/* Unix SMB/CIFS implementation. Password checking Copyright (C) Andrew Tridgell 1992-1998 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. */ /* this module is for checking a username/password against a system password database. The SMB encrypted password support is elsewhere */ #include "includes.h" #undef DBGC_CLASS #define DBGC_CLASS DBGC_AUTH /* these are kept here to keep the string_combinations function simple */ static char *ths_user; static const char *get_this_user(void) { if (!ths_user) { return ""; } return ths_user; } #if defined(WITH_PAM) || defined(OSF1_ENH_SEC) static const char *set_this_user(const char *newuser) { char *orig_user = ths_user; ths_user = SMB_STRDUP(newuser); SAFE_FREE(orig_user); return ths_user; } #endif #if !defined(WITH_PAM) static char *ths_salt; /* This must be writable. */ static char *get_this_salt(void) { return ths_salt; } /* We may be setting a modified version of the same * string, so don't free before use. */ static const char *set_this_salt(const char *newsalt) { char *orig_salt = ths_salt; ths_salt = SMB_STRDUP(newsalt); SAFE_FREE(orig_salt); return ths_salt; } static char *ths_crypted; static const char *get_this_crypted(void) { if (!ths_crypted) { return ""; } return ths_crypted; } static const char *set_this_crypted(const char *newcrypted) { char *orig_crypted = ths_crypted; ths_crypted = SMB_STRDUP(newcrypted); SAFE_FREE(orig_crypted); return ths_crypted; } #endif #ifdef WITH_AFS #include <afs/stds.h> #include <afs/kautils.h> /******************************************************************* check on AFS authentication ********************************************************************/ static bool afs_auth(char *user, char *password) { long password_expires = 0; char *reason; /* For versions of AFS prior to 3.3, this routine has few arguments, */ /* but since I can't find the old documentation... :-) */ setpag(); if (ka_UserAuthenticateGeneral (KA_USERAUTH_VERSION + KA_USERAUTH_DOSETPAG, user, (char *)0, /* instance */ (char *)0, /* cell */ password, 0, /* lifetime, default */ &password_expires, /*days 'til it expires */ 0, /* spare 2 */ &reason) == 0) { return (True); } DEBUG(1, ("AFS authentication for \"%s\" failed (%s)\n", user, reason)); return (False); } #endif #ifdef WITH_DFS #include <dce/dce_error.h> #include <dce/sec_login.h> /***************************************************************** This new version of the DFS_AUTH code was donated by Karsten Muuss <muuss@or.uni-bonn.de>. It fixes the following problems with the old code : - Server credentials may expire - Client credential cache files have wrong owner - purge_context() function is called with invalid argument This new code was modified to ensure that on exit the uid/gid is still root, and the original directory is restored. JRA. ******************************************************************/ sec_login_handle_t my_dce_sec_context; int dcelogin_atmost_once = 0; /******************************************************************* check on a DCE/DFS authentication ********************************************************************/ static bool dfs_auth(char *user, char *password) { struct tm *t; error_status_t err; int err2; int prterr; signed32 expire_time, current_time; boolean32 password_reset; struct passwd *pw; sec_passwd_rec_t passwd_rec; sec_login_auth_src_t auth_src = sec_login_auth_src_network; unsigned char dce_errstr[dce_c_error_string_len]; gid_t egid; if (dcelogin_atmost_once) return (False); #ifdef HAVE_CRYPT /* * We only go for a DCE login context if the given password * matches that stored in the local password file.. * Assumes local passwd file is kept in sync w/ DCE RGY! */ if (strcmp((char *)crypt(password, get_this_salt()), get_this_crypted())) { return (False); } #endif sec_login_get_current_context(&my_dce_sec_context, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't get current context. %s\n", dce_errstr)); return (False); } sec_login_certify_identity(my_dce_sec_context, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't get current context. %s\n", dce_errstr)); return (False); } sec_login_get_expiration(my_dce_sec_context, &expire_time, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't get expiration. %s\n", dce_errstr)); return (False); } time(¤t_time); if (expire_time < (current_time + 60)) { struct passwd *pw; sec_passwd_rec_t *key; sec_login_get_pwent(my_dce_sec_context, (sec_login_passwd_t *) & pw, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't get pwent. %s\n", dce_errstr)); return (False); } sec_login_refresh_identity(my_dce_sec_context, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't refresh identity. %s\n", dce_errstr)); return (False); } sec_key_mgmt_get_key(rpc_c_authn_dce_secret, NULL, (unsigned char *)pw->pw_name, sec_c_key_version_none, (void **)&key, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't get key for %s. %s\n", pw->pw_name, dce_errstr)); return (False); } sec_login_valid_and_cert_ident(my_dce_sec_context, key, &password_reset, &auth_src, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't validate and certify identity for %s. %s\n", pw->pw_name, dce_errstr)); } sec_key_mgmt_free_key(key, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't free key.\n", dce_errstr)); } } if (sec_login_setup_identity((unsigned char *)user, sec_login_no_flags, &my_dce_sec_context, &err) == 0) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE Setup Identity for %s failed: %s\n", user, dce_errstr)); return (False); } sec_login_get_pwent(my_dce_sec_context, (sec_login_passwd_t *) & pw, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't get pwent. %s\n", dce_errstr)); return (False); } sec_login_purge_context(&my_dce_sec_context, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't purge context. %s\n", dce_errstr)); return (False); } /* * NB. I'd like to change these to call something like change_to_user() * instead but currently we don't have a connection * context to become the correct user. This is already * fairly platform specific code however, so I think * this should be ok. I have added code to go * back to being root on error though. JRA. */ egid = getegid(); set_effective_gid(pw->pw_gid); set_effective_uid(pw->pw_uid); if (sec_login_setup_identity((unsigned char *)user, sec_login_no_flags, &my_dce_sec_context, &err) == 0) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE Setup Identity for %s failed: %s\n", user, dce_errstr)); goto err; } sec_login_get_pwent(my_dce_sec_context, (sec_login_passwd_t *) & pw, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't get pwent. %s\n", dce_errstr)); goto err; } passwd_rec.version_number = sec_passwd_c_version_none; passwd_rec.pepper = NULL; passwd_rec.key.key_type = sec_passwd_plain; passwd_rec.key.tagged_union.plain = (idl_char *) password; sec_login_validate_identity(my_dce_sec_context, &passwd_rec, &password_reset, &auth_src, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE Identity Validation failed for principal %s: %s\n", user, dce_errstr)); goto err; } sec_login_certify_identity(my_dce_sec_context, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE certify identity failed: %s\n", dce_errstr)); goto err; } if (auth_src != sec_login_auth_src_network) { DEBUG(0, ("DCE context has no network credentials.\n")); } sec_login_set_context(my_dce_sec_context, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE login failed for principal %s, cant set context: %s\n", user, dce_errstr)); sec_login_purge_context(&my_dce_sec_context, &err); goto err; } sec_login_get_pwent(my_dce_sec_context, (sec_login_passwd_t *) & pw, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't get pwent. %s\n", dce_errstr)); goto err; } DEBUG(0, ("DCE login succeeded for principal %s on pid %d\n", user, sys_getpid())); DEBUG(3, ("DCE principal: %s\n" " uid: %d\n" " gid: %d\n", pw->pw_name, pw->pw_uid, pw->pw_gid)); DEBUG(3, (" info: %s\n" " dir: %s\n" " shell: %s\n", pw->pw_gecos, pw->pw_dir, pw->pw_shell)); sec_login_get_expiration(my_dce_sec_context, &expire_time, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE can't get expiration. %s\n", dce_errstr)); goto err; } set_effective_uid(0); set_effective_gid(0); t = localtime(&expire_time); if (t) { const char *asct = asctime(t); if (asct) { DEBUG(0,("DCE context expires: %s", asct)); } } dcelogin_atmost_once = 1; return (True); err: /* Go back to root, JRA. */ set_effective_uid(0); set_effective_gid(egid); return (False); } void dfs_unlogin(void) { error_status_t err; int err2; unsigned char dce_errstr[dce_c_error_string_len]; sec_login_purge_context(&my_dce_sec_context, &err); if (err != error_status_ok) { dce_error_inq_text(err, dce_errstr, &err2); DEBUG(0, ("DCE purge login context failed for server instance %d: %s\n", sys_getpid(), dce_errstr)); } } #endif #ifdef LINUX_BIGCRYPT /**************************************************************************** an enhanced crypt for Linux to handle password longer than 8 characters ****************************************************************************/ static int linux_bigcrypt(char *password, char *salt1, char *crypted) { #define LINUX_PASSWORD_SEG_CHARS 8 char salt[3]; int i; StrnCpy(salt, salt1, 2); crypted += 2; for (i = strlen(password); i > 0; i -= LINUX_PASSWORD_SEG_CHARS) { char *p = crypt(password, salt) + 2; if (strncmp(p, crypted, LINUX_PASSWORD_SEG_CHARS) != 0) return (0); password += LINUX_PASSWORD_SEG_CHARS; crypted += strlen(p); } return (1); } #endif #ifdef OSF1_ENH_SEC /**************************************************************************** an enhanced crypt for OSF1 ****************************************************************************/ static char *osf1_bigcrypt(char *password, char *salt1) { static char result[AUTH_MAX_PASSWD_LENGTH] = ""; char *p1; char *p2 = password; char salt[3]; int i; int parts = strlen(password) / AUTH_CLEARTEXT_SEG_CHARS; if (strlen(password) % AUTH_CLEARTEXT_SEG_CHARS) parts++; StrnCpy(salt, salt1, 2); StrnCpy(result, salt1, 2); result[2] = '\0'; for (i = 0; i < parts; i++) { p1 = crypt(p2, salt); strncat(result, p1 + 2, AUTH_MAX_PASSWD_LENGTH - strlen(p1 + 2) - 1); StrnCpy(salt, &result[2 + i * AUTH_CIPHERTEXT_SEG_CHARS], 2); p2 += AUTH_CLEARTEXT_SEG_CHARS; } return (result); } #endif /**************************************************************************** apply a function to upper/lower case combinations of a string and return true if one of them returns true. try all combinations with N uppercase letters. offset is the first char to try and change (start with 0) it assumes the string starts lowercased ****************************************************************************/ static NTSTATUS string_combinations2(char *s, int offset, NTSTATUS (*fn) (const char *), int N) { int len = strlen(s); int i; NTSTATUS nt_status; #ifdef PASSWORD_LENGTH len = MIN(len, PASSWORD_LENGTH); #endif if (N <= 0 || offset >= len) return (fn(s)); for (i = offset; i < (len - (N - 1)); i++) { char c = s[i]; if (!islower_ascii(c)) continue; s[i] = toupper_ascii(c); if (!NT_STATUS_EQUAL(nt_status = string_combinations2(s, i + 1, fn, N - 1),NT_STATUS_WRONG_PASSWORD)) { return (nt_status); } s[i] = c; } return (NT_STATUS_WRONG_PASSWORD); } /**************************************************************************** apply a function to upper/lower case combinations of a string and return true if one of them returns true. try all combinations with up to N uppercase letters. offset is the first char to try and change (start with 0) it assumes the string starts lowercased ****************************************************************************/ static NTSTATUS string_combinations(char *s, NTSTATUS (*fn) (const char *), int N) { int n; NTSTATUS nt_status; for (n = 1; n <= N; n++) if (!NT_STATUS_EQUAL(nt_status = string_combinations2(s, 0, fn, n), NT_STATUS_WRONG_PASSWORD)) return nt_status; return NT_STATUS_WRONG_PASSWORD; } /**************************************************************************** core of password checking routine ****************************************************************************/ static NTSTATUS password_check(const char *password) { #ifdef WITH_PAM return smb_pam_passcheck(get_this_user(), password); #else bool ret; #ifdef WITH_AFS if (afs_auth(get_this_user(), password)) return NT_STATUS_OK; #endif /* WITH_AFS */ #ifdef WITH_DFS if (dfs_auth(get_this_user(), password)) return NT_STATUS_OK; #endif /* WITH_DFS */ #ifdef OSF1_ENH_SEC ret = (strcmp(osf1_bigcrypt(password, get_this_salt()), get_this_crypted()) == 0); if (!ret) { DEBUG(2, ("OSF1_ENH_SEC failed. Trying normal crypt.\n")); ret = (strcmp((char *)crypt(password, get_this_salt()), get_this_crypted()) == 0); } if (ret) { return NT_STATUS_OK; } else { return NT_STATUS_WRONG_PASSWORD; } #endif /* OSF1_ENH_SEC */ #ifdef ULTRIX_AUTH ret = (strcmp((char *)crypt16(password, get_this_salt()), get_this_crypted()) == 0); if (ret) { return NT_STATUS_OK; } else { return NT_STATUS_WRONG_PASSWORD; } #endif /* ULTRIX_AUTH */ #ifdef LINUX_BIGCRYPT ret = (linux_bigcrypt(password, get_this_salt(), get_this_crypted())); if (ret) { return NT_STATUS_OK; } else { return NT_STATUS_WRONG_PASSWORD; } #endif /* LINUX_BIGCRYPT */ #if defined(HAVE_BIGCRYPT) && defined(HAVE_CRYPT) && defined(USE_BOTH_CRYPT_CALLS) /* * Some systems have bigcrypt in the C library but might not * actually use it for the password hashes (HPUX 10.20) is * a noteable example. So we try bigcrypt first, followed * by crypt. */ if (strcmp(bigcrypt(password, get_this_salt()), get_this_crypted()) == 0) return NT_STATUS_OK; else ret = (strcmp((char *)crypt(password, get_this_salt()), get_this_crypted()) == 0); if (ret) { return NT_STATUS_OK; } else { return NT_STATUS_WRONG_PASSWORD; } #else /* HAVE_BIGCRYPT && HAVE_CRYPT && USE_BOTH_CRYPT_CALLS */ #ifdef HAVE_BIGCRYPT ret = (strcmp(bigcrypt(password, get_this_salt()), get_this_crypted()) == 0); if (ret) { return NT_STATUS_OK; } else { return NT_STATUS_WRONG_PASSWORD; } #endif /* HAVE_BIGCRYPT */ #ifndef HAVE_CRYPT DEBUG(1, ("Warning - no crypt available\n")); return NT_STATUS_LOGON_FAILURE; #else /* HAVE_CRYPT */ ret = (strcmp((char *)crypt(password, get_this_salt()), get_this_crypted()) == 0); if (ret) { return NT_STATUS_OK; } else { return NT_STATUS_WRONG_PASSWORD; } #endif /* HAVE_CRYPT */ #endif /* HAVE_BIGCRYPT && HAVE_CRYPT && USE_BOTH_CRYPT_CALLS */ #endif /* WITH_PAM */ } /**************************************************************************** CHECK if a username/password is OK the function pointer fn() points to a function to call when a successful match is found and is used to update the encrypted password file return NT_STATUS_OK on correct match, appropriate error otherwise ****************************************************************************/ NTSTATUS pass_check(const struct passwd *pass, const char *user, const char *password, int pwlen, bool (*fn) (const char *, const char *), bool run_cracker) { char *pass2 = NULL; int level = lp_passwordlevel(); NTSTATUS nt_status; #ifdef DEBUG_PASSWORD DEBUG(100, ("checking user=[%s] pass=[%s]\n", user, password)); #endif if (!password) return NT_STATUS_LOGON_FAILURE; if (((!*password) || (!pwlen)) && !lp_null_passwords()) return NT_STATUS_LOGON_FAILURE; #if defined(WITH_PAM) /* * If we're using PAM we want to short-circuit all the * checks below and dive straight into the PAM code. */ if (set_this_user(user) == NULL) { return NT_STATUS_NO_MEMORY; } DEBUG(4, ("pass_check: Checking (PAM) password for user %s (l=%d)\n", user, pwlen)); #else /* Not using PAM */ DEBUG(4, ("pass_check: Checking password for user %s (l=%d)\n", user, pwlen)); if (!pass) { DEBUG(3, ("Couldn't find user %s\n", user)); return NT_STATUS_NO_SUCH_USER; } /* Copy into global for the convenience of looping code */ /* Also the place to keep the 'password' no matter what crazy struct it started in... */ if (set_this_crypted(pass->pw_passwd) == NULL) { return NT_STATUS_NO_MEMORY; } if (set_this_salt(pass->pw_passwd) == NULL) { return NT_STATUS_NO_MEMORY; } #ifdef HAVE_GETSPNAM { struct spwd *spass; /* many shadow systems require you to be root to get the password, in most cases this should already be the case when this function is called, except perhaps for IPC password changing requests */ spass = getspnam(pass->pw_name); if (spass && spass->sp_pwdp) { if (set_this_crypted(spass->sp_pwdp) == NULL) { return NT_STATUS_NO_MEMORY; } if (set_this_salt(spass->sp_pwdp) == NULL) { return NT_STATUS_NO_MEMORY; } } } #elif defined(IA_UINFO) { /* Need to get password with SVR4.2's ia_ functions instead of get{sp,pw}ent functions. Required by UnixWare 2.x, tested on version 2.1. (tangent@cyberport.com) */ uinfo_t uinfo; if (ia_openinfo(pass->pw_name, &uinfo) != -1) ia_get_logpwd(uinfo, &(pass->pw_passwd)); } #endif #ifdef HAVE_GETPRPWNAM { struct pr_passwd *pr_pw = getprpwnam(pass->pw_name); if (pr_pw && pr_pw->ufld.fd_encrypt) { if (set_this_crypted(pr_pw->ufld.fd_encrypt) == NULL) { return NT_STATUS_NO_MEMORY; } } } #endif #ifdef HAVE_GETPWANAM { struct passwd_adjunct *pwret; pwret = getpwanam(s); if (pwret && pwret->pwa_passwd) { if (set_this_crypted(pwret->pwa_passwd) == NULL) { return NT_STATUS_NO_MEMORY; } } } #endif #ifdef OSF1_ENH_SEC { struct pr_passwd *mypasswd; DEBUG(5, ("Checking password for user %s in OSF1_ENH_SEC\n", user)); mypasswd = getprpwnam(user); if (mypasswd) { if (set_this_user(mypasswd->ufld.fd_name) == NULL) { return NT_STATUS_NO_MEMORY; } if (set_this_crypted(mypasswd->ufld.fd_encrypt) == NULL) { return NT_STATUS_NO_MEMORY; } } else { DEBUG(5, ("OSF1_ENH_SEC: No entry for user %s in protected database !\n", user)); } } #endif #ifdef ULTRIX_AUTH { AUTHORIZATION *ap = getauthuid(pass->pw_uid); if (ap) { if (set_this_crypted(ap->a_password) == NULL) { endauthent(); return NT_STATUS_NO_MEMORY; } endauthent(); } } #endif #if defined(HAVE_TRUNCATED_SALT) /* crypt on some platforms (HPUX in particular) won't work with more than 2 salt characters. */ { char *trunc_salt = get_this_salt(); if (!trunc_salt || strlen(trunc_salt) < 2) { return NT_STATUS_LOGON_FAILURE; } trunc_salt[2] = 0; if (set_this_salt(trunc_salt) == NULL) { return NT_STATUS_NO_MEMORY; } } #endif if (!get_this_crypted() || !*get_this_crypted()) { if (!lp_null_passwords()) { DEBUG(2, ("Disallowing %s with null password\n", get_this_user())); return NT_STATUS_LOGON_FAILURE; } if (!*password) { DEBUG(3, ("Allowing access to %s with null password\n", get_this_user())); return NT_STATUS_OK; } } #endif /* defined(WITH_PAM) */ /* try it as it came to us */ nt_status = password_check(password); if NT_STATUS_IS_OK(nt_status) { if (fn) { fn(user, password); } return (nt_status); } else if (!NT_STATUS_EQUAL(nt_status, NT_STATUS_WRONG_PASSWORD)) { /* No point continuing if its not the password thats to blame (ie PAM disabled). */ return (nt_status); } if (!run_cracker) { return (nt_status); } /* if the password was given to us with mixed case then we don't * need to proceed as we know it hasn't been case modified by the * client */ if (strhasupper(password) && strhaslower(password)) { return nt_status; } /* make a copy of it */ pass2 = talloc_strdup(talloc_tos(), password); if (!pass2) { return NT_STATUS_NO_MEMORY; } /* try all lowercase if it's currently all uppercase */ if (strhasupper(pass2)) { strlower_m(pass2); if NT_STATUS_IS_OK(nt_status = password_check(pass2)) { if (fn) fn(user, pass2); return (nt_status); } } /* give up? */ if (level < 1) { return NT_STATUS_WRONG_PASSWORD; } /* last chance - all combinations of up to level chars upper! */ strlower_m(pass2); if (NT_STATUS_IS_OK(nt_status = string_combinations(pass2, password_check, level))) { if (fn) fn(user, pass2); return nt_status; } return NT_STATUS_WRONG_PASSWORD; }