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|
/* $OpenBSD: library_subr.c,v 1.51 2022/01/08 06:49:41 guenther Exp $ */
/*
* Copyright (c) 2002 Dale Rahn
* Copyright (c) 1998 Per Fogelstrom, Opsycon AB
*
* 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 ``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 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.
*
*/
#define _DYN_LOADER
#include <sys/types.h>
#include <sys/queue.h>
#include <limits.h>
#include <dirent.h>
#include "util.h"
#include "resolve.h"
#include "dir.h"
#include "sod.h"
char * _dl_default_path[2] = { "/usr/lib", NULL };
/* STATIC DATA */
struct dlochld _dlopened_child_list;
/*
* _dl_match_file()
*
* This function determines if a given name matches what is specified
* in a struct sod. The major must match exactly, and the minor must
* be same or larger.
*
* sodp is updated with the minor if this matches.
*/
int
_dl_match_file(struct sod *sodp, const char *name, int namelen)
{
int match;
struct sod lsod;
const char *lname;
lname = name;
if (sodp->sod_library) {
if (_dl_strncmp(name, "lib", 3))
return 0;
lname += 3;
}
if (_dl_strncmp(lname, (char *)sodp->sod_name,
_dl_strlen((char *)sodp->sod_name)))
return 0;
_dl_build_sod(name, &lsod);
match = 0;
if ((_dl_strcmp((char *)lsod.sod_name, (char *)sodp->sod_name) == 0) &&
(lsod.sod_library == sodp->sod_library) &&
((sodp->sod_major == -1) || (sodp->sod_major == lsod.sod_major)) &&
((sodp->sod_minor == -1) ||
(lsod.sod_minor >= sodp->sod_minor))) {
match = 1;
/* return version matched */
sodp->sod_major = lsod.sod_major;
sodp->sod_minor = lsod.sod_minor;
}
_dl_free((char *)lsod.sod_name);
return match;
}
/*
* _dl_cmp_sod()
*
* This function compares sod structs. The major must match exactly,
* and the minor must be same or larger.
*
* sodp is updated with the minor if this matches.
*/
static int
_dl_cmp_sod(struct sod *sodp, const struct sod *lsod)
{
int match;
match = 1;
if ((_dl_strcmp((char *)lsod->sod_name, (char *)sodp->sod_name) == 0) &&
(lsod->sod_library == sodp->sod_library) &&
((sodp->sod_major == -1) || (sodp->sod_major == lsod->sod_major)) &&
((sodp->sod_minor == -1) ||
(lsod->sod_minor >= sodp->sod_minor))) {
match = 0;
/* return version matched */
sodp->sod_major = lsod->sod_major;
sodp->sod_minor = lsod->sod_minor;
}
return match;
}
char _dl_hint_store[PATH_MAX];
char *
_dl_find_shlib(struct sod *sodp, char **searchpath, int nohints)
{
char *hint, **pp;
struct dirent *dp;
int match, len;
_dl_DIR *dd;
struct sod tsod, bsod; /* transient and best sod */
/* if we are to search default directories, and hints
* are not to be used, search the standard path from ldconfig
* (_dl_hint_search_path) or use the default path
*/
if (nohints)
goto nohints;
if (searchpath == NULL) {
/* search 'standard' locations, find any match in the hints */
hint = _dl_findhint((char *)sodp->sod_name, sodp->sod_major,
sodp->sod_minor, NULL);
if (hint)
return hint;
} else {
/* search hints requesting matches for only
* the searchpath directories,
*/
for (pp = searchpath; *pp != NULL; pp++) {
hint = _dl_findhint((char *)sodp->sod_name,
sodp->sod_major, sodp->sod_minor, *pp);
if (hint != NULL)
return hint;
}
}
/*
* For each directory in the searchpath, read the directory
* entries looking for a match to sod. filename compare is
* done by _dl_match_file()
*/
nohints:
if (searchpath == NULL) {
if (_dl_hint_search_path != NULL)
searchpath = _dl_hint_search_path;
else
searchpath = _dl_default_path;
}
_dl_memset(&bsod, 0, sizeof(bsod));
for (pp = searchpath; *pp != NULL; pp++) {
if ((dd = _dl_opendir(*pp)) != NULL) {
match = 0;
while ((dp = _dl_readdir(dd)) != NULL) {
tsod = *sodp;
if (_dl_match_file(&tsod, dp->d_name,
dp->d_namlen)) {
/*
* When a match is found, tsod is
* updated with the major+minor found.
* This version is compared with the
* largest so far (kept in bsod),
* and saved if larger.
*/
if (!match ||
tsod.sod_major == -1 ||
tsod.sod_major > bsod.sod_major ||
((tsod.sod_major ==
bsod.sod_major) &&
tsod.sod_minor > bsod.sod_minor)) {
bsod = tsod;
match = 1;
len = _dl_strlcpy(
_dl_hint_store, *pp,
PATH_MAX);
if (pp[0][len-1] != '/') {
_dl_hint_store[len] =
'/';
len++;
}
_dl_strlcpy(
&_dl_hint_store[len],
dp->d_name,
PATH_MAX-len);
if (tsod.sod_major == -1)
break;
}
}
}
_dl_closedir(dd);
if (match) {
*sodp = bsod;
return (_dl_hint_store);
}
}
}
return NULL;
}
static elf_object_t *
_dl_lookup_object(const char *req_name, struct sod *req_sod)
{
elf_object_t *object = _dl_objects;
while (object) {
char *soname;
if (_dl_cmp_sod(req_sod, &object->sod) == 0)
return(object);
soname = (char *)object->Dyn.info[DT_SONAME];
if (soname != NULL) {
if (_dl_strcmp(req_name, soname) == 0)
return(object);
}
object = object->next;
}
return(NULL);
}
static elf_object_t *
_dl_find_loaded_shlib(const char *req_name, struct sod req_sod, int flags)
{
elf_object_t *object;
object = _dl_lookup_object(req_name, &req_sod);
/* if not found retry with any minor */
if (object == NULL && req_sod.sod_library && req_sod.sod_minor != -1) {
short orig_minor = req_sod.sod_minor;
req_sod.sod_minor = -1;
object = _dl_lookup_object(req_name, &req_sod);
if (object != NULL && req_sod.sod_minor < orig_minor)
_dl_printf("warning: lib%s.so.%d.%d: "
"minor version >= %d expected, "
"using it anyway\n",
req_sod.sod_name, req_sod.sod_major,
req_sod.sod_minor, orig_minor);
}
if (object) { /* Already loaded */
object->obj_flags |= flags & DF_1_GLOBAL;
if (_dl_loading_object == NULL)
_dl_loading_object = object;
if (object->load_object != _dl_objects &&
object->load_object != _dl_loading_object) {
_dl_link_grpref(object->load_object, _dl_loading_object);
}
}
return (object);
}
/*
* Load a shared object. Search order is:
* First check loaded objects for a matching shlib, otherwise:
*
* If the name contains a '/' use only the path preceding the
* library name and do not continue on to other methods if not
* found.
* search hints for match in path preceding library name
* this will only match specific library version.
* search path preceding library name
* this will find largest minor version in path provided
*
* Otherwise, the name doesn't contain a '/':
* search hints for the specific library version, trying in turn
* paths from the following:
* - the LD_LIBRARY_PATH environment variable (if set)
* - the library's own DT_RUNPATH
* - if DT_RUNPATH wasn't set, then:
* - the library's own DT_RPATH
* - the executable's own DT_RPATH
* - the default search path set by ldconfig, or /usr/lib if unset
*
* If the hints doesn't have an exact match, then we search
* that exact same list of directories again, looking for a
* lib with the correct major version. If we find a match on
* the major, then we take the match *in that directory* which
* has the largest minor version
*/
elf_object_t *
_dl_load_shlib(const char *libname, elf_object_t *parent, int type, int flags)
{
int try_any_minor, ignore_hints;
struct sod sod, req_sod;
elf_object_t *object = NULL;
char *hint;
try_any_minor = 0;
ignore_hints = 0;
if (_dl_strchr(libname, '/')) {
char *paths[2];
char *lpath, *lname;
lpath = _dl_strdup(libname);
if (lpath == NULL)
_dl_oom();
lname = _dl_strrchr(lpath, '/');
if (lname == NULL) {
_dl_free(lpath);
_dl_errno = DL_NOT_FOUND;
return (object);
}
*lname = '\0';
lname++;
if (*lname == '\0') {
_dl_free(lpath);
_dl_errno = DL_NOT_FOUND;
return (object);
}
_dl_build_sod(lname, &sod);
req_sod = sod;
paths[0] = lpath;
paths[1] = NULL;
fullpathagain:
hint = _dl_find_shlib(&req_sod, paths, ignore_hints);
if (hint != NULL)
goto fullpathdone;
if (try_any_minor == 0) {
try_any_minor = 1;
ignore_hints = 1;
req_sod.sod_minor = -1;
goto fullpathagain;
}
_dl_errno = DL_NOT_FOUND;
fullpathdone:
_dl_free(lpath);
goto done;
}
_dl_build_sod(libname, &sod);
req_sod = sod;
object = _dl_find_loaded_shlib(libname, req_sod, flags);
if (object) {
_dl_free((char *)sod.sod_name);
return (object);
}
again:
/* No '/' in name. Scan the known places, LD_LIBRARY_PATH first. */
if (_dl_libpath != NULL) {
hint = _dl_find_shlib(&req_sod, _dl_libpath, ignore_hints);
if (hint != NULL)
goto done;
}
/* Check DT_RUNPATH */
if (parent->runpath != NULL) {
hint = _dl_find_shlib(&req_sod, parent->runpath, ignore_hints);
if (hint != NULL)
goto done;
} else {
/*
* If DT_RUNPATH wasn't set then first check DT_RPATH,
* followed by the main program's DT_RPATH.
*/
if (parent->rpath != NULL) {
hint = _dl_find_shlib(&req_sod, parent->rpath,
ignore_hints);
if (hint != NULL)
goto done;
}
if (parent != _dl_objects && _dl_objects->rpath != NULL) {
hint = _dl_find_shlib(&req_sod, _dl_objects->rpath,
ignore_hints);
if (hint != NULL)
goto done;
}
}
/* check 'standard' locations */
hint = _dl_find_shlib(&req_sod, NULL, ignore_hints);
if (hint != NULL)
goto done;
if (try_any_minor == 0) {
try_any_minor = 1;
ignore_hints = 1;
req_sod.sod_minor = -1;
goto again;
}
_dl_errno = DL_NOT_FOUND;
done:
if (hint != NULL) {
if (req_sod.sod_minor < sod.sod_minor)
_dl_printf("warning: lib%s.so.%d.%d: "
"minor version >= %d expected, "
"using it anyway\n",
sod.sod_name, sod.sod_major,
req_sod.sod_minor, sod.sod_minor);
object = _dl_tryload_shlib(hint, type, flags);
}
_dl_free((char *)sod.sod_name);
return(object);
}
void
_dl_link_dlopen(elf_object_t *dep)
{
struct dep_node *n;
dep->opencount++;
if (OBJECT_DLREF_CNT(dep) > 1)
return;
n = _dl_malloc(sizeof *n);
if (n == NULL)
_dl_oom();
n->data = dep;
TAILQ_INSERT_TAIL(&_dlopened_child_list, n, next_sib);
DL_DEB(("linking %s as dlopen()ed\n", dep->load_name));
}
static void
_dl_child_refcnt_decrement(elf_object_t *object)
{
struct object_vector vec;
int i;
object->refcount--;
if (OBJECT_REF_CNT(object) == 0)
for (vec = object->child_vec, i = 0; i < vec.len; i++)
_dl_child_refcnt_decrement(vec.vec[i]);
}
void
_dl_notify_unload_shlib(elf_object_t *object)
{
struct object_vector vec;
struct dep_node *n;
int i;
if (OBJECT_REF_CNT(object) == 0)
for (vec = object->child_vec, i = 0; i < vec.len; i++)
_dl_child_refcnt_decrement(vec.vec[i]);
if (OBJECT_DLREF_CNT(object) == 0) {
while ((n = TAILQ_FIRST(&object->grpref_list)) != NULL) {
TAILQ_REMOVE(&object->grpref_list, n, next_sib);
n->data->grprefcount--;
_dl_notify_unload_shlib(n->data);
_dl_free(n);
}
}
}
void
_dl_unload_dlopen(void)
{
struct dep_node *node;
TAILQ_FOREACH_REVERSE(node, &_dlopened_child_list, dlochld, next_sib) {
/* dont dlclose the main program */
if (node->data == _dl_objects)
continue;
while (node->data->opencount > 0) {
node->data->opencount--;
_dl_notify_unload_shlib(node->data);
_dl_run_all_dtors();
}
}
}
void
_dl_link_grpref(elf_object_t *load_group, elf_object_t *load_object)
{
struct dep_node *n;
n = _dl_malloc(sizeof *n);
if (n == NULL)
_dl_oom();
n->data = load_group;
TAILQ_INSERT_TAIL(&load_object->grpref_list, n, next_sib);
load_group->grprefcount++;
}
void
_dl_link_child(elf_object_t *dep, elf_object_t *p)
{
int i;
i = p->child_vec.len++;
if (i == p->child_vec.alloc)
_dl_die("child appeared %d > %d", p->child_vec.len,
p->child_vec.alloc);
p->child_vec.vec[i] = dep;
dep->refcount++;
DL_DEB(("linking dep %s as child of %s\n", dep->load_name,
p->load_name));
}
void
object_vec_grow(struct object_vector *vec, int more)
{
vec->alloc += more;
vec->vec = _dl_reallocarray(vec->vec, vec->alloc, sizeof(*vec->vec));
if (vec->vec == NULL)
_dl_oom();
}
/* Generation number of the current grpsym insertion/caching */
static unsigned int _dl_grpsym_gen = 0;
void
_dl_link_grpsym(elf_object_t *object)
{
struct object_vector *vec;
int len;
if (object->grpsym_gen == _dl_grpsym_gen)
return;
object->grpsym_gen = _dl_grpsym_gen;
vec = &_dl_loading_object->grpsym_vec;
len = vec->len++;
if (len >= vec->alloc)
_dl_die("more grpsym than objects?! %d > %d", vec->len,
vec->alloc);
vec->vec[len] = object;
}
void
_dl_cache_grpsym_list_setup(elf_object_t *object)
{
struct object_vector *vec;
int next;
_dl_grpsym_gen += 1;
if (_dl_grpsym_gen == 0) {
/*
* If the count rolls over, reset all counters so
* we don't get accidental collision.
*/
elf_object_t *walkobj;
for (walkobj = _dl_objects;
walkobj != NULL;
walkobj = walkobj->next) {
walkobj->grpsym_gen = 0;
}
_dl_grpsym_gen = 1;
}
/*
* grpsym_vec is a vector of all child libs of the
* _dl_loading_object with no dups. The order is equivalent
* to a breadth-first traversal of the child list without dups.
*/
vec = &object->grpsym_vec;
object_vec_grow(vec, object_count);
next = 0;
/* add first object manually */
_dl_link_grpsym(object);
while (next < vec->len) {
struct object_vector child_vec;
int i;
child_vec = vec->vec[next++]->child_vec;
for (i = 0; i < child_vec.len; i++)
_dl_link_grpsym(child_vec.vec[i]);
}
}
|