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/* rescoff.c -- read and write resources in Windows COFF files.

   Copyright 1997, 1998, 1999, 2000, 2003, 2005, 2007, 2008

   Free Software Foundation, Inc.

   Written by Ian Lance Taylor, Cygnus Support.

   Rewritten by Kai Tietz, Onevision.

   This file is part of GNU Binutils.

   This program 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.

   This program 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 this program; if not, write to the Free Software

   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA

   02110-1301, USA.  */

/* This file contains function that read and write Windows resources

   in COFF files.  */

#include "sysdep.h"

#include "bfd.h"

#include "bucomm.h"

#include "libiberty.h"

#include "windres.h"

#include <assert.h>

/* In order to use the address of a resource data entry, we need to

   get the image base of the file.  Right now we extract it from

   internal BFD information.  FIXME.  */

#include "coff/internal.h"

#include "libcoff.h"

/* Information we extract from the file.  */

struct coff_file_info

{

  /* File name.  */

  const char *filename;

  /* Data read from the file.  */

  const bfd_byte *data;

  /* End of data read from file.  */

  const bfd_byte *data_end;

  /* Address of the resource section minus the image base of the file.  */

  rc_uint_type secaddr;

};

/* A resource directory table in a COFF file.  */

struct __attribute__ ((__packed__)) extern_res_directory

{

  /* Characteristics.  */

  bfd_byte characteristics[4];

  /* Time stamp.  */

  bfd_byte time[4];

  /* Major version number.  */

  bfd_byte major[2];

  /* Minor version number.  */

  bfd_byte minor[2];

  /* Number of named directory entries.  */

  bfd_byte name_count[2];

  /* Number of directory entries with IDs.  */

  bfd_byte id_count[2];

};

/* A resource directory entry in a COFF file.  */

struct extern_res_entry

{

  /* Name or ID.  */

  bfd_byte name[4];

  /* Address of resource entry or subdirectory.  */

  bfd_byte rva[4];

};

/* A resource data entry in a COFF file.  */

struct extern_res_data

{

  /* Address of resource data.  This is apparently a file relative

     address, rather than a section offset.  */

  bfd_byte rva[4];

  /* Size of resource data.  */

  bfd_byte size[4];

  /* Code page.  */

  bfd_byte codepage[4];

  /* Reserved.  */

  bfd_byte reserved[4];

};

/* Local functions.  */

static void overrun (const struct coff_file_info *, const char *);

static rc_res_directory *read_coff_res_dir (windres_bfd *, const bfd_byte *,

                                            const struct coff_file_info *,

                                            const rc_res_id *, int);

static rc_res_resource *read_coff_data_entry (windres_bfd *, const bfd_byte *,

                                              const struct coff_file_info *,

                                              const rc_res_id *);

/* Read the resources in a COFF file.  */

rc_res_directory *

read_coff_rsrc (const char *filename, const char *target)

{

  rc_res_directory *ret;

  bfd *abfd;

  windres_bfd wrbfd;

  char **matching;

  asection *sec;

  bfd_size_type size;

  bfd_byte *data;

  struct coff_file_info finfo;

  if (filename == NULL)

    fatal (_("filename required for COFF input"));

  abfd = bfd_openr (filename, target);

  if (abfd == NULL)

    bfd_fatal (filename);

  if (! bfd_check_format_matches (abfd, bfd_object, &matching))

    {

      bfd_nonfatal (bfd_get_filename (abfd));

      if (bfd_get_error () == bfd_error_file_ambiguously_recognized)

        list_matching_formats (matching);

      xexit (1);

    }

  sec = bfd_get_section_by_name (abfd, ".rsrc");

  if (sec == NULL)

    {

      fatal (_("%s: no resource section"), filename);

    }

  set_windres_bfd (&wrbfd, abfd, sec, WR_KIND_BFD);

  size = bfd_section_size (abfd, sec);

  data = (bfd_byte *) res_alloc (size);

  get_windres_bfd_content (&wrbfd, data, 0, size);

  finfo.filename = filename;

  finfo.data = data;

  finfo.data_end = data + size;

  finfo.secaddr = (bfd_get_section_vma (abfd, sec)

                   - pe_data (abfd)->pe_opthdr.ImageBase);

  /* Now just read in the top level resource directory.  Note that we

     don't free data, since we create resource entries that point into

     it.  If we ever want to free up the resource information we read,

     this will have to be cleaned up.  */

  ret = read_coff_res_dir (&wrbfd, data, &finfo, (const rc_res_id *) NULL, 0);

  bfd_close (abfd);

  return ret;

}

/* Give an error if we are out of bounds.  */

static void

overrun (const struct coff_file_info *finfo, const char *msg)

{

  fatal (_("%s: %s: address out of bounds"), finfo->filename, msg);

}

/* Read a resource directory.  */

static rc_res_directory *

read_coff_res_dir (windres_bfd *wrbfd, const bfd_byte *data,

                   const struct coff_file_info *finfo,

                   const rc_res_id *type, int level)

{

  const struct extern_res_directory *erd;

  rc_res_directory *rd;

  int name_count, id_count, i;

  rc_res_entry **pp;

  const struct extern_res_entry *ere;

  if ((size_t) (finfo->data_end - data) < sizeof (struct extern_res_directory))

    overrun (finfo, _("directory"));

  erd = (const struct extern_res_directory *) data;

  rd = (rc_res_directory *) res_alloc (sizeof (rc_res_directory));

  rd->characteristics = windres_get_32 (wrbfd, erd->characteristics, 4);

  rd->time = windres_get_32 (wrbfd, erd->time, 4);

  rd->major = windres_get_16 (wrbfd, erd->major, 2);

  rd->minor = windres_get_16 (wrbfd, erd->minor, 2);

  rd->entries = NULL;

  name_count = windres_get_16 (wrbfd, erd->name_count, 2);

  id_count = windres_get_16 (wrbfd, erd->id_count, 2);

  pp = &rd->entries;

  /* The resource directory entries immediately follow the directory

     table.  */

  ere = (const struct extern_res_entry *) (erd + 1);

  for (i = 0; i < name_count; i++, ere++)

    {

      rc_uint_type name, rva;

      rc_res_entry *re;

      const bfd_byte *ers;

      int length, j;

      if ((const bfd_byte *) ere >= finfo->data_end)

        overrun (finfo, _("named directory entry"));

      name = windres_get_32 (wrbfd, ere->name, 4);

      rva = windres_get_32 (wrbfd, ere->rva, 4);

      /* For some reason the high bit in NAME is set.  */

      name &=~ 0x80000000;

      if (name > (rc_uint_type) (finfo->data_end - finfo->data))

        overrun (finfo, _("directory entry name"));

      ers = finfo->data + name;

      re = (rc_res_entry *) res_alloc (sizeof *re);

      re->next = NULL;

      re->id.named = 1;

      length = windres_get_16 (wrbfd, ers, 2);

      re->id.u.n.length = length;

      re->id.u.n.name = (unichar *) res_alloc (length * sizeof (unichar));

      for (j = 0; j < length; j++)

        re->id.u.n.name[j] = windres_get_16 (wrbfd, ers + j * 2 + 2, 2);

      if (level == 0)

        type = &re->id;

      if ((rva & 0x80000000) != 0)

        {

          rva &=~ 0x80000000;

          if (rva >= (rc_uint_type) (finfo->data_end - finfo->data))

            overrun (finfo, _("named subdirectory"));

          re->subdir = 1;

          re->u.dir = read_coff_res_dir (wrbfd, finfo->data + rva, finfo, type,

                                         level + 1);

        }

      else

        {

          if (rva >= (rc_uint_type) (finfo->data_end - finfo->data))

            overrun (finfo, _("named resource"));

          re->subdir = 0;

          re->u.res = read_coff_data_entry (wrbfd, finfo->data + rva, finfo, type);

        }

      *pp = re;

      pp = &re->next;

    }

  for (i = 0; i < id_count; i++, ere++)

    {

      unsigned long name, rva;

      rc_res_entry *re;

      if ((const bfd_byte *) ere >= finfo->data_end)

        overrun (finfo, _("ID directory entry"));

      name = windres_get_32 (wrbfd, ere->name, 4);

      rva = windres_get_32 (wrbfd, ere->rva, 4);

      re = (rc_res_entry *) res_alloc (sizeof *re);

      re->next = NULL;

      re->id.named = 0;

      re->id.u.id = name;

      if (level == 0)

        type = &re->id;

      if ((rva & 0x80000000) != 0)

        {

          rva &=~ 0x80000000;

          if (rva >= (rc_uint_type) (finfo->data_end - finfo->data))

            overrun (finfo, _("ID subdirectory"));

          re->subdir = 1;

          re->u.dir = read_coff_res_dir (wrbfd, finfo->data + rva, finfo, type,

                                         level + 1);

        }

      else

        {

          if (rva >= (rc_uint_type) (finfo->data_end - finfo->data))

            overrun (finfo, _("ID resource"));

          re->subdir = 0;

          re->u.res = read_coff_data_entry (wrbfd, finfo->data + rva, finfo, type);

        }

      *pp = re;

      pp = &re->next;

    }

  return rd;

}

/* Read a resource data entry.  */

static rc_res_resource *

read_coff_data_entry (windres_bfd *wrbfd, const bfd_byte *data,

                      const struct coff_file_info *finfo,

                      const rc_res_id *type)

{

  const struct extern_res_data *erd;

  rc_res_resource *r;

  rc_uint_type size, rva;

  const bfd_byte *resdata;

  if (type == NULL)

    fatal (_("resource type unknown"));

  if ((size_t) (finfo->data_end - data) < sizeof (struct extern_res_data))

    overrun (finfo, _("data entry"));

  erd = (const struct extern_res_data *) data;

  size = windres_get_32 (wrbfd, erd->size, 4);

  rva = windres_get_32 (wrbfd, erd->rva, 4);

  if (rva < finfo->secaddr

      || rva - finfo->secaddr >= (rc_uint_type) (finfo->data_end - finfo->data))

    overrun (finfo, _("resource data"));

  resdata = finfo->data + (rva - finfo->secaddr);

  if (size > (rc_uint_type) (finfo->data_end - resdata))

    overrun (finfo, _("resource data size"));

  r = bin_to_res (wrbfd, *type, resdata, size);

  memset (&r->res_info, 0, sizeof (rc_res_res_info));

  r->coff_info.codepage = windres_get_32 (wrbfd, erd->codepage, 4);

  r->coff_info.reserved = windres_get_32 (wrbfd, erd->reserved, 4);

  return r;

}

/* This structure is used to build a list of bindata structures.  */

struct bindata_build

{

  /* The data.  */

  bindata *d;

  /* The last structure we have added to the list.  */

  bindata *last;

  /* The size of the list as a whole.  */

  unsigned long length;

};

struct coff_res_data_build

{

  /* The data.  */

  coff_res_data *d;

  /* The last structure we have added to the list.  */

  coff_res_data *last;

  /* The size of the list as a whole.  */

  unsigned long length;

};

/* This structure keeps track of information as we build the directory

   tree.  */

struct coff_write_info

{

  /* These fields are based on the BFD.  */

  /* The BFD itself.  */

  windres_bfd *wrbfd;

  /* Pointer to section symbol used to build RVA relocs.  */

  asymbol **sympp;

  /* These fields are computed initially, and then not changed.  */

  /* Length of directory tables and entries.  */

  unsigned long dirsize;

  /* Length of directory entry strings.  */

  unsigned long dirstrsize;

  /* Length of resource data entries.  */

  unsigned long dataentsize;

  /* These fields are updated as we add data.  */

  /* Directory tables and entries.  */

  struct bindata_build dirs;

  /* Directory entry strings.  */

  struct bindata_build dirstrs;

  /* Resource data entries.  */

  struct bindata_build dataents;

  /* Actual resource data.  */

  struct coff_res_data_build resources;

  /* Relocations.  */

  arelent **relocs;

  /* Number of relocations.  */

  unsigned int reloc_count;

};

static void coff_bin_sizes (const rc_res_directory *, struct coff_write_info *);

static bfd_byte *coff_alloc (struct bindata_build *, rc_uint_type);

static void coff_to_bin

  (const rc_res_directory *, struct coff_write_info *);

static void coff_res_to_bin

  (const rc_res_resource *, struct coff_write_info *);

/* Write resources to a COFF file.  RESOURCES should already be

   sorted.

   Right now we always create a new file.  Someday we should also

   offer the ability to merge resources into an existing file.  This

   would require doing the basic work of objcopy, just modifying or

   adding the .rsrc section.  */

void

write_coff_file (const char *filename, const char *target,

                 const rc_res_directory *resources)

{

  bfd *abfd;

  asection *sec;

  struct coff_write_info cwi;

  windres_bfd wrbfd;

  bindata *d;

  coff_res_data *rd;

  unsigned long length, offset;

  if (filename == NULL)

    fatal (_("filename required for COFF output"));

  abfd = bfd_openw (filename, target);

  if (abfd == NULL)

    bfd_fatal (filename);

  if (! bfd_set_format (abfd, bfd_object))

    bfd_fatal ("bfd_set_format");

#if defined DLLTOOL_SH

  if (! bfd_set_arch_mach (abfd, bfd_arch_sh, 0))

    bfd_fatal ("bfd_set_arch_mach(sh)");

#elif defined DLLTOOL_MIPS

  if (! bfd_set_arch_mach (abfd, bfd_arch_mips, 0))

    bfd_fatal ("bfd_set_arch_mach(mips)");

#elif defined DLLTOOL_ARM

  if (! bfd_set_arch_mach (abfd, bfd_arch_arm, 0))

    bfd_fatal ("bfd_set_arch_mach(arm)");

#else

  /* FIXME: This is obviously i386 specific.  */

  if (! bfd_set_arch_mach (abfd, bfd_arch_i386, 0))

    bfd_fatal ("bfd_set_arch_mach(i386)");

#endif

  if (! bfd_set_file_flags (abfd, HAS_SYMS | HAS_RELOC))

    bfd_fatal ("bfd_set_file_flags");

  sec = bfd_make_section_with_flags (abfd, ".rsrc",

                                     (SEC_HAS_CONTENTS | SEC_ALLOC

                                      | SEC_LOAD | SEC_DATA));

  if (sec == NULL)

    bfd_fatal ("bfd_make_section");

  if (! bfd_set_symtab (abfd, sec->symbol_ptr_ptr, 1))

    bfd_fatal ("bfd_set_symtab");

  /* Requiring this is probably a bug in BFD.  */

  sec->output_section = sec;

  /* The order of data in the .rsrc section is

       resource directory tables and entries

       resource directory strings

       resource data entries

       actual resource data

     We build these different types of data in different lists.  */

  set_windres_bfd (&wrbfd, abfd, sec, WR_KIND_BFD);

  cwi.wrbfd = &wrbfd;

  cwi.sympp = sec->symbol_ptr_ptr;

  cwi.dirsize = 0;

  cwi.dirstrsize = 0;

  cwi.dataentsize = 0;

  cwi.dirs.d = NULL;

  cwi.dirs.last = NULL;

  cwi.dirs.length = 0;

  cwi.dirstrs.d = NULL;

  cwi.dirstrs.last = NULL;

  cwi.dirstrs.length = 0;

  cwi.dataents.d = NULL;

  cwi.dataents.last = NULL;

  cwi.dataents.length = 0;

  cwi.resources.d = NULL;

  cwi.resources.last = NULL;

  cwi.resources.length = 0;

  cwi.relocs = NULL;

  cwi.reloc_count = 0;

  /* Work out the sizes of the resource directory entries, so that we

     know the various offsets we will need.  */

  coff_bin_sizes (resources, &cwi);

  /* Force the directory strings to be 32 bit aligned.  Every other

     structure is 32 bit aligned anyhow.  */

  cwi.dirstrsize = (cwi.dirstrsize + 3) &~ 3;

  /* Actually convert the resources to binary.  */

  coff_to_bin (resources, &cwi);

  /* Add another 2 bytes to the directory strings if needed for

     alignment.  */

  if ((cwi.dirstrs.length & 3) != 0)

    {

      bfd_byte *ex;

      ex = coff_alloc (&cwi.dirstrs, 2);

      ex[0] = 0;

      ex[1] = 0;

    }

  /* Make sure that the data we built came out to the same size as we

     calculated initially.  */

  assert (cwi.dirs.length == cwi.dirsize);

  assert (cwi.dirstrs.length == cwi.dirstrsize);

  assert (cwi.dataents.length == cwi.dataentsize);

  length = (cwi.dirsize

            + cwi.dirstrsize

            + cwi.dataentsize

            + cwi.resources.length);

  if (! bfd_set_section_size (abfd, sec, length))

    bfd_fatal ("bfd_set_section_size");

  bfd_set_reloc (abfd, sec, cwi.relocs, cwi.reloc_count);

  offset = 0;

  for (d = cwi.dirs.d; d != NULL; d = d->next)

    {

      if (! bfd_set_section_contents (abfd, sec, d->data, offset, d->length))

        bfd_fatal ("bfd_set_section_contents");

      offset += d->length;

    }

  for (d = cwi.dirstrs.d; d != NULL; d = d->next)

    {

      set_windres_bfd_content (&wrbfd, d->data, offset, d->length);

      offset += d->length;

    }

  for (d = cwi.dataents.d; d != NULL; d = d->next)

    {

      set_windres_bfd_content (&wrbfd, d->data, offset, d->length);

      offset += d->length;

    }

  for (rd = cwi.resources.d; rd != NULL; rd = rd->next)

    {

      res_to_bin (cwi.wrbfd, (rc_uint_type) offset, rd->res);

      offset += rd->length;

    }

  assert (offset == length);

  if (! bfd_close (abfd))

    bfd_fatal ("bfd_close");

  /* We allocated the relocs array using malloc.  */

  free (cwi.relocs);

}

/* Work out the sizes of the various fixed size resource directory

   entries.  This updates fields in CWI.  */

static void

coff_bin_sizes (const rc_res_directory *resdir,

                struct coff_write_info *cwi)

{

  const rc_res_entry *re;

  cwi->dirsize += sizeof (struct extern_res_directory);

  for (re = resdir->entries; re != NULL; re = re->next)

    {

      cwi->dirsize += sizeof (struct extern_res_entry);

      if (re->id.named)

        cwi->dirstrsize += re->id.u.n.length * 2 + 2;

      if (re->subdir)

        coff_bin_sizes (re->u.dir, cwi);

      else

        cwi->dataentsize += sizeof (struct extern_res_data);

    }

}

/* Allocate data for a particular list.  */

static bfd_byte *

coff_alloc (struct bindata_build *bb, rc_uint_type size)

{

  bindata *d;

  d = (bindata *) reswr_alloc (sizeof (bindata));

  d->next = NULL;

  d->data = (bfd_byte *) reswr_alloc (size);

  d->length = size;

  if (bb->d == NULL)

    bb->d = d;

  else

    bb->last->next = d;

  bb->last = d;

  bb->length += size;

  return d->data;

}

/* Convert the resource directory RESDIR to binary.  */

static void

coff_to_bin (const rc_res_directory *resdir, struct coff_write_info *cwi)

{

  struct extern_res_directory *erd;

  int ci, cn;

  const rc_res_entry *e;

  struct extern_res_entry *ere;

  /* Write out the directory table.  */

  erd = ((struct extern_res_directory *)

         coff_alloc (&cwi->dirs, sizeof (*erd)));

  windres_put_32 (cwi->wrbfd, erd->characteristics, resdir->characteristics);

  windres_put_32 (cwi->wrbfd, erd->time, resdir->time);

  windres_put_16 (cwi->wrbfd, erd->major, resdir->major);

  windres_put_16 (cwi->wrbfd, erd->minor, resdir->minor);

  ci = 0;

  cn = 0;

  for (e = resdir->entries; e != NULL; e = e->next)

    {

      if (e->id.named)

        ++cn;

      else

        ++ci;

    }

  windres_put_16 (cwi->wrbfd, erd->name_count, cn);

  windres_put_16 (cwi->wrbfd, erd->id_count, ci);

  /* Write out the data entries.  Note that we allocate space for all

     the entries before writing them out.  That permits a recursive

     call to work correctly when writing out subdirectories.  */

  ere = ((struct extern_res_entry *)