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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT LIBRARY COMPONENTS                          --
4
--                                                                          --
5
--                          G N A T . E X P E C T                           --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--                     Copyright (C) 2000-2011, AdaCore                     --
10
--                                                                          --
11
-- GNAT 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
-- GNAT was originally developed  by the GNAT team at  New York University. --
28
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
29
--                                                                          --
30
------------------------------------------------------------------------------
31
 
32
with System;              use System;
33
with System.OS_Constants; use System.OS_Constants;
34
with Ada.Calendar;        use Ada.Calendar;
35
 
36
with GNAT.IO;
37
with GNAT.OS_Lib;  use GNAT.OS_Lib;
38
with GNAT.Regpat;  use GNAT.Regpat;
39
 
40
with Ada.Unchecked_Deallocation;
41
 
42
package body GNAT.Expect is
43
 
44
   type Array_Of_Pd is array (Positive range <>) of Process_Descriptor_Access;
45
 
46
   Expect_Process_Died   : constant Expect_Match := -100;
47
   Expect_Internal_Error : constant Expect_Match := -101;
48
   --  Additional possible outputs of Expect_Internal. These are not visible in
49
   --  the spec because the user will never see them.
50
 
51
   procedure Expect_Internal
52
     (Descriptors : in out Array_Of_Pd;
53
      Result      : out Expect_Match;
54
      Timeout     : Integer;
55
      Full_Buffer : Boolean);
56
   --  Internal function used to read from the process Descriptor.
57
   --
58
   --  Several outputs are possible:
59
   --     Result=Expect_Timeout, if no output was available before the timeout
60
   --        expired.
61
   --     Result=Expect_Full_Buffer, if Full_Buffer is True and some characters
62
   --        had to be discarded from the internal buffer of Descriptor.
63
   --     Result=Express_Process_Died if one of the processes was terminated.
64
   --        That process's Input_Fd is set to Invalid_FD
65
   --     Result=Express_Internal_Error
66
   --     Result=<integer>, indicates how many characters were added to the
67
   --        internal buffer. These characters are from indexes
68
   --        Descriptor.Buffer_Index - Result + 1 .. Descriptor.Buffer_Index
69
   --  Process_Died is raised if the process is no longer valid.
70
 
71
   procedure Reinitialize_Buffer
72
     (Descriptor : in out Process_Descriptor'Class);
73
   --  Reinitialize the internal buffer.
74
   --  The buffer is deleted up to the end of the last match.
75
 
76
   procedure Free is new Ada.Unchecked_Deallocation
77
     (Pattern_Matcher, Pattern_Matcher_Access);
78
 
79
   procedure Free is new Ada.Unchecked_Deallocation
80
     (Filter_List_Elem, Filter_List);
81
 
82
   procedure Call_Filters
83
     (Pid       : Process_Descriptor'Class;
84
      Str       : String;
85
      Filter_On : Filter_Type);
86
   --  Call all the filters that have the appropriate type.
87
   --  This function does nothing if the filters are locked
88
 
89
   ------------------------------
90
   -- Target dependent section --
91
   ------------------------------
92
 
93
   function Dup (Fd : File_Descriptor) return File_Descriptor;
94
   pragma Import (C, Dup);
95
 
96
   procedure Dup2 (Old_Fd, New_Fd : File_Descriptor);
97
   pragma Import (C, Dup2);
98
 
99
   procedure Kill (Pid : Process_Id; Sig_Num : Integer; Close : Integer);
100
   pragma Import (C, Kill, "__gnat_kill");
101
   --  if Close is set to 1 all OS resources used by the Pid must be freed
102
 
103
   function Create_Pipe (Pipe : not null access Pipe_Type) return Integer;
104
   pragma Import (C, Create_Pipe, "__gnat_pipe");
105
 
106
   function Poll
107
     (Fds     : System.Address;
108
      Num_Fds : Integer;
109
      Timeout : Integer;
110
      Is_Set  : System.Address) return Integer;
111
   pragma Import (C, Poll, "__gnat_expect_poll");
112
   --  Check whether there is any data waiting on the file descriptor
113
   --  Out_fd, and wait if there is none, at most Timeout milliseconds
114
   --  Returns -1 in case of error, 0 if the timeout expired before
115
   --  data became available.
116
   --
117
   --  Out_Is_Set is set to 1 if data was available, 0 otherwise.
118
 
119
   function Waitpid (Pid : Process_Id) return Integer;
120
   pragma Import (C, Waitpid, "__gnat_waitpid");
121
   --  Wait for a specific process id, and return its exit code
122
 
123
   ---------
124
   -- "+" --
125
   ---------
126
 
127
   function "+" (S : String) return GNAT.OS_Lib.String_Access is
128
   begin
129
      return new String'(S);
130
   end "+";
131
 
132
   ---------
133
   -- "+" --
134
   ---------
135
 
136
   function "+"
137
     (P : GNAT.Regpat.Pattern_Matcher) return Pattern_Matcher_Access
138
   is
139
   begin
140
      return new GNAT.Regpat.Pattern_Matcher'(P);
141
   end "+";
142
 
143
   ----------------
144
   -- Add_Filter --
145
   ----------------
146
 
147
   procedure Add_Filter
148
     (Descriptor : in out Process_Descriptor;
149
      Filter     : Filter_Function;
150
      Filter_On  : Filter_Type := Output;
151
      User_Data  : System.Address := System.Null_Address;
152
      After      : Boolean := False)
153
   is
154
      Current : Filter_List := Descriptor.Filters;
155
 
156
   begin
157
      if After then
158
         while Current /= null and then Current.Next /= null loop
159
            Current := Current.Next;
160
         end loop;
161
 
162
         if Current = null then
163
            Descriptor.Filters :=
164
              new Filter_List_Elem'
165
               (Filter => Filter, Filter_On => Filter_On,
166
                User_Data => User_Data, Next => null);
167
         else
168
            Current.Next :=
169
              new Filter_List_Elem'
170
              (Filter => Filter, Filter_On => Filter_On,
171
               User_Data => User_Data, Next => null);
172
         end if;
173
 
174
      else
175
         Descriptor.Filters :=
176
           new Filter_List_Elem'
177
             (Filter => Filter, Filter_On => Filter_On,
178
              User_Data => User_Data, Next => Descriptor.Filters);
179
      end if;
180
   end Add_Filter;
181
 
182
   ------------------
183
   -- Call_Filters --
184
   ------------------
185
 
186
   procedure Call_Filters
187
     (Pid       : Process_Descriptor'Class;
188
      Str       : String;
189
      Filter_On : Filter_Type)
190
   is
191
      Current_Filter  : Filter_List;
192
 
193
   begin
194
      if Pid.Filters_Lock = 0 then
195
         Current_Filter := Pid.Filters;
196
 
197
         while Current_Filter /= null loop
198
            if Current_Filter.Filter_On = Filter_On then
199
               Current_Filter.Filter
200
                 (Pid, Str, Current_Filter.User_Data);
201
            end if;
202
 
203
            Current_Filter := Current_Filter.Next;
204
         end loop;
205
      end if;
206
   end Call_Filters;
207
 
208
   -----------
209
   -- Close --
210
   -----------
211
 
212
   procedure Close
213
     (Descriptor : in out Process_Descriptor;
214
      Status     : out Integer)
215
   is
216
      Current_Filter : Filter_List;
217
      Next_Filter    : Filter_List;
218
 
219
   begin
220
      if Descriptor.Input_Fd /= Invalid_FD then
221
         Close (Descriptor.Input_Fd);
222
      end if;
223
 
224
      if Descriptor.Error_Fd /= Descriptor.Output_Fd then
225
         Close (Descriptor.Error_Fd);
226
      end if;
227
 
228
      Close (Descriptor.Output_Fd);
229
 
230
      --  ??? Should have timeouts for different signals
231
 
232
      if Descriptor.Pid > 0 then  --  see comment in Send_Signal
233
         Kill (Descriptor.Pid, Sig_Num => 9, Close => 0);
234
      end if;
235
 
236
      GNAT.OS_Lib.Free (Descriptor.Buffer);
237
      Descriptor.Buffer_Size := 0;
238
 
239
      Current_Filter := Descriptor.Filters;
240
 
241
      while Current_Filter /= null loop
242
         Next_Filter := Current_Filter.Next;
243
         Free (Current_Filter);
244
         Current_Filter := Next_Filter;
245
      end loop;
246
 
247
      Descriptor.Filters := null;
248
 
249
      --  Check process id (see comment in Send_Signal)
250
 
251
      if Descriptor.Pid > 0 then
252
         Status := Waitpid (Descriptor.Pid);
253
      else
254
         raise Invalid_Process;
255
      end if;
256
   end Close;
257
 
258
   procedure Close (Descriptor : in out Process_Descriptor) is
259
      Status : Integer;
260
      pragma Unreferenced (Status);
261
   begin
262
      Close (Descriptor, Status);
263
   end Close;
264
 
265
   ------------
266
   -- Expect --
267
   ------------
268
 
269
   procedure Expect
270
     (Descriptor  : in out Process_Descriptor;
271
      Result      : out Expect_Match;
272
      Regexp      : String;
273
      Timeout     : Integer := 10_000;
274
      Full_Buffer : Boolean := False)
275
   is
276
   begin
277
      if Regexp = "" then
278
         Expect (Descriptor, Result, Never_Match, Timeout, Full_Buffer);
279
      else
280
         Expect (Descriptor, Result, Compile (Regexp), Timeout, Full_Buffer);
281
      end if;
282
   end Expect;
283
 
284
   procedure Expect
285
     (Descriptor  : in out Process_Descriptor;
286
      Result      : out Expect_Match;
287
      Regexp      : String;
288
      Matched     : out GNAT.Regpat.Match_Array;
289
      Timeout     : Integer := 10_000;
290
      Full_Buffer : Boolean := False)
291
   is
292
   begin
293
      pragma Assert (Matched'First = 0);
294
      if Regexp = "" then
295
         Expect
296
           (Descriptor, Result, Never_Match, Matched, Timeout, Full_Buffer);
297
      else
298
         Expect
299
           (Descriptor, Result, Compile (Regexp), Matched, Timeout,
300
            Full_Buffer);
301
      end if;
302
   end Expect;
303
 
304
   procedure Expect
305
     (Descriptor  : in out Process_Descriptor;
306
      Result      : out Expect_Match;
307
      Regexp      : GNAT.Regpat.Pattern_Matcher;
308
      Timeout     : Integer := 10_000;
309
      Full_Buffer : Boolean := False)
310
   is
311
      Matched : GNAT.Regpat.Match_Array (0 .. 0);
312
      pragma Warnings (Off, Matched);
313
   begin
314
      Expect (Descriptor, Result, Regexp, Matched, Timeout, Full_Buffer);
315
   end Expect;
316
 
317
   procedure Expect
318
     (Descriptor  : in out Process_Descriptor;
319
      Result      : out Expect_Match;
320
      Regexp      : GNAT.Regpat.Pattern_Matcher;
321
      Matched     : out GNAT.Regpat.Match_Array;
322
      Timeout     : Integer := 10_000;
323
      Full_Buffer : Boolean := False)
324
   is
325
      N           : Expect_Match;
326
      Descriptors : Array_Of_Pd := (1 => Descriptor'Unrestricted_Access);
327
      Try_Until   : constant Time := Clock + Duration (Timeout) / 1000.0;
328
      Timeout_Tmp : Integer := Timeout;
329
 
330
   begin
331
      pragma Assert (Matched'First = 0);
332
      Reinitialize_Buffer (Descriptor);
333
 
334
      loop
335
         --  First, test if what is already in the buffer matches (This is
336
         --  required if this package is used in multi-task mode, since one of
337
         --  the tasks might have added something in the buffer, and we don't
338
         --  want other tasks to wait for new input to be available before
339
         --  checking the regexps).
340
 
341
         Match
342
           (Regexp, Descriptor.Buffer (1 .. Descriptor.Buffer_Index), Matched);
343
 
344
         if Descriptor.Buffer_Index >= 1 and then Matched (0).First /= 0 then
345
            Result := 1;
346
            Descriptor.Last_Match_Start := Matched (0).First;
347
            Descriptor.Last_Match_End := Matched (0).Last;
348
            return;
349
         end if;
350
 
351
         --  Else try to read new input
352
 
353
         Expect_Internal (Descriptors, N, Timeout_Tmp, Full_Buffer);
354
 
355
         case N is
356
            when Expect_Internal_Error | Expect_Process_Died =>
357
               raise Process_Died;
358
 
359
            when Expect_Timeout | Expect_Full_Buffer =>
360
               Result := N;
361
               return;
362
 
363
            when others =>
364
               null;  --  See below
365
         end case;
366
 
367
         --  Calculate the timeout for the next turn
368
 
369
         --  Note that Timeout is, from the caller's perspective, the maximum
370
         --  time until a match, not the maximum time until some output is
371
         --  read, and thus cannot be reused as is for Expect_Internal.
372
 
373
         if Timeout /= -1 then
374
            Timeout_Tmp := Integer (Try_Until - Clock) * 1000;
375
 
376
            if Timeout_Tmp < 0 then
377
               Result := Expect_Timeout;
378
               exit;
379
            end if;
380
         end if;
381
      end loop;
382
 
383
      --  Even if we had the general timeout above, we have to test that the
384
      --  last test we read from the external process didn't match.
385
 
386
      Match
387
        (Regexp, Descriptor.Buffer (1 .. Descriptor.Buffer_Index), Matched);
388
 
389
      if Matched (0).First /= 0 then
390
         Result := 1;
391
         Descriptor.Last_Match_Start := Matched (0).First;
392
         Descriptor.Last_Match_End := Matched (0).Last;
393
         return;
394
      end if;
395
   end Expect;
396
 
397
   procedure Expect
398
     (Descriptor  : in out Process_Descriptor;
399
      Result      : out Expect_Match;
400
      Regexps     : Regexp_Array;
401
      Timeout     : Integer := 10_000;
402
      Full_Buffer : Boolean := False)
403
   is
404
      Patterns : Compiled_Regexp_Array (Regexps'Range);
405
 
406
      Matched : GNAT.Regpat.Match_Array (0 .. 0);
407
      pragma Warnings (Off, Matched);
408
 
409
   begin
410
      for J in Regexps'Range loop
411
         Patterns (J) := new Pattern_Matcher'(Compile (Regexps (J).all));
412
      end loop;
413
 
414
      Expect (Descriptor, Result, Patterns, Matched, Timeout, Full_Buffer);
415
 
416
      for J in Regexps'Range loop
417
         Free (Patterns (J));
418
      end loop;
419
   end Expect;
420
 
421
   procedure Expect
422
     (Descriptor  : in out Process_Descriptor;
423
      Result      : out Expect_Match;
424
      Regexps     : Compiled_Regexp_Array;
425
      Timeout     : Integer := 10_000;
426
      Full_Buffer : Boolean := False)
427
   is
428
      Matched : GNAT.Regpat.Match_Array (0 .. 0);
429
      pragma Warnings (Off, Matched);
430
   begin
431
      Expect (Descriptor, Result, Regexps, Matched, Timeout, Full_Buffer);
432
   end Expect;
433
 
434
   procedure Expect
435
     (Result      : out Expect_Match;
436
      Regexps     : Multiprocess_Regexp_Array;
437
      Timeout     : Integer := 10_000;
438
      Full_Buffer : Boolean := False)
439
   is
440
      Matched : GNAT.Regpat.Match_Array (0 .. 0);
441
      pragma Warnings (Off, Matched);
442
   begin
443
      Expect (Result, Regexps, Matched, Timeout, Full_Buffer);
444
   end Expect;
445
 
446
   procedure Expect
447
     (Descriptor  : in out Process_Descriptor;
448
      Result      : out Expect_Match;
449
      Regexps     : Regexp_Array;
450
      Matched     : out GNAT.Regpat.Match_Array;
451
      Timeout     : Integer := 10_000;
452
      Full_Buffer : Boolean := False)
453
   is
454
      Patterns : Compiled_Regexp_Array (Regexps'Range);
455
 
456
   begin
457
      pragma Assert (Matched'First = 0);
458
 
459
      for J in Regexps'Range loop
460
         Patterns (J) := new Pattern_Matcher'(Compile (Regexps (J).all));
461
      end loop;
462
 
463
      Expect (Descriptor, Result, Patterns, Matched, Timeout, Full_Buffer);
464
 
465
      for J in Regexps'Range loop
466
         Free (Patterns (J));
467
      end loop;
468
   end Expect;
469
 
470
   procedure Expect
471
     (Descriptor  : in out Process_Descriptor;
472
      Result      : out Expect_Match;
473
      Regexps     : Compiled_Regexp_Array;
474
      Matched     : out GNAT.Regpat.Match_Array;
475
      Timeout     : Integer := 10_000;
476
      Full_Buffer : Boolean := False)
477
   is
478
      N           : Expect_Match;
479
      Descriptors : Array_Of_Pd := (1 => Descriptor'Unrestricted_Access);
480
 
481
   begin
482
      pragma Assert (Matched'First = 0);
483
 
484
      Reinitialize_Buffer (Descriptor);
485
 
486
      loop
487
         --  First, test if what is already in the buffer matches (This is
488
         --  required if this package is used in multi-task mode, since one of
489
         --  the tasks might have added something in the buffer, and we don't
490
         --  want other tasks to wait for new input to be available before
491
         --  checking the regexps).
492
 
493
         if Descriptor.Buffer /= null then
494
            for J in Regexps'Range loop
495
               Match
496
                 (Regexps (J).all,
497
                  Descriptor.Buffer (1 .. Descriptor.Buffer_Index),
498
                  Matched);
499
 
500
               if Matched (0) /= No_Match then
501
                  Result := Expect_Match (J);
502
                  Descriptor.Last_Match_Start := Matched (0).First;
503
                  Descriptor.Last_Match_End := Matched (0).Last;
504
                  return;
505
               end if;
506
            end loop;
507
         end if;
508
 
509
         Expect_Internal (Descriptors, N, Timeout, Full_Buffer);
510
 
511
         case N is
512
            when Expect_Internal_Error | Expect_Process_Died =>
513
               raise Process_Died;
514
 
515
            when Expect_Timeout | Expect_Full_Buffer =>
516
               Result := N;
517
               return;
518
 
519
            when others =>
520
               null;  --  Continue
521
         end case;
522
      end loop;
523
   end Expect;
524
 
525
   procedure Expect
526
     (Result      : out Expect_Match;
527
      Regexps     : Multiprocess_Regexp_Array;
528
      Matched     : out GNAT.Regpat.Match_Array;
529
      Timeout     : Integer := 10_000;
530
      Full_Buffer : Boolean := False)
531
   is
532
      N           : Expect_Match;
533
      Descriptors : Array_Of_Pd (Regexps'Range);
534
 
535
   begin
536
      pragma Assert (Matched'First = 0);
537
 
538
      for J in Descriptors'Range loop
539
         Descriptors (J) := Regexps (J).Descriptor;
540
 
541
         if Descriptors (J) /= null then
542
            Reinitialize_Buffer (Regexps (J).Descriptor.all);
543
         end if;
544
      end loop;
545
 
546
      loop
547
         --  First, test if what is already in the buffer matches (This is
548
         --  required if this package is used in multi-task mode, since one of
549
         --  the tasks might have added something in the buffer, and we don't
550
         --  want other tasks to wait for new input to be available before
551
         --  checking the regexps).
552
 
553
         for J in Regexps'Range loop
554
            if Regexps (J).Regexp /= null
555
               and then Regexps (J).Descriptor /= null
556
            then
557
               Match (Regexps (J).Regexp.all,
558
                      Regexps (J).Descriptor.Buffer
559
                        (1 .. Regexps (J).Descriptor.Buffer_Index),
560
                      Matched);
561
 
562
               if Matched (0) /= No_Match then
563
                  Result := Expect_Match (J);
564
                  Regexps (J).Descriptor.Last_Match_Start := Matched (0).First;
565
                  Regexps (J).Descriptor.Last_Match_End := Matched (0).Last;
566
                  return;
567
               end if;
568
            end if;
569
         end loop;
570
 
571
         Expect_Internal (Descriptors, N, Timeout, Full_Buffer);
572
 
573
         case N is
574
            when Expect_Internal_Error | Expect_Process_Died =>
575
               raise Process_Died;
576
 
577
            when Expect_Timeout | Expect_Full_Buffer =>
578
               Result := N;
579
               return;
580
 
581
            when others =>
582
               null;  --  Continue
583
         end case;
584
      end loop;
585
   end Expect;
586
 
587
   ---------------------
588
   -- Expect_Internal --
589
   ---------------------
590
 
591
   procedure Expect_Internal
592
     (Descriptors : in out Array_Of_Pd;
593
      Result      : out Expect_Match;
594
      Timeout     : Integer;
595
      Full_Buffer : Boolean)
596
   is
597
      Num_Descriptors : Integer;
598
      Buffer_Size     : Integer := 0;
599
 
600
      N : Integer;
601
 
602
      type File_Descriptor_Array is
603
        array (0 .. Descriptors'Length - 1) of File_Descriptor;
604
      Fds : aliased File_Descriptor_Array;
605
      Fds_Count : Natural := 0;
606
 
607
      Fds_To_Descriptor : array (Fds'Range) of Integer;
608
      --  Maps file descriptor entries from Fds to entries in Descriptors.
609
      --  They do not have the same index when entries in Descriptors are null.
610
 
611
      type Integer_Array is array (Fds'Range) of Integer;
612
      Is_Set : aliased Integer_Array;
613
 
614
   begin
615
      for J in Descriptors'Range loop
616
         if Descriptors (J) /= null then
617
            Fds (Fds'First + Fds_Count) := Descriptors (J).Output_Fd;
618
            Fds_To_Descriptor (Fds'First + Fds_Count) := J;
619
            Fds_Count := Fds_Count + 1;
620
 
621
            if Descriptors (J).Buffer_Size = 0 then
622
               Buffer_Size := Integer'Max (Buffer_Size, 4096);
623
            else
624
               Buffer_Size :=
625
                 Integer'Max (Buffer_Size, Descriptors (J).Buffer_Size);
626
            end if;
627
         end if;
628
      end loop;
629
 
630
      declare
631
         Buffer : aliased String (1 .. Buffer_Size);
632
         --  Buffer used for input. This is allocated only once, not for
633
         --  every iteration of the loop
634
 
635
         D : Integer;
636
         --  Index in Descriptors
637
 
638
      begin
639
         --  Loop until we match or we have a timeout
640
 
641
         loop
642
            Num_Descriptors :=
643
              Poll (Fds'Address, Fds_Count, Timeout, Is_Set'Address);
644
 
645
            case Num_Descriptors is
646
 
647
               --  Error?
648
 
649
               when -1 =>
650
                  Result := Expect_Internal_Error;
651
                  return;
652
 
653
               --  Timeout?
654
 
655
               when 0  =>
656
                  Result := Expect_Timeout;
657
                  return;
658
 
659
               --  Some input
660
 
661
               when others =>
662
                  for F in Fds'Range loop
663
                     if Is_Set (F) = 1 then
664
                        D := Fds_To_Descriptor (F);
665
 
666
                        Buffer_Size := Descriptors (D).Buffer_Size;
667
 
668
                        if Buffer_Size = 0 then
669
                           Buffer_Size := 4096;
670
                        end if;
671
 
672
                        N := Read (Descriptors (D).Output_Fd, Buffer'Address,
673
                                   Buffer_Size);
674
 
675
                        --  Error or End of file
676
 
677
                        if N <= 0 then
678
                           --  ??? Note that ddd tries again up to three times
679
                           --  in that case. See LiterateA.C:174
680
 
681
                           Descriptors (D).Input_Fd := Invalid_FD;
682
                           Result := Expect_Process_Died;
683
                           return;
684
 
685
                        else
686
                           --  If there is no limit to the buffer size
687
 
688
                           if Descriptors (D).Buffer_Size = 0 then
689
 
690
                              declare
691
                                 Tmp : String_Access := Descriptors (D).Buffer;
692
 
693
                              begin
694
                                 if Tmp /= null then
695
                                    Descriptors (D).Buffer :=
696
                                      new String (1 .. Tmp'Length + N);
697
                                    Descriptors (D).Buffer (1 .. Tmp'Length) :=
698
                                      Tmp.all;
699
                                    Descriptors (D).Buffer
700
                                      (Tmp'Length + 1 .. Tmp'Length + N) :=
701
                                      Buffer (1 .. N);
702
                                    Free (Tmp);
703
                                    Descriptors (D).Buffer_Index :=
704
                                      Descriptors (D).Buffer'Last;
705
 
706
                                 else
707
                                    Descriptors (D).Buffer :=
708
                                      new String (1 .. N);
709
                                    Descriptors (D).Buffer.all :=
710
                                      Buffer (1 .. N);
711
                                    Descriptors (D).Buffer_Index := N;
712
                                 end if;
713
                              end;
714
 
715
                           else
716
                              --  Add what we read to the buffer
717
 
718
                              if Descriptors (D).Buffer_Index + N >
719
                                Descriptors (D).Buffer_Size
720
                              then
721
                                 --  If the user wants to know when we have
722
                                 --  read more than the buffer can contain.
723
 
724
                                 if Full_Buffer then
725
                                    Result := Expect_Full_Buffer;
726
                                    return;
727
                                 end if;
728
 
729
                                 --  Keep as much as possible from the buffer,
730
                                 --  and forget old characters.
731
 
732
                                 Descriptors (D).Buffer
733
                                   (1 .. Descriptors (D).Buffer_Size - N) :=
734
                                  Descriptors (D).Buffer
735
                                   (N - Descriptors (D).Buffer_Size +
736
                                    Descriptors (D).Buffer_Index + 1 ..
737
                                    Descriptors (D).Buffer_Index);
738
                                 Descriptors (D).Buffer_Index :=
739
                                   Descriptors (D).Buffer_Size - N;
740
                              end if;
741
 
742
                              --  Keep what we read in the buffer
743
 
744
                              Descriptors (D).Buffer
745
                                (Descriptors (D).Buffer_Index + 1 ..
746
                                 Descriptors (D).Buffer_Index + N) :=
747
                                Buffer (1 .. N);
748
                              Descriptors (D).Buffer_Index :=
749
                                Descriptors (D).Buffer_Index + N;
750
                           end if;
751
 
752
                           --  Call each of the output filter with what we
753
                           --  read.
754
 
755
                           Call_Filters
756
                             (Descriptors (D).all, Buffer (1 .. N), Output);
757
 
758
                           Result := Expect_Match (D);
759
                           return;
760
                        end if;
761
                     end if;
762
                  end loop;
763
            end case;
764
         end loop;
765
      end;
766
   end Expect_Internal;
767
 
768
   ----------------
769
   -- Expect_Out --
770
   ----------------
771
 
772
   function Expect_Out (Descriptor : Process_Descriptor) return String is
773
   begin
774
      return Descriptor.Buffer (1 .. Descriptor.Last_Match_End);
775
   end Expect_Out;
776
 
777
   ----------------------
778
   -- Expect_Out_Match --
779
   ----------------------
780
 
781
   function Expect_Out_Match (Descriptor : Process_Descriptor) return String is
782
   begin
783
      return Descriptor.Buffer
784
        (Descriptor.Last_Match_Start .. Descriptor.Last_Match_End);
785
   end Expect_Out_Match;
786
 
787
   ------------------------
788
   -- First_Dead_Process --
789
   ------------------------
790
 
791
   function First_Dead_Process
792
     (Regexp : Multiprocess_Regexp_Array) return Natural is
793
   begin
794
      for R in Regexp'Range loop
795
         if Regexp (R).Descriptor /= null
796
           and then Regexp (R).Descriptor.Input_Fd = GNAT.OS_Lib.Invalid_FD
797
         then
798
            return R;
799
         end if;
800
      end loop;
801
 
802
      return 0;
803
   end First_Dead_Process;
804
 
805
   -----------
806
   -- Flush --
807
   -----------
808
 
809
   procedure Flush
810
     (Descriptor : in out Process_Descriptor;
811
      Timeout    : Integer := 0)
812
   is
813
      Buffer_Size     : constant Integer := 8192;
814
      Num_Descriptors : Integer;
815
      N               : Integer;
816
      Is_Set          : aliased Integer;
817
      Buffer          : aliased String (1 .. Buffer_Size);
818
 
819
   begin
820
      --  Empty the current buffer
821
 
822
      Descriptor.Last_Match_End := Descriptor.Buffer_Index;
823
      Reinitialize_Buffer (Descriptor);
824
 
825
      --  Read everything from the process to flush its output
826
 
827
      loop
828
         Num_Descriptors :=
829
           Poll (Descriptor.Output_Fd'Address, 1, Timeout, Is_Set'Address);
830
 
831
         case Num_Descriptors is
832
 
833
            --  Error ?
834
 
835
            when -1 =>
836
               raise Process_Died;
837
 
838
            --  Timeout => End of flush
839
 
840
            when 0  =>
841
               return;
842
 
843
            --  Some input
844
 
845
            when others =>
846
               if Is_Set = 1 then
847
                  N := Read (Descriptor.Output_Fd, Buffer'Address,
848
                             Buffer_Size);
849
 
850
                  if N = -1 then
851
                     raise Process_Died;
852
                  elsif N = 0 then
853
                     return;
854
                  end if;
855
               end if;
856
         end case;
857
      end loop;
858
   end Flush;
859
 
860
   ----------
861
   -- Free --
862
   ----------
863
 
864
   procedure Free (Regexp : in out Multiprocess_Regexp) is
865
      procedure Unchecked_Free is new Ada.Unchecked_Deallocation
866
        (Process_Descriptor'Class, Process_Descriptor_Access);
867
   begin
868
      Unchecked_Free (Regexp.Descriptor);
869
      Free (Regexp.Regexp);
870
   end Free;
871
 
872
   ------------------------
873
   -- Get_Command_Output --
874
   ------------------------
875
 
876
   function Get_Command_Output
877
     (Command    : String;
878
      Arguments  : GNAT.OS_Lib.Argument_List;
879
      Input      : String;
880
      Status     : not null access Integer;
881
      Err_To_Out : Boolean := False) return String
882
   is
883
      use GNAT.Expect;
884
 
885
      Process : Process_Descriptor;
886
 
887
      Output : String_Access := new String (1 .. 1024);
888
      --  Buffer used to accumulate standard output from the launched
889
      --  command, expanded as necessary during execution.
890
 
891
      Last : Integer := 0;
892
      --  Index of the last used character within Output
893
 
894
   begin
895
      Non_Blocking_Spawn
896
        (Process, Command, Arguments, Err_To_Out => Err_To_Out);
897
 
898
      if Input'Length > 0 then
899
         Send (Process, Input);
900
      end if;
901
 
902
      Close (Process.Input_Fd);
903
      Process.Input_Fd := Invalid_FD;
904
 
905
      declare
906
         Result : Expect_Match;
907
         pragma Unreferenced (Result);
908
 
909
      begin
910
         --  This loop runs until the call to Expect raises Process_Died
911
 
912
         loop
913
            Expect (Process, Result, ".+");
914
 
915
            declare
916
               NOutput : String_Access;
917
               S       : constant String := Expect_Out (Process);
918
               pragma Assert (S'Length > 0);
919
 
920
            begin
921
               --  Expand buffer if we need more space. Note here that we add
922
               --  S'Length to ensure that S will fit in the new buffer size.
923
 
924
               if Last + S'Length > Output'Last then
925
                  NOutput := new String (1 .. 2 * Output'Last + S'Length);
926
                  NOutput (Output'Range) := Output.all;
927
                  Free (Output);
928
 
929
               --  Here if current buffer size is OK
930
 
931
               else
932
                  NOutput := Output;
933
               end if;
934
 
935
               NOutput (Last + 1 .. Last + S'Length) := S;
936
               Last := Last + S'Length;
937
               Output := NOutput;
938
            end;
939
         end loop;
940
 
941
      exception
942
         when Process_Died =>
943
            Close (Process, Status.all);
944
      end;
945
 
946
      if Last = 0 then
947
         Free (Output);
948
         return "";
949
      end if;
950
 
951
      declare
952
         S : constant String := Output (1 .. Last);
953
      begin
954
         Free (Output);
955
         return S;
956
      end;
957
   end Get_Command_Output;
958
 
959
   ------------------
960
   -- Get_Error_Fd --
961
   ------------------
962
 
963
   function Get_Error_Fd
964
     (Descriptor : Process_Descriptor) return GNAT.OS_Lib.File_Descriptor
965
   is
966
   begin
967
      return Descriptor.Error_Fd;
968
   end Get_Error_Fd;
969
 
970
   ------------------
971
   -- Get_Input_Fd --
972
   ------------------
973
 
974
   function Get_Input_Fd
975
     (Descriptor : Process_Descriptor) return GNAT.OS_Lib.File_Descriptor
976
   is
977
   begin
978
      return Descriptor.Input_Fd;
979
   end Get_Input_Fd;
980
 
981
   -------------------
982
   -- Get_Output_Fd --
983
   -------------------
984
 
985
   function Get_Output_Fd
986
     (Descriptor : Process_Descriptor) return GNAT.OS_Lib.File_Descriptor
987
   is
988
   begin
989
      return Descriptor.Output_Fd;
990
   end Get_Output_Fd;
991
 
992
   -------------
993
   -- Get_Pid --
994
   -------------
995
 
996
   function Get_Pid
997
     (Descriptor : Process_Descriptor) return Process_Id
998
   is
999
   begin
1000
      return Descriptor.Pid;
1001
   end Get_Pid;
1002
 
1003
   -----------------
1004
   -- Has_Process --
1005
   -----------------
1006
 
1007
   function Has_Process (Regexp : Multiprocess_Regexp_Array) return Boolean is
1008
   begin
1009
      return Regexp /= (Regexp'Range => (null, null));
1010
   end Has_Process;
1011
 
1012
   ---------------
1013
   -- Interrupt --
1014
   ---------------
1015
 
1016
   procedure Interrupt (Descriptor : in out Process_Descriptor) is
1017
      SIGINT : constant := 2;
1018
   begin
1019
      Send_Signal (Descriptor, SIGINT);
1020
   end Interrupt;
1021
 
1022
   ------------------
1023
   -- Lock_Filters --
1024
   ------------------
1025
 
1026
   procedure Lock_Filters (Descriptor : in out Process_Descriptor) is
1027
   begin
1028
      Descriptor.Filters_Lock := Descriptor.Filters_Lock + 1;
1029
   end Lock_Filters;
1030
 
1031
   ------------------------
1032
   -- Non_Blocking_Spawn --
1033
   ------------------------
1034
 
1035
   procedure Non_Blocking_Spawn
1036
     (Descriptor  : out Process_Descriptor'Class;
1037
      Command     : String;
1038
      Args        : GNAT.OS_Lib.Argument_List;
1039
      Buffer_Size : Natural := 4096;
1040
      Err_To_Out  : Boolean := False)
1041
   is
1042
      function Fork return Process_Id;
1043
      pragma Import (C, Fork, "__gnat_expect_fork");
1044
      --  Starts a new process if possible. See the Unix command fork for more
1045
      --  information. On systems that do not support this capability (such as
1046
      --  Windows...), this command does nothing, and Fork will return
1047
      --  Null_Pid.
1048
 
1049
      Pipe1, Pipe2, Pipe3 : aliased Pipe_Type;
1050
 
1051
      Arg        : String_Access;
1052
      Arg_List   : String_List (1 .. Args'Length + 2);
1053
      C_Arg_List : aliased array (1 .. Args'Length + 2) of System.Address;
1054
 
1055
      Command_With_Path : String_Access;
1056
 
1057
   begin
1058
      --  Create the rest of the pipes
1059
 
1060
      Set_Up_Communications
1061
        (Descriptor, Err_To_Out, Pipe1'Access, Pipe2'Access, Pipe3'Access);
1062
 
1063
      Command_With_Path := Locate_Exec_On_Path (Command);
1064
 
1065
      if Command_With_Path = null then
1066
         raise Invalid_Process;
1067
      end if;
1068
 
1069
      --  Fork a new process
1070
 
1071
      Descriptor.Pid := Fork;
1072
 
1073
      --  Are we now in the child (or, for Windows, still in the common
1074
      --  process).
1075
 
1076
      if Descriptor.Pid = Null_Pid then
1077
         --  Prepare an array of arguments to pass to C
1078
 
1079
         Arg := new String (1 .. Command_With_Path'Length + 1);
1080
         Arg (1 .. Command_With_Path'Length) := Command_With_Path.all;
1081
         Arg (Arg'Last)        := ASCII.NUL;
1082
         Arg_List (1)          := Arg;
1083
 
1084
         for J in Args'Range loop
1085
            Arg                     := new String (1 .. Args (J)'Length + 1);
1086
            Arg (1 .. Args (J)'Length)    := Args (J).all;
1087
            Arg (Arg'Last)                := ASCII.NUL;
1088
            Arg_List (J + 2 - Args'First) := Arg.all'Access;
1089
         end loop;
1090
 
1091
         Arg_List (Arg_List'Last) := null;
1092
 
1093
         --  Make sure all arguments are compatible with OS conventions
1094
 
1095
         Normalize_Arguments (Arg_List);
1096
 
1097
         --  Prepare low-level argument list from the normalized arguments
1098
 
1099
         for K in Arg_List'Range loop
1100
            C_Arg_List (K) :=
1101
              (if Arg_List (K) /= null
1102
               then Arg_List (K).all'Address
1103
               else System.Null_Address);
1104
         end loop;
1105
 
1106
         --  This does not return on Unix systems
1107
 
1108
         Set_Up_Child_Communications
1109
           (Descriptor, Pipe1, Pipe2, Pipe3, Command_With_Path.all,
1110
            C_Arg_List'Address);
1111
      end if;
1112
 
1113
      Free (Command_With_Path);
1114
 
1115
      --  Did we have an error when spawning the child ?
1116
 
1117
      if Descriptor.Pid < Null_Pid then
1118
         raise Invalid_Process;
1119
      else
1120
         --  We are now in the parent process
1121
 
1122
         Set_Up_Parent_Communications (Descriptor, Pipe1, Pipe2, Pipe3);
1123
      end if;
1124
 
1125
      --  Create the buffer
1126
 
1127
      Descriptor.Buffer_Size := Buffer_Size;
1128
 
1129
      if Buffer_Size /= 0 then
1130
         Descriptor.Buffer := new String (1 .. Positive (Buffer_Size));
1131
      end if;
1132
 
1133
      --  Initialize the filters
1134
 
1135
      Descriptor.Filters := null;
1136
   end Non_Blocking_Spawn;
1137
 
1138
   -------------------------
1139
   -- Reinitialize_Buffer --
1140
   -------------------------
1141
 
1142
   procedure Reinitialize_Buffer
1143
     (Descriptor : in out Process_Descriptor'Class)
1144
   is
1145
   begin
1146
      if Descriptor.Buffer_Size = 0 then
1147
         declare
1148
            Tmp : String_Access := Descriptor.Buffer;
1149
 
1150
         begin
1151
            Descriptor.Buffer :=
1152
              new String
1153
                (1 .. Descriptor.Buffer_Index - Descriptor.Last_Match_End);
1154
 
1155
            if Tmp /= null then
1156
               Descriptor.Buffer.all := Tmp
1157
                 (Descriptor.Last_Match_End + 1 .. Descriptor.Buffer_Index);
1158
               Free (Tmp);
1159
            end if;
1160
         end;
1161
 
1162
         Descriptor.Buffer_Index := Descriptor.Buffer'Last;
1163
 
1164
      else
1165
         Descriptor.Buffer
1166
           (1 .. Descriptor.Buffer_Index - Descriptor.Last_Match_End) :=
1167
             Descriptor.Buffer
1168
               (Descriptor.Last_Match_End + 1 .. Descriptor.Buffer_Index);
1169
 
1170
         if Descriptor.Buffer_Index > Descriptor.Last_Match_End then
1171
            Descriptor.Buffer_Index :=
1172
              Descriptor.Buffer_Index - Descriptor.Last_Match_End;
1173
         else
1174
            Descriptor.Buffer_Index := 0;
1175
         end if;
1176
      end if;
1177
 
1178
      Descriptor.Last_Match_Start := 0;
1179
      Descriptor.Last_Match_End := 0;
1180
   end Reinitialize_Buffer;
1181
 
1182
   -------------------
1183
   -- Remove_Filter --
1184
   -------------------
1185
 
1186
   procedure Remove_Filter
1187
     (Descriptor : in out Process_Descriptor;
1188
      Filter     : Filter_Function)
1189
   is
1190
      Previous : Filter_List := null;
1191
      Current  : Filter_List := Descriptor.Filters;
1192
 
1193
   begin
1194
      while Current /= null loop
1195
         if Current.Filter = Filter then
1196
            if Previous = null then
1197
               Descriptor.Filters := Current.Next;
1198
            else
1199
               Previous.Next := Current.Next;
1200
            end if;
1201
         end if;
1202
 
1203
         Previous := Current;
1204
         Current := Current.Next;
1205
      end loop;
1206
   end Remove_Filter;
1207
 
1208
   ----------
1209
   -- Send --
1210
   ----------
1211
 
1212
   procedure Send
1213
     (Descriptor   : in out Process_Descriptor;
1214
      Str          : String;
1215
      Add_LF       : Boolean := True;
1216
      Empty_Buffer : Boolean := False)
1217
   is
1218
      Line_Feed   : aliased constant String := (1 .. 1 => ASCII.LF);
1219
      Descriptors : Array_Of_Pd := (1 => Descriptor'Unrestricted_Access);
1220
 
1221
      Result  : Expect_Match;
1222
      Discard : Natural;
1223
      pragma Warnings (Off, Result);
1224
      pragma Warnings (Off, Discard);
1225
 
1226
   begin
1227
      if Empty_Buffer then
1228
 
1229
         --  Force a read on the process if there is anything waiting
1230
 
1231
         Expect_Internal
1232
           (Descriptors, Result, Timeout => 0, Full_Buffer => False);
1233
 
1234
         if Result = Expect_Internal_Error
1235
           or else Result = Expect_Process_Died
1236
         then
1237
            raise Process_Died;
1238
         end if;
1239
 
1240
         Descriptor.Last_Match_End := Descriptor.Buffer_Index;
1241
 
1242
         --  Empty the buffer
1243
 
1244
         Reinitialize_Buffer (Descriptor);
1245
      end if;
1246
 
1247
      Call_Filters (Descriptor, Str, Input);
1248
      Discard :=
1249
        Write (Descriptor.Input_Fd, Str'Address, Str'Last - Str'First + 1);
1250
 
1251
      if Add_LF then
1252
         Call_Filters (Descriptor, Line_Feed, Input);
1253
         Discard :=
1254
           Write (Descriptor.Input_Fd, Line_Feed'Address, 1);
1255
      end if;
1256
   end Send;
1257
 
1258
   -----------------
1259
   -- Send_Signal --
1260
   -----------------
1261
 
1262
   procedure Send_Signal
1263
     (Descriptor : Process_Descriptor;
1264
      Signal     : Integer)
1265
   is
1266
   begin
1267
      --  A nonpositive process id passed to kill has special meanings. For
1268
      --  example, -1 means kill all processes in sight, including self, in
1269
      --  POSIX and Windows (and something slightly different in Linux). See
1270
      --  man pages for details. In any case, we don't want to do that. Note
1271
      --  that Descriptor.Pid will be -1 if the process was not successfully
1272
      --  started; we don't want to kill ourself in that case.
1273
 
1274
      if Descriptor.Pid > 0 then
1275
         Kill (Descriptor.Pid, Signal, Close => 1);
1276
         --  ??? Need to check process status here
1277
      else
1278
         raise Invalid_Process;
1279
      end if;
1280
   end Send_Signal;
1281
 
1282
   ---------------------------------
1283
   -- Set_Up_Child_Communications --
1284
   ---------------------------------
1285
 
1286
   procedure Set_Up_Child_Communications
1287
     (Pid   : in out Process_Descriptor;
1288
      Pipe1 : in out Pipe_Type;
1289
      Pipe2 : in out Pipe_Type;
1290
      Pipe3 : in out Pipe_Type;
1291
      Cmd   : String;
1292
      Args  : System.Address)
1293
   is
1294
      pragma Warnings (Off, Pid);
1295
      pragma Warnings (Off, Pipe1);
1296
      pragma Warnings (Off, Pipe2);
1297
      pragma Warnings (Off, Pipe3);
1298
 
1299
      Input  : File_Descriptor;
1300
      Output : File_Descriptor;
1301
      Error  : File_Descriptor;
1302
 
1303
      No_Fork_On_Target : constant Boolean := Target_OS = Windows;
1304
 
1305
   begin
1306
      if No_Fork_On_Target then
1307
 
1308
         --  Since Windows does not have a separate fork/exec, we need to
1309
         --  perform the following actions:
1310
 
1311
         --    - save stdin, stdout, stderr
1312
         --    - replace them by our pipes
1313
         --    - create the child with process handle inheritance
1314
         --    - revert to the previous stdin, stdout and stderr.
1315
 
1316
         Input  := Dup (GNAT.OS_Lib.Standin);
1317
         Output := Dup (GNAT.OS_Lib.Standout);
1318
         Error  := Dup (GNAT.OS_Lib.Standerr);
1319
      end if;
1320
 
1321
      --  Since we are still called from the parent process, there is no way
1322
      --  currently we can cleanly close the unneeded ends of the pipes, but
1323
      --  this doesn't really matter.
1324
 
1325
      --  We could close Pipe1.Output, Pipe2.Input, Pipe3.Input
1326
 
1327
      Dup2 (Pipe1.Input,  GNAT.OS_Lib.Standin);
1328
      Dup2 (Pipe2.Output, GNAT.OS_Lib.Standout);
1329
      Dup2 (Pipe3.Output, GNAT.OS_Lib.Standerr);
1330
 
1331
      Portable_Execvp (Pid.Pid'Access, Cmd & ASCII.NUL, Args);
1332
 
1333
      --  The following commands are not executed on Unix systems, and are only
1334
      --  required for Windows systems. We are now in the parent process.
1335
 
1336
      --  Restore the old descriptors
1337
 
1338
      Dup2 (Input,  GNAT.OS_Lib.Standin);
1339
      Dup2 (Output, GNAT.OS_Lib.Standout);
1340
      Dup2 (Error,  GNAT.OS_Lib.Standerr);
1341
      Close (Input);
1342
      Close (Output);
1343
      Close (Error);
1344
   end Set_Up_Child_Communications;
1345
 
1346
   ---------------------------
1347
   -- Set_Up_Communications --
1348
   ---------------------------
1349
 
1350
   procedure Set_Up_Communications
1351
     (Pid        : in out Process_Descriptor;
1352
      Err_To_Out : Boolean;
1353
      Pipe1      : not null access Pipe_Type;
1354
      Pipe2      : not null access Pipe_Type;
1355
      Pipe3      : not null access Pipe_Type)
1356
   is
1357
      Status : Boolean;
1358
      pragma Unreferenced (Status);
1359
 
1360
   begin
1361
      --  Create the pipes
1362
 
1363
      if Create_Pipe (Pipe1) /= 0 then
1364
         return;
1365
      end if;
1366
 
1367
      if Create_Pipe (Pipe2) /= 0 then
1368
         return;
1369
      end if;
1370
 
1371
      --  Record the 'parent' end of the two pipes in Pid:
1372
      --    Child stdin  is connected to the 'write' end of Pipe1;
1373
      --    Child stdout is connected to the 'read'  end of Pipe2.
1374
      --  We do not want these descriptors to remain open in the child
1375
      --  process, so we mark them close-on-exec/non-inheritable.
1376
 
1377
      Pid.Input_Fd  := Pipe1.Output;
1378
      Set_Close_On_Exec (Pipe1.Output, True, Status);
1379
      Pid.Output_Fd := Pipe2.Input;
1380
      Set_Close_On_Exec (Pipe2.Input, True, Status);
1381
 
1382
      if Err_To_Out then
1383
 
1384
         --  Reuse the standard output pipe for standard error
1385
 
1386
         Pipe3.all := Pipe2.all;
1387
 
1388
      else
1389
         --  Create a separate pipe for standard error
1390
 
1391
         if Create_Pipe (Pipe3) /= 0 then
1392
            return;
1393
         end if;
1394
      end if;
1395
 
1396
      --  As above, record the proper fd for the child's standard error stream
1397
 
1398
      Pid.Error_Fd := Pipe3.Input;
1399
      Set_Close_On_Exec (Pipe3.Input, True, Status);
1400
   end Set_Up_Communications;
1401
 
1402
   ----------------------------------
1403
   -- Set_Up_Parent_Communications --
1404
   ----------------------------------
1405
 
1406
   procedure Set_Up_Parent_Communications
1407
     (Pid   : in out Process_Descriptor;
1408
      Pipe1 : in out Pipe_Type;
1409
      Pipe2 : in out Pipe_Type;
1410
      Pipe3 : in out Pipe_Type)
1411
   is
1412
      pragma Warnings (Off, Pid);
1413
      pragma Warnings (Off, Pipe1);
1414
      pragma Warnings (Off, Pipe2);
1415
      pragma Warnings (Off, Pipe3);
1416
 
1417
   begin
1418
      Close (Pipe1.Input);
1419
      Close (Pipe2.Output);
1420
 
1421
      if Pipe3.Output /= Pipe2.Output then
1422
         Close (Pipe3.Output);
1423
      end if;
1424
   end Set_Up_Parent_Communications;
1425
 
1426
   ------------------
1427
   -- Trace_Filter --
1428
   ------------------
1429
 
1430
   procedure Trace_Filter
1431
     (Descriptor : Process_Descriptor'Class;
1432
      Str        : String;
1433
      User_Data  : System.Address := System.Null_Address)
1434
   is
1435
      pragma Warnings (Off, Descriptor);
1436
      pragma Warnings (Off, User_Data);
1437
   begin
1438
      GNAT.IO.Put (Str);
1439
   end Trace_Filter;
1440
 
1441
   --------------------
1442
   -- Unlock_Filters --
1443
   --------------------
1444
 
1445
   procedure Unlock_Filters (Descriptor : in out Process_Descriptor) is
1446
   begin
1447
      if Descriptor.Filters_Lock > 0 then
1448
         Descriptor.Filters_Lock := Descriptor.Filters_Lock - 1;
1449
      end if;
1450
   end Unlock_Filters;
1451
 
1452
end GNAT.Expect;

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