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------------------------------------------------------------------------------
-- --
-- GNU ADA RUN-TIME LIBRARY (GNARL) COMPONENTS --
-- --
-- S Y S T E M . O S _ I N T E R F A C E --
-- --
-- S p e c --
-- --
-- $Revision$
-- --
-- Copyright (C) 1997-2001 Free Software Foundation, Inc. --
-- --
-- GNARL is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNARL is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNARL; see file COPYING. If not, write --
-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
-- MA 02111-1307, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNARL was developed by the GNARL team at Florida State University. It is --
-- now maintained by Ada Core Technologies Inc. in cooperation with Florida --
-- State University (http://www.gnat.com). --
-- --
------------------------------------------------------------------------------
-- This is the VxWorks version of this package.
--
-- VxWorks does not directly support the needed POSIX routines, but it
-- does have other routines that make it possible to code equivalent
-- POSIX compliant routines. The approach taken is to provide an
-- FSU threads compliant interface.
-- This package encapsulates all direct interfaces to OS services
-- that are needed by children of System.
-- PLEASE DO NOT add any with-clauses to this package
-- or remove the pragma Elaborate_Body.
-- It is designed to be a bottom-level (leaf) package.
with Interfaces.C;
with System.VxWorks;
package System.OS_Interface is
pragma Preelaborate;
subtype int is Interfaces.C.int;
subtype short is Interfaces.C.short;
subtype long is Interfaces.C.long;
subtype unsigned is Interfaces.C.unsigned;
subtype unsigned_short is Interfaces.C.unsigned_short;
subtype unsigned_long is Interfaces.C.unsigned_long;
subtype unsigned_char is Interfaces.C.unsigned_char;
subtype plain_char is Interfaces.C.plain_char;
subtype size_t is Interfaces.C.size_t;
subtype char is Interfaces.C.char;
-----------
-- Errno --
-----------
function errno return int;
pragma Import (C, errno, "errnoGet");
EINTR : constant := 4;
EAGAIN : constant := 35;
ENOMEM : constant := 12;
EINVAL : constant := 22;
ETIMEDOUT : constant := 60;
FUNC_ERR : constant := -1;
----------------------------
-- Signals and Interrupts --
----------------------------
-- In order to support both signal and hardware interrupt handling,
-- the ranges of "interrupt IDs" for the vectored hardware interrupts
-- and the signals are catenated. In other words, the external IDs
-- used to designate signals are relocated beyond the range of the
-- vectored interrupts. The IDs given in Ada.Interrupts.Names should
-- be used to designate signals; vectored interrupts are designated
-- by their interrupt number.
NSIG : constant := 32;
-- Number of signals on the target OS
type Signal is new int range 0 .. Interfaces.C."-" (NSIG, 1);
Max_HW_Interrupt : constant := System.VxWorks.Num_HW_Interrupts - 1;
type HW_Interrupt is new int range 0 .. Max_HW_Interrupt;
Max_Interrupt : constant := Max_HW_Interrupt + NSIG;
SIGILL : constant := 4; -- illegal instruction (not reset)
SIGABRT : constant := 6; -- used by abort, replace SIGIOT in the future
SIGFPE : constant := 8; -- floating point exception
SIGBUS : constant := 10; -- bus error
SIGSEGV : constant := 11; -- segmentation violation
-----------------------------------
-- Signal processing definitions --
-----------------------------------
-- The how in sigprocmask().
SIG_BLOCK : constant := 1;
SIG_UNBLOCK : constant := 2;
SIG_SETMASK : constant := 3;
-- The sa_flags in struct sigaction.
SA_SIGINFO : constant := 16#0002#;
SA_ONSTACK : constant := 16#0004#;
-- ANSI args and returns from signal().
SIG_DFL : constant := 0;
SIG_IGN : constant := 1;
type sigset_t is private;
type struct_sigaction is record
sa_handler : System.Address;
sa_mask : sigset_t;
sa_flags : int;
end record;
pragma Convention (C, struct_sigaction);
type struct_sigaction_ptr is access all struct_sigaction;
function sigaddset (set : access sigset_t; sig : Signal) return int;
pragma Import (C, sigaddset, "sigaddset");
function sigdelset (set : access sigset_t; sig : Signal) return int;
pragma Import (C, sigdelset, "sigdelset");
function sigfillset (set : access sigset_t) return int;
pragma Import (C, sigfillset, "sigfillset");
function sigismember (set : access sigset_t; sig : Signal) return int;
pragma Import (C, sigismember, "sigismember");
function sigemptyset (set : access sigset_t) return int;
pragma Import (C, sigemptyset, "sigemptyset");
function sigaction
(sig : Signal;
act : struct_sigaction_ptr;
oact : struct_sigaction_ptr) return int;
pragma Import (C, sigaction, "sigaction");
type isr_address is access procedure (sig : int);
function c_signal (sig : Signal; handler : isr_address) return isr_address;
pragma Import (C, c_signal, "signal");
function sigwait (set : access sigset_t; sig : access Signal) return int;
pragma Inline (sigwait);
type sigset_t_ptr is access all sigset_t;
function pthread_sigmask
(how : int;
set : sigset_t_ptr;
oset : sigset_t_ptr) return int;
pragma Import (C, pthread_sigmask, "sigprocmask");
----------
-- Time --
----------
type time_t is new unsigned_long;
type timespec is record
ts_sec : time_t;
ts_nsec : long;
end record;
pragma Convention (C, timespec);
type clockid_t is private;
CLOCK_REALTIME : constant clockid_t; -- System wide realtime clock
function To_Duration (TS : timespec) return Duration;
pragma Inline (To_Duration);
function To_Timespec (D : Duration) return timespec;
pragma Inline (To_Timespec);
function To_Clock_Ticks (D : Duration) return int;
-- Convert a duration value (in seconds) into clock ticks.
function clock_gettime
(clock_id : clockid_t; tp : access timespec) return int;
pragma Import (C, clock_gettime, "clock_gettime");
-------------------------
-- Priority Scheduling --
-------------------------
-- Scheduling policies.
SCHED_FIFO : constant := 1;
SCHED_RR : constant := 2;
SCHED_OTHER : constant := 4;
-------------
-- Threads --
-------------
type Thread_Body is access
function (arg : System.Address) return System.Address;
type pthread_t is private;
subtype Thread_Id is pthread_t;
null_pthread : constant pthread_t;
type pthread_mutex_t is limited private;
type pthread_cond_t is limited private;
type pthread_attr_t is limited private;
type pthread_mutexattr_t is limited private;
type pthread_condattr_t is limited private;
type pthread_key_t is private;
PTHREAD_CREATE_DETACHED : constant := 0;
PTHREAD_CREATE_JOINABLE : constant := 1;
function kill (pid : pthread_t; sig : Signal) return int;
pragma Import (C, kill, "kill");
-- VxWorks doesn't have getpid; taskIdSelf is the equivalent
-- routine.
function getpid return pthread_t;
pragma Import (C, getpid, "taskIdSelf");
---------------------------------
-- Nonstandard Thread Routines --
---------------------------------
procedure pthread_init;
pragma Inline (pthread_init);
-- Vxworks requires this for the moment.
function taskIdSelf return pthread_t;
pragma Import (C, taskIdSelf, "taskIdSelf");
function taskSuspend (tid : pthread_t) return int;
pragma Import (C, taskSuspend, "taskSuspend");
function taskResume (tid : pthread_t) return int;
pragma Import (C, taskResume, "taskResume");
function taskIsSuspended (tid : pthread_t) return int;
pragma Import (C, taskIsSuspended, "taskIsSuspended");
function taskVarAdd
(tid : pthread_t;
pVar : access System.Address) return int;
pragma Import (C, taskVarAdd, "taskVarAdd");
function taskVarDelete
(tid : pthread_t;
pVar : access System.Address) return int;
pragma Import (C, taskVarDelete, "taskVarDelete");
function taskVarSet
(tid : pthread_t;
pVar : access System.Address;
value : System.Address) return int;
pragma Import (C, taskVarSet, "taskVarSet");
function taskVarGet
(tid : pthread_t;
pVar : access System.Address) return int;
pragma Import (C, taskVarGet, "taskVarGet");
function taskInfoGet
(tid : pthread_t;
pTaskDesc : access System.VxWorks.TASK_DESC) return int;
pragma Import (C, taskInfoGet, "taskInfoGet");
function taskDelay (ticks : int) return int;
pragma Import (C, taskDelay, "taskDelay");
function sysClkRateGet return int;
pragma Import (C, sysClkRateGet, "sysClkRateGet");
--------------------------
-- POSIX.1c Section 11 --
--------------------------
function pthread_mutexattr_init
(attr : access pthread_mutexattr_t) return int;
pragma Inline (pthread_mutexattr_init);
function pthread_mutexattr_destroy
(attr : access pthread_mutexattr_t) return int;
pragma Inline (pthread_mutexattr_destroy);
function pthread_mutex_init
(mutex : access pthread_mutex_t;
attr : access pthread_mutexattr_t) return int;
pragma Inline (pthread_mutex_init);
function pthread_mutex_destroy (mutex : access pthread_mutex_t) return int;
pragma Inline (pthread_mutex_destroy);
function pthread_mutex_lock (mutex : access pthread_mutex_t) return int;
pragma Inline (pthread_mutex_lock);
function pthread_mutex_unlock (mutex : access pthread_mutex_t) return int;
pragma Inline (pthread_mutex_unlock);
function pthread_condattr_init
(attr : access pthread_condattr_t) return int;
pragma Inline (pthread_condattr_init);
function pthread_condattr_destroy
(attr : access pthread_condattr_t) return int;
pragma Inline (pthread_condattr_destroy);
function pthread_cond_init
(cond : access pthread_cond_t;
attr : access pthread_condattr_t) return int;
pragma Inline (pthread_cond_init);
function pthread_cond_destroy (cond : access pthread_cond_t) return int;
pragma Inline (pthread_cond_destroy);
function pthread_cond_signal (cond : access pthread_cond_t) return int;
pragma Inline (pthread_cond_signal);
function pthread_cond_wait
(cond : access pthread_cond_t;
mutex : access pthread_mutex_t) return int;
pragma Inline (pthread_cond_wait);
function pthread_cond_timedwait
(cond : access pthread_cond_t;
mutex : access pthread_mutex_t;
abstime : access timespec) return int;
pragma Inline (pthread_cond_timedwait);
--------------------------
-- POSIX.1c Section 13 --
--------------------------
PTHREAD_PRIO_NONE : constant := 0;
PTHREAD_PRIO_PROTECT : constant := 2;
PTHREAD_PRIO_INHERIT : constant := 1;
function pthread_mutexattr_setprotocol
(attr : access pthread_mutexattr_t;
protocol : int) return int;
pragma Inline (pthread_mutexattr_setprotocol);
function pthread_mutexattr_setprioceiling
(attr : access pthread_mutexattr_t;
prioceiling : int) return int;
pragma Inline (pthread_mutexattr_setprioceiling);
type struct_sched_param is record
sched_priority : int;
end record;
function pthread_setschedparam
(thread : pthread_t;
policy : int;
param : access struct_sched_param) return int;
pragma Inline (pthread_setschedparam);
function sched_yield return int;
pragma Inline (sched_yield);
function pthread_sched_rr_set_interval (usecs : int) return int;
pragma Inline (pthread_sched_rr_set_interval);
---------------------------
-- P1003.1c - Section 16 --
---------------------------
function pthread_attr_init (attr : access pthread_attr_t) return int;
pragma Inline (pthread_attr_init);
function pthread_attr_destroy (attr : access pthread_attr_t) return int;
pragma Inline (pthread_attr_destroy);
function pthread_attr_setdetachstate
(attr : access pthread_attr_t;
detachstate : int) return int;
pragma Inline (pthread_attr_setdetachstate);
function pthread_attr_setstacksize
(attr : access pthread_attr_t;
stacksize : size_t) return int;
pragma Inline (pthread_attr_setstacksize);
function pthread_attr_setname_np
(attr : access pthread_attr_t;
name : System.Address) return int;
-- In VxWorks tasks, we have a non-portable routine to set the
-- task name. This makes it really convenient for debugging.
pragma Inline (pthread_attr_setname_np);
function pthread_create
(thread : access pthread_t;
attr : access pthread_attr_t;
start_routine : Thread_Body;
arg : System.Address) return int;
pragma Inline (pthread_create);
function pthread_detach (thread : pthread_t) return int;
pragma Inline (pthread_detach);
procedure pthread_exit (status : System.Address);
pragma Inline (pthread_exit);
function pthread_self return pthread_t;
pragma Inline (pthread_self);
function pthread_equal (t1 : pthread_t; t2 : pthread_t) return int;
pragma Inline (pthread_equal);
-- be careful not to use "=" on thread_t!
--------------------------
-- POSIX.1c Section 17 --
--------------------------
function pthread_setspecific
(key : pthread_key_t;
value : System.Address) return int;
pragma Inline (pthread_setspecific);
function pthread_getspecific (key : pthread_key_t) return System.Address;
pragma Inline (pthread_getspecific);
type destructor_pointer is access procedure (arg : System.Address);
function pthread_key_create
(key : access pthread_key_t;
destructor : destructor_pointer) return int;
pragma Inline (pthread_key_create);
-- VxWorks binary semaphores. These are exported for use by the
-- implementation of hardware interrupt handling.
subtype STATUS is int;
-- Equivalent of the C type STATUS
OK : constant STATUS := 0;
ERROR : constant STATUS := Interfaces.C."-" (1);
-- Semaphore creation flags.
SEM_Q_FIFO : constant := 0;
SEM_Q_PRIORITY : constant := 1;
SEM_DELETE_SAFE : constant := 4; -- only valid for binary semaphore
SEM_INVERSION_SAFE : constant := 8; -- only valid for binary semaphore
-- Semaphore initial state flags;
SEM_EMPTY : constant := 0;
SEM_FULL : constant := 1;
-- Semaphore take (semTake) time constants.
WAIT_FOREVER : constant := -1;
NO_WAIT : constant := 0;
type SEM_ID is new long;
-- The VxWorks semaphore ID is an integer which is really just
-- a pointer to a semaphore structure.
function semBCreate (Options : int; Initial_State : int) return SEM_ID;
-- Create a binary semaphore. Returns ID, or 0 if memory could not
-- be allocated
pragma Import (C, semBCreate, "semBCreate");
function semTake (SemID : SEM_ID; Timeout : int) return STATUS;
-- Attempt to take binary semaphore. Error is returned if operation
-- times out
pragma Import (C, semTake, "semTake");
function semGive (SemID : SEM_ID) return STATUS;
-- Release one thread blocked on the semaphore
pragma Import (C, semGive, "semGive");
function semFlush (SemID : SEM_ID) return STATUS;
-- Release all threads blocked on the semaphore
pragma Import (C, semFlush, "semFlush");
function semDelete (SemID : SEM_ID) return STATUS;
-- Delete a semaphore
pragma Import (C, semDelete, "semDelete");
private
-- This interface assumes that "unsigned" and "int" are 32-bit entities.
type sigset_t is new long;
type pid_t is new int;
ERROR_PID : constant pid_t := -1;
type clockid_t is new int;
CLOCK_REALTIME : constant clockid_t := 0;
-- Priority ceilings are now implemented in the body of
-- this package.
type pthread_mutexattr_t is record
Flags : int; -- mutex semaphore creation flags
Prio_Ceiling : int; -- priority ceiling
Protocol : int;
end record;
type pthread_mutex_t is record
Mutex : SEM_ID;
Protocol : int;
Prio_Ceiling : int; -- priority ceiling of lock
end record;
type pthread_condattr_t is record
Flags : int;
end record;
type pthread_cond_t is record
Sem : SEM_ID; -- VxWorks semaphore ID
Waiting : Integer; -- Number of queued tasks waiting
end record;
type pthread_attr_t is record
Stacksize : size_t;
Detachstate : int;
Priority : int;
Taskname : System.Address;
end record;
type pthread_t is new long;
null_pthread : constant pthread_t := 0;
type pthread_key_t is new int;
-- These are to store the pthread_keys that are created with
-- pthread_key_create. Currently, we only need one key.
Key_Storage : array (1 .. 10) of aliased System.Address;
Keys_Created : Integer;
Time_Slice : int;
end System.OS_Interface;
|