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/* Initialization code run first thing by the ELF startup code. For i386/Hurd.
Copyright (C) 1995 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public
License along with the GNU C Library; see the file COPYING.LIB. If
not, write to the Free Software Foundation, Inc., 675 Mass Ave,
Cambridge, MA 02139, USA. */
#include <hurd.h>
#include <stdio.h>
#include <unistd.h>
#include <string.h>
#include "hurdstartup.h"
#include "set-hooks.h"
#include "hurdmalloc.h" /* XXX */
extern void __mach_init (void);
extern void __libc_init (int, char **, char **);
void *(*_cthread_init_routine) (void); /* Returns new SP to use. */
void (*_cthread_exit_routine) (int status) __attribute__ ((__noreturn__));
/* Things that want to be run before _hurd_init or much anything else.
Importantly, these are called before anything tries to use malloc. */
DEFINE_HOOK (_hurd_preinit_hook, (void));
static void
init1 (int argc, char *arg0, ...)
{
char **argv = &arg0;
char **envp = &argv[argc + 1];
struct hurd_startup_data *d;
__environ = envp;
while (*envp)
++envp;
d = (void *) ++envp;
/* If we are the bootstrap task started by the kernel,
then after the environment pointers there is no Hurd
data block; the argument strings start there. */
if ((void *) d != argv[0])
{
_hurd_init_dtable = d->dtable;
_hurd_init_dtablesize = d->dtablesize;
{
/* Check if the stack we are now on is different from
the one described by _hurd_stack_{base,size}. */
char dummy;
const vm_address_t newsp = (vm_address_t) &dummy;
if (d->stack_size != 0 && (newsp < d->stack_base ||
newsp - d->stack_base > d->stack_size))
/* The new stack pointer does not intersect with the
stack the exec server set up for us, so free that stack. */
__vm_deallocate (__mach_task_self (), d->stack_base, d->stack_size);
}
}
if (__hurd_threadvar_stack_mask == 0)
{
/* We are not using cthreads, so we will have just a single allocated
area for the per-thread variables of the main user thread. */
unsigned long int i;
__hurd_threadvar_stack_offset
= (unsigned long int) malloc (__hurd_threadvar_max *
sizeof (unsigned long int));
if (__hurd_threadvar_stack_offset == 0)
__libc_fatal ("Can't allocate single-threaded per-thread variables.");
for (i = 0; i < __hurd_threadvar_max; ++i)
((unsigned long int *) __hurd_threadvar_stack_offset)[i] = 0;
}
if ((void *) d != argv[0] && (d->portarray || d->intarray))
/* Initialize library data structures, start signal processing, etc. */
_hurd_init (d->flags, argv,
d->portarray, d->portarraysize,
d->intarray, d->intarraysize);
__libc_init (argc, argv, __environ);
}
static void
init (int *data)
{
int argc = *data;
char **argv = (void *) (data + 1);
char **envp = &argv[argc + 1];
struct hurd_startup_data *d;
__environ = envp;
while (*envp)
++envp;
d = (void *) ++envp;
/* The user might have defined a value for this, to get more variables.
Otherwise it will be zero on startup. We must make sure it is set
properly before before cthreads initialization, so cthreads can know
how much space to leave for thread variables. */
if (__hurd_threadvar_max < _HURD_THREADVAR_MAX)
__hurd_threadvar_max = _HURD_THREADVAR_MAX;
/* After possibly switching stacks, call `init1' (above) with the user
code as the return address, and the argument data immediately above
that on the stack. */
if (_cthread_init_routine)
{
/* Initialize cthreads, which will allocate us a new stack to run on. */
void *newsp = (*_cthread_init_routine) ();
struct hurd_startup_data *od;
/* Copy the argdata from the old stack to the new one. */
newsp = memcpy (newsp - ((char *) &d[1] - (char *) data), data,
(char *) d - (char *) data);
/* Set up the Hurd startup data block immediately following
the argument and environment pointers on the new stack. */
od = (newsp + ((char *) d - (char *) data));
if ((void *) argv[0] == d)
/* We were started up by the kernel with arguments on the stack.
There is no Hurd startup data, so zero the block. */
memset (od, 0, sizeof *od);
else
/* Copy the Hurd startup data block to the new stack. */
*od = *d;
/* Push the user code address on the top of the new stack. It will
be the return address for `init1'; we will jump there with NEWSP
as the stack pointer. */
*--(int *) newsp = data[-1];
((void **) data)[-1] = &&switch_stacks;
/* Force NEWSP into %ecx and &init1 into %eax, which are not restored
by function return. */
asm volatile ("# a %0 c %1" : : "a" (newsp), "c" (&init1));
}
else
{
/* The argument data is just above the stack frame we will unwind by
returning. Mutate our own return address to run the code below. */
int usercode = data[-1];
((void **) data)[-1] = &&call_init1;
/* Force USERCODE into %eax and &init1 into %ecx, which are not
restored by function return. */
asm volatile ("# a %0 c %1" : : "a" (usercode), "c" (&init1));
}
return;
switch_stacks:
/* Our return address was redirected to here, so at this point our stack
is unwound and callers' registers restored. Only %ecx and %eax are
call-clobbered and thus still have the values we set just above.
Fetch from there the new stack pointer we will run on, and jmp to the
run-time address of `init1'; when it returns, it will run the user
code with the argument data at the top of the stack. */
asm volatile ("movl %eax, %esp; jmp *%ecx");
/* NOTREACHED */
call_init1:
/* As in the stack-switching case, at this point our stack is unwound and
callers' registers restored, and only %ecx and %eax communicate values
from the lines above. In this case we have stashed in %eax the user
code return address. Push it on the top of the stack so it acts as
init1's return address, and then jump there. */
asm volatile ("pushl %eax; jmp *%ecx");
/* NOTREACHED */
}
#ifdef PIC
/* This function is called to initialize the shared C library.
It is called just before the user _start code from i386/elf/start.S,
with the stack set up as that code gets it. */
/* NOTE! The linker notices the magical name `_init' and sets the DT_INIT
pointer in the dynamic section based solely on that. It is convention
for this function to be in the `.init' section, but the symbol name is
the only thing that really matters!! */
/*void _init (int argc, ...) __attribute__ ((unused, section (".init")));*/
void
_init (int argc, ...)
{
/* Initialize data structures so we can do RPCs. */
__mach_init ();
RUN_HOOK (_hurd_preinit_hook, ());
init (&argc);
}
#endif
void
__libc_init_first (int argc __attribute__ ((unused)), ...)
{
#ifndef PIC
void doinit (int *data)
{
/* This function gets called with the argument data at TOS. */
void doinit1 (int argc, ...)
{
init (&argc);
}
/* Push the user return address after the argument data, and then
jump to `doinit1' (above), so it is as if __libc_init_first's
caller had called `doinit1' with the argument data already on the
stack. */
*--data = (&argc)[-1];
asm volatile ("movl %0, %%esp\n" /* Switch to new outermost stack. */
"movl $0, %%ebp\n" /* Clear outermost frame pointer. */
"jmp *%1" : : "r" (data), "r" (&doinit1));
/* NOTREACHED */
}
/* Initialize data structures so we can do RPCs. */
__mach_init ();
RUN_HOOK (_hurd_preinit_hook, ());
_hurd_startup ((void **) &argc, &doinit);
#endif
}
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