freebsd-skq/lib/libelf/elf_update.c
jkoshy a632b8cbc0 Fix a bug that prevented applications from laying out ELF objects
with section header tables residing in between other sections.

Introduce additional checks for overlaps between section data and
the section header table when the application is performing section
layout.

Document additional error returns.

Reported by:	Kai Wang <kaiw27 at gmail dot com>
Approved by:	re (rwatson)
2007-09-08 08:20:12 +00:00

912 lines
22 KiB
C

/*-
* Copyright (c) 2006 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 <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/mman.h>
#include <sys/param.h>
#include <assert.h>
#include <errno.h>
#include <gelf.h>
#include <libelf.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "_libelf.h"
/*
* Update the internal data structures associated with an ELF object.
* Returns the size in bytes the ELF object would occupy in its file
* representation.
*
* After a successful call to this function, the following structures
* are updated:
*
* - The ELF header is updated.
* - All sections are sorted in order of ascending addresses and their
* section header table entries updated. An error is signalled
* if an overlap was detected among sections.
* - All data descriptors associated with a section are sorted in order
* of ascending addresses. Overlaps, if detected, are signalled as
* errors. Other sanity checks for alignments, section types etc. are
* made.
*
* After a resync_elf() successfully returns, the ELF descriptor is
* ready for being handed over to _libelf_write_elf().
*
* File alignments:
* PHDR - Addr
* SHDR - Addr
*
* XXX: how do we handle 'flags'.
*/
/*
* Compute the extents of a section, by looking at the data
* descriptors associated with it. The function returns zero if an
* error was detected. `*rc' holds the maximum file extent seen so
* far.
*/
static int
_libelf_compute_section_extents(Elf *e, Elf_Scn *s, off_t *rc)
{
int ec;
Elf_Data *d, *td;
unsigned int elftype;
uint32_t sh_type;
uint64_t d_align;
uint64_t sh_align, sh_entsize, sh_offset, sh_size;
uint64_t scn_size, scn_alignment;
/*
* We need to recompute library private data structures if one
* or more of the following is true:
* - The underlying Shdr structure has been marked `dirty'. Significant
* fields include: `sh_offset', `sh_type', `sh_size', `sh_addralign'.
* - The Elf_Data structures part of this section have been marked
* `dirty'. Affected members include `d_align', `d_offset', `d_type',
* and `d_size'.
* - The section as a whole is `dirty', e.g., it has been allocated
* using elf_newscn(), or if a new Elf_Data structure was added using
* elf_newdata().
*
* Each of these conditions would result in the ELF_F_DIRTY bit being
* set on the section descriptor's `s_flags' field.
*/
ec = e->e_class;
if (ec == ELFCLASS32) {
sh_type = s->s_shdr.s_shdr32.sh_type;
sh_align = (uint64_t) s->s_shdr.s_shdr32.sh_addralign;
sh_entsize = (uint64_t) s->s_shdr.s_shdr32.sh_entsize;
sh_offset = (uint64_t) s->s_shdr.s_shdr32.sh_offset;
sh_size = (uint64_t) s->s_shdr.s_shdr32.sh_size;
} else {
sh_type = s->s_shdr.s_shdr64.sh_type;
sh_align = s->s_shdr.s_shdr64.sh_addralign;
sh_entsize = s->s_shdr.s_shdr64.sh_entsize;
sh_offset = s->s_shdr.s_shdr64.sh_offset;
sh_size = s->s_shdr.s_shdr64.sh_size;
}
if (sh_type == SHT_NULL || sh_type == SHT_NOBITS)
return (1);
if ((s->s_flags & ELF_F_DIRTY) == 0) {
if ((size_t) *rc < sh_offset + sh_size)
*rc = sh_offset + sh_size;
return (1);
}
elftype = _libelf_xlate_shtype(sh_type);
if (elftype > ELF_T_LAST) {
LIBELF_SET_ERROR(SECTION, 0);
return (0);
}
/*
* Compute the extent of the data descriptors associated with
* this section.
*/
scn_alignment = 0;
if (sh_align == 0)
sh_align = _libelf_falign(elftype, ec);
/* Compute the section alignment. */
STAILQ_FOREACH(d, &s->s_data, d_next) {
if (d->d_type != elftype) {
LIBELF_SET_ERROR(DATA, 0);
return (0);
}
if (d->d_version != e->e_version) {
LIBELF_SET_ERROR(VERSION, 0);
return (0);
}
if ((d_align = d->d_align) % sh_align) {
LIBELF_SET_ERROR(LAYOUT, 0);
return (0);
}
if (d_align == 0 || (d_align & (d_align - 1))) {
LIBELF_SET_ERROR(DATA, 0);
return (0);
}
if (d_align > scn_alignment)
scn_alignment = d_align;
}
scn_size = 0L;
STAILQ_FOREACH_SAFE(d, &s->s_data, d_next, td) {
if (e->e_flags & ELF_F_LAYOUT) {
if ((uint64_t) d->d_off + d->d_size > scn_size)
scn_size = d->d_off + d->d_size;
} else {
scn_size = roundup2(scn_size, scn_alignment);
d->d_off = scn_size;
scn_size += d->d_size;
}
}
/*
* If the application is requesting full control over the layout
* of the section, check its values for sanity.
*/
if (e->e_flags & ELF_F_LAYOUT) {
if (scn_alignment > sh_align || sh_offset % sh_align ||
sh_size < scn_size) {
LIBELF_SET_ERROR(LAYOUT, 0);
return (0);
}
} else {
/*
* Otherwise compute the values in the section header.
*/
if (scn_alignment > sh_align)
sh_align = scn_alignment;
/*
* If the section entry size is zero, try and fill in an
* appropriate entry size. Per the elf(5) manual page
* sections without fixed-size entries should have their
* 'sh_entsize' field set to zero.
*/
if (sh_entsize == 0 &&
(sh_entsize = _libelf_fsize(elftype, ec, e->e_version,
(size_t) 1)) == 1)
sh_entsize = 0;
sh_size = scn_size;
sh_offset = roundup(*rc, sh_align);
if (ec == ELFCLASS32) {
s->s_shdr.s_shdr32.sh_addralign = (uint32_t) sh_align;
s->s_shdr.s_shdr32.sh_entsize = (uint32_t) sh_entsize;
s->s_shdr.s_shdr32.sh_offset = (uint32_t) sh_offset;
s->s_shdr.s_shdr32.sh_size = (uint32_t) sh_size;
} else {
s->s_shdr.s_shdr64.sh_addralign = sh_align;
s->s_shdr.s_shdr64.sh_entsize = sh_entsize;
s->s_shdr.s_shdr64.sh_offset = sh_offset;
s->s_shdr.s_shdr64.sh_size = sh_size;
}
}
if ((size_t) *rc < sh_offset + sh_size)
*rc = sh_offset + sh_size;
s->s_size = sh_size;
s->s_offset = sh_offset;
return (1);
}
/*
* Insert a section in ascending order in the list
*/
static int
_libelf_insert_section(Elf *e, Elf_Scn *s)
{
Elf_Scn *t, *prevt;
uint64_t smax, smin, tmax, tmin;
smin = s->s_offset;
smax = smin + s->s_size;
prevt = NULL;
STAILQ_FOREACH(t, &e->e_u.e_elf.e_scn, s_next) {
tmin = t->s_offset;
tmax = tmin + t->s_size;
/* check if there is an overlap */
if (tmax < smin) {
prevt = t;
continue;
} else if (smax < tmin)
break;
else {
LIBELF_SET_ERROR(LAYOUT, 0);
return (0);
}
}
if (prevt)
STAILQ_INSERT_AFTER(&e->e_u.e_elf.e_scn, prevt, s, s_next);
else
STAILQ_INSERT_HEAD(&e->e_u.e_elf.e_scn, s, s_next);
return (1);
}
static off_t
_libelf_resync_sections(Elf *e, off_t rc)
{
int ec;
off_t nrc;
size_t sh_type, shdr_start, shdr_end;
Elf_Scn *s, *ts;
ec = e->e_class;
/*
* Make a pass through sections, computing the extent of each
* section. Order in increasing order of addresses.
*/
nrc = rc;
STAILQ_FOREACH(s, &e->e_u.e_elf.e_scn, s_next)
if (_libelf_compute_section_extents(e, s, &nrc) == 0)
return ((off_t) -1);
STAILQ_FOREACH_SAFE(s, &e->e_u.e_elf.e_scn, s_next, ts) {
if (ec == ELFCLASS32)
sh_type = s->s_shdr.s_shdr32.sh_type;
else
sh_type = s->s_shdr.s_shdr64.sh_type;
/* XXX Do we need the 'size' field of an SHT_NOBITS section */
if (sh_type == SHT_NOBITS || sh_type == SHT_NULL)
continue;
if (s->s_offset < (uint64_t) rc) {
if (s->s_offset + s->s_size < (uint64_t) rc) {
/*
* Try insert this section in the
* correct place in the list,
* detecting overlaps if any.
*/
STAILQ_REMOVE(&e->e_u.e_elf.e_scn, s, _Elf_Scn,
s_next);
if (_libelf_insert_section(e, s) == 0)
return ((off_t) -1);
} else {
LIBELF_SET_ERROR(LAYOUT, 0);
return ((off_t) -1);
}
} else
rc = s->s_offset + s->s_size;
}
/*
* If the application is controlling file layout, check for an
* overlap between this section's extents and the SHDR table.
*/
if (e->e_flags & ELF_F_LAYOUT) {
if (e->e_class == ELFCLASS32)
shdr_start = e->e_u.e_elf.e_ehdr.e_ehdr32->e_shoff;
else
shdr_start = e->e_u.e_elf.e_ehdr.e_ehdr64->e_shoff;
shdr_end = shdr_start + _libelf_fsize(ELF_T_SHDR, e->e_class,
e->e_version, e->e_u.e_elf.e_nscn);
STAILQ_FOREACH(s, &e->e_u.e_elf.e_scn, s_next) {
if (s->s_offset >= shdr_end ||
s->s_offset + s->s_size <= shdr_start)
continue;
LIBELF_SET_ERROR(LAYOUT, 0);
return ((off_t) -1);
}
}
assert(nrc == rc);
return (rc);
}
static off_t
_libelf_resync_elf(Elf *e)
{
int ec, eh_class, eh_type;
unsigned int eh_byteorder, eh_version;
size_t align, fsz;
size_t phnum, shnum;
off_t rc, phoff, shoff;
void *ehdr;
Elf32_Ehdr *eh32;
Elf64_Ehdr *eh64;
rc = 0;
ec = e->e_class;
assert(ec == ELFCLASS32 || ec == ELFCLASS64);
/*
* Prepare the EHDR.
*/
if ((ehdr = _libelf_ehdr(e, ec, 0)) == NULL)
return ((off_t) -1);
eh32 = ehdr;
eh64 = ehdr;
if (ec == ELFCLASS32) {
eh_byteorder = eh32->e_ident[EI_DATA];
eh_class = eh32->e_ident[EI_CLASS];
phoff = (uint64_t) eh32->e_phoff;
shoff = (uint64_t) eh32->e_shoff;
eh_type = eh32->e_type;
eh_version = eh32->e_version;
} else {
eh_byteorder = eh64->e_ident[EI_DATA];
eh_class = eh64->e_ident[EI_CLASS];
phoff = eh64->e_phoff;
shoff = eh64->e_shoff;
eh_type = eh64->e_type;
eh_version = eh64->e_version;
}
if (eh_version == EV_NONE)
eh_version = EV_CURRENT;
if (eh_version != e->e_version) { /* always EV_CURRENT */
LIBELF_SET_ERROR(VERSION, 0);
return ((off_t) -1);
}
if (eh_class != e->e_class) {
LIBELF_SET_ERROR(CLASS, 0);
return ((off_t) -1);
}
if (e->e_cmd != ELF_C_WRITE && eh_byteorder != e->e_byteorder) {
LIBELF_SET_ERROR(HEADER, 0);
return ((off_t) -1);
}
shnum = e->e_u.e_elf.e_nscn;
phnum = e->e_u.e_elf.e_nphdr;
e->e_byteorder = eh_byteorder;
#define INITIALIZE_EHDR(E,EC,V) do { \
(E)->e_ident[EI_MAG0] = ELFMAG0; \
(E)->e_ident[EI_MAG1] = ELFMAG1; \
(E)->e_ident[EI_MAG2] = ELFMAG2; \
(E)->e_ident[EI_MAG3] = ELFMAG3; \
(E)->e_ident[EI_CLASS] = (EC); \
(E)->e_ident[EI_VERSION] = (V); \
(E)->e_ehsize = _libelf_fsize(ELF_T_EHDR, (EC), (V), \
(size_t) 1); \
(E)->e_phentsize = _libelf_fsize(ELF_T_PHDR, (EC), (V), \
(size_t) 1); \
(E)->e_shentsize = _libelf_fsize(ELF_T_SHDR, (EC), (V), \
(size_t) 1); \
} while (0)
if (ec == ELFCLASS32)
INITIALIZE_EHDR(eh32, ec, eh_version);
else
INITIALIZE_EHDR(eh64, ec, eh_version);
(void) elf_flagehdr(e, ELF_C_SET, ELF_F_DIRTY);
rc += _libelf_fsize(ELF_T_EHDR, ec, eh_version, (size_t) 1);
/*
* Compute the layout the program header table, if one is
* present. The program header table needs to be aligned to a
* `natural' boundary.
*/
if (phnum) {
fsz = _libelf_fsize(ELF_T_PHDR, ec, eh_version, phnum);
align = _libelf_falign(ELF_T_PHDR, ec);
if (e->e_flags & ELF_F_LAYOUT) {
/*
* Check offsets for sanity.
*/
if (rc > phoff) {
LIBELF_SET_ERROR(HEADER, 0);
return ((off_t) -1);
}
if (phoff % align) {
LIBELF_SET_ERROR(LAYOUT, 0);
return ((off_t) -1);
}
} else
phoff = roundup(rc, align);
rc = phoff + fsz;
} else
phoff = 0;
/*
* Compute the layout of the sections associated with the
* file.
*/
if ((rc = _libelf_resync_sections(e, rc)) < 0)
return ((off_t) -1);
/*
* Compute the space taken up by the section header table, if
* one is needed. If ELF_F_LAYOUT is asserted, the
* application may have placed the section header table in
* between existing sections, so the net size of the file need
* not increase due to the presence of the section header
* table.
*/
if (shnum) {
fsz = _libelf_fsize(ELF_T_SHDR, ec, eh_version, (size_t) 1);
align = _libelf_falign(ELF_T_SHDR, ec);
if (e->e_flags & ELF_F_LAYOUT) {
if (shoff % align) {
LIBELF_SET_ERROR(LAYOUT, 0);
return ((off_t) -1);
}
} else
shoff = roundup(rc, align);
if (shoff + fsz * shnum > (size_t) rc)
rc = shoff + fsz * shnum;
} else
shoff = 0;
/*
* Set the fields of the Executable Header that could potentially use
* extended numbering.
*/
_libelf_setphnum(e, ehdr, ec, phnum);
_libelf_setshnum(e, ehdr, ec, shnum);
/*
* Update the `e_phoff' and `e_shoff' fields if the library is
* doing the layout.
*/
if ((e->e_flags & ELF_F_LAYOUT) == 0) {
if (ec == ELFCLASS32) {
eh32->e_phoff = (uint32_t) phoff;
eh32->e_shoff = (uint32_t) shoff;
} else {
eh64->e_phoff = (uint64_t) phoff;
eh64->e_shoff = (uint64_t) shoff;
}
}
return (rc);
}
/*
* Write out the contents of a section.
*/
static off_t
_libelf_write_scn(Elf *e, char *nf, Elf_Scn *s, off_t rc)
{
int ec;
size_t fsz, msz, nobjects;
uint32_t sh_type;
uint64_t sh_off;
int elftype;
Elf_Data *d, dst;
if ((ec = e->e_class) == ELFCLASS32)
sh_type = s->s_shdr.s_shdr32.sh_type;
else
sh_type = s->s_shdr.s_shdr64.sh_type;
/*
* Ignore sections that do not allocate space in the file.
*/
if (sh_type == SHT_NOBITS || sh_type == SHT_NULL)
return (rc);
elftype = _libelf_xlate_shtype(sh_type);
assert(elftype >= ELF_T_FIRST && elftype <= ELF_T_LAST);
msz = _libelf_msize(elftype, ec, e->e_version);
sh_off = s->s_offset;
assert(sh_off % _libelf_falign(elftype, ec) == 0);
/*
* If the section has a `rawdata' descriptor, and the section
* contents have not been modified, use its contents directly.
* The `s_rawoff' member contains the offset into the original
* file, while `s_offset' contains its new location in the
* destination.
*/
if (STAILQ_EMPTY(&s->s_data)) {
if ((d = elf_rawdata(s, NULL)) == NULL)
return ((off_t) -1);
STAILQ_FOREACH(d, &s->s_rawdata, d_next) {
if ((uint64_t) rc < sh_off + d->d_off)
(void) memset(nf + rc,
LIBELF_PRIVATE(fillchar), sh_off +
d->d_off - rc);
rc = sh_off + d->d_off;
assert(d->d_buf != NULL);
assert(d->d_type == ELF_T_BYTE);
assert(d->d_version == e->e_version);
(void) memcpy(nf + rc,
e->e_rawfile + s->s_rawoff + d->d_off, d->d_size);
rc += d->d_size;
}
return (rc);
}
/*
* Iterate over the set of data descriptors for this section.
* The prior call to _libelf_resync_elf() would have setup the
* descriptors for this step.
*/
dst.d_version = e->e_version;
STAILQ_FOREACH(d, &s->s_data, d_next) {
if ((uint64_t) rc < sh_off + d->d_off)
(void) memset(nf + rc,
LIBELF_PRIVATE(fillchar), sh_off + d->d_off - rc);
rc = sh_off + d->d_off;
assert(d->d_buf != NULL);
assert(d->d_type == (Elf_Type) elftype);
assert(d->d_version == e->e_version);
assert(d->d_size % msz == 0);
nobjects = d->d_size / msz;
fsz = _libelf_fsize(elftype, ec, e->e_version, nobjects);
dst.d_buf = nf + rc;
dst.d_size = fsz;
if (_libelf_xlate(&dst, d, e->e_byteorder, ec, ELF_TOFILE) ==
NULL)
return ((off_t) -1);
rc += fsz;
}
return ((off_t) rc);
}
/*
* Write out the file image.
*
* The original file could have been mapped in with an ELF_C_RDWR
* command and the application could have added new content or
* re-arranged its sections before calling elf_update(). Consequently
* its not safe to work `in place' on the original file. So we
* malloc() the required space for the updated ELF object and build
* the object there and write it out to the underlying file at the
* end. Note that the application may have opened the underlying file
* in ELF_C_RDWR and only retrieved/modified a few sections. We take
* care to avoid translating file sections unnecessarily.
*
* Gaps in the coverage of the file by the file's sections will be
* filled with the fill character set by elf_fill(3).
*/
static off_t
_libelf_write_elf(Elf *e, off_t newsize)
{
int ec;
off_t maxrc, rc;
size_t fsz, msz, phnum, shnum;
uint64_t phoff, shoff;
void *ehdr;
char *newfile;
Elf_Data dst, src;
Elf_Scn *scn, *tscn;
Elf32_Ehdr *eh32;
Elf64_Ehdr *eh64;
assert(e->e_kind == ELF_K_ELF);
assert(e->e_cmd != ELF_C_READ);
assert(e->e_fd >= 0);
if ((newfile = malloc((size_t) newsize)) == NULL) {
LIBELF_SET_ERROR(RESOURCE, errno);
return ((off_t) -1);
}
ec = e->e_class;
ehdr = _libelf_ehdr(e, ec, 0);
assert(ehdr != NULL);
phnum = e->e_u.e_elf.e_nphdr;
if (ec == ELFCLASS32) {
eh32 = (Elf32_Ehdr *) ehdr;
phoff = (uint64_t) eh32->e_phoff;
shnum = eh32->e_shnum;
shoff = (uint64_t) eh32->e_shoff;
} else {
eh64 = (Elf64_Ehdr *) ehdr;
phoff = eh64->e_phoff;
shnum = eh64->e_shnum;
shoff = eh64->e_shoff;
}
fsz = _libelf_fsize(ELF_T_EHDR, ec, e->e_version, (size_t) 1);
msz = _libelf_msize(ELF_T_EHDR, ec, e->e_version);
(void) memset(&dst, 0, sizeof(dst));
(void) memset(&src, 0, sizeof(src));
src.d_buf = ehdr;
src.d_size = msz;
src.d_type = ELF_T_EHDR;
src.d_version = dst.d_version = e->e_version;
rc = 0;
dst.d_buf = newfile + rc;
dst.d_size = fsz;
if (_libelf_xlate(&dst, &src, e->e_byteorder, ec, ELF_TOFILE) ==
NULL)
goto error;
rc += fsz;
/*
* Write the program header table if present.
*/
if (phnum != 0 && phoff != 0) {
assert((unsigned) rc <= phoff);
fsz = _libelf_fsize(ELF_T_PHDR, ec, e->e_version, phnum);
assert(phoff % _libelf_falign(ELF_T_PHDR, ec) == 0);
assert(fsz > 0);
src.d_version = dst.d_version = e->e_version;
src.d_type = ELF_T_PHDR;
if (ec == ELFCLASS32)
src.d_buf = e->e_u.e_elf.e_phdr.e_phdr32;
else
src.d_buf = e->e_u.e_elf.e_phdr.e_phdr64;
src.d_size = phnum * _libelf_msize(ELF_T_PHDR, ec,
e->e_version);
dst.d_size = fsz;
if ((uint64_t) rc < phoff)
(void) memset(newfile + rc,
LIBELF_PRIVATE(fillchar), phoff - rc);
dst.d_buf = newfile + rc;
if (_libelf_xlate(&dst, &src, e->e_byteorder, ec, ELF_TOFILE) ==
NULL)
goto error;
rc = phoff + fsz;
}
/*
* Write out individual sections.
*/
STAILQ_FOREACH(scn, &e->e_u.e_elf.e_scn, s_next)
if ((rc = _libelf_write_scn(e, newfile, scn, rc)) < 0)
goto error;
/*
* Write out the section header table, if required. Note that
* if flag ELF_F_LAYOUT has been set the section header table
* could reside in between byte ranges mapped by section
* descriptors.
*/
if (shnum != 0 && shoff != 0) {
if ((uint64_t) rc < shoff)
(void) memset(newfile + rc,
LIBELF_PRIVATE(fillchar), shoff - rc);
maxrc = rc;
rc = shoff;
assert(rc % _libelf_falign(ELF_T_SHDR, ec) == 0);
src.d_type = ELF_T_SHDR;
src.d_size = _libelf_msize(ELF_T_SHDR, ec, e->e_version);
src.d_version = dst.d_version = e->e_version;
fsz = _libelf_fsize(ELF_T_SHDR, ec, e->e_version, (size_t) 1);
STAILQ_FOREACH(scn, &e->e_u.e_elf.e_scn, s_next) {
if (ec == ELFCLASS32)
src.d_buf = &scn->s_shdr.s_shdr32;
else
src.d_buf = &scn->s_shdr.s_shdr64;
dst.d_size = fsz;
dst.d_buf = newfile + rc;
if (_libelf_xlate(&dst, &src, e->e_byteorder, ec,
ELF_TOFILE) != &dst)
goto error;
rc += fsz;
}
if (maxrc > rc)
rc = maxrc;
}
assert(rc == newsize);
/*
* Write out the constructed contents and remap the file in
* read-only.
*/
if (e->e_rawfile && munmap(e->e_rawfile, e->e_rawsize) < 0) {
LIBELF_SET_ERROR(IO, errno);
goto error;
}
if (write(e->e_fd, newfile, (size_t) newsize) != newsize ||
lseek(e->e_fd, (off_t) 0, SEEK_SET) < 0) {
LIBELF_SET_ERROR(IO, errno);
goto error;
}
if (e->e_cmd != ELF_C_WRITE) {
if ((e->e_rawfile = mmap(NULL, (size_t) newsize, PROT_READ,
MAP_PRIVATE, e->e_fd, (off_t) 0)) == MAP_FAILED) {
LIBELF_SET_ERROR(IO, errno);
goto error;
}
e->e_rawsize = newsize;
}
/*
* Reset flags, remove existing section descriptors and
* {E,P}HDR pointers so that a subsequent elf_get{e,p}hdr()
* and elf_getscn() will function correctly.
*/
e->e_flags &= ~ELF_F_DIRTY;
STAILQ_FOREACH_SAFE(scn, &e->e_u.e_elf.e_scn, s_next, tscn)
_libelf_release_scn(scn);
if (ec == ELFCLASS32) {
free(e->e_u.e_elf.e_ehdr.e_ehdr32);
if (e->e_u.e_elf.e_phdr.e_phdr32)
free(e->e_u.e_elf.e_phdr.e_phdr32);
e->e_u.e_elf.e_ehdr.e_ehdr32 = NULL;
e->e_u.e_elf.e_phdr.e_phdr32 = NULL;
} else {
free(e->e_u.e_elf.e_ehdr.e_ehdr64);
if (e->e_u.e_elf.e_phdr.e_phdr64)
free(e->e_u.e_elf.e_phdr.e_phdr64);
e->e_u.e_elf.e_ehdr.e_ehdr64 = NULL;
e->e_u.e_elf.e_phdr.e_phdr64 = NULL;
}
return (rc);
error:
if (newfile)
free(newfile);
return ((off_t) -1);
}
off_t
elf_update(Elf *e, Elf_Cmd c)
{
int ec;
off_t rc;
rc = (off_t) -1;
if (e == NULL || e->e_kind != ELF_K_ELF ||
(c != ELF_C_NULL && c != ELF_C_WRITE)) {
LIBELF_SET_ERROR(ARGUMENT, 0);
return (rc);
}
if ((ec = e->e_class) != ELFCLASS32 && ec != ELFCLASS64) {
LIBELF_SET_ERROR(CLASS, 0);
return (rc);
}
if (e->e_version == EV_NONE)
e->e_version = EV_CURRENT;
if (c == ELF_C_WRITE && e->e_cmd == ELF_C_READ) {
LIBELF_SET_ERROR(MODE, 0);
return (rc);
}
if ((rc = _libelf_resync_elf(e)) < 0)
return (rc);
if (c == ELF_C_NULL)
return (rc);
if (e->e_cmd == ELF_C_READ) {
/*
* This descriptor was opened in read-only mode or by
* elf_memory().
*/
if (e->e_fd)
LIBELF_SET_ERROR(MODE, 0);
else
LIBELF_SET_ERROR(ARGUMENT, 0);
return ((off_t) -1);
}
if (e->e_fd < 0) {
LIBELF_SET_ERROR(SEQUENCE, 0);
return ((off_t) -1);
}
return (_libelf_write_elf(e, rc));
}