/* Unix SMB/Netbios implementation. Version 1.9. Password cacheing. obfuscation is planned Copyright (C) Luke Kenneth Casson Leighton 1996-1998 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 2 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, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "includes.h" extern int DEBUGLEVEL; /**************************************************************************** initialises a password structure ****************************************************************************/ void pwd_init(struct pwd_info *pwd) { memset((char *)pwd->password , '\0', sizeof(pwd->password )); memset((char *)pwd->smb_lm_pwd, '\0', sizeof(pwd->smb_lm_pwd)); memset((char *)pwd->smb_nt_pwd, '\0', sizeof(pwd->smb_nt_pwd)); memset((char *)pwd->smb_lm_owf, '\0', sizeof(pwd->smb_lm_owf)); memset((char *)pwd->smb_nt_owf, '\0', sizeof(pwd->smb_nt_owf)); pwd->null_pwd = True; /* safest option... */ pwd->cleartext = False; pwd->crypted = False; } /**************************************************************************** de-obfuscates a password ****************************************************************************/ static void pwd_deobfuscate(struct pwd_info *pwd) { (void) pwd; } /**************************************************************************** obfuscates a password ****************************************************************************/ static void pwd_obfuscate(struct pwd_info *pwd) { (void) pwd; } /**************************************************************************** sets the obfuscation key info ****************************************************************************/ void pwd_obfuscate_key(struct pwd_info *pwd, uint32 int_key, char *str_key) { (void) pwd; (void) int_key; (void) str_key; } #if 0 /**************************************************************************** reads a password ****************************************************************************/ void pwd_read(struct pwd_info *pwd, char *passwd_report, BOOL do_encrypt) { /* grab a password */ char *user_pass; pwd_init(pwd); user_pass = (char*)getpass(passwd_report); if (user_pass == NULL || user_pass[0] == 0) { pwd_set_nullpwd(pwd); } else if (do_encrypt) { pwd_make_lm_nt_16(pwd, user_pass); } else { pwd_set_cleartext(pwd, user_pass); } } #endif /**************************************************************************** stores a cleartext password ****************************************************************************/ void pwd_set_nullpwd(struct pwd_info *pwd) { pwd_init(pwd); pwd->cleartext = False; pwd->null_pwd = True; pwd->crypted = False; } /**************************************************************************** stores a cleartext password ****************************************************************************/ void pwd_set_cleartext(struct pwd_info *pwd, char *clr) { pwd_init(pwd); fstrcpy(pwd->password, clr); pwd->cleartext = True; pwd->null_pwd = False; pwd->crypted = False; pwd_obfuscate(pwd); } /**************************************************************************** gets a cleartext password ****************************************************************************/ void pwd_get_cleartext(struct pwd_info *pwd, char *clr) { pwd_deobfuscate(pwd); if (pwd->cleartext) { fstrcpy(clr, pwd->password); } else { clr[0] = 0; } pwd_obfuscate(pwd); } /**************************************************************************** stores lm and nt hashed passwords ****************************************************************************/ void pwd_set_lm_nt_16(struct pwd_info *pwd, uchar lm_pwd[16], uchar nt_pwd[16]) { pwd_init(pwd); if (lm_pwd) { memcpy(pwd->smb_lm_pwd, lm_pwd, 16); } else { memset((char *)pwd->smb_lm_pwd, '\0', 16); } if (nt_pwd) { memcpy(pwd->smb_nt_pwd, nt_pwd, 16); } else { memset((char *)pwd->smb_nt_pwd, '\0', 16); } pwd->null_pwd = False; pwd->cleartext = False; pwd->crypted = False; pwd_obfuscate(pwd); } /**************************************************************************** gets lm and nt hashed passwords ****************************************************************************/ void pwd_get_lm_nt_16(struct pwd_info *pwd, uchar lm_pwd[16], uchar nt_pwd[16]) { pwd_deobfuscate(pwd); if (lm_pwd != NULL) { memcpy(lm_pwd, pwd->smb_lm_pwd, 16); } if (nt_pwd != NULL) { memcpy(nt_pwd, pwd->smb_nt_pwd, 16); } pwd_obfuscate(pwd); } /**************************************************************************** makes lm and nt hashed passwords ****************************************************************************/ void pwd_make_lm_nt_16(struct pwd_info *pwd, char *clr) { pwd_init(pwd); nt_lm_owf_gen(clr, pwd->smb_nt_pwd, pwd->smb_lm_pwd); pwd->null_pwd = False; pwd->cleartext = False; pwd->crypted = False; pwd_obfuscate(pwd); } /**************************************************************************** makes lm and nt OWF crypts ****************************************************************************/ void pwd_make_lm_nt_owf(struct pwd_info *pwd, uchar cryptkey[8]) { pwd_deobfuscate(pwd); #ifdef DEBUG_PASSWORD DEBUG(100,("client cryptkey: ")); dump_data(100, (char *)cryptkey, 8); #endif SMBOWFencrypt(pwd->smb_nt_pwd, cryptkey, pwd->smb_nt_owf); #ifdef DEBUG_PASSWORD DEBUG(100,("nt_owf_passwd: ")); dump_data(100, (char *)pwd->smb_nt_owf, sizeof(pwd->smb_nt_owf)); DEBUG(100,("nt_sess_pwd: ")); dump_data(100, (char *)pwd->smb_nt_pwd, sizeof(pwd->smb_nt_pwd)); #endif SMBOWFencrypt(pwd->smb_lm_pwd, cryptkey, pwd->smb_lm_owf); #ifdef DEBUG_PASSWORD DEBUG(100,("lm_owf_passwd: ")); dump_data(100, (char *)pwd->smb_lm_owf, sizeof(pwd->smb_lm_owf)); DEBUG(100,("lm_sess_pwd: ")); dump_data(100, (char *)pwd->smb_lm_pwd, sizeof(pwd->smb_lm_pwd)); #endif pwd->crypted = True; pwd_obfuscate(pwd); } /**************************************************************************** gets lm and nt crypts ****************************************************************************/ void pwd_get_lm_nt_owf(struct pwd_info *pwd, uchar lm_owf[24], uchar nt_owf[24]) { pwd_deobfuscate(pwd); if (lm_owf != NULL) { memcpy(lm_owf, pwd->smb_lm_owf, 24); } if (nt_owf != NULL) { memcpy(nt_owf, pwd->smb_nt_owf, 24); } pwd_obfuscate(pwd); }