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/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2008 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
/* Copyright (c) 1988 AT&T */
/* All Rights Reserved */
/*
* This stuff used to live in cook.c, but was moved out to
* facilitate dual (Elf32 and Elf64) compilation. See block
* comment in cook.c for more info.
*/
#include <string.h>
#include <ar.h>
#include <stdlib.h>
#include <errno.h>
#include <sys/sysmacros.h>
#include "decl.h"
#include "member.h"
#include "msg.h"
/*
* This module is compiled twice, the second time having
* -D_ELF64 defined. The following set of macros, along
* with machelf.h, represent the differences between the
* two compilations. Be careful *not* to add any class-
* dependent code (anything that has elf32 or elf64 in the
* name) to this code without hiding it behind a switch-
* able macro like these.
*/
#if defined(_ELF64)
#define Snode Snode64
#define ELFCLASS ELFCLASS64
#define ElfField Elf64
#define _elf_snode_init _elf64_snode_init
#define _elf_prepscan _elf64_prepscan
#define _elf_cookscn _elf64_cookscn
#define _elf_mtype _elf64_mtype
#define _elf_msize _elf64_msize
#define elf_fsize elf64_fsize
#define _elf_snode _elf64_snode
#define _elf_ehdr _elf64_ehdr
#define elf_xlatetom elf64_xlatetom
#define _elf_phdr _elf64_phdr
#define _elf_shdr _elf64_shdr
#define _elf_prepscn _elf64_prepscn
#else /* Elf32 */
#define Snode Snode32
#define ELFCLASS ELFCLASS32
#define ElfField Elf32
#define _elf_snode_init _elf32_snode_init
#define _elf_prepscan _elf32_prepscan
#define _elf_cookscn _elf32_cookscn
#define _elf_mtype _elf32_mtype
#define _elf_msize _elf32_msize
#define elf_fsize elf32_fsize
#define _elf_snode _elf32_snode
#define _elf_ehdr _elf32_ehdr
#define elf_xlatetom elf32_xlatetom
#define _elf_phdr _elf32_phdr
#define _elf_shdr _elf32_shdr
#define _elf_prepscn _elf32_prepscn
#endif /* _ELF64 */
static Okay
_elf_prepscn(Elf *elf, size_t cnt)
{
Elf_Scn * s;
Elf_Scn * end;
if (cnt == 0)
return (OK_YES);
if ((s = malloc(cnt * sizeof (Elf_Scn))) == 0) {
_elf_seterr(EMEM_SCN, errno);
return (OK_NO);
}
elf->ed_scntabsz = cnt;
end = s + cnt;
elf->ed_hdscn = s;
do {
*s = _elf_snode_init.sb_scn;
s->s_elf = elf;
s->s_next = s + 1;
s->s_index = s - elf->ed_hdscn;
s->s_shdr = (Shdr*)s->s_elf->ed_shdr + s->s_index;
ELFMUTEXINIT(&s->s_mutex);
/*
* Section has not yet been cooked!
*
* We don't cook a section until it's data is actually
* referenced.
*/
s->s_myflags = 0;
} while (++s < end);
elf->ed_tlscn = --s;
s->s_next = 0;
/*
* Section index SHN_UNDEF (0) does not and cannot
* have a data buffer. Fix it here. Also mark the
* initial section as being allocated for the block
*/
s = elf->ed_hdscn;
s->s_myflags = SF_ALLOC;
s->s_hdnode = 0;
s->s_tlnode = 0;
return (OK_YES);
}
Okay
_elf_cookscn(Elf_Scn * s)
{
Elf * elf;
Shdr * sh;
register Dnode * d = &s->s_dnode;
size_t fsz, msz;
unsigned work;
s->s_hdnode = s->s_tlnode = d;
s->s_err = 0;
s->s_shflags = 0;
s->s_uflags = 0;
/*
* Prepare d_data for inspection, but don't actually
* translate data until needed. Leave the READY
* flag off. NOBITS sections see zero size.
*/
elf = s->s_elf;
sh = s->s_shdr;
d->db_scn = s;
d->db_off = sh->sh_offset;
d->db_data.d_align = sh->sh_addralign;
d->db_data.d_version = elf->ed_version;
ELFACCESSDATA(work, _elf_work)
d->db_data.d_type = _elf_mtype(elf, sh->sh_type, work);
d->db_data.d_buf = 0;
d->db_data.d_off = 0;
fsz = elf_fsize(d->db_data.d_type, 1, elf->ed_version);
msz = _elf_msize(d->db_data.d_type, elf->ed_version);
d->db_data.d_size = MAX(sh->sh_size, (sh->sh_size / fsz) * msz);
d->db_shsz = sh->sh_size;
d->db_raw = 0;
d->db_buf = 0;
d->db_uflags = 0;
d->db_myflags = 0;
d->db_next = 0;
if (sh->sh_type != SHT_NOBITS)
d->db_fsz = sh->sh_size;
else
d->db_fsz = 0;
s->s_myflags |= SF_READY;
return (OK_YES);
}
Snode *
_elf_snode()
{
register Snode *s;
if ((s = malloc(sizeof (Snode))) == 0) {
_elf_seterr(EMEM_SNODE, errno);
return (0);
}
*s = _elf_snode_init;
ELFMUTEXINIT(&s->sb_scn.s_mutex);
s->sb_scn.s_myflags = SF_ALLOC | SF_READY;
s->sb_scn.s_shdr = &s->sb_shdr;
return (s);
}
int
_elf_ehdr(Elf * elf, int inplace)
{
register size_t fsz; /* field size */
Elf_Data dst, src;
fsz = elf_fsize(ELF_T_EHDR, 1, elf->ed_version);
if (fsz > elf->ed_fsz) {
_elf_seterr(EFMT_EHDRSZ, 0);
return (-1);
}
if (inplace && (fsz >= sizeof (Ehdr))) {
/*
* The translated Ehdr will fit over the original Ehdr.
*/
/* LINTED */
elf->ed_ehdr = (Ehdr *)elf->ed_ident;
elf->ed_status = ES_COOKED;
} else {
elf->ed_ehdr = malloc(sizeof (Ehdr));
if (elf->ed_ehdr == 0) {
_elf_seterr(EMEM_EHDR, errno);
return (-1);
}
elf->ed_myflags |= EDF_EHALLOC;
}
/*
* Memory size >= fsz, because otherwise the memory version
* loses information and cannot accurately implement the
* file.
*/
src.d_buf = (Elf_Void *)elf->ed_ident;
src.d_type = ELF_T_EHDR;
src.d_size = fsz;
src.d_version = elf->ed_version;
dst.d_buf = (Elf_Void *)elf->ed_ehdr;
dst.d_size = sizeof (Ehdr);
dst.d_version = EV_CURRENT;
if ((_elf_vm(elf, (size_t)0, fsz) != OK_YES) ||
(elf_xlatetom(&dst, &src, elf->ed_encode) == 0)) {
if (elf->ed_myflags & EDF_EHALLOC) {
elf->ed_myflags &= ~EDF_EHALLOC;
free(elf->ed_ehdr);
}
elf->ed_ehdr = 0;
return (-1);
}
if (((Ehdr*)elf->ed_ehdr)->e_ident[EI_CLASS] != ELFCLASS) {
_elf_seterr(EREQ_CLASS, 0);
if (elf->ed_myflags & EDF_EHALLOC) {
elf->ed_myflags &= ~EDF_EHALLOC;
free(elf->ed_ehdr);
}
elf->ed_ehdr = 0;
return (-1);
}
if (((Ehdr*)elf->ed_ehdr)->e_version != elf->ed_version) {
_elf_seterr(EFMT_VER2, 0);
if (elf->ed_myflags & EDF_EHALLOC) {
elf->ed_myflags &= ~EDF_EHALLOC;
free(elf->ed_ehdr);
}
elf->ed_ehdr = 0;
return (-1);
}
return (0);
}
int
_elf_phdr(Elf * elf, int inplace)
{
register size_t fsz, msz;
Elf_Data dst, src;
Ehdr * eh = elf->ed_ehdr; /* must be present */
unsigned work;
if (eh->e_phnum == 0)
return (0);
fsz = elf_fsize(ELF_T_PHDR, 1, elf->ed_version);
if (eh->e_phentsize != fsz) {
_elf_seterr(EFMT_PHDRSZ, 0);
return (-1);
}
fsz *= eh->e_phnum;
ELFACCESSDATA(work, _elf_work)
msz = _elf_msize(ELF_T_PHDR, work) * eh->e_phnum;
if ((eh->e_phoff == 0) ||
(elf->ed_fsz <= eh->e_phoff) ||
(elf->ed_fsz - eh->e_phoff < fsz)) {
_elf_seterr(EFMT_PHTAB, 0);
return (-1);
}
if (inplace && fsz >= msz && eh->e_phoff % sizeof (ElfField) == 0) {
elf->ed_phdr = (Elf_Void *)(elf->ed_ident + eh->e_phoff);
elf->ed_status = ES_COOKED;
} else {
if ((elf->ed_phdr = malloc(msz)) == 0) {
_elf_seterr(EMEM_PHDR, errno);
return (-1);
}
elf->ed_myflags |= EDF_PHALLOC;
}
src.d_buf = (Elf_Void *)(elf->ed_ident + eh->e_phoff);
src.d_type = ELF_T_PHDR;
src.d_size = fsz;
src.d_version = elf->ed_version;
dst.d_buf = elf->ed_phdr;
dst.d_size = msz;
dst.d_version = work;
if ((_elf_vm(elf, (size_t)eh->e_phoff, fsz) != OK_YES) ||
(elf_xlatetom(&dst, &src, elf->ed_encode) == 0)) {
if (elf->ed_myflags & EDF_PHALLOC) {
elf->ed_myflags &= ~EDF_PHALLOC;
free(elf->ed_phdr);
}
elf->ed_phdr = 0;
return (-1);
}
elf->ed_phdrsz = msz;
return (0);
}
int
_elf_shdr(Elf * elf, int inplace)
{
register size_t fsz, msz;
size_t scncnt;
Elf_Data dst, src;
register Ehdr *eh = elf->ed_ehdr; /* must be present */
if ((eh->e_shnum == 0) && (eh->e_shoff == 0))
return (0);
fsz = elf_fsize(ELF_T_SHDR, 1, elf->ed_version);
if (eh->e_shentsize != fsz) {
_elf_seterr(EFMT_SHDRSZ, 0);
return (-1);
}
/*
* If we are dealing with a file with 'extended section
* indexes' - then we need to load the first section
* header. The actual section count is stored in
* Shdr[0].sh_size.
*/
if ((scncnt = eh->e_shnum) == 0) {
Shdr sh;
if ((eh->e_shoff == 0) ||
(elf->ed_fsz <= eh->e_shoff) ||
(elf->ed_fsz - eh->e_shoff < fsz)) {
_elf_seterr(EFMT_SHTAB, 0);
return (-1);
}
src.d_buf = (Elf_Void *)(elf->ed_ident + eh->e_shoff);
src.d_type = ELF_T_SHDR;
src.d_size = fsz;
src.d_version = elf->ed_version;
dst.d_buf = (Elf_Void *)&sh;
dst.d_size = sizeof (Shdr);
dst.d_version = EV_CURRENT;
if ((_elf_vm(elf, (size_t)eh->e_shoff, fsz) != OK_YES) ||
(elf_xlatetom(&dst, &src, elf->ed_encode) == 0)) {
return (-1);
}
scncnt = sh.sh_size;
}
fsz *= scncnt;
msz = scncnt * sizeof (Shdr);
if ((eh->e_shoff == 0) ||
(elf->ed_fsz <= eh->e_shoff) ||
(elf->ed_fsz - eh->e_shoff < fsz)) {
_elf_seterr(EFMT_SHTAB, 0);
return (-1);
}
if (inplace && (fsz >= msz) &&
((eh->e_shoff % sizeof (ElfField)) == 0)) {
/* LINTED */
elf->ed_shdr = (Shdr *)(elf->ed_ident + eh->e_shoff);
elf->ed_status = ES_COOKED;
} else {
if ((elf->ed_shdr = malloc(msz)) == 0) {
_elf_seterr(EMEM_SHDR, errno);
return (-1);
}
elf->ed_myflags |= EDF_SHALLOC;
}
src.d_buf = (Elf_Void *)(elf->ed_ident + eh->e_shoff);
src.d_type = ELF_T_SHDR;
src.d_size = fsz;
src.d_version = elf->ed_version;
dst.d_buf = (Elf_Void *)elf->ed_shdr;
dst.d_size = msz;
dst.d_version = EV_CURRENT;
if ((_elf_vm(elf, (size_t)eh->e_shoff, fsz) != OK_YES) ||
(elf_xlatetom(&dst, &src, elf->ed_encode) == 0) ||
(_elf_prepscn(elf, scncnt) != OK_YES)) {
if (elf->ed_myflags & EDF_SHALLOC) {
elf->ed_myflags &= ~EDF_SHALLOC;
free(elf->ed_shdr);
}
elf->ed_shdr = 0;
return (-1);
}
return (0);
}
|
