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/*
* Copyright (c) 1996, 1998-2005, 2007-2009
* Todd C. Miller <Todd.Miller@courtesan.com>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* Sponsored in part by the Defense Advanced Research Projects
* Agency (DARPA) and Air Force Research Laboratory, Air Force
* Materiel Command, USAF, under agreement number F39502-99-1-0512.
*/
#include <config.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/param.h>
#include <stdio.h>
#ifdef STDC_HEADERS
# include <stdlib.h>
# include <stddef.h>
#else
# ifdef HAVE_STDLIB_H
# include <stdlib.h>
# endif
#endif /* STDC_HEADERS */
#ifdef HAVE_STRING_H
# if defined(HAVE_MEMORY_H) && !defined(STDC_HEADERS)
# include <memory.h>
# endif
# include <string.h>
#else
# ifdef HAVE_STRINGS_H
# include <strings.h>
# endif
#endif /* HAVE_STRING_H */
#ifdef HAVE_UNISTD_H
# include <unistd.h>
#endif /* HAVE_UNISTD_H */
#include <pwd.h>
#include <grp.h>
#include "sudo.h"
#include "redblack.h"
#ifdef MYPW
extern void (*my_setgrent) __P((void));
extern void (*my_endgrent) __P((void));
extern struct group *(*my_getgrnam) __P((const char *));
extern struct group *(*my_getgrgid) __P((gid_t));
#define setgrent() my_setgrent()
#define endgrent() my_endgrent()
#define getgrnam(n) my_getgrnam(n)
#define getgrgid(g) my_getgrgid(g)
extern void (*my_setpwent) __P((void));
extern void (*my_endpwent) __P((void));
extern struct passwd *(*my_getpwnam) __P((const char *));
extern struct passwd *(*my_getpwuid) __P((uid_t));
#define setpwent() my_setpwent()
#define endpwent() my_endpwent()
#define getpwnam(n) my_getpwnam(n)
#define getpwuid(u) my_getpwuid(u)
#endif
/*
* The passwd and group caches.
*/
static struct rbtree *pwcache_byuid, *pwcache_byname;
static struct rbtree *grcache_bygid, *grcache_byname;
static int cmp_pwuid __P((const void *, const void *));
static int cmp_pwnam __P((const void *, const void *));
static int cmp_grgid __P((const void *, const void *));
static int cmp_grnam __P((const void *, const void *));
/*
* Compare by uid.
*/
static int
cmp_pwuid(v1, v2)
const void *v1;
const void *v2;
{
const struct passwd *pw1 = (const struct passwd *) v1;
const struct passwd *pw2 = (const struct passwd *) v2;
return(pw1->pw_uid - pw2->pw_uid);
}
/*
* Compare by user name.
*/
static int
cmp_pwnam(v1, v2)
const void *v1;
const void *v2;
{
const struct passwd *pw1 = (const struct passwd *) v1;
const struct passwd *pw2 = (const struct passwd *) v2;
return(strcasecmp(pw1->pw_name, pw2->pw_name));
}
#define FIELD_SIZE(src, name, size) \
do { \
if (src->name) { \
size = strlen(src->name) + 1; \
total += size; \
} \
} while (0)
#define FIELD_COPY(src, dst, name, size) \
do { \
if (src->name) { \
memcpy(cp, src->name, size); \
dst->name = cp; \
cp += size; \
} \
} while (0)
/*
* Dynamically allocate space for a struct password and the constituent parts
* that we care about. Fills in pw_passwd from shadow file.
*/
static struct passwd *
sudo_pwdup(pw)
const struct passwd *pw;
{
char *cp;
const char *pw_shell;
size_t nsize, psize, csize, gsize, dsize, ssize, total;
struct passwd *newpw;
/* If shell field is empty, expand to _PATH_BSHELL. */
pw_shell = (pw->pw_shell == NULL || pw->pw_shell[0] == '\0')
? _PATH_BSHELL : pw->pw_shell;
/* Allocate in one big chunk for easy freeing. */
nsize = psize = csize = gsize = dsize = ssize = 0;
total = sizeof(struct passwd);
FIELD_SIZE(pw, pw_name, nsize);
FIELD_SIZE(pw, pw_passwd, psize);
#ifdef HAVE_LOGIN_CAP_H
FIELD_SIZE(pw, pw_class, csize);
#endif
FIELD_SIZE(pw, pw_gecos, gsize);
FIELD_SIZE(pw, pw_dir, dsize);
FIELD_SIZE(pw, pw_shell, ssize);
if ((cp = malloc(total)) == NULL)
return(NULL);
newpw = (struct passwd *) cp;
/*
* Copy in passwd contents and make strings relative to space
* at the end of the buffer.
*/
memcpy(newpw, pw, sizeof(struct passwd));
cp += sizeof(struct passwd);
FIELD_COPY(pw, newpw, pw_name, nsize);
FIELD_COPY(pw, newpw, pw_passwd, psize);
#ifdef HAVE_LOGIN_CAP_H
FIELD_COPY(pw, newpw, pw_class, csize);
#endif
FIELD_COPY(pw, newpw, pw_gecos, gsize);
FIELD_COPY(pw, newpw, pw_dir, dsize);
FIELD_COPY(pw, newpw, pw_shell, ssize);
return(newpw);
}
/*
* Get a password entry by uid and allocate space for it.
* Fills in pw_passwd from shadow file if necessary.
*/
struct passwd *
sudo_getpwuid(uid)
uid_t uid;
{
struct passwd key, *pw;
struct rbnode *node;
char *cp;
key.pw_uid = uid;
if ((node = rbfind(pwcache_byuid, &key)) != NULL) {
pw = (struct passwd *) node->data;
return(pw->pw_name != NULL ? pw : NULL);
}
/*
* Cache passwd db entry if it exists or a negative response if not.
*/
if ((pw = getpwuid(uid)) != NULL) {
pw = sudo_pwdup(pw);
cp = sudo_getepw(pw); /* get shadow password */
if (pw->pw_passwd != NULL)
zero_bytes(pw->pw_passwd, strlen(pw->pw_passwd));
pw->pw_passwd = cp;
if (rbinsert(pwcache_byuid, (void *) pw) != NULL)
errorx(1, "unable to cache uid %lu (%s), already exists",
uid, pw->pw_name);
return(pw);
} else {
pw = emalloc(sizeof(*pw));
zero_bytes(pw, sizeof(*pw));
pw->pw_uid = uid;
if (rbinsert(pwcache_byuid, (void *) pw) != NULL)
errorx(1, "unable to cache uid %lu, already exists", uid);
return(NULL);
}
}
/*
* Get a password entry by name and allocate space for it.
* Fills in pw_passwd from shadow file if necessary.
*/
struct passwd *
sudo_getpwnam(name)
const char *name;
{
struct passwd key, *pw;
struct rbnode *node;
size_t len;
char *cp;
key.pw_name = (char *) name;
if ((node = rbfind(pwcache_byname, &key)) != NULL) {
pw = (struct passwd *) node->data;
return(pw->pw_uid != (uid_t) -1 ? pw : NULL);
}
/*
* Cache passwd db entry if it exists or a negative response if not.
*/
if ((pw = getpwnam(name)) != NULL) {
pw = sudo_pwdup(pw);
cp = sudo_getepw(pw); /* get shadow password */
if (pw->pw_passwd != NULL)
zero_bytes(pw->pw_passwd, strlen(pw->pw_passwd));
pw->pw_passwd = cp;
if (rbinsert(pwcache_byname, (void *) pw) != NULL)
errorx(1, "unable to cache user %s, already exists", name);
return(pw);
} else {
len = strlen(name) + 1;
cp = emalloc(sizeof(*pw) + len);
zero_bytes(cp, sizeof(*pw));
pw = (struct passwd *) cp;
cp += sizeof(*pw);
memcpy(cp, name, len);
pw->pw_name = cp;
pw->pw_uid = (uid_t) -1;
if (rbinsert(pwcache_byname, (void *) pw) != NULL)
errorx(1, "unable to cache user %s, already exists", name);
return(NULL);
}
}
/*
* Take a uid in string form "#123" and return a faked up passwd struct.
*/
struct passwd *
sudo_fakepwnam(user, gid)
const char *user;
gid_t gid;
{
struct passwd *pw;
struct rbnode *node;
size_t len;
len = strlen(user);
pw = emalloc(sizeof(struct passwd) + len + 1 /* pw_name */ +
sizeof("*") /* pw_passwd */ + sizeof("") /* pw_gecos */ +
sizeof("/") /* pw_dir */ + sizeof(_PATH_BSHELL));
zero_bytes(pw, sizeof(struct passwd));
pw->pw_uid = (uid_t) atoi(user + 1);
pw->pw_gid = gid;
pw->pw_name = (char *)pw + sizeof(struct passwd);
memcpy(pw->pw_name, user, len + 1);
pw->pw_passwd = pw->pw_name + len + 1;
memcpy(pw->pw_passwd, "*", 2);
pw->pw_gecos = pw->pw_passwd + 2;
pw->pw_gecos[0] = '\0';
pw->pw_dir = pw->pw_gecos + 1;
memcpy(pw->pw_dir, "/", 2);
pw->pw_shell = pw->pw_dir + 2;
memcpy(pw->pw_shell, _PATH_BSHELL, sizeof(_PATH_BSHELL));
/* Store by uid and by name, overwriting cached version. */
if ((node = rbinsert(pwcache_byuid, pw)) != NULL) {
efree(node->data);
node->data = (void *) pw;
}
if ((node = rbinsert(pwcache_byname, pw)) != NULL) {
efree(node->data);
node->data = (void *) pw;
}
return(pw);
}
/*
* Take a gid in string form "#123" and return a faked up group struct.
*/
struct group *
sudo_fakegrnam(group)
const char *group;
{
struct group *gr;
struct rbnode *node;
size_t len;
len = strlen(group);
gr = emalloc(sizeof(struct group) + len + 1);
zero_bytes(gr, sizeof(struct group));
gr->gr_gid = (gid_t) atoi(group + 1);
gr->gr_name = (char *)gr + sizeof(struct group);
strlcpy(gr->gr_name, group, len + 1);
/* Store by gid and by name, overwriting cached version. */
if ((node = rbinsert(grcache_bygid, gr)) != NULL) {
efree(node->data);
node->data = (void *) gr;
}
if ((node = rbinsert(grcache_byname, gr)) != NULL) {
efree(node->data);
node->data = (void *) gr;
}
return(gr);
}
void
sudo_setpwent()
{
setpwent();
sudo_setspent();
if (pwcache_byuid == NULL)
pwcache_byuid = rbcreate(cmp_pwuid);
if (pwcache_byname == NULL)
pwcache_byname = rbcreate(cmp_pwnam);
}
#ifdef PURIFY
static void pw_free __P((void *));
void
sudo_freepwcache()
{
if (pwcache_byuid != NULL) {
rbdestroy(pwcache_byuid, pw_free);
pwcache_byuid = NULL;
}
if (pwcache_byname != NULL) {
rbdestroy(pwcache_byname, NULL);
pwcache_byname = NULL;
}
}
static void
pw_free(v)
void *v;
{
struct passwd *pw = (struct passwd *) v;
if (pw->pw_passwd != NULL) {
zero_bytes(pw->pw_passwd, strlen(pw->pw_passwd));
efree(pw->pw_passwd);
}
efree(pw);
}
#endif /* PURIFY */
void
sudo_endpwent()
{
endpwent();
sudo_endspent();
#ifdef PURIFY
sudo_freepwcache();
#endif
}
/*
* Compare by gid.
*/
static int
cmp_grgid(v1, v2)
const void *v1;
const void *v2;
{
const struct group *grp1 = (const struct group *) v1;
const struct group *grp2 = (const struct group *) v2;
return(grp1->gr_gid - grp2->gr_gid);
}
/*
* Compare by group name.
*/
static int
cmp_grnam(v1, v2)
const void *v1;
const void *v2;
{
const struct group *grp1 = (const struct group *) v1;
const struct group *grp2 = (const struct group *) v2;
return(strcasecmp(grp1->gr_name, grp2->gr_name));
}
struct group *
sudo_grdup(gr)
const struct group *gr;
{
char *cp;
size_t nsize, psize, nmem, total, len;
struct group *newgr;
/* Allocate in one big chunk for easy freeing. */
nsize = psize = nmem = 0;
total = sizeof(struct group);
FIELD_SIZE(gr, gr_name, nsize);
FIELD_SIZE(gr, gr_passwd, psize);
if (gr->gr_mem) {
for (nmem = 0; gr->gr_mem[nmem] != NULL; nmem++)
total += strlen(gr->gr_mem[nmem]) + 1;
nmem++;
total += sizeof(char *) * nmem;
}
if ((cp = malloc(total)) == NULL)
return(NULL);
newgr = (struct group *)cp;
/*
* Copy in group contents and make strings relative to space
* at the end of the buffer. Note that gr_mem must come
* immediately after struct group to guarantee proper alignment.
*/
(void)memcpy(newgr, gr, sizeof(struct group));
cp += sizeof(struct group);
if (gr->gr_mem) {
newgr->gr_mem = (char **)cp;
cp += sizeof(char *) * nmem;
for (nmem = 0; gr->gr_mem[nmem] != NULL; nmem++) {
len = strlen(gr->gr_mem[nmem]) + 1;
memcpy(cp, gr->gr_mem[nmem], len);
newgr->gr_mem[nmem] = cp;
cp += len;
}
newgr->gr_mem[nmem] = NULL;
}
FIELD_COPY(gr, newgr, gr_passwd, psize);
FIELD_COPY(gr, newgr, gr_name, nsize);
return(newgr);
}
/*
* Get a group entry by gid and allocate space for it.
*/
struct group *
sudo_getgrgid(gid)
gid_t gid;
{
struct group key, *gr;
struct rbnode *node;
key.gr_gid = gid;
if ((node = rbfind(grcache_bygid, &key)) != NULL) {
gr = (struct group *) node->data;
return(gr->gr_name != NULL ? gr : NULL);
}
/*
* Cache group db entry if it exists or a negative response if not.
*/
if ((gr = getgrgid(gid)) != NULL) {
gr = sudo_grdup(gr);
if (rbinsert(grcache_bygid, (void *) gr) != NULL)
errorx(1, "unable to cache gid %lu (%s), already exists",
gid, gr->gr_name);
return(gr);
} else {
gr = emalloc(sizeof(*gr));
zero_bytes(gr, sizeof(*gr));
gr->gr_gid = gid;
if (rbinsert(grcache_bygid, (void *) gr) != NULL)
errorx(1, "unable to cache gid %lu, already exists, gid");
return(NULL);
}
}
/*
* Get a group entry by name and allocate space for it.
*/
struct group *
sudo_getgrnam(name)
const char *name;
{
struct group key, *gr;
struct rbnode *node;
size_t len;
char *cp;
key.gr_name = (char *) name;
if ((node = rbfind(grcache_byname, &key)) != NULL) {
gr = (struct group *) node->data;
return(gr->gr_gid != (gid_t) -1 ? gr : NULL);
}
/*
* Cache group db entry if it exists or a negative response if not.
*/
if ((gr = getgrnam(name)) != NULL) {
gr = sudo_grdup(gr);
if (rbinsert(grcache_byname, (void *) gr) != NULL)
errorx(1, "unable to cache group %s, already exists", name);
return(gr);
} else {
len = strlen(name) + 1;
cp = emalloc(sizeof(*gr) + len);
zero_bytes(cp, sizeof(*gr));
gr = (struct group *) cp;
cp += sizeof(*gr);
memcpy(cp, name, len);
gr->gr_name = cp;
gr->gr_gid = (gid_t) -1;
if (rbinsert(grcache_byname, (void *) gr) != NULL)
errorx(1, "unable to cache group %s, already exists", name);
return(NULL);
}
}
void
sudo_setgrent()
{
setgrent();
if (grcache_bygid == NULL)
grcache_bygid = rbcreate(cmp_grgid);
if (grcache_byname == NULL)
grcache_byname = rbcreate(cmp_grnam);
}
#ifdef PURIFY
void
sudo_freegrcache()
{
if (grcache_bygid != NULL) {
rbdestroy(grcache_bygid, free);
grcache_bygid = NULL;
}
if (grcache_byname != NULL) {
rbdestroy(grcache_byname, NULL);
grcache_byname = NULL;
}
}
#endif /* PURIFY */
void
sudo_endgrent()
{
endgrent();
#ifdef PURIFY
sudo_freegrcache();
#endif
}
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