ext/libelf/libelf_ar.c - public/gem5 - Git at Google

 /*-
  * Copyright (c) 2006,2008,2010 Joseph Koshy
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS `AS IS' AND
  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  * SUCH DAMAGE.
  */

 #include <assert.h>
 #include <ctype.h>
 #include <libelf.h>
 #include <stdlib.h>
 #include <string.h>

 #include "_libelf.h"
 #include "_libelf_ar.h"

 ELFTC_VCSID("$Id: libelf_ar.c 3174 2015-03-27 17:13:41Z emaste $");

 #define	LIBELF_NALLOC_SIZE	16

 /*
  * `ar' archive handling.
  *
  * `ar' archives start with signature `ARMAG'.  Each archive member is
  * preceded by a header containing meta-data for the member.  This
  * header is described in <ar.h> (struct ar_hdr).  The header always
  * starts on an even address.  File data is padded with "\n"
  * characters to keep this invariant.
  *
  * Special considerations for `ar' archives:
  *
  * There are two variants of the `ar' archive format: traditional BSD
  * and SVR4.  These differ in the way long file names are treated, and
  * in the layout of the archive symbol table.
  *
  * The `ar' header only has space for a 16 character file name.
  *
  * In the SVR4 format, file names are terminated with a '/', so this
  * effectively leaves 15 characters for the actual file name.  Longer
  * file names stored in a separate 'string table' and referenced
  * indirectly from the name field.  The string table itself appears as
  * an archive member with name "// ".  An `indirect' file name in an
  * `ar' header matches the pattern "/[0-9]*". The digits form a
  * decimal number that corresponds to a byte offset into the string
  * table where the actual file name of the object starts.  Strings in
  * the string table are padded to start on even addresses.
  *
  * In the BSD format, file names can be upto 16 characters.  File
  * names shorter than 16 characters are padded to 16 characters using
  * (ASCII) space characters.  File names with embedded spaces and file
  * names longer than 16 characters are stored immediately after the
  * archive header and the name field set to a special indirect name
  * matching the pattern "#1/[0-9]+".  The digits form a decimal number
  * that corresponds to the actual length of the file name following
  * the archive header.  The content of the archive member immediately
  * follows the file name, and the size field of the archive member
  * holds the sum of the sizes of the member and of the appended file
  * name.
  *
  * Archives may also have a symbol table (see ranlib(1)), mapping
  * program symbols to object files inside the archive.
  *
  * In the SVR4 format, a symbol table uses a file name of "/ " in its
  * archive header.  The symbol table is structured as:
  *  - a 4-byte count of entries stored as a binary value, MSB first
  *  - 'n' 4-byte offsets, stored as binary values, MSB first
  *  - 'n' NUL-terminated strings, for ELF symbol names, stored unpadded.
  *
  * In the BSD format, the symbol table uses a file name of "__.SYMDEF".
  * It is structured as two parts:
  *  - The first part is an array of "ranlib" structures preceded by
  *    the size of the array in bytes.  Each "ranlib" structure
  *    describes one symbol.  Each structure contains an offset into
  *    the string table for the symbol name, and a file offset into the
  *    archive for the member defining the symbol.
  *  - The second part is a string table containing NUL-terminated
  *    strings, preceded by the size of the string table in bytes.
  *
  * If the symbol table and string table are is present in an archive
  * they must be the very first objects and in that order.
  */


 /*
  * Retrieve an archive header descriptor.
  */

 Elf_Arhdr *
 _libelf_ar_gethdr(Elf *e)
 {
 	Elf *parent;
 	Elf_Arhdr *eh;
 	char *namelen;
 	size_t n, nlen;
 	struct ar_hdr *arh;

 	if ((parent = e->e_parent) == NULL) {
 		LIBELF_SET_ERROR(ARGUMENT, 0);
 		return (NULL);
 	}

 	assert((e->e_flags & LIBELF_F_AR_HEADER) == 0);

 	arh = (struct ar_hdr *) (uintptr_t) e->e_hdr.e_rawhdr;

 	assert((uintptr_t) arh >= (uintptr_t) parent->e_rawfile + SARMAG);
 	assert((uintptr_t) arh <= (uintptr_t) parent->e_rawfile +
 	    parent->e_rawsize - sizeof(struct ar_hdr));

 	if ((eh = malloc(sizeof(Elf_Arhdr))) == NULL) {
 		LIBELF_SET_ERROR(RESOURCE, 0);
 		return (NULL);
 	}

 	e->e_hdr.e_arhdr = eh;
 	e->e_flags |= LIBELF_F_AR_HEADER;

 	eh->ar_name = eh->ar_rawname = NULL;

 	if ((eh->ar_name = _libelf_ar_get_translated_name(arh, parent)) ==
 	    NULL)
 		goto error;

 	if (_libelf_ar_get_number(arh->ar_uid, sizeof(arh->ar_uid), 10,
 	    &n) == 0)
 		goto error;
 	eh->ar_uid = (uid_t) n;

 	if (_libelf_ar_get_number(arh->ar_gid, sizeof(arh->ar_gid), 10,
 	    &n) == 0)
 		goto error;
 	eh->ar_gid = (gid_t) n;

 	if (_libelf_ar_get_number(arh->ar_mode, sizeof(arh->ar_mode), 8,
 	    &n) == 0)
 		goto error;
 	eh->ar_mode = (mode_t) n;

 	if (_libelf_ar_get_number(arh->ar_size, sizeof(arh->ar_size), 10,
 	    &n) == 0)
 		goto error;

 	/*
 	 * Get the true size of the member if extended naming is being used.
 	 */
 	if (IS_EXTENDED_BSD_NAME(arh->ar_name)) {
 		namelen = arh->ar_name +
 		    LIBELF_AR_BSD_EXTENDED_NAME_PREFIX_SIZE;
 		if (_libelf_ar_get_number(namelen, sizeof(arh->ar_name) -
 		    LIBELF_AR_BSD_EXTENDED_NAME_PREFIX_SIZE, 10, &nlen) == 0)
 			goto error;
 		n -= nlen;
 	}

 	eh->ar_size = n;

 	if ((eh->ar_rawname = _libelf_ar_get_raw_name(arh)) == NULL)
 		goto error;

 	eh->ar_flags = 0;

 	return (eh);

  error:
 	if (eh) {
 		if (eh->ar_name)
 			free(eh->ar_name);
 		if (eh->ar_rawname)
 			free(eh->ar_rawname);
 		free(eh);
 	}

 	e->e_flags &= ~LIBELF_F_AR_HEADER;
 	e->e_hdr.e_rawhdr = (unsigned char *) arh;

 	return (NULL);
 }

 Elf *
 _libelf_ar_open_member(int fd, Elf_Cmd c, Elf *elf)
 {
 	Elf *e;
 	off_t next;
 	size_t nsz, sz;
 	struct ar_hdr *arh;
 	char *member, *namelen;

 	assert(elf->e_kind == ELF_K_AR);

 	next = elf->e_u.e_ar.e_next;

 	/*
 	 * `next' is only set to zero by elf_next() when the last
 	 * member of an archive is processed.
 	 */
 	if (next == (off_t) 0)
 		return (NULL);

 	assert((next & 1) == 0);

 	arh = (struct ar_hdr *) (elf->e_rawfile + next);

 	/*
 	 * Retrieve the size of the member.
 	 */
 	if (_libelf_ar_get_number(arh->ar_size, sizeof(arh->ar_size), 10,
 	    &sz) == 0) {
 		LIBELF_SET_ERROR(ARCHIVE, 0);
 		return (NULL);
 	}

 	/*
 	 * Adjust the size field for members in BSD archives using
 	 * extended naming.
 	 */
 	if (IS_EXTENDED_BSD_NAME(arh->ar_name)) {
 		namelen = arh->ar_name +
 		    LIBELF_AR_BSD_EXTENDED_NAME_PREFIX_SIZE;
 		if (_libelf_ar_get_number(namelen, sizeof(arh->ar_name) -
 		    LIBELF_AR_BSD_EXTENDED_NAME_PREFIX_SIZE, 10, &nsz) == 0) {
 			LIBELF_SET_ERROR(ARCHIVE, 0);
 			return (NULL);
 		}

 		member = (char *) (arh + 1) + nsz;
 		sz -= nsz;
 	} else
 		member = (char *) (arh + 1);


 	if ((e = elf_memory(member, sz)) == NULL)
 		return (NULL);

 	e->e_fd = fd;
 	e->e_cmd = c;
 	e->e_hdr.e_rawhdr = (unsigned char *) arh;

 	elf->e_u.e_ar.e_nchildren++;
 	e->e_parent = elf;

 	return (e);
 }

 /*
  * A BSD-style ar(1) symbol table has the following layout:
  *
  * - A count of bytes used by the following array of 'ranlib'
  *   structures, stored as a 'long'.
  * - An array of 'ranlib' structures.  Each array element is
  *   two 'long's in size.
  * - A count of bytes used for the following symbol table.
  * - The symbol table itself.
  */

 /*
  * A helper macro to read in a 'long' value from the archive.
  *
  * We use memcpy() since the source pointer may be misaligned with
  * respect to the natural alignment for a C 'long'.
  */
 #define	GET_LONG(P, V)do {				\
 		memcpy(&(V), (P), sizeof(long));	\
 		(P) += sizeof(long);			\
 	} while (0)

 Elf_Arsym *
 _libelf_ar_process_bsd_symtab(Elf *e, size_t *count)
 {
 	Elf_Arsym *symtab, *sym;
 	unsigned int n, nentries;
 	unsigned char *end, *p, *p0, *s, *s0;
 	const size_t entrysize = 2 * sizeof(long);
 	long arraysize, fileoffset, stroffset, strtabsize;

 	assert(e != NULL);
 	assert(count != NULL);
 	assert(e->e_u.e_ar.e_symtab == NULL);

 	symtab = NULL;

 	/*
 	 * The BSD symbol table always contains the count fields even
 	 * if there are no entries in it.
 	 */
 	if (e->e_u.e_ar.e_rawsymtabsz < 2 * sizeof(long))
 		goto symtaberror;

 	p = p0 = (unsigned char *) e->e_u.e_ar.e_rawsymtab;
 	end = p0 + e->e_u.e_ar.e_rawsymtabsz;

 	/*
 	 * Retrieve the size of the array of ranlib descriptors and
 	 * check it for validity.
 	 */
 	GET_LONG(p, arraysize);

 	if (arraysize < 0 || p0 + arraysize >= end ||
 	    ((size_t) arraysize % entrysize != 0))
 		goto symtaberror;

 	/*
 	 * Check the value of the string table size.
 	 */
 	s = p + arraysize;
 	GET_LONG(s, strtabsize);

 	s0 = s;			/* Start of string table. */
 	if (strtabsize < 0 || s0 + strtabsize > end)
 		goto symtaberror;

 	nentries = (size_t) arraysize / entrysize;

 	/*
 	 * Allocate space for the returned Elf_Arsym array.
 	 */
 	if ((symtab = malloc(sizeof(Elf_Arsym) * (nentries + 1))) == NULL) {
 		LIBELF_SET_ERROR(RESOURCE, 0);
 		return (NULL);
 	}

 	/* Read in symbol table entries. */
 	for (n = 0, sym = symtab; n < nentries; n++, sym++) {
 		GET_LONG(p, stroffset);
 		GET_LONG(p, fileoffset);

 		if (stroffset < 0 || fileoffset <  0 ||
 		    (size_t) fileoffset >= e->e_rawsize)
 			goto symtaberror;

 		s = s0 + stroffset;

 		if (s >= end)
 			goto symtaberror;

 		sym->as_off = (off_t) fileoffset;
 		sym->as_hash = elf_hash((char *) s);
 		sym->as_name = (char *) s;
 	}

 	/* Fill up the sentinel entry. */
 	sym->as_name = NULL;
 	sym->as_hash = ~0UL;
 	sym->as_off = (off_t) 0;

 	/* Remember the processed symbol table. */
 	e->e_u.e_ar.e_symtab = symtab;

 	*count = e->e_u.e_ar.e_symtabsz = nentries + 1;

 	return (symtab);

 symtaberror:
 	if (symtab)
 		free(symtab);
 	LIBELF_SET_ERROR(ARCHIVE, 0);
 	return (NULL);
 }

 /*
  * An SVR4-style ar(1) symbol table has the following layout:
  *
  * - The first 4 bytes are a binary count of the number of entries in the
  *   symbol table, stored MSB-first.
  * - Then there are 'n' 4-byte binary offsets, also stored MSB first.
  * - Following this, there are 'n' null-terminated strings.
  */

 #define	GET_WORD(P, V) do {			\
 		(V) = 0;			\
 		(V) = (P)[0]; (V) <<= 8;	\
 		(V) += (P)[1]; (V) <<= 8;	\
 		(V) += (P)[2]; (V) <<= 8;	\
 		(V) += (P)[3];			\
 	} while (0)

 #define	INTSZ	4


 Elf_Arsym *
 _libelf_ar_process_svr4_symtab(Elf *e, size_t *count)
 {
 	uint32_t off;
 	size_t n, nentries;
 	Elf_Arsym *symtab, *sym;
 	unsigned char *p, *s, *end;

 	assert(e != NULL);
 	assert(count != NULL);
 	assert(e->e_u.e_ar.e_symtab == NULL);

 	symtab = NULL;

 	if (e->e_u.e_ar.e_rawsymtabsz < INTSZ)
 		goto symtaberror;

 	p = (unsigned char *) e->e_u.e_ar.e_rawsymtab;
 	end = p + e->e_u.e_ar.e_rawsymtabsz;

 	GET_WORD(p, nentries);
 	p += INTSZ;

 	if (nentries == 0 || p + nentries * INTSZ >= end)
 		goto symtaberror;

 	/* Allocate space for a nentries + a sentinel. */
 	if ((symtab = malloc(sizeof(Elf_Arsym) * (nentries+1))) == NULL) {
 		LIBELF_SET_ERROR(RESOURCE, 0);
 		return (NULL);
 	}

 	s = p + (nentries * INTSZ); /* start of the string table. */

 	for (n = nentries, sym = symtab; n > 0; n--) {
 		if (s >= end)
 			goto symtaberror;

 		GET_WORD(p, off);
 		if (off >= e->e_rawsize)
 			goto symtaberror;

 		sym->as_off = (off_t) off;
 		sym->as_hash = elf_hash((char *) s);
 		sym->as_name = (char *) s;

 		p += INTSZ;
 		sym++;

 		for (; s < end && *s++ != '\0';) /* skip to next string */
 			;
 	}

 	/* Fill up the sentinel entry. */
 	sym->as_name = NULL;
 	sym->as_hash = ~0UL;
 	sym->as_off = (off_t) 0;

 	*count = e->e_u.e_ar.e_symtabsz = nentries + 1;
 	e->e_u.e_ar.e_symtab = symtab;

 	return (symtab);

 symtaberror:
 	if (symtab)
 		free(symtab);
 	LIBELF_SET_ERROR(ARCHIVE, 0);
 	return (NULL);
 }
	/*-
	* Copyright (c) 2006,2008,2010 Joseph Koshy
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS `AS IS' AND
	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	* SUCH DAMAGE.
	*/

	#include <assert.h>
	#include <ctype.h>
	#include <libelf.h>
	#include <stdlib.h>
	#include <string.h>

	#include "_libelf.h"
	#include "_libelf_ar.h"

	ELFTC_VCSID("$Id: libelf_ar.c 3174 2015-03-27 17:13:41Z emaste $");

	#define LIBELF_NALLOC_SIZE 16

	/*
	* `ar' archive handling.
	*
	* `ar' archives start with signature `ARMAG'. Each archive member is
	* preceded by a header containing meta-data for the member. This
	* header is described in <ar.h> (struct ar_hdr). The header always
	* starts on an even address. File data is padded with "\n"
	* characters to keep this invariant.
	*
	* Special considerations for `ar' archives:
	*
	* There are two variants of the `ar' archive format: traditional BSD
	* and SVR4. These differ in the way long file names are treated, and
	* in the layout of the archive symbol table.
	*
	* The `ar' header only has space for a 16 character file name.
	*
	* In the SVR4 format, file names are terminated with a '/', so this
	* effectively leaves 15 characters for the actual file name. Longer
	* file names stored in a separate 'string table' and referenced
	* indirectly from the name field. The string table itself appears as
	* an archive member with name "// ". An `indirect' file name in an
	* `ar' header matches the pattern "/[0-9]*". The digits form a
	* decimal number that corresponds to a byte offset into the string
	* table where the actual file name of the object starts. Strings in
	* the string table are padded to start on even addresses.
	*
	* In the BSD format, file names can be upto 16 characters. File
	* names shorter than 16 characters are padded to 16 characters using
	* (ASCII) space characters. File names with embedded spaces and file
	* names longer than 16 characters are stored immediately after the
	* archive header and the name field set to a special indirect name
	* matching the pattern "#1/[0-9]+". The digits form a decimal number
	* that corresponds to the actual length of the file name following
	* the archive header. The content of the archive member immediately
	* follows the file name, and the size field of the archive member
	* holds the sum of the sizes of the member and of the appended file
	* name.
	*
	* Archives may also have a symbol table (see ranlib(1)), mapping
	* program symbols to object files inside the archive.
	*
	* In the SVR4 format, a symbol table uses a file name of "/ " in its
	* archive header. The symbol table is structured as:
	* - a 4-byte count of entries stored as a binary value, MSB first
	* - 'n' 4-byte offsets, stored as binary values, MSB first
	* - 'n' NUL-terminated strings, for ELF symbol names, stored unpadded.
	*
	* In the BSD format, the symbol table uses a file name of "__.SYMDEF".
	* It is structured as two parts:
	* - The first part is an array of "ranlib" structures preceded by
	* the size of the array in bytes. Each "ranlib" structure
	* describes one symbol. Each structure contains an offset into
	* the string table for the symbol name, and a file offset into the
	* archive for the member defining the symbol.
	* - The second part is a string table containing NUL-terminated
	* strings, preceded by the size of the string table in bytes.
	*
	* If the symbol table and string table are is present in an archive
	* they must be the very first objects and in that order.
	*/


	/*
	* Retrieve an archive header descriptor.
	*/

	Elf_Arhdr *
	_libelf_ar_gethdr(Elf *e)
	{
	Elf *parent;
	Elf_Arhdr *eh;
	char *namelen;
	size_t n, nlen;
	struct ar_hdr *arh;

	if ((parent = e->e_parent) == NULL) {
	LIBELF_SET_ERROR(ARGUMENT, 0);
	return (NULL);
	}

	assert((e->e_flags & LIBELF_F_AR_HEADER) == 0);

	arh = (struct ar_hdr *) (uintptr_t) e->e_hdr.e_rawhdr;

	assert((uintptr_t) arh >= (uintptr_t) parent->e_rawfile + SARMAG);
	assert((uintptr_t) arh <= (uintptr_t) parent->e_rawfile +
	parent->e_rawsize - sizeof(struct ar_hdr));

	if ((eh = malloc(sizeof(Elf_Arhdr))) == NULL) {
	LIBELF_SET_ERROR(RESOURCE, 0);
	return (NULL);
	}

	e->e_hdr.e_arhdr = eh;
	e->e_flags \|= LIBELF_F_AR_HEADER;

	eh->ar_name = eh->ar_rawname = NULL;

	if ((eh->ar_name = _libelf_ar_get_translated_name(arh, parent)) ==
	NULL)
	goto error;

	if (_libelf_ar_get_number(arh->ar_uid, sizeof(arh->ar_uid), 10,
	&n) == 0)
	goto error;
	eh->ar_uid = (uid_t) n;

	if (_libelf_ar_get_number(arh->ar_gid, sizeof(arh->ar_gid), 10,
	&n) == 0)
	goto error;
	eh->ar_gid = (gid_t) n;

	if (_libelf_ar_get_number(arh->ar_mode, sizeof(arh->ar_mode), 8,
	&n) == 0)
	goto error;
	eh->ar_mode = (mode_t) n;

	if (_libelf_ar_get_number(arh->ar_size, sizeof(arh->ar_size), 10,
	&n) == 0)
	goto error;

	/*
	* Get the true size of the member if extended naming is being used.
	*/
	if (IS_EXTENDED_BSD_NAME(arh->ar_name)) {
	namelen = arh->ar_name +
	LIBELF_AR_BSD_EXTENDED_NAME_PREFIX_SIZE;
	if (_libelf_ar_get_number(namelen, sizeof(arh->ar_name) -
	LIBELF_AR_BSD_EXTENDED_NAME_PREFIX_SIZE, 10, &nlen) == 0)
	goto error;
	n -= nlen;
	}

	eh->ar_size = n;

	if ((eh->ar_rawname = _libelf_ar_get_raw_name(arh)) == NULL)
	goto error;

	eh->ar_flags = 0;

	return (eh);

	error:
	if (eh) {
	if (eh->ar_name)
	free(eh->ar_name);
	if (eh->ar_rawname)
	free(eh->ar_rawname);
	free(eh);
	}

	e->e_flags &= ~LIBELF_F_AR_HEADER;
	e->e_hdr.e_rawhdr = (unsigned char *) arh;

	return (NULL);
	}

	Elf *
	_libelf_ar_open_member(int fd, Elf_Cmd c, Elf *elf)
	{
	Elf *e;
	off_t next;
	size_t nsz, sz;
	struct ar_hdr *arh;
	char member, namelen;

	assert(elf->e_kind == ELF_K_AR);

	next = elf->e_u.e_ar.e_next;

	/*
	* `next' is only set to zero by elf_next() when the last
	* member of an archive is processed.
	*/
	if (next == (off_t) 0)
	return (NULL);

	assert((next & 1) == 0);

	arh = (struct ar_hdr *) (elf->e_rawfile + next);

	/*
	* Retrieve the size of the member.
	*/
	if (_libelf_ar_get_number(arh->ar_size, sizeof(arh->ar_size), 10,
	&sz) == 0) {
	LIBELF_SET_ERROR(ARCHIVE, 0);
	return (NULL);
	}

	/*
	* Adjust the size field for members in BSD archives using
	* extended naming.
	*/
	if (IS_EXTENDED_BSD_NAME(arh->ar_name)) {
	namelen = arh->ar_name +
	LIBELF_AR_BSD_EXTENDED_NAME_PREFIX_SIZE;
	if (_libelf_ar_get_number(namelen, sizeof(arh->ar_name) -
	LIBELF_AR_BSD_EXTENDED_NAME_PREFIX_SIZE, 10, &nsz) == 0) {
	LIBELF_SET_ERROR(ARCHIVE, 0);
	return (NULL);
	}

	member = (char *) (arh + 1) + nsz;
	sz -= nsz;
	} else
	member = (char *) (arh + 1);


	if ((e = elf_memory(member, sz)) == NULL)
	return (NULL);

	e->e_fd = fd;
	e->e_cmd = c;
	e->e_hdr.e_rawhdr = (unsigned char *) arh;

	elf->e_u.e_ar.e_nchildren++;
	e->e_parent = elf;

	return (e);
	}

	/*
	* A BSD-style ar(1) symbol table has the following layout:
	*
	* - A count of bytes used by the following array of 'ranlib'
	* structures, stored as a 'long'.
	* - An array of 'ranlib' structures. Each array element is
	* two 'long's in size.
	* - A count of bytes used for the following symbol table.
	* - The symbol table itself.
	*/

	/*
	* A helper macro to read in a 'long' value from the archive.
	*
	* We use memcpy() since the source pointer may be misaligned with
	* respect to the natural alignment for a C 'long'.
	*/
	#define GET_LONG(P, V)do { \
	memcpy(&(V), (P), sizeof(long)); \
	(P) += sizeof(long); \
	} while (0)

	Elf_Arsym *
	_libelf_ar_process_bsd_symtab(Elf e, size_t count)
	{
	Elf_Arsym symtab, sym;
	unsigned int n, nentries;
	unsigned char end, p, p0, s, *s0;
	const size_t entrysize = 2 * sizeof(long);
	long arraysize, fileoffset, stroffset, strtabsize;

	assert(e != NULL);
	assert(count != NULL);
	assert(e->e_u.e_ar.e_symtab == NULL);

	symtab = NULL;

	/*
	* The BSD symbol table always contains the count fields even
	* if there are no entries in it.
	*/
	if (e->e_u.e_ar.e_rawsymtabsz < 2 * sizeof(long))
	goto symtaberror;

	p = p0 = (unsigned char *) e->e_u.e_ar.e_rawsymtab;
	end = p0 + e->e_u.e_ar.e_rawsymtabsz;

	/*
	* Retrieve the size of the array of ranlib descriptors and
	* check it for validity.
	*/
	GET_LONG(p, arraysize);

	if (arraysize < 0 \|\| p0 + arraysize >= end \|\|
	((size_t) arraysize % entrysize != 0))
	goto symtaberror;

	/*
	* Check the value of the string table size.
	*/
	s = p + arraysize;
	GET_LONG(s, strtabsize);

	s0 = s; /* Start of string table. */
	if (strtabsize < 0 \|\| s0 + strtabsize > end)
	goto symtaberror;

	nentries = (size_t) arraysize / entrysize;

	/*
	* Allocate space for the returned Elf_Arsym array.
	*/
	if ((symtab = malloc(sizeof(Elf_Arsym) * (nentries + 1))) == NULL) {
	LIBELF_SET_ERROR(RESOURCE, 0);
	return (NULL);
	}

	/* Read in symbol table entries. */
	for (n = 0, sym = symtab; n < nentries; n++, sym++) {
	GET_LONG(p, stroffset);
	GET_LONG(p, fileoffset);

	if (stroffset < 0 \|\| fileoffset < 0 \|\|
	(size_t) fileoffset >= e->e_rawsize)
	goto symtaberror;

	s = s0 + stroffset;

	if (s >= end)
	goto symtaberror;

	sym->as_off = (off_t) fileoffset;
	sym->as_hash = elf_hash((char *) s);
	sym->as_name = (char *) s;
	}

	/* Fill up the sentinel entry. */
	sym->as_name = NULL;
	sym->as_hash = ~0UL;
	sym->as_off = (off_t) 0;

	/* Remember the processed symbol table. */
	e->e_u.e_ar.e_symtab = symtab;

	*count = e->e_u.e_ar.e_symtabsz = nentries + 1;

	return (symtab);

	symtaberror:
	if (symtab)
	free(symtab);
	LIBELF_SET_ERROR(ARCHIVE, 0);
	return (NULL);
	}

	/*
	* An SVR4-style ar(1) symbol table has the following layout:
	*
	* - The first 4 bytes are a binary count of the number of entries in the
	* symbol table, stored MSB-first.
	* - Then there are 'n' 4-byte binary offsets, also stored MSB first.
	* - Following this, there are 'n' null-terminated strings.
	*/

	#define GET_WORD(P, V) do { \
	(V) = 0; \
	(V) = (P)[0]; (V) <<= 8; \
	(V) += (P)[1]; (V) <<= 8; \
	(V) += (P)[2]; (V) <<= 8; \
	(V) += (P)[3]; \
	} while (0)

	#define INTSZ 4


	Elf_Arsym *
	_libelf_ar_process_svr4_symtab(Elf e, size_t count)
	{
	uint32_t off;
	size_t n, nentries;
	Elf_Arsym symtab, sym;
	unsigned char p, s, *end;

	assert(e != NULL);
	assert(count != NULL);
	assert(e->e_u.e_ar.e_symtab == NULL);

	symtab = NULL;

	if (e->e_u.e_ar.e_rawsymtabsz < INTSZ)
	goto symtaberror;

	p = (unsigned char *) e->e_u.e_ar.e_rawsymtab;
	end = p + e->e_u.e_ar.e_rawsymtabsz;

	GET_WORD(p, nentries);
	p += INTSZ;

	if (nentries == 0 \|\| p + nentries * INTSZ >= end)
	goto symtaberror;

	/* Allocate space for a nentries + a sentinel. */
	if ((symtab = malloc(sizeof(Elf_Arsym) * (nentries+1))) == NULL) {
	LIBELF_SET_ERROR(RESOURCE, 0);
	return (NULL);
	}

	s = p + (nentries * INTSZ); /* start of the string table. */

	for (n = nentries, sym = symtab; n > 0; n--) {
	if (s >= end)
	goto symtaberror;

	GET_WORD(p, off);
	if (off >= e->e_rawsize)
	goto symtaberror;

	sym->as_off = (off_t) off;
	sym->as_hash = elf_hash((char *) s);
	sym->as_name = (char *) s;

	p += INTSZ;
	sym++;

	for (; s < end && s++ != '\0';) / skip to next string */
	;
	}

	/* Fill up the sentinel entry. */
	sym->as_name = NULL;
	sym->as_hash = ~0UL;
	sym->as_off = (off_t) 0;

	*count = e->e_u.e_ar.e_symtabsz = nentries + 1;
	e->e_u.e_ar.e_symtab = symtab;

	return (symtab);

	symtaberror:
	if (symtab)
	free(symtab);
	LIBELF_SET_ERROR(ARCHIVE, 0);
	return (NULL);
	}