/* * Unix SMB/CIFS implementation. * SMB parameters and setup * Copyright (C) Andrew Tridgell 1992-1998 * Modified by Jeremy Allison 1995. * Modified by Gerald (Jerry) Carter 2000-2001 * Modified by Andrew Bartlett 2002. * * 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., 675 * Mass Ave, Cambridge, MA 02139, USA. */ #include "includes.h" #undef DBGC_CLASS #define DBGC_CLASS DBGC_PASSDB /* smb_passwd is analogous to sam_passwd used everywhere else. However, smb_passwd is limited to the information stored by an smbpasswd entry */ struct smb_passwd { BOOL smb_userid_set; /* this is actually the unix uid_t */ uint32 smb_userid; /* this is actually the unix uid_t */ const char *smb_name; /* username string */ const unsigned char *smb_passwd; /* Null if no password */ const unsigned char *smb_nt_passwd; /* Null if no password */ uint16 acct_ctrl; /* account info (ACB_xxxx bit-mask) */ time_t pass_last_set_time; /* password last set time */ }; struct smbpasswd_privates { /* used for maintain locks on the smbpasswd file */ int pw_file_lock_depth; /* Global File pointer */ FILE *pw_file; /* formerly static variables */ struct smb_passwd pw_buf; pstring user_name; unsigned char smbpwd[16]; unsigned char smbntpwd[16]; /* retrive-once info */ const char *smbpasswd_file; BOOL permit_non_unix_accounts; uint32 low_nua_userid; uint32 high_nua_userid; }; enum pwf_access_type { PWF_READ, PWF_UPDATE, PWF_CREATE }; /*************************************************************** Lock an fd. Abandon after waitsecs seconds. ****************************************************************/ static BOOL pw_file_lock(int fd, int type, int secs, int *plock_depth) { if (fd < 0) return False; if(*plock_depth == 0) { if (!do_file_lock(fd, secs, type)) { DEBUG(10,("pw_file_lock: locking file failed, error = %s.\n", strerror(errno))); return False; } } (*plock_depth)++; return True; } /*************************************************************** Unlock an fd. Abandon after waitsecs seconds. ****************************************************************/ static BOOL pw_file_unlock(int fd, int *plock_depth) { BOOL ret=True; if (fd == 0 || *plock_depth == 0) { return True; } if(*plock_depth == 1) ret = do_file_lock(fd, 5, F_UNLCK); if (*plock_depth > 0) (*plock_depth)--; if(!ret) DEBUG(10,("pw_file_unlock: unlocking file failed, error = %s.\n", strerror(errno))); return ret; } /************************************************************** Intialize a smb_passwd struct *************************************************************/ static void pdb_init_smb(struct smb_passwd *user) { if (user == NULL) return; ZERO_STRUCTP (user); user->pass_last_set_time = (time_t)0; } /*************************************************************** Internal fn to enumerate the smbpasswd list. Returns a void pointer to ensure no modification outside this module. Checks for atomic rename of smbpasswd file on update or create once the lock has been granted to prevent race conditions. JRA. ****************************************************************/ static FILE *startsmbfilepwent(const char *pfile, enum pwf_access_type type, int *lock_depth) { FILE *fp = NULL; const char *open_mode = NULL; int race_loop = 0; int lock_type = F_RDLCK; if (!*pfile) { DEBUG(0, ("startsmbfilepwent: No SMB password file set\n")); return (NULL); } switch(type) { case PWF_READ: open_mode = "rb"; lock_type = F_RDLCK; break; case PWF_UPDATE: open_mode = "r+b"; lock_type = F_WRLCK; break; case PWF_CREATE: /* * Ensure atomic file creation. */ { int i, fd = -1; for(i = 0; i < 5; i++) { if((fd = sys_open(pfile, O_CREAT|O_TRUNC|O_EXCL|O_RDWR, 0600))!=-1) break; sys_usleep(200); /* Spin, spin... */ } if(fd == -1) { DEBUG(0,("startsmbfilepwent_internal: too many race conditions creating file %s\n", pfile)); return NULL; } close(fd); open_mode = "r+b"; lock_type = F_WRLCK; break; } } for(race_loop = 0; race_loop < 5; race_loop++) { DEBUG(10, ("startsmbfilepwent_internal: opening file %s\n", pfile)); if((fp = sys_fopen(pfile, open_mode)) == NULL) { DEBUG(0, ("startsmbfilepwent_internal: unable to open file %s. Error was %s\n", pfile, strerror(errno) )); return NULL; } if (!pw_file_lock(fileno(fp), lock_type, 5, lock_depth)) { DEBUG(0, ("startsmbfilepwent_internal: unable to lock file %s. Error was %s\n", pfile, strerror(errno) )); fclose(fp); return NULL; } /* * Only check for replacement races on update or create. * For read we don't mind if the data is one record out of date. */ if(type == PWF_READ) { break; } else { SMB_STRUCT_STAT sbuf1, sbuf2; /* * Avoid the potential race condition between the open and the lock * by doing a stat on the filename and an fstat on the fd. If the * two inodes differ then someone did a rename between the open and * the lock. Back off and try the open again. Only do this 5 times to * prevent infinate loops. JRA. */ if (sys_stat(pfile,&sbuf1) != 0) { DEBUG(0, ("startsmbfilepwent_internal: unable to stat file %s. Error was %s\n", pfile, strerror(errno))); pw_file_unlock(fileno(fp), lock_depth); fclose(fp); return NULL; } if (sys_fstat(fileno(fp),&sbuf2) != 0) { DEBUG(0, ("startsmbfilepwent_internal: unable to fstat file %s. Error was %s\n", pfile, strerror(errno))); pw_file_unlock(fileno(fp), lock_depth); fclose(fp); return NULL; } if( sbuf1.st_ino == sbuf2.st_ino) { /* No race. */ break; } /* * Race occurred - back off and try again... */ pw_file_unlock(fileno(fp), lock_depth); fclose(fp); } } if(race_loop == 5) { DEBUG(0, ("startsmbfilepwent_internal: too many race conditions opening file %s\n", pfile)); return NULL; } /* Set a buffer to do more efficient reads */ setvbuf(fp, (char *)NULL, _IOFBF, 1024); /* Make sure it is only rw by the owner */ if(fchmod(fileno(fp), S_IRUSR|S_IWUSR) == -1) { DEBUG(0, ("startsmbfilepwent_internal: failed to set 0600 permissions on password file %s. \ Error was %s\n.", pfile, strerror(errno) )); pw_file_unlock(fileno(fp), lock_depth); fclose(fp); return NULL; } /* We have a lock on the file. */ return fp; } /*************************************************************** End enumeration of the smbpasswd list. ****************************************************************/ static void endsmbfilepwent(FILE *fp, int *lock_depth) { if (!fp) { return; } pw_file_unlock(fileno(fp), lock_depth); fclose(fp); DEBUG(7, ("endsmbfilepwent_internal: closed password file.\n")); } /************************************************************************* Routine to return the next entry in the smbpasswd list. *************************************************************************/ static struct smb_passwd *getsmbfilepwent(struct smbpasswd_privates *smbpasswd_state, FILE *fp) { /* Static buffers we will return. */ struct smb_passwd *pw_buf = &smbpasswd_state->pw_buf; char *user_name = smbpasswd_state->user_name; unsigned char *smbpwd = smbpasswd_state->smbpwd; unsigned char *smbntpwd = smbpasswd_state->smbntpwd; char linebuf[256]; unsigned char c; unsigned char *p; long uidval; size_t linebuf_len; if(fp == NULL) { DEBUG(0,("getsmbfilepwent: Bad password file pointer.\n")); return NULL; } pdb_init_smb(pw_buf); pw_buf->acct_ctrl = ACB_NORMAL; /* * Scan the file, a line at a time and check if the name matches. */ while (!feof(fp)) { linebuf[0] = '\0'; fgets(linebuf, 256, fp); if (ferror(fp)) { return NULL; } /* * Check if the string is terminated with a newline - if not * then we must keep reading and discard until we get one. */ if ((linebuf_len = strlen(linebuf)) == 0) continue; if (linebuf[linebuf_len - 1] != '\n') { c = '\0'; while (!ferror(fp) && !feof(fp)) { c = fgetc(fp); if (c == '\n') break; } } else linebuf[linebuf_len - 1] = '\0'; #ifdef DEBUG_PASSWORD DEBUG(100, ("getsmbfilepwent: got line |%s|\n", linebuf)); #endif if ((linebuf[0] == 0) && feof(fp)) { DEBUG(4, ("getsmbfilepwent: end of file reached\n")); break; } /* * The line we have should be of the form :- * * username:uid:32hex bytes:[Account type]:LCT-12345678....other flags presently * ignored.... * * or, * * username:uid:32hex bytes:32hex bytes:[Account type]:LCT-12345678....ignored.... * * if Windows NT compatible passwords are also present. * [Account type] is an ascii encoding of the type of account. * LCT-(8 hex digits) is the time_t value of the last change time. */ if (linebuf[0] == '#' || linebuf[0] == '\0') { DEBUG(6, ("getsmbfilepwent: skipping comment or blank line\n")); continue; } p = (unsigned char *) strchr_m(linebuf, ':'); if (p == NULL) { DEBUG(0, ("getsmbfilepwent: malformed password entry (no :)\n")); continue; } /* * As 256 is shorter than a pstring we don't need to check * length here - if this ever changes.... */ SMB_ASSERT(sizeof(pstring) > sizeof(linebuf)); strncpy(user_name, linebuf, PTR_DIFF(p, linebuf)); user_name[PTR_DIFF(p, linebuf)] = '\0'; /* Get smb uid. */ p++; /* Go past ':' */ if(*p == '-') { DEBUG(0, ("getsmbfilepwent: uids in the smbpasswd file must not be negative.\n")); continue; } if (!isdigit(*p)) { DEBUG(0, ("getsmbfilepwent: malformed password entry (uid not number)\n")); continue; } uidval = atoi((char *) p); while (*p && isdigit(*p)) p++; if (*p != ':') { DEBUG(0, ("getsmbfilepwent: malformed password entry (no : after uid)\n")); continue; } pw_buf->smb_name = user_name; pw_buf->smb_userid = uidval; /* * Now get the password value - this should be 32 hex digits * which are the ascii representations of a 16 byte string. * Get two at a time and put them into the password. */ /* Skip the ':' */ p++; if (*p == '*' || *p == 'X') { /* NULL LM password */ pw_buf->smb_passwd = NULL; DEBUG(10, ("getsmbfilepwent: LM password for user %s invalidated\n", user_name)); } if (linebuf_len < (PTR_DIFF(p, linebuf) + 33)) { DEBUG(0, ("getsmbfilepwent: malformed password entry (passwd too short)\n")); continue; } if (p[32] != ':') { DEBUG(0, ("getsmbfilepwent: malformed password entry (no terminating :)\n")); continue; } if (!strncasecmp((char *) p, "NO PASSWORD", 11)) { pw_buf->smb_passwd = NULL; pw_buf->acct_ctrl |= ACB_PWNOTREQ; } else { if (!pdb_gethexpwd((char *)p, smbpwd)) { DEBUG(0, ("getsmbfilepwent: Malformed Lanman password entry (non hex chars)\n")); continue; } pw_buf->smb_passwd = smbpwd; } /* * Now check if the NT compatible password is * available. */ pw_buf->smb_nt_passwd = NULL; p += 33; /* Move to the first character of the line after the lanman password. */ if ((linebuf_len >= (PTR_DIFF(p, linebuf) + 33)) && (p[32] == ':')) { if (*p != '*' && *p != 'X') { if(pdb_gethexpwd((char *)p,smbntpwd)) pw_buf->smb_nt_passwd = smbntpwd; } p += 33; /* Move to the first character of the line after the NT password. */ } DEBUG(5,("getsmbfilepwent: returning passwd entry for user %s, uid %ld\n", user_name, uidval)); if (*p == '[') { unsigned char *end_p = (unsigned char *)strchr_m((char *)p, ']'); pw_buf->acct_ctrl = pdb_decode_acct_ctrl((char*)p); /* Must have some account type set. */ if(pw_buf->acct_ctrl == 0) pw_buf->acct_ctrl = ACB_NORMAL; /* Now try and get the last change time. */ if(end_p) p = end_p + 1; if(*p == ':') { p++; if(*p && (StrnCaseCmp((char *)p, "LCT-", 4)==0)) { int i; p += 4; for(i = 0; i < 8; i++) { if(p[i] == '\0' || !isxdigit(p[i])) break; } if(i == 8) { /* * p points at 8 characters of hex digits - * read into a time_t as the seconds since * 1970 that the password was last changed. */ pw_buf->pass_last_set_time = (time_t)strtol((char *)p, NULL, 16); } } } } else { /* 'Old' style file. Fake up based on user name. */ /* * Currently trust accounts are kept in the same * password file as 'normal accounts'. If this changes * we will have to fix this code. JRA. */ if(pw_buf->smb_name[strlen(pw_buf->smb_name) - 1] == '$') { pw_buf->acct_ctrl &= ~ACB_NORMAL; pw_buf->acct_ctrl |= ACB_WSTRUST; } } return pw_buf; } DEBUG(5,("getsmbfilepwent: end of file reached.\n")); return NULL; } /************************************************************************ Create a new smbpasswd entry - malloced space returned. *************************************************************************/ static char *format_new_smbpasswd_entry(const struct smb_passwd *newpwd) { int new_entry_length; char *new_entry; char *p; new_entry_length = strlen(newpwd->smb_name) + 1 + 15 + 1 + 32 + 1 + 32 + 1 + NEW_PW_FORMAT_SPACE_PADDED_LEN + 1 + 13 + 2; if((new_entry = (char *)malloc( new_entry_length )) == NULL) { DEBUG(0, ("format_new_smbpasswd_entry: Malloc failed adding entry for user %s.\n", newpwd->smb_name )); return NULL; } slprintf(new_entry, new_entry_length - 1, "%s:%u:", newpwd->smb_name, (unsigned)newpwd->smb_userid); p = new_entry+strlen(new_entry); pdb_sethexpwd(p, newpwd->smb_passwd, newpwd->acct_ctrl); p+=strlen(p); *p = ':'; p++; pdb_sethexpwd(p, newpwd->smb_nt_passwd, newpwd->acct_ctrl); p+=strlen(p); *p = ':'; p++; /* Add the account encoding and the last change time. */ slprintf((char *)p, new_entry_length - 1 - (p - new_entry), "%s:LCT-%08X:\n", pdb_encode_acct_ctrl(newpwd->acct_ctrl, NEW_PW_FORMAT_SPACE_PADDED_LEN), (uint32)newpwd->pass_last_set_time); return new_entry; } /************************************************************************ Routine to add an entry to the smbpasswd file. *************************************************************************/ static BOOL add_smbfilepwd_entry(struct smbpasswd_privates *smbpasswd_state, struct smb_passwd *newpwd) { const char *pfile = smbpasswd_state->smbpasswd_file; struct smb_passwd *pwd = NULL; FILE *fp = NULL; int wr_len; int fd; size_t new_entry_length; char *new_entry; SMB_OFF_T offpos; uint32 max_found_uid = 0; /* Open the smbpassword file - for update. */ fp = startsmbfilepwent(pfile, PWF_UPDATE, &(smbpasswd_state->pw_file_lock_depth)); if (fp == NULL && errno == ENOENT) { /* Try again - create. */ fp = startsmbfilepwent(pfile, PWF_CREATE, &(smbpasswd_state->pw_file_lock_depth)); } if (fp == NULL) { DEBUG(0, ("add_smbfilepwd_entry: unable to open file.\n")); return False; } /* * Scan the file, a line at a time and check if the name matches. */ while ((pwd = getsmbfilepwent(smbpasswd_state, fp)) != NULL) { if (strequal(newpwd->smb_name, pwd->smb_name)) { DEBUG(0, ("add_smbfilepwd_entry: entry with name %s already exists\n", pwd->smb_name)); endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); return False; } /* Look for a free uid for use in non-unix accounts */ if (pwd->smb_userid > max_found_uid) { max_found_uid = pwd->smb_userid; } } /* Ok - entry doesn't exist. We can add it */ /* Account not in /etc/passwd hack!!! */ if (!newpwd->smb_userid_set) { if (!smbpasswd_state->permit_non_unix_accounts) { DEBUG(0, ("add_smbfilepwd_entry: cannot add account %s without unix identity\n", newpwd->smb_name)); endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); return False; } if (max_found_uid < smbpasswd_state->low_nua_userid) { newpwd->smb_userid = smbpasswd_state->low_nua_userid; newpwd->smb_userid_set = True; } else if (max_found_uid >= smbpasswd_state->high_nua_userid) { DEBUG(0, ("add_smbfilepwd_entry: cannot add machine %s, no uids are free! \n", newpwd->smb_name)); endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); return False; } else { newpwd->smb_userid = max_found_uid + 1; newpwd->smb_userid_set = True; } } /* Create a new smb passwd entry and set it to the given password. */ /* * The add user write needs to be atomic - so get the fd from * the fp and do a raw write() call. */ fd = fileno(fp); if((offpos = sys_lseek(fd, 0, SEEK_END)) == -1) { DEBUG(0, ("add_smbfilepwd_entry(sys_lseek): Failed to add entry for user %s to file %s. \ Error was %s\n", newpwd->smb_name, pfile, strerror(errno))); endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); return False; } if((new_entry = format_new_smbpasswd_entry(newpwd)) == NULL) { DEBUG(0, ("add_smbfilepwd_entry(malloc): Failed to add entry for user %s to file %s. \ Error was %s\n", newpwd->smb_name, pfile, strerror(errno))); endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); return False; } new_entry_length = strlen(new_entry); #ifdef DEBUG_PASSWORD DEBUG(100, ("add_smbfilepwd_entry(%d): new_entry_len %d made line |%s|", fd, new_entry_length, new_entry)); #endif if ((wr_len = write(fd, new_entry, new_entry_length)) != new_entry_length) { DEBUG(0, ("add_smbfilepwd_entry(write): %d Failed to add entry for user %s to file %s. \ Error was %s\n", wr_len, newpwd->smb_name, pfile, strerror(errno))); /* Remove the entry we just wrote. */ if(sys_ftruncate(fd, offpos) == -1) { DEBUG(0, ("add_smbfilepwd_entry: ERROR failed to ftruncate file %s. \ Error was %s. Password file may be corrupt ! Please examine by hand !\n", newpwd->smb_name, strerror(errno))); } endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); free(new_entry); return False; } free(new_entry); endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); return True; } /************************************************************************ Routine to search the smbpasswd file for an entry matching the username. and then modify its password entry. We can't use the startsmbpwent()/ getsmbpwent()/endsmbpwent() interfaces here as we depend on looking in the actual file to decide how much room we have to write data. override = False, normal override = True, override XXXXXXXX'd out password or NO PASS ************************************************************************/ static BOOL mod_smbfilepwd_entry(struct smbpasswd_privates *smbpasswd_state, const struct smb_passwd* pwd) { /* Static buffers we will return. */ pstring user_name; char linebuf[256]; char readbuf[1024]; unsigned char c; fstring ascii_p16; fstring encode_bits; unsigned char *p = NULL; size_t linebuf_len = 0; FILE *fp; int lockfd; const char *pfile = smbpasswd_state->smbpasswd_file; BOOL found_entry = False; BOOL got_pass_last_set_time = False; SMB_OFF_T pwd_seekpos = 0; int i; int wr_len; int fd; if (!*pfile) { DEBUG(0, ("No SMB password file set\n")); return False; } DEBUG(10, ("mod_smbfilepwd_entry: opening file %s\n", pfile)); fp = sys_fopen(pfile, "r+"); if (fp == NULL) { DEBUG(0, ("mod_smbfilepwd_entry: unable to open file %s\n", pfile)); return False; } /* Set a buffer to do more efficient reads */ setvbuf(fp, readbuf, _IOFBF, sizeof(readbuf)); lockfd = fileno(fp); if (!pw_file_lock(lockfd, F_WRLCK, 5, &(smbpasswd_state->pw_file_lock_depth))) { DEBUG(0, ("mod_smbfilepwd_entry: unable to lock file %s\n", pfile)); fclose(fp); return False; } /* Make sure it is only rw by the owner */ chmod(pfile, 0600); /* We have a write lock on the file. */ /* * Scan the file, a line at a time and check if the name matches. */ while (!feof(fp)) { pwd_seekpos = sys_ftell(fp); linebuf[0] = '\0'; fgets(linebuf, sizeof(linebuf), fp); if (ferror(fp)) { pw_file_unlock(lockfd, &(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return False; } /* * Check if the string is terminated with a newline - if not * then we must keep reading and discard until we get one. */ linebuf_len = strlen(linebuf); if (linebuf[linebuf_len - 1] != '\n') { c = '\0'; while (!ferror(fp) && !feof(fp)) { c = fgetc(fp); if (c == '\n') { break; } } } else { linebuf[linebuf_len - 1] = '\0'; } #ifdef DEBUG_PASSWORD DEBUG(100, ("mod_smbfilepwd_entry: got line |%s|\n", linebuf)); #endif if ((linebuf[0] == 0) && feof(fp)) { DEBUG(4, ("mod_smbfilepwd_entry: end of file reached\n")); break; } /* * The line we have should be of the form :- * * username:uid:[32hex bytes]:....other flags presently * ignored.... * * or, * * username:uid:[32hex bytes]:[32hex bytes]:[attributes]:LCT-XXXXXXXX:...ignored. * * if Windows NT compatible passwords are also present. */ if (linebuf[0] == '#' || linebuf[0] == '\0') { DEBUG(6, ("mod_smbfilepwd_entry: skipping comment or blank line\n")); continue; } p = (unsigned char *) strchr_m(linebuf, ':'); if (p == NULL) { DEBUG(0, ("mod_smbfilepwd_entry: malformed password entry (no :)\n")); continue; } /* * As 256 is shorter than a pstring we don't need to check * length here - if this ever changes.... */ SMB_ASSERT(sizeof(user_name) > sizeof(linebuf)); strncpy(user_name, linebuf, PTR_DIFF(p, linebuf)); user_name[PTR_DIFF(p, linebuf)] = '\0'; if (strequal(user_name, pwd->smb_name)) { found_entry = True; break; } } if (!found_entry) { pw_file_unlock(lockfd, &(smbpasswd_state->pw_file_lock_depth)); fclose(fp); DEBUG(2, ("Cannot update entry for user %s, as they don't exist in the smbpasswd file!\n", pwd->smb_name)); return False; } DEBUG(6, ("mod_smbfilepwd_entry: entry exists\n")); /* User name matches - get uid and password */ p++; /* Go past ':' */ if (!isdigit(*p)) { DEBUG(0, ("mod_smbfilepwd_entry: malformed password entry (uid not number)\n")); pw_file_unlock(lockfd, &(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return False; } while (*p && isdigit(*p)) p++; if (*p != ':') { DEBUG(0, ("mod_smbfilepwd_entry: malformed password entry (no : after uid)\n")); pw_file_unlock(lockfd, &(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return False; } /* * Now get the password value - this should be 32 hex digits * which are the ascii representations of a 16 byte string. * Get two at a time and put them into the password. */ p++; /* Record exact password position */ pwd_seekpos += PTR_DIFF(p, linebuf); if (linebuf_len < (PTR_DIFF(p, linebuf) + 33)) { DEBUG(0, ("mod_smbfilepwd_entry: malformed password entry (passwd too short)\n")); pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return (False); } if (p[32] != ':') { DEBUG(0, ("mod_smbfilepwd_entry: malformed password entry (no terminating :)\n")); pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return False; } /* Now check if the NT compatible password is available. */ p += 33; /* Move to the first character of the line after the lanman password. */ if (linebuf_len < (PTR_DIFF(p, linebuf) + 33)) { DEBUG(0, ("mod_smbfilepwd_entry: malformed password entry (passwd too short)\n")); pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return (False); } if (p[32] != ':') { DEBUG(0, ("mod_smbfilepwd_entry: malformed password entry (no terminating :)\n")); pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return False; } /* * Now check if the account info and the password last * change time is available. */ p += 33; /* Move to the first character of the line after the NT password. */ if (*p == '[') { i = 0; encode_bits[i++] = *p++; while((linebuf_len > PTR_DIFF(p, linebuf)) && (*p != ']')) encode_bits[i++] = *p++; encode_bits[i++] = ']'; encode_bits[i++] = '\0'; if(i == NEW_PW_FORMAT_SPACE_PADDED_LEN) { /* * We are using a new format, space padded * acct ctrl field. Encode the given acct ctrl * bits into it. */ fstrcpy(encode_bits, pdb_encode_acct_ctrl(pwd->acct_ctrl, NEW_PW_FORMAT_SPACE_PADDED_LEN)); } else { DEBUG(0,("mod_smbfilepwd_entry: Using old smbpasswd format. This is no longer supported.!\n")); DEBUG(0,("mod_smbfilepwd_entry: No changes made, failing.!\n")); return False; } /* Go past the ']' */ if(linebuf_len > PTR_DIFF(p, linebuf)) p++; if((linebuf_len > PTR_DIFF(p, linebuf)) && (*p == ':')) { p++; /* We should be pointing at the LCT entry. */ if((linebuf_len > (PTR_DIFF(p, linebuf) + 13)) && (StrnCaseCmp((char *)p, "LCT-", 4) == 0)) { p += 4; for(i = 0; i < 8; i++) { if(p[i] == '\0' || !isxdigit(p[i])) break; } if(i == 8) { /* * p points at 8 characters of hex digits - * read into a time_t as the seconds since * 1970 that the password was last changed. */ got_pass_last_set_time = True; } /* i == 8 */ } /* *p && StrnCaseCmp() */ } /* p == ':' */ } /* p == '[' */ /* Entry is correctly formed. */ /* Create the 32 byte representation of the new p16 */ pdb_sethexpwd(ascii_p16, pwd->smb_passwd, pwd->acct_ctrl); /* Add on the NT md4 hash */ ascii_p16[32] = ':'; wr_len = 66; pdb_sethexpwd(ascii_p16+33, pwd->smb_nt_passwd, pwd->acct_ctrl); ascii_p16[65] = ':'; ascii_p16[66] = '\0'; /* null-terminate the string so that strlen works */ /* Add on the account info bits and the time of last password change. */ if(got_pass_last_set_time) { slprintf(&ascii_p16[strlen(ascii_p16)], sizeof(ascii_p16)-(strlen(ascii_p16)+1), "%s:LCT-%08X:", encode_bits, (uint32)pwd->pass_last_set_time ); wr_len = strlen(ascii_p16); } #ifdef DEBUG_PASSWORD DEBUG(100,("mod_smbfilepwd_entry: ")); dump_data(100, ascii_p16, wr_len); #endif if(wr_len > sizeof(linebuf)) { DEBUG(0, ("mod_smbfilepwd_entry: line to write (%d) is too long.\n", wr_len+1)); pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return (False); } /* * Do an atomic write into the file at the position defined by * seekpos. */ /* The mod user write needs to be atomic - so get the fd from the fp and do a raw write() call. */ fd = fileno(fp); if (sys_lseek(fd, pwd_seekpos - 1, SEEK_SET) != pwd_seekpos - 1) { DEBUG(0, ("mod_smbfilepwd_entry: seek fail on file %s.\n", pfile)); pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return False; } /* Sanity check - ensure the areas we are writing are framed by ':' */ if (read(fd, linebuf, wr_len+1) != wr_len+1) { DEBUG(0, ("mod_smbfilepwd_entry: read fail on file %s.\n", pfile)); pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return False; } if ((linebuf[0] != ':') || (linebuf[wr_len] != ':')) { DEBUG(0, ("mod_smbfilepwd_entry: check on passwd file %s failed.\n", pfile)); pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return False; } if (sys_lseek(fd, pwd_seekpos, SEEK_SET) != pwd_seekpos) { DEBUG(0, ("mod_smbfilepwd_entry: seek fail on file %s.\n", pfile)); pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return False; } if (write(fd, ascii_p16, wr_len) != wr_len) { DEBUG(0, ("mod_smbfilepwd_entry: write failed in passwd file %s\n", pfile)); pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return False; } pw_file_unlock(lockfd,&(smbpasswd_state->pw_file_lock_depth)); fclose(fp); return True; } /************************************************************************ Routine to delete an entry in the smbpasswd file by name. *************************************************************************/ static BOOL del_smbfilepwd_entry(struct smbpasswd_privates *smbpasswd_state, const char *name) { const char *pfile = smbpasswd_state->smbpasswd_file; pstring pfile2; struct smb_passwd *pwd = NULL; FILE *fp = NULL; FILE *fp_write = NULL; int pfile2_lockdepth = 0; slprintf(pfile2, sizeof(pfile2)-1, "%s.%u", pfile, (unsigned)sys_getpid() ); /* * Open the smbpassword file - for update. It needs to be update * as we need any other processes to wait until we have replaced * it. */ if((fp = startsmbfilepwent(pfile, PWF_UPDATE, &(smbpasswd_state->pw_file_lock_depth))) == NULL) { DEBUG(0, ("del_smbfilepwd_entry: unable to open file %s.\n", pfile)); return False; } /* * Create the replacement password file. */ if((fp_write = startsmbfilepwent(pfile2, PWF_CREATE, &pfile2_lockdepth)) == NULL) { DEBUG(0, ("del_smbfilepwd_entry: unable to open file %s.\n", pfile)); endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); return False; } /* * Scan the file, a line at a time and check if the name matches. */ while ((pwd = getsmbfilepwent(smbpasswd_state, fp)) != NULL) { char *new_entry; size_t new_entry_length; if (strequal(name, pwd->smb_name)) { DEBUG(10, ("add_smbfilepwd_entry: found entry with name %s - deleting it.\n", name)); continue; } /* * We need to copy the entry out into the second file. */ if((new_entry = format_new_smbpasswd_entry(pwd)) == NULL) { DEBUG(0, ("del_smbfilepwd_entry(malloc): Failed to copy entry for user %s to file %s. \ Error was %s\n", pwd->smb_name, pfile2, strerror(errno))); unlink(pfile2); endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); endsmbfilepwent(fp_write, &pfile2_lockdepth); return False; } new_entry_length = strlen(new_entry); if(fwrite(new_entry, 1, new_entry_length, fp_write) != new_entry_length) { DEBUG(0, ("del_smbfilepwd_entry(write): Failed to copy entry for user %s to file %s. \ Error was %s\n", pwd->smb_name, pfile2, strerror(errno))); unlink(pfile2); endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); endsmbfilepwent(fp_write, &pfile2_lockdepth); free(new_entry); return False; } free(new_entry); } /* * Ensure pfile2 is flushed before rename. */ if(fflush(fp_write) != 0) { DEBUG(0, ("del_smbfilepwd_entry: Failed to flush file %s. Error was %s\n", pfile2, strerror(errno))); endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); endsmbfilepwent(fp_write,&pfile2_lockdepth); return False; } /* * Do an atomic rename - then release the locks. */ if(rename(pfile2,pfile) != 0) { unlink(pfile2); } endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); endsmbfilepwent(fp_write,&pfile2_lockdepth); return True; } /********************************************************************* Create a smb_passwd struct from a SAM_ACCOUNT. We will not allocate any new memory. The smb_passwd struct should only stay around as long as the SAM_ACCOUNT does. ********************************************************************/ static BOOL build_smb_pass (struct smb_passwd *smb_pw, const SAM_ACCOUNT *sampass) { uid_t uid; if (sampass == NULL) return False; ZERO_STRUCTP(smb_pw); if (!IS_SAM_UNIX_USER(sampass)) { smb_pw->smb_userid_set = False; DEBUG(5,("build_smb_pass: storing user without a UNIX uid or gid. \n")); } else { uint32 rid = pdb_get_user_rid(sampass); smb_pw->smb_userid_set = True; uid = pdb_get_uid(sampass); /* If the user specified a RID, make sure its able to be both stored and retreived */ if (rid && uid != fallback_pdb_user_rid_to_uid(rid)) { DEBUG(0,("build_sam_pass: Failing attempt to store user with non-uid based user RID. \n")); return False; } smb_pw->smb_userid=uid; } smb_pw->smb_name=(const char*)pdb_get_username(sampass); smb_pw->smb_passwd=pdb_get_lanman_passwd(sampass); smb_pw->smb_nt_passwd=pdb_get_nt_passwd(sampass); smb_pw->acct_ctrl=pdb_get_acct_ctrl(sampass); smb_pw->pass_last_set_time=pdb_get_pass_last_set_time(sampass); #if 0 /* * ifdef'out by JFM on 11/29/2001. * this assertion is no longer valid * and I don't understand the goal * and doing the same thing with the group mapping code * is hairy ! * * We just have the RID, in which SID is it valid ? * our domain SID ? well known SID ? local SID ? */ if (gid != pdb_group_rid_to_gid(pdb_get_group_rid(sampass))) { DEBUG(0,("build_sam_pass: Failing attempt to store user with non-gid based primary group RID. \n")); DEBUG(0,("build_sam_pass: %d %d %d. \n", *gid, pdb_group_rid_to_gid(pdb_get_group_rid(sampass)), pdb_get_group_rid(sampass))); return False; } #endif return True; } /********************************************************************* Create a SAM_ACCOUNT from a smb_passwd struct ********************************************************************/ static BOOL build_sam_account(struct smbpasswd_privates *smbpasswd_state, SAM_ACCOUNT *sam_pass, const struct smb_passwd *pw_buf) { struct passwd *pwfile; if (sam_pass==NULL) { DEBUG(5,("build_sam_account: SAM_ACCOUNT is NULL\n")); return False; } if ((smbpasswd_state->permit_non_unix_accounts) && (pw_buf->smb_userid >= smbpasswd_state->low_nua_userid) && (pw_buf->smb_userid <= smbpasswd_state->high_nua_userid)) { pdb_set_user_sid_from_rid(sam_pass, fallback_pdb_uid_to_user_rid (pw_buf->smb_userid)); /* lkclXXXX this is OBSERVED behaviour by NT PDCs, enforced here. This was down the bottom for machines, but it looks pretty good as a general default for non-unix users. --abartlet 2002-01-08 */ pdb_set_group_sid_from_rid (sam_pass, DOMAIN_GROUP_RID_USERS); pdb_set_username (sam_pass, pw_buf->smb_name); pdb_set_domain (sam_pass, lp_workgroup()); } else { pwfile = getpwnam_alloc(pw_buf->smb_name); if (pwfile == NULL) { DEBUG(0,("build_sam_account: smbpasswd database is corrupt! username %s with uid %u is not in unix passwd database!\n", pw_buf->smb_name, pw_buf->smb_userid)); return False; } if (!NT_STATUS_IS_OK(pdb_fill_sam_pw(sam_pass, pwfile))) { return False; } passwd_free(&pwfile); } pdb_set_nt_passwd (sam_pass, pw_buf->smb_nt_passwd); pdb_set_lanman_passwd (sam_pass, pw_buf->smb_passwd); pdb_set_acct_ctrl (sam_pass, pw_buf->acct_ctrl); pdb_set_pass_last_set_time (sam_pass, pw_buf->pass_last_set_time); pdb_set_pass_can_change_time (sam_pass, pw_buf->pass_last_set_time, True); #if 0 /* JERRY */ /* the smbpasswd format doesn't have a must change time field, so we can't get this right. The best we can do is to set this to some time in the future. 21 days seems as reasonable as any other value :) */ pdb_set_pass_must_change_time (sam_pass, pw_buf->pass_last_set_time + MAX_PASSWORD_AGE); #endif return True; } /***************************************************************** Functions to be implemented by the new passdb API ****************************************************************/ static BOOL smbpasswd_setsampwent (struct pdb_methods *my_methods, BOOL update) { struct smbpasswd_privates *smbpasswd_state = (struct smbpasswd_privates*)my_methods->private_data; smbpasswd_state->pw_file = startsmbfilepwent(smbpasswd_state->smbpasswd_file, update ? PWF_UPDATE : PWF_READ, &(smbpasswd_state->pw_file_lock_depth)); /* did we fail? Should we try to create it? */ if (!smbpasswd_state->pw_file && update && errno == ENOENT) { FILE *fp; /* slprintf(msg_str,msg_str_len-1, "smbpasswd file did not exist - attempting to create it.\n"); */ DEBUG(0,("smbpasswd file did not exist - attempting to create it.\n")); fp = sys_fopen(smbpasswd_state->smbpasswd_file, "w"); if (fp) { fprintf(fp, "# Samba SMB password file\n"); fclose(fp); } smbpasswd_state->pw_file = startsmbfilepwent(smbpasswd_state->smbpasswd_file, update ? PWF_UPDATE : PWF_READ, &(smbpasswd_state->pw_file_lock_depth)); } return (smbpasswd_state->pw_file != NULL); } static void smbpasswd_endsampwent (struct pdb_methods *my_methods) { struct smbpasswd_privates *smbpasswd_state = (struct smbpasswd_privates*)my_methods->private_data; endsmbfilepwent(smbpasswd_state->pw_file, &(smbpasswd_state->pw_file_lock_depth)); } /***************************************************************** ****************************************************************/ static BOOL smbpasswd_getsampwent(struct pdb_methods *my_methods, SAM_ACCOUNT *user) { struct smbpasswd_privates *smbpasswd_state = (struct smbpasswd_privates*)my_methods->private_data; struct smb_passwd *pw_buf=NULL; BOOL done = False; DEBUG(5,("pdb_getsampwent\n")); if (user==NULL) { DEBUG(5,("pdb_getsampwent (smbpasswd): user is NULL\n")); #if 0 smb_panic("NULL pointer passed to getsampwent (smbpasswd)\n"); #endif return False; } while (!done) { /* do we have an entry? */ pw_buf = getsmbfilepwent(smbpasswd_state, smbpasswd_state->pw_file); if (pw_buf == NULL) return False; /* build the SAM_ACCOUNT entry from the smb_passwd struct. We loop in case the user in the pdb does not exist in the local system password file */ if (build_sam_account(smbpasswd_state, user, pw_buf)) done = True; } DEBUG(5,("getsampwent (smbpasswd): done\n")); /* success */ return True; } /**************************************************************** Search smbpasswd file by iterating over the entries. Do not call getpwnam() for unix account information until we have found the correct entry ***************************************************************/ static BOOL smbpasswd_getsampwnam(struct pdb_methods *my_methods, SAM_ACCOUNT *sam_acct, const char *username) { struct smbpasswd_privates *smbpasswd_state = (struct smbpasswd_privates*)my_methods->private_data; struct smb_passwd *smb_pw; void *fp = NULL; DEBUG(10, ("getsampwnam (smbpasswd): search by name: %s\n", username)); /* startsmbfilepwent() is used here as we don't want to lookup the UNIX account in the local system password file until we have a match. */ fp = startsmbfilepwent(smbpasswd_state->smbpasswd_file, PWF_READ, &(smbpasswd_state->pw_file_lock_depth)); if (fp == NULL) { DEBUG(0, ("unable to open passdb database.\n")); return False; } while ( ((smb_pw=getsmbfilepwent(smbpasswd_state, fp)) != NULL)&& (!strequal(smb_pw->smb_name, username)) ) /* do nothing....another loop */ ; endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); /* did we locate the username in smbpasswd */ if (smb_pw == NULL) return False; DEBUG(10, ("getsampwnam (smbpasswd): found by name: %s\n", smb_pw->smb_name)); if (!sam_acct) { DEBUG(10,("getsampwnam (smbpasswd): SAM_ACCOUNT is NULL\n")); #if 0 smb_panic("NULL pointer passed to pdb_getsampwnam\n"); #endif return False; } /* now build the SAM_ACCOUNT */ if (!build_sam_account(smbpasswd_state, sam_acct, smb_pw)) return False; /* success */ return True; } static BOOL smbpasswd_getsampwrid(struct pdb_methods *my_methods, SAM_ACCOUNT *sam_acct,uint32 rid) { struct smbpasswd_privates *smbpasswd_state = (struct smbpasswd_privates*)my_methods->private_data; struct smb_passwd *smb_pw; void *fp = NULL; DEBUG(10, ("pdb_getsampwrid: search by rid: %d\n", rid)); /* Open the sam password file - not for update. */ fp = startsmbfilepwent(smbpasswd_state->smbpasswd_file, PWF_READ, &(smbpasswd_state->pw_file_lock_depth)); if (fp == NULL) { DEBUG(0, ("unable to open passdb database.\n")); return False; } while ( ((smb_pw=getsmbfilepwent(smbpasswd_state, fp)) != NULL) && (fallback_pdb_uid_to_user_rid(smb_pw->smb_userid) != rid) ) /* do nothing */ ; endsmbfilepwent(fp, &(smbpasswd_state->pw_file_lock_depth)); /* did we locate the username in smbpasswd */ if (smb_pw == NULL) return False; DEBUG(10, ("getsampwrid (smbpasswd): found by name: %s\n", smb_pw->smb_name)); if (!sam_acct) { DEBUG(10,("getsampwrid: (smbpasswd) SAM_ACCOUNT is NULL\n")); #if 0 smb_panic("NULL pointer passed to pdb_getsampwrid\n"); #endif return False; } /* now build the SAM_ACCOUNT */ if (!build_sam_account (smbpasswd_state, sam_acct, smb_pw)) return False; /* success */ return True; } static BOOL smbpasswd_getsampwsid(struct pdb_methods *my_methods, SAM_ACCOUNT * user, DOM_SID *sid) { uint32 rid; if (!sid_peek_check_rid(get_global_sam_sid(), sid, &rid)) return False; return smbpasswd_getsampwrid(my_methods, user, rid); } static BOOL smbpasswd_add_sam_account(struct pdb_methods *my_methods, SAM_ACCOUNT *sampass) { struct smbpasswd_privates *smbpasswd_state = (struct smbpasswd_privates*)my_methods->private_data; struct smb_passwd smb_pw; /* convert the SAM_ACCOUNT */ if (!build_smb_pass(&smb_pw, sampass)) { return False; } /* add the entry */ if(!add_smbfilepwd_entry(smbpasswd_state, &smb_pw)) { return False; } return True; } static BOOL smbpasswd_update_sam_account(struct pdb_methods *my_methods, SAM_ACCOUNT *sampass) { struct smbpasswd_privates *smbpasswd_state = (struct smbpasswd_privates*)my_methods->private_data; struct smb_passwd smb_pw; /* convert the SAM_ACCOUNT */ if (!build_smb_pass(&smb_pw, sampass)) { DEBUG(0, ("smbpasswd_update_sam_account: build_smb_pass failed!\n")); return False; } /* update the entry */ if(!mod_smbfilepwd_entry(smbpasswd_state, &smb_pw)) { DEBUG(0, ("smbpasswd_update_sam_account: mod_smbfilepwd_entry failed!\n")); return False; } return True; } static BOOL smbpasswd_delete_sam_account (struct pdb_methods *my_methods, SAM_ACCOUNT *sampass) { struct smbpasswd_privates *smbpasswd_state = (struct smbpasswd_privates*)my_methods->private_data; const char *username = pdb_get_username(sampass); return del_smbfilepwd_entry(smbpasswd_state, username); } static void free_private_data(void **vp) { struct smbpasswd_privates **privates = (struct smbpasswd_privates**)vp; endsmbfilepwent((*privates)->pw_file, &((*privates)->pw_file_lock_depth)); *privates = NULL; /* No need to free any further, as it is talloc()ed */ } NTSTATUS pdb_init_smbpasswd(PDB_CONTEXT *pdb_context, PDB_METHODS **pdb_method, const char *location) { NTSTATUS nt_status; struct smbpasswd_privates *privates; if (!NT_STATUS_IS_OK(nt_status = make_pdb_methods(pdb_context->mem_ctx, pdb_method))) { return nt_status; } (*pdb_method)->name = "smbpasswd"; (*pdb_method)->setsampwent = smbpasswd_setsampwent; (*pdb_method)->endsampwent = smbpasswd_endsampwent; (*pdb_method)->getsampwent = smbpasswd_getsampwent; (*pdb_method)->getsampwnam = smbpasswd_getsampwnam; (*pdb_method)->getsampwsid = smbpasswd_getsampwsid; (*pdb_method)->add_sam_account = smbpasswd_add_sam_account; (*pdb_method)->update_sam_account = smbpasswd_update_sam_account; (*pdb_method)->delete_sam_account = smbpasswd_delete_sam_account; /* Setup private data and free function */ privates = talloc_zero(pdb_context->mem_ctx, sizeof(struct smbpasswd_privates)); if (!privates) { DEBUG(0, ("talloc() failed for smbpasswd private_data!\n")); return NT_STATUS_NO_MEMORY; } /* Store some config details */ if (location) { privates->smbpasswd_file = talloc_strdup(pdb_context->mem_ctx, location); } else { privates->smbpasswd_file = talloc_strdup(pdb_context->mem_ctx, lp_smb_passwd_file()); } if (!privates->smbpasswd_file) { DEBUG(0, ("talloc_strdp() failed for storing smbpasswd location!\n")); return NT_STATUS_NO_MEMORY; } (*pdb_method)->private_data = privates; (*pdb_method)->free_private_data = free_private_data; return NT_STATUS_OK; } NTSTATUS pdb_init_smbpasswd_nua(PDB_CONTEXT *pdb_context, PDB_METHODS **pdb_method, const char *location) { NTSTATUS nt_status; struct smbpasswd_privates *privates; if (!NT_STATUS_IS_OK(nt_status = pdb_init_smbpasswd(pdb_context, pdb_method, location))) { return nt_status; } (*pdb_method)->name = "smbpasswd_nua"; privates = (*pdb_method)->private_data; privates->permit_non_unix_accounts = True; if (!lp_non_unix_account_range(&privates->low_nua_userid, &privates->high_nua_userid)) { DEBUG(0, ("cannot use smbpasswd_nua without 'non unix account range' in smb.conf!\n")); return NT_STATUS_UNSUCCESSFUL; } return NT_STATUS_OK; }