OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [ada/] [s-tasuti.adb] - Blame information for rev 729

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                 GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS                 --
4
--                                                                          --
5
--              S Y S T E M . T A S K I N G . U T I L I T I E S             --
6
--                                                                          --
7
--                                  B o d y                                 --
8
--                                                                          --
9
--         Copyright (C) 1992-2011, 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 provides RTS Internal Declarations
33
 
34
--  These declarations are not part of the GNARLI
35
 
36
pragma Polling (Off);
37
--  Turn off polling, we do not want ATC polling to take place during tasking
38
--  operations. It causes infinite loops and other problems.
39
 
40
with System.Tasking.Debug;
41
with System.Task_Primitives.Operations;
42
with System.Tasking.Initialization;
43
with System.Tasking.Queuing;
44
with System.Parameters;
45
with System.Traces.Tasking;
46
 
47
package body System.Tasking.Utilities is
48
 
49
   package STPO renames System.Task_Primitives.Operations;
50
 
51
   use Parameters;
52
   use Tasking.Debug;
53
   use Task_Primitives;
54
   use Task_Primitives.Operations;
55
 
56
   use System.Traces;
57
   use System.Traces.Tasking;
58
 
59
   --------------------
60
   -- Abort_One_Task --
61
   --------------------
62
 
63
   --  Similar to Locked_Abort_To_Level (Self_ID, T, 0), but:
64
   --    (1) caller should be holding no locks except RTS_Lock when Single_Lock
65
   --    (2) may be called for tasks that have not yet been activated
66
   --    (3) always aborts whole task
67
 
68
   procedure Abort_One_Task (Self_ID : Task_Id; T : Task_Id) is
69
   begin
70
      if Parameters.Runtime_Traces then
71
         Send_Trace_Info (T_Abort, Self_ID, T);
72
      end if;
73
 
74
      Write_Lock (T);
75
 
76
      if T.Common.State = Unactivated then
77
         T.Common.Activator := null;
78
         T.Common.State := Terminated;
79
         T.Callable := False;
80
         Cancel_Queued_Entry_Calls (T);
81
 
82
      elsif T.Common.State /= Terminated then
83
         Initialization.Locked_Abort_To_Level (Self_ID, T, 0);
84
      end if;
85
 
86
      Unlock (T);
87
   end Abort_One_Task;
88
 
89
   -----------------
90
   -- Abort_Tasks --
91
   -----------------
92
 
93
   --  This must be called to implement the abort statement.
94
   --  Much of the actual work of the abort is done by the abortee,
95
   --  via the Abort_Handler signal handler, and propagation of the
96
   --  Abort_Signal special exception.
97
 
98
   procedure Abort_Tasks (Tasks : Task_List) is
99
      Self_Id : constant Task_Id := STPO.Self;
100
      C       : Task_Id;
101
      P       : Task_Id;
102
 
103
   begin
104
      --  If pragma Detect_Blocking is active then Program_Error must be
105
      --  raised if this potentially blocking operation is called from a
106
      --  protected action.
107
 
108
      if System.Tasking.Detect_Blocking
109
        and then Self_Id.Common.Protected_Action_Nesting > 0
110
      then
111
         raise Program_Error with "potentially blocking operation";
112
      end if;
113
 
114
      Initialization.Defer_Abort_Nestable (Self_Id);
115
 
116
      --  ?????
117
      --  Really should not be nested deferral here.
118
      --  Patch for code generation error that defers abort before
119
      --  evaluating parameters of an entry call (at least, timed entry
120
      --  calls), and so may propagate an exception that causes abort
121
      --  to remain undeferred indefinitely. See C97404B. When all
122
      --  such bugs are fixed, this patch can be removed.
123
 
124
      Lock_RTS;
125
 
126
      for J in Tasks'Range loop
127
         C := Tasks (J);
128
         Abort_One_Task (Self_Id, C);
129
      end loop;
130
 
131
      C := All_Tasks_List;
132
 
133
      while C /= null loop
134
         if C.Pending_ATC_Level > 0 then
135
            P := C.Common.Parent;
136
 
137
            while P /= null loop
138
               if P.Pending_ATC_Level = 0 then
139
                  Abort_One_Task (Self_Id, C);
140
                  exit;
141
               end if;
142
 
143
               P := P.Common.Parent;
144
            end loop;
145
         end if;
146
 
147
         C := C.Common.All_Tasks_Link;
148
      end loop;
149
 
150
      Unlock_RTS;
151
      Initialization.Undefer_Abort_Nestable (Self_Id);
152
   end Abort_Tasks;
153
 
154
   -------------------------------
155
   -- Cancel_Queued_Entry_Calls --
156
   -------------------------------
157
 
158
   --  This should only be called by T, unless T is a terminated previously
159
   --  unactivated task.
160
 
161
   procedure Cancel_Queued_Entry_Calls (T : Task_Id) is
162
      Next_Entry_Call : Entry_Call_Link;
163
      Entry_Call      : Entry_Call_Link;
164
      Self_Id         : constant Task_Id := STPO.Self;
165
 
166
      Caller : Task_Id;
167
      pragma Unreferenced (Caller);
168
      --  Should this be removed ???
169
 
170
      Level : Integer;
171
      pragma Unreferenced (Level);
172
      --  Should this be removed ???
173
 
174
   begin
175
      pragma Assert (T = Self or else T.Common.State = Terminated);
176
 
177
      for J in 1 .. T.Entry_Num loop
178
         Queuing.Dequeue_Head (T.Entry_Queues (J), Entry_Call);
179
 
180
         while Entry_Call /= null loop
181
 
182
            --  Leave Entry_Call.Done = False, since this is cancelled
183
 
184
            Caller := Entry_Call.Self;
185
            Entry_Call.Exception_To_Raise := Tasking_Error'Identity;
186
            Queuing.Dequeue_Head (T.Entry_Queues (J), Next_Entry_Call);
187
            Level := Entry_Call.Level - 1;
188
            Unlock (T);
189
            Write_Lock (Entry_Call.Self);
190
            Initialization.Wakeup_Entry_Caller
191
              (Self_Id, Entry_Call, Cancelled);
192
            Unlock (Entry_Call.Self);
193
            Write_Lock (T);
194
            Entry_Call.State := Done;
195
            Entry_Call := Next_Entry_Call;
196
         end loop;
197
      end loop;
198
   end Cancel_Queued_Entry_Calls;
199
 
200
   ------------------------
201
   -- Exit_One_ATC_Level --
202
   ------------------------
203
 
204
   --  Call only with abort deferred and holding lock of Self_Id.
205
   --  This is a bit of common code for all entry calls.
206
   --  The effect is to exit one level of ATC nesting.
207
 
208
   --  If we have reached the desired ATC nesting level, reset the
209
   --  requested level to effective infinity, to allow further calls.
210
   --  In any case, reset Self_Id.Aborting, to allow re-raising of
211
   --  Abort_Signal.
212
 
213
   procedure Exit_One_ATC_Level (Self_ID : Task_Id) is
214
   begin
215
      Self_ID.ATC_Nesting_Level := Self_ID.ATC_Nesting_Level - 1;
216
 
217
      pragma Debug
218
        (Debug.Trace (Self_ID, "EOAL: exited to ATC level: " &
219
         ATC_Level'Image (Self_ID.ATC_Nesting_Level), 'A'));
220
 
221
      pragma Assert (Self_ID.ATC_Nesting_Level >= 1);
222
 
223
      if Self_ID.Pending_ATC_Level < ATC_Level_Infinity then
224
         if Self_ID.Pending_ATC_Level = Self_ID.ATC_Nesting_Level then
225
            Self_ID.Pending_ATC_Level := ATC_Level_Infinity;
226
            Self_ID.Aborting := False;
227
         else
228
            --  Force the next Undefer_Abort to re-raise Abort_Signal
229
 
230
            pragma Assert
231
             (Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level);
232
 
233
            if Self_ID.Aborting then
234
               Self_ID.ATC_Hack := True;
235
               Self_ID.Pending_Action := True;
236
            end if;
237
         end if;
238
      end if;
239
   end Exit_One_ATC_Level;
240
 
241
   ----------------------
242
   -- Make_Independent --
243
   ----------------------
244
 
245
   procedure Make_Independent is
246
      Self_Id               : constant Task_Id := STPO.Self;
247
      Environment_Task      : constant Task_Id := STPO.Environment_Task;
248
      Parent                : constant Task_Id := Self_Id.Common.Parent;
249
      Parent_Needs_Updating : Boolean := False;
250
      Master_of_Task        : Integer;
251
 
252
   begin
253
      if Self_Id.Known_Tasks_Index /= -1 then
254
         Known_Tasks (Self_Id.Known_Tasks_Index) := null;
255
      end if;
256
 
257
      Initialization.Defer_Abort (Self_Id);
258
 
259
      if Single_Lock then
260
         Lock_RTS;
261
      end if;
262
 
263
      Write_Lock (Environment_Task);
264
      Write_Lock (Self_Id);
265
 
266
      pragma Assert (Parent = Environment_Task
267
        or else Self_Id.Master_of_Task = Library_Task_Level);
268
 
269
      Master_of_Task := Self_Id.Master_of_Task;
270
      Self_Id.Master_of_Task := Independent_Task_Level;
271
 
272
      --  The run time assumes that the parent of an independent task is the
273
      --  environment task.
274
 
275
      if Parent /= Environment_Task then
276
 
277
         --  We cannot lock three tasks at the same time, so defer the
278
         --  operations on the parent.
279
 
280
         Parent_Needs_Updating := True;
281
         Self_Id.Common.Parent := Environment_Task;
282
      end if;
283
 
284
      --  Update Independent_Task_Count that is needed for the GLADE
285
      --  termination rule. See also pending update in
286
      --  System.Tasking.Stages.Check_Independent
287
 
288
      Independent_Task_Count := Independent_Task_Count + 1;
289
 
290
      Unlock (Self_Id);
291
 
292
      --  Changing the parent after creation is not trivial. Do not forget
293
      --  to update the old parent counts, and the new parent (i.e. the
294
      --  Environment_Task) counts.
295
 
296
      if Parent_Needs_Updating then
297
         Write_Lock (Parent);
298
         Parent.Awake_Count := Parent.Awake_Count - 1;
299
         Parent.Alive_Count := Parent.Alive_Count - 1;
300
         Environment_Task.Awake_Count := Environment_Task.Awake_Count + 1;
301
         Environment_Task.Alive_Count := Environment_Task.Alive_Count + 1;
302
         Unlock (Parent);
303
      end if;
304
 
305
      --  In case the environment task is already waiting for children to
306
      --  complete.
307
      --  ??? There may be a race condition if the environment task was not in
308
      --  master completion sleep when this task was created, but now is
309
 
310
      if Environment_Task.Common.State = Master_Completion_Sleep and then
311
        Master_of_Task = Environment_Task.Master_Within
312
      then
313
         Environment_Task.Common.Wait_Count :=
314
           Environment_Task.Common.Wait_Count - 1;
315
      end if;
316
 
317
      Unlock (Environment_Task);
318
 
319
      if Single_Lock then
320
         Unlock_RTS;
321
      end if;
322
 
323
      Initialization.Undefer_Abort (Self_Id);
324
   end Make_Independent;
325
 
326
   ------------------
327
   -- Make_Passive --
328
   ------------------
329
 
330
   procedure Make_Passive (Self_ID : Task_Id; Task_Completed : Boolean) is
331
      C : Task_Id := Self_ID;
332
      P : Task_Id := C.Common.Parent;
333
 
334
      Master_Completion_Phase : Integer;
335
 
336
   begin
337
      if P /= null then
338
         Write_Lock (P);
339
      end if;
340
 
341
      Write_Lock (C);
342
 
343
      if Task_Completed then
344
         Self_ID.Common.State := Terminated;
345
 
346
         if Self_ID.Awake_Count = 0 then
347
 
348
            --  We are completing via a terminate alternative.
349
            --  Our parent should wait in Phase 2 of Complete_Master.
350
 
351
            Master_Completion_Phase := 2;
352
 
353
            pragma Assert (Task_Completed);
354
            pragma Assert (Self_ID.Terminate_Alternative);
355
            pragma Assert (Self_ID.Alive_Count = 1);
356
 
357
         else
358
            --  We are NOT on a terminate alternative.
359
            --  Our parent should wait in Phase 1 of Complete_Master.
360
 
361
            Master_Completion_Phase := 1;
362
            pragma Assert (Self_ID.Awake_Count >= 1);
363
         end if;
364
 
365
      --  We are accepting with a terminate alternative
366
 
367
      else
368
         if Self_ID.Open_Accepts = null then
369
 
370
            --  Somebody started a rendezvous while we had our lock open.
371
            --  Skip the terminate alternative.
372
 
373
            Unlock (C);
374
 
375
            if P /= null then
376
               Unlock (P);
377
            end if;
378
 
379
            return;
380
         end if;
381
 
382
         Self_ID.Terminate_Alternative := True;
383
         Master_Completion_Phase := 0;
384
 
385
         pragma Assert (Self_ID.Terminate_Alternative);
386
         pragma Assert (Self_ID.Awake_Count >= 1);
387
      end if;
388
 
389
      if Master_Completion_Phase = 2 then
390
 
391
         --  Since our Awake_Count is zero but our Alive_Count
392
         --  is nonzero, we have been accepting with a terminate
393
         --  alternative, and we now have been told to terminate
394
         --  by a completed master (in some ancestor task) that
395
         --  is waiting (with zero Awake_Count) in Phase 2 of
396
         --  Complete_Master.
397
 
398
         pragma Debug (Debug.Trace (Self_ID, "Make_Passive: Phase 2", 'M'));
399
 
400
         pragma Assert (P /= null);
401
 
402
         C.Alive_Count := C.Alive_Count - 1;
403
 
404
         if C.Alive_Count > 0 then
405
            Unlock (C);
406
            Unlock (P);
407
            return;
408
         end if;
409
 
410
         --  C's count just went to zero, indicating that
411
         --  all of C's dependents are terminated.
412
         --  C has a parent, P.
413
 
414
         loop
415
            --  C's count just went to zero, indicating that all of C's
416
            --  dependents are terminated. C has a parent, P. Notify P that
417
            --  C and its dependents have all terminated.
418
 
419
            P.Alive_Count := P.Alive_Count - 1;
420
            exit when P.Alive_Count > 0;
421
            Unlock (C);
422
            Unlock (P);
423
            C := P;
424
            P := C.Common.Parent;
425
 
426
            --  Environment task cannot have terminated yet
427
 
428
            pragma Assert (P /= null);
429
 
430
            Write_Lock (P);
431
            Write_Lock (C);
432
         end loop;
433
 
434
         if P.Common.State = Master_Phase_2_Sleep
435
           and then C.Master_of_Task = P.Master_Within
436
         then
437
            pragma Assert (P.Common.Wait_Count > 0);
438
            P.Common.Wait_Count := P.Common.Wait_Count - 1;
439
 
440
            if P.Common.Wait_Count = 0 then
441
               Wakeup (P, Master_Phase_2_Sleep);
442
            end if;
443
         end if;
444
 
445
         Unlock (C);
446
         Unlock (P);
447
         return;
448
      end if;
449
 
450
      --  We are terminating in Phase 1 or Complete_Master,
451
      --  or are accepting on a terminate alternative.
452
 
453
      C.Awake_Count := C.Awake_Count - 1;
454
 
455
      if Task_Completed then
456
         C.Alive_Count := C.Alive_Count - 1;
457
      end if;
458
 
459
      if C.Awake_Count > 0 or else P = null then
460
         Unlock (C);
461
 
462
         if P /= null then
463
            Unlock (P);
464
         end if;
465
 
466
         return;
467
      end if;
468
 
469
      --  C's count just went to zero, indicating that all of C's
470
      --  dependents are terminated or accepting with terminate alt.
471
      --  C has a parent, P.
472
 
473
      loop
474
         --  Notify P that C has gone passive
475
 
476
         if P.Awake_Count > 0 then
477
            P.Awake_Count := P.Awake_Count - 1;
478
         end if;
479
 
480
         if Task_Completed and then C.Alive_Count = 0 then
481
            P.Alive_Count := P.Alive_Count - 1;
482
         end if;
483
 
484
         exit when P.Awake_Count > 0;
485
         Unlock (C);
486
         Unlock (P);
487
         C := P;
488
         P := C.Common.Parent;
489
 
490
         if P = null then
491
            return;
492
         end if;
493
 
494
         Write_Lock (P);
495
         Write_Lock (C);
496
      end loop;
497
 
498
      --  P has non-passive dependents
499
 
500
      if P.Common.State = Master_Completion_Sleep
501
        and then C.Master_of_Task = P.Master_Within
502
      then
503
         pragma Debug
504
           (Debug.Trace
505
            (Self_ID, "Make_Passive: Phase 1, parent waiting", 'M'));
506
 
507
         --  If parent is in Master_Completion_Sleep, it cannot be on a
508
         --  terminate alternative, hence it cannot have Wait_Count of
509
         --  zero. ???Except that the race condition in Make_Independent can
510
         --  cause Wait_Count to be zero, so we need to check for that.
511
 
512
         if P.Common.Wait_Count > 0 then
513
            P.Common.Wait_Count := P.Common.Wait_Count - 1;
514
         end if;
515
 
516
         if P.Common.Wait_Count = 0 then
517
            Wakeup (P, Master_Completion_Sleep);
518
         end if;
519
 
520
      else
521
         pragma Debug
522
           (Debug.Trace
523
             (Self_ID, "Make_Passive: Phase 1, parent awake", 'M'));
524
         null;
525
      end if;
526
 
527
      Unlock (C);
528
      Unlock (P);
529
   end Make_Passive;
530
 
531
end System.Tasking.Utilities;

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.