Improve max_insns_skipped logic
[official-gcc.git] / gcc / ada / s-interr-hwint.adb
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS --
4 -- --
5 -- S Y S T E M . I N T E R R U P T S --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2014, 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 -- Invariants:
34 -- All user-handlable signals are masked at all times in all tasks/threads
35 -- except possibly for the Interrupt_Manager task.
37 -- When a user task wants to have the effect of masking/unmasking an signal,
38 -- it must call Block_Interrupt/Unblock_Interrupt, which will have the effect
39 -- of unmasking/masking the signal in the Interrupt_Manager task. These
40 -- comments do not apply to vectored hardware interrupts, which may be masked
41 -- or unmasked using routined interfaced to the relevant embedded RTOS system
42 -- calls.
44 -- Once we associate a Signal_Server_Task with an signal, the task never goes
45 -- away, and we never remove the association. On the other hand, it is more
46 -- convenient to terminate an associated Interrupt_Server_Task for a vectored
47 -- hardware interrupt (since we use a binary semaphore for synchronization
48 -- with the umbrella handler).
50 -- There is no more than one signal per Signal_Server_Task and no more than
51 -- one Signal_Server_Task per signal. The same relation holds for hardware
52 -- interrupts and Interrupt_Server_Task's at any given time. That is, only
53 -- one non-terminated Interrupt_Server_Task exists for a give interrupt at
54 -- any time.
56 -- Within this package, the lock L is used to protect the various status
57 -- tables. If there is a Server_Task associated with a signal or interrupt,
58 -- we use the per-task lock of the Server_Task instead so that we protect the
59 -- status between Interrupt_Manager and Server_Task. Protection among service
60 -- requests are ensured via user calls to the Interrupt_Manager entries.
62 -- This is reasonably generic version of this package, supporting vectored
63 -- hardware interrupts using non-RTOS specific adapter routines which should
64 -- easily implemented on any RTOS capable of supporting GNAT.
66 with Ada.Unchecked_Conversion;
67 with Ada.Task_Identification;
69 with Interfaces.C; use Interfaces.C;
70 with System.OS_Interface; use System.OS_Interface;
71 with System.Interrupt_Management;
72 with System.Task_Primitives.Operations;
73 with System.Storage_Elements;
74 with System.Tasking.Utilities;
76 with System.Tasking.Rendezvous;
77 pragma Elaborate_All (System.Tasking.Rendezvous);
79 package body System.Interrupts is
81 use Tasking;
83 package POP renames System.Task_Primitives.Operations;
85 function To_Ada is new Ada.Unchecked_Conversion
86 (System.Tasking.Task_Id, Ada.Task_Identification.Task_Id);
88 function To_System is new Ada.Unchecked_Conversion
89 (Ada.Task_Identification.Task_Id, Task_Id);
91 -----------------
92 -- Local Tasks --
93 -----------------
95 -- WARNING: System.Tasking.Stages performs calls to this task with low-
96 -- level constructs. Do not change this spec without synchronizing it.
98 task Interrupt_Manager is
99 entry Detach_Interrupt_Entries (T : Task_Id);
101 entry Attach_Handler
102 (New_Handler : Parameterless_Handler;
103 Interrupt : Interrupt_ID;
104 Static : Boolean;
105 Restoration : Boolean := False);
107 entry Exchange_Handler
108 (Old_Handler : out Parameterless_Handler;
109 New_Handler : Parameterless_Handler;
110 Interrupt : Interrupt_ID;
111 Static : Boolean);
113 entry Detach_Handler
114 (Interrupt : Interrupt_ID;
115 Static : Boolean);
117 entry Bind_Interrupt_To_Entry
118 (T : Task_Id;
119 E : Task_Entry_Index;
120 Interrupt : Interrupt_ID);
122 pragma Interrupt_Priority (System.Interrupt_Priority'First);
123 end Interrupt_Manager;
125 task type Interrupt_Server_Task
126 (Interrupt : Interrupt_ID;
127 Int_Sema : Binary_Semaphore_Id)
129 -- Server task for vectored hardware interrupt handling
131 pragma Interrupt_Priority (System.Interrupt_Priority'First + 2);
132 end Interrupt_Server_Task;
134 type Interrupt_Task_Access is access Interrupt_Server_Task;
136 -------------------------------
137 -- Local Types and Variables --
138 -------------------------------
140 type Entry_Assoc is record
141 T : Task_Id;
142 E : Task_Entry_Index;
143 end record;
145 type Handler_Assoc is record
146 H : Parameterless_Handler;
147 Static : Boolean; -- Indicates static binding;
148 end record;
150 User_Handler : array (Interrupt_ID) of Handler_Assoc :=
151 (others => (null, Static => False));
152 pragma Volatile_Components (User_Handler);
153 -- Holds the protected procedure handler (if any) and its Static
154 -- information for each interrupt or signal. A handler is static iff it
155 -- is specified through the pragma Attach_Handler.
157 User_Entry : array (Interrupt_ID) of Entry_Assoc :=
158 (others => (T => Null_Task, E => Null_Task_Entry));
159 pragma Volatile_Components (User_Entry);
160 -- Holds the task and entry index (if any) for each interrupt / signal
162 -- Type and Head, Tail of the list containing Registered Interrupt
163 -- Handlers. These definitions are used to register the handlers
164 -- specified by the pragma Interrupt_Handler.
166 type Registered_Handler;
167 type R_Link is access all Registered_Handler;
169 type Registered_Handler is record
170 H : System.Address := System.Null_Address;
171 Next : R_Link := null;
172 end record;
174 Registered_Handler_Head : R_Link := null;
175 Registered_Handler_Tail : R_Link := null;
177 Server_ID : array (Interrupt_ID) of System.Tasking.Task_Id :=
178 (others => System.Tasking.Null_Task);
179 pragma Atomic_Components (Server_ID);
180 -- Holds the Task_Id of the Server_Task for each interrupt / signal.
181 -- Task_Id is needed to accomplish locking per interrupt base. Also
182 -- is needed to determine whether to create a new Server_Task.
184 Semaphore_ID_Map : array
185 (Interrupt_ID range 0 .. System.OS_Interface.Max_HW_Interrupt) of
186 Binary_Semaphore_Id := (others => 0);
187 -- Array of binary semaphores associated with vectored interrupts. Note
188 -- that the last bound should be Max_HW_Interrupt, but this will raise
189 -- Storage_Error if Num_HW_Interrupts is null so use extra 4 bytes instead.
191 Interrupt_Access_Hold : Interrupt_Task_Access;
192 -- Variable for allocating an Interrupt_Server_Task
194 Handler_Installed : array (HW_Interrupt) of Boolean := (others => False);
195 -- True if Notify_Interrupt was connected to the interrupt. Handlers can
196 -- be connected but disconnection is not possible on VxWorks. Therefore
197 -- we ensure Notify_Installed is connected at most once.
199 -----------------------
200 -- Local Subprograms --
201 -----------------------
203 procedure Check_Reserved_Interrupt (Interrupt : Interrupt_ID);
204 -- Check if Id is a reserved interrupt, and if so raise Program_Error
205 -- with an appropriate message, otherwise return.
207 procedure Finalize_Interrupt_Servers;
208 -- Unbind the handlers for hardware interrupt server tasks at program
209 -- termination.
211 function Is_Registered (Handler : Parameterless_Handler) return Boolean;
212 -- See if Handler has been "pragma"ed using Interrupt_Handler.
213 -- Always consider a null handler as registered.
215 procedure Notify_Interrupt (Param : System.Address);
216 pragma Convention (C, Notify_Interrupt);
217 -- Umbrella handler for vectored interrupts (not signals)
219 procedure Install_Umbrella_Handler
220 (Interrupt : HW_Interrupt;
221 Handler : System.OS_Interface.Interrupt_Handler);
222 -- Install the runtime umbrella handler for a vectored hardware
223 -- interrupt
225 procedure Unimplemented (Feature : String);
226 pragma No_Return (Unimplemented);
227 -- Used to mark a call to an unimplemented function. Raises Program_Error
228 -- with an appropriate message noting that Feature is unimplemented.
230 --------------------
231 -- Attach_Handler --
232 --------------------
234 -- Calling this procedure with New_Handler = null and Static = True
235 -- means we want to detach the current handler regardless of the previous
236 -- handler's binding status (i.e. do not care if it is a dynamic or static
237 -- handler).
239 -- This option is needed so that during the finalization of a PO, we can
240 -- detach handlers attached through pragma Attach_Handler.
242 procedure Attach_Handler
243 (New_Handler : Parameterless_Handler;
244 Interrupt : Interrupt_ID;
245 Static : Boolean := False) is
246 begin
247 Check_Reserved_Interrupt (Interrupt);
248 Interrupt_Manager.Attach_Handler (New_Handler, Interrupt, Static);
249 end Attach_Handler;
251 -----------------------------
252 -- Bind_Interrupt_To_Entry --
253 -----------------------------
255 -- This procedure raises a Program_Error if it tries to
256 -- bind an interrupt to which an Entry or a Procedure is
257 -- already bound.
259 procedure Bind_Interrupt_To_Entry
260 (T : Task_Id;
261 E : Task_Entry_Index;
262 Int_Ref : System.Address)
264 Interrupt : constant Interrupt_ID :=
265 Interrupt_ID (Storage_Elements.To_Integer (Int_Ref));
266 begin
267 Check_Reserved_Interrupt (Interrupt);
268 Interrupt_Manager.Bind_Interrupt_To_Entry (T, E, Interrupt);
269 end Bind_Interrupt_To_Entry;
271 ---------------------
272 -- Block_Interrupt --
273 ---------------------
275 procedure Block_Interrupt (Interrupt : Interrupt_ID) is
276 begin
277 Unimplemented ("Block_Interrupt");
278 end Block_Interrupt;
280 ------------------------------
281 -- Check_Reserved_Interrupt --
282 ------------------------------
284 procedure Check_Reserved_Interrupt (Interrupt : Interrupt_ID) is
285 begin
286 if Is_Reserved (Interrupt) then
287 raise Program_Error with
288 "interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved";
289 else
290 return;
291 end if;
292 end Check_Reserved_Interrupt;
294 ---------------------
295 -- Current_Handler --
296 ---------------------
298 function Current_Handler
299 (Interrupt : Interrupt_ID) return Parameterless_Handler
301 begin
302 Check_Reserved_Interrupt (Interrupt);
304 -- ??? Since Parameterless_Handler is not Atomic, the current
305 -- implementation is wrong. We need a new service in Interrupt_Manager
306 -- to ensure atomicity.
308 return User_Handler (Interrupt).H;
309 end Current_Handler;
311 --------------------
312 -- Detach_Handler --
313 --------------------
315 -- Calling this procedure with Static = True means we want to Detach the
316 -- current handler regardless of the previous handler's binding status
317 -- (i.e. do not care if it is a dynamic or static handler).
319 -- This option is needed so that during the finalization of a PO, we can
320 -- detach handlers attached through pragma Attach_Handler.
322 procedure Detach_Handler
323 (Interrupt : Interrupt_ID;
324 Static : Boolean := False)
326 begin
327 Check_Reserved_Interrupt (Interrupt);
328 Interrupt_Manager.Detach_Handler (Interrupt, Static);
329 end Detach_Handler;
331 ------------------------------
332 -- Detach_Interrupt_Entries --
333 ------------------------------
335 procedure Detach_Interrupt_Entries (T : Task_Id) is
336 begin
337 Interrupt_Manager.Detach_Interrupt_Entries (T);
338 end Detach_Interrupt_Entries;
340 ----------------------
341 -- Exchange_Handler --
342 ----------------------
344 -- Calling this procedure with New_Handler = null and Static = True
345 -- means we want to detach the current handler regardless of the previous
346 -- handler's binding status (i.e. we do not care if it is a dynamic or
347 -- static handler).
349 -- This option is needed so that during the finalization of a PO, we can
350 -- detach handlers attached through pragma Attach_Handler.
352 procedure Exchange_Handler
353 (Old_Handler : out Parameterless_Handler;
354 New_Handler : Parameterless_Handler;
355 Interrupt : Interrupt_ID;
356 Static : Boolean := False)
358 begin
359 Check_Reserved_Interrupt (Interrupt);
360 Interrupt_Manager.Exchange_Handler
361 (Old_Handler, New_Handler, Interrupt, Static);
362 end Exchange_Handler;
364 --------------
365 -- Finalize --
366 --------------
368 procedure Finalize (Object : in out Static_Interrupt_Protection) is
369 begin
370 -- ??? loop to be executed only when we're not doing library level
371 -- finalization, since in this case all interrupt / signal tasks are
372 -- gone.
374 if not Interrupt_Manager'Terminated then
375 for N in reverse Object.Previous_Handlers'Range loop
376 Interrupt_Manager.Attach_Handler
377 (New_Handler => Object.Previous_Handlers (N).Handler,
378 Interrupt => Object.Previous_Handlers (N).Interrupt,
379 Static => Object.Previous_Handlers (N).Static,
380 Restoration => True);
381 end loop;
382 end if;
384 Tasking.Protected_Objects.Entries.Finalize
385 (Tasking.Protected_Objects.Entries.Protection_Entries (Object));
386 end Finalize;
388 --------------------------------
389 -- Finalize_Interrupt_Servers --
390 --------------------------------
392 -- Restore default handlers for interrupt servers
394 -- This is called by the Interrupt_Manager task when it receives the abort
395 -- signal during program finalization.
397 procedure Finalize_Interrupt_Servers is
398 HW_Interrupts : constant Boolean := HW_Interrupt'Last >= 0;
399 begin
400 if HW_Interrupts then
401 for Int in HW_Interrupt loop
402 if Server_ID (Interrupt_ID (Int)) /= null
403 and then
404 not Ada.Task_Identification.Is_Terminated
405 (To_Ada (Server_ID (Interrupt_ID (Int))))
406 then
407 Interrupt_Manager.Attach_Handler
408 (New_Handler => null,
409 Interrupt => Interrupt_ID (Int),
410 Static => True,
411 Restoration => True);
412 end if;
413 end loop;
414 end if;
415 end Finalize_Interrupt_Servers;
417 -------------------------------------
418 -- Has_Interrupt_Or_Attach_Handler --
419 -------------------------------------
421 function Has_Interrupt_Or_Attach_Handler
422 (Object : access Dynamic_Interrupt_Protection)
423 return Boolean
425 pragma Unreferenced (Object);
426 begin
427 return True;
428 end Has_Interrupt_Or_Attach_Handler;
430 function Has_Interrupt_Or_Attach_Handler
431 (Object : access Static_Interrupt_Protection)
432 return Boolean
434 pragma Unreferenced (Object);
435 begin
436 return True;
437 end Has_Interrupt_Or_Attach_Handler;
439 ----------------------
440 -- Ignore_Interrupt --
441 ----------------------
443 procedure Ignore_Interrupt (Interrupt : Interrupt_ID) is
444 begin
445 Unimplemented ("Ignore_Interrupt");
446 end Ignore_Interrupt;
448 ----------------------
449 -- Install_Handlers --
450 ----------------------
452 procedure Install_Handlers
453 (Object : access Static_Interrupt_Protection;
454 New_Handlers : New_Handler_Array)
456 begin
457 for N in New_Handlers'Range loop
459 -- We need a lock around this ???
461 Object.Previous_Handlers (N).Interrupt := New_Handlers (N).Interrupt;
462 Object.Previous_Handlers (N).Static := User_Handler
463 (New_Handlers (N).Interrupt).Static;
465 -- We call Exchange_Handler and not directly Interrupt_Manager.
466 -- Exchange_Handler so we get the Is_Reserved check.
468 Exchange_Handler
469 (Old_Handler => Object.Previous_Handlers (N).Handler,
470 New_Handler => New_Handlers (N).Handler,
471 Interrupt => New_Handlers (N).Interrupt,
472 Static => True);
473 end loop;
474 end Install_Handlers;
476 ---------------------------------
477 -- Install_Restricted_Handlers --
478 ---------------------------------
480 procedure Install_Restricted_Handlers
481 (Prio : Any_Priority;
482 Handlers : New_Handler_Array)
484 pragma Unreferenced (Prio);
485 begin
486 for N in Handlers'Range loop
487 Attach_Handler (Handlers (N).Handler, Handlers (N).Interrupt, True);
488 end loop;
489 end Install_Restricted_Handlers;
491 ------------------------------
492 -- Install_Umbrella_Handler --
493 ------------------------------
495 procedure Install_Umbrella_Handler
496 (Interrupt : HW_Interrupt;
497 Handler : System.OS_Interface.Interrupt_Handler)
499 Vec : constant Interrupt_Vector :=
500 Interrupt_Number_To_Vector (int (Interrupt));
502 Status : int;
504 begin
505 -- Only install umbrella handler when no Ada handler has already been
506 -- installed. Note that the interrupt number is passed as a parameter
507 -- when an interrupt occurs, so the umbrella handler has a different
508 -- wrapper generated by intConnect for each interrupt number.
510 if not Handler_Installed (Interrupt) then
511 Status :=
512 Interrupt_Connect (Vec, Handler, System.Address (Interrupt));
513 pragma Assert (Status = 0);
515 Handler_Installed (Interrupt) := True;
516 end if;
517 end Install_Umbrella_Handler;
519 ----------------
520 -- Is_Blocked --
521 ----------------
523 function Is_Blocked (Interrupt : Interrupt_ID) return Boolean is
524 begin
525 Unimplemented ("Is_Blocked");
526 return False;
527 end Is_Blocked;
529 -----------------------
530 -- Is_Entry_Attached --
531 -----------------------
533 function Is_Entry_Attached (Interrupt : Interrupt_ID) return Boolean is
534 begin
535 Check_Reserved_Interrupt (Interrupt);
536 return User_Entry (Interrupt).T /= Null_Task;
537 end Is_Entry_Attached;
539 -------------------------
540 -- Is_Handler_Attached --
541 -------------------------
543 function Is_Handler_Attached (Interrupt : Interrupt_ID) return Boolean is
544 begin
545 Check_Reserved_Interrupt (Interrupt);
546 return User_Handler (Interrupt).H /= null;
547 end Is_Handler_Attached;
549 ----------------
550 -- Is_Ignored --
551 ----------------
553 function Is_Ignored (Interrupt : Interrupt_ID) return Boolean is
554 begin
555 Unimplemented ("Is_Ignored");
556 return False;
557 end Is_Ignored;
559 -------------------
560 -- Is_Registered --
561 -------------------
563 function Is_Registered (Handler : Parameterless_Handler) return Boolean is
564 type Fat_Ptr is record
565 Object_Addr : System.Address;
566 Handler_Addr : System.Address;
567 end record;
569 function To_Fat_Ptr is new Ada.Unchecked_Conversion
570 (Parameterless_Handler, Fat_Ptr);
572 Ptr : R_Link;
573 Fat : Fat_Ptr;
575 begin
576 if Handler = null then
577 return True;
578 end if;
580 Fat := To_Fat_Ptr (Handler);
582 Ptr := Registered_Handler_Head;
583 while Ptr /= null loop
584 if Ptr.H = Fat.Handler_Addr then
585 return True;
586 end if;
588 Ptr := Ptr.Next;
589 end loop;
591 return False;
592 end Is_Registered;
594 -----------------
595 -- Is_Reserved --
596 -----------------
598 function Is_Reserved (Interrupt : Interrupt_ID) return Boolean is
599 use System.Interrupt_Management;
600 begin
601 return Reserve (System.Interrupt_Management.Interrupt_ID (Interrupt));
602 end Is_Reserved;
604 ----------------------
605 -- Notify_Interrupt --
606 ----------------------
608 -- Umbrella handler for vectored hardware interrupts (as opposed to signals
609 -- and exceptions). As opposed to the signal implementation, this handler
610 -- is installed in the vector table when the first Ada handler is attached
611 -- to the interrupt. However because VxWorks don't support disconnecting
612 -- handlers, this subprogram always test whether or not an Ada handler is
613 -- effectively attached.
615 -- Otherwise, the handler that existed prior to program startup is in the
616 -- vector table. This ensures that handlers installed by the BSP are active
617 -- unless explicitly replaced in the program text.
619 -- Each Interrupt_Server_Task has an associated binary semaphore on which
620 -- it pends once it's been started. This routine determines The appropriate
621 -- semaphore and issues a semGive call, waking the server task. When
622 -- a handler is unbound, System.Interrupts.Unbind_Handler issues a
623 -- Binary_Semaphore_Flush, and the server task deletes its semaphore
624 -- and terminates.
626 procedure Notify_Interrupt (Param : System.Address) is
627 Interrupt : constant Interrupt_ID := Interrupt_ID (Param);
628 Id : constant Binary_Semaphore_Id := Semaphore_ID_Map (Interrupt);
629 Status : int;
630 begin
631 if Id /= 0 then
632 Status := Binary_Semaphore_Release (Id);
633 pragma Assert (Status = 0);
634 end if;
635 end Notify_Interrupt;
637 ---------------
638 -- Reference --
639 ---------------
641 function Reference (Interrupt : Interrupt_ID) return System.Address is
642 begin
643 Check_Reserved_Interrupt (Interrupt);
644 return Storage_Elements.To_Address
645 (Storage_Elements.Integer_Address (Interrupt));
646 end Reference;
648 --------------------------------
649 -- Register_Interrupt_Handler --
650 --------------------------------
652 procedure Register_Interrupt_Handler (Handler_Addr : System.Address) is
653 New_Node_Ptr : R_Link;
655 begin
656 -- This routine registers a handler as usable for dynamic interrupt
657 -- handler association. Routines attaching and detaching handlers
658 -- dynamically should determine whether the handler is registered.
659 -- Program_Error should be raised if it is not registered.
661 -- Pragma Interrupt_Handler can only appear in a library level PO
662 -- definition and instantiation. Therefore, we do not need to implement
663 -- an unregister operation. Nor do we need to protect the queue
664 -- structure with a lock.
666 pragma Assert (Handler_Addr /= System.Null_Address);
668 New_Node_Ptr := new Registered_Handler;
669 New_Node_Ptr.H := Handler_Addr;
671 if Registered_Handler_Head = null then
672 Registered_Handler_Head := New_Node_Ptr;
673 Registered_Handler_Tail := New_Node_Ptr;
674 else
675 Registered_Handler_Tail.Next := New_Node_Ptr;
676 Registered_Handler_Tail := New_Node_Ptr;
677 end if;
678 end Register_Interrupt_Handler;
680 -----------------------
681 -- Unblock_Interrupt --
682 -----------------------
684 procedure Unblock_Interrupt (Interrupt : Interrupt_ID) is
685 begin
686 Unimplemented ("Unblock_Interrupt");
687 end Unblock_Interrupt;
689 ------------------
690 -- Unblocked_By --
691 ------------------
693 function Unblocked_By
694 (Interrupt : Interrupt_ID) return System.Tasking.Task_Id
696 begin
697 Unimplemented ("Unblocked_By");
698 return Null_Task;
699 end Unblocked_By;
701 ------------------------
702 -- Unignore_Interrupt --
703 ------------------------
705 procedure Unignore_Interrupt (Interrupt : Interrupt_ID) is
706 begin
707 Unimplemented ("Unignore_Interrupt");
708 end Unignore_Interrupt;
710 -------------------
711 -- Unimplemented --
712 -------------------
714 procedure Unimplemented (Feature : String) is
715 begin
716 raise Program_Error with Feature & " not implemented on VxWorks";
717 end Unimplemented;
719 -----------------------
720 -- Interrupt_Manager --
721 -----------------------
723 task body Interrupt_Manager is
724 -- By making this task independent of any master, when the process goes
725 -- away, the Interrupt_Manager will terminate gracefully.
727 Ignore : constant Boolean := System.Tasking.Utilities.Make_Independent;
728 pragma Unreferenced (Ignore);
730 --------------------
731 -- Local Routines --
732 --------------------
734 procedure Bind_Handler (Interrupt : Interrupt_ID);
735 -- This procedure does not do anything if a signal is blocked.
736 -- Otherwise, we have to interrupt Server_Task for status change
737 -- through a wakeup signal.
739 procedure Unbind_Handler (Interrupt : Interrupt_ID);
740 -- This procedure does not do anything if a signal is blocked.
741 -- Otherwise, we have to interrupt Server_Task for status change
742 -- through an abort signal.
744 procedure Unprotected_Exchange_Handler
745 (Old_Handler : out Parameterless_Handler;
746 New_Handler : Parameterless_Handler;
747 Interrupt : Interrupt_ID;
748 Static : Boolean;
749 Restoration : Boolean := False);
751 procedure Unprotected_Detach_Handler
752 (Interrupt : Interrupt_ID;
753 Static : Boolean);
755 ------------------
756 -- Bind_Handler --
757 ------------------
759 procedure Bind_Handler (Interrupt : Interrupt_ID) is
760 begin
761 Install_Umbrella_Handler
762 (HW_Interrupt (Interrupt), Notify_Interrupt'Access);
763 end Bind_Handler;
765 --------------------
766 -- Unbind_Handler --
767 --------------------
769 procedure Unbind_Handler (Interrupt : Interrupt_ID) is
770 Status : int;
772 begin
773 -- Flush server task off semaphore, allowing it to terminate
775 Status := Binary_Semaphore_Flush (Semaphore_ID_Map (Interrupt));
776 pragma Assert (Status = 0);
777 end Unbind_Handler;
779 --------------------------------
780 -- Unprotected_Detach_Handler --
781 --------------------------------
783 procedure Unprotected_Detach_Handler
784 (Interrupt : Interrupt_ID;
785 Static : Boolean)
787 Old_Handler : Parameterless_Handler;
788 begin
789 if User_Entry (Interrupt).T /= Null_Task then
791 -- If an interrupt entry is installed raise Program_Error
792 -- (propagate it to the caller).
794 raise Program_Error with
795 "an interrupt entry is already installed";
796 end if;
798 -- Note : Static = True will pass the following check. This is the
799 -- case when we want to detach a handler regardless of the static
800 -- status of the Current_Handler.
802 if not Static and then User_Handler (Interrupt).Static then
804 -- Trying to detach a static Interrupt Handler, raise
805 -- Program_Error.
807 raise Program_Error with
808 "trying to detach a static Interrupt Handler";
809 end if;
811 Old_Handler := User_Handler (Interrupt).H;
813 -- The new handler
815 User_Handler (Interrupt).H := null;
816 User_Handler (Interrupt).Static := False;
818 if Old_Handler /= null then
819 Unbind_Handler (Interrupt);
820 end if;
821 end Unprotected_Detach_Handler;
823 ----------------------------------
824 -- Unprotected_Exchange_Handler --
825 ----------------------------------
827 procedure Unprotected_Exchange_Handler
828 (Old_Handler : out Parameterless_Handler;
829 New_Handler : Parameterless_Handler;
830 Interrupt : Interrupt_ID;
831 Static : Boolean;
832 Restoration : Boolean := False)
834 begin
835 if User_Entry (Interrupt).T /= Null_Task then
837 -- If an interrupt entry is already installed, raise
838 -- Program_Error (propagate it to the caller).
840 raise Program_Error with "an interrupt is already installed";
841 end if;
843 -- Note : A null handler with Static = True will pass the following
844 -- check. This is the case when we want to detach a handler
845 -- regardless of the Static status of Current_Handler.
847 -- We don't check anything if Restoration is True, since we may be
848 -- detaching a static handler to restore a dynamic one.
850 if not Restoration and then not Static
851 and then (User_Handler (Interrupt).Static
853 -- Trying to overwrite a static Interrupt Handler with a dynamic
854 -- Handler
856 -- The new handler is not specified as an Interrupt Handler by a
857 -- pragma.
859 or else not Is_Registered (New_Handler))
860 then
861 raise Program_Error with
862 "trying to overwrite a static interrupt handler with a "
863 & "dynamic handler";
864 end if;
866 -- Save the old handler
868 Old_Handler := User_Handler (Interrupt).H;
870 -- The new handler
872 User_Handler (Interrupt).H := New_Handler;
874 if New_Handler = null then
876 -- The null handler means we are detaching the handler
878 User_Handler (Interrupt).Static := False;
880 else
881 User_Handler (Interrupt).Static := Static;
882 end if;
884 -- Invoke a corresponding Server_Task if not yet created. Place
885 -- Task_Id info in Server_ID array.
887 if New_Handler /= null
888 and then
889 (Server_ID (Interrupt) = Null_Task
890 or else
891 Ada.Task_Identification.Is_Terminated
892 (To_Ada (Server_ID (Interrupt))))
893 then
894 Interrupt_Access_Hold :=
895 new Interrupt_Server_Task (Interrupt, Binary_Semaphore_Create);
896 Server_ID (Interrupt) :=
897 To_System (Interrupt_Access_Hold.all'Identity);
898 end if;
900 if (New_Handler = null) and then Old_Handler /= null then
902 -- Restore default handler
904 Unbind_Handler (Interrupt);
906 elsif Old_Handler = null then
908 -- Save default handler
910 Bind_Handler (Interrupt);
911 end if;
912 end Unprotected_Exchange_Handler;
914 -- Start of processing for Interrupt_Manager
916 begin
917 loop
918 -- A block is needed to absorb Program_Error exception
920 declare
921 Old_Handler : Parameterless_Handler;
923 begin
924 select
925 accept Attach_Handler
926 (New_Handler : Parameterless_Handler;
927 Interrupt : Interrupt_ID;
928 Static : Boolean;
929 Restoration : Boolean := False)
931 Unprotected_Exchange_Handler
932 (Old_Handler, New_Handler, Interrupt, Static, Restoration);
933 end Attach_Handler;
936 accept Exchange_Handler
937 (Old_Handler : out Parameterless_Handler;
938 New_Handler : Parameterless_Handler;
939 Interrupt : Interrupt_ID;
940 Static : Boolean)
942 Unprotected_Exchange_Handler
943 (Old_Handler, New_Handler, Interrupt, Static);
944 end Exchange_Handler;
947 accept Detach_Handler
948 (Interrupt : Interrupt_ID;
949 Static : Boolean)
951 Unprotected_Detach_Handler (Interrupt, Static);
952 end Detach_Handler;
955 accept Bind_Interrupt_To_Entry
956 (T : Task_Id;
957 E : Task_Entry_Index;
958 Interrupt : Interrupt_ID)
960 -- If there is a binding already (either a procedure or an
961 -- entry), raise Program_Error (propagate it to the caller).
963 if User_Handler (Interrupt).H /= null
964 or else User_Entry (Interrupt).T /= Null_Task
965 then
966 raise Program_Error with
967 "a binding for this interrupt is already present";
968 end if;
970 User_Entry (Interrupt) := Entry_Assoc'(T => T, E => E);
972 -- Indicate the attachment of interrupt entry in the ATCB.
973 -- This is needed so when an interrupt entry task terminates
974 -- the binding can be cleaned. The call to unbinding must be
975 -- make by the task before it terminates.
977 T.Interrupt_Entry := True;
979 -- Invoke a corresponding Server_Task if not yet created.
980 -- Place Task_Id info in Server_ID array.
982 if Server_ID (Interrupt) = Null_Task
983 or else
984 Ada.Task_Identification.Is_Terminated
985 (To_Ada (Server_ID (Interrupt)))
986 then
987 Interrupt_Access_Hold := new Interrupt_Server_Task
988 (Interrupt, Binary_Semaphore_Create);
989 Server_ID (Interrupt) :=
990 To_System (Interrupt_Access_Hold.all'Identity);
991 end if;
993 Bind_Handler (Interrupt);
994 end Bind_Interrupt_To_Entry;
997 accept Detach_Interrupt_Entries (T : Task_Id) do
998 for Int in Interrupt_ID'Range loop
999 if not Is_Reserved (Int) then
1000 if User_Entry (Int).T = T then
1001 User_Entry (Int) :=
1002 Entry_Assoc'
1003 (T => Null_Task, E => Null_Task_Entry);
1004 Unbind_Handler (Int);
1005 end if;
1006 end if;
1007 end loop;
1009 -- Indicate in ATCB that no interrupt entries are attached
1011 T.Interrupt_Entry := False;
1012 end Detach_Interrupt_Entries;
1013 end select;
1015 exception
1016 -- If there is a Program_Error we just want to propagate it to
1017 -- the caller and do not want to stop this task.
1019 when Program_Error =>
1020 null;
1022 when others =>
1023 pragma Assert (False);
1024 null;
1025 end;
1026 end loop;
1028 exception
1029 when Standard'Abort_Signal =>
1031 -- Flush interrupt server semaphores, so they can terminate
1033 Finalize_Interrupt_Servers;
1034 raise;
1035 end Interrupt_Manager;
1037 ---------------------------
1038 -- Interrupt_Server_Task --
1039 ---------------------------
1041 -- Server task for vectored hardware interrupt handling
1043 task body Interrupt_Server_Task is
1044 Ignore : constant Boolean := System.Tasking.Utilities.Make_Independent;
1046 Self_Id : constant Task_Id := Self;
1047 Tmp_Handler : Parameterless_Handler;
1048 Tmp_ID : Task_Id;
1049 Tmp_Entry_Index : Task_Entry_Index;
1050 Status : int;
1052 begin
1053 Semaphore_ID_Map (Interrupt) := Int_Sema;
1055 loop
1056 -- Pend on semaphore that will be triggered by the umbrella handler
1057 -- when the associated interrupt comes in.
1059 Status := Binary_Semaphore_Obtain (Int_Sema);
1060 pragma Assert (Status = 0);
1062 if User_Handler (Interrupt).H /= null then
1064 -- Protected procedure handler
1066 Tmp_Handler := User_Handler (Interrupt).H;
1067 Tmp_Handler.all;
1069 elsif User_Entry (Interrupt).T /= Null_Task then
1071 -- Interrupt entry handler
1073 Tmp_ID := User_Entry (Interrupt).T;
1074 Tmp_Entry_Index := User_Entry (Interrupt).E;
1075 System.Tasking.Rendezvous.Call_Simple
1076 (Tmp_ID, Tmp_Entry_Index, System.Null_Address);
1078 else
1079 -- Semaphore has been flushed by an unbind operation in the
1080 -- Interrupt_Manager. Terminate the server task.
1082 -- Wait for the Interrupt_Manager to complete its work
1084 POP.Write_Lock (Self_Id);
1086 -- Unassociate the interrupt handler
1088 Semaphore_ID_Map (Interrupt) := 0;
1090 -- Delete the associated semaphore
1092 Status := Binary_Semaphore_Delete (Int_Sema);
1094 pragma Assert (Status = 0);
1096 -- Set status for the Interrupt_Manager
1098 Server_ID (Interrupt) := Null_Task;
1099 POP.Unlock (Self_Id);
1101 exit;
1102 end if;
1103 end loop;
1104 end Interrupt_Server_Task;
1106 begin
1107 -- Get Interrupt_Manager's ID so that Abort_Interrupt can be sent
1109 Interrupt_Manager_ID := To_System (Interrupt_Manager'Identity);
1110 end System.Interrupts;