/* * Copyright (c) 1990 - 1993, Julianne Frances Haugh * Copyright (c) 1996 - 2000, Marek Michałkiewicz * Copyright (c) 2000 - 2006, Tomasz Kłoczko * Copyright (c) 2007 - 2008, Nicolas François * 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. * 3. The name of the copyright holders or contributors may not be used to * endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 COPYRIGHT * HOLDERS 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. */ /* * newusers - create users from a batch file * * newusers creates a collection of entries in /etc/passwd * and related files by reading a passwd-format file and * adding entries in the related directories. */ #include #ident "$Id$" #include #include #include #include #include #include #include #include #ifdef USE_PAM #include "pam_defs.h" #endif /* USE_PAM */ #include "prototypes.h" #include "defines.h" #include "getdef.h" #include "groupio.h" #include "nscd.h" #include "pwio.h" #include "sgroupio.h" #include "shadowio.h" #include "chkname.h" /* * Global variables */ static char *Prog; static bool cflg = false; static bool rflg = false; /* create a system account */ static bool sflg = false; static char *crypt_method = NULL; static long sha_rounds = 5000; static bool is_shadow; #ifdef SHADOWGRP static bool is_shadow_grp; static bool sgr_locked = false; #endif static bool pw_locked = false; static bool gr_locked = false; static bool spw_locked = false; #ifdef USE_PAM static pam_handle_t *pamh = NULL; #endif /* local function prototypes */ static void usage (void); static void fail_exit (int); static int add_group (const char *, const char *, gid_t *, gid_t); static int get_uid (const char *, uid_t *); static int add_user (const char *, uid_t, gid_t); static void update_passwd (struct passwd *, const char *); static int add_passwd (struct passwd *, const char *); static void process_flags (int argc, char **argv); static void check_flags (void); static void check_perms (void); static void open_files (void); static void close_files (void); /* * usage - display usage message and exit */ static void usage (void) { fprintf (stderr, _("Usage: %s [options] [input]\n" "\n" " -c, --crypt-method the crypt method (one of %s)\n" " -r, --system create system accounts\n" "%s" "\n"), Prog, #ifndef USE_SHA_CRYPT "NONE DES MD5", "" #else "NONE DES MD5 SHA256 SHA512", _(" -s, --sha-rounds number of SHA rounds for the SHA*\n" " crypt algorithms\n") #endif ); exit (1); } /* * fail_exit - undo as much as possible */ static void fail_exit (int code) { if (spw_locked) { if (spw_unlock () == 0) { fprintf (stderr, _("%s: failed to unlock %s\n"), Prog, spw_dbname ()); SYSLOG ((LOG_ERR, "failed to unlock %s", spw_dbname ())); /* continue */ } } if (pw_locked) { if (pw_unlock () == 0) { fprintf (stderr, _("%s: failed to unlock %s\n"), Prog, pw_dbname ()); SYSLOG ((LOG_ERR, "failed to unlock %s", pw_dbname ())); /* continue */ } } if (gr_locked) { if (gr_unlock () == 0) { fprintf (stderr, _("%s: failed to unlock %s\n"), Prog, gr_dbname ()); SYSLOG ((LOG_ERR, "failed to unlock %s", gr_dbname ())); /* continue */ } } #ifdef SHADOWGRP if (sgr_locked) { if (sgr_unlock () == 0) { fprintf (stderr, _("%s: failed to unlock %s\n"), Prog, sgr_dbname ()); SYSLOG ((LOG_ERR, "failed to unlock %s", sgr_dbname ())); /* continue */ } } #endif exit (code); } /* * add_group - create a new group or add a user to an existing group */ static int add_group (const char *name, const char *gid, gid_t *ngid, uid_t uid) { const struct group *grp; struct group grent; char *members[1]; #ifdef SHADOWGRP const struct sgrp *sg; #endif /* * Start by seeing if the named group already exists. This will be * very easy to deal with if it does. */ grp = getgrnam (gid); if (NULL == grp) { grp = gr_locate (gid); } if (NULL != grp) { /* The user will use this ID for her primary group */ *ngid = grp->gr_gid; /* Don't check gshadow */ return 0; } if (isdigit (gid[0])) { /* * The GID is a number, which means either this is a brand * new group, or an existing group. */ char *endptr; unsigned long int i = strtoul (gid, &endptr, 10); if ((*endptr != '\0') || (ERANGE == errno)) { fprintf (stderr, _("%s: group ID '%s' is not valid\n"), Prog, gid); return -1; } /* Look in both the system database (getgrgid) and in the * internal database (gr_locate_gid), which may contain * uncommitted changes */ if ( (getgrgid ((gid_t) i) != NULL) || (gr_locate_gid ((gid_t) i) != NULL)) { /* The user will use this ID for her * primary group */ *ngid = (gid_t) i; return 0; } grent.gr_gid = (gid_t) i; } else { /* The gid parameter can be "" or a name which is not * already the name of an existing group. * In both cases, figure out what group ID can be used. */ if (find_new_gid(rflg, &grent.gr_gid, &uid) < 0) { return -1; } } /* * Now I have all of the fields required to create the new group. */ if (('\0' != gid[0]) && (!isdigit (gid[0]))) { grent.gr_name = xstrdup (gid); } else { grent.gr_name = xstrdup (name); } /* Check if this is a valid group name */ if (!is_valid_group_name (grent.gr_name)) { fprintf (stderr, _("%s: invalid group name '%s'\n"), Prog, grent.gr_name); free (grent.gr_name); return -1; } grent.gr_passwd = "x"; /* XXX warning: const */ members[0] = NULL; grent.gr_mem = members; *ngid = grent.gr_gid; #ifdef SHADOWGRP if (is_shadow_grp) { sg = sgr_locate (grent.gr_name); if (NULL != sg) { fprintf (stderr, _("%s: group '%s' is a shadow group, but does not exist in /etc/group\n"), Prog, grent.gr_name); return -1; } } #endif if (gr_update (&grent) == 0) { return -1; } #ifdef SHADOWGRP if (is_shadow_grp) { struct sgrp sgrent; char *admins[1]; sgrent.sg_name = grent.gr_name; sgrent.sg_passwd = "*"; /* XXX warning: const */ admins[0] = NULL; sgrent.sg_adm = admins; sgrent.sg_mem = members; if (sgr_update (&sgrent) == 0) { fprintf (stderr, _("%s: group %s created, failure during the creation of the corresponding gshadow group\n"), Prog, grent.gr_name); return -1; } } #endif return 0; } static int get_uid (const char *uid, uid_t *nuid) { const struct passwd *pwd = NULL; /* * The first guess for the UID is either the numerical UID that the * caller provided, or the next available UID. */ if (isdigit (uid[0])) { char *endptr; unsigned long int i = strtoul (uid, &endptr, 10); if (('\0' != *endptr) || (ERANGE == errno)) { fprintf (stderr, _("%s: user ID '%s' is not valid\n"), Prog, uid); return -1; } *nuid = (uid_t) i; } else { if ('\0' != uid[0]) { /* local, no need for xgetpwnam */ pwd = getpwnam (uid); if (NULL == pwd) { pwd = pw_locate (uid); } if (NULL != pwd) { *nuid = pwd->pw_uid; } else { fprintf (stderr, _("%s: user '%s' does not exist\n"), Prog, uid); return -1; } } else { if (find_new_uid (rflg, nuid, NULL) < 0) { return -1; } } } return 0; } /* * add_user - create a new user ID */ static int add_user (const char *name, uid_t uid, gid_t gid) { struct passwd pwent; /* Check if this is a valid user name */ if (!is_valid_user_name (name)) { fprintf (stderr, _("%s: invalid user name '%s'\n"), Prog, name); return -1; } /* * I don't want to fill in the entire password structure members * JUST YET, since there is still more data to be added. So, I fill * in the parts that I have. */ pwent.pw_name = xstrdup (name); pwent.pw_uid = uid; pwent.pw_passwd = "x"; /* XXX warning: const */ pwent.pw_gid = gid; pwent.pw_gecos = ""; /* XXX warning: const */ pwent.pw_dir = ""; /* XXX warning: const */ pwent.pw_shell = ""; /* XXX warning: const */ return (pw_update (&pwent) == 0); } static void update_passwd (struct passwd *pwd, const char *password) { void *crypt_arg = NULL; if (crypt_method != NULL) { if (sflg) { crypt_arg = &sha_rounds; } } if ((crypt_method != NULL) && (0 == strcmp(crypt_method, "NONE"))) { pwd->pw_passwd = (char *)password; } else { pwd->pw_passwd = pw_encrypt (password, crypt_make_salt (crypt_method, crypt_arg)); } } /* * add_passwd - add or update the encrypted password */ static int add_passwd (struct passwd *pwd, const char *password) { const struct spwd *sp; struct spwd spent; void *crypt_arg = NULL; if (crypt_method != NULL) { if (sflg) { crypt_arg = &sha_rounds; } } /* * In the case of regular password files, this is real easy - pwd * points to the entry in the password file. Shadow files are * harder since there are zillions of things to do ... */ if (!is_shadow) { update_passwd (pwd, password); return 0; } /* * Do the first and easiest shadow file case. The user already * exists in the shadow password file. */ sp = spw_locate (pwd->pw_name); if (NULL != sp) { spent = *sp; if ( (NULL != crypt_method) && (0 == strcmp(crypt_method, "NONE"))) { spent.sp_pwdp = (char *)password; } else { const char *salt = crypt_make_salt (crypt_method, crypt_arg); spent.sp_pwdp = pw_encrypt (password, salt); } return (spw_update (&spent) == 0); } /* * Pick the next easiest case - the user has an encrypted password * which isn't equal to "x". The password was set to "x" earlier * when the entry was created, so this user would have to have had * the password set someplace else. */ if (strcmp (pwd->pw_passwd, "x") != 0) { update_passwd (pwd, password); return 0; } /* * Now the really hard case - I need to create an entirely new * shadow password file entry. */ spent.sp_namp = pwd->pw_name; if ((crypt_method != NULL) && (0 == strcmp(crypt_method, "NONE"))) { spent.sp_pwdp = (char *)password; } else { const char *salt = crypt_make_salt (crypt_method, crypt_arg); spent.sp_pwdp = pw_encrypt (password, salt); } spent.sp_lstchg = (long) time ((time_t *) 0) / SCALE; spent.sp_min = getdef_num ("PASS_MIN_DAYS", 0); /* 10000 is infinity this week */ spent.sp_max = getdef_num ("PASS_MAX_DAYS", 10000); spent.sp_warn = getdef_num ("PASS_WARN_AGE", -1); spent.sp_inact = -1; spent.sp_expire = -1; spent.sp_flag = SHADOW_SP_FLAG_UNSET; return (spw_update (&spent) == 0); } /* * process_flags - parse the command line options * * It will not return if an error is encountered. */ static void process_flags (int argc, char **argv) { int option_index = 0; int c; static struct option long_options[] = { {"crypt-method", required_argument, NULL, 'c'}, {"help", no_argument, NULL, 'h'}, #ifdef USE_SHA_CRYPT {"sha-rounds", required_argument, NULL, 's'}, #endif {"system", no_argument, NULL, 'r'}, {NULL, 0, NULL, '\0'} }; while ((c = getopt_long (argc, argv, #ifdef USE_SHA_CRYPT "c:hrs:", #else "c:hr", #endif long_options, &option_index)) != -1) { switch (c) { case 'c': cflg = true; crypt_method = optarg; break; case 'h': usage (); break; case 'r': rflg = true; break; #ifdef USE_SHA_CRYPT case 's': sflg = true; if (!getlong(optarg, &sha_rounds)) { fprintf (stderr, _("%s: invalid numeric argument '%s'\n"), Prog, optarg); usage (); } break; #endif case 0: /* long option */ break; default: usage (); break; } } if (argv[optind] != NULL) { if (freopen (argv[optind], "r", stdin) == NULL) { char buf[BUFSIZ]; snprintf (buf, sizeof buf, "%s: %s", Prog, argv[1]); perror (buf); fail_exit (1); } } /* validate options */ check_flags (); } /* * check_flags - check flags and parameters consistency * * It will not return if an error is encountered. */ static void check_flags (void) { if (sflg && !cflg) { fprintf (stderr, _("%s: %s flag is only allowed with the %s flag\n"), Prog, "-s", "-c"); usage (); } if (cflg) { if ( (0 != strcmp (crypt_method, "DES")) && (0 != strcmp (crypt_method, "MD5")) && (0 != strcmp (crypt_method, "NONE")) #ifdef USE_SHA_CRYPT && (0 != strcmp (crypt_method, "SHA256")) && (0 != strcmp (crypt_method, "SHA512")) #endif ) { fprintf (stderr, _("%s: unsupported crypt method: %s\n"), Prog, crypt_method); usage (); } } } /* * check_perms - check if the caller is allowed to add a group * * With PAM support, the setuid bit can be set on groupadd to allow * non-root users to groups. * Without PAM support, only users who can write in the group databases * can add groups. * * It will not return if the user is not allowed. */ static void check_perms (void) { #ifdef USE_PAM int retval = PAM_SUCCESS; struct passwd *pampw; pampw = getpwuid (getuid ()); /* local, no need for xgetpwuid */ if (NULL == pampw) { retval = PAM_USER_UNKNOWN; } if (PAM_SUCCESS == retval) { retval = pam_start ("newusers", pampw->pw_name, &conv, &pamh); } if (PAM_SUCCESS == retval) { retval = pam_authenticate (pamh, 0); } if (PAM_SUCCESS == retval) { retval = pam_acct_mgmt (pamh, 0); } if (PAM_SUCCESS != retval) { (void) pam_end (pamh, retval); fprintf (stderr, _("%s: PAM authentication failed\n"), Prog); fail_exit (1); } #endif /* USE_PAM */ } /* * open_files - lock and open the password, group and shadow databases */ static void open_files (void) { /* * Lock the password files and open them for update. This will bring * all of the entries into memory where they may be searched for an * modified, or new entries added. The password file is the key - if * it gets locked, assume the others can be locked right away. */ if (pw_lock () == 0) { fprintf (stderr, _("%s: cannot lock %s; try again later.\n"), Prog, pw_dbname ()); fail_exit (1); } pw_locked = true; if (is_shadow && (spw_lock () == 0)) { fprintf (stderr, _("%s: cannot lock %s; try again later.\n"), Prog, spw_dbname ()); fail_exit (1); } spw_locked = true; if (gr_lock () == 0) { fprintf (stderr, _("%s: cannot lock %s; try again later.\n"), Prog, gr_dbname ()); fail_exit (1); } gr_locked = true; #ifdef SHADOWGRP if (is_shadow_grp && (sgr_lock () == 0)) { fprintf (stderr, _("%s: cannot lock %s; try again later.\n"), Prog, sgr_dbname ()); fail_exit (1); } sgr_locked = true; #endif if (pw_open (O_RDWR) == 0) { fprintf (stderr, _("%s: cannot open %s\n"), Prog, pw_dbname ()); fail_exit (1); } if (is_shadow && (spw_open (O_RDWR) == 0)) { fprintf (stderr, _("%s: cannot open %s\n"), Prog, spw_dbname ()); fail_exit (1); } if (gr_open (O_RDWR) == 0) { fprintf (stderr, _("%s: cannot open %s\n"), Prog, gr_dbname ()); fail_exit (1); } #ifdef SHADOWGRP if (is_shadow_grp && (sgr_open (O_RDWR) == 0)) { fprintf (stderr, _("%s: cannot open %s\n"), Prog, sgr_dbname ()); fail_exit (1); } #endif } /* * close_files - close and unlock the password, group and shadow databases */ static void close_files (void) { if (pw_close () == 0) { fprintf (stderr, _("%s: failure while writing changes to %s\n"), Prog, pw_dbname ()); SYSLOG ((LOG_ERR, "failure while writing changes to %s", pw_dbname ())); fail_exit (1); } if (pw_unlock () == 0) { fprintf (stderr, _("%s: failed to unlock %s\n"), Prog, pw_dbname ()); SYSLOG ((LOG_ERR, "failed to unlock %s", pw_dbname ())); /* continue */ } pw_locked = false; if (is_shadow) { if (spw_close () == 0) { fprintf (stderr, _("%s: failure while writing changes to %s\n"), Prog, spw_dbname ()); SYSLOG ((LOG_ERR, "failure while writing changes to %s", spw_dbname ())); fail_exit (1); } if (spw_unlock () == 0) { fprintf (stderr, _("%s: failed to unlock %s\n"), Prog, spw_dbname ()); SYSLOG ((LOG_ERR, "failed to unlock %s", spw_dbname ())); /* continue */ } spw_locked = false; } if (gr_close () == 0) { fprintf (stderr, _("%s: failure while writing changes to %s\n"), Prog, gr_dbname ()); SYSLOG ((LOG_ERR, "failure while writing changes to %s", gr_dbname ())); fail_exit (1); } if (gr_unlock () == 0) { fprintf (stderr, _("%s: failed to unlock %s\n"), Prog, gr_dbname ()); SYSLOG ((LOG_ERR, "failed to unlock %s", gr_dbname ())); /* continue */ } gr_locked = false; #ifdef SHADOWGRP if (is_shadow_grp) { if (sgr_close () == 0) { fprintf (stderr, _("%s: failure while writing changes to %s\n"), Prog, sgr_dbname ()); SYSLOG ((LOG_ERR, "failure while writing changes to %s", sgr_dbname ())); fail_exit (1); } if (sgr_unlock () == 0) { fprintf (stderr, _("%s: failed to unlock %s\n"), Prog, sgr_dbname ()); SYSLOG ((LOG_ERR, "failed to unlock %s", sgr_dbname ())); /* continue */ } sgr_locked = false; } #endif } int main (int argc, char **argv) { char buf[BUFSIZ]; char *fields[8]; int nfields; char *cp; const struct passwd *pw; struct passwd newpw; int errors = 0; int line = 0; uid_t uid; gid_t gid; Prog = Basename (argv[0]); (void) setlocale (LC_ALL, ""); (void) bindtextdomain (PACKAGE, LOCALEDIR); (void) textdomain (PACKAGE); process_flags (argc, argv); check_perms (); is_shadow = spw_file_present (); #ifdef SHADOWGRP is_shadow_grp = sgr_file_present (); #endif open_files (); /* * Read each line. The line has the same format as a password file * entry, except that certain fields are not constrained to be * numerical values. If a group ID is entered which does not already * exist, an attempt is made to allocate the same group ID as the * numerical user ID. Should that fail, the next available group ID * over 100 is allocated. The pw_gid field will be updated with that * value. */ while (fgets (buf, (int) sizeof buf, stdin) != (char *) 0) { line++; cp = strrchr (buf, '\n'); if (NULL != cp) { *cp = '\0'; } else { fprintf (stderr, _("%s: line %d: line too long\n"), Prog, line); errors++; continue; } /* * Break the string into fields and screw around with them. * There MUST be 7 colon separated fields, although the * values aren't that particular. */ for (cp = buf, nfields = 0; nfields < 7; nfields++) { fields[nfields] = cp; cp = strchr (cp, ':'); if (NULL != cp) { *cp = '\0'; cp++; } else { break; } } if (nfields != 6) { fprintf (stderr, _("%s: line %d: invalid line\n"), Prog, line); continue; } /* * First check if we have to create of update an user */ pw = pw_locate (fields[0]); /* local, no need for xgetpwnam */ if ( (NULL == pw) && (getpwnam (fields[0]) != NULL)) { fprintf (stderr, _("%s: cannot update the entry of user %s (not in the passwd database)\n"), Prog, fields[0]); errors++; continue; } if ( (NULL == pw) && (get_uid (fields[2], &uid) != 0)) { fprintf (stderr, _("%s: line %d: can't create user\n"), Prog, line); errors++; continue; } /* * Processed is the group name. A new group will be * created if the group name is non-numeric and does not * already exist. If the group name is a number (which is not * an existing GID), a group with the same name as the user * will be created, with the given GID. The given or created * group will be the primary group of the user. If * there is no named group to be a member of, the UID will * be figured out and that value will be a candidate for a * new group, if that group ID exists, a whole new group ID * will be made up. */ if ( (NULL == pw) && (add_group (fields[0], fields[3], &gid, uid) != 0)) { fprintf (stderr, _("%s: line %d: can't create group\n"), Prog, line); errors++; continue; } /* * Now we work on the user ID. It has to be specified either * as a numerical value, or left blank. If it is a numerical * value, that value will be used, otherwise the next * available user ID is computed and used. After this there * will at least be a (struct passwd) for the user. */ if ( (NULL == pw) && (add_user (fields[0], uid, gid) != 0)) { fprintf (stderr, _("%s: line %d: can't create user\n"), Prog, line); errors++; continue; } /* * The password, gecos field, directory, and shell fields * all come next. */ pw = pw_locate (fields[0]); if (NULL == pw) { fprintf (stderr, _("%s: line %d: user '%s' does not exist in %s\n"), Prog, line, fields[0], pw_dbname ()); errors++; continue; } newpw = *pw; if (add_passwd (&newpw, fields[1])) { fprintf (stderr, _("%s: line %d: can't update password\n"), Prog, line); errors++; continue; } if ('\0' != fields[4][0]) { newpw.pw_gecos = fields[4]; } if ('\0' != fields[5][0]) { newpw.pw_dir = fields[5]; } if ('\0' != fields[6][0]) { newpw.pw_shell = fields[6]; } if ( ('\0' != newpw.pw_dir[0]) && (access (newpw.pw_dir, F_OK) != 0)) { mode_t msk = 0777 & ~getdef_num ("UMASK", GETDEF_DEFAULT_UMASK); if (mkdir (newpw.pw_dir, msk) != 0) { fprintf (stderr, _("%s: line %d: mkdir failed\n"), Prog, line); } else if (chown (newpw.pw_dir, newpw.pw_uid, newpw.pw_gid) != 0) { fprintf (stderr, _("%s: line %d: chown failed\n"), Prog, line); } } /* * Update the password entry with the new changes made. */ if (pw_update (&newpw) == 0) { fprintf (stderr, _("%s: line %d: can't update entry\n"), Prog, line); errors++; continue; } } /* * Any detected errors will cause the entire set of changes to be * aborted. Unlocking the password file will cause all of the * changes to be ignored. Otherwise the file is closed, causing the * changes to be written out all at once, and then unlocked * afterwards. */ if (0 != errors) { fprintf (stderr, _("%s: error detected, changes ignored\n"), Prog); fail_exit (1); } close_files (); nscd_flush_cache ("passwd"); nscd_flush_cache ("group"); #ifdef USE_PAM (void) pam_end (pamh, PAM_SUCCESS); #endif /* USE_PAM */ return 0; }