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/* Unexec for DEC alpha.  schoepf@sc.ZIB-Berlin.DE (Rainer Schoepf).

   Copyright (C) 1994 Free Software Foundation, Inc.

This file is part of GNU Emacs.

GNU Emacs is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as
published by the Free Software Foundation, either version 3 of the
License, or (at your option) any later version.

GNU Emacs 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
General Public License for more details.

You should have received a copy of the GNU General Public
License along with GNU Emacs.  If not, see
<http://www.gnu.org/licenses/>.  */


#ifndef emacs
# ifndef __ELF__
  /* Describe layout of the address space in an executing process.  */
#  define TEXT_START    0x120000000
#  define DATA_START    0x140000000
# endif
#else
# include <config.h>
#endif
#include <sys/types.h>
#include <sys/file.h>
#include <sys/stat.h>
#include <sys/mman.h>
#include <stdio.h>
#include <varargs.h>
#include <filehdr.h>
#include <aouthdr.h>
#include <scnhdr.h>
#include <syms.h>
#ifndef __linux__
# include <reloc.h>
# include <elf_abi.h>
#endif

static void fatal_unexec ();
static void mark_x ();

#define READ(_fd, _buffer, _size, _error_message, _error_arg) \
	errno = EEOF; \
	if (read (_fd, _buffer, _size) != _size) \
	  fatal_unexec (_error_message, _error_arg);

#define WRITE(_fd, _buffer, _size, _error_message, _error_arg) \
	if (write (_fd, _buffer, _size) != _size) \
	  fatal_unexec (_error_message, _error_arg);

#define SEEK(_fd, _position, _error_message, _error_arg) \
	errno = EEOF; \
	if (lseek (_fd, _position, L_SET) != _position) \
	  fatal_unexec (_error_message, _error_arg);

extern int errno;
extern char *strerror ();

void *sbrk ();

#define EEOF -1

static struct scnhdr *text_section;
static struct scnhdr *rel_dyn_section;
static struct scnhdr *dynstr_section;
static struct scnhdr *dynsym_section;
static struct scnhdr *init_section;
static struct scnhdr *finit_section;
static struct scnhdr *rdata_section;
static struct scnhdr *rconst_section;
static struct scnhdr *data_section;
static struct scnhdr *pdata_section;
static struct scnhdr *xdata_section;
static struct scnhdr *got_section;
static struct scnhdr *lit8_section;
static struct scnhdr *lit4_section;
static struct scnhdr *sdata_section;
static struct scnhdr *sbss_section;
static struct scnhdr *bss_section;

static struct scnhdr old_data_scnhdr;

static unsigned long Brk;

struct headers {
    struct filehdr fhdr;
    struct aouthdr aout;
    struct scnhdr section[_MIPS_NSCNS_MAX];
};



/* Define name of label for entry point for the dumped executable.  */

#ifndef DEFAULT_ENTRY_ADDRESS
# define DEFAULT_ENTRY_ADDRESS __start
#endif

unexec (new_name, a_name, data_start, bss_start, entry_address)
     char *new_name, *a_name;
     unsigned long data_start, bss_start, entry_address;
{
  int new, old;
  char * oldptr;
  struct headers ohdr, nhdr;
  struct stat stat;
  long pagesize, brk;
  long newsyms, symrel;
  int nread;
  int i;
  long vaddr, scnptr;
#define BUFSIZE 8192
  char buffer[BUFSIZE];

  if ((old = open (a_name, O_RDONLY)) < 0)
    fatal_unexec ("opening %s", a_name);

  new = creat (new_name, 0666);
  if (new < 0) fatal_unexec ("creating %s", new_name);

  if ((fstat (old, &stat) == -1))
    fatal_unexec ("fstat %s", a_name);

  oldptr = (char *)mmap (0, stat.st_size, PROT_READ, MAP_FILE|MAP_SHARED, old, 0);

  if (oldptr == (char *)-1)
    fatal_unexec ("mmap %s", a_name);

  close (old);

  /* This is a copy of the a.out header of the original executable */

  ohdr = (*(struct headers *)oldptr);

  /* This is where we build the new header from the in-memory copy */

  nhdr = *((struct headers *)TEXT_START);

  /* First do some consistency checks */

  if (nhdr.fhdr.f_magic != ALPHAMAGIC
      && nhdr.fhdr.f_magic != ALPHAUMAGIC)
    {
      fprintf (stderr, "unexec: input file magic number is %x, not %x or %x.\n",
	       nhdr.fhdr.f_magic, ALPHAMAGIC, ALPHAUMAGIC);
      exit (1);
    }

  if (nhdr.fhdr.f_opthdr != sizeof (nhdr.aout))
    {
      fprintf (stderr, "unexec: input a.out header is %d bytes, not %d.\n",
	       nhdr.fhdr.f_opthdr, sizeof (nhdr.aout));
      exit (1);
    }
  if (nhdr.aout.magic != ZMAGIC)
    {
      fprintf (stderr, "unexec: input file a.out magic number is %o, not %o.\n",
	       nhdr.aout.magic, ZMAGIC);
      exit (1);
    }


  /* Now check the existence of certain header section and grab
     their addresses. */

#define CHECK_SCNHDR(ptr, name, flags)					\
  ptr = NULL;								\
  for (i = 0; i < nhdr.fhdr.f_nscns && !ptr; i++)			\
    if (strncmp (nhdr.section[i].s_name, name, 8) == 0)			\
      {									\
	if (nhdr.section[i].s_flags != flags)				\
	  fprintf (stderr, "unexec: %x flags (%x expected) in %s section.\n", \
		   nhdr.section[i].s_flags, flags, name);		\
	ptr = nhdr.section + i;						\
      }									\

  CHECK_SCNHDR (text_section,  _TEXT,  STYP_TEXT);
  CHECK_SCNHDR (init_section,  _INIT,  STYP_INIT);
#ifdef _REL_DYN
  CHECK_SCNHDR (rel_dyn_section, _REL_DYN,  STYP_REL_DYN);
#endif /* _REL_DYN */
#ifdef _DYNSYM
  CHECK_SCNHDR (dynsym_section, _DYNSYM,  STYP_DYNSYM);
#endif /* _REL_DYN */
#ifdef _DYNSTR
  CHECK_SCNHDR (dynstr_section, _DYNSTR,  STYP_DYNSTR);
#endif /* _REL_DYN */
#ifdef _FINI
  CHECK_SCNHDR (finit_section, _FINI,  STYP_FINI);
#endif /* _FINI */
  CHECK_SCNHDR (rdata_section, _RDATA, STYP_RDATA);
#ifdef _RCONST
  CHECK_SCNHDR (rconst_section, _RCONST, STYP_RCONST);
#endif
#ifdef _PDATA
  CHECK_SCNHDR (pdata_section, _PDATA, STYP_PDATA);
#endif /* _PDATA */
#ifdef _GOT
  CHECK_SCNHDR (got_section,   _GOT,   STYP_GOT);
#endif /* _GOT */
  CHECK_SCNHDR (data_section,  _DATA,  STYP_DATA);
#ifdef _XDATA
  CHECK_SCNHDR (xdata_section, _XDATA, STYP_XDATA);
#endif /* _XDATA */
#ifdef _LIT8
  CHECK_SCNHDR (lit8_section,  _LIT8,  STYP_LIT8);
  CHECK_SCNHDR (lit4_section,  _LIT4,  STYP_LIT4);
#endif /* _LIT8 */
  CHECK_SCNHDR (sdata_section, _SDATA, STYP_SDATA);
  CHECK_SCNHDR (sbss_section,  _SBSS,  STYP_SBSS);
  CHECK_SCNHDR (bss_section,   _BSS,   STYP_BSS);


  pagesize = getpagesize ();
  brk = (((long) (sbrk (0))) + pagesize - 1) & (-pagesize);

  /* Remember the current break */

  Brk = brk;

  bcopy (data_section, &old_data_scnhdr, sizeof (old_data_scnhdr));

  nhdr.aout.dsize = brk - DATA_START;
  nhdr.aout.bsize = 0;
  if (entry_address == 0)
    {
      extern DEFAULT_ENTRY_ADDRESS ();
      nhdr.aout.entry = (unsigned long)DEFAULT_ENTRY_ADDRESS;
    }
  else
    nhdr.aout.entry = entry_address;

  nhdr.aout.bss_start = nhdr.aout.data_start + nhdr.aout.dsize;

  if (rdata_section != NULL)
    {
      rdata_section->s_size = data_start - DATA_START;

      /* Adjust start and virtual addresses of rdata_section, too.  */
      rdata_section->s_vaddr = DATA_START;
      rdata_section->s_paddr = DATA_START;
      rdata_section->s_scnptr = text_section->s_scnptr + nhdr.aout.tsize;
    }

  data_section->s_vaddr = data_start;
  data_section->s_paddr = data_start;
  data_section->s_size = brk - data_start;

  if (rdata_section != NULL)
    {
      data_section->s_scnptr = rdata_section->s_scnptr + rdata_section->s_size;
    }

  vaddr = data_section->s_vaddr + data_section->s_size;
  scnptr = data_section->s_scnptr + data_section->s_size;
  if (lit8_section != NULL)
    {
      lit8_section->s_vaddr = vaddr;
      lit8_section->s_paddr = vaddr;
      lit8_section->s_size = 0;
      lit8_section->s_scnptr = scnptr;
    }
  if (lit4_section != NULL)
    {
      lit4_section->s_vaddr = vaddr;
      lit4_section->s_paddr = vaddr;
      lit4_section->s_size = 0;
      lit4_section->s_scnptr = scnptr;
    }
  if (sdata_section != NULL)
    {
      sdata_section->s_vaddr = vaddr;
      sdata_section->s_paddr = vaddr;
      sdata_section->s_size = 0;
      sdata_section->s_scnptr = scnptr;
    }
#ifdef _XDATA
  if (xdata_section != NULL)
    {
      xdata_section->s_vaddr = vaddr;
      xdata_section->s_paddr = vaddr;
      xdata_section->s_size = 0;
      xdata_section->s_scnptr = scnptr;
    }
#endif
#ifdef _GOT
  if (got_section != NULL)
    {
      bcopy (got_section, buffer, sizeof (struct scnhdr));

      got_section->s_vaddr = vaddr;
      got_section->s_paddr = vaddr;
      got_section->s_size = 0;
      got_section->s_scnptr = scnptr;
    }
#endif /*_GOT */
  if (sbss_section != NULL)
    {
      sbss_section->s_vaddr = vaddr;
      sbss_section->s_paddr = vaddr;
      sbss_section->s_size = 0;
      sbss_section->s_scnptr = scnptr;
    }
  if (bss_section != NULL)
    {
      bss_section->s_vaddr = vaddr;
      bss_section->s_paddr = vaddr;
      bss_section->s_size = 0;
      bss_section->s_scnptr = scnptr;
    }

  WRITE (new, (char *)TEXT_START, nhdr.aout.tsize,
	 "writing text section to %s", new_name);
  WRITE (new, (char *)DATA_START, nhdr.aout.dsize,
	 "writing data section to %s", new_name);

#ifdef _GOT
# define old_got_section ((struct scnhdr *)buffer)

  if (got_section != NULL)
    {
      SEEK (new, old_got_section->s_scnptr,
	    "seeking to start of got_section in %s", new_name);
      WRITE (new, oldptr + old_got_section->s_scnptr, old_got_section->s_size,
	     "writing new got_section of %s", new_name);
      SEEK (new, nhdr.aout.tsize + nhdr.aout.dsize,
	    "seeking to end of data section of %s", new_name);
    }

# undef old_got_section
#endif

  /*
   * Construct new symbol table header
   */

  bcopy (oldptr + nhdr.fhdr.f_symptr, buffer, cbHDRR);

#define symhdr ((pHDRR)buffer)
  newsyms = nhdr.aout.tsize + nhdr.aout.dsize;
  symrel = newsyms - nhdr.fhdr.f_symptr;
  nhdr.fhdr.f_symptr = newsyms;
  symhdr->cbLineOffset += symrel;
  symhdr->cbDnOffset += symrel;
  symhdr->cbPdOffset += symrel;
  symhdr->cbSymOffset += symrel;
  symhdr->cbOptOffset += symrel;
  symhdr->cbAuxOffset += symrel;
  symhdr->cbSsOffset += symrel;
  symhdr->cbSsExtOffset += symrel;
  symhdr->cbFdOffset += symrel;
  symhdr->cbRfdOffset += symrel;
  symhdr->cbExtOffset += symrel;

  WRITE (new, buffer, cbHDRR, "writing symbol table header of %s", new_name);

  /*
   * Copy the symbol table and line numbers
   */
  WRITE (new, oldptr + ohdr.fhdr.f_symptr + cbHDRR,
	 stat.st_size - ohdr.fhdr.f_symptr - cbHDRR,
	 "writing symbol table of %s", new_name);

#ifndef __linux__
  update_dynamic_symbols (oldptr, new_name, new, nhdr.aout);
#endif

#undef symhdr

  SEEK (new, 0, "seeking to start of header in %s", new_name);
  WRITE (new, &nhdr, sizeof (nhdr),
	 "writing header of %s", new_name);

  close (old);
  close (new);
  mark_x (new_name);
}




#ifndef __linux__

update_dynamic_symbols (old, new_name, new, aout)
     char *old;			/* Pointer to old executable */
     char *new_name;            /* Name of new executable */
     int new;			/* File descriptor for new executable */
     struct aouthdr aout;	/* a.out info from the file header */
{
  typedef struct dynrel_info {
    char * addr;
    unsigned type:8;
    unsigned index:24;
    unsigned info:8;
    unsigned pad:8;
  } dr_info;

  int nsyms = rel_dyn_section->s_size / sizeof (struct dynrel_info);
  int i;
  dr_info * rd_base = (dr_info *) (old + rel_dyn_section->s_scnptr);
  Elf32_Sym * ds_base = (Elf32_Sym *) (old + dynsym_section->s_scnptr);

  for (i = 0; i < nsyms; i++) {
    register Elf32_Sym x;

    if (rd_base[i].index == 0)
      continue;

    x = ds_base[rd_base[i].index];

# if 0
      fprintf (stderr, "Object inspected: %s, addr = %lx, shndx = %x",
	       old + dynstr_section->s_scnptr + x.st_name, rd_base[i].addr, x.st_shndx);
# endif


    if ((ELF32_ST_BIND (x.st_info) == STB_GLOBAL)
	&& (x.st_shndx == 0)
	/* && (x.st_value == NULL) */
	) {
      /* OK, this is probably a reference to an object in a shared
	 library, so copy the old value. This is done in several steps:
	 1. reladdr is the address of the location in question relative to
            the start of the data section,
         2. oldref is the addr is the mapped in temacs executable,
         3. newref is the address of the location in question in the
            undumped executable,
         4. len is the size of the object reference in bytes --
            currently only 4 (long) and 8 (quad) are supported.
	    */
      register unsigned long reladdr = rd_base[i].addr - old_data_scnhdr.s_vaddr;
      char * oldref = old + old_data_scnhdr.s_scnptr + reladdr;
      unsigned long newref = aout.tsize + reladdr;
      int len;

# if 0
      fprintf (stderr, "...relocated\n");
# endif

      if (rd_base[i].type == R_REFLONG)
	len = 4;
      else if (rd_base[i].type == R_REFQUAD)
	len = 8;
      else
	fatal_unexec ("unrecognized relocation type in .dyn.rel section (symbol #%d)", i);

      SEEK (new, newref, "seeking to dynamic symbol in %s", new_name);
      WRITE (new, oldref, len, "writing old dynrel info in %s", new_name);
    }

# if 0
    else
      fprintf (stderr, "...not relocated\n");
# endif

  }

}

#endif /* !__linux__ */


/*
 * mark_x
 *
 * After successfully building the new a.out, mark it executable
 */

static void
mark_x (name)
     char *name;
{
  struct stat sbuf;
  int um = umask (777);
  umask (um);
  if (stat (name, &sbuf) < 0)
    fatal_unexec ("getting protection on %s", name);
  sbuf.st_mode |= 0111 & ~um;
  if (chmod (name, sbuf.st_mode) < 0)
    fatal_unexec ("setting protection on %s", name);
}

static void
fatal_unexec (s, arg)
     char *s;
     char *arg;
{
  if (errno == EEOF)
    fputs ("unexec: unexpected end of file, ", stderr);
  else
    fprintf (stderr, "unexec: %s, ", strerror (errno));
  fprintf (stderr, s, arg);
  fputs (".\n", stderr);
  exit (1);
}