int main(int argc, char **argv) {
hardened_shadow_openlog("useradd");
if (lckpwdf() != 0)
err(EXIT_FAILURE, "lckpwdf");
if (!read_defaults_file())
warnx("failed to read defaults file");
parse_args(argc, argv);
if (flag_defaults)
return (handle_flag_defaults()) ? EXIT_SUCCESS : EXIT_FAILURE;
determine_uid_gid();
if (!flag_no_log_init)
initialize_lastlog();
if (flag_create_home)
create_home_dir();
if (default_create_mail_spool && !flag_system)
create_mail_spool();
create_account();
hardened_shadow_flush_nscd("passwd");
hardened_shadow_flush_nscd("group");
if (ulckpwdf() != 0)
warn("ulckpwdf");
return EXIT_SUCCESS;
}
uid_t SecurityManager::authenticate(char *userName, char *password) {
#ifdef __APPLE__
// lckpwdf etc. are not supported by MacOS.
return (uid_t)-1;
#else
if ((userName == NULL) || (password == NULL))
return (uid_t)-1;
uid_t result = (uid_t)-1;
lckpwdf();
setpwent();
setspent();
struct passwd *passwdEntry = getpwnam(userName);
struct spwd *shadowEntry = getspnam(userName);
if ((shadowEntry != NULL) && (passwdEntry != NULL)) {
char *plain = password;
char *encrypted = shadowEntry->sp_pwdp;
if (strcmp(crypt(plain, encrypted), encrypted) == 0)
result = passwdEntry->pw_uid;
}
endpwent();
endspent();
ulckpwdf();
return result;
#endif
} // end of authenticate(char*, char*)
int
files_unlock(void)
{
if (ulckpwdf())
return (PWU_SYSTEM_ERROR);
return (PWU_SUCCESS);
}
static VALUE
rb_shadow_ulckpwdf(VALUE self)
{
if( in_lock ){
rb_raise(rb_eFileLock,"you call unlock method in lock iterator.");
};
ulckpwdf();
return Qtrue;
};
void
unlock_pwdf(void)
{
#ifndef HELPER_COMPILE
if (unix_selinux_confined()) {
return;
}
#endif
ulckpwdf();
}
static void edit_file(int is_shadow)
{
struct stat begin, end;
int passwd_file, ch_ret;
FILE *tmp_fd;
pw_init();
/* acquire exclusive lock */
if (lckpwdf() < 0)
err(EXIT_FAILURE, _("cannot get lock"));
passwd_file = open(orig_file, O_RDONLY, 0);
if (passwd_file < 0)
err(EXIT_FAILURE, _("cannot open %s"), orig_file);
tmp_fd = pw_tmpfile(passwd_file);
if (fstat(fileno(tmp_fd), &begin))
pw_error(tmp_file, 1, 1);
pw_edit();
if (fstat(fileno(tmp_fd), &end))
pw_error(tmp_file, 1, 1);
/* Some editors, such as Vim with 'writebackup' mode enabled,
* use "atomic save" in which the old file is deleted and a new
* one with the same name created in its place. */
if (end.st_nlink == 0) {
if (close_stream(tmp_fd) != 0)
err(EXIT_FAILURE, _("write error"));
tmp_fd = fopen(tmp_file, "r");
if (!tmp_file)
err(EXIT_FAILURE, _("cannot open %s"), tmp_file);
if (fstat(fileno(tmp_fd), &end))
pw_error(tmp_file, 1, 1);
}
if (begin.st_mtime == end.st_mtime) {
warnx(_("no changes made"));
pw_error((char *)NULL, 0, 0);
}
/* pw_tmpfile() will create the file with mode 600 */
if (!is_shadow)
ch_ret = fchmod(fileno(tmp_fd), 0644);
else
ch_ret = fchmod(fileno(tmp_fd), 0400);
if (ch_ret < 0)
err(EXIT_FAILURE, "%s: %s", _("cannot chmod file"), orig_file);
if (close_stream(tmp_fd) != 0)
err(EXIT_FAILURE, _("write error"));
pw_write();
close(passwd_file);
ulckpwdf();
}
pw_error(char *name, int err, int eval)
{
if (err) {
if (name)
warn("%s: ", name);
else
warn(NULL);
}
warnx(_("%s unchanged"), orig_file);
unlink(tmp_file);
ulckpwdf();
exit(eval);
}
static VALUE
rb_shadow_lock_p(VALUE self)
{
int result;
result = lckpwdf();
if( result == -1 ){
return Qtrue;
}
else{
ulckpwdf();
return Qfalse;
};
};
static FILE * pw_tmpfile(int lockfd)
{
FILE *fd;
char *tmpname = NULL;
if ((fd = xfmkstemp(&tmpname, "/etc", ".vipw")) == NULL) {
ulckpwdf();
err(EXIT_FAILURE, _("can't open temporary file"));
}
copyfile(lockfd, fileno(fd));
tmp_file = tmpname;
return fd;
}
int
commonio_lock(struct commonio_db *db)
{
#ifdef HAVE_LCKPWDF
/*
* only if the system libc has a real lckpwdf() - the one from
* lockpw.c calls us and would cause infinite recursion!
*/
/*
* Call lckpwdf() on the first lock.
* If it succeeds, call *_lock() only once
* (no retries, it should always succeed).
*/
if (lock_count == 0) {
if (lckpwdf() == -1)
return 0; /* failure */
}
if (commonio_lock_nowait(db))
return 1; /* success */
ulckpwdf();
return 0; /* failure */
#else
int i;
/*
* lckpwdf() not used - do it the old way.
*/
#ifndef LOCK_TRIES
#define LOCK_TRIES 15
#endif
#ifndef LOCK_SLEEP
#define LOCK_SLEEP 1
#endif
for (i = 0; i < LOCK_TRIES; i++) {
if (i > 0)
sleep(LOCK_SLEEP); /* delay between retries */
if (commonio_lock_nowait(db))
return 1; /* success */
/* no unnecessary retries on "permission denied" errors */
if (geteuid() != 0)
return 0;
}
return 0; /* failure */
#endif
}
static void
dec_lock_count(void)
{
if (lock_count > 0) {
lock_count--;
if (lock_count == 0) {
/* Tell nscd when lock count goes to zero,
if any of the files were changed. */
if (nscd_need_reload) {
nscd_flush_cache("passwd");
nscd_flush_cache("group");
nscd_need_reload = 0;
}
#ifdef HAVE_LCKPWDF
ulckpwdf();
#endif
}
}
}
static VALUE
rb_shadow_lock(VALUE self)
{
int result;
if( rb_iterator_p() ){
result = lckpwdf();
if( result == -1 ){
rb_raise(rb_eFileLock,"password file was locked");
}
else{
in_lock++;
rb_yield(Qnil);
in_lock--;
ulckpwdf();
};
return Qtrue;
}
else{
return rb_shadow_lckpwdf(self);
};
};
int main(int argc, char **argv) {
hardened_shadow_openlog("groupadd");
if (lckpwdf() != 0)
err(EXIT_FAILURE, "lckpwdf");
parse_args(argc, argv);
if (flag_gid == (gid_t)-1) {
const char *gid_key = (flag_system) ? "SYSTEM_GID_RANGE" : "USER_GID_RANGE";
intmax_t gid_min, gid_max;
if (!hardened_shadow_config_get_range(gid_key, &gid_min, &gid_max))
errx(EXIT_FAILURE, "Failed to retrieve GID range.");
if (!hardened_shadow_allocate_gid(gid_min, gid_max, &flag_gid))
errx(EXIT_FAILURE, "Failed to allocate GID.");
}
struct group grp;
memset(&grp, '\0', sizeof(grp));
grp.gr_name = group_name;
grp.gr_passwd = HARDENED_SHADOW_SHADOW_PASSWD;
grp.gr_gid = flag_gid;
grp.gr_mem = &empty_list;
if (!hardened_shadow_replace_group(group_name, &grp))
errx(EXIT_FAILURE, "Failed to update /etc/group.");
hardened_shadow_syslog(LOG_INFO, "new group: name=%s, GID=%ju",
group_name, (uintmax_t)flag_gid);
hardened_shadow_flush_nscd("group");
if (ulckpwdf() != 0)
warn("ulckpwdf");
return EXIT_SUCCESS;
}
/*
* This function looks up "username" in the shadow password file, determines
* the hash algorithm type, and returns the salt and the password
* hash for that user.
*
* Given the salt and the user password, then the hash can be created.
* The generated hash is used as an SRP password (client side), and
* the generator for the SRP secret (server side).
*
* Crypt password file format references:
* http://php.net/manual/en/function.crypt.php
* http://en.wikipedia.org/wiki/Crypt_%28C%29#Blowfish-based_scheme
*
* Look up from the shadow password file the specified user, and if found,
* return the salt field parsed out from the hash entry
*
* Algorithm ID
* $1$ MD5
* 12 characters salt follows
*
* $2a$ Blowfish
* $2b$ Blowfish
* $2x$ Blowfish
* $2y$ Blowfish
* Blowfish salt format:
* $id$NN$-----22 chars-salt----++++++hash+++++:
*
* SHA salt format
* $5$ SHA-256
* $6$ SHA-512
* $ID$salt$hash
*/
int get_sp_salt(const char *username,
char **ret_salt,
char **ret_encpwd)
{
int st = 0;
int is_locked = 0;
struct spwd *spval = NULL;
struct spwd spval_buf = {0};
char *spbuf_str = NULL;
int spbuf_str_len = 256;
int salt_len = 0;
char *salt = NULL;
char *encpwd = NULL;
char *sp = NULL;
int cur_uid = 0;
int error = 0;
if (!username || !ret_salt || !ret_encpwd)
{
st = -1;
errno = EINVAL;
goto error;
}
/* Must be root to read shadow password file */
cur_uid = getuid();
error = seteuid(0);
if (error != 0)
{
st = -1;
goto error;
}
/* Obtain password file lock, and hold minimum amount of time */
st = lckpwdf();
if (st == -1)
{
goto error;
}
is_locked = 1;
spbuf_str = calloc(spbuf_str_len, sizeof(char));
if (!spbuf_str)
{
st = -1;
goto error;
}
st = getspnam_r(username,
&spval_buf,
spbuf_str,
spbuf_str_len,
&spval);
if (!spval || st == -1)
{
/* Failed due to permissions or entry not found */
st = -1;
goto error;
}
salt = strdup(spval->sp_pwdp);
if (!salt)
{
/* errno is set */
st = -1;
goto error;
}
encpwd = strdup(spval->sp_pwdp);
if (!encpwd)
{
/* errno is set */
st = -1;
goto error;
}
ulckpwdf();
error = seteuid(cur_uid);
if (error != 0)
{
st = -1;
goto error;
}
is_locked = 0;
/* CRYPT_DES hash is not supported; how to test? */
/* Determine the hash algorithn, and therefore the salt length */
if (!strncmp(salt, CRYPT_MD5, strlen(CRYPT_MD5)))
{
/* $1$123456789012 */
salt_len = 12 + 3;
}
else if (!strncmp(salt, CRYPT_BLOWFISH_2A, strlen(CRYPT_BLOWFISH_2A)) ||
!strncmp(salt, CRYPT_BLOWFISH_2B, strlen(CRYPT_BLOWFISH_2B)) ||
!strncmp(salt, CRYPT_BLOWFISH_2X, strlen(CRYPT_BLOWFISH_2X)) ||
!strncmp(salt, CRYPT_BLOWFISH_2Y, strlen(CRYPT_BLOWFISH_2Y)))
{
/* $2a$05$1234567890123456789012 */
salt_len = 22 + 7;
}
else if (!strncmp(salt, CRYPT_SHA_256, strlen(CRYPT_SHA_256)) ||
!strncmp(salt, CRYPT_SHA_512, strlen(CRYPT_SHA_512)))
{
sp = strrchr(salt, '$');
salt_len = sp - salt + 1;
}
if(salt_len == 0)//locked user, user with nologin etc
{
st = -1;
errno = EPERM;
goto error;
}
salt[salt_len] = '\0';
*ret_salt = salt;
*ret_encpwd = encpwd;
salt = NULL;
error:
if (is_locked)
{
ulckpwdf();
error = seteuid(cur_uid);
}
if (spbuf_str)
{
free(spbuf_str);
}
if (st == -1)
{
if (salt)
{
free(salt);
salt = NULL;
}
if (encpwd)
{
free(encpwd);
encpwd = NULL;
}
}
return st;
}
PAM_EXTERN int pam_sm_chauthtok(pam_handle_t * pamh, int flags,
int argc, const char **argv)
{
unsigned int ctrl, lctrl;
int retval, i;
int remember = -1;
/* <DO NOT free() THESE> */
const char *user;
char *pass_old, *pass_new;
/* </DO NOT free() THESE> */
D(("called."));
#ifdef USE_LCKPWDF
/* our current locking system requires that we lock the
entire password database. This avoids both livelock
and deadlock. */
/* These values for the number of attempts and the sleep time
are, of course, completely arbitrary.
My reading of the PAM docs is that, once pam_chauthtok() has been
called with PAM_UPDATE_AUTHTOK, we are obliged to take any
reasonable steps to make sure the token is updated; so retrying
for 1/10 sec. isn't overdoing it.
The other possibility is to call lckpwdf() on the first
pam_chauthtok() pass, and hold the lock until released in the
second pass--but is this guaranteed to work? -SRL */
i=0;
while((retval = lckpwdf()) != 0 && i < 100) {
usleep(1000);
}
if(retval != 0) {
return PAM_AUTHTOK_LOCK_BUSY;
}
#endif
ctrl = _set_ctrl(pamh, flags, &remember, argc, argv);
/*
* First get the name of a user
*/
retval = pam_get_user(pamh, &user, "Username: "******"bad username [%s]", user);
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return PAM_USER_UNKNOWN;
}
if (retval == PAM_SUCCESS && on(UNIX_DEBUG, ctrl))
_log_err(LOG_DEBUG, pamh, "username [%s] obtained",
user);
} else {
if (on(UNIX_DEBUG, ctrl))
_log_err(LOG_DEBUG, pamh,
"password - could not identify user");
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return retval;
}
D(("Got username of %s", user));
/*
* This is not an AUTH module!
*/
if (on(UNIX__NONULL, ctrl))
set(UNIX__NULLOK, ctrl);
if (on(UNIX__PRELIM, ctrl)) {
/*
* obtain and verify the current password (OLDAUTHTOK) for
* the user.
*/
char *Announce;
D(("prelim check"));
if (_unix_blankpasswd(ctrl, user)) {
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return PAM_SUCCESS;
} else if (off(UNIX__IAMROOT, ctrl)) {
/* instruct user what is happening */
#define greeting "Changing password for "
Announce = (char *) malloc(sizeof(greeting) + strlen(user));
if (Announce == NULL) {
_log_err(LOG_CRIT, pamh,
"password - out of memory");
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return PAM_BUF_ERR;
}
(void) strcpy(Announce, greeting);
(void) strcpy(Announce + sizeof(greeting) - 1, user);
#undef greeting
lctrl = ctrl;
set(UNIX__OLD_PASSWD, lctrl);
retval = _unix_read_password(pamh, lctrl
,Announce
,"(current) UNIX password: "******"password - (old) token not obtained");
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return retval;
}
/* verify that this is the password for this user */
retval = _unix_verify_password(pamh, user, pass_old, ctrl);
} else {
D(("process run by root so do nothing this time around"));
pass_old = NULL;
retval = PAM_SUCCESS; /* root doesn't have too */
}
if (retval != PAM_SUCCESS) {
D(("Authentication failed"));
pass_old = NULL;
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return retval;
}
retval = pam_set_item(pamh, PAM_OLDAUTHTOK, (const void *) pass_old);
pass_old = NULL;
if (retval != PAM_SUCCESS) {
_log_err(LOG_CRIT, pamh,
"failed to set PAM_OLDAUTHTOK");
}
retval = _unix_verify_shadow(user, ctrl);
if (retval == PAM_AUTHTOK_ERR) {
if (off(UNIX__IAMROOT, ctrl))
_make_remark(pamh, ctrl, PAM_ERROR_MSG,
"You must wait longer to change your password");
else
retval = PAM_SUCCESS;
}
} else if (on(UNIX__UPDATE, ctrl)) {
/*
* tpass is used below to store the _pam_md() return; it
* should be _pam_delete()'d.
*/
char *tpass = NULL;
int retry = 0;
/*
* obtain the proposed password
*/
D(("do update"));
/*
* get the old token back. NULL was ok only if root [at this
* point we assume that this has already been enforced on a
* previous call to this function].
*/
if (off(UNIX_NOT_SET_PASS, ctrl)) {
retval = pam_get_item(pamh, PAM_OLDAUTHTOK
,(const void **) &pass_old);
} else {
retval = pam_get_data(pamh, _UNIX_OLD_AUTHTOK
,(const void **) &pass_old);
if (retval == PAM_NO_MODULE_DATA) {
retval = PAM_SUCCESS;
pass_old = NULL;
}
}
D(("pass_old [%s]", pass_old));
if (retval != PAM_SUCCESS) {
_log_err(LOG_NOTICE, pamh, "user not authenticated");
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return retval;
}
retval = _unix_verify_shadow(user, ctrl);
if (retval != PAM_SUCCESS) {
_log_err(LOG_NOTICE, pamh, "user not authenticated 2");
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return retval;
}
D(("get new password now"));
lctrl = ctrl;
if (on(UNIX_USE_AUTHTOK, lctrl)) {
set(UNIX_USE_FIRST_PASS, lctrl);
}
retry = 0;
retval = PAM_AUTHTOK_ERR;
while ((retval != PAM_SUCCESS) && (retry++ < MAX_PASSWD_TRIES)) {
/*
* use_authtok is to force the use of a previously entered
* password -- needed for pluggable password strength checking
*/
retval = _unix_read_password(pamh, lctrl
,NULL
,"Enter new UNIX password: "******"Retype new UNIX password: "******"password - new password not obtained");
}
pass_old = NULL; /* tidy up */
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return retval;
}
D(("returned to _unix_chauthtok"));
/*
* At this point we know who the user is and what they
* propose as their new password. Verify that the new
* password is acceptable.
*/
if (pass_new[0] == '\0') { /* "\0" password = NULL */
pass_new = NULL;
}
retval = _pam_unix_approve_pass(pamh, ctrl, pass_old, pass_new);
}
if (retval != PAM_SUCCESS) {
_log_err(LOG_NOTICE, pamh,
"new password not acceptable");
_pam_overwrite(pass_new);
_pam_overwrite(pass_old);
pass_new = pass_old = NULL; /* tidy up */
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return retval;
}
/*
* By reaching here we have approved the passwords and must now
* rebuild the password database file.
*/
/*
* First we encrypt the new password.
*/
if (on(UNIX_MD5_PASS, ctrl)) {
tpass = crypt_md5_wrapper(pass_new);
} else {
/*
* Salt manipulation is stolen from Rick Faith's passwd
* program. Sorry Rick :) -- alex
*/
time_t tm;
char salt[3];
time(&tm);
salt[0] = bin_to_ascii(tm & 0x3f);
salt[1] = bin_to_ascii((tm >> 6) & 0x3f);
salt[2] = '\0';
if (off(UNIX_BIGCRYPT, ctrl) && strlen(pass_new) > 8) {
/*
* to avoid using the _extensions_ of the bigcrypt()
* function we truncate the newly entered password
*/
char *temp = malloc(9);
char *e;
if (temp == NULL) {
_log_err(LOG_CRIT, pamh,
"out of memory for password");
_pam_overwrite(pass_new);
_pam_overwrite(pass_old);
pass_new = pass_old = NULL; /* tidy up */
#ifdef USE_LCKPWDF
ulckpwdf();
#endif
return PAM_BUF_ERR;
}
/* copy first 8 bytes of password */
strncpy(temp, pass_new, 8);
temp[8] = '\0';
/* no longer need cleartext */
e = bigcrypt(temp, salt);
tpass = x_strdup(e);
_pam_overwrite(e);
_pam_delete(temp); /* tidy up */
} else {
char *e;
/* no longer need cleartext */
e = bigcrypt(pass_new, salt);
tpass = x_strdup(e);
_pam_overwrite(e);
}
}
D(("password processed"));
/* update the password database(s) -- race conditions..? */
retval = _do_setpass(pamh, user, pass_old, tpass, ctrl,
remember);
_pam_overwrite(pass_new);
_pam_overwrite(pass_old);
_pam_delete(tpass);
pass_old = pass_new = NULL;
} else { /* something has broken with the module */
int auth_change_pwd(char *user, char *newpwd)
{
struct passwd *spw;
struct spwd *stp;
char hash[35] = "";
long today;
FILE *fd;
if (0 != lckpwdf())
{
return 1;
}
/* open passwd */
spw = getpwnam(user);
if (spw == 0)
{
return 1;
}
if (g_strncmp(spw->pw_passwd, "x", 3) != 0)
{
/* old system with only passwd */
if (auth_crypt_pwd(spw->pw_passwd, newpwd, hash) != 0)
{
ulckpwdf();
return 1;
}
spw->pw_passwd = g_strdup(hash);
fd = fopen("/etc/passwd", "rw");
putpwent(spw, fd);
}
else
{
/* the system is using shadow */
stp = getspnam(user);
if (stp == 0)
{
return 1;
}
/* old system with only passwd */
if (auth_crypt_pwd(stp->sp_pwdp, newpwd, hash) != 0)
{
ulckpwdf();
return 1;
}
stp->sp_pwdp = g_strdup(hash);
today = g_time1() / SECS_PER_DAY;
stp->sp_lstchg = today;
stp->sp_expire = today + stp->sp_max + stp->sp_inact;
fd = fopen("/etc/shadow", "rw");
putspent(stp, fd);
}
ulckpwdf();
return 0;
}
/*
* setpwnam () --
* takes a struct passwd in which every field is filled in and valid.
* If the given username exists in the passwd file, the entry is
* replaced with the given entry.
*/
int setpwnam(struct passwd *pwd)
{
FILE *fp = NULL, *pwf = NULL;
int save_errno;
int found;
int namelen;
int buflen = 256;
int contlen, rc;
char *linebuf = NULL;
char *tmpname = NULL;
pw_init();
if ((fp = xfmkstemp(&tmpname)) == NULL)
return -1;
/* ptmp should be owned by root.root or root.wheel */
if (fchown(fileno(fp), (uid_t) 0, (gid_t) 0) < 0)
goto fail;
/* acquire exclusive lock */
if (lckpwdf() < 0)
goto fail;
pwf = fopen(PASSWD_FILE, "r");
if (!pwf)
goto fail;
namelen = strlen(pwd->pw_name);
linebuf = malloc(buflen);
if (!linebuf)
goto fail;
/* parse the passwd file */
found = false;
/* Do you wonder why I don't use getpwent? Read comments at top of
* file */
while (fgets(linebuf, buflen, pwf) != NULL) {
contlen = strlen(linebuf);
while (linebuf[contlen - 1] != '\n' && !feof(pwf)) {
char *tmp;
/* Extend input buffer if it failed getting the whole line,
* so now we double the buffer size */
buflen *= 2;
tmp = realloc(linebuf, buflen);
if (tmp == NULL)
goto fail;
linebuf = tmp;
/* And fill the rest of the buffer */
if (fgets(&linebuf[contlen], buflen / 2, pwf) == NULL)
break;
contlen = strlen(linebuf);
/* That was a lot of work for nothing. Gimme perl! */
}
/* Is this the username we were sent to change? */
if (!found && linebuf[namelen] == ':' &&
!strncmp(linebuf, pwd->pw_name, namelen)) {
/* Yes! So go forth in the name of the Lord and
* change it! */
if (putpwent(pwd, fp) < 0)
goto fail;
found = true;
continue;
}
/* Nothing in particular happened, copy input to output */
fputs(linebuf, fp);
}
/* xfmkstemp is too restrictive by default for passwd file */
if (fchmod(fileno(fp), 0644) < 0)
goto fail;
rc = close_stream(fp);
fp = NULL;
if (rc != 0)
goto fail;
fclose(pwf); /* I don't think I want to know if this failed */
pwf = NULL;
if (!found) {
errno = ENOENT; /* give me something better */
goto fail;
}
/* we don't care if we can't remove the backup file */
unlink(PASSWD_FILE ".OLD");
/* we don't care if we can't create the backup file */
ignore_result(link(PASSWD_FILE, PASSWD_FILE ".OLD"));
/* we DO care if we can't rename to the passwd file */
if (rename(tmpname, PASSWD_FILE) < 0)
goto fail;
/* finally: success */
ulckpwdf();
return 0;
fail:
save_errno = errno;
ulckpwdf();
if (fp != NULL)
fclose(fp);
if (tmpname != NULL)
unlink(tmpname);
free(tmpname);
if (pwf != NULL)
fclose(pwf);
free(linebuf);
errno = save_errno;
return -1;
}
xmlNodePtr users_getxml(xmlNsPtr ns, char** msg)
{
xmlNodePtr auth_node, user, aux_node;
struct passwd *pwd;
struct spwd *spwd;
const char* value;
char *path = NULL;
if (!ncds_feature_isenabled("ietf-system", "local-users")) {
return (NULL);
}
/* authentication */
auth_node = xmlNewNode(ns, BAD_CAST "authentication");
/* authentication/user-authentication-order */
asprintf(&path, "/files/%s/PasswordAuthentication", NETOPEER_SSHD_CONF);
aug_get(sysaugeas, path, &value);
free(path);
if (value != NULL && strcmp(value, "yes") == 0) {
xmlNewChild(auth_node, auth_node->ns, BAD_CAST "user-authentication-order", BAD_CAST "local-users");
}
/* authentication/user[] */
if (lckpwdf() != 0) {
*msg = strdup("Failed to acquire shadow file lock.");
xmlFreeNode(auth_node);
return (NULL);
}
setpwent();
while ((pwd = getpwent()) != NULL) {
/* authentication/user */
user = xmlNewChild(auth_node, auth_node->ns, BAD_CAST "user", NULL);
/* authentication/user/name */
xmlNewChild(user, user->ns, BAD_CAST "name", BAD_CAST pwd->pw_name);
/* authentication/user/passwd */
if (pwd->pw_passwd[0] == 'x') {
/* get data from /etc/shadow */
setspent();
spwd = getspnam(pwd->pw_name);
if (spwd != NULL && /* no record, wtf?!? */
spwd->sp_pwdp[0] != '!' && /* account not initiated or locked */
spwd->sp_pwdp[0] != '*') { /* login disabled */
xmlNewChild(user, user->ns, BAD_CAST "password", BAD_CAST spwd->sp_pwdp);
}
} else if (pwd->pw_passwd[0] != '*') {
/* password is stored in /etc/passwd or refers to something else (e.g., NIS server) */
xmlNewChild(user, user->ns, BAD_CAST "password", BAD_CAST pwd->pw_passwd);
} /* else password is disabled */
/* authentication/user/authorized-key[] */
if ((aux_node = authkey_getxml(pwd->pw_name, user->ns, msg)) != NULL) {
xmlAddChildList(user, aux_node);
} else {
/* ignore failures in this case */
free(*msg);
*msg = NULL;
}
}
endspent();
endpwent();
ulckpwdf();
return (auth_node);
}
static const char* set_passwd(const char *name, const char *passwd, char **msg)
{
FILE *f = NULL;
struct spwd *spwd, new_spwd;
const char *en_passwd; /* encrypted password */
struct stat st;
assert(name);
assert(passwd);
/* check password format */
if ((passwd[0] != '$') ||
(passwd[1] != '0' && passwd[1] != '1' && passwd[1] != '5' && passwd[1] != '6') ||
(passwd[2] != '$')) {
asprintf(msg, "Wrong password format (user %s).", name);
return (NULL);
}
if (passwd[1] == '0') {
/* encrypt the password */
get_login_defs();
en_passwd = pw_encrypt(&(passwd[3]), crypt_make_salt(NULL, NULL));
} else {
en_passwd = passwd;
}
/*
* store encrypted password into shadow
*/
/* lock shadow file */
if (lckpwdf() != 0) {
*msg = strdup("Failed to acquire shadow file lock.");
return (NULL);
}
/* init position in shadow */
setspent();
/* open new shadow */
f = fopen(SHADOW_COPY, "w");
if (f == NULL) {
asprintf(msg, "Unable to prepare shadow copy (%s).", strerror(errno));
endspent();
ulckpwdf();
return (NULL);
}
/* get file stat of the original file to make a nice copy of it */
stat(SHADOW_ORIG, &st);
fchmod(fileno(f), st.st_mode);
fchown(fileno(f), st.st_uid, st.st_gid);
while ((spwd = getspent()) != NULL) {
if (strcmp(spwd->sp_namp, name) == 0) {
/*
* we have the entry to change,
* make the copy, modifying the original
* structure doesn't seem as a good idea
*/
memcpy(&new_spwd, spwd, sizeof(struct spwd));
new_spwd.sp_pwdp = (char*) en_passwd;
spwd = &new_spwd;
}
/* store the record into the shadow copy */
putspent(spwd, f);
}
endspent();
fclose(f);
if (rename(SHADOW_COPY, SHADOW_ORIG) == -1) {
asprintf(msg, "Unable to rewrite shadow database (%s).", strerror(errno));
unlink(SHADOW_COPY);
ulckpwdf();
return (NULL);
}
ulckpwdf();
return (en_passwd);
}
static bool ChangePasswordHashUsingLckpwdf(const char *puser, const char *password)
{
bool result = false;
struct stat statbuf;
const char *passwd_file = "/etc/shadow";
if (stat(passwd_file, &statbuf) == -1)
{
passwd_file = "/etc/passwd";
}
Log(LOG_LEVEL_VERBOSE, "Changing password hash for user '%s' by editing '%s'.", puser, passwd_file);
if (lckpwdf() != 0)
{
Log(LOG_LEVEL_ERR, "Not able to obtain lock on password database.");
return false;
}
char backup_file[strlen(passwd_file) + strlen(".cf-backup") + 1];
xsnprintf(backup_file, sizeof(backup_file), "%s.cf-backup", passwd_file);
unlink(backup_file);
char edit_file[strlen(passwd_file) + strlen(".cf-edit") + 1];
xsnprintf(edit_file, sizeof(edit_file), "%s.cf-edit", passwd_file);
unlink(edit_file);
if (!CopyRegularFileDisk(passwd_file, backup_file))
{
Log(LOG_LEVEL_ERR, "Could not back up existing password database '%s' to '%s'.", passwd_file, backup_file);
goto unlock_passwd;
}
FILE *passwd_fd = fopen(passwd_file, "r");
if (!passwd_fd)
{
Log(LOG_LEVEL_ERR, "Could not open password database '%s'. (fopen: '%s')", passwd_file, GetErrorStr());
goto unlock_passwd;
}
int edit_fd_int = open(edit_file, O_WRONLY | O_CREAT | O_EXCL, S_IWUSR);
if (edit_fd_int < 0)
{
if (errno == EEXIST)
{
Log(LOG_LEVEL_CRIT, "Temporary file already existed when trying to open '%s'. (open: '%s') "
"This should NEVER happen and could mean that someone is trying to break into your system!!",
edit_file, GetErrorStr());
}
else
{
Log(LOG_LEVEL_ERR, "Could not open password database temporary file '%s'. (open: '%s')", edit_file, GetErrorStr());
}
goto close_passwd_fd;
}
FILE *edit_fd = fdopen(edit_fd_int, "w");
if (!edit_fd)
{
Log(LOG_LEVEL_ERR, "Could not open password database temporary file '%s'. (fopen: '%s')", edit_file, GetErrorStr());
close(edit_fd_int);
goto close_passwd_fd;
}
while (true)
{
size_t line_size = 0;
char *line = NULL;
int read_result = CfReadLine(&line, &line_size, passwd_fd);
if (read_result < 0)
{
if (!feof(passwd_fd))
{
Log(LOG_LEVEL_ERR, "Error while reading password database: %s", GetErrorStr());
free(line);
goto close_both;
}
else
{
break;
}
}
// Editing the password database is risky business, so do as little parsing as possible.
// Just enough to get the hash in there.
char *field_start = NULL;
char *field_end = NULL;
field_start = strchr(line, ':');
if (field_start)
{
field_end = strchr(field_start + 1, ':');
}
if (!field_start || !field_end)
{
Log(LOG_LEVEL_ERR, "Unexpected format found in password database while editing user '%s'. Not updating.",
puser);
free(line);
goto close_both;
}
// Worst case length: Existing password is empty plus one '\n' and one '\0'.
char new_line[strlen(line) + strlen(password) + 2];
*field_start = '\0';
*field_end = '\0';
if (strcmp(line, puser) == 0)
{
xsnprintf(new_line, sizeof(new_line), "%s:%s:%s\n",
line, password, field_end + 1);
}
else
{
xsnprintf(new_line, sizeof(new_line), "%s:%s:%s\n",
line, field_start + 1, field_end + 1);
}
free(line);
size_t new_line_size = strlen(new_line);
size_t written_so_far = 0;
while (written_so_far < new_line_size)
{
clearerr(edit_fd);
size_t written = fwrite(new_line, 1, new_line_size, edit_fd);
if (written == 0)
{
const char *err_str;
if (ferror(edit_fd))
{
err_str = GetErrorStr();
}
else
{
err_str = "Unknown error";
}
Log(LOG_LEVEL_ERR, "Error while writing to file '%s'. (fwrite: '%s')", edit_file, err_str);
goto close_both;
}
written_so_far += written;
}
}
fclose(edit_fd);
fclose(passwd_fd);
if (!CopyFilePermissionsDisk(passwd_file, edit_file))
{
Log(LOG_LEVEL_ERR, "Could not copy permissions from '%s' to '%s'", passwd_file, edit_file);
goto unlock_passwd;
}
if (rename(edit_file, passwd_file) < 0)
{
Log(LOG_LEVEL_ERR, "Could not replace '%s' with edited password database '%s'. (rename: '%s')",
passwd_file, edit_file, GetErrorStr());
goto unlock_passwd;
}
result = true;
goto unlock_passwd;
close_both:
fclose(edit_fd);
unlink(edit_file);
close_passwd_fd:
fclose(passwd_fd);
unlock_passwd:
ulckpwdf();
return result;
}
int main(int argc, char **argv) {
hardened_shadow_openlog("userdel");
if (lckpwdf() != 0)
err(EXIT_FAILURE, "lckpwdf");
parse_args(argc, argv);
bool user_private_groups;
if (!hardened_shadow_config_get_bool("USER_PRIVATE_GROUPS",
&user_private_groups)) {
errx(EXIT_FAILURE, "failed to retrieve USER_PRIVATE_GROUPS setting");
}
const char *userdel_command = NULL;
if (!hardened_shadow_config_get_path("USERDEL_COMMAND", &userdel_command))
errx(EXIT_FAILURE, "failed to retrieve USERDEL_COMMAND setting");
/* Note: shadow-utils try to detect whether user is logged in.
* However, it is not obvious how to perform such detection reliably,
* especially taking daemons like cron or at into account (they usually
* don't go through PAM or anything that'd allow us to prevent
* running processes as user being delete in a race-free way.
*
* Because of those drawbacks, no such checking is performed here.
*/
{
char* user_dir_path = NULL;
if (asprintf(&user_dir_path, "/etc/hardened-shadow/%s", user_name) < 0)
errx(EXIT_FAILURE, "memory allocation failure");
if (!recursively_remove_path(user_dir_path))
errx(EXIT_FAILURE, "failed to remove %s", user_dir_path);
free(user_dir_path);
}
if (!hardened_shadow_update_group_change_user_name(user_name, NULL))
errx(EXIT_FAILURE, "hardened_shadow_update_group_change_user_name failed");
if (!hardened_shadow_replace_passwd(user_name, NULL))
errx(EXIT_FAILURE, "hardened_shadow_replace_passwd failed");
if (user_private_groups) {
struct group *gr = getgrnam(user_name);
if (gr) {
gid_t private_gid = gr->gr_gid;
bool found = false;
struct passwd *pwd = NULL;
setpwent();
while ((pwd = getpwent())) {
if (pwd->pw_gid == private_gid) {
found = true;
break;
}
}
endpwent();
if (found) {
warnx("not removing private user group because it is a primary group "
"of at least one other user");
} else if (!hardened_shadow_replace_group(user_name, NULL)) {
errx(EXIT_FAILURE, "failed to remove user private group");
}
}
}
/* Note: preserve exact wording of syslog messages from shadow-utils
* where possible. */
hardened_shadow_syslog(LOG_INFO, "delete user '%s'", user_name);
if (flag_remove && !recursively_remove_path(user_home))
errx(EXIT_FAILURE, "remove_home_directory failed");
if (!run_userdel_command(userdel_command))
errx(EXIT_FAILURE, "failed to run USERDEL_COMMAND");
hardened_shadow_flush_nscd("passwd");
hardened_shadow_flush_nscd("group");
if (ulckpwdf() != 0)
warn("ulckpwdf");
free(user_home);
return EXIT_SUCCESS;
}
