glibc/sysdeps/unix/sysv/aix/start.c
2001-07-06 04:56:23 +00:00

295 lines
8.2 KiB
C

/* Copyright (C) 1991, 93, 1995-1998, 2000, 2001 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 Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, write to the Free
Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
02111-1307 USA. */
/* Old compatibility names for C types. */
typedef unsigned char uchar; /* sb in libc/posix/types.h */
#include <stdarg.h>
#include <stdlib.h>
#include <sys/types.h>
#include <xcoff.h>
#include <rtinit.h>
#include <dlldr.h>
#include <bits/libc-lock.h>
/* The first piece of initialized data. */
int __data_start = 0;
+#ifndef HAVE_ELF
/* Since gcc/crtstuff.c won't define it unless the ELF format is used
we will need to define it here. */
void *__dso_handle = NULL;
#endif
extern int errno;
/* extern __pthread_init; */
typedef void (*FPV)(void);
typedef struct crt0_info
{
int *p_argc;
FPV threads_init;
} INFO;
INFO crt0_info;
int argc;
char **argv;
char **__environ;
int module_count;
caddr_t text_origin;
caddr_t data_origin;
asm("
.toc
LL..0: .tc argc[TC],argc
LL..1: .tc argv[TC],argv
LL..2: .tc __environ[TC],__environ
LL..3: .tc module_count[TC],module_count
LL..4: .tc text_origin[TC],text_origin
LL..5: .tc data_origin[TC],data_origin
");
int main (int argc,char **argv,char **__environ);
int modinit(int argc,INFO *crt0_info, int module_count,
caddr_t text_origin, caddr_t data_origin);
void mod_init1(void *handler,__RTINIT *rti);
__RTINIT *find_rtinit(caddr_t text_origin,caddr_t data_origin, int module_count);
extern int *__loadx();
void __start(void)
{
#ifdef __64BIT__
asm("
ld 17,LL..0(2) # argc
std 14,0(17) # copy reg14 to argc
ld 17,LL..1(2) # argv
std 15,0(17) # copy reg15 to argv
ld 17,LL..2(2) # envp
std 16,0(17) # copy reg16 to envp
ld 17,LL..3(2) # module_count
std 30,0(17) # copy reg30 to module_count
ld 17,LL..4(2) # text_origin
std 29,0(17) # copy reg29 to text_origin
ld 17,LL..5(2) # data_origin
std 28,0(17) # copy reg28 to data_origin
");
#else
asm("
lwz 17,LL..0(2) # argc
stw 3,0(17) # copy reg3 to argc
lwz 17,LL..1(2) # argv
stw 4,0(17) # copy reg4 to argv
lwz 17,LL..2(2) # envp
stw 5,0(17) # copy reg5 to envp
lwz 17,LL..3(2) # module_count
stw 30,0(17) # copy reg30 to module_count
lwz 17,LL..4(2) # text_origin
stw 29,0(17) # copy reg29 to text_origin
lwz 17,LL..5(2) # data_origin
stw 28,0(17) # copy reg28 to data_origin
");
#endif
crt0_info.p_argc = (int*)&argc;
/* crt0_info.threads_init = (FPV) &__pthread_init; */
/*
* Do run-time linking, if enabled and call the init()
* for all loaded modules.
*/
argc = modinit(argc,&crt0_info,module_count,text_origin,data_origin);
errno=0;
/*
* Call the user program.
*/
exit (main (argc, argv, __environ));
}
/*
* The modinit() function performs run-time linking,
* if enabled, and calling the init() function for
* all loaded modules.
*
* int modinit(argc,crt0_info,module_count,text,data)
*
* argc - current value of argc.
* info - crt0 information passed
* module_count - number of modules loaded.
* text - Beginning of text address
* data - Beginning of data address
*/
#define DL_BUFFER_SIZE 1000
int modinit(int argc,INFO *crt0_info, int module_count,
caddr_t text_origin, caddr_t data_origin)
{
int *handler = 0;
__RTINIT *rtinit_info = 0;
int flag;
DL_INFO dl_buffer[DL_BUFFER_SIZE];
DL_INFO *dl_info = dl_buffer;
int i;
FPV p;
__libc_lock_define_initialized(static,modinit_lock);
/*
* try to find __rtinit symbols
*/
rtinit_info = find_rtinit(text_origin,data_origin,module_count);
flag = DL_EXECQ;
if (rtinit_info && rtinit_info->rtl) flag |= DL_LOAD_RTL;
/*
* get a list of modules that have __rtinit
*/
if (__loadx(flag, dl_info, sizeof(dl_buffer))) exit(0x90);
if (( dl_info[0].dlinfo_xflags & DL_INFO_OK))
{
rtinit_info = find_rtinit(dl_info[1].dlinfo_textorg,
dl_info[1].dlinfo_dataorg,
module_count);
if ((rtinit_info != NULL) & (rtinit_info->rtl != NULL))
{
if((*rtinit_info->rtl)(dl_info,0)) exit(0x90);
}
}
/*
* initialize threads in case any init
* functions need thread functions
*/
if (crt0_info->threads_init)
(*crt0_info->threads_init)();
p = (FPV) __loadx(DL_GLOBALSYM | DL_SRCHLOADLIST,"pthread_init");
if (p)
(*p)();
__libc_lock_lock(modinit_lock);
/*
* initialization each module loaded that has __rtinit.
*/
if (( dl_info[0].dlinfo_xflags & DL_INFO_OK))
{
for (i=1; i < dl_info[0].dlinfo_arraylen + 1; i++)
{
if (dl_info[i].dlinfo_flags & DL_HAS_RTINIT)
{
rtinit_info = find_rtinit(dl_info[i].dlinfo_textorg,
dl_info[i].dlinfo_dataorg,
module_count);
if (rtinit_info)
{
mod_init1(handler,rtinit_info);
}
}
}
}
__libc_lock_unlock(modinit_lock);
/*
* reload argc if needed.
*/
return((int) (*crt0_info->p_argc));
}
/*
* The mod_init1 calls every initialization function
* for a given module.
*
* void mod_init1(handler, rti)
*
* void *handler - if NULL init funtions for modules loaded at exec time
* are being executed. Otherwise, the handler points to the
* module loaded.
*
* __RTINIT *rti - pointer to __rtinit data structure (with rti->init_offset
* not equal to zero)
*/
void mod_init1(void *handler,__RTINIT *rtl)
{
__RTINIT_DESCRIPTOR *descriptor;
descriptor =(__RTINIT_DESCRIPTOR *) ((caddr_t)&rtl->rtl + rtl->init_offset);
while (descriptor->f)
{
if (!(descriptor->flags & _RT_CALLED))
{
descriptor->flags |= _RT_CALLED;
( descriptor->f )(handler,rtl,descriptor); /* execute init/fini */
}
descriptor = (__RTINIT_DESCRIPTOR *) ((caddr_t)descriptor +
rtl->__rtinit_descriptor_size);
}
}
/*
* Find __rtinit symbol
*
* __RTINIT *find_rtinit(caddr_t text_origin)
*
* caddr_t text_origin - Beginning of text area
* caddr_t data_origin - Beginning of data area
* int module_count - Number of modules loaded
* __RTINIT *rti - pointer to __rtinit data structure
*/
__RTINIT *find_rtinit(caddr_t text_origin, caddr_t data_origin, int module_count)
{
struct xcoffhdr *xcoff_hdr;
SCNHDR *sec_hdr;
SCNHDR *ldr_sec_hdr;
SCNHDR *data_sec_hdr;
LDSYM *ldsym_hdr;
__RTINIT *rtl;
xcoff_hdr = (struct xcoffhdr *) text_origin;
sec_hdr = (SCNHDR *) ((caddr_t)&xcoff_hdr->aouthdr +
xcoff_hdr->filehdr.f_opthdr);
ldr_sec_hdr = (SCNHDR *) (sec_hdr + (xcoff_hdr->aouthdr.o_snloader - 1));
ldsym_hdr = (LDSYM *) ((caddr_t)xcoff_hdr + ldr_sec_hdr->s_scnptr +
LDHDRSZ);
if ( module_count <= 0)
{
if ( !(ldr_sec_hdr->s_scnptr) ) return ((__RTINIT *) 0);
if ( memcmp(ldsym_hdr,RTINIT_NAME,sizeof(RTINIT_NAME)-1))
return ((__RTINIT *) 0);
}
data_sec_hdr = (SCNHDR *) (sec_hdr + (xcoff_hdr->aouthdr.o_sndata - 1));
rtl = (__RTINIT *) (ldsym_hdr->l_value +
(data_origin - data_sec_hdr->s_vaddr));
return(rtl);
}