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|
/****************************************************************************
* *
* GNAT COMPILER COMPONENTS *
* *
* I N I T *
* *
* $Revision$
* *
* C Implementation File *
* *
* Copyright (C) 1992-2001 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 2, 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. See the GNU General Public License *
* for more details. You should have received a copy of the GNU General *
* Public License distributed with GNAT; 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 you link this file with other files to *
* produce an executable, this file does not by itself cause the resulting *
* executable to be covered by the GNU General Public License. This except- *
* ion does not however invalidate any other reasons why the executable *
* file might be covered by the GNU Public License. *
* *
* GNAT was originally developed by the GNAT team at New York University. *
* It is now maintained by Ada Core Technologies Inc (http://www.gnat.com). *
* *
****************************************************************************/
/* This unit contains initialization circuits that are system dependent. A
major part of the functionality involved involves stack overflow checking.
The GCC backend generates probe instructions to test for stack overflow.
For details on the exact approach used to generate these probes, see the
"Using and Porting GCC" manual, in particular the "Stack Checking" section
and the subsection "Specifying How Stack Checking is Done". The handlers
installed by this file are used to handle resulting signals that come
from these probes failing (i.e. touching protected pages) */
/* The following include is here to meet the published VxWorks requirement
that the __vxworks header appear before any other include. */
#ifdef __vxworks
#include "vxWorks.h"
#endif
#ifdef IN_RTS
#include "tconfig.h"
#include "tsystem.h"
#include <sys/stat.h>
#else
#include "config.h"
#include "system.h"
#endif
#include "adaint.h"
#include "raise.h"
extern void __gnat_raise_program_error (const char *, int);
/* Addresses of exception data blocks for predefined exceptions. */
extern struct Exception_Data constraint_error;
extern struct Exception_Data numeric_error;
extern struct Exception_Data program_error;
extern struct Exception_Data storage_error;
extern struct Exception_Data tasking_error;
extern struct Exception_Data _abort_signal;
#define Lock_Task system__soft_links__lock_task
extern void (*Lock_Task) PARAMS ((void));
#define Unlock_Task system__soft_links__unlock_task
extern void (*Unlock_Task) PARAMS ((void));
#define Get_Machine_State_Addr \
system__soft_links__get_machine_state_addr
extern struct Machine_State *(*Get_Machine_State_Addr) PARAMS ((void));
#define Check_Abort_Status \
system__soft_links__check_abort_status
extern int (*Check_Abort_Status) PARAMS ((void));
#define Raise_From_Signal_Handler \
ada__exceptions__raise_from_signal_handler
extern void Raise_From_Signal_Handler PARAMS ((struct Exception_Data *,
char *));
#define Propagate_Signal_Exception \
__gnat_propagate_sig_exc
extern void Propagate_Signal_Exception
PARAMS ((struct Machine_State *, struct Exception_Data *, char *));
/* Copies of global values computed by the binder */
int __gl_main_priority = -1;
int __gl_time_slice_val = -1;
char __gl_wc_encoding = 'n';
char __gl_locking_policy = ' ';
char __gl_queuing_policy = ' ';
char __gl_task_dispatching_policy = ' ';
int __gl_unreserve_all_interrupts = 0;
int __gl_exception_tracebacks = 0;
/* Indication of whether synchronous signal handler has already been
installed by a previous call to adainit */
int __gnat_handler_installed = 0;
/* HAVE_GNAT_INIT_FLOAT must be set on every targets where a __gnat_init_float
is defined. If this is not set them a void implementation will be defined
at the end of this unit. */
#undef HAVE_GNAT_INIT_FLOAT
/**********************/
/* __gnat_set_globals */
/**********************/
/* This routine is called from the binder generated main program. It copies
the values for global quantities computed by the binder into the following
global locations. The reason that we go through this copy, rather than just
define the global locations in the binder generated file, is that they are
referenced from the runtime, which may be in a shared library, and the
binder file is not in the shared library. Global references across library
boundaries like this are not handled correctly in all systems. */
void
__gnat_set_globals (main_priority, time_slice_val, wc_encoding, locking_policy,
queuing_policy, task_dispatching_policy, adafinal_ptr,
unreserve_all_interrupts, exception_tracebacks)
int main_priority;
int time_slice_val;
int wc_encoding;
int locking_policy, queuing_policy, task_dispatching_policy;
void (*adafinal_ptr) PARAMS ((void)) ATTRIBUTE_UNUSED;
int unreserve_all_interrupts, exception_tracebacks;
{
static int already_called = 0;
/* If this procedure has been already called once, check that the
arguments in this call are consistent with the ones in the previous
calls. Otherwise, raise a Program_Error exception.
We do not check for consistency of the wide character encoding
method. This default affects only Wide_Text_IO where no explicit
coding method is given, and there is no particular reason to let
this default be affected by the source representation of a library
in any case.
The value of main_priority is meaningful only when we are invoked
from the main program elaboration routine of an Ada application.
Checking the consistency of this parameter should therefore not be
done. Since it is assured that the main program elaboration will
always invoke this procedure before any library elaboration
routine, only the value of main_priority during the first call
should be taken into account and all the subsequent ones should be
ignored. Note that the case where the main program is not written
in Ada is also properly handled, since the default value will then
be used for this parameter.
For identical reasons, the consistency of time_slice_val should not
be checked. */
if (already_called)
{
if (__gl_locking_policy != locking_policy ||
__gl_queuing_policy != queuing_policy ||
__gl_task_dispatching_policy != task_dispatching_policy ||
__gl_unreserve_all_interrupts != unreserve_all_interrupts ||
__gl_exception_tracebacks != exception_tracebacks)
{
__gnat_raise_program_error (__FILE__, __LINE__);
}
return;
}
already_called = 1;
__gl_main_priority = main_priority;
__gl_time_slice_val = time_slice_val;
__gl_wc_encoding = wc_encoding;
__gl_locking_policy = locking_policy;
__gl_queuing_policy = queuing_policy;
__gl_task_dispatching_policy = task_dispatching_policy;
__gl_unreserve_all_interrupts = unreserve_all_interrupts;
__gl_exception_tracebacks = exception_tracebacks;
}
/*********************/
/* __gnat_initialize */
/*********************/
/* __gnat_initialize is called at the start of execution of an Ada program
(the call is generated by the binder). The standard routine does nothing
at all; the intention is that this be replaced by system specific
code where initialization is required. */
/***********************************/
/* __gnat_initialize (AIX version) */
/***********************************/
#if defined (_AIX)
/* AiX doesn't have SA_NODEFER */
#define SA_NODEFER 0
#include <sys/time.h>
/* AiX doesn't have nanosleep, but provides nsleep instead */
extern int nanosleep PARAMS ((struct timestruc_t *, struct timestruc_t *));
static void __gnat_error_handler PARAMS ((int));
int
nanosleep (Rqtp, Rmtp)
struct timestruc_t *Rqtp, *Rmtp;
{
return nsleep (Rqtp, Rmtp);
}
#include <signal.h>
static void
__gnat_error_handler (sig)
int sig;
{
struct Exception_Data *exception;
char *msg;
switch (sig)
{
case SIGSEGV:
/* FIXME: we need to detect the case of a *real* SIGSEGV */
exception = &storage_error;
msg = "stack overflow or erroneous memory access";
break;
case SIGBUS:
exception = &constraint_error;
msg = "SIGBUS";
break;
case SIGFPE:
exception = &constraint_error;
msg = "SIGFPE";
break;
default:
exception = &program_error;
msg = "unhandled signal";
}
Raise_From_Signal_Handler (exception, msg);
}
void
__gnat_install_handler ()
{
struct sigaction act;
/* Set up signal handler to map synchronous signals to appropriate
exceptions. Make sure that the handler isn't interrupted by another
signal that might cause a scheduling event! */
act.sa_handler = __gnat_error_handler;
act.sa_flags = SA_NODEFER | SA_RESTART;
(void) sigemptyset (&act.sa_mask);
(void) sigaction (SIGABRT, &act, NULL);
(void) sigaction (SIGFPE, &act, NULL);
if (__gl_unreserve_all_interrupts == 0)
{
(void) sigaction (SIGILL, &act, NULL);
(void) sigaction (SIGSEGV, &act, NULL);
(void) sigaction (SIGBUS, &act, NULL);
}
__gnat_handler_installed = 1;
}
void
__gnat_initialize ()
{
}
/****************************************/
/* __gnat_initialize (Dec Unix version) */
/****************************************/
#elif defined(__alpha__) && defined(__osf__) && ! defined(__alpha_vxworks)
/* Note: it seems that __osf__ is defined for the Alpha VXWorks case. Not
clear that this is reasonable, but in any case we have to be sure to
exclude this case in the above test. */
#include <signal.h>
#include <sys/siginfo.h>
static void __gnat_error_handler PARAMS ((int, siginfo_t *,
struct sigcontext *));
extern char *__gnat_get_code_loc PARAMS ((struct sigcontext *));
extern void __gnat_enter_handler PARAMS ((struct sigcontext *, char *));
extern size_t __gnat_machine_state_length PARAMS ((void));
extern long exc_lookup_gp PARAMS ((char *));
extern void exc_resume PARAMS ((struct sigcontext *));
static void
__gnat_error_handler (sig, sip, context)
int sig;
siginfo_t *sip;
struct sigcontext *context;
{
struct Exception_Data *exception;
static int recurse = 0;
struct sigcontext *mstate;
const char *msg;
/* If this was an explicit signal from a "kill", just resignal it. */
if (SI_FROMUSER (sip))
{
signal (sig, SIG_DFL);
kill (getpid(), sig);
}
/* Otherwise, treat it as something we handle. */
switch (sig)
{
case SIGSEGV:
/* If the problem was permissions, this is a constraint error.
Likewise if the failing address isn't maximally aligned or if
we've recursed.
??? Using a static variable here isn't task-safe, but it's
much too hard to do anything else and we're just determining
which exception to raise. */
if (sip->si_code == SEGV_ACCERR
|| (((long) sip->si_addr) & 3) != 0
|| recurse)
{
exception = &constraint_error;
msg = "SIGSEGV";
}
else
{
/* See if the page before the faulting page is accessable. Do that
by trying to access it. We'd like to simply try to access
4096 + the faulting address, but it's not guaranteed to be
the actual address, just to be on the same page. */
recurse++;
((volatile char *)
((long) sip->si_addr & - getpagesize ()))[getpagesize ()];
msg = "stack overflow (or erroneous memory access)";
exception = &storage_error;
}
break;
case SIGBUS:
exception = &program_error;
msg = "SIGBUS";
break;
case SIGFPE:
exception = &constraint_error;
msg = "SIGFPE";
break;
default:
exception = &program_error;
msg = "unhandled signal";
}
recurse = 0;
mstate = (struct sigcontext *) (*Get_Machine_State_Addr) ();
if (mstate != 0)
*mstate = *context;
Raise_From_Signal_Handler (exception, (char *) msg);
}
void
__gnat_install_handler ()
{
struct sigaction act;
/* Setup signal handler to map synchronous signals to appropriate
exceptions. Make sure that the handler isn't interrupted by another
signal that might cause a scheduling event! */
act.sa_handler = (void (*) PARAMS ((int))) __gnat_error_handler;
act.sa_flags = SA_ONSTACK | SA_RESTART | SA_NODEFER | SA_SIGINFO;
(void) sigemptyset (&act.sa_mask);
(void) sigaction (SIGABRT, &act, NULL);
(void) sigaction (SIGFPE, &act, NULL);
if (__gl_unreserve_all_interrupts == 0)
{
(void) sigaction (SIGILL, &act, NULL);
(void) sigaction (SIGSEGV, &act, NULL);
(void) sigaction (SIGBUS, &act, NULL);
}
__gnat_handler_installed = 1;
}
void
__gnat_initialize ()
{
}
/* Routines called by 5amastop.adb. */
#define SC_GP 29
char *
__gnat_get_code_loc (context)
struct sigcontext *context;
{
return (char *) context->sc_pc;
}
void
__gnat_enter_handler (context, pc)
struct sigcontext *context;
char *pc;
{
context->sc_pc = (long) pc;
context->sc_regs[SC_GP] = exc_lookup_gp (pc);
exc_resume (context);
}
size_t
__gnat_machine_state_length ()
{
return sizeof (struct sigcontext);
}
/***********************************/
/* __gnat_initialize (HPUX version) */
/***********************************/
#elif defined (hpux)
#include <signal.h>
static void __gnat_error_handler PARAMS ((int));
static void
__gnat_error_handler (sig)
int sig;
{
struct Exception_Data *exception;
char *msg;
switch (sig)
{
case SIGSEGV:
/* FIXME: we need to detect the case of a *real* SIGSEGV */
exception = &storage_error;
msg = "stack overflow or erroneous memory access";
break;
case SIGBUS:
exception = &constraint_error;
msg = "SIGBUS";
break;
case SIGFPE:
exception = &constraint_error;
msg = "SIGFPE";
break;
default:
exception = &program_error;
msg = "unhandled signal";
}
Raise_From_Signal_Handler (exception, msg);
}
void
__gnat_install_handler ()
{
struct sigaction act;
/* Set up signal handler to map synchronous signals to appropriate
exceptions. Make sure that the handler isn't interrupted by another
signal that might cause a scheduling event! Also setup an alternate
stack region for the handler execution so that stack overflows can be
handled properly, avoiding a SEGV generation from stack usage by the
handler itself. */
static char handler_stack [SIGSTKSZ];
stack_t stack;
stack.ss_sp = handler_stack;
stack.ss_size = SIGSTKSZ;
stack.ss_flags = 0;
(void) sigaltstack (&stack, NULL);
act.sa_handler = __gnat_error_handler;
act.sa_flags = SA_NODEFER | SA_RESTART | SA_ONSTACK;
(void) sigemptyset (&act.sa_mask);
(void) sigaction (SIGABRT, &act, NULL);
(void) sigaction (SIGFPE, &act, NULL);
if (__gl_unreserve_all_interrupts == 0)
{
(void) sigaction (SIGILL, &act, NULL);
(void) sigaction (SIGSEGV, &act, NULL);
(void) sigaction (SIGBUS, &act, NULL);
}
__gnat_handler_installed = 1;
}
void
__gnat_initialize ()
{
}
/*************************************/
/* __gnat_initialize (GNU/Linux version) */
/*************************************/
#elif defined (linux) && defined (i386) && !defined (__RT__)
#include <signal.h>
#include <asm/sigcontext.h>
/* GNU/Linux, which uses glibc, does not define NULL in included
header files */
#if !defined (NULL)
#define NULL ((void *) 0)
#endif
struct Machine_State
{
unsigned long eip;
unsigned long ebx;
unsigned long esp;
unsigned long ebp;
unsigned long esi;
unsigned long edi;
};
static void __gnat_error_handler PARAMS ((int));
static void
__gnat_error_handler (sig)
int sig;
{
struct Exception_Data *exception;
char *msg;
static int recurse = 0;
struct sigcontext *info
= (struct sigcontext *) (((char *) &sig) + sizeof (int));
/* The Linux kernel does not document how to get the machine state in a
signal handler, but in fact the necessary data is in a sigcontext_struct
value that is on the stack immediately above the signal number
parameter, and the above messing accesses this value on the stack. */
struct Machine_State *mstate;
switch (sig)
{
case SIGSEGV:
/* If the problem was permissions, this is a constraint error.
Likewise if the failing address isn't maximally aligned or if
we've recursed.
??? Using a static variable here isn't task-safe, but it's
much too hard to do anything else and we're just determining
which exception to raise. */
if (recurse)
{
exception = &constraint_error;
msg = "SIGSEGV";
}
else
{
/* Here we would like a discrimination test to see whether the
page before the faulting address is accessible. Unfortunately
Linux seems to have no way of giving us the faulting address.
In versions of a-init.c before 1.95, we had a test of the page
before the stack pointer using:
recurse++;
((volatile char *)
((long) info->esp_at_signal & - getpagesize ()))[getpagesize ()];
but that's wrong, since it tests the stack pointer location, and
the current stack probe code does not move the stack pointer
until all probes succeed.
For now we simply do not attempt any discrimination at all. Note
that this is quite acceptable, since a "real" SIGSEGV can only
occur as the result of an erroneous program */
msg = "stack overflow (or erroneous memory access)";
exception = &storage_error;
}
break;
case SIGBUS:
exception = &constraint_error;
msg = "SIGBUS";
break;
case SIGFPE:
exception = &constraint_error;
msg = "SIGFPE";
break;
default:
exception = &program_error;
msg = "unhandled signal";
}
mstate = (*Get_Machine_State_Addr)();
if (mstate)
{
mstate->eip = info->eip;
mstate->ebx = info->ebx;
mstate->esp = info->esp_at_signal;
mstate->ebp = info->ebp;
mstate->esi = info->esi;
mstate->edi = info->edi;
}
recurse = 0;
Raise_From_Signal_Handler (exception, msg);
}
void
__gnat_install_handler ()
{
struct sigaction act;
/* Set up signal handler to map synchronous signals to appropriate
exceptions. Make sure that the handler isn't interrupted by another
signal that might cause a scheduling event! */
act.sa_handler = __gnat_error_handler;
act.sa_flags = SA_NODEFER | SA_RESTART;
(void) sigemptyset (&act.sa_mask);
(void) sigaction (SIGABRT, &act, NULL);
(void) sigaction (SIGFPE, &act, NULL);
if (__gl_unreserve_all_interrupts == 0)
{
(void) sigaction (SIGILL, &act, NULL);
(void) sigaction (SIGSEGV, &act, NULL);
(void) sigaction (SIGBUS, &act, NULL);
}
__gnat_handler_installed = 1;
}
void
__gnat_initialize ()
{
}
/******************************************/
/* __gnat_initialize (NT-mingw32 version) */
/******************************************/
#elif defined (__MINGW32__)
#include <windows.h>
static LONG __gnat_error_handler PARAMS ((PEXCEPTION_POINTERS));
/* __gnat_initialize (mingw32). */
static LONG
__gnat_error_handler (info)
PEXCEPTION_POINTERS info;
{
static int recurse;
struct Exception_Data *exception;
char *msg;
switch (info->ExceptionRecord->ExceptionCode)
{
case EXCEPTION_ACCESS_VIOLATION:
/* If the failing address isn't maximally-aligned or if we've
recursed, this is a program error. */
if ((info->ExceptionRecord->ExceptionInformation[1] & 3) != 0
|| recurse)
{
exception = &program_error;
msg = "EXCEPTION_ACCESS_VIOLATION";
}
else
{
/* See if the page before the faulting page is accessable. Do that
by trying to access it. */
recurse++;
* ((volatile char *) (info->ExceptionRecord->ExceptionInformation[1]
+ 4096));
exception = &storage_error;
msg = "stack overflow (or erroneous memory access)";
}
break;
case EXCEPTION_ARRAY_BOUNDS_EXCEEDED:
exception = &constraint_error;
msg = "EXCEPTION_ARRAY_BOUNDS_EXCEEDED";
break;
case EXCEPTION_DATATYPE_MISALIGNMENT:
exception = &constraint_error;
msg = "EXCEPTION_DATATYPE_MISALIGNMENT";
break;
case EXCEPTION_FLT_DENORMAL_OPERAND:
exception = &constraint_error;
msg = "EXCEPTION_FLT_DENORMAL_OPERAND";
break;
case EXCEPTION_FLT_DIVIDE_BY_ZERO:
exception = &constraint_error;
msg = "EXCEPTION_FLT_DENORMAL_OPERAND";
break;
case EXCEPTION_FLT_INVALID_OPERATION:
exception = &constraint_error;
msg = "EXCEPTION_FLT_INVALID_OPERATION";
break;
case EXCEPTION_FLT_OVERFLOW:
exception = &constraint_error;
msg = "EXCEPTION_FLT_OVERFLOW";
break;
case EXCEPTION_FLT_STACK_CHECK:
exception = &program_error;
msg = "EXCEPTION_FLT_STACK_CHECK";
break;
case EXCEPTION_FLT_UNDERFLOW:
exception = &constraint_error;
msg = "EXCEPTION_FLT_UNDERFLOW";
break;
case EXCEPTION_INT_DIVIDE_BY_ZERO:
exception = &constraint_error;
msg = "EXCEPTION_INT_DIVIDE_BY_ZERO";
break;
case EXCEPTION_INT_OVERFLOW:
exception = &constraint_error;
msg = "EXCEPTION_INT_OVERFLOW";
break;
case EXCEPTION_INVALID_DISPOSITION:
exception = &program_error;
msg = "EXCEPTION_INVALID_DISPOSITION";
break;
case EXCEPTION_NONCONTINUABLE_EXCEPTION:
exception = &program_error;
msg = "EXCEPTION_NONCONTINUABLE_EXCEPTION";
break;
case EXCEPTION_PRIV_INSTRUCTION:
exception = &program_error;
msg = "EXCEPTION_PRIV_INSTRUCTION";
break;
case EXCEPTION_SINGLE_STEP:
exception = &program_error;
msg = "EXCEPTION_SINGLE_STEP";
break;
case EXCEPTION_STACK_OVERFLOW:
exception = &storage_error;
msg = "EXCEPTION_STACK_OVERFLOW";
break;
default:
exception = &program_error;
msg = "unhandled signal";
}
recurse = 0;
Raise_From_Signal_Handler (exception, msg);
}
void
__gnat_install_handler ()
{
SetUnhandledExceptionFilter (__gnat_error_handler);
__gnat_handler_installed = 1;
}
void
__gnat_initialize ()
{
/* Initialize floating-point coprocessor. This call is needed because
the MS libraries default to 64-bit precision instead of 80-bit
precision, and we require the full precision for proper operation,
given that we have set Max_Digits etc with this in mind */
__gnat_init_float ();
/* initialize a lock for a process handle list - see a-adaint.c for the
implementation of __gnat_portable_no_block_spawn, __gnat_portable_wait */
__gnat_plist_init();
}
/**************************************/
/* __gnat_initialize (Interix version) */
/**************************************/
#elif defined (__INTERIX)
#include <signal.h>
static void __gnat_error_handler PARAMS ((int));
static void
__gnat_error_handler (sig)
int sig;
{
struct Exception_Data *exception;
char *msg;
switch (sig)
{
case SIGSEGV:
exception = &storage_error;
msg = "stack overflow or erroneous memory access";
break;
case SIGBUS:
exception = &constraint_error;
msg = "SIGBUS";
break;
case SIGFPE:
exception = &constraint_error;
msg = "SIGFPE";
break;
default:
exception = &program_error;
msg = "unhandled signal";
}
Raise_From_Signal_Handler (exception, msg);
}
void
__gnat_install_handler ()
{
struct sigaction act;
/* Set up signal handler to map synchronous signals to appropriate
exceptions. Make sure that the handler isn't interrupted by another
signal that might cause a scheduling event! */
act.sa_handler = __gnat_error_handler;
act.sa_flags = 0;
(void) sigemptyset (&act.sa_mask);
/* Handlers for signals besides SIGSEGV cause c974013 to hang */
/* (void) sigaction (SIGILL, &act, NULL); */
/* (void) sigaction (SIGABRT, &act, NULL); */
/* (void) sigaction (SIGFPE, &act, NULL); */
/* (void) sigaction (SIGBUS, &act, NULL); */
if (__gl_unreserve_all_interrupts == 0)
{
(void) sigaction (SIGSEGV, &act, NULL);
}
__gnat_handler_installed = 1;
}
void
__gnat_initialize ()
{
__gnat_init_float ();
}
/**************************************/
/* __gnat_initialize (LynxOS version) */
/**************************************/
#elif defined (__Lynx__)
void
__gnat_initialize ()
{
__gnat_init_float ();
}
/*********************************/
/* __gnat_install_handler (Lynx) */
/*********************************/
void
__gnat_install_handler ()
{
__gnat_handler_installed = 1;
}
/****************************/
/* __gnat_initialize (OS/2) */
/****************************/
#elif defined (__EMX__) /* OS/2 dependent initialization */
void
__gnat_initialize ()
{
}
/*********************************/
/* __gnat_install_handler (OS/2) */
/*********************************/
void
__gnat_install_handler ()
{
__gnat_handler_installed = 1;
}
/***********************************/
/* __gnat_initialize (SGI version) */
/***********************************/
#elif defined (sgi)
#include <signal.h>
#include <siginfo.h>
#ifndef NULL
#define NULL 0
#endif
#define SIGADAABORT 48
#define SIGNAL_STACK_SIZE 4096
#define SIGNAL_STACK_ALIGNMENT 64
struct Machine_State
{
sigcontext_t context;
};
static void __gnat_error_handler PARAMS ((int, int, sigcontext_t *));
static void
__gnat_error_handler (sig, code, sc)
int sig;
int code;
sigcontext_t *sc;
{
struct Machine_State *mstate;
struct Exception_Data *exception;
char *msg;
int i;
switch (sig)
{
case SIGSEGV:
if (code == EFAULT)
{
exception = &program_error;
msg = "SIGSEGV: (Invalid virtual address)";
}
else if (code == ENXIO)
{
exception = &program_error;
msg = "SIGSEGV: (Read beyond mapped object)";
}
else if (code == ENOSPC)
{
exception = &program_error; /* ??? storage_error ??? */
msg = "SIGSEGV: (Autogrow for file failed)";
}
else if (code == EACCES)
{
/* ??? Re-add smarts to further verify that we launched
the stack into a guard page, not an attempt to
write to .text or something */
exception = &storage_error;
msg = "SIGSEGV: (stack overflow or erroneous memory access)";
}
else
{
/* Just in case the OS guys did it to us again. Sometimes
they fail to document all of the valid codes that are
passed to signal handlers, just in case someone depends
on knowing all the codes */
exception = &program_error;
msg = "SIGSEGV: (Undocumented reason)";
}
break;
case SIGBUS:
/* Map all bus errors to Program_Error. */
exception = &program_error;
msg = "SIGBUS";
break;
case SIGFPE:
/* Map all fpe errors to Constraint_Error. */
exception = &constraint_error;
msg = "SIGFPE";
break;
case SIGADAABORT:
if ((*Check_Abort_Status) ())
{
exception = &_abort_signal;
msg = "";
}
else
return;
break;
default:
/* Everything else is a Program_Error. */
exception = &program_error;
msg = "unhandled signal";
}
mstate = (*Get_Machine_State_Addr)();
if (mstate != 0)
memcpy ((void *) mstate, (const void *) sc, sizeof (sigcontext_t));
Raise_From_Signal_Handler (exception, msg);
}
void
__gnat_install_handler ()
{
stack_t ss;
struct sigaction act;
/* Setup signal handler to map synchronous signals to appropriate
exceptions. Make sure that the handler isn't interrupted by another
signal that might cause a scheduling event! */
act.sa_handler = __gnat_error_handler;
act.sa_flags = SA_NODEFER + SA_RESTART;
(void) sigfillset (&act.sa_mask);
(void) sigemptyset (&act.sa_mask);
(void) sigaction (SIGABRT, &act, NULL);
(void) sigaction (SIGFPE, &act, NULL);
if (__gl_unreserve_all_interrupts == 0)
{
(void) sigaction (SIGILL, &act, NULL);
(void) sigaction (SIGSEGV, &act, NULL);
(void) sigaction (SIGBUS, &act, NULL);
}
(void) sigaction (SIGADAABORT, &act, NULL);
__gnat_handler_installed = 1;
}
void
__gnat_initialize ()
{
}
/*************************************************/
/* __gnat_initialize (Solaris and SunOS version) */
/*************************************************/
#elif defined (sun) && defined (__SVR4) && !defined (__vxworks)
#include <signal.h>
#include <siginfo.h>
static void __gnat_error_handler PARAMS ((int, siginfo_t *));
static void
__gnat_error_handler (sig, sip)
int sig;
siginfo_t *sip;
{
struct Exception_Data *exception;
static int recurse = 0;
char *msg;
/* If this was an explicit signal from a "kill", just resignal it. */
if (SI_FROMUSER (sip))
{
signal (sig, SIG_DFL);
kill (getpid(), sig);
}
/* Otherwise, treat it as something we handle. */
switch (sig)
{
case SIGSEGV:
/* If the problem was permissions, this is a constraint error.
Likewise if the failing address isn't maximally aligned or if
we've recursed.
??? Using a static variable here isn't task-safe, but it's
much too hard to do anything else and we're just determining
which exception to raise. */
if (sip->si_code == SEGV_ACCERR
|| (((long) sip->si_addr) & 3) != 0
|| recurse)
{
exception = &constraint_error;
msg = "SIGSEGV";
}
else
{
/* See if the page before the faulting page is accessable. Do that
by trying to access it. We'd like to simply try to access
4096 + the faulting address, but it's not guaranteed to be
the actual address, just to be on the same page. */
recurse++;
((volatile char *)
((long) sip->si_addr & - getpagesize ()))[getpagesize ()];
exception = &storage_error;
msg = "stack overflow (or erroneous memory access)";
}
break;
case SIGBUS:
exception = &program_error;
msg = "SIGBUS";
break;
case SIGFPE:
exception = &constraint_error;
msg = "SIGFPE";
break;
default:
exception = &program_error;
msg = "unhandled signal";
}
recurse = 0;
Raise_From_Signal_Handler (exception, msg);
}
void
__gnat_install_handler ()
{
struct sigaction act;
/* Set up signal handler to map synchronous signals to appropriate
exceptions. Make sure that the handler isn't interrupted by another
signal that might cause a scheduling event! */
act.sa_handler = __gnat_error_handler;
act.sa_flags = SA_NODEFER | SA_RESTART | SA_SIGINFO;
(void) sigemptyset (&act.sa_mask);
(void) sigaction (SIGABRT, &act, NULL);
if (__gl_unreserve_all_interrupts == 0)
{
(void) sigaction (SIGFPE, &act, NULL);
(void) sigaction (SIGSEGV, &act, NULL);
(void) sigaction (SIGBUS, &act, NULL);
}
__gnat_handler_installed = 1;
}
void
__gnat_initialize ()
{
}
/***********************************/
/* __gnat_initialize (SNI version) */
/***********************************/
#elif defined (__sni__)
/* SNI needs special defines and includes */
#define _XOPEN_SOURCE
#define _POSIX_SOURCE
#include <signal.h>
extern size_t __gnat_getpagesize PARAMS ((void));
static void __gnat_error_handler PARAMS ((int));
/* The run time needs this function which is a #define in SNI */
size_t
__gnat_getpagesize ()
{
return getpagesize ();
}
static void
__gnat_error_handler (sig)
int sig;
{
struct Exception_Data *exception;
char *msg;
switch (sig)
{
case SIGSEGV:
/* FIXME: we need to detect the case of a *real* SIGSEGV */
exception = &storage_error;
msg = "stack overflow or erroneous memory access";
break;
case SIGBUS:
exception = &constraint_error;
msg = "SIGBUS";
break;
case SIGFPE:
exception = &constraint_error;
msg = "SIGFPE";
break;
default:
exception = &program_error;
msg = "unhandled signal";
}
Raise_From_Signal_Handler (exception, msg);
}
void
__gnat_install_handler ()
{
struct sigaction act;
/* Set up signal handler to map synchronous signals to appropriate
exceptions. Make sure that the handler isn't interrupted by another
signal that might cause a scheduling event! */
act.sa_handler = __gnat_error_handler;
act.sa_flags = SA_NODEFER | SA_RESTART;
(void) sigemptyset (&act.sa_mask);
(void) sigaction (SIGABRT, &act, NULL);
(void) sigaction (SIGFPE, &act, NULL);
if (__gl_unreserve_all_interrupts == 0)
{
(void) sigaction (SIGILL, &act, NULL);
(void) sigaction (SIGSEGV, &act, NULL);
(void) sigaction (SIGBUS, &act, NULL);
}
__gnat_handler_installed = 1;
}
void
__gnat_initialize ()
{
}
/***********************************/
/* __gnat_initialize (VMS version) */
/***********************************/
#elif defined (VMS)
/* The prehandler actually gets control first on a condition. It swaps the
stack pointer and calls the handler (__gnat_error_handler). */
extern long __gnat_error_prehandler ();
extern char *__gnat_error_prehandler_stack; /* Alternate signal stack */
/* Conditions that don't have an Ada exception counterpart must raise
Non_Ada_Error. Since this is defined in s-auxdec, it should only be
referenced by user programs, not the compiler or tools. Hence the
#ifdef IN_RTS. */
#ifdef IN_RTS
#define Non_Ada_Error system__aux_dec__non_ada_error
extern struct Exception_Data Non_Ada_Error;
#define Coded_Exception system__vms_exception_table__coded_exception
extern struct Exception_Data *Coded_Exception (int);
#endif
/* Define macro symbols for the VMS conditions that become Ada exceptions.
Most of these are also defined in the header file ssdef.h which has not
yet been converted to be recoginized by Gnu C. Some, which couldn't be
located, are assigned names based on the DEC test suite tests which
raise them. */
#define SS$_ACCVIO 12
#define SS$_DEBUG 1132
#define SS$_INTDIV 1156
#define SS$_HPARITH 1284
#define SS$_STKOVF 1364
#define SS$_RESIGNAL 2328
#define MTH$_FLOOVEMAT 1475268 /* Some ACVC_21 CXA tests */
#define SS$_CE24VRU 3253636 /* Write to unopened file */
#define SS$_C980VTE 3246436 /* AST requests time slice */
#define CMA$_EXIT_THREAD 4227492
#define CMA$_EXCCOPLOS 4228108
#define CMA$_ALERTED 4227460
struct descriptor_s {unsigned short len, mbz; char *adr; };
static long __gnat_error_handler PARAMS ((int *, void *));
static long
__gnat_error_handler (sigargs, mechargs)
int *sigargs;
void *mechargs;
{
struct Exception_Data *exception = 0;
char *msg = "";
char message [256];
long prvhnd;
struct descriptor_s msgdesc;
int msg_flag = 0x000f; /* 1 bit for each of the four message parts */
unsigned short outlen;
char curr_icb [544];
long curr_invo_handle;
long *mstate;
/* Resignaled condtions aren't effected by by pragma Import_Exception */
switch (sigargs[1])
{
case CMA$_EXIT_THREAD:
return SS$_RESIGNAL;
case SS$_DEBUG: /* Gdb attach, resignal to merge activate gdbstub. */
return SS$_RESIGNAL;
case 1409786: /* Nickerson bug #33 ??? */
return SS$_RESIGNAL;
case 1381050: /* Nickerson bug #33 ??? */
return SS$_RESIGNAL;
case 11829410: /* Resignalled as Use_Error for CE10VRC */
return SS$_RESIGNAL;
}
#ifdef IN_RTS
/* See if it's an imported exception. Mask off severity bits. */
exception = Coded_Exception (sigargs [1] & 0xfffffff8);
if (exception)
{
msgdesc.len = 256;
msgdesc.mbz = 0;
msgdesc.adr = message;
SYS$GETMSG (sigargs[1], &outlen, &msgdesc, msg_flag, 0);
message [outlen] = 0;
msg = message;
exception->Name_Length = 19;
/* The full name really should be get sys$getmsg returns. ??? */
exception->Full_Name = "IMPORTED_EXCEPTION";
exception->Import_Code = sigargs [1] & 0xfffffff8;
}
#endif
if (exception == 0)
switch (sigargs[1])
{
case SS$_ACCVIO:
if (sigargs[3] == 0)
{
exception = &constraint_error;
msg = "access zero";
}
else
{
exception = &storage_error;
msg = "stack overflow (or erroneous memory access)";
}
break;
case SS$_STKOVF:
exception = &storage_error;
msg = "stack overflow";
break;
case SS$_INTDIV:
exception = &constraint_error;
msg = "division by zero";
break;
case SS$_HPARITH:
#ifndef IN_RTS
return SS$_RESIGNAL; /* toplev.c handles for compiler */
#else
{
exception = &constraint_error;
msg = "arithmetic error";
}
#endif
break;
case MTH$_FLOOVEMAT:
exception = &constraint_error;
msg = "floating overflow in math library";
break;
case SS$_CE24VRU:
exception = &constraint_error;
msg = "";
break;
case SS$_C980VTE:
exception = &program_error;
msg = "";
break;
default:
#ifndef IN_RTS
exception = &program_error;
#else
/* User programs expect Non_Ada_Error to be raised, reference
DEC Ada test CXCONDHAN. */
exception = &Non_Ada_Error;
#endif
msgdesc.len = 256;
msgdesc.mbz = 0;
msgdesc.adr = message;
SYS$GETMSG (sigargs[1], &outlen, &msgdesc, msg_flag, 0);
message [outlen] = 0;
msg = message;
break;
}
mstate = (long *) (*Get_Machine_State_Addr) ();
if (mstate != 0)
{
LIB$GET_CURR_INVO_CONTEXT (&curr_icb);
LIB$GET_PREV_INVO_CONTEXT (&curr_icb);
LIB$GET_PREV_INVO_CONTEXT (&curr_icb);
curr_invo_handle = LIB$GET_INVO_HANDLE (&curr_icb);
*mstate = curr_invo_handle;
}
Raise_From_Signal_Handler (exception, msg);
}
void
__gnat_install_handler ()
{
long prvhnd;
char *c;
c = (char *) malloc (1025);
__gnat_error_prehandler_stack = &c[1024];
/* __gnat_error_prehandler is an assembly function. */
SYS$SETEXV (1, __gnat_error_prehandler, 3, &prvhnd);
__gnat_handler_installed = 1;
}
void
__gnat_initialize()
{
}
/***************************************/
/* __gnat_initialize (VXWorks version) */
/***************************************/
#elif defined(__vxworks)
#include <signal.h>
#include <taskLib.h>
#include <intLib.h>
#include <iv.h>
static void __gnat_init_handler PARAMS ((int));
extern int __gnat_inum_to_ivec PARAMS ((int));
static void __gnat_error_handler PARAMS ((int, int, struct sigcontext *));
static void
__gnat_int_handler (interr)
int interr;
{
/* Note that we should use something like Raise_From_Int_Handler here, but
for now Raise_From_Signal_Handler will do the job. ??? */
Raise_From_Signal_Handler (&storage_error, "stack overflow");
}
/* Used for stack-checking on VxWorks. Must be task-local in
tasking programs */
void *__gnat_stack_limit = NULL;
#ifndef __alpha_vxworks
/* getpid is used by s-parint.adb, but is not defined by VxWorks, except
on Alpha VxWorks */
extern long getpid PARAMS ((void));
long
getpid ()
{
return taskIdSelf ();
}
#endif
/* This is needed by the GNAT run time to handle Vxworks interrupts */
int
__gnat_inum_to_ivec (num)
int num;
{
return INUM_TO_IVEC (num);
}
static void
__gnat_error_handler (sig, code, sc)
int sig;
int code;
struct sigcontext *sc;
{
struct Exception_Data *exception;
sigset_t mask;
int result;
char *msg;
/* VxWorks will always mask out the signal during the signal handler and
will reenable it on a longjmp. GNAT does not generate a longjmp to
return from a signal handler so the signal will still be masked unless
we unmask it. */
(void) sigprocmask (SIG_SETMASK, NULL, &mask);
sigdelset (&mask, sig);
(void) sigprocmask (SIG_SETMASK, &mask, NULL);
/* VxWorks will suspend the task when it gets a hardware exception. We
take the liberty of resuming the task for the application. */
if (taskIsSuspended (taskIdSelf ()) != 0)
(void) taskResume (taskIdSelf ());
switch (sig)
{
case SIGFPE:
exception = &constraint_error;
msg = "SIGFPE";
break;
case SIGILL:
exception = &constraint_error;
msg = "SIGILL";
break;
case SIGSEGV:
exception = &program_error;
msg = "SIGSEGV";
break;
case SIGBUS:
exception = &program_error;
msg = "SIGBUS";
break;
default:
exception = &program_error;
msg = "unhandled signal";
}
Raise_From_Signal_Handler (exception, msg);
}
void
__gnat_install_handler ()
{
struct sigaction act;
/* Setup signal handler to map synchronous signals to appropriate
exceptions. Make sure that the handler isn't interrupted by another
signal that might cause a scheduling event! */
act.sa_handler = __gnat_error_handler;
act.sa_flags = SA_SIGINFO | SA_ONSTACK;
(void) sigemptyset (&act.sa_mask);
(void) sigaction (SIGFPE, &act, NULL);
if (__gl_unreserve_all_interrupts == 0)
{
(void) sigaction (SIGILL, &act, NULL);
(void) sigaction (SIGSEGV, &act, NULL);
(void) sigaction (SIGBUS, &act, NULL);
}
__gnat_handler_installed = 1;
}
#define HAVE_GNAT_INIT_FLOAT
void
__gnat_init_float ()
{
#if defined (_ARCH_PPC) && !defined (_SOFT_FLOAT)
/* Disable overflow/underflow exceptions on the PPC processor, this is needed
to get correct Ada semantic */
asm ("mtfsb0 25");
asm ("mtfsb0 26");
#endif
}
void
__gnat_initialize ()
{
TASK_DESC pTaskDesc;
if (taskInfoGet (taskIdSelf (), &pTaskDesc) != OK)
printErr ("Cannot get task info");
__gnat_stack_limit = (void *) pTaskDesc.td_pStackLimit;
__gnat_init_float ();
#ifdef __mips_vxworks
#if 0
/* For now remove this handler, since it is causing interferences with gdb */
/* Connect the overflow trap directly to the __gnat_int_handler routine
as it is not converted to a signal by VxWorks. */
intConnect (INUM_TO_IVEC (IV_TRAP_VEC), &__gnat_int_handler, IV_TRAP_VEC);
#endif
#endif
}
/***************************************/
/* __gnat_initialize (default version) */
/***************************************/
/* Get the stack unwinding mechanism when available and when compiling
a-init.c for the run time. Except in the case of a restricted run-time,
such as RT-Linux modules (__RT__ is defined). */
#elif defined (IN_RTS) && !defined (__RT__)
/* If we have a definition of INCOMING_RETURN_ADDR_RTX, assume that
the rest of the DWARF 2 frame unwind support is also provided. */
#if !defined (DWARF2_UNWIND_INFO) && defined (INCOMING_RETURN_ADDR_RTX)
#define DWARF2_UNWIND_INFO 1
#endif
#ifdef DWARF2_UNWIND_INFO
#include "frame.h"
struct machine_state
{
frame_state f1, f2, f3;
frame_state *udata, *udata_start, *sub_udata;
void *pc, *pc_start, *new_pc;
};
typedef int word_type __attribute__ ((mode (__word__)));
/* This type is used in get_reg and put_reg to deal with ABIs where a void*
is smaller than a word, such as the Irix 6 n32 ABI. We cast twice to
avoid a warning about casting between int and pointer of different
sizes. */
typedef int ptr_type __attribute__ ((mode (pointer)));
static void get_reg PARAMS ((unsigned int, frame_state *,
frame_state *));
static void put_reg PARAMS ((unsigned int, void *,
frame_state *));
static void copy_reg PARAMS ((unsigned int, frame_state *,
frame_state *));
static inline void put_return_addr PARAMS ((void *, frame_state *));
static inline void *get_return_addr PARAMS ((frame_state *,
frame_state *));
static frame_state *__frame_state_for_r PARAMS ((void *, frame_state *));
#ifdef INCOMING_REGNO
static int in_reg_window PARAMS ((unsigned int, frame_state *));
#endif
extern void __gnat_pop_frame PARAMS ((struct machine_state *));
extern void __gnat_set_machine_state PARAMS ((struct machine_state *));
extern void __gnat_enter_handler PARAMS ((struct machine_state *,
void *));
extern __SIZE_TYPE__ __gnat_machine_state_length PARAMS ((void));
extern void *__gnat_get_code_loc PARAMS ((struct machine_state *));
/* Get the value of register REG as saved in UDATA, where SUB_UDATA is a
frame called by UDATA or 0. */
static void *
get_reg (reg, udata, sub_udata)
unsigned int reg;
frame_state *udata, *sub_udata;
{
if (udata->saved[reg] == REG_SAVED_OFFSET)
return
(void *) (ptr_type) *(word_type *) (udata->cfa
+ udata->reg_or_offset[reg]);
else if (udata->saved[reg] == REG_SAVED_REG && sub_udata)
return get_reg (udata->reg_or_offset[reg], sub_udata, 0);
else
abort ();
}
/* Overwrite the saved value for register REG in frame UDATA with VAL. */
static void
put_reg (reg, val, udata)
unsigned int reg;
void *val;
frame_state *udate;
{
if (udata->saved[reg] == REG_SAVED_OFFSET)
*(word_type *) (udata->cfa + udata->reg_or_offset[reg])
= (word_type) (ptr_type) val;
else
abort ();
}
/* Copy the saved value for register REG from frame UDATA to frame
TARGET_UDATA. Unlike the previous two functions, this can handle
registers that are not one word large. */
static void
copy_reg (reg, udata, target_udata)
unsigned int reg;
frame_state *udate, *target_udata;
{
if (udata->saved[reg] == REG_SAVED_OFFSET
&& target_udata->saved[reg] == REG_SAVED_OFFSET)
memcpy (target_udata->cfa + target_udata->reg_or_offset[reg],
udata->cfa + udata->reg_or_offset[reg],
__builtin_dwarf_reg_size (reg));
else
abort ();
}
/* Overwrite the return address for frame UDATA with VAL. */
static inline void
put_return_addr (val, udata)
void *val;
frame_state *udata;
{
val = __builtin_frob_return_addr (val);
put_reg (udata->retaddr_column, val, udata);
}
#ifdef INCOMING_REGNO
/* Is the saved value for register REG in frame UDATA stored in a register
window in the previous frame? */
static int
in_reg_window (reg, udata)
unsigned int reg;
frame_state *udata;
{
if (udata->saved[reg] != REG_SAVED_OFFSET)
return 0;
#ifdef STACK_GROWS_DOWNWARD
return udata->reg_or_offset[reg] > 0;
#else
return udata->reg_or_offset[reg] < 0;
#endif
}
#endif /* INCOMING_REGNO */
/* Retrieve the return address for frame UDATA, where SUB_UDATA is a
frame called by UDATA or 0. */
static inline void *
get_return_addr (udata, sub_udata)
frame_state *udate, *sub_udata;
{
return __builtin_extract_return_addr (get_reg (udata->retaddr_column,
udata, sub_udata));
}
/* Thread-safe version of __frame_state_for */
static frame_state *
__frame_state_for_r (void *pc_target, frame_state *state_in)
void *pc_target;
frame_state *state_in;
{
frame_state *f;
(*Lock_Task) ();
f = __frame_state_for (pc_target, state_in);
(*Unlock_Task) ();
return f;
}
/* Given the current frame UDATA and its return address PC, return the
information about the calling frame in CALLER_UDATA. */
void
__gnat_pop_frame (m)
struct machine_state *m;
{
frame_state *p;
int i;
m->pc = m->new_pc;
p = m->udata;
if (! __frame_state_for_r (m->pc, m->sub_udata))
{
m->new_pc = 0;
return;
}
/* Now go back to our caller's stack frame. If our caller's CFA register
was saved in our stack frame, restore it; otherwise, assume the CFA
register is SP and restore it to our CFA value. */
if (m->udata->saved[m->sub_udata->cfa_reg])
m->sub_udata->cfa = get_reg (m->sub_udata->cfa_reg, m->udata, 0);
else
m->sub_udata->cfa = m->udata->cfa;
m->sub_udata->cfa += m->sub_udata->cfa_offset;
m->udata = m->sub_udata;
m->sub_udata = p;
m->new_pc = get_return_addr (m->udata, m->sub_udata) - 1;
return;
/* ??? disable this code for now since it doesn't work properly */
#if 0
if (m->pc == m->pc_start)
return;
/* Copy the frame's saved register values into our register save slots. */
for (i = 0; i < FIRST_PSEUDO_REGISTER; ++i)
if (i != m->udata->retaddr_column && m->udata->saved[i])
{
#ifdef INCOMING_REGNO
/* If you modify the saved value of the return address
register on the SPARC, you modify the return address for
your caller's frame. Don't do that here, as it will
confuse get_return_addr. */
if (in_reg_window (i, m->udata)
&& m->udata->saved[m->udata->retaddr_column] == REG_SAVED_REG
&& m->udata->reg_or_offset[m->udata->retaddr_column] == i)
continue;
#endif
copy_reg (i, m->udata, m->udata_start);
}
#endif
}
void
__gnat_set_machine_state (machine_state)
struct machine_state *machine_state;
{
frame_state sub_udata;
/* Start at our stack frame. */
label:
machine_state->udata = &machine_state->f1;
machine_state->sub_udata = &machine_state->f2;
machine_state->udata_start = &machine_state->f3;
if (! __frame_state_for_r (&&label, machine_state->udata))
return;
/* We need to get the value from the CFA register. At this point in
compiling libgnat.a we don't know whether or not we will use the frame
pointer register for the CFA, so we check our unwind info. */
if (machine_state->udata->cfa_reg == __builtin_dwarf_fp_regnum ())
machine_state->udata->cfa = __builtin_fp ();
else
machine_state->udata->cfa = __builtin_sp ();
machine_state->udata->cfa += machine_state->udata->cfa_offset;
memcpy (machine_state->udata_start, machine_state->udata,
sizeof (frame_state));
machine_state->new_pc =
machine_state->pc_start =
machine_state->pc = &&label;
/* Do any necessary initialization to access arbitrary stack frames.
On the SPARC, this means flushing the register windows. */
__builtin_unwind_init ();
/* go up one frame */
__gnat_pop_frame (machine_state);
}
void
__gnat_enter_handler (m, handler)
struct machine_state *m;
void *handler;
{
void *retaddr;
#ifdef INCOMING_REGNO
/* we need to update the saved return address register from
the last frame we unwind, or the handler frame will have the wrong
return address. */
if (m->udata->saved[m->udata->retaddr_column] == REG_SAVED_REG)
{
int i = m->udata->reg_or_offset[m->udata->retaddr_column];
if (in_reg_window (i, m->udata))
copy_reg (i, m->udata, m->udata_start);
}
#endif
/* Emit the stub to adjust sp and jump to the handler. */
retaddr = __builtin_eh_stub ();
/* And then set our return address to point to the stub. */
if (m->udata_start->saved[m->udata_start->retaddr_column] ==
REG_SAVED_OFFSET)
put_return_addr (retaddr, m->udata_start);
else
__builtin_set_return_addr_reg (retaddr);
/* Set up the registers we use to communicate with the stub.
We check STACK_GROWS_DOWNWARD so the stub can use adjust_stack. */
__builtin_set_eh_regs
(handler,
#ifdef STACK_GROWS_DOWNWARD
m->udata->cfa - m->udata_start->cfa
#else
m->udata_start->cfa - m->udata->cfa
#endif
+ m->udata->args_size);
/* Epilogue: restore the handler frame's register values and return
to the stub. */
}
__SIZE_TYPE__
__gnat_machine_state_length ()
{
return sizeof (struct machine_state);
}
void *
__gnat_get_code_loc (m)
struct machine_state *m;
{
return m->pc;
}
#endif /* DWARF2_UNWIND_INFO */
#else
/* For all other versions of GNAT, the initialize routine and handler
installation do nothing */
/***************************************/
/* __gnat_initialize (default version) */
/***************************************/
void
__gnat_initialize ()
{
}
/********************************************/
/* __gnat_install_handler (default version) */
/********************************************/
void
__gnat_install_handler ()
{
__gnat_handler_installed = 1;
}
#endif
/*********************/
/* __gnat_init_float */
/*********************/
/* This routine is called as each process thread is created, for possible
initialization of the FP processor. This version is used under INTERIX,
WIN32 and could be used under OS/2 */
#if defined (_WIN32) || defined (__INTERIX) || defined (__EMX__) \
|| defined (__Lynx__)
#define HAVE_GNAT_INIT_FLOAT
void
__gnat_init_float ()
{
#if defined (__i386__) || defined (i386)
/* This is used to properly initialize the FPU on an x86 for each
process thread. */
asm ("finit");
#endif /* Defined __i386__ */
}
#endif
#ifndef HAVE_GNAT_INIT_FLOAT
/* All targets without a specific __gnat_init_float will use an empty one */
void
__gnat_init_float ()
{
}
#endif
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