1 ------------------------------------------------------------------------------
3 -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS --
5 -- S Y S T E M . O S _ I N T E R F A C E --
9 -- Copyright (C) 1991-1994, Florida State University --
10 -- Copyright (C) 1995-2013, Free Software Foundation, Inc. --
12 -- GNAT is free software; you can redistribute it and/or modify it under --
13 -- terms of the GNU General Public License as published by the Free Soft- --
14 -- ware Foundation; either version 3, or (at your option) any later ver- --
15 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
16 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
17 -- or FITNESS FOR A PARTICULAR PURPOSE. --
19 -- As a special exception under Section 7 of GPL version 3, you are granted --
20 -- additional permissions described in the GCC Runtime Library Exception, --
21 -- version 3.1, as published by the Free Software Foundation. --
23 -- You should have received a copy of the GNU General Public License and --
24 -- a copy of the GCC Runtime Library Exception along with this program; --
25 -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
26 -- <http://www.gnu.org/licenses/>. --
28 -- GNARL was developed by the GNARL team at Florida State University. --
29 -- Extensive contributions were provided by Ada Core Technologies, Inc. --
31 ------------------------------------------------------------------------------
33 -- This is a HPUX 11.0 (Native THREADS) version of this package
35 -- This package encapsulates all direct interfaces to OS services that are
36 -- needed by the tasking run-time (libgnarl).
38 -- PLEASE DO NOT add any with-clauses to this package or remove the pragma
39 -- Preelaborate. This package is designed to be a bottom-level (leaf) package.
41 with Ada
.Unchecked_Conversion
;
45 package System
.OS_Interface
is
48 pragma Linker_Options
("-lpthread");
50 subtype int
is Interfaces
.C
.int
;
51 subtype short
is Interfaces
.C
.short
;
52 subtype long
is Interfaces
.C
.long
;
53 subtype unsigned
is Interfaces
.C
.unsigned
;
54 subtype unsigned_short
is Interfaces
.C
.unsigned_short
;
55 subtype unsigned_long
is Interfaces
.C
.unsigned_long
;
56 subtype unsigned_char
is Interfaces
.C
.unsigned_char
;
57 subtype plain_char
is Interfaces
.C
.plain_char
;
58 subtype size_t
is Interfaces
.C
.size_t
;
64 function errno
return int
;
65 pragma Import
(C
, errno
, "__get_errno");
67 EAGAIN
: constant := 11;
68 EINTR
: constant := 4;
69 EINVAL
: constant := 22;
70 ENOMEM
: constant := 12;
71 ETIMEDOUT
: constant := 238;
77 Max_Interrupt
: constant := 44;
78 type Signal
is new int
range 0 .. Max_Interrupt
;
79 for Signal
'Size use int
'Size;
81 SIGHUP
: constant := 1; -- hangup
82 SIGINT
: constant := 2; -- interrupt (rubout)
83 SIGQUIT
: constant := 3; -- quit (ASCD FS)
84 SIGILL
: constant := 4; -- illegal instruction (not reset)
85 SIGTRAP
: constant := 5; -- trace trap (not reset)
86 SIGIOT
: constant := 6; -- IOT instruction
87 SIGABRT
: constant := 6; -- used by abort, replace SIGIOT in the future
88 SIGEMT
: constant := 7; -- EMT instruction
89 SIGFPE
: constant := 8; -- floating point exception
90 SIGKILL
: constant := 9; -- kill (cannot be caught or ignored)
91 SIGBUS
: constant := 10; -- bus error
92 SIGSEGV
: constant := 11; -- segmentation violation
93 SIGSYS
: constant := 12; -- bad argument to system call
94 SIGPIPE
: constant := 13; -- write on a pipe with no one to read it
95 SIGALRM
: constant := 14; -- alarm clock
96 SIGTERM
: constant := 15; -- software termination signal from kill
97 SIGUSR1
: constant := 16; -- user defined signal 1
98 SIGUSR2
: constant := 17; -- user defined signal 2
99 SIGCLD
: constant := 18; -- alias for SIGCHLD
100 SIGCHLD
: constant := 18; -- child status change
101 SIGPWR
: constant := 19; -- power-fail restart
102 SIGVTALRM
: constant := 20; -- virtual timer alarm
103 SIGPROF
: constant := 21; -- profiling timer alarm
104 SIGIO
: constant := 22; -- asynchronous I/O
105 SIGPOLL
: constant := 22; -- pollable event occurred
106 SIGWINCH
: constant := 23; -- window size change
107 SIGSTOP
: constant := 24; -- stop (cannot be caught or ignored)
108 SIGTSTP
: constant := 25; -- user stop requested from tty
109 SIGCONT
: constant := 26; -- stopped process has been continued
110 SIGTTIN
: constant := 27; -- background tty read attempted
111 SIGTTOU
: constant := 28; -- background tty write attempted
112 SIGURG
: constant := 29; -- urgent condition on IO channel
113 SIGLOST
: constant := 30; -- remote lock lost (NFS)
114 SIGDIL
: constant := 32; -- DIL signal
115 SIGXCPU
: constant := 33; -- CPU time limit exceeded (setrlimit)
116 SIGXFSZ
: constant := 34; -- file size limit exceeded (setrlimit)
117 SIGCANCEL
: constant := 35; -- used for pthread cancellation.
118 SIGGFAULT
: constant := 36; -- Graphics framebuffer fault
120 SIGADAABORT
: constant := SIGABRT
;
121 -- Note: on other targets, we usually use SIGABRT, but on HPUX, it
122 -- appears that SIGABRT can't be used in sigwait(), so we use SIGTERM.
123 -- Do we use SIGTERM or SIGABRT???
125 type Signal_Set
is array (Natural range <>) of Signal
;
127 Unmasked
: constant Signal_Set
:=
128 (SIGABRT
, SIGPIPE
, SIGBUS
, SIGTRAP
, SIGTTIN
, SIGTTOU
, SIGTSTP
, SIGPROF
,
129 SIGALRM
, SIGVTALRM
, SIGIO
, SIGCHLD
);
131 Reserved
: constant Signal_Set
:= (SIGKILL
, SIGSTOP
);
133 type sigset_t
is private;
135 function sigaddset
(set
: access sigset_t
; sig
: Signal
) return int
;
136 pragma Import
(C
, sigaddset
, "sigaddset");
138 function sigdelset
(set
: access sigset_t
; sig
: Signal
) return int
;
139 pragma Import
(C
, sigdelset
, "sigdelset");
141 function sigfillset
(set
: access sigset_t
) return int
;
142 pragma Import
(C
, sigfillset
, "sigfillset");
144 function sigismember
(set
: access sigset_t
; sig
: Signal
) return int
;
145 pragma Import
(C
, sigismember
, "sigismember");
147 function sigemptyset
(set
: access sigset_t
) return int
;
148 pragma Import
(C
, sigemptyset
, "sigemptyset");
150 type struct_sigaction
is record
151 sa_handler
: System
.Address
;
155 pragma Convention
(C
, struct_sigaction
);
156 type struct_sigaction_ptr
is access all struct_sigaction
;
158 SA_SIGINFO
: constant := 16#
10#
;
159 SA_ONSTACK
: constant := 16#
01#
;
161 SIG_BLOCK
: constant := 0;
162 SIG_UNBLOCK
: constant := 1;
163 SIG_SETMASK
: constant := 2;
165 SIG_DFL
: constant := 0;
166 SIG_IGN
: constant := 1;
170 act
: struct_sigaction_ptr
;
171 oact
: struct_sigaction_ptr
) return int
;
172 pragma Import
(C
, sigaction
, "sigaction");
178 Time_Slice_Supported
: constant Boolean := True;
179 -- Indicates whether time slicing is supported
181 type timespec
is private;
183 type clockid_t
is new int
;
185 function clock_gettime
186 (clock_id
: clockid_t
;
187 tp
: access timespec
) return int
;
188 pragma Import
(C
, clock_gettime
, "clock_gettime");
190 function clock_getres
191 (clock_id
: clockid_t
;
192 res
: access timespec
) return int
;
193 pragma Import
(C
, clock_getres
, "clock_getres");
195 function To_Duration
(TS
: timespec
) return Duration;
196 pragma Inline
(To_Duration
);
198 function To_Timespec
(D
: Duration) return timespec
;
199 pragma Inline
(To_Timespec
);
201 type struct_timezone
is record
202 tz_minuteswest
: int
;
205 pragma Convention
(C
, struct_timezone
);
206 type struct_timezone_ptr
is access all struct_timezone
;
208 -------------------------
209 -- Priority Scheduling --
210 -------------------------
212 SCHED_FIFO
: constant := 0;
213 SCHED_RR
: constant := 1;
214 SCHED_OTHER
: constant := 2;
216 function To_Target_Priority
217 (Prio
: System
.Any_Priority
) return Interfaces
.C
.int
;
218 -- Maps System.Any_Priority to a POSIX priority
224 type pid_t
is private;
226 function kill
(pid
: pid_t
; sig
: Signal
) return int
;
227 pragma Import
(C
, kill
, "kill");
229 function getpid
return pid_t
;
230 pragma Import
(C
, getpid
, "getpid");
236 function lwp_self
return System
.Address
;
237 pragma Import
(C
, lwp_self
, "_lwp_self");
243 type Thread_Body
is access
244 function (arg
: System
.Address
) return System
.Address
;
245 pragma Convention
(C
, Thread_Body
);
247 function Thread_Body_Access
is new
248 Ada
.Unchecked_Conversion
(System
.Address
, Thread_Body
);
250 type pthread_t
is private;
251 subtype Thread_Id
is pthread_t
;
253 type pthread_mutex_t
is limited private;
254 type pthread_cond_t
is limited private;
255 type pthread_attr_t
is limited private;
256 type pthread_mutexattr_t
is limited private;
257 type pthread_condattr_t
is limited private;
258 type pthread_key_t
is private;
260 PTHREAD_CREATE_DETACHED
: constant := 16#de#
;
262 PTHREAD_SCOPE_PROCESS
: constant := 2;
263 PTHREAD_SCOPE_SYSTEM
: constant := 1;
265 -- Read/Write lock not supported on HPUX. To add support both types
266 -- pthread_rwlock_t and pthread_rwlockattr_t must properly be defined
267 -- with the associated routines pthread_rwlock_[init/destroy] and
268 -- pthread_rwlock_[rdlock/wrlock/unlock].
270 subtype pthread_rwlock_t
is pthread_mutex_t
;
271 subtype pthread_rwlockattr_t
is pthread_mutexattr_t
;
277 type stack_t
is record
278 ss_sp
: System
.Address
;
282 pragma Convention
(C
, stack_t
);
285 (ss
: not null access stack_t
;
286 oss
: access stack_t
) return int
;
287 pragma Import
(C
, sigaltstack
, "sigaltstack");
289 Alternate_Stack
: aliased System
.Address
;
290 pragma Import
(C
, Alternate_Stack
, "__gnat_alternate_stack");
291 -- The alternate signal stack for stack overflows
293 Alternate_Stack_Size
: constant := 128 * 1024;
294 -- This must be in keeping with init.c:__gnat_alternate_stack
296 Stack_Base_Available
: constant Boolean := False;
297 -- Indicates whether the stack base is available on this target
299 function Get_Stack_Base
(thread
: pthread_t
) return Address
;
300 pragma Inline
(Get_Stack_Base
);
301 -- Returns the stack base of the specified thread. Only call this function
302 -- when Stack_Base_Available is True.
304 function Get_Page_Size
return size_t
;
305 function Get_Page_Size
return Address
;
306 pragma Import
(C
, Get_Page_Size
, "getpagesize");
307 -- Returns the size of a page
309 PROT_NONE
: constant := 0;
310 PROT_READ
: constant := 1;
311 PROT_WRITE
: constant := 2;
312 PROT_EXEC
: constant := 4;
313 PROT_ALL
: constant := PROT_READ
+ PROT_WRITE
+ PROT_EXEC
;
314 PROT_ON
: constant := PROT_READ
;
315 PROT_OFF
: constant := PROT_ALL
;
317 function mprotect
(addr
: Address
; len
: size_t
; prot
: int
) return int
;
318 pragma Import
(C
, mprotect
);
320 ---------------------------------------
321 -- Nonstandard Thread Initialization --
322 ---------------------------------------
324 procedure pthread_init
;
325 pragma Inline
(pthread_init
);
326 -- This is a dummy procedure to share some GNULLI files
328 -------------------------
329 -- POSIX.1c Section 3 --
330 -------------------------
333 (set
: access sigset_t
;
334 sig
: access Signal
) return int
;
335 pragma Import
(C
, sigwait
, "sigwait");
337 function pthread_kill
339 sig
: Signal
) return int
;
340 pragma Import
(C
, pthread_kill
, "pthread_kill");
342 function pthread_sigmask
344 set
: access sigset_t
;
345 oset
: access sigset_t
) return int
;
346 pragma Import
(C
, pthread_sigmask
, "pthread_sigmask");
348 --------------------------
349 -- POSIX.1c Section 11 --
350 --------------------------
352 function pthread_mutexattr_init
353 (attr
: access pthread_mutexattr_t
) return int
;
354 pragma Import
(C
, pthread_mutexattr_init
, "pthread_mutexattr_init");
356 function pthread_mutexattr_destroy
357 (attr
: access pthread_mutexattr_t
) return int
;
358 pragma Import
(C
, pthread_mutexattr_destroy
, "pthread_mutexattr_destroy");
360 function pthread_mutex_init
361 (mutex
: access pthread_mutex_t
;
362 attr
: access pthread_mutexattr_t
) return int
;
363 pragma Import
(C
, pthread_mutex_init
, "pthread_mutex_init");
365 function pthread_mutex_destroy
(mutex
: access pthread_mutex_t
) return int
;
366 pragma Import
(C
, pthread_mutex_destroy
, "pthread_mutex_destroy");
368 function pthread_mutex_lock
(mutex
: access pthread_mutex_t
) return int
;
369 pragma Import
(C
, pthread_mutex_lock
, "pthread_mutex_lock");
371 function pthread_mutex_unlock
(mutex
: access pthread_mutex_t
) return int
;
372 pragma Import
(C
, pthread_mutex_unlock
, "pthread_mutex_unlock");
374 function pthread_condattr_init
375 (attr
: access pthread_condattr_t
) return int
;
376 pragma Import
(C
, pthread_condattr_init
, "pthread_condattr_init");
378 function pthread_condattr_destroy
379 (attr
: access pthread_condattr_t
) return int
;
380 pragma Import
(C
, pthread_condattr_destroy
, "pthread_condattr_destroy");
382 function pthread_cond_init
383 (cond
: access pthread_cond_t
;
384 attr
: access pthread_condattr_t
) return int
;
385 pragma Import
(C
, pthread_cond_init
, "pthread_cond_init");
387 function pthread_cond_destroy
(cond
: access pthread_cond_t
) return int
;
388 pragma Import
(C
, pthread_cond_destroy
, "pthread_cond_destroy");
390 function pthread_cond_signal
(cond
: access pthread_cond_t
) return int
;
391 pragma Import
(C
, pthread_cond_signal
, "pthread_cond_signal");
393 function pthread_cond_wait
394 (cond
: access pthread_cond_t
;
395 mutex
: access pthread_mutex_t
) return int
;
396 pragma Import
(C
, pthread_cond_wait
, "pthread_cond_wait");
398 function pthread_cond_timedwait
399 (cond
: access pthread_cond_t
;
400 mutex
: access pthread_mutex_t
;
401 abstime
: access timespec
) return int
;
402 pragma Import
(C
, pthread_cond_timedwait
, "pthread_cond_timedwait");
404 Relative_Timed_Wait
: constant Boolean := False;
405 -- pthread_cond_timedwait requires an absolute delay time
407 --------------------------
408 -- POSIX.1c Section 13 --
409 --------------------------
411 PTHREAD_PRIO_NONE
: constant := 16#
100#
;
412 PTHREAD_PRIO_PROTECT
: constant := 16#
200#
;
413 PTHREAD_PRIO_INHERIT
: constant := 16#
400#
;
415 function pthread_mutexattr_setprotocol
416 (attr
: access pthread_mutexattr_t
;
417 protocol
: int
) return int
;
418 pragma Import
(C
, pthread_mutexattr_setprotocol
);
420 function pthread_mutexattr_setprioceiling
421 (attr
: access pthread_mutexattr_t
;
422 prioceiling
: int
) return int
;
423 pragma Import
(C
, pthread_mutexattr_setprioceiling
);
425 type Array_7_Int
is array (0 .. 6) of int
;
426 type struct_sched_param
is record
427 sched_priority
: int
;
428 sched_reserved
: Array_7_Int
;
431 function pthread_setschedparam
434 param
: access struct_sched_param
)
436 pragma Import
(C
, pthread_setschedparam
, "pthread_setschedparam");
438 function pthread_attr_setscope
439 (attr
: access pthread_attr_t
;
440 contentionscope
: int
) return int
;
441 pragma Import
(C
, pthread_attr_setscope
, "pthread_attr_setscope");
443 function pthread_attr_setinheritsched
444 (attr
: access pthread_attr_t
;
445 inheritsched
: int
) return int
;
446 pragma Import
(C
, pthread_attr_setinheritsched
);
448 function pthread_attr_setschedpolicy
449 (attr
: access pthread_attr_t
;
450 policy
: int
) return int
;
451 pragma Import
(C
, pthread_attr_setschedpolicy
);
453 function sched_yield
return int
;
454 pragma Import
(C
, sched_yield
, "sched_yield");
456 --------------------------
457 -- P1003.1c Section 16 --
458 --------------------------
460 function pthread_attr_init
461 (attributes
: access pthread_attr_t
) return int
;
462 pragma Import
(C
, pthread_attr_init
, "__pthread_attr_init_system");
464 function pthread_attr_destroy
465 (attributes
: access pthread_attr_t
) return int
;
466 pragma Import
(C
, pthread_attr_destroy
, "pthread_attr_destroy");
468 function pthread_attr_setdetachstate
469 (attr
: access pthread_attr_t
;
470 detachstate
: int
) return int
;
471 pragma Import
(C
, pthread_attr_setdetachstate
);
473 function pthread_attr_setstacksize
474 (attr
: access pthread_attr_t
;
475 stacksize
: size_t
) return int
;
476 pragma Import
(C
, pthread_attr_setstacksize
, "pthread_attr_setstacksize");
478 function pthread_create
479 (thread
: access pthread_t
;
480 attributes
: access pthread_attr_t
;
481 start_routine
: Thread_Body
;
482 arg
: System
.Address
) return int
;
483 pragma Import
(C
, pthread_create
, "__pthread_create_system");
485 procedure pthread_exit
(status
: System
.Address
);
486 pragma Import
(C
, pthread_exit
, "pthread_exit");
488 function pthread_self
return pthread_t
;
489 pragma Import
(C
, pthread_self
, "pthread_self");
491 --------------------------
492 -- POSIX.1c Section 17 --
493 --------------------------
495 function pthread_setspecific
496 (key
: pthread_key_t
;
497 value
: System
.Address
) return int
;
498 pragma Import
(C
, pthread_setspecific
, "pthread_setspecific");
500 function pthread_getspecific
(key
: pthread_key_t
) return System
.Address
;
501 pragma Import
(C
, pthread_getspecific
, "pthread_getspecific");
503 type destructor_pointer
is access procedure (arg
: System
.Address
);
504 pragma Convention
(C
, destructor_pointer
);
506 function pthread_key_create
507 (key
: access pthread_key_t
;
508 destructor
: destructor_pointer
) return int
;
509 pragma Import
(C
, pthread_key_create
, "pthread_key_create");
513 type unsigned_int_array_8
is array (0 .. 7) of unsigned
;
514 type sigset_t
is record
515 sigset
: unsigned_int_array_8
;
517 pragma Convention
(C_Pass_By_Copy
, sigset_t
);
519 type pid_t
is new int
;
521 type time_t
is new long
;
523 type timespec
is record
527 pragma Convention
(C
, timespec
);
529 type pthread_attr_t
is new int
;
530 type pthread_condattr_t
is new int
;
531 type pthread_mutexattr_t
is new int
;
532 type pthread_t
is new int
;
534 type short_array
is array (Natural range <>) of short
;
535 type int_array
is array (Natural range <>) of int
;
537 type pthread_mutex_t
is record
538 m_short
: short_array
(0 .. 1);
540 m_int1
: int_array
(0 .. 3);
544 -- actually m_ptr is a void*, and on 32 bit ABI, m_pad is added so that
545 -- this field takes 64 bits. On 64 bit ABI, m_pad is gone, and m_ptr is
546 -- a 64 bit void*. Assume int'Size = 32.
548 m_int2
: int_array
(0 .. 1);
549 m_int3
: int_array
(0 .. 3);
550 m_short2
: short_array
(0 .. 1);
551 m_int4
: int_array
(0 .. 4);
552 m_int5
: int_array
(0 .. 1);
554 for pthread_mutex_t
'Alignment use System
.Address
'Alignment;
555 pragma Convention
(C
, pthread_mutex_t
);
557 type pthread_cond_t
is record
558 c_short
: short_array
(0 .. 1);
560 c_int1
: int_array
(0 .. 3);
562 m_ptr
: int
; -- see comment in pthread_mutex_t
563 c_int2
: int_array
(0 .. 1);
564 c_int3
: int_array
(0 .. 1);
565 c_int4
: int_array
(0 .. 1);
567 for pthread_cond_t
'Alignment use System
.Address
'Alignment;
568 pragma Convention
(C
, pthread_cond_t
);
570 type pthread_key_t
is new int
;
572 end System
.OS_Interface
;