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[PATCH] PR ada/54040: [x32] Incorrect timeval and timespec


Hi,

X32 has

/* A time value that is accurate to the nearest
   microsecond but also has a range of years.  */
struct timeval
  {
    __time_t tv_sec;            /* Seconds.  */
    __suseconds_t tv_usec;      /* Microseconds.  */
  };  

and

struct timespec
  {
    __time_t tv_sec;            /* Seconds.  */
    __syscall_slong_t tv_nsec;  /* Nanoseconds.  */
  };

__time_t, __suseconds_t and __syscall_slong_t are 64-bit integers
in x32. But ada run-time assumes all of them are long, which is
32-bit for x32.

This patch copied the default Linux files and changed
timeval/timespec/time_t to uses 64-bit integers on x32. Tested on
x32 with Ada test results:

FAIL: gnat.dg/memtrap.adb (test for excess errors)
FAIL: gnat.dg/memtrap.adb scan-assembler __gnat_begin_handler|__gnat_raise_nodefer
FAIL: gnat.dg/specs/addr1.ads  (test for bogus messages, line 24)
FAIL: gnat.dg/specs/atomic1.ads  (test for errors, line 9)
FAIL: gnat.dg/specs/atomic1.ads  (test for errors, line 13)

OK to install?

Thanks.


H.J.
---
2013-11-13  H.J. Lu  <hongjiu.lu@intel.com>

	PR ada/54040
	* s-osinte-linux-x32.adb: New file.
	* s-osinte-linux-x32.ads: Likewise.
	* s-osprim-linux-x32.adb: Likewise.
	* s-taprop-linux-x32.adb: Likewise.
	* gcc-interface/Makefile.in (LIBGNAT_TARGET_PAIRS): Replace
	s-osinte-linux.ads, s-osinte-posix.adb, s-osprim-posix.adb
	and s-taprop-linux.adb with s-osinte-linux-x32.ads,
	s-osinte-linux-x32.adb, s-osprim-linux-x32.adb and
	s-taprop-linux-x32.adb for x32.
diff --git a/gcc/ada/gcc-interface/Makefile.in b/gcc/ada/gcc-interface/Makefile.in
index 91778c5..70d3c50 100644
--- a/gcc/ada/gcc-interface/Makefile.in
+++ b/gcc/ada/gcc-interface/Makefile.in
@@ -2188,10 +2188,10 @@ ifeq ($(strip $(filter-out %x32 linux%,$(target_cpu) $(target_os))),)
   s-intman.adb<s-intman-posix.adb \
   s-linux.ads<s-linux.ads \
   s-mudido.adb<s-mudido-affinity.adb \
-  s-osinte.ads<s-osinte-linux.ads \
-  s-osinte.adb<s-osinte-posix.adb \
-  s-osprim.adb<s-osprim-posix.adb \
-  s-taprop.adb<s-taprop-linux.adb \
+  s-osinte.ads<s-osinte-linux-x32.ads \
+  s-osinte.adb<s-osinte-linux-x32.adb \
+  s-osprim.adb<s-osprim-linux-x32.adb \
+  s-taprop.adb<s-taprop-linux-x32.adb \
   s-tasinf.ads<s-tasinf-linux.ads \
   s-tasinf.adb<s-tasinf-linux.adb \
   s-tpopsp.adb<s-tpopsp-tls.adb \
diff --git a/gcc/ada/s-osinte-linux-x32.adb b/gcc/ada/s-osinte-linux-x32.adb
new file mode 100644
index 0000000..369702b
--- /dev/null
+++ b/gcc/ada/s-osinte-linux-x32.adb
@@ -0,0 +1,110 @@
+------------------------------------------------------------------------------
+--                                                                          --
+--                 GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS                 --
+--                                                                          --
+--                   S Y S T E M . O S _ I N T E R F A C E                  --
+--                                                                          --
+--                                   B o d y                                --
+--                                                                          --
+--             Copyright (C) 1991-1994, Florida State University            --
+--                     Copyright (C) 1995-2010, AdaCore                     --
+--                                                                          --
+-- GNAT 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 3,  or (at your option) any later ver- --
+-- sion.  GNAT 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.                                     --
+--                                                                          --
+-- As a special exception under Section 7 of GPL version 3, you are granted --
+-- additional permissions described in the GCC Runtime Library Exception,   --
+-- version 3.1, as published by the Free Software Foundation.               --
+--                                                                          --
+-- You should have received a copy of the GNU General Public License and    --
+-- a copy of the GCC Runtime Library Exception along with this program;     --
+-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
+-- <http://www.gnu.org/licenses/>.                                          --
+--                                                                          --
+-- GNARL was developed by the GNARL team at Florida State University.       --
+-- Extensive contributions were provided by Ada Core Technologies, Inc.     --
+--                                                                          --
+------------------------------------------------------------------------------
+
+--  This is a GNU/LinuxThreads, Solaris pthread and HP-UX pthread version
+--  of this package.
+
+pragma Polling (Off);
+--  Turn off polling, we do not want ATC polling to take place during
+--  tasking operations. It causes infinite loops and other problems.
+
+--  This package encapsulates all direct interfaces to OS services
+--  that are needed by children of System.
+
+with Interfaces.C; use Interfaces.C;
+package body System.OS_Interface is
+
+   --------------------
+   -- Get_Stack_Base --
+   --------------------
+
+   function Get_Stack_Base (thread : pthread_t) return Address is
+      pragma Warnings (Off, thread);
+
+   begin
+      return Null_Address;
+   end Get_Stack_Base;
+
+   ------------------
+   -- pthread_init --
+   ------------------
+
+   procedure pthread_init is
+   begin
+      null;
+   end pthread_init;
+
+   -----------------
+   -- To_Duration --
+   -----------------
+
+   function To_Duration (TS : timespec) return Duration is
+   begin
+      return Duration (TS.tv_sec) + Duration (TS.tv_nsec) / 10#1#E9;
+   end To_Duration;
+
+   ------------------------
+   -- To_Target_Priority --
+   ------------------------
+
+   function To_Target_Priority
+     (Prio : System.Any_Priority) return Interfaces.C.int
+   is
+   begin
+      return Interfaces.C.int (Prio);
+   end To_Target_Priority;
+
+   -----------------
+   -- To_Timespec --
+   -----------------
+
+   function To_Timespec (D : Duration) return timespec is
+      S : time_t;
+      F : Duration;
+
+   begin
+      S := time_t (Long_Long_Integer (D));
+      F := D - Duration (S);
+
+      --  If F has negative value due to a round-up, adjust for positive F
+      --  value.
+
+      if F < 0.0 then
+         S := S - 1;
+         F := F + 1.0;
+      end if;
+
+      return timespec'(tv_sec => S,
+                       tv_nsec => Long_Long_Integer (F * 10#1#E9));
+   end To_Timespec;
+
+end System.OS_Interface;
diff --git a/gcc/ada/s-osinte-linux-x32.ads b/gcc/ada/s-osinte-linux-x32.ads
new file mode 100644
index 0000000..52d4e5f
--- /dev/null
+++ b/gcc/ada/s-osinte-linux-x32.ads
@@ -0,0 +1,656 @@
+------------------------------------------------------------------------------
+--                                                                          --
+--                 GNAT 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                                 --
+--                                                                          --
+--             Copyright (C) 1991-1994, Florida State University            --
+--          Copyright (C) 1995-2012, Free Software Foundation, Inc.         --
+--                                                                          --
+-- GNAT 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 3,  or (at your option) any later ver- --
+-- sion.  GNAT 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.                                     --
+--                                                                          --
+-- As a special exception under Section 7 of GPL version 3, you are granted --
+-- additional permissions described in the GCC Runtime Library Exception,   --
+-- version 3.1, as published by the Free Software Foundation.               --
+--                                                                          --
+-- You should have received a copy of the GNU General Public License and    --
+-- a copy of the GCC Runtime Library Exception along with this program;     --
+-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
+-- <http://www.gnu.org/licenses/>.                                          --
+--                                                                          --
+-- GNARL was developed by the GNARL team at Florida State University.       --
+-- Extensive contributions were provided by Ada Core Technologies, Inc.     --
+--                                                                          --
+------------------------------------------------------------------------------
+
+--  This is a GNU/Linux (GNU/LinuxThreads) version of this package
+
+--  This package encapsulates all direct interfaces to OS services
+--  that are needed by the tasking run-time (libgnarl).
+
+--  PLEASE DO NOT add any with-clauses to this package or remove the pragma
+--  Preelaborate. This package is designed to be a bottom-level (leaf) package.
+
+with Ada.Unchecked_Conversion;
+with Interfaces.C;
+with System.Linux;
+with System.OS_Constants;
+
+package System.OS_Interface is
+   pragma Preelaborate;
+
+   pragma Linker_Options ("-lpthread");
+
+   subtype int            is Interfaces.C.int;
+   subtype char           is Interfaces.C.char;
+   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;
+
+   -----------
+   -- Errno --
+   -----------
+
+   function errno return int;
+   pragma Import (C, errno, "__get_errno");
+
+   EAGAIN    : constant := System.Linux.EAGAIN;
+   EINTR     : constant := System.Linux.EINTR;
+   EINVAL    : constant := System.Linux.EINVAL;
+   ENOMEM    : constant := System.Linux.ENOMEM;
+   EPERM     : constant := System.Linux.EPERM;
+   ETIMEDOUT : constant := System.Linux.ETIMEDOUT;
+
+   -------------
+   -- Signals --
+   -------------
+
+   Max_Interrupt : constant := 63;
+   type Signal is new int range 0 .. Max_Interrupt;
+   for Signal'Size use int'Size;
+
+   SIGHUP     : constant := System.Linux.SIGHUP;
+   SIGINT     : constant := System.Linux.SIGINT;
+   SIGQUIT    : constant := System.Linux.SIGQUIT;
+   SIGILL     : constant := System.Linux.SIGILL;
+   SIGTRAP    : constant := System.Linux.SIGTRAP;
+   SIGIOT     : constant := System.Linux.SIGIOT;
+   SIGABRT    : constant := System.Linux.SIGABRT;
+   SIGFPE     : constant := System.Linux.SIGFPE;
+   SIGKILL    : constant := System.Linux.SIGKILL;
+   SIGBUS     : constant := System.Linux.SIGBUS;
+   SIGSEGV    : constant := System.Linux.SIGSEGV;
+   SIGPIPE    : constant := System.Linux.SIGPIPE;
+   SIGALRM    : constant := System.Linux.SIGALRM;
+   SIGTERM    : constant := System.Linux.SIGTERM;
+   SIGUSR1    : constant := System.Linux.SIGUSR1;
+   SIGUSR2    : constant := System.Linux.SIGUSR2;
+   SIGCLD     : constant := System.Linux.SIGCLD;
+   SIGCHLD    : constant := System.Linux.SIGCHLD;
+   SIGPWR     : constant := System.Linux.SIGPWR;
+   SIGWINCH   : constant := System.Linux.SIGWINCH;
+   SIGURG     : constant := System.Linux.SIGURG;
+   SIGPOLL    : constant := System.Linux.SIGPOLL;
+   SIGIO      : constant := System.Linux.SIGIO;
+   SIGLOST    : constant := System.Linux.SIGLOST;
+   SIGSTOP    : constant := System.Linux.SIGSTOP;
+   SIGTSTP    : constant := System.Linux.SIGTSTP;
+   SIGCONT    : constant := System.Linux.SIGCONT;
+   SIGTTIN    : constant := System.Linux.SIGTTIN;
+   SIGTTOU    : constant := System.Linux.SIGTTOU;
+   SIGVTALRM  : constant := System.Linux.SIGVTALRM;
+   SIGPROF    : constant := System.Linux.SIGPROF;
+   SIGXCPU    : constant := System.Linux.SIGXCPU;
+   SIGXFSZ    : constant := System.Linux.SIGXFSZ;
+   SIGUNUSED  : constant := System.Linux.SIGUNUSED;
+   SIGSTKFLT  : constant := System.Linux.SIGSTKFLT;
+   SIGLTHRRES : constant := System.Linux.SIGLTHRRES;
+   SIGLTHRCAN : constant := System.Linux.SIGLTHRCAN;
+   SIGLTHRDBG : constant := System.Linux.SIGLTHRDBG;
+
+   SIGADAABORT : constant := SIGABRT;
+   --  Change this to use another signal for task abort. SIGTERM might be a
+   --  good one.
+
+   type Signal_Set is array (Natural range <>) of Signal;
+
+   Unmasked : constant Signal_Set := (
+      SIGTRAP,
+      --  To enable debugging on multithreaded applications, mark SIGTRAP to
+      --  be kept unmasked.
+
+      SIGBUS,
+
+      SIGTTIN, SIGTTOU, SIGTSTP,
+      --  Keep these three signals unmasked so that background processes and IO
+      --  behaves as normal "C" applications
+
+      SIGPROF,
+      --  To avoid confusing the profiler
+
+      SIGKILL, SIGSTOP,
+      --  These two signals actually can't be masked (POSIX won't allow it)
+
+      SIGLTHRRES, SIGLTHRCAN, SIGLTHRDBG);
+      --  These three signals are used by GNU/LinuxThreads starting from glibc
+      --  2.1 (future 2.2).
+
+   Reserved : constant Signal_Set := (SIGVTALRM, SIGUNUSED);
+   --  Not clear why these two signals are reserved. Perhaps they are not
+   --  supported by this version of GNU/Linux ???
+
+   type sigset_t is private;
+
+   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");
+
+   type union_type_3 is new String (1 .. 116);
+   type siginfo_t is record
+      si_signo : int;
+      si_code  : int;
+      si_errno : int;
+      X_data   : union_type_3;
+   end record;
+   pragma Convention (C, siginfo_t);
+
+   type struct_sigaction is record
+      sa_handler  : System.Address;
+      sa_mask     : sigset_t;
+      sa_flags    : Interfaces.C.unsigned_long;
+      sa_restorer : System.Address;
+   end record;
+   pragma Convention (C, struct_sigaction);
+
+   type struct_sigaction_ptr is access all struct_sigaction;
+
+   type Machine_State is record
+      eip : unsigned_long;
+      ebx : unsigned_long;
+      esp : unsigned_long;
+      ebp : unsigned_long;
+      esi : unsigned_long;
+      edi : unsigned_long;
+   end record;
+   type Machine_State_Ptr is access all Machine_State;
+
+   SA_SIGINFO : constant := System.Linux.SA_SIGINFO;
+   SA_ONSTACK : constant := System.Linux.SA_ONSTACK;
+
+   SIG_BLOCK   : constant := 0;
+   SIG_UNBLOCK : constant := 1;
+   SIG_SETMASK : constant := 2;
+
+   SIG_DFL : constant := 0;
+   SIG_IGN : constant := 1;
+
+   function sigaction
+     (sig  : Signal;
+      act  : struct_sigaction_ptr;
+      oact : struct_sigaction_ptr) return int;
+   pragma Import (C, sigaction, "sigaction");
+
+   ----------
+   -- Time --
+   ----------
+
+   type timespec is private;
+
+   function To_Duration (TS : timespec) return Duration;
+   pragma Inline (To_Duration);
+
+   function To_Timespec (D : Duration) return timespec;
+   pragma Inline (To_Timespec);
+
+   function sysconf (name : int) return long;
+   pragma Import (C, sysconf);
+
+   SC_CLK_TCK          : constant := 2;
+   SC_NPROCESSORS_ONLN : constant := 84;
+
+   -------------------------
+   -- Priority Scheduling --
+   -------------------------
+
+   SCHED_OTHER : constant := 0;
+   SCHED_FIFO  : constant := 1;
+   SCHED_RR    : constant := 2;
+
+   function To_Target_Priority
+     (Prio : System.Any_Priority) return Interfaces.C.int;
+   --  Maps System.Any_Priority to a POSIX priority
+
+   -------------
+   -- Process --
+   -------------
+
+   type pid_t is private;
+
+   function kill (pid : pid_t; sig : Signal) return int;
+   pragma Import (C, kill, "kill");
+
+   function getpid return pid_t;
+   pragma Import (C, getpid, "getpid");
+
+   PR_SET_NAME : constant := 15;
+
+   function prctl
+     (option                 : int;
+      arg2, arg3, arg4, arg5 : unsigned_long := 0) return int;
+   pragma Import (C, prctl);
+
+   -------------
+   -- Threads --
+   -------------
+
+   type Thread_Body is access
+     function (arg : System.Address) return System.Address;
+   pragma Convention (C, Thread_Body);
+
+   function Thread_Body_Access is new
+     Ada.Unchecked_Conversion (System.Address, Thread_Body);
+
+   type pthread_t is new unsigned_long;
+   subtype Thread_Id is pthread_t;
+
+   function To_pthread_t is
+     new Ada.Unchecked_Conversion (unsigned_long, pthread_t);
+
+   type pthread_mutex_t      is limited private;
+   type pthread_rwlock_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_rwlockattr_t is limited private;
+   type pthread_condattr_t   is limited private;
+   type pthread_key_t        is private;
+
+   PTHREAD_CREATE_DETACHED : constant := 1;
+
+   -----------
+   -- Stack --
+   -----------
+
+   type stack_t is record
+      ss_sp    : System.Address;
+      ss_flags : int;
+      ss_size  : size_t;
+   end record;
+   pragma Convention (C, stack_t);
+
+   function sigaltstack
+     (ss  : not null access stack_t;
+      oss : access stack_t) return int;
+   pragma Import (C, sigaltstack, "sigaltstack");
+
+   Alternate_Stack : aliased System.Address;
+   pragma Import (C, Alternate_Stack, "__gnat_alternate_stack");
+   --  The alternate signal stack for stack overflows
+
+   Alternate_Stack_Size : constant := 16 * 1024;
+   --  This must be in keeping with init.c:__gnat_alternate_stack
+
+   function Get_Stack_Base (thread : pthread_t) return Address;
+   pragma Inline (Get_Stack_Base);
+   --  This is a dummy procedure to share some GNULLI files
+
+   ---------------------------------------
+   -- Nonstandard Thread Initialization --
+   ---------------------------------------
+
+   procedure pthread_init;
+   pragma Inline (pthread_init);
+   --  This is a dummy procedure to share some GNULLI files
+
+   -------------------------
+   -- POSIX.1c  Section 3 --
+   -------------------------
+
+   function sigwait (set : access sigset_t; sig : access Signal) return int;
+   pragma Import (C, sigwait, "sigwait");
+
+   function pthread_kill (thread : pthread_t; sig : Signal) return int;
+   pragma Import (C, pthread_kill, "pthread_kill");
+
+   function pthread_sigmask
+     (how  : int;
+      set  : access sigset_t;
+      oset : access sigset_t) return int;
+   pragma Import (C, pthread_sigmask, "pthread_sigmask");
+
+   --------------------------
+   -- POSIX.1c  Section 11 --
+   --------------------------
+
+   function pthread_mutexattr_init
+     (attr : access pthread_mutexattr_t) return int;
+   pragma Import (C, pthread_mutexattr_init, "pthread_mutexattr_init");
+
+   function pthread_mutexattr_destroy
+     (attr : access pthread_mutexattr_t) return int;
+   pragma Import (C, pthread_mutexattr_destroy, "pthread_mutexattr_destroy");
+
+   function pthread_mutex_init
+     (mutex : access pthread_mutex_t;
+      attr  : access pthread_mutexattr_t) return int;
+   pragma Import (C, pthread_mutex_init, "pthread_mutex_init");
+
+   function pthread_mutex_destroy (mutex : access pthread_mutex_t) return int;
+   pragma Import (C, pthread_mutex_destroy, "pthread_mutex_destroy");
+
+   function pthread_mutex_lock (mutex : access pthread_mutex_t) return int;
+   pragma Import (C, pthread_mutex_lock, "pthread_mutex_lock");
+
+   function pthread_mutex_unlock (mutex : access pthread_mutex_t) return int;
+   pragma Import (C, pthread_mutex_unlock, "pthread_mutex_unlock");
+
+   function pthread_rwlockattr_init
+     (attr : access pthread_rwlockattr_t) return int;
+   pragma Import (C, pthread_rwlockattr_init, "pthread_rwlockattr_init");
+
+   function pthread_rwlockattr_destroy
+     (attr : access pthread_rwlockattr_t) return int;
+   pragma Import (C, pthread_rwlockattr_destroy, "pthread_rwlockattr_destroy");
+
+   PTHREAD_RWLOCK_PREFER_READER_NP              : constant := 0;
+   PTHREAD_RWLOCK_PREFER_WRITER_NP              : constant := 1;
+   PTHREAD_RWLOCK_PREFER_WRITER_NONRECURSIVE_NP : constant := 2;
+
+   function pthread_rwlockattr_setkind_np
+     (attr : access pthread_rwlockattr_t;
+      pref : int) return int;
+   pragma Import
+     (C, pthread_rwlockattr_setkind_np, "pthread_rwlockattr_setkind_np");
+
+   function pthread_rwlock_init
+     (mutex : access pthread_rwlock_t;
+      attr  : access pthread_rwlockattr_t) return int;
+   pragma Import (C, pthread_rwlock_init, "pthread_rwlock_init");
+
+   function pthread_rwlock_destroy
+     (mutex : access pthread_rwlock_t) return int;
+   pragma Import (C, pthread_rwlock_destroy, "pthread_rwlock_destroy");
+
+   function pthread_rwlock_rdlock (mutex : access pthread_rwlock_t) return int;
+   pragma Import (C, pthread_rwlock_rdlock, "pthread_rwlock_rdlock");
+
+   function pthread_rwlock_wrlock (mutex : access pthread_rwlock_t) return int;
+   pragma Import (C, pthread_rwlock_wrlock, "pthread_rwlock_wrlock");
+
+   function pthread_rwlock_unlock (mutex : access pthread_rwlock_t) return int;
+   pragma Import (C, pthread_rwlock_unlock, "pthread_rwlock_unlock");
+
+   function pthread_condattr_init
+     (attr : access pthread_condattr_t) return int;
+   pragma Import (C, pthread_condattr_init, "pthread_condattr_init");
+
+   function pthread_condattr_destroy
+     (attr : access pthread_condattr_t) return int;
+   pragma Import (C, pthread_condattr_destroy, "pthread_condattr_destroy");
+
+   function pthread_cond_init
+     (cond : access pthread_cond_t;
+      attr : access pthread_condattr_t) return int;
+   pragma Import (C, pthread_cond_init, "pthread_cond_init");
+
+   function pthread_cond_destroy (cond : access pthread_cond_t) return int;
+   pragma Import (C, pthread_cond_destroy, "pthread_cond_destroy");
+
+   function pthread_cond_signal (cond : access pthread_cond_t) return int;
+   pragma Import (C, pthread_cond_signal, "pthread_cond_signal");
+
+   function pthread_cond_wait
+     (cond  : access pthread_cond_t;
+      mutex : access pthread_mutex_t) return int;
+   pragma Import (C, pthread_cond_wait, "pthread_cond_wait");
+
+   function pthread_cond_timedwait
+     (cond    : access pthread_cond_t;
+      mutex   : access pthread_mutex_t;
+      abstime : access timespec) return int;
+   pragma Import (C, pthread_cond_timedwait, "pthread_cond_timedwait");
+
+   --------------------------
+   -- POSIX.1c  Section 13 --
+   --------------------------
+
+   type struct_sched_param is record
+      sched_priority : int;  --  scheduling priority
+   end record;
+   pragma Convention (C, struct_sched_param);
+
+   function pthread_setschedparam
+     (thread : pthread_t;
+      policy : int;
+      param  : access struct_sched_param) return int;
+   pragma Import (C, pthread_setschedparam, "pthread_setschedparam");
+
+   function pthread_attr_setschedpolicy
+     (attr   : access pthread_attr_t;
+      policy : int) return int;
+   pragma Import
+     (C, pthread_attr_setschedpolicy, "pthread_attr_setschedpolicy");
+
+   function sched_yield return int;
+   pragma Import (C, sched_yield, "sched_yield");
+
+   ---------------------------
+   -- P1003.1c - Section 16 --
+   ---------------------------
+
+   function pthread_attr_init
+     (attributes : access pthread_attr_t) return int;
+   pragma Import (C, pthread_attr_init, "pthread_attr_init");
+
+   function pthread_attr_destroy
+     (attributes : access pthread_attr_t) return int;
+   pragma Import (C, pthread_attr_destroy, "pthread_attr_destroy");
+
+   function pthread_attr_setdetachstate
+     (attr        : access pthread_attr_t;
+      detachstate : int) return int;
+   pragma Import
+     (C, pthread_attr_setdetachstate, "pthread_attr_setdetachstate");
+
+   function pthread_attr_setstacksize
+     (attr      : access pthread_attr_t;
+      stacksize : size_t) return int;
+   pragma Import (C, pthread_attr_setstacksize, "pthread_attr_setstacksize");
+
+   function pthread_create
+     (thread        : access pthread_t;
+      attributes    : access pthread_attr_t;
+      start_routine : Thread_Body;
+      arg           : System.Address) return int;
+   pragma Import (C, pthread_create, "pthread_create");
+
+   procedure pthread_exit (status : System.Address);
+   pragma Import (C, pthread_exit, "pthread_exit");
+
+   function pthread_self return pthread_t;
+   pragma Import (C, pthread_self, "pthread_self");
+
+   function lwp_self return System.Address;
+   pragma Import (C, lwp_self, "__gnat_lwp_self");
+
+   --------------------------
+   -- POSIX.1c  Section 17 --
+   --------------------------
+
+   function pthread_setspecific
+     (key   : pthread_key_t;
+      value : System.Address) return int;
+   pragma Import (C, pthread_setspecific, "pthread_setspecific");
+
+   function pthread_getspecific (key : pthread_key_t) return System.Address;
+   pragma Import (C, pthread_getspecific, "pthread_getspecific");
+
+   type destructor_pointer is access procedure (arg : System.Address);
+   pragma Convention (C, destructor_pointer);
+
+   function pthread_key_create
+     (key        : access pthread_key_t;
+      destructor : destructor_pointer) return int;
+   pragma Import (C, pthread_key_create, "pthread_key_create");
+
+   CPU_SETSIZE : constant := 1_024;
+   --  Size of the cpu_set_t mask on most linux systems (SUSE 11 uses 4_096).
+   --  This is kept for backward compatibility (System.Task_Info uses it), but
+   --  the run-time library does no longer rely on static masks, using
+   --  dynamically allocated masks instead.
+
+   type bit_field is array (1 .. CPU_SETSIZE) of Boolean;
+   for bit_field'Size use CPU_SETSIZE;
+   pragma Pack (bit_field);
+   pragma Convention (C, bit_field);
+
+   type cpu_set_t is record
+      bits : bit_field;
+   end record;
+   pragma Convention (C, cpu_set_t);
+
+   type cpu_set_t_ptr is access all cpu_set_t;
+   --  In the run-time library we use this pointer because the size of type
+   --  cpu_set_t varies depending on the glibc version. Hence, objects of type
+   --  cpu_set_t are allocated dynamically using the number of processors
+   --  available in the target machine (value obtained at execution time).
+
+   function CPU_ALLOC (count : size_t) return cpu_set_t_ptr;
+   pragma Import (C, CPU_ALLOC, "__gnat_cpu_alloc");
+   --  Wrapper around the CPU_ALLOC C macro
+
+   function CPU_ALLOC_SIZE (count : size_t) return size_t;
+   pragma Import (C, CPU_ALLOC_SIZE, "__gnat_cpu_alloc_size");
+   --  Wrapper around the CPU_ALLOC_SIZE C macro
+
+   procedure CPU_FREE (cpuset : cpu_set_t_ptr);
+   pragma Import (C, CPU_FREE, "__gnat_cpu_free");
+   --  Wrapper around the CPU_FREE C macro
+
+   procedure CPU_ZERO (count : size_t; cpuset : cpu_set_t_ptr);
+   pragma Import (C, CPU_ZERO, "__gnat_cpu_zero");
+   --  Wrapper around the CPU_ZERO_S C macro
+
+   procedure CPU_SET (cpu : int; count : size_t; cpuset : cpu_set_t_ptr);
+   pragma Import (C, CPU_SET, "__gnat_cpu_set");
+   --  Wrapper around the CPU_SET_S C macro
+
+   function pthread_setaffinity_np
+     (thread     : pthread_t;
+      cpusetsize : size_t;
+      cpuset     : cpu_set_t_ptr) return int;
+   pragma Import (C, pthread_setaffinity_np, "pthread_setaffinity_np");
+   pragma Weak_External (pthread_setaffinity_np);
+   --  Use a weak symbol because this function may be available or not,
+   --  depending on the version of the system.
+
+   function pthread_attr_setaffinity_np
+     (attr       : access pthread_attr_t;
+      cpusetsize : size_t;
+      cpuset     : cpu_set_t_ptr) return int;
+   pragma Import (C, pthread_attr_setaffinity_np,
+                    "pthread_attr_setaffinity_np");
+   pragma Weak_External (pthread_attr_setaffinity_np);
+   --  Use a weak symbol because this function may be available or not,
+   --  depending on the version of the system.
+
+private
+
+   type sigset_t is
+     array (0 .. OS_Constants.SIZEOF_sigset - 1) of unsigned_char;
+   pragma Convention (C, sigset_t);
+   for sigset_t'Alignment use Interfaces.C.unsigned_long'Alignment;
+
+   pragma Warnings (Off);
+   for struct_sigaction use record
+      sa_handler at Linux.sa_handler_pos range 0 .. Standard'Address_Size - 1;
+      sa_mask    at Linux.sa_mask_pos    range 0 .. 1023;
+      sa_flags   at Linux.sa_flags_pos   range 0 .. Standard'Address_Size - 1;
+   end record;
+   --  We intentionally leave sa_restorer unspecified and let the compiler
+   --  append it after the last field, so disable corresponding warning.
+   pragma Warnings (On);
+
+   type pid_t is new int;
+
+   type time_t is new Long_Long_Integer;
+
+   type timespec is record
+      tv_sec  : time_t;
+      tv_nsec : Long_Long_Integer;
+   end record;
+   pragma Convention (C, timespec);
+
+   type unsigned_long_long_t is mod 2 ** 64;
+   --  Local type only used to get the alignment of this type below
+
+   subtype char_array is Interfaces.C.char_array;
+
+   type pthread_attr_t is record
+      Data : char_array (1 .. OS_Constants.PTHREAD_ATTR_SIZE);
+   end record;
+   pragma Convention (C, pthread_attr_t);
+   for pthread_attr_t'Alignment use Interfaces.C.unsigned_long'Alignment;
+
+   type pthread_condattr_t is record
+      Data : char_array (1 .. OS_Constants.PTHREAD_CONDATTR_SIZE);
+   end record;
+   pragma Convention (C, pthread_condattr_t);
+   for pthread_condattr_t'Alignment use Interfaces.C.int'Alignment;
+
+   type pthread_mutexattr_t is record
+      Data : char_array (1 .. OS_Constants.PTHREAD_MUTEXATTR_SIZE);
+   end  record;
+   pragma Convention (C, pthread_mutexattr_t);
+   for pthread_mutexattr_t'Alignment use Interfaces.C.int'Alignment;
+
+   type pthread_mutex_t is record
+      Data : char_array (1 .. OS_Constants.PTHREAD_MUTEX_SIZE);
+   end record;
+   pragma Convention (C, pthread_mutex_t);
+   for pthread_mutex_t'Alignment use Interfaces.C.unsigned_long'Alignment;
+
+   type pthread_rwlockattr_t is record
+      Data : char_array (1 .. OS_Constants.PTHREAD_RWLOCKATTR_SIZE);
+   end record;
+   pragma Convention (C, pthread_rwlockattr_t);
+   for pthread_rwlockattr_t'Alignment use Interfaces.C.unsigned_long'Alignment;
+
+   type pthread_rwlock_t is record
+      Data : char_array (1 .. OS_Constants.PTHREAD_RWLOCK_SIZE);
+   end record;
+   pragma Convention (C, pthread_rwlock_t);
+   for pthread_rwlock_t'Alignment use Interfaces.C.unsigned_long'Alignment;
+
+   type pthread_cond_t is record
+      Data : char_array (1 .. OS_Constants.PTHREAD_COND_SIZE);
+   end record;
+   pragma Convention (C, pthread_cond_t);
+   for pthread_cond_t'Alignment use unsigned_long_long_t'Alignment;
+
+   type pthread_key_t is new unsigned;
+
+end System.OS_Interface;
diff --git a/gcc/ada/s-osprim-linux-x32.adb b/gcc/ada/s-osprim-linux-x32.adb
new file mode 100644
index 0000000..7a6867a
--- /dev/null
+++ b/gcc/ada/s-osprim-linux-x32.adb
@@ -0,0 +1,173 @@
+------------------------------------------------------------------------------
+--                                                                          --
+--                 GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS                 --
+--                                                                          --
+--                  S Y S T E M . O S _ P R I M I T I V E S                 --
+--                                                                          --
+--                                  B o d y                                 --
+--                                                                          --
+--          Copyright (C) 1998-2009, 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 3,  or (at your option) any later ver- --
+-- sion.  GNAT 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.                                     --
+--                                                                          --
+-- As a special exception under Section 7 of GPL version 3, you are granted --
+-- additional permissions described in the GCC Runtime Library Exception,   --
+-- version 3.1, as published by the Free Software Foundation.               --
+--                                                                          --
+-- You should have received a copy of the GNU General Public License and    --
+-- a copy of the GCC Runtime Library Exception along with this program;     --
+-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
+-- <http://www.gnu.org/licenses/>.                                          --
+--                                                                          --
+-- GNARL was developed by the GNARL team at Florida State University.       --
+-- Extensive contributions were provided by Ada Core Technologies, Inc.     --
+--                                                                          --
+------------------------------------------------------------------------------
+
+--  This version is for POSIX-like operating systems
+
+package body System.OS_Primitives is
+
+   --  ??? These definitions are duplicated from System.OS_Interface
+   --  because we don't want to depend on any package. Consider removing
+   --  these declarations in System.OS_Interface and move these ones in
+   --  the spec.
+
+   type time_t is new Long_Long_Integer;
+
+   type timespec is record
+      tv_sec  : time_t;
+      tv_nsec : Long_Long_Integer;
+   end record;
+   pragma Convention (C, timespec);
+
+   function nanosleep (rqtp, rmtp : not null access timespec) return Integer;
+   pragma Import (C, nanosleep, "nanosleep");
+
+   -----------
+   -- Clock --
+   -----------
+
+   function Clock return Duration is
+      type timeval is array (1 .. 2) of Long_Long_Integer;
+
+      procedure timeval_to_duration
+        (T    : not null access timeval;
+         sec  : not null access Long_Integer;
+         usec : not null access Long_Integer);
+      pragma Import (C, timeval_to_duration, "__gnat_timeval_to_duration");
+
+      Micro  : constant := 10**6;
+      sec    : aliased Long_Integer;
+      usec   : aliased Long_Integer;
+      TV     : aliased timeval;
+      Result : Integer;
+      pragma Unreferenced (Result);
+
+      function gettimeofday
+        (Tv : access timeval;
+         Tz : System.Address := System.Null_Address) return Integer;
+      pragma Import (C, gettimeofday, "gettimeofday");
+
+   begin
+      --  The return codes for gettimeofday are as follows (from man pages):
+      --    EPERM  settimeofday is called by someone other than the superuser
+      --    EINVAL Timezone (or something else) is invalid
+      --    EFAULT One of tv or tz pointed outside accessible address space
+
+      --  None of these codes signal a potential clock skew, hence the return
+      --  value is never checked.
+
+      Result := gettimeofday (TV'Access, System.Null_Address);
+      timeval_to_duration (TV'Access, sec'Access, usec'Access);
+      return Duration (sec) + Duration (usec) / Micro;
+   end Clock;
+
+   ---------------------
+   -- Monotonic_Clock --
+   ---------------------
+
+   function Monotonic_Clock return Duration renames Clock;
+
+   -----------------
+   -- To_Timespec --
+   -----------------
+
+   function To_Timespec (D : Duration) return timespec;
+
+   function To_Timespec (D : Duration) return timespec is
+      S : time_t;
+      F : Duration;
+
+   begin
+      S := time_t (Long_Long_Integer (D));
+      F := D - Duration (S);
+
+      --  If F has negative value due to a round-up, adjust for positive F
+      --  value.
+
+      if F < 0.0 then
+         S := S - 1;
+         F := F + 1.0;
+      end if;
+
+      return
+        timespec'(tv_sec  => S,
+                  tv_nsec => Long_Long_Integer (F * 10#1#E9));
+   end To_Timespec;
+
+   -----------------
+   -- Timed_Delay --
+   -----------------
+
+   procedure Timed_Delay
+     (Time : Duration;
+      Mode : Integer)
+   is
+      Request    : aliased timespec;
+      Remaind    : aliased timespec;
+      Rel_Time   : Duration;
+      Abs_Time   : Duration;
+      Base_Time  : constant Duration := Clock;
+      Check_Time : Duration := Base_Time;
+
+      Result : Integer;
+      pragma Unreferenced (Result);
+
+   begin
+      if Mode = Relative then
+         Rel_Time := Time;
+         Abs_Time := Time + Check_Time;
+      else
+         Rel_Time := Time - Check_Time;
+         Abs_Time := Time;
+      end if;
+
+      if Rel_Time > 0.0 then
+         loop
+            Request := To_Timespec (Rel_Time);
+            Result := nanosleep (Request'Access, Remaind'Access);
+            Check_Time := Clock;
+
+            exit when Abs_Time <= Check_Time or else Check_Time < Base_Time;
+
+            Rel_Time := Abs_Time - Check_Time;
+         end loop;
+      end if;
+   end Timed_Delay;
+
+   ----------------
+   -- Initialize --
+   ----------------
+
+   procedure Initialize is
+   begin
+      null;
+   end Initialize;
+
+end System.OS_Primitives;
diff --git a/gcc/ada/s-taprop-linux-x32.adb b/gcc/ada/s-taprop-linux-x32.adb
new file mode 100644
index 0000000..ccc5629
--- /dev/null
+++ b/gcc/ada/s-taprop-linux-x32.adb
@@ -0,0 +1,1534 @@
+------------------------------------------------------------------------------
+--                                                                          --
+--                GNU ADA RUN-TIME LIBRARY (GNARL) COMPONENTS               --
+--                                                                          --
+--     S Y S T E M . T A S K _ P R I M I T I V E S . O P E R A T I O N S    --
+--                                                                          --
+--                                  B o d y                                 --
+--                                                                          --
+--         Copyright (C) 1992-2012, 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 3,  or (at your option) any later ver- --
+-- sion.  GNAT 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.                                     --
+--                                                                          --
+-- As a special exception under Section 7 of GPL version 3, you are granted --
+-- additional permissions described in the GCC Runtime Library Exception,   --
+-- version 3.1, as published by the Free Software Foundation.               --
+--                                                                          --
+-- You should have received a copy of the GNU General Public License and    --
+-- a copy of the GCC Runtime Library Exception along with this program;     --
+-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
+-- <http://www.gnu.org/licenses/>.                                          --
+--                                                                          --
+-- GNARL was developed by the GNARL team at Florida State University.       --
+-- Extensive contributions were provided by Ada Core Technologies, Inc.     --
+--                                                                          --
+------------------------------------------------------------------------------
+
+--  This is a GNU/Linux (GNU/LinuxThreads) version of this package
+
+--  This package contains all the GNULL primitives that interface directly with
+--  the underlying OS.
+
+pragma Polling (Off);
+--  Turn off polling, we do not want ATC polling to take place during tasking
+--  operations. It causes infinite loops and other problems.
+
+with Interfaces.C;
+
+with System.Task_Info;
+with System.Tasking.Debug;
+with System.Interrupt_Management;
+with System.OS_Primitives;
+with System.Stack_Checking.Operations;
+with System.Multiprocessors;
+
+with System.Soft_Links;
+--  We use System.Soft_Links instead of System.Tasking.Initialization
+--  because the later is a higher level package that we shouldn't depend on.
+--  For example when using the restricted run time, it is replaced by
+--  System.Tasking.Restricted.Stages.
+
+package body System.Task_Primitives.Operations is
+
+   package SSL renames System.Soft_Links;
+   package SC renames System.Stack_Checking.Operations;
+
+   use System.Tasking.Debug;
+   use System.Tasking;
+   use Interfaces.C;
+   use System.OS_Interface;
+   use System.Parameters;
+   use System.OS_Primitives;
+   use System.Task_Info;
+
+   ----------------
+   -- Local Data --
+   ----------------
+
+   --  The followings are logically constants, but need to be initialized
+   --  at run time.
+
+   Single_RTS_Lock : aliased RTS_Lock;
+   --  This is a lock to allow only one thread of control in the RTS at
+   --  a time; it is used to execute in mutual exclusion from all other tasks.
+   --  Used mainly in Single_Lock mode, but also to protect All_Tasks_List
+
+   Environment_Task_Id : Task_Id;
+   --  A variable to hold Task_Id for the environment task
+
+   Unblocked_Signal_Mask : aliased sigset_t;
+   --  The set of signals that should be unblocked in all tasks
+
+   --  The followings are internal configuration constants needed
+
+   Next_Serial_Number : Task_Serial_Number := 100;
+   --  We start at 100 (reserve some special values for using in error checks)
+
+   Time_Slice_Val : Integer;
+   pragma Import (C, Time_Slice_Val, "__gl_time_slice_val");
+
+   Dispatching_Policy : Character;
+   pragma Import (C, Dispatching_Policy, "__gl_task_dispatching_policy");
+
+   Locking_Policy : Character;
+   pragma Import (C, Locking_Policy, "__gl_locking_policy");
+
+   Foreign_Task_Elaborated : aliased Boolean := True;
+   --  Used to identified fake tasks (i.e., non-Ada Threads)
+
+   Use_Alternate_Stack : constant Boolean := Alternate_Stack_Size /= 0;
+   --  Whether to use an alternate signal stack for stack overflows
+
+   Abort_Handler_Installed : Boolean := False;
+   --  True if a handler for the abort signal is installed
+
+   Null_Thread_Id : constant pthread_t := pthread_t'Last;
+   --  Constant to indicate that the thread identifier has not yet been
+   --  initialized.
+
+   --------------------
+   -- Local Packages --
+   --------------------
+
+   package Specific is
+
+      procedure Initialize (Environment_Task : Task_Id);
+      pragma Inline (Initialize);
+      --  Initialize various data needed by this package
+
+      function Is_Valid_Task return Boolean;
+      pragma Inline (Is_Valid_Task);
+      --  Does executing thread have a TCB?
+
+      procedure Set (Self_Id : Task_Id);
+      pragma Inline (Set);
+      --  Set the self id for the current task
+
+      function Self return Task_Id;
+      pragma Inline (Self);
+      --  Return a pointer to the Ada Task Control Block of the calling task
+
+   end Specific;
+
+   package body Specific is separate;
+   --  The body of this package is target specific
+
+   ----------------------------------
+   -- ATCB allocation/deallocation --
+   ----------------------------------
+
+   package body ATCB_Allocation is separate;
+   --  The body of this package is shared across several targets
+
+   ---------------------------------
+   -- Support for foreign threads --
+   ---------------------------------
+
+   function Register_Foreign_Thread (Thread : Thread_Id) return Task_Id;
+   --  Allocate and Initialize a new ATCB for the current Thread
+
+   function Register_Foreign_Thread
+     (Thread : Thread_Id) return Task_Id is separate;
+
+   -----------------------
+   -- Local Subprograms --
+   -----------------------
+
+   procedure Abort_Handler (signo : Signal);
+
+   -------------------
+   -- Abort_Handler --
+   -------------------
+
+   procedure Abort_Handler (signo : Signal) is
+      pragma Unreferenced (signo);
+
+      Self_Id : constant Task_Id := Self;
+      Result  : Interfaces.C.int;
+      Old_Set : aliased sigset_t;
+
+   begin
+      --  It's not safe to raise an exception when using GCC ZCX mechanism.
+      --  Note that we still need to install a signal handler, since in some
+      --  cases (e.g. shutdown of the Server_Task in System.Interrupts) we
+      --  need to send the Abort signal to a task.
+
+      if ZCX_By_Default then
+         return;
+      end if;
+
+      if Self_Id.Deferral_Level = 0
+        and then Self_Id.Pending_ATC_Level < Self_Id.ATC_Nesting_Level
+        and then not Self_Id.Aborting
+      then
+         Self_Id.Aborting := True;
+
+         --  Make sure signals used for RTS internal purpose are unmasked
+
+         Result :=
+           pthread_sigmask
+             (SIG_UNBLOCK,
+              Unblocked_Signal_Mask'Access,
+              Old_Set'Access);
+         pragma Assert (Result = 0);
+
+         raise Standard'Abort_Signal;
+      end if;
+   end Abort_Handler;
+
+   --------------
+   -- Lock_RTS --
+   --------------
+
+   procedure Lock_RTS is
+   begin
+      Write_Lock (Single_RTS_Lock'Access, Global_Lock => True);
+   end Lock_RTS;
+
+   ----------------
+   -- Unlock_RTS --
+   ----------------
+
+   procedure Unlock_RTS is
+   begin
+      Unlock (Single_RTS_Lock'Access, Global_Lock => True);
+   end Unlock_RTS;
+
+   -----------------
+   -- Stack_Guard --
+   -----------------
+
+   --  The underlying thread system extends the memory (up to 2MB) when needed
+
+   procedure Stack_Guard (T : ST.Task_Id; On : Boolean) is
+      pragma Unreferenced (T);
+      pragma Unreferenced (On);
+   begin
+      null;
+   end Stack_Guard;
+
+   --------------------
+   -- Get_Thread_Id  --
+   --------------------
+
+   function Get_Thread_Id (T : ST.Task_Id) return OSI.Thread_Id is
+   begin
+      return T.Common.LL.Thread;
+   end Get_Thread_Id;
+
+   ----------
+   -- Self --
+   ----------
+
+   function Self return Task_Id renames Specific.Self;
+
+   ---------------------
+   -- Initialize_Lock --
+   ---------------------
+
+   --  Note: mutexes and cond_variables needed per-task basis are initialized
+   --  in Initialize_TCB and the Storage_Error is handled. Other mutexes (such
+   --  as RTS_Lock, Memory_Lock...) used in RTS is initialized before any
+   --  status change of RTS. Therefore raising Storage_Error in the following
+   --  routines should be able to be handled safely.
+
+   procedure Initialize_Lock
+     (Prio : System.Any_Priority;
+      L    : not null access Lock)
+   is
+      pragma Unreferenced (Prio);
+
+   begin
+      if Locking_Policy = 'R' then
+         declare
+            RWlock_Attr : aliased pthread_rwlockattr_t;
+            Result      : Interfaces.C.int;
+
+         begin
+            --  Set the rwlock to prefer writer to avoid writers starvation
+
+            Result := pthread_rwlockattr_init (RWlock_Attr'Access);
+            pragma Assert (Result = 0);
+
+            Result := pthread_rwlockattr_setkind_np
+              (RWlock_Attr'Access,
+               PTHREAD_RWLOCK_PREFER_WRITER_NONRECURSIVE_NP);
+            pragma Assert (Result = 0);
+
+            Result := pthread_rwlock_init (L.RW'Access, RWlock_Attr'Access);
+
+            pragma Assert (Result = 0 or else Result = ENOMEM);
+
+            if Result = ENOMEM then
+               raise Storage_Error with "Failed to allocate a lock";
+            end if;
+         end;
+
+      else
+         declare
+            Result : Interfaces.C.int;
+
+         begin
+            Result := pthread_mutex_init (L.WO'Access, null);
+
+            pragma Assert (Result = 0 or else Result = ENOMEM);
+
+            if Result = ENOMEM then
+               raise Storage_Error with "Failed to allocate a lock";
+            end if;
+         end;
+      end if;
+   end Initialize_Lock;
+
+   procedure Initialize_Lock
+     (L     : not null access RTS_Lock;
+      Level : Lock_Level)
+   is
+      pragma Unreferenced (Level);
+
+      Result : Interfaces.C.int;
+
+   begin
+      Result := pthread_mutex_init (L, null);
+
+      pragma Assert (Result = 0 or else Result = ENOMEM);
+
+      if Result = ENOMEM then
+         raise Storage_Error;
+      end if;
+   end Initialize_Lock;
+
+   -------------------
+   -- Finalize_Lock --
+   -------------------
+
+   procedure Finalize_Lock (L : not null access Lock) is
+      Result : Interfaces.C.int;
+   begin
+      if Locking_Policy = 'R' then
+         Result := pthread_rwlock_destroy (L.RW'Access);
+      else
+         Result := pthread_mutex_destroy (L.WO'Access);
+      end if;
+      pragma Assert (Result = 0);
+   end Finalize_Lock;
+
+   procedure Finalize_Lock (L : not null access RTS_Lock) is
+      Result : Interfaces.C.int;
+   begin
+      Result := pthread_mutex_destroy (L);
+      pragma Assert (Result = 0);
+   end Finalize_Lock;
+
+   ----------------
+   -- Write_Lock --
+   ----------------
+
+   procedure Write_Lock
+     (L                 : not null access Lock;
+      Ceiling_Violation : out Boolean)
+   is
+      Result : Interfaces.C.int;
+   begin
+      if Locking_Policy = 'R' then
+         Result := pthread_rwlock_wrlock (L.RW'Access);
+      else
+         Result := pthread_mutex_lock (L.WO'Access);
+      end if;
+
+      Ceiling_Violation := Result = EINVAL;
+
+      --  Assume the cause of EINVAL is a priority ceiling violation
+
+      pragma Assert (Result = 0 or else Result = EINVAL);
+   end Write_Lock;
+
+   procedure Write_Lock
+     (L           : not null access RTS_Lock;
+      Global_Lock : Boolean := False)
+   is
+      Result : Interfaces.C.int;
+   begin
+      if not Single_Lock or else Global_Lock then
+         Result := pthread_mutex_lock (L);
+         pragma Assert (Result = 0);
+      end if;
+   end Write_Lock;
+
+   procedure Write_Lock (T : Task_Id) is
+      Result : Interfaces.C.int;
+   begin
+      if not Single_Lock then
+         Result := pthread_mutex_lock (T.Common.LL.L'Access);
+         pragma Assert (Result = 0);
+      end if;
+   end Write_Lock;
+
+   ---------------
+   -- Read_Lock --
+   ---------------
+
+   procedure Read_Lock
+     (L                 : not null access Lock;
+      Ceiling_Violation : out Boolean)
+   is
+      Result : Interfaces.C.int;
+   begin
+      if Locking_Policy = 'R' then
+         Result := pthread_rwlock_rdlock (L.RW'Access);
+      else
+         Result := pthread_mutex_lock (L.WO'Access);
+      end if;
+
+      Ceiling_Violation := Result = EINVAL;
+
+      --  Assume the cause of EINVAL is a priority ceiling violation
+
+      pragma Assert (Result = 0 or else Result = EINVAL);
+   end Read_Lock;
+
+   ------------
+   -- Unlock --
+   ------------
+
+   procedure Unlock (L : not null access Lock) is
+      Result : Interfaces.C.int;
+   begin
+      if Locking_Policy = 'R' then
+         Result := pthread_rwlock_unlock (L.RW'Access);
+      else
+         Result := pthread_mutex_unlock (L.WO'Access);
+      end if;
+      pragma Assert (Result = 0);
+   end Unlock;
+
+   procedure Unlock
+     (L           : not null access RTS_Lock;
+      Global_Lock : Boolean := False)
+   is
+      Result : Interfaces.C.int;
+   begin
+      if not Single_Lock or else Global_Lock then
+         Result := pthread_mutex_unlock (L);
+         pragma Assert (Result = 0);
+      end if;
+   end Unlock;
+
+   procedure Unlock (T : Task_Id) is
+      Result : Interfaces.C.int;
+   begin
+      if not Single_Lock then
+         Result := pthread_mutex_unlock (T.Common.LL.L'Access);
+         pragma Assert (Result = 0);
+      end if;
+   end Unlock;
+
+   -----------------
+   -- Set_Ceiling --
+   -----------------
+
+   --  Dynamic priority ceilings are not supported by the underlying system
+
+   procedure Set_Ceiling
+     (L    : not null access Lock;
+      Prio : System.Any_Priority)
+   is
+      pragma Unreferenced (L, Prio);
+   begin
+      null;
+   end Set_Ceiling;
+
+   -----------
+   -- Sleep --
+   -----------
+
+   procedure Sleep
+     (Self_ID  : Task_Id;
+      Reason   : System.Tasking.Task_States)
+   is
+      pragma Unreferenced (Reason);
+
+      Result : Interfaces.C.int;
+
+   begin
+      pragma Assert (Self_ID = Self);
+
+      Result :=
+        pthread_cond_wait
+          (cond  => Self_ID.Common.LL.CV'Access,
+           mutex => (if Single_Lock
+                     then Single_RTS_Lock'Access
+                     else Self_ID.Common.LL.L'Access));
+
+      --  EINTR is not considered a failure
+
+      pragma Assert (Result = 0 or else Result = EINTR);
+   end Sleep;
+
+   -----------------
+   -- Timed_Sleep --
+   -----------------
+
+   --  This is for use within the run-time system, so abort is
+   --  assumed to be already deferred, and the caller should be
+   --  holding its own ATCB lock.
+
+   procedure Timed_Sleep
+     (Self_ID  : Task_Id;
+      Time     : Duration;
+      Mode     : ST.Delay_Modes;
+      Reason   : System.Tasking.Task_States;
+      Timedout : out Boolean;
+      Yielded  : out Boolean)
+   is
+      pragma Unreferenced (Reason);
+
+      Base_Time  : constant Duration := Monotonic_Clock;
+      Check_Time : Duration := Base_Time;
+      Abs_Time   : Duration;
+      Request    : aliased timespec;
+      Result     : Interfaces.C.int;
+
+   begin
+      Timedout := True;
+      Yielded := False;
+
+      Abs_Time :=
+        (if Mode = Relative
+         then Duration'Min (Time, Max_Sensible_Delay) + Check_Time
+         else Duration'Min (Check_Time + Max_Sensible_Delay, Time));
+
+      if Abs_Time > Check_Time then
+         Request := To_Timespec (Abs_Time);
+
+         loop
+            exit when Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level;
+
+            Result :=
+              pthread_cond_timedwait
+                (cond    => Self_ID.Common.LL.CV'Access,
+                 mutex   => (if Single_Lock
+                             then Single_RTS_Lock'Access
+                             else Self_ID.Common.LL.L'Access),
+                 abstime => Request'Access);
+
+            Check_Time := Monotonic_Clock;
+            exit when Abs_Time <= Check_Time or else Check_Time < Base_Time;
+
+            if Result = 0 or else Result = EINTR then
+
+               --  Somebody may have called Wakeup for us
+
+               Timedout := False;
+               exit;
+            end if;
+
+            pragma Assert (Result = ETIMEDOUT);
+         end loop;
+      end if;
+   end Timed_Sleep;
+
+   -----------------
+   -- Timed_Delay --
+   -----------------
+
+   --  This is for use in implementing delay statements, so we assume the
+   --  caller is abort-deferred but is holding no locks.
+
+   procedure Timed_Delay
+     (Self_ID : Task_Id;
+      Time    : Duration;
+      Mode    : ST.Delay_Modes)
+   is
+      Base_Time  : constant Duration := Monotonic_Clock;
+      Check_Time : Duration := Base_Time;
+      Abs_Time   : Duration;
+      Request    : aliased timespec;
+
+      Result : Interfaces.C.int;
+      pragma Warnings (Off, Result);
+
+   begin
+      if Single_Lock then
+         Lock_RTS;
+      end if;
+
+      Write_Lock (Self_ID);
+
+      Abs_Time :=
+        (if Mode = Relative
+         then Time + Check_Time
+         else Duration'Min (Check_Time + Max_Sensible_Delay, Time));
+
+      if Abs_Time > Check_Time then
+         Request := To_Timespec (Abs_Time);
+         Self_ID.Common.State := Delay_Sleep;
+
+         loop
+            exit when Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level;
+
+            Result :=
+              pthread_cond_timedwait
+                (cond    => Self_ID.Common.LL.CV'Access,
+                 mutex   => (if Single_Lock
+                             then Single_RTS_Lock'Access
+                             else Self_ID.Common.LL.L'Access),
+                 abstime => Request'Access);
+
+            Check_Time := Monotonic_Clock;
+            exit when Abs_Time <= Check_Time or else Check_Time < Base_Time;
+
+            pragma Assert (Result = 0 or else
+              Result = ETIMEDOUT or else
+              Result = EINTR);
+         end loop;
+
+         Self_ID.Common.State := Runnable;
+      end if;
+
+      Unlock (Self_ID);
+
+      if Single_Lock then
+         Unlock_RTS;
+      end if;
+
+      Result := sched_yield;
+   end Timed_Delay;
+
+   ---------------------
+   -- Monotonic_Clock --
+   ---------------------
+
+   function Monotonic_Clock return Duration is
+      use Interfaces;
+
+      type timeval is array (1 .. 2) of Long_Long_Integer;
+
+      procedure timeval_to_duration
+        (T    : not null access timeval;
+         sec  : not null access C.long;
+         usec : not null access C.long);
+      pragma Import (C, timeval_to_duration, "__gnat_timeval_to_duration");
+
+      Micro  : constant := 10**6;
+      sec    : aliased C.long;
+      usec   : aliased C.long;
+      TV     : aliased timeval;
+      Result : int;
+
+      function gettimeofday
+        (Tv : access timeval;
+         Tz : System.Address := System.Null_Address) return int;
+      pragma Import (C, gettimeofday, "gettimeofday");
+
+   begin
+      Result := gettimeofday (TV'Access, System.Null_Address);
+      pragma Assert (Result = 0);
+      timeval_to_duration (TV'Access, sec'Access, usec'Access);
+      return Duration (sec) + Duration (usec) / Micro;
+   end Monotonic_Clock;
+
+   -------------------
+   -- RT_Resolution --
+   -------------------
+
+   function RT_Resolution return Duration is
+   begin
+      return 10#1.0#E-6;
+   end RT_Resolution;
+
+   ------------
+   -- Wakeup --
+   ------------
+
+   procedure Wakeup (T : Task_Id; Reason : System.Tasking.Task_States) is
+      pragma Unreferenced (Reason);
+      Result : Interfaces.C.int;
+   begin
+      Result := pthread_cond_signal (T.Common.LL.CV'Access);
+      pragma Assert (Result = 0);
+   end Wakeup;
+
+   -----------
+   -- Yield --
+   -----------
+
+   procedure Yield (Do_Yield : Boolean := True) is
+      Result : Interfaces.C.int;
+      pragma Unreferenced (Result);
+   begin
+      if Do_Yield then
+         Result := sched_yield;
+      end if;
+   end Yield;
+
+   ------------------
+   -- Set_Priority --
+   ------------------
+
+   procedure Set_Priority
+     (T                   : Task_Id;
+      Prio                : System.Any_Priority;
+      Loss_Of_Inheritance : Boolean := False)
+   is
+      pragma Unreferenced (Loss_Of_Inheritance);
+
+      Result : Interfaces.C.int;
+      Param  : aliased struct_sched_param;
+
+      function Get_Policy (Prio : System.Any_Priority) return Character;
+      pragma Import (C, Get_Policy, "__gnat_get_specific_dispatching");
+      --  Get priority specific dispatching policy
+
+      Priority_Specific_Policy : constant Character := Get_Policy (Prio);
+      --  Upper case first character of the policy name corresponding to the
+      --  task as set by a Priority_Specific_Dispatching pragma.
+
+   begin
+      T.Common.Current_Priority := Prio;
+
+      --  Priorities are 1 .. 99 on GNU/Linux, so we map 0 .. 98 to 1 .. 99
+
+      Param.sched_priority := Interfaces.C.int (Prio) + 1;
+
+      if Dispatching_Policy = 'R'
+        or else Priority_Specific_Policy = 'R'
+        or else Time_Slice_Val > 0
+      then
+         Result :=
+           pthread_setschedparam
+             (T.Common.LL.Thread, SCHED_RR, Param'Access);
+
+      elsif Dispatching_Policy = 'F'
+        or else Priority_Specific_Policy = 'F'
+        or else Time_Slice_Val = 0
+      then
+         Result :=
+           pthread_setschedparam
+             (T.Common.LL.Thread, SCHED_FIFO, Param'Access);
+
+      else
+         Param.sched_priority := 0;
+         Result :=
+           pthread_setschedparam
+             (T.Common.LL.Thread,
+              SCHED_OTHER, Param'Access);
+      end if;
+
+      pragma Assert (Result = 0 or else Result = EPERM);
+   end Set_Priority;
+
+   ------------------
+   -- Get_Priority --
+   ------------------
+
+   function Get_Priority (T : Task_Id) return System.Any_Priority is
+   begin
+      return T.Common.Current_Priority;
+   end Get_Priority;
+
+   ----------------
+   -- Enter_Task --
+   ----------------
+
+   procedure Enter_Task (Self_ID : Task_Id) is
+   begin
+      if Self_ID.Common.Task_Info /= null
+        and then Self_ID.Common.Task_Info.CPU_Affinity = No_CPU
+      then
+         raise Invalid_CPU_Number;
+      end if;
+
+      Self_ID.Common.LL.Thread := pthread_self;
+      Self_ID.Common.LL.LWP := lwp_self;
+
+      if Self_ID.Common.Task_Image_Len > 0 then
+         declare
+            Task_Name : String (1 .. Parameters.Max_Task_Image_Length + 1);
+            Result    : int;
+
+         begin
+            --  Set thread name to ease debugging
+
+            Task_Name (1 .. Self_ID.Common.Task_Image_Len) :=
+              Self_ID.Common.Task_Image (1 .. Self_ID.Common.Task_Image_Len);
+            Task_Name (Self_ID.Common.Task_Image_Len + 1) := ASCII.NUL;
+
+            Result := prctl (PR_SET_NAME, unsigned_long (Task_Name'Address));
+            pragma Assert (Result = 0);
+         end;
+      end if;
+
+      Specific.Set (Self_ID);
+
+      if Use_Alternate_Stack
+        and then Self_ID.Common.Task_Alternate_Stack /= Null_Address
+      then
+         declare
+            Stack  : aliased stack_t;
+            Result : Interfaces.C.int;
+         begin
+            Stack.ss_sp    := Self_ID.Common.Task_Alternate_Stack;
+            Stack.ss_size  := Alternate_Stack_Size;
+            Stack.ss_flags := 0;
+            Result := sigaltstack (Stack'Access, null);
+            pragma Assert (Result = 0);
+         end;
+      end if;
+   end Enter_Task;
+
+   -------------------
+   -- Is_Valid_Task --
+   -------------------
+
+   function Is_Valid_Task return Boolean renames Specific.Is_Valid_Task;
+
+   -----------------------------
+   -- Register_Foreign_Thread --
+   -----------------------------
+
+   function Register_Foreign_Thread return Task_Id is
+   begin
+      if Is_Valid_Task then
+         return Self;
+      else
+         return Register_Foreign_Thread (pthread_self);
+      end if;
+   end Register_Foreign_Thread;
+
+   --------------------
+   -- Initialize_TCB --
+   --------------------
+
+   procedure Initialize_TCB (Self_ID : Task_Id; Succeeded : out Boolean) is
+      Cond_Attr : aliased pthread_condattr_t;
+      Result    : Interfaces.C.int;
+
+   begin
+      --  Give the task a unique serial number
+
+      Self_ID.Serial_Number := Next_Serial_Number;
+      Next_Serial_Number := Next_Serial_Number + 1;
+      pragma Assert (Next_Serial_Number /= 0);
+
+      Self_ID.Common.LL.Thread := Null_Thread_Id;
+
+      if not Single_Lock then
+         Result :=
+           pthread_mutex_init (Self_ID.Common.LL.L'Access, null);
+         pragma Assert (Result = 0 or else Result = ENOMEM);
+
+         if Result /= 0 then
+            Succeeded := False;
+            return;
+         end if;
+      end if;
+
+      Result := pthread_condattr_init (Cond_Attr'Access);
+      pragma Assert (Result = 0);
+
+      Result :=
+        pthread_cond_init (Self_ID.Common.LL.CV'Access, Cond_Attr'Access);
+      pragma Assert (Result = 0 or else Result = ENOMEM);
+
+      if Result = 0 then
+         Succeeded := True;
+      else
+         if not Single_Lock then
+            Result := pthread_mutex_destroy (Self_ID.Common.LL.L'Access);
+            pragma Assert (Result = 0);
+         end if;
+
+         Succeeded := False;
+      end if;
+   end Initialize_TCB;
+
+   -----------------
+   -- Create_Task --
+   -----------------
+
+   procedure Create_Task
+     (T          : Task_Id;
+      Wrapper    : System.Address;
+      Stack_Size : System.Parameters.Size_Type;
+      Priority   : System.Any_Priority;
+      Succeeded  : out Boolean)
+   is
+      Attributes          : aliased pthread_attr_t;
+      Adjusted_Stack_Size : Interfaces.C.size_t;
+      Result              : Interfaces.C.int;
+
+      use type System.Multiprocessors.CPU_Range;
+
+   begin
+      --  Check whether both Dispatching_Domain and CPU are specified for
+      --  the task, and the CPU value is not contained within the range of
+      --  processors for the domain.
+
+      if T.Common.Domain /= null
+        and then T.Common.Base_CPU /= System.Multiprocessors.Not_A_Specific_CPU
+        and then
+          (T.Common.Base_CPU not in T.Common.Domain'Range
+            or else not T.Common.Domain (T.Common.Base_CPU))
+      then
+         Succeeded := False;
+         return;
+      end if;
+
+      Adjusted_Stack_Size :=
+         Interfaces.C.size_t (Stack_Size + Alternate_Stack_Size);
+
+      Result := pthread_attr_init (Attributes'Access);
+      pragma Assert (Result = 0 or else Result = ENOMEM);
+
+      if Result /= 0 then
+         Succeeded := False;
+         return;
+      end if;
+
+      Result :=
+        pthread_attr_setstacksize (Attributes'Access, Adjusted_Stack_Size);
+      pragma Assert (Result = 0);
+
+      Result :=
+        pthread_attr_setdetachstate
+          (Attributes'Access, PTHREAD_CREATE_DETACHED);
+      pragma Assert (Result = 0);
+
+      --  Set the required attributes for the creation of the thread
+
+      --  Note: Previously, we called pthread_setaffinity_np (after thread
+      --  creation but before thread activation) to set the affinity but it was
+      --  not behaving as expected. Setting the required attributes for the
+      --  creation of the thread works correctly and it is more appropriate.
+
+      --  Do nothing if required support not provided by the operating system
+
+      if pthread_attr_setaffinity_np'Address = System.Null_Address then
+         null;
+
+      --  Support is available
+
+      elsif T.Common.Base_CPU /= System.Multiprocessors.Not_A_Specific_CPU then
+         declare
+            CPUs    : constant size_t :=
+                        Interfaces.C.size_t
+                          (System.Multiprocessors.Number_Of_CPUs);
+            CPU_Set : constant cpu_set_t_ptr := CPU_ALLOC (CPUs);
+            Size    : constant size_t := CPU_ALLOC_SIZE (CPUs);
+
+         begin
+            CPU_ZERO (Size, CPU_Set);
+            System.OS_Interface.CPU_SET
+              (int (T.Common.Base_CPU), Size, CPU_Set);
+            Result :=
+              pthread_attr_setaffinity_np (Attributes'Access, Size, CPU_Set);
+            pragma Assert (Result = 0);
+
+            CPU_FREE (CPU_Set);
+         end;
+
+      --  Handle Task_Info
+
+      elsif T.Common.Task_Info /= null then
+         Result :=
+           pthread_attr_setaffinity_np
+             (Attributes'Access,
+              CPU_SETSIZE / 8,
+              T.Common.Task_Info.CPU_Affinity'Access);
+         pragma Assert (Result = 0);
+
+      --  Handle dispatching domains
+
+      --  To avoid changing CPU affinities when not needed, we set the
+      --  affinity only when assigning to a domain other than the default
+      --  one, or when the default one has been modified.
+
+      elsif T.Common.Domain /= null and then
+        (T.Common.Domain /= ST.System_Domain
+          or else T.Common.Domain.all /=
+                    (Multiprocessors.CPU'First ..
+                     Multiprocessors.Number_Of_CPUs => True))
+      then
+         declare
+            CPUs    : constant size_t :=
+                        Interfaces.C.size_t
+                          (System.Multiprocessors.Number_Of_CPUs);
+            CPU_Set : constant cpu_set_t_ptr := CPU_ALLOC (CPUs);
+            Size    : constant size_t := CPU_ALLOC_SIZE (CPUs);
+
+         begin
+            CPU_ZERO (Size, CPU_Set);
+
+            --  Set the affinity to all the processors belonging to the
+            --  dispatching domain.
+
+            for Proc in T.Common.Domain'Range loop
+               if T.Common.Domain (Proc) then
+                  System.OS_Interface.CPU_SET (int (Proc), Size, CPU_Set);
+               end if;
+            end loop;
+
+            Result :=
+              pthread_attr_setaffinity_np (Attributes'Access, Size, CPU_Set);
+            pragma Assert (Result = 0);
+
+            CPU_FREE (CPU_Set);
+         end;
+      end if;
+
+      --  Since the initial signal mask of a thread is inherited from the
+      --  creator, and the Environment task has all its signals masked, we
+      --  do not need to manipulate caller's signal mask at this point.
+      --  All tasks in RTS will have All_Tasks_Mask initially.
+
+      --  Note: the use of Unrestricted_Access in the following call is needed
+      --  because otherwise we have an error of getting a access-to-volatile
+      --  value which points to a non-volatile object. But in this case it is
+      --  safe to do this, since we know we have no problems with aliasing and
+      --  Unrestricted_Access bypasses this check.
+
+      Result :=
+        pthread_create
+          (T.Common.LL.Thread'Unrestricted_Access,
+           Attributes'Access,
+           Thread_Body_Access (Wrapper),
+           To_Address (T));
+
+      pragma Assert
+        (Result = 0 or else Result = EAGAIN or else Result = ENOMEM);
+
+      if Result /= 0 then
+         Succeeded := False;
+         Result := pthread_attr_destroy (Attributes'Access);
+         pragma Assert (Result = 0);
+         return;
+      end if;
+
+      Succeeded := True;
+
+      Result := pthread_attr_destroy (Attributes'Access);
+      pragma Assert (Result = 0);
+
+      Set_Priority (T, Priority);
+   end Create_Task;
+
+   ------------------
+   -- Finalize_TCB --
+   ------------------
+
+   procedure Finalize_TCB (T : Task_Id) is
+      Result : Interfaces.C.int;
+
+   begin
+      if not Single_Lock then
+         Result := pthread_mutex_destroy (T.Common.LL.L'Access);
+         pragma Assert (Result = 0);
+      end if;
+
+      Result := pthread_cond_destroy (T.Common.LL.CV'Access);
+      pragma Assert (Result = 0);
+
+      if T.Known_Tasks_Index /= -1 then
+         Known_Tasks (T.Known_Tasks_Index) := null;
+      end if;
+
+      SC.Invalidate_Stack_Cache (T.Common.Compiler_Data.Pri_Stack_Info'Access);
+
+      ATCB_Allocation.Free_ATCB (T);
+   end Finalize_TCB;
+
+   ---------------
+   -- Exit_Task --
+   ---------------
+
+   procedure Exit_Task is
+   begin
+      Specific.Set (null);
+   end Exit_Task;
+
+   ----------------
+   -- Abort_Task --
+   ----------------
+
+   procedure Abort_Task (T : Task_Id) is
+      Result : Interfaces.C.int;
+   begin
+      if Abort_Handler_Installed then
+         Result :=
+           pthread_kill
+             (T.Common.LL.Thread,
+              Signal (System.Interrupt_Management.Abort_Task_Interrupt));
+         pragma Assert (Result = 0);
+      end if;
+   end Abort_Task;
+
+   ----------------
+   -- Initialize --
+   ----------------
+
+   procedure Initialize (S : in out Suspension_Object) is
+      Result : Interfaces.C.int;
+
+   begin
+      --  Initialize internal state (always to False (RM D.10(6)))
+
+      S.State := False;
+      S.Waiting := False;
+
+      --  Initialize internal mutex
+
+      Result := pthread_mutex_init (S.L'Access, null);
+
+      pragma Assert (Result = 0 or else Result = ENOMEM);
+
+      if Result = ENOMEM then
+         raise Storage_Error;
+      end if;
+
+      --  Initialize internal condition variable
+
+      Result := pthread_cond_init (S.CV'Access, null);
+
+      pragma Assert (Result = 0 or else Result = ENOMEM);
+
+      if Result /= 0 then
+         Result := pthread_mutex_destroy (S.L'Access);
+         pragma Assert (Result = 0);
+
+         if Result = ENOMEM then
+            raise Storage_Error;
+         end if;
+      end if;
+   end Initialize;
+
+   --------------
+   -- Finalize --
+   --------------
+
+   procedure Finalize (S : in out Suspension_Object) is
+      Result : Interfaces.C.int;
+
+   begin
+      --  Destroy internal mutex
+
+      Result := pthread_mutex_destroy (S.L'Access);
+      pragma Assert (Result = 0);
+
+      --  Destroy internal condition variable
+
+      Result := pthread_cond_destroy (S.CV'Access);
+      pragma Assert (Result = 0);
+   end Finalize;
+
+   -------------------
+   -- Current_State --
+   -------------------
+
+   function Current_State (S : Suspension_Object) return Boolean is
+   begin
+      --  We do not want to use lock on this read operation. State is marked
+      --  as Atomic so that we ensure that the value retrieved is correct.
+
+      return S.State;
+   end Current_State;
+
+   ---------------
+   -- Set_False --
+   ---------------
+
+   procedure Set_False (S : in out Suspension_Object) is
+      Result : Interfaces.C.int;
+
+   begin
+      SSL.Abort_Defer.all;
+
+      Result := pthread_mutex_lock (S.L'Access);
+      pragma Assert (Result = 0);
+
+      S.State := False;
+
+      Result := pthread_mutex_unlock (S.L'Access);
+      pragma Assert (Result = 0);
+
+      SSL.Abort_Undefer.all;
+   end Set_False;
+
+   --------------
+   -- Set_True --
+   --------------
+
+   procedure Set_True (S : in out Suspension_Object) is
+      Result : Interfaces.C.int;
+
+   begin
+      SSL.Abort_Defer.all;
+
+      Result := pthread_mutex_lock (S.L'Access);
+      pragma Assert (Result = 0);
+
+      --  If there is already a task waiting on this suspension object then
+      --  we resume it, leaving the state of the suspension object to False,
+      --  as it is specified in ARM D.10 par. 9. Otherwise, it just leaves
+      --  the state to True.
+
+      if S.Waiting then
+         S.Waiting := False;
+         S.State := False;
+
+         Result := pthread_cond_signal (S.CV'Access);
+         pragma Assert (Result = 0);
+
+      else
+         S.State := True;
+      end if;
+
+      Result := pthread_mutex_unlock (S.L'Access);
+      pragma Assert (Result = 0);
+
+      SSL.Abort_Undefer.all;
+   end Set_True;
+
+   ------------------------
+   -- Suspend_Until_True --
+   ------------------------
+
+   procedure Suspend_Until_True (S : in out Suspension_Object) is
+      Result : Interfaces.C.int;
+
+   begin
+      SSL.Abort_Defer.all;
+
+      Result := pthread_mutex_lock (S.L'Access);
+      pragma Assert (Result = 0);
+
+      if S.Waiting then
+
+         --  Program_Error must be raised upon calling Suspend_Until_True
+         --  if another task is already waiting on that suspension object
+         --  (RM D.10(10)).
+
+         Result := pthread_mutex_unlock (S.L'Access);
+         pragma Assert (Result = 0);
+
+         SSL.Abort_Undefer.all;
+
+         raise Program_Error;
+
+      else
+         --  Suspend the task if the state is False. Otherwise, the task
+         --  continues its execution, and the state of the suspension object
+         --  is set to False (ARM D.10 par. 9).
+
+         if S.State then
+            S.State := False;
+         else
+            S.Waiting := True;
+
+            loop
+               --  Loop in case pthread_cond_wait returns earlier than expected
+               --  (e.g. in case of EINTR caused by a signal). This should not
+               --  happen with the current Linux implementation of pthread, but
+               --  POSIX does not guarantee it so this may change in future.
+
+               Result := pthread_cond_wait (S.CV'Access, S.L'Access);
+               pragma Assert (Result = 0 or else Result = EINTR);
+
+               exit when not S.Waiting;
+            end loop;
+         end if;
+
+         Result := pthread_mutex_unlock (S.L'Access);
+         pragma Assert (Result = 0);
+
+         SSL.Abort_Undefer.all;
+      end if;
+   end Suspend_Until_True;
+
+   ----------------
+   -- Check_Exit --
+   ----------------
+
+   --  Dummy version
+
+   function Check_Exit (Self_ID : ST.Task_Id) return Boolean is
+      pragma Unreferenced (Self_ID);
+   begin
+      return True;
+   end Check_Exit;
+
+   --------------------
+   -- Check_No_Locks --
+   --------------------
+
+   function Check_No_Locks (Self_ID : ST.Task_Id) return Boolean is
+      pragma Unreferenced (Self_ID);
+   begin
+      return True;
+   end Check_No_Locks;
+
+   ----------------------
+   -- Environment_Task --
+   ----------------------
+
+   function Environment_Task return Task_Id is
+   begin
+      return Environment_Task_Id;
+   end Environment_Task;
+
+   ------------------
+   -- Suspend_Task --
+   ------------------
+
+   function Suspend_Task
+     (T           : ST.Task_Id;
+      Thread_Self : Thread_Id) return Boolean
+   is
+   begin
+      if T.Common.LL.Thread /= Thread_Self then
+         return pthread_kill (T.Common.LL.Thread, SIGSTOP) = 0;
+      else
+         return True;
+      end if;
+   end Suspend_Task;
+
+   -----------------
+   -- Resume_Task --
+   -----------------
+
+   function Resume_Task
+     (T           : ST.Task_Id;
+      Thread_Self : Thread_Id) return Boolean
+   is
+   begin
+      if T.Common.LL.Thread /= Thread_Self then
+         return pthread_kill (T.Common.LL.Thread, SIGCONT) = 0;
+      else
+         return True;
+      end if;
+   end Resume_Task;
+
+   --------------------
+   -- Stop_All_Tasks --
+   --------------------
+
+   procedure Stop_All_Tasks is
+   begin
+      null;
+   end Stop_All_Tasks;
+
+   ---------------
+   -- Stop_Task --
+   ---------------
+
+   function Stop_Task (T : ST.Task_Id) return Boolean is
+      pragma Unreferenced (T);
+   begin
+      return False;
+   end Stop_Task;
+
+   -------------------
+   -- Continue_Task --
+   -------------------
+
+   function Continue_Task (T : ST.Task_Id) return Boolean is
+      pragma Unreferenced (T);
+   begin
+      return False;
+   end Continue_Task;
+
+   ----------------
+   -- Initialize --
+   ----------------
+
+   procedure Initialize (Environment_Task : Task_Id) is
+      act     : aliased struct_sigaction;
+      old_act : aliased struct_sigaction;
+      Tmp_Set : aliased sigset_t;
+      Result  : Interfaces.C.int;
+      --  Whether to use an alternate signal stack for stack overflows
+
+      function State
+        (Int : System.Interrupt_Management.Interrupt_ID) return Character;
+      pragma Import (C, State, "__gnat_get_interrupt_state");
+      --  Get interrupt state.  Defined in a-init.c
+      --  The input argument is the interrupt number,
+      --  and the result is one of the following:
+
+      Default : constant Character := 's';
+      --    'n'   this interrupt not set by any Interrupt_State pragma
+      --    'u'   Interrupt_State pragma set state to User
+      --    'r'   Interrupt_State pragma set state to Runtime
+      --    's'   Interrupt_State pragma set state to System (use "default"
+      --           system handler)
+
+      use type System.Multiprocessors.CPU_Range;
+
+   begin
+      Environment_Task_Id := Environment_Task;
+
+      Interrupt_Management.Initialize;
+
+      --  Prepare the set of signals that should be unblocked in all tasks
+
+      Result := sigemptyset (Unblocked_Signal_Mask'Access);
+      pragma Assert (Result = 0);
+
+      for J in Interrupt_Management.Interrupt_ID loop
+         if System.Interrupt_Management.Keep_Unmasked (J) then
+            Result := sigaddset (Unblocked_Signal_Mask'Access, Signal (J));
+            pragma Assert (Result = 0);
+         end if;
+      end loop;
+
+      Initialize_Lock (Single_RTS_Lock'Access, RTS_Lock_Level);
+
+      --  Initialize the global RTS lock
+
+      Specific.Initialize (Environment_Task);
+
+      if Use_Alternate_Stack then
+         Environment_Task.Common.Task_Alternate_Stack :=
+           Alternate_Stack'Address;
+      end if;
+
+      --  Make environment task known here because it doesn't go through
+      --  Activate_Tasks, which does it for all other tasks.
+
+      Known_Tasks (Known_Tasks'First) := Environment_Task;
+      Environment_Task.Known_Tasks_Index := Known_Tasks'First;
+
+      Enter_Task (Environment_Task);
+
+      if State
+          (System.Interrupt_Management.Abort_Task_Interrupt) /= Default
+      then
+         act.sa_flags := 0;
+         act.sa_handler := Abort_Handler'Address;
+
+         Result := sigemptyset (Tmp_Set'Access);
+         pragma Assert (Result = 0);
+         act.sa_mask := Tmp_Set;
+
+         Result :=
+           sigaction
+           (Signal (Interrupt_Management.Abort_Task_Interrupt),
+            act'Unchecked_Access,
+            old_act'Unchecked_Access);
+         pragma Assert (Result = 0);
+         Abort_Handler_Installed := True;
+      end if;
+
+      --  pragma CPU and dispatching domains for the environment task
+
+      Set_Task_Affinity (Environment_Task);
+   end Initialize;
+
+   -----------------------
+   -- Set_Task_Affinity --
+   -----------------------
+
+   procedure Set_Task_Affinity (T : ST.Task_Id) is
+      use type System.Multiprocessors.CPU_Range;
+
+   begin
+      --  Do nothing if there is no support for setting affinities or the
+      --  underlying thread has not yet been created. If the thread has not
+      --  yet been created then the proper affinity will be set during its
+      --  creation.
+
+      if pthread_setaffinity_np'Address /= System.Null_Address
+        and then T.Common.LL.Thread /= Null_Thread_Id
+      then
+         declare
+            CPUs    : constant size_t :=
+                        Interfaces.C.size_t
+                          (System.Multiprocessors.Number_Of_CPUs);
+            CPU_Set : cpu_set_t_ptr := null;
+            Size    : constant size_t := CPU_ALLOC_SIZE (CPUs);
+
+            Result  : Interfaces.C.int;
+
+         begin
+            --  We look at the specific CPU (Base_CPU) first, then at the
+            --  Task_Info field, and finally at the assigned dispatching
+            --  domain, if any.
+
+            if T.Common.Base_CPU /= Multiprocessors.Not_A_Specific_CPU then
+
+               --  Set the affinity to an unique CPU
+
+               CPU_Set := CPU_ALLOC (CPUs);
+               System.OS_Interface.CPU_ZERO (Size, CPU_Set);
+               System.OS_Interface.CPU_SET
+                 (int (T.Common.Base_CPU), Size, CPU_Set);
+
+            --  Handle Task_Info
+
+            elsif T.Common.Task_Info /= null then
+               CPU_Set := T.Common.Task_Info.CPU_Affinity'Access;
+
+            --  Handle dispatching domains
+
+            elsif T.Common.Domain /= null and then
+              (T.Common.Domain /= ST.System_Domain
+                or else T.Common.Domain.all /=
+                          (Multiprocessors.CPU'First ..
+                           Multiprocessors.Number_Of_CPUs => True))
+            then
+               --  Set the affinity to all the processors belonging to the
+               --  dispatching domain. To avoid changing CPU affinities when
+               --  not needed, we set the affinity only when assigning to a
+               --  domain other than the default one, or when the default one
+               --  has been modified.
+
+               CPU_Set := CPU_ALLOC (CPUs);
+               System.OS_Interface.CPU_ZERO (Size, CPU_Set);
+
+               for Proc in T.Common.Domain'Range loop
+                  System.OS_Interface.CPU_SET (int (Proc), Size, CPU_Set);
+               end loop;
+            end if;
+
+            --  We set the new affinity if needed. Otherwise, the new task
+            --  will inherit its creator's CPU affinity mask (according to
+            --  the documentation of pthread_setaffinity_np), which is
+            --  consistent with Ada's required semantics.
+
+            if CPU_Set /= null then
+               Result :=
+                 pthread_setaffinity_np (T.Common.LL.Thread, Size, CPU_Set);
+               pragma Assert (Result = 0);
+
+               CPU_FREE (CPU_Set);
+            end if;
+         end;
+      end if;
+   end Set_Task_Affinity;
+
+end System.Task_Primitives.Operations;
-- 
1.8.3.1


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