gcc/collect2-aix.c - gcc - Git at Google

 /* AIX cross support for collect2.
    Copyright (C) 2009-2021 Free Software Foundation, Inc.

 This file is part of GCC.

 GCC 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, or (at your option) any later
 version.

 GCC 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 GCC; see the file COPYING3.  If not see
 <http://www.gnu.org/licenses/>.  */

 #include "config.h"
 #include "system.h"
 #include "coretypes.h"
 #include "tm.h"
 #include "collect2-aix.h"

 #ifdef CROSS_AIX_SUPPORT

 /* Read SIZE bytes starting at DATA as a big-endian value.  */

 static inline bfd_vma
 read_value (char *data, unsigned int size)
 {
   bfd_vma value;
   unsigned int i;

   value = 0;
   for (i = 0; i < size; i++)
     {
       value <<= 8;
       value += (unsigned char) data[i];
     }
   return value;
 }

 /* FIELD is a char array.  Read the contents as a big-endian integer.  */
 #define READ_FIELD(FIELD) \
   read_value (FIELD, sizeof (FIELD))

 /* OBJECT is a char pointer to an in-file object of type struct TYPE.
    Return the address of field FIELD.  */
 #define OBJECT_FIELD(OBJECT, TYPE, FIELD) \
   (OBJECT) + offsetof (struct TYPE, FIELD)

 /* Return the size of FIELD, which is a field of struct TYPE.  */
 #define FIELD_SIZE(TYPE, FIELD) \
   sizeof (((struct TYPE *) (0))->FIELD)

 /* OBJECT is a char pointer to an in-file object of type struct TYPE.
    Read the value of field FIELD as a big-endian integer.  */
 #define READ_OBJECT(OBJECT, TYPE, FIELD) \
   read_value (OBJECT_FIELD (OBJECT, TYPE, FIELD), FIELD_SIZE (TYPE, FIELD))

 /* Copy FIELD from an external structure of type TYPE at address FROM
    to an internal structure pointed to by TO.  */
 #define COPY_FIELD(TO, FROM, TYPE, FIELD) \
   ((TO)->FIELD = READ_OBJECT (FROM, TYPE, FIELD))

 /* Return true if STRING is less than SIZE bytes long.  EXTRA_TERMINATOR
    is another character (besides '\0') that acts as a terminator,
    or '\0' if none.  */

 static bool
 string_within_bounds_p (const char *string, size_t size, char extra_terminator)
 {
   const char *p;

   for (p = string; p < string + size; p++)
     if (*p == '\0' || *p == extra_terminator)
       return true;
   return false;
 }

 /* STRING is a pointer to a char array.  Try to read its value as an
    ASCII-encoded integer.  On success, return true and store the result
    in TARGET.  */
 #define PARSE_INTEGER(TARGET, STRING) \
   (string_within_bounds_p (&(STRING)[0], sizeof (STRING), ' ') \
    && ((TARGET) = strtoul (STRING, NULL, 0), true))

 /* Check that LDFILE's current object has SIZE bytes starting at OFFSET.  */

 static inline bool
 within_object_p (LDFILE *ldfile, size_t offset, size_t size)
 {
   return offset <= ldfile->object_size && offset + size <= ldfile->object_size;
 }

 /* Try to read the file header for an XCOFF object at OFFSET bytes into
    LDFILE.  The object is expected to be OBJECT_SIZE bytes in size.
    If the object is a member of an archive, NEXT_MEMBER is the offset
    of the next member, otherwise it is -1.

    Return true on success, recording the object information in LDFILE.  */

 static bool
 read_xcoff_object (LDFILE *ldfile, size_t offset, size_t object_size,
 		   off_t next_member)
 {
   struct internal_filehdr *internal;
   char *external;
   void *map;
   size_t page_size;

   /* First try to map the file into memory.  */
   page_size = getpagesize ();
   ldfile->page_offset = offset & (page_size - 1);
   map = mmap (NULL, object_size + ldfile->page_offset, PROT_READ,
               MAP_SHARED, ldfile->fd, offset - ldfile->page_offset);
   if (map == MAP_FAILED)
     return false;

   /* Record the success.  */
   ldfile->object = (char *) map + ldfile->page_offset;
   ldfile->object_size = object_size;
   ldfile->next_member = next_member;

   /* Read the magic value to determine the type of file.  */
   if (!within_object_p (ldfile, 0, F_MAGIC_SIZE))
     return false;

   internal = &ldfile->filehdr;
   external = ldfile->object;
   internal->f_magic = read_value (external, F_MAGIC_SIZE);
   if (internal->f_magic == U802TOCMAGIC)
     {
       if (!within_object_p (ldfile, 0, sizeof (struct external_filehdr_32)))
 	return false;

       COPY_FIELD (internal, external, external_filehdr_32, f_nscns);
       COPY_FIELD (internal, external, external_filehdr_32, f_timdat);
       COPY_FIELD (internal, external, external_filehdr_32, f_symptr);
       COPY_FIELD (internal, external, external_filehdr_32, f_nsyms);
       COPY_FIELD (internal, external, external_filehdr_32, f_opthdr);
       COPY_FIELD (internal, external, external_filehdr_32, f_flags);
       return true;
     }
   else if (internal->f_magic == U803XTOCMAGIC
 	   || internal->f_magic == U64_TOCMAGIC)
     {
       if (!within_object_p (ldfile, 0, sizeof (struct external_filehdr_64)))
 	return false;

       COPY_FIELD (internal, external, external_filehdr_64, f_nscns);
       COPY_FIELD (internal, external, external_filehdr_64, f_timdat);
       COPY_FIELD (internal, external, external_filehdr_64, f_symptr);
       COPY_FIELD (internal, external, external_filehdr_64, f_nsyms);
       COPY_FIELD (internal, external, external_filehdr_64, f_opthdr);
       COPY_FIELD (internal, external, external_filehdr_64, f_flags);
       return true;
     }
   return false;
 }

 /* Try to read an archive member at OFFSET bytes into LDFILE.
    Return true on success, recording the member and object
    information in LDFILE.  */

 static bool
 read_archive_member (LDFILE *ldfile, size_t offset)
 {
   struct external_big_ar_member member;
   size_t namlen;
   size_t size;
   off_t next_member;

   if (lseek (ldfile->fd, offset, SEEK_SET) >= 0
       && read (ldfile->fd, &member, sizeof (member)) == sizeof (member)
       && PARSE_INTEGER (namlen, member.ar_namlen)
       /* Stop once we reach the member table entry, which has a name
 	 of length 0.  */
       && namlen > 0
       && PARSE_INTEGER (size, member.ar_size)
       && PARSE_INTEGER (next_member, member.ar_nextoff))
     {
       /* The archive is followed by an even-padded name, then by
 	 a magic string of length SXCOFFARFMAG.  The object itself
 	 starts after that. */
       offset += sizeof (member) + namlen + SXCOFFARFMAG;
       offset += offset & 1;
       return read_xcoff_object (ldfile, offset, size, next_member);
     }
   return false;
 }

 /* Try to treat LDFILE as a non-empty big archive.  Return true
    on success, storing the member and object information for
    the first member in LDFILE.  */

 static bool
 read_big_archive (LDFILE *ldfile)
 {
   struct external_big_ar_filehdr filehdr;
   size_t offset;

   return (lseek (ldfile->fd, 0L, SEEK_SET) == 0
 	  && read (ldfile->fd, &filehdr, sizeof (filehdr)) == sizeof (filehdr)
 	  && memcmp (filehdr.fl_magic, FL_MAGIC_BIG_AR, FL_MAGIC_SIZE) == 0
 	  && PARSE_INTEGER (offset, filehdr.fl_firstmemoff)
 	  && read_archive_member (ldfile, offset));
 }

 /* LDFILE is a zero-initialized structure.  Try to open FILENAME,
    returning true on success.  */

 static bool
 open_file (LDFILE *ldfile, const char *filename)
 {
   struct stat st;

   ldfile->fd = open (filename, O_RDONLY);
   if (ldfile->fd < 0)
     return false;

   if (read_big_archive (ldfile))
     return true;

   if (fstat (ldfile->fd, &st) < 0)
     return false;

   return read_xcoff_object (ldfile, 0, st.st_size, -1);
 }

 /* Release the memory associated with the current object, if one has
    been mapped.  */

 static void
 free_object (LDFILE *ldfile)
 {
   if (ldfile->object)
     munmap (ldfile->object - ldfile->page_offset,
 	    ldfile->object_size + ldfile->page_offset);
 }

 /* Free LDFILE and all resources associated with it.  */

 static void
 free_ldfile (LDFILE *ldfile)
 {
   if (ldfile->fd >= 0)
     close (ldfile->fd);
   XDELETE (ldfile);
 }

 /* Implement the API-defined ldopen function.  */

 LDFILE *
 ldopen (char *filename, LDFILE *ldfile)
 {
   if (ldfile == NULL)
     {
       ldfile = XCNEW (LDFILE);
       if (!open_file (ldfile, filename))
 	{
 	  free_object (ldfile);
 	  free_ldfile (ldfile);
 	  return NULL;
 	}
     }
   return ldfile;
 }

 /* Implement the API-defined ldtbread function.  */

 int
 ldtbread (LDFILE *ldfile, long index, SYMENT *internal)
 {
   size_t offset, name_length;
   char *external;

   /* Make sure that the symbol index is valid.  */
   if (index < 0 || index >= HEADER (ldfile).f_nsyms)
     return FAILURE;

   /* Work out the offset of the symbol table entry.  */
   offset = HEADER (ldfile).f_symptr + index * sizeof (struct external_syment);
   if (!within_object_p (ldfile, offset, sizeof (struct external_syment)))
     return FAILURE;

   /* Read all the fields.  The format differs between 32-bit and
      64-bit files.  */
   external = ldfile->object + offset;
   if (HEADER (ldfile).f_magic == U802TOCMAGIC)
     {
       /* Copy the n_zeroes/n_offset interpretation.  */
       internal->n_zeroes = READ_OBJECT (external, external_syment,
 					u.xcoff32.u.u.n_zeroes);
       internal->n_offset = READ_OBJECT (external, external_syment,
 					u.xcoff32.u.u.n_offset);

       /* Copy the n_name interpretation.  The internal version has room
 	 for a null terminator.  */
       name_length = FIELD_SIZE (external_syment, u.xcoff32.u.n_name);
       memcpy (internal->n_name,
 	      external + offsetof (struct external_syment, u.xcoff32.u.n_name),
 	      name_length);
       internal->n_name[name_length] = 0;

       internal->n_value = READ_OBJECT (external, external_syment,
 				       u.xcoff32.n_value);
     }
   else
     {
       internal->n_zeroes = 0;
       internal->n_offset = READ_OBJECT (external, external_syment,
 					u.xcoff64.n_offset);
       internal->n_value = READ_OBJECT (external, external_syment,
 				       u.xcoff64.n_value);
     }
   COPY_FIELD (internal, external, external_syment, n_scnum);
   COPY_FIELD (internal, external, external_syment, n_type);
   COPY_FIELD (internal, external, external_syment, n_sclass);
   COPY_FIELD (internal, external, external_syment, n_numaux);
   return SUCCESS;
 }

 /* Implement the API-defined ldgetname function.  */

 char *
 ldgetname (LDFILE *ldfile, SYMENT *symbol)
 {
   char *name;
   size_t offset;

   /* If the zeroes field is nonzero, the name is in the symbol table
      entry itself.  */
   if (symbol->n_zeroes != 0)
     return symbol->n_name;

   /* Otherwise, the symbol table entry contains an offset into the
      string table, which starts after the end of the symbol table.  */
   offset = (HEADER (ldfile).f_symptr
 	    + HEADER (ldfile).f_nsyms * sizeof (struct external_syment)
 	    + symbol->n_offset);
   if (offset >= ldfile->object_size)
     return NULL;

   /* Make sure that the name is entirely contained within the object.  */
   name = ldfile->object + offset;
   if (!string_within_bounds_p (name, ldfile->object_size - offset, '\0'))
     return NULL;

   return name;
 }

 /* Implement the API-defined ldclose function.  */

 int
 ldclose (LDFILE *ldfile)
 {
   free_object (ldfile);
   if (ldfile->next_member >= 0
       && read_archive_member (ldfile, ldfile->next_member))
     return FAILURE;

   free_ldfile (ldfile);
   return SUCCESS;
 }

 #endif
	/* AIX cross support for collect2.
	Copyright (C) 2009-2021 Free Software Foundation, Inc.

	This file is part of GCC.

	GCC 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, or (at your option) any later
	version.

	GCC 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 GCC; see the file COPYING3. If not see
	<http://www.gnu.org/licenses/>. */

	#include "config.h"
	#include "system.h"
	#include "coretypes.h"
	#include "tm.h"
	#include "collect2-aix.h"

	#ifdef CROSS_AIX_SUPPORT

	/* Read SIZE bytes starting at DATA as a big-endian value. */

	static inline bfd_vma
	read_value (char *data, unsigned int size)
	{
	bfd_vma value;
	unsigned int i;

	value = 0;
	for (i = 0; i < size; i++)
	{
	value <<= 8;
	value += (unsigned char) data[i];
	}
	return value;
	}

	/* FIELD is a char array. Read the contents as a big-endian integer. */
	#define READ_FIELD(FIELD) \
	read_value (FIELD, sizeof (FIELD))

	/* OBJECT is a char pointer to an in-file object of type struct TYPE.
	Return the address of field FIELD. */
	#define OBJECT_FIELD(OBJECT, TYPE, FIELD) \
	(OBJECT) + offsetof (struct TYPE, FIELD)

	/* Return the size of FIELD, which is a field of struct TYPE. */
	#define FIELD_SIZE(TYPE, FIELD) \
	sizeof (((struct TYPE *) (0))->FIELD)

	/* OBJECT is a char pointer to an in-file object of type struct TYPE.
	Read the value of field FIELD as a big-endian integer. */
	#define READ_OBJECT(OBJECT, TYPE, FIELD) \
	read_value (OBJECT_FIELD (OBJECT, TYPE, FIELD), FIELD_SIZE (TYPE, FIELD))

	/* Copy FIELD from an external structure of type TYPE at address FROM
	to an internal structure pointed to by TO. */
	#define COPY_FIELD(TO, FROM, TYPE, FIELD) \
	((TO)->FIELD = READ_OBJECT (FROM, TYPE, FIELD))

	/* Return true if STRING is less than SIZE bytes long. EXTRA_TERMINATOR
	is another character (besides '\0') that acts as a terminator,
	or '\0' if none. */

	static bool
	string_within_bounds_p (const char *string, size_t size, char extra_terminator)
	{
	const char *p;

	for (p = string; p < string + size; p++)
	if (p == '\0' \|\| p == extra_terminator)
	return true;
	return false;
	}

	/* STRING is a pointer to a char array. Try to read its value as an
	ASCII-encoded integer. On success, return true and store the result
	in TARGET. */
	#define PARSE_INTEGER(TARGET, STRING) \
	(string_within_bounds_p (&(STRING)[0], sizeof (STRING), ' ') \
	&& ((TARGET) = strtoul (STRING, NULL, 0), true))

	/* Check that LDFILE's current object has SIZE bytes starting at OFFSET. */

	static inline bool
	within_object_p (LDFILE *ldfile, size_t offset, size_t size)
	{
	return offset <= ldfile->object_size && offset + size <= ldfile->object_size;
	}

	/* Try to read the file header for an XCOFF object at OFFSET bytes into
	LDFILE. The object is expected to be OBJECT_SIZE bytes in size.
	If the object is a member of an archive, NEXT_MEMBER is the offset
	of the next member, otherwise it is -1.

	Return true on success, recording the object information in LDFILE. */

	static bool
	read_xcoff_object (LDFILE *ldfile, size_t offset, size_t object_size,
	off_t next_member)
	{
	struct internal_filehdr *internal;
	char *external;
	void *map;
	size_t page_size;

	/* First try to map the file into memory. */
	page_size = getpagesize ();
	ldfile->page_offset = offset & (page_size - 1);
	map = mmap (NULL, object_size + ldfile->page_offset, PROT_READ,
	MAP_SHARED, ldfile->fd, offset - ldfile->page_offset);
	if (map == MAP_FAILED)
	return false;

	/* Record the success. */
	ldfile->object = (char *) map + ldfile->page_offset;
	ldfile->object_size = object_size;
	ldfile->next_member = next_member;

	/* Read the magic value to determine the type of file. */
	if (!within_object_p (ldfile, 0, F_MAGIC_SIZE))
	return false;

	internal = &ldfile->filehdr;
	external = ldfile->object;
	internal->f_magic = read_value (external, F_MAGIC_SIZE);
	if (internal->f_magic == U802TOCMAGIC)
	{
	if (!within_object_p (ldfile, 0, sizeof (struct external_filehdr_32)))
	return false;

	COPY_FIELD (internal, external, external_filehdr_32, f_nscns);
	COPY_FIELD (internal, external, external_filehdr_32, f_timdat);
	COPY_FIELD (internal, external, external_filehdr_32, f_symptr);
	COPY_FIELD (internal, external, external_filehdr_32, f_nsyms);
	COPY_FIELD (internal, external, external_filehdr_32, f_opthdr);
	COPY_FIELD (internal, external, external_filehdr_32, f_flags);
	return true;
	}
	else if (internal->f_magic == U803XTOCMAGIC
	\|\| internal->f_magic == U64_TOCMAGIC)
	{
	if (!within_object_p (ldfile, 0, sizeof (struct external_filehdr_64)))
	return false;

	COPY_FIELD (internal, external, external_filehdr_64, f_nscns);
	COPY_FIELD (internal, external, external_filehdr_64, f_timdat);
	COPY_FIELD (internal, external, external_filehdr_64, f_symptr);
	COPY_FIELD (internal, external, external_filehdr_64, f_nsyms);
	COPY_FIELD (internal, external, external_filehdr_64, f_opthdr);
	COPY_FIELD (internal, external, external_filehdr_64, f_flags);
	return true;
	}
	return false;
	}

	/* Try to read an archive member at OFFSET bytes into LDFILE.
	Return true on success, recording the member and object
	information in LDFILE. */

	static bool
	read_archive_member (LDFILE *ldfile, size_t offset)
	{
	struct external_big_ar_member member;
	size_t namlen;
	size_t size;
	off_t next_member;

	if (lseek (ldfile->fd, offset, SEEK_SET) >= 0
	&& read (ldfile->fd, &member, sizeof (member)) == sizeof (member)
	&& PARSE_INTEGER (namlen, member.ar_namlen)
	/* Stop once we reach the member table entry, which has a name
	of length 0. */
	&& namlen > 0
	&& PARSE_INTEGER (size, member.ar_size)
	&& PARSE_INTEGER (next_member, member.ar_nextoff))
	{
	/* The archive is followed by an even-padded name, then by
	a magic string of length SXCOFFARFMAG. The object itself
	starts after that. */
	offset += sizeof (member) + namlen + SXCOFFARFMAG;
	offset += offset & 1;
	return read_xcoff_object (ldfile, offset, size, next_member);
	}
	return false;
	}

	/* Try to treat LDFILE as a non-empty big archive. Return true
	on success, storing the member and object information for
	the first member in LDFILE. */

	static bool
	read_big_archive (LDFILE *ldfile)
	{
	struct external_big_ar_filehdr filehdr;
	size_t offset;

	return (lseek (ldfile->fd, 0L, SEEK_SET) == 0
	&& read (ldfile->fd, &filehdr, sizeof (filehdr)) == sizeof (filehdr)
	&& memcmp (filehdr.fl_magic, FL_MAGIC_BIG_AR, FL_MAGIC_SIZE) == 0
	&& PARSE_INTEGER (offset, filehdr.fl_firstmemoff)
	&& read_archive_member (ldfile, offset));
	}

	/* LDFILE is a zero-initialized structure. Try to open FILENAME,
	returning true on success. */

	static bool
	open_file (LDFILE ldfile, const char filename)
	{
	struct stat st;

	ldfile->fd = open (filename, O_RDONLY);
	if (ldfile->fd < 0)
	return false;

	if (read_big_archive (ldfile))
	return true;

	if (fstat (ldfile->fd, &st) < 0)
	return false;

	return read_xcoff_object (ldfile, 0, st.st_size, -1);
	}

	/* Release the memory associated with the current object, if one has
	been mapped. */

	static void
	free_object (LDFILE *ldfile)
	{
	if (ldfile->object)
	munmap (ldfile->object - ldfile->page_offset,
	ldfile->object_size + ldfile->page_offset);
	}

	/* Free LDFILE and all resources associated with it. */

	static void
	free_ldfile (LDFILE *ldfile)
	{
	if (ldfile->fd >= 0)
	close (ldfile->fd);
	XDELETE (ldfile);
	}

	/* Implement the API-defined ldopen function. */

	LDFILE *
	ldopen (char filename, LDFILE ldfile)
	{
	if (ldfile == NULL)
	{
	ldfile = XCNEW (LDFILE);
	if (!open_file (ldfile, filename))
	{
	free_object (ldfile);
	free_ldfile (ldfile);
	return NULL;
	}
	}
	return ldfile;
	}

	/* Implement the API-defined ldtbread function. */

	int
	ldtbread (LDFILE ldfile, long index, SYMENT internal)
	{
	size_t offset, name_length;
	char *external;

	/* Make sure that the symbol index is valid. */
	if (index < 0 \|\| index >= HEADER (ldfile).f_nsyms)
	return FAILURE;

	/* Work out the offset of the symbol table entry. */
	offset = HEADER (ldfile).f_symptr + index * sizeof (struct external_syment);
	if (!within_object_p (ldfile, offset, sizeof (struct external_syment)))
	return FAILURE;

	/* Read all the fields. The format differs between 32-bit and
	64-bit files. */
	external = ldfile->object + offset;
	if (HEADER (ldfile).f_magic == U802TOCMAGIC)
	{
	/* Copy the n_zeroes/n_offset interpretation. */
	internal->n_zeroes = READ_OBJECT (external, external_syment,
	u.xcoff32.u.u.n_zeroes);
	internal->n_offset = READ_OBJECT (external, external_syment,
	u.xcoff32.u.u.n_offset);

	/* Copy the n_name interpretation. The internal version has room
	for a null terminator. */
	name_length = FIELD_SIZE (external_syment, u.xcoff32.u.n_name);
	memcpy (internal->n_name,
	external + offsetof (struct external_syment, u.xcoff32.u.n_name),
	name_length);
	internal->n_name[name_length] = 0;

	internal->n_value = READ_OBJECT (external, external_syment,
	u.xcoff32.n_value);
	}
	else
	{
	internal->n_zeroes = 0;
	internal->n_offset = READ_OBJECT (external, external_syment,
	u.xcoff64.n_offset);
	internal->n_value = READ_OBJECT (external, external_syment,
	u.xcoff64.n_value);
	}
	COPY_FIELD (internal, external, external_syment, n_scnum);
	COPY_FIELD (internal, external, external_syment, n_type);
	COPY_FIELD (internal, external, external_syment, n_sclass);
	COPY_FIELD (internal, external, external_syment, n_numaux);
	return SUCCESS;
	}

	/* Implement the API-defined ldgetname function. */

	char *
	ldgetname (LDFILE ldfile, SYMENT symbol)
	{
	char *name;
	size_t offset;

	/* If the zeroes field is nonzero, the name is in the symbol table
	entry itself. */
	if (symbol->n_zeroes != 0)
	return symbol->n_name;

	/* Otherwise, the symbol table entry contains an offset into the
	string table, which starts after the end of the symbol table. */
	offset = (HEADER (ldfile).f_symptr
	+ HEADER (ldfile).f_nsyms * sizeof (struct external_syment)
	+ symbol->n_offset);
	if (offset >= ldfile->object_size)
	return NULL;

	/* Make sure that the name is entirely contained within the object. */
	name = ldfile->object + offset;
	if (!string_within_bounds_p (name, ldfile->object_size - offset, '\0'))
	return NULL;

	return name;
	}

	/* Implement the API-defined ldclose function. */

	int
	ldclose (LDFILE *ldfile)
	{
	free_object (ldfile);
	if (ldfile->next_member >= 0
	&& read_archive_member (ldfile, ldfile->next_member))
	return FAILURE;

	free_ldfile (ldfile);
	return SUCCESS;
	}

	#endif