_Stack : aliased SSE.Storage_Array
211 (1 .. Self_ID.Common.Compiler_Data.Pri_Stack_Info.Size *
212 SSE.Storage_Offset (Parameters.Sec_Stack_Percentage) / 100);
213 for Secondary_Stack'Alignment use Standard'Maximum_Alignment;
214 -- This is the secondary stack data. Note that it is critical that this
215 -- have maximum alignment, since any kind of data can be allocated here.
217 pragma Warnings (Off);
218 Secondary_Stack_Address : System.Address := Secondary_Stack'Address;
219 pragma Warnings (On);
220 -- Address of secondary stack. In the fixed secondary stack case, this
221 -- value is not modified, causing a warning, hence the bracketing with
222 -- Warnings (Off/On).
224 Cause : Cause_Of_Termination := Normal;
225 -- Indicates the reason why this task terminates. Normal corresponds to
226 -- a task terminating due to completing the last statement of its body.
227 -- If the task terminates because of an exception raised by the
228 -- execution of its task body, then Cause is set to Unhandled_Exception.
229 -- Aborts are not allowed in the restricted profile to which this file
230 -- belongs.
232 EO : Exception_Occurrence;
233 -- If the task terminates because of an exception raised by the
234 -- execution of its task body, then EO will contain the associated
235 -- exception occurrence. Otherwise, it will contain Null_Occurrence.
237 begin
238 if not Parameters.Sec_Stack_Dynamic then
239 Self_ID.Common.Compiler_Data.Sec_Stack_Addr :=
240 Secondary_Stack'Address;
241 SST.SS_Init (Secondary_Stack_Address, Integer (Secondary_Stack'Last));
242 end if;
244 -- Initialize low-level TCB components, that
245 -- cannot be initialized by the creator.
247 Enter_Task (Self_ID);
249 -- Call the task body procedure
251 begin
252 -- We are separating the following portion of the code in order to
253 -- place the exception handlers in a different block. In this way we
254 -- do not call Set_Jmpbuf_Address (which needs Self) before we set
255 -- Self in Enter_Task.
257 -- Note that in the case of Ravenscar HI-E where there are no
258 -- exception handlers, the exception handler is suppressed.
260 -- Call the task body procedure
262 Self_ID.Common.Task_Entry_Point (Self_ID.Common.Task_Arg);
264 -- Normal task termination
266 Cause := Normal;
267 Save_Occurrence (EO, Ada.Exceptions.Null_Occurrence);
269 exception
270 when E : others =>
272 -- Task terminating because of an unhandled exception
274 Cause := Unhandled_Exception;
275 Save_Occurrence (EO, E);
276 end;
278 -- Look for a fall-back handler
280 -- This package is part of the restricted run time which supports
281 -- neither task hierarchies (No_Task_Hierarchy) nor specific task
282 -- termination handlers (No_Specific_Termination_Handlers).
284 -- As specified in ARM C.7.3 par. 9/2, "the fall-back handler applies
285 -- only to the dependent tasks of the task". Hence, if the terminating
286 -- tasks (Self_ID) had a fall-back handler, it would not apply to
287 -- itself. This code is always executed by a task whose master is the
288 -- environment task (the task termination code for the environment task
289 -- is executed by SSL.Task_Termination_Handler), so the fall-back
290 -- handler to execute for this task can only be defined by its parent
291 -- (there is no grandparent).
293 declare
294 TH : Termination_Handler := null;
296 begin
297 if Single_Lock then
298 Lock_RTS;
299 end if;
301 Write_Lock (Self_ID.Common.Parent);
303 TH := Self_ID.Common.Parent.Common.Fall_Back_Handler;
305 Unlock (Self_ID.Common.Parent);
307 if Single_Lock then
308 Unlock_RTS;
309 end if;
311 -- Execute the task termination handler if we found it
313 if TH /= null then
314 TH.all (Cause, Self_ID, EO);
315 end if;
316 end;
318 Terminate_Task (Self_ID);
319 end Task_Wrapper;
321 -----------------------
322 -- Restricted GNARLI --
323 -----------------------
325 -----------------------------------
326 -- Activate_All_Tasks_Sequential --
327 -----------------------------------
329 procedure Activate_All_Tasks_Sequential is
330 begin
331 pragma Assert (Partition_Elaboration_Policy = 'S');
333 Activate_Tasks (Tasks_Activation_Chain);
334 Tasks_Activation_Chain := Null_Task;
335 end Activate_All_Tasks_Sequential;
337 -------------------------------
338 -- Activate_Restricted_Tasks --
339 -------------------------------
341 procedure Activate_Restricted_Tasks
342 (Chain_Access : Activation_Chain_Access) is
343 begin
344 if Partition_Elaboration_Policy = 'S' then
346 -- In sequential elaboration policy, the chain must be empty. This
347 -- procedure can be called if the unit has been compiled without
348 -- partition elaboration policy, but the partition has a sequential
349 -- elaboration policy.
351 pragma Assert (Chain_Access.T_ID = Null_Task);
352 null;
353 else
354 Activate_Tasks (Chain_Access.T_ID);
355 Chain_Access.T_ID := Null_Task;
356 end if;
357 end Activate_Restricted_Tasks;
359 --------------------
360 -- Activate_Tasks --
361 --------------------
363 -- Note that locks of activator and activated task are both locked here.
364 -- This is necessary because C.State and Self.Wait_Count have to be
365 -- synchronized. This is safe from deadlock because the activator is always
366 -- created before the activated task. That satisfies our
367 -- in-order-of-creation ATCB locking policy.
369 procedure Activate_Tasks (Chain : Task_Id) is
370 Self_ID : constant Task_Id := STPO.Self;
371 C : Task_Id;
372 Activate_Prio : System.Any_Priority;
373 Success : Boolean;
375 begin
376 pragma Assert (Self_ID = Environment_Task);
377 pragma Assert (Self_ID.Common.Wait_Count = 0);
379 if Single_Lock then
380 Lock_RTS;
381 end if;
383 -- Lock self, to prevent activated tasks from racing ahead before we
384 -- finish activating the chain.
386 Write_Lock (Self_ID);
388 -- Activate all the tasks in the chain. Creation of the thread of
389 -- control was deferred until activation. So create it now.
391 C := Chain;
392 while C /= null loop
393 if C.Common.State /= Terminated then
394 pragma Assert (C.Common.State = Unactivated);
396 Write_Lock (C);
398 Activate_Prio :=
399 (if C.Common.Base_Priority < Get_Priority (Self_ID)
400 then Get_Priority (Self_ID)
401 else C.Common.Base_Priority);
403 STPO.Create_Task
404 (C, Task_Wrapper'Address,
405 Parameters.Size_Type
406 (C.Common.Compiler_Data.Pri_Stack_Info.Size),
407 Activate_Prio, Success);
409 Self_ID.Common.Wait_Count := Self_ID.Common.Wait_Count + 1;
411 if Success then
412 C.Common.State := Runnable;
413 else
414 raise Program_Error;
415 end if;
417 Unlock (C);
418 end if;
420 C := C.Common.Activation_Link;
421 end loop;
423 Self_ID.Common.State := Activator_Sleep;
425 -- Wait for the activated tasks to complete activation. It is unsafe to
426 -- abort any of these tasks until the count goes to zero.
428 loop
429 exit when Self_ID.Common.Wait_Count = 0;
430 Sleep (Self_ID, Activator_Sleep);
431 end loop;
433 Self_ID.Common.State := Runnable;
434 Unlock (Self_ID);
436 if Single_Lock then
437 Unlock_RTS;
438 end if;
439 end Activate_Tasks;
441 ------------------------------------
442 -- Complete_Restricted_Activation --
443 ------------------------------------
445 -- As in several other places, the locks of the activator and activated
446 -- task are both locked here. This follows our deadlock prevention lock
447 -- ordering policy, since the activated task must be created after the
448 -- activator.
450 procedure Complete_Restricted_Activation is
451 Self_ID : constant Task_Id := STPO.Self;
452 Activator : constant Task_Id := Self_ID.Common.Activator;
454 begin
455 if Single_Lock then
456 Lock_RTS;
457 end if;
459 Write_Lock (Activator);
460 Write_Lock (Self_ID);
462 -- Remove dangling reference to Activator, since a task may outlive its
463 -- activator.
465 Self_ID.Common.Activator := null;
467 -- Wake up the activator, if it is waiting for a chain of tasks to
468 -- activate, and we are the last in the chain to complete activation
470 if Activator.Common.State = Activator_Sleep then
471 Activator.Common.Wait_Count := Activator.Common.Wait_Count - 1;
473 if Activator.Common.Wait_Count = 0 then
474 Wakeup (Activator, Activator_Sleep);
475 end if;
476 end if;
478 Unlock (Self_ID);
479 Unlock (Activator);
481 if Single_Lock then
482 Unlock_RTS;
483 end if;
485 -- After the activation, active priority should be the same as base
486 -- priority. We must unlock the Activator first, though, since it should
487 -- not wait if we have lower priority.
489 if Get_Priority (Self_ID) /= Self_ID.Common.Base_Priority then
490 Set_Priority (Self_ID, Self_ID.Common.Base_Priority);
491 end if;
492 end Complete_Restricted_Activation;
494 ------------------------------
495 -- Complete_Restricted_Task --
496 ------------------------------
498 procedure Complete_Restricted_Task is
499 begin
500 STPO.Self.Common.State := Terminated;
501 end Complete_Restricted_Task;
503 ----------------------------
504 -- Create_Restricted_Task --
505 ----------------------------
507 procedure Create_Restricted_Task
508 (Priority : Integer;
509 Stack_Address : System.Address;
510 Size : System.Parameters.Size_Type;
511 Task_Info : System.Task_Info.Task_Info_Type;
512 CPU : Integer;
513 State : Task_Procedure_Access;
514 Discriminants : System.Address;
515 Elaborated : Access_Boolean;
516 Task_Image : String;
517 Created_Task : Task_Id)
519 Self_ID : constant Task_Id := STPO.Self;
520 Base_Priority : System.Any_Priority;
521 Base_CPU : System.Multiprocessors.CPU_Range;
522 Success : Boolean;
523 Len : Integer;
525 begin
526 -- Stack is not preallocated on this target, so that Stack_Address must
527 -- be null.
529 pragma Assert (Stack_Address = Null_Address);
531 Base_Priority :=
532 (if Priority = Unspecified_Priority
533 then Self_ID.Common.Base_Priority
534 else System.Any_Priority (Priority));
536 -- Legal values of CPU are the special Unspecified_CPU value which is
537 -- inserted by the compiler for tasks without CPU aspect, and those in
538 -- the range of CPU_Range but no greater than Number_Of_CPUs. Otherwise
539 -- the task is defined to have failed, and it becomes a completed task
540 -- (RM D.16(14/3)).
542 if CPU /= Unspecified_CPU
543 and then (CPU < Integer (System.Multiprocessors.CPU_Range'First)
544 or else CPU > Integer (System.Multiprocessors.Number_Of_CPUs))
545 then
546 raise Tasking_Error with "CPU not in range";
548 -- Normal CPU affinity
549 else
550 -- When the application code says nothing about the task affinity
551 -- (task without CPU aspect) then the compiler inserts the
552 -- Unspecified_CPU value which indicates to the run-time library that
553 -- the task will activate and execute on the same processor as its
554 -- activating task if the activating task is assigned a processor
555 -- (RM D.16(14/3)).
557 Base_CPU :=
558 (if CPU = Unspecified_CPU
559 then Self_ID.Common.Base_CPU
560 else System.Multiprocessors.CPU_Range (CPU));
561 end if;
563 if Single_Lock then
564 Lock_RTS;
565 end if;
567 Write_Lock (Self_ID);
569 -- With no task hierarchy, the parent of all non-Environment tasks that
570 -- are created must be the Environment task. Dispatching domains are
571 -- not allowed in Ravenscar, so the dispatching domain parameter will
572 -- always be null.
574 Initialize_ATCB
575 (Self_ID, State, Discriminants, Self_ID, Elaborated, Base_Priority,
576 Base_CPU, null, Task_Info, Size, Created_Task, Success);
578 -- If we do our job right then there should never be any failures, which
579 -- was probably said about the Titanic; so just to be safe, let's retain
580 -- this code for now
582 if not Success then
583 Unlock (Self_ID);
585 if Single_Lock then
586 Unlock_RTS;
587 end if;
589 raise Program_Error;
590 end if;
592 Created_Task.Entry_Calls (1).Self := Created_Task;
594 Len :=
595 Integer'Min (Created_Task.Common.Task_Image'Length, Task_Image'Length);
596 Created_Task.Common.Task_Image_Len := Len;
597 Created_Task.Common.Task_Image (1 .. Len) :=
598 Task_Image (Task_Image'First .. Task_Image'First + Len - 1);
600 Unlock (Self_ID);
602 if Single_Lock then
603 Unlock_RTS;
604 end if;
606 -- Create TSD as early as possible in the creation of a task, since it
607 -- may be used by the operation of Ada code within the task.
609 SSL.Create_TSD (Created_Task.Common.Compiler_Data);
610 end Create_Restricted_Task;
612 procedure Create_Restricted_Task
613 (Priority : Integer;
614 Stack_Address : System.Address;
615 Size : System.Parameters.Size_Type;
616 Task_Info : System.Task_Info.Task_Info_Type;
617 CPU : Integer;
618 State : Task_Procedure_Access;
619 Discriminants : System.Address;
620 Elaborated : Access_Boolean;
621 Chain : in out Activation_Chain;
622 Task_Image : String;
623 Created_Task : Task_Id)
625 begin
626 if Partition_Elaboration_Policy = 'S' then
628 -- A unit may have been compiled without partition elaboration
629 -- policy, and in this case the compiler will emit calls for the
630 -- default policy (concurrent). But if the partition policy is
631 -- sequential, activation must be deferred.
633 Create_Restricted_Task_Sequential
634 (Priority, Stack_Address, Size, Task_Info, CPU, State,
635 Discriminants, Elaborated, Task_Image, Created_Task);
637 else
638 Create_Restricted_Task
639 (Priority, Stack_Address, Size, Task_Info, CPU, State,
640 Discriminants, Elaborated, Task_Image, Created_Task);
642 -- Append this task to the activation chain
644 Created_Task.Common.Activation_Link := Chain.T_ID;
645 Chain.T_ID := Created_Task;
646 end if;
647 end Create_Restricted_Task;
649 ---------------------------------------
650 -- Create_Restricted_Task_Sequential --
651 ---------------------------------------
653 procedure Create_Restricted_Task_Sequential
654 (Priority : Integer;
655 Stack_Address : System.Address;
656 Size : System.Parameters.Size_Type;
657 Task_Info : System.Task_Info.Task_Info_Type;
658 CPU : Integer;
659 State : Task_Procedure_Access;
660 Discriminants : System.Address;
661 Elaborated : Access_Boolean;
662 Task_Image : String;
663 Created_Task : Task_Id) is
664 begin
665 Create_Restricted_Task (Priority, Stack_Address, Size, Task_Info,
666 CPU, State, Discriminants, Elaborated,
667 Task_Image, Created_Task);
669 -- Append this task to the activation chain
671 Created_Task.Common.Activation_Link := Tasks_Activation_Chain;
672 Tasks_Activation_Chain := Created_Task;
673 end Create_Restricted_Task_Sequential;
675 ---------------------------
676 -- Finalize_Global_Tasks --
677 ---------------------------
679 -- This is needed to support the compiler interface; it will only be called
680 -- by the Environment task. Instead, it will cause the Environment to block
681 -- forever, since none of the dependent tasks are expected to terminate
683 procedure Finalize_Global_Tasks is
684 Self_ID : constant Task_Id := STPO.Self;
686 begin
687 pragma Assert (Self_ID = STPO.Environment_Task);
689 if Single_Lock then
690 Lock_RTS;
691 end if;
693 -- Handle normal task termination by the environment task, but only for
694 -- the normal task termination. In the case of Abnormal and
695 -- Unhandled_Exception they must have been handled before, and the task
696 -- termination soft link must have been changed so the task termination
697 -- routine is not executed twice.
699 -- Note that in the "normal" implementation in s-tassta.adb the task
700 -- termination procedure for the environment task should be executed
701 -- after termination of library-level tasks. However, this
702 -- implementation is to be used when the Ravenscar restrictions are in
703 -- effect, and AI-394 says that if there is a fall-back handler set for
704 -- the partition it should be called when the first task (including the
705 -- environment task) attempts to terminate.
707 SSL.Task_Termination_Handler.all (Ada.Exceptions.Null_Occurrence);
709 Write_Lock (Self_ID);
710 Sleep (Self_ID, Master_Completion_Sleep);
711 Unlock (Self_ID);
713 if Single_Lock then
714 Unlock_RTS;
715 end if;
717 -- Should never return from Master Completion Sleep
719 raise Program_Error;
720 end Finalize_Global_Tasks;
722 ---------------------------
723 -- Restricted_Terminated --
724 ---------------------------
726 function Restricted_Terminated (T : Task_Id) return Boolean is
727 begin
728 return T.Common.State = Terminated;
729 end Restricted_Terminated;
731 --------------------
732 -- Terminate_Task --
733 --------------------
735 procedure Terminate_Task (Self_ID : Task_Id) is
736 begin
737 Self_ID.Common.State := Terminated;
738 end Terminate_Task;
740 --------------
741 -- Init_RTS --
742 --------------
744 procedure Init_RTS is
745 begin
746 Tasking.Initialize;
748 -- Initialize lock used to implement mutual exclusion between all tasks
750 STPO.Initialize_Lock (Global_Task_Lock'Access, STPO.Global_Task_Level);
752 -- Notify that the tasking run time has been elaborated so that
753 -- the tasking version of the soft links can be used.
755 SSL.Lock_Task := Task_Lock'Access;
756 SSL.Unlock_Task := Task_Unlock'Access;
757 SSL.Adafinal := Finalize_Global_Tasks'Access;
758 SSL.Get_Current_Excep := Get_Current_Excep'Access;
760 -- Initialize the tasking soft links (if not done yet) that are common
761 -- to the full and the restricted run times.
763 SSL.Tasking.Init_Tasking_Soft_Links;
764 end Init_RTS;
766 begin
767 Init_RTS;
768 end System.Tasking.Restricted.Stages;