/* Unix SMB/Netbios implementation. Version 1.9. Main SMB server routines Copyright (C) Andrew Tridgell 1992-1997 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" #include "trans2.h" pstring servicesf = CONFIGFILE; extern pstring debugf; extern pstring sesssetup_user; extern fstring myworkgroup; char *InBuffer = NULL; char *OutBuffer = NULL; char *last_inbuf = NULL; int am_parent = 1; int atexit_set = 0; /* the last message the was processed */ int last_message = -1; /* a useful macro to debug the last message processed */ #define LAST_MESSAGE() smb_fn_name(last_message) extern pstring scope; extern int DEBUGLEVEL; extern int case_default; extern BOOL case_sensitive; extern BOOL case_preserve; extern BOOL use_mangled_map; extern BOOL short_case_preserve; extern BOOL case_mangle; time_t smb_last_time=(time_t)0; extern int smb_read_error; extern pstring user_socket_options; connection_struct Connections[MAX_CONNECTIONS]; files_struct Files[MAX_OPEN_FILES]; /* * Indirection for file fd's. Needed as POSIX locking * is based on file/process, not fd/process. */ file_fd_struct FileFd[MAX_OPEN_FILES]; int max_file_fd_used = 0; extern int Protocol; /* * Size of data we can send to client. Set * by the client for all protocols above CORE. * Set by us for CORE protocol. */ int max_send = BUFFER_SIZE; /* * Size of the data we can receive. Set by us. * Can be modified by the max xmit parameter. */ int max_recv = BUFFER_SIZE; /* a fnum to use when chaining */ int chain_fnum = -1; /* number of open connections */ static int num_connections_open = 0; /* Oplock ipc UDP socket. */ int oplock_sock = -1; uint16 oplock_port = 0; /* Current number of oplocks we have outstanding. */ int32 global_oplocks_open = 0; BOOL global_oplock_break = False; extern fstring remote_machine; extern pstring OriginalDir; /* these can be set by some functions to override the error codes */ int unix_ERR_class=SUCCESS; int unix_ERR_code=0; extern int extra_time_offset; extern pstring myhostname; static int find_free_connection(int hash); /* for readability... */ #define IS_DOS_READONLY(test_mode) (((test_mode) & aRONLY) != 0) #define IS_DOS_DIR(test_mode) (((test_mode) & aDIR) != 0) #define IS_DOS_ARCHIVE(test_mode) (((test_mode) & aARCH) != 0) #define IS_DOS_SYSTEM(test_mode) (((test_mode) & aSYSTEM) != 0) #define IS_DOS_HIDDEN(test_mode) (((test_mode) & aHIDDEN) != 0) /**************************************************************************** when exiting, take the whole family ****************************************************************************/ void *dflt_sig(void) { exit_server("caught signal"); return 0; /* Keep -Wall happy :-) */ } /**************************************************************************** Send a SIGTERM to our process group. *****************************************************************************/ void killkids(void) { if(am_parent) kill(0,SIGTERM); } /**************************************************************************** change a dos mode to a unix mode base permission for files: everybody gets read bit set dos readonly is represented in unix by removing everyone's write bit dos archive is represented in unix by the user's execute bit dos system is represented in unix by the group's execute bit dos hidden is represented in unix by the other's execute bit Then apply create mask, then add force bits. base permission for directories: dos directory is represented in unix by unix's dir bit and the exec bit Then apply create mask, then add force bits. ****************************************************************************/ mode_t unix_mode(int cnum,int dosmode) { mode_t result = (S_IRUSR | S_IRGRP | S_IROTH); if ( !IS_DOS_READONLY(dosmode) ) result |= (S_IWUSR | S_IWGRP | S_IWOTH); if (IS_DOS_DIR(dosmode)) { /* We never make directories read only for the owner as under DOS a user can always create a file in a read-only directory. */ result |= (S_IFDIR | S_IXUSR | S_IXGRP | S_IXOTH | S_IWUSR); /* Apply directory mask */ result &= lp_dir_mode(SNUM(cnum)); /* Add in force bits */ result |= lp_force_dir_mode(SNUM(cnum)); } else { if (MAP_ARCHIVE(cnum) && IS_DOS_ARCHIVE(dosmode)) result |= S_IXUSR; if (MAP_SYSTEM(cnum) && IS_DOS_SYSTEM(dosmode)) result |= S_IXGRP; if (MAP_HIDDEN(cnum) && IS_DOS_HIDDEN(dosmode)) result |= S_IXOTH; /* Apply mode mask */ result &= lp_create_mode(SNUM(cnum)); /* Add in force bits */ result |= lp_force_create_mode(SNUM(cnum)); } return(result); } /**************************************************************************** change a unix mode to a dos mode ****************************************************************************/ int dos_mode(int cnum,char *path,struct stat *sbuf) { int result = 0; extern struct current_user current_user; DEBUG(8,("dos_mode: %d %s\n", cnum, path)); if (CAN_WRITE(cnum) && !lp_alternate_permissions(SNUM(cnum))) { if (!((sbuf->st_mode & S_IWOTH) || Connections[cnum].admin_user || ((sbuf->st_mode & S_IWUSR) && current_user.uid==sbuf->st_uid) || ((sbuf->st_mode & S_IWGRP) && in_group(sbuf->st_gid,current_user.gid, current_user.ngroups,current_user.igroups)))) result |= aRONLY; } else { if ((sbuf->st_mode & S_IWUSR) == 0) result |= aRONLY; } if (MAP_ARCHIVE(cnum) && ((sbuf->st_mode & S_IXUSR) != 0)) result |= aARCH; if (MAP_SYSTEM(cnum) && ((sbuf->st_mode & S_IXGRP) != 0)) result |= aSYSTEM; if (MAP_HIDDEN(cnum) && ((sbuf->st_mode & S_IXOTH) != 0)) result |= aHIDDEN; if (S_ISDIR(sbuf->st_mode)) result = aDIR | (result & aRONLY); #ifdef S_ISLNK #if LINKS_READ_ONLY if (S_ISLNK(sbuf->st_mode) && S_ISDIR(sbuf->st_mode)) result |= aRONLY; #endif #endif /* hide files with a name starting with a . */ if (lp_hide_dot_files(SNUM(cnum))) { char *p = strrchr(path,'/'); if (p) p++; else p = path; if (p[0] == '.' && p[1] != '.' && p[1] != 0) result |= aHIDDEN; } /* Optimization : Only call is_hidden_path if it's not already hidden. */ if (!(result & aHIDDEN) && IS_HIDDEN_PATH(cnum,path)) { result |= aHIDDEN; } DEBUG(8,("dos_mode returning ")); if (result & aHIDDEN) DEBUG(8, ("h")); if (result & aRONLY ) DEBUG(8, ("r")); if (result & aSYSTEM) DEBUG(8, ("s")); if (result & aDIR ) DEBUG(8, ("d")); if (result & aARCH ) DEBUG(8, ("a")); DEBUG(8,("\n")); return(result); } /******************************************************************* chmod a file - but preserve some bits ********************************************************************/ int dos_chmod(int cnum,char *fname,int dosmode,struct stat *st) { struct stat st1; int mask=0; int tmp; int unixmode; if (!st) { st = &st1; if (sys_stat(fname,st)) return(-1); } if (S_ISDIR(st->st_mode)) dosmode |= aDIR; if (dos_mode(cnum,fname,st) == dosmode) return(0); unixmode = unix_mode(cnum,dosmode); /* preserve the s bits */ mask |= (S_ISUID | S_ISGID); /* preserve the t bit */ #ifdef S_ISVTX mask |= S_ISVTX; #endif /* possibly preserve the x bits */ if (!MAP_ARCHIVE(cnum)) mask |= S_IXUSR; if (!MAP_SYSTEM(cnum)) mask |= S_IXGRP; if (!MAP_HIDDEN(cnum)) mask |= S_IXOTH; unixmode |= (st->st_mode & mask); /* if we previously had any r bits set then leave them alone */ if ((tmp = st->st_mode & (S_IRUSR|S_IRGRP|S_IROTH))) { unixmode &= ~(S_IRUSR|S_IRGRP|S_IROTH); unixmode |= tmp; } /* if we previously had any w bits set then leave them alone if the new mode is not rdonly */ if (!IS_DOS_READONLY(dosmode) && (tmp = st->st_mode & (S_IWUSR|S_IWGRP|S_IWOTH))) { unixmode &= ~(S_IWUSR|S_IWGRP|S_IWOTH); unixmode |= tmp; } return(sys_chmod(fname,unixmode)); } /******************************************************************* Wrapper around sys_utime that possibly allows DOS semantics rather than POSIX. *******************************************************************/ int file_utime(int cnum, char *fname, struct utimbuf *times) { extern struct current_user current_user; struct stat sb; int ret = -1; errno = 0; if(sys_utime(fname, times) == 0) return 0; if((errno != EPERM) && (errno != EACCES)) return -1; if(!lp_dos_filetimes(SNUM(cnum))) return -1; /* We have permission (given by the Samba admin) to break POSIX semantics and allow a user to change the time on a file they don't own but can write to (as DOS does). */ if(sys_stat(fname,&sb) != 0) return -1; /* Check if we have write access. */ if (CAN_WRITE(cnum)) { if (((sb.st_mode & S_IWOTH) || Connections[cnum].admin_user || ((sb.st_mode & S_IWUSR) && current_user.uid==sb.st_uid) || ((sb.st_mode & S_IWGRP) && in_group(sb.st_gid,current_user.gid, current_user.ngroups,current_user.igroups)))) { /* We are allowed to become root and change the filetime. */ become_root(False); ret = sys_utime(fname, times); unbecome_root(False); } } return ret; } /******************************************************************* Change a filetime - possibly allowing DOS semantics. *******************************************************************/ BOOL set_filetime(int cnum, char *fname, time_t mtime) { struct utimbuf times; if (null_mtime(mtime)) return(True); times.modtime = times.actime = mtime; if (file_utime(cnum, fname, ×)) { DEBUG(4,("set_filetime(%s) failed: %s\n",fname,strerror(errno))); } return(True); } /**************************************************************************** check if two filenames are equal this needs to be careful about whether we are case sensitive ****************************************************************************/ static BOOL fname_equal(char *name1, char *name2) { int l1 = strlen(name1); int l2 = strlen(name2); /* handle filenames ending in a single dot */ if (l1-l2 == 1 && name1[l1-1] == '.' && lp_strip_dot()) { BOOL ret; name1[l1-1] = 0; ret = fname_equal(name1,name2); name1[l1-1] = '.'; return(ret); } if (l2-l1 == 1 && name2[l2-1] == '.' && lp_strip_dot()) { BOOL ret; name2[l2-1] = 0; ret = fname_equal(name1,name2); name2[l2-1] = '.'; return(ret); } /* now normal filename handling */ if (case_sensitive) return(strcmp(name1,name2) == 0); return(strequal(name1,name2)); } /**************************************************************************** mangle the 2nd name and check if it is then equal to the first name ****************************************************************************/ static BOOL mangled_equal(char *name1, char *name2) { pstring tmpname; if (is_8_3(name2, True)) return(False); strcpy(tmpname,name2); mangle_name_83(tmpname); return(strequal(name1,tmpname)); } /**************************************************************************** scan a directory to find a filename, matching without case sensitivity If the name looks like a mangled name then try via the mangling functions ****************************************************************************/ static BOOL scan_directory(char *path, char *name,int cnum,BOOL docache) { void *cur_dir; char *dname; BOOL mangled; pstring name2; mangled = is_mangled(name); /* handle null paths */ if (*path == 0) path = "."; if (docache && (dname = DirCacheCheck(path,name,SNUM(cnum)))) { strcpy(name, dname); return(True); } if (mangled) check_mangled_stack(name); /* open the directory */ if (!(cur_dir = OpenDir(cnum, path, True))) { DEBUG(3,("scan dir didn't open dir [%s]\n",path)); return(False); } /* now scan for matching names */ while ((dname = ReadDirName(cur_dir))) { if (*dname == '.' && (strequal(dname,".") || strequal(dname,".."))) continue; pstrcpy(name2,dname); if (!name_map_mangle(name2,False,SNUM(cnum))) continue; if ((mangled && mangled_equal(name,name2)) || fname_equal(name, name2)) /* name2 here was changed to dname - since 1.9.16p2 - not sure of reason (jra) */ { /* we've found the file, change it's name and return */ if (docache) DirCacheAdd(path,name,dname,SNUM(cnum)); strcpy(name, dname); CloseDir(cur_dir); return(True); } } CloseDir(cur_dir); return(False); } /**************************************************************************** This routine is called to convert names from the dos namespace to unix namespace. It needs to handle any case conversions, mangling, format changes etc. We assume that we have already done a chdir() to the right "root" directory for this service. The function will return False if some part of the name except for the last part cannot be resolved If the saved_last_component != 0, then the unmodified last component of the pathname is returned there. This is used in an exceptional case in reply_mv (so far). If saved_last_component == 0 then nothing is returned there. The bad_path arg is set to True if the filename walk failed. This is used to pick the correct error code to return between ENOENT and ENOTDIR as Windows applications depend on ERRbadpath being returned if a component of a pathname does not exist. ****************************************************************************/ BOOL unix_convert(char *name,int cnum,pstring saved_last_component, BOOL *bad_path) { struct stat st; char *start, *end; pstring dirpath; int saved_errno; *dirpath = 0; *bad_path = False; if(saved_last_component) *saved_last_component = 0; /* convert to basic unix format - removing \ chars and cleaning it up */ unix_format(name); unix_clean_name(name); /* names must be relative to the root of the service - trim any leading /. also trim trailing /'s */ trim_string(name,"/","/"); /* * Ensure saved_last_component is valid even if file exists. */ if(saved_last_component) { end = strrchr(name, '/'); if(end) strcpy(saved_last_component, end + 1); else strcpy(saved_last_component, name); } if (!case_sensitive && (!case_preserve || (is_8_3(name, False) && !short_case_preserve))) strnorm(name); /* check if it's a printer file */ if (Connections[cnum].printer) { if ((! *name) || strchr(name,'/') || !is_8_3(name, True)) { char *s; fstring name2; sprintf(name2,"%.6s.XXXXXX",remote_machine); /* sanitise the name */ for (s=name2 ; *s ; s++) if (!issafe(*s)) *s = '_'; strcpy(name,(char *)mktemp(name2)); } return(True); } /* stat the name - if it exists then we are all done! */ if (sys_stat(name,&st) == 0) return(True); saved_errno = errno; DEBUG(5,("unix_convert(%s,%d)\n",name,cnum)); /* a special case - if we don't have any mangling chars and are case sensitive then searching won't help */ if (case_sensitive && !is_mangled(name) && !lp_strip_dot() && !use_mangled_map && (saved_errno != ENOENT)) return(False); /* now we need to recursively match the name against the real directory structure */ start = name; while (strncmp(start,"./",2) == 0) start += 2; /* now match each part of the path name separately, trying the names as is first, then trying to scan the directory for matching names */ for (;start;start = (end?end+1:(char *)NULL)) { /* pinpoint the end of this section of the filename */ end = strchr(start, '/'); /* chop the name at this point */ if (end) *end = 0; if(saved_last_component != 0) strcpy(saved_last_component, end ? end + 1 : start); /* check if the name exists up to this point */ if (sys_stat(name, &st) == 0) { /* it exists. it must either be a directory or this must be the last part of the path for it to be OK */ if (end && !(st.st_mode & S_IFDIR)) { /* an intermediate part of the name isn't a directory */ DEBUG(5,("Not a dir %s\n",start)); *end = '/'; return(False); } } else { pstring rest; *rest = 0; /* remember the rest of the pathname so it can be restored later */ if (end) pstrcpy(rest,end+1); /* try to find this part of the path in the directory */ if (strchr(start,'?') || strchr(start,'*') || !scan_directory(dirpath, start, cnum, end?True:False)) { if (end) { /* an intermediate part of the name can't be found */ DEBUG(5,("Intermediate not found %s\n",start)); *end = '/'; /* We need to return the fact that the intermediate name resolution failed. This is used to return an error of ERRbadpath rather than ERRbadfile. Some Windows applications depend on the difference between these two errors. */ *bad_path = True; return(False); } /* just the last part of the name doesn't exist */ /* we may need to strupper() or strlower() it in case this conversion is being used for file creation purposes */ /* if the filename is of mixed case then don't normalise it */ if (!case_preserve && (!strhasupper(start) || !strhaslower(start))) strnorm(start); /* check on the mangled stack to see if we can recover the base of the filename */ if (is_mangled(start)) check_mangled_stack(start); DEBUG(5,("New file %s\n",start)); return(True); } /* restore the rest of the string */ if (end) { strcpy(start+strlen(start)+1,rest); end = start + strlen(start); } } /* add to the dirpath that we have resolved so far */ if (*dirpath) strcat(dirpath,"/"); strcat(dirpath,start); /* restore the / that we wiped out earlier */ if (end) *end = '/'; } /* the name has been resolved */ DEBUG(5,("conversion finished %s\n",name)); return(True); } /**************************************************************************** normalise for DOS usage ****************************************************************************/ static void disk_norm(int *bsize,int *dfree,int *dsize) { /* check if the disk is beyond the max disk size */ int maxdisksize = lp_maxdisksize(); if (maxdisksize) { /* convert to blocks - and don't overflow */ maxdisksize = ((maxdisksize*1024)/(*bsize))*1024; if (*dsize > maxdisksize) *dsize = maxdisksize; if (*dfree > maxdisksize) *dfree = maxdisksize-1; /* the -1 should stop applications getting div by 0 errors */ } while (*dfree > WORDMAX || *dsize > WORDMAX || *bsize < 512) { *dfree /= 2; *dsize /= 2; *bsize *= 2; if (*bsize > WORDMAX ) { *bsize = WORDMAX; if (*dsize > WORDMAX) *dsize = WORDMAX; if (*dfree > WORDMAX) *dfree = WORDMAX; break; } } } /**************************************************************************** return number of 1K blocks available on a path and total number ****************************************************************************/ int disk_free(char *path,int *bsize,int *dfree,int *dsize) { char *df_command = lp_dfree_command(); int dfree_retval; #ifdef QUOTAS int dfreeq_retval; int dfreeq = 0; int bsizeq = *bsize; int dsizeq = *dsize; #endif #ifndef NO_STATFS #ifdef USE_STATVFS struct statvfs fs; #else #ifdef ULTRIX struct fs_data fs; #else struct statfs fs; #endif #endif #endif /* possibly use system() to get the result */ if (df_command && *df_command) { int ret; pstring syscmd; pstring outfile; sprintf(outfile,"%s/dfree.smb.%d",tmpdir(),(int)getpid()); sprintf(syscmd,"%s %s",df_command,path); standard_sub_basic(syscmd); ret = smbrun(syscmd,outfile,False); DEBUG(3,("Running the command `%s' gave %d\n",syscmd,ret)); { FILE *f = fopen(outfile,"r"); *dsize = 0; *dfree = 0; *bsize = 1024; if (f) { fscanf(f,"%d %d %d",dsize,dfree,bsize); fclose(f); } else DEBUG(0,("Can't open %s\n",outfile)); } unlink(outfile); disk_norm(bsize,dfree,dsize); dfree_retval = ((*bsize)/1024)*(*dfree); #ifdef QUOTAS /* Ensure we return the min value between the users quota and what's free on the disk. Thanks to Albrecht Gebhardt for this fix. */ if (disk_quotas(path, &bsizeq, &dfreeq, &dsizeq)) { disk_norm(&bsizeq, &dfreeq, &dsizeq); dfreeq_retval = ((bsizeq)/1024)*(dfreeq); dfree_retval = ( dfree_retval < dfreeq_retval ) ? dfree_retval : dfreeq_retval ; /* maybe dfree and dfreeq are calculated using different bsizes so convert dfree from bsize into bsizeq */ /* avoid overflows due to multiplication, so do not: *dfree = ((*dfree) * (*bsize)) / (bsizeq); bsize and bsizeq are powers of 2 so its better to to divide them getting a multiplication or division factor for dfree. Rene Nieuwenhuizen (07-10-1997) */ if (*bsize >= bsizeq) *dfree = *dfree * (*bsize / bsizeq); else *dfree = *dfree / (bsizeq / *bsize); *dfree = ( *dfree < dfreeq ) ? *dfree : dfreeq ; *bsize = bsizeq; *dsize = dsizeq; } #endif return(dfree_retval); } #ifdef NO_STATFS DEBUG(1,("Warning - no statfs function\n")); return(1); #else #ifdef STATFS4 if (statfs(path,&fs,sizeof(fs),0) != 0) #else #ifdef USE_STATVFS if (statvfs(path, &fs)) #else #ifdef STATFS3 if (statfs(path,&fs,sizeof(fs)) == -1) #else if (statfs(path,&fs) == -1) #endif /* STATFS3 */ #endif /* USE_STATVFS */ #endif /* STATFS4 */ { DEBUG(3,("dfree call failed code errno=%d\n",errno)); *bsize = 1024; *dfree = 1; *dsize = 1; return(((*bsize)/1024)*(*dfree)); } #ifdef ULTRIX *bsize = 1024; *dfree = fs.fd_req.bfree; *dsize = fs.fd_req.btot; #else #ifdef USE_STATVFS *bsize = fs.f_frsize; #else #ifdef USE_F_FSIZE /* eg: osf1 has f_fsize = fundamental filesystem block size, f_bsize = optimal transfer block size (MX: 94-04-19) */ *bsize = fs.f_fsize; #else *bsize = fs.f_bsize; #endif /* STATFS3 */ #endif /* USE_STATVFS */ #ifdef STATFS4 *dfree = fs.f_bfree; #else *dfree = fs.f_bavail; #endif /* STATFS4 */ *dsize = fs.f_blocks; #endif /* ULTRIX */ #if defined(SCO) || defined(ISC) || defined(MIPS) *bsize = 512; #endif /* handle rediculous bsize values - some OSes are broken */ if ((*bsize) < 512 || (*bsize)>0xFFFF) *bsize = 1024; disk_norm(bsize,dfree,dsize); if (*bsize < 256) *bsize = 512; if ((*dsize)<1) { DEBUG(0,("dfree seems to be broken on your system\n")); *dsize = 20*1024*1024/(*bsize); *dfree = MAX(1,*dfree); } dfree_retval = ((*bsize)/1024)*(*dfree); #ifdef QUOTAS /* Ensure we return the min value between the users quota and what's free on the disk. Thanks to Albrecht Gebhardt for this fix. */ if (disk_quotas(path, &bsizeq, &dfreeq, &dsizeq)) { disk_norm(&bsizeq, &dfreeq, &dsizeq); dfreeq_retval = ((bsizeq)/1024)*(dfreeq); dfree_retval = ( dfree_retval < dfreeq_retval ) ? dfree_retval : dfreeq_retval ; /* maybe dfree and dfreeq are calculated using different bsizes so convert dfree from bsize into bsizeq */ /* avoid overflows due to multiplication, so do not: *dfree = ((*dfree) * (*bsize)) / (bsizeq); bsize and bsizeq are powers of 2 so its better to to divide them getting a multiplication or division factor for dfree. Rene Nieuwenhuizen (07-10-1997) */ if (*bsize >= bsizeq) *dfree = *dfree * (*bsize / bsizeq); else *dfree = *dfree / (bsizeq / *bsize); *dfree = ( *dfree < dfreeq ) ? *dfree : dfreeq ; *bsize = bsizeq; *dsize = dsizeq; } #endif return(dfree_retval); #endif } /**************************************************************************** wrap it to get filenames right ****************************************************************************/ int sys_disk_free(char *path,int *bsize,int *dfree,int *dsize) { return(disk_free(dos_to_unix(path,False),bsize,dfree,dsize)); } /**************************************************************************** check a filename - possibly caling reducename This is called by every routine before it allows an operation on a filename. It does any final confirmation necessary to ensure that the filename is a valid one for the user to access. ****************************************************************************/ BOOL check_name(char *name,int cnum) { BOOL ret; errno = 0; if( IS_VETO_PATH(cnum, name)) { DEBUG(5,("file path name %s vetoed\n",name)); return(0); } ret = reduce_name(name,Connections[cnum].connectpath,lp_widelinks(SNUM(cnum))); /* Check if we are allowing users to follow symlinks */ /* Patch from David Clerc University of Geneva */ #ifdef S_ISLNK if (!lp_symlinks(SNUM(cnum))) { struct stat statbuf; if ( (sys_lstat(name,&statbuf) != -1) && (S_ISLNK(statbuf.st_mode)) ) { DEBUG(3,("check_name: denied: file path name %s is a symlink\n",name)); ret=0; } } #endif if (!ret) DEBUG(5,("check_name on %s failed\n",name)); return(ret); } /**************************************************************************** check a filename - possibly caling reducename ****************************************************************************/ static void check_for_pipe(char *fname) { /* special case of pipe opens */ char s[10]; StrnCpy(s,fname,9); strlower(s); if (strstr(s,"pipe/")) { DEBUG(3,("Rejecting named pipe open for %s\n",fname)); unix_ERR_class = ERRSRV; unix_ERR_code = ERRaccess; } } /**************************************************************************** fd support routines - attempt to do a sys_open ****************************************************************************/ static int fd_attempt_open(char *fname, int flags, int mode) { int fd = sys_open(fname,flags,mode); /* Fix for files ending in '.' */ if((fd == -1) && (errno == ENOENT) && (strchr(fname,'.')==NULL)) { strcat(fname,"."); fd = sys_open(fname,flags,mode); } #if (defined(ENAMETOOLONG) && defined(HAVE_PATHCONF)) if ((fd == -1) && (errno == ENAMETOOLONG)) { int max_len; char *p = strrchr(fname, '/'); if (p == fname) /* name is "/xxx" */ { max_len = pathconf("/", _PC_NAME_MAX); p++; } else if ((p == NULL) || (p == fname)) { p = fname; max_len = pathconf(".", _PC_NAME_MAX); } else { *p = '\0'; max_len = pathconf(fname, _PC_NAME_MAX); *p = '/'; p++; } if (strlen(p) > max_len) { char tmp = p[max_len]; p[max_len] = '\0'; if ((fd = sys_open(fname,flags,mode)) == -1) p[max_len] = tmp; } } #endif return fd; } /**************************************************************************** fd support routines - attempt to find an already open file by dev and inode - increments the ref_count of the returned file_fd_struct *. ****************************************************************************/ static file_fd_struct *fd_get_already_open(struct stat *sbuf) { int i; file_fd_struct *fd_ptr; if(sbuf == 0) return 0; for(i = 0; i <= max_file_fd_used; i++) { fd_ptr = &FileFd[i]; if((fd_ptr->ref_count > 0) && (((uint32)sbuf->st_dev) == fd_ptr->dev) && (((uint32)sbuf->st_ino) == fd_ptr->inode)) { fd_ptr->ref_count++; DEBUG(3, ("Re-used file_fd_struct %d, dev = %x, inode = %x, ref_count = %d\n", i, fd_ptr->dev, fd_ptr->inode, fd_ptr->ref_count)); return fd_ptr; } } return 0; } /**************************************************************************** fd support routines - attempt to find a empty slot in the FileFd array. Increments the ref_count of the returned entry. ****************************************************************************/ static file_fd_struct *fd_get_new() { int i; file_fd_struct *fd_ptr; for(i = 0; i < MAX_OPEN_FILES; i++) { fd_ptr = &FileFd[i]; if(fd_ptr->ref_count == 0) { fd_ptr->dev = (uint32)-1; fd_ptr->inode = (uint32)-1; fd_ptr->fd = -1; fd_ptr->fd_readonly = -1; fd_ptr->fd_writeonly = -1; fd_ptr->real_open_flags = -1; fd_ptr->ref_count++; /* Increment max used counter if neccessary, cuts down on search time when re-using */ if(i > max_file_fd_used) max_file_fd_used = i; DEBUG(3,("Allocated new file_fd_struct %d, dev = %x, inode = %x\n", i, fd_ptr->dev, fd_ptr->inode)); return fd_ptr; } } DEBUG(1,("ERROR! Out of file_fd structures - perhaps increase MAX_OPEN_FILES?\ n")); return 0; } /**************************************************************************** fd support routines - attempt to re-open an already open fd as O_RDWR. Save the already open fd (we cannot close due to POSIX file locking braindamage. ****************************************************************************/ static void fd_attempt_reopen(char *fname, int mode, file_fd_struct *fd_ptr) { int fd = sys_open( fname, O_RDWR, mode); if(fd == -1) return; if(fd_ptr->real_open_flags == O_RDONLY) fd_ptr->fd_readonly = fd_ptr->fd; if(fd_ptr->real_open_flags == O_WRONLY) fd_ptr->fd_writeonly = fd_ptr->fd; fd_ptr->fd = fd; fd_ptr->real_open_flags = O_RDWR; } /**************************************************************************** fd support routines - attempt to close the file referenced by this fd. Decrements the ref_count and returns it. ****************************************************************************/ static int fd_attempt_close(file_fd_struct *fd_ptr) { DEBUG(3,("fd_attempt_close on file_fd_struct %d, fd = %d, dev = %x, inode = %x, open_flags = %d, ref_count = %d.\n", fd_ptr - &FileFd[0], fd_ptr->fd, fd_ptr->dev, fd_ptr->inode, fd_ptr->real_open_flags, fd_ptr->ref_count)); if(fd_ptr->ref_count > 0) { fd_ptr->ref_count--; if(fd_ptr->ref_count == 0) { if(fd_ptr->fd != -1) close(fd_ptr->fd); if(fd_ptr->fd_readonly != -1) close(fd_ptr->fd_readonly); if(fd_ptr->fd_writeonly != -1) close(fd_ptr->fd_writeonly); fd_ptr->fd = -1; fd_ptr->fd_readonly = -1; fd_ptr->fd_writeonly = -1; fd_ptr->real_open_flags = -1; fd_ptr->dev = (uint32)-1; fd_ptr->inode = (uint32)-1; } } return fd_ptr->ref_count; } /**************************************************************************** open a file ****************************************************************************/ static void open_file(int fnum,int cnum,char *fname1,int flags,int mode, struct stat *sbuf) { extern struct current_user current_user; pstring fname; struct stat statbuf; file_fd_struct *fd_ptr; files_struct *fsp = &Files[fnum]; fsp->open = False; fsp->fd_ptr = 0; fsp->granted_oplock = False; errno = EPERM; pstrcpy(fname,fname1); /* check permissions */ if ((flags != O_RDONLY) && !CAN_WRITE(cnum) && !Connections[cnum].printer) { DEBUG(3,("Permission denied opening %s\n",fname)); check_for_pipe(fname); return; } /* this handles a bug in Win95 - it doesn't say to create the file when it should */ if (Connections[cnum].printer) flags |= O_CREAT; /* if (flags == O_WRONLY) DEBUG(3,("Bug in client? Set O_WRONLY without O_CREAT\n")); */ /* * Ensure we have a valid struct stat so we can search the * open fd table. */ if(sbuf == 0) { if(stat(fname, &statbuf) < 0) { if(errno != ENOENT) { DEBUG(3,("Error doing stat on file %s (%s)\n", fname,strerror(errno))); check_for_pipe(fname); return; } sbuf = 0; } else { sbuf = &statbuf; } } /* * Check to see if we have this file already * open. If we do, just use the already open fd and increment the * reference count (fd_get_already_open increments the ref_count). */ if((fd_ptr = fd_get_already_open(sbuf))!= 0) { int accmode = (flags & (O_RDONLY | O_WRONLY | O_RDWR)); /* File was already open. */ if((flags & O_CREAT) && (flags & O_EXCL)) { fd_ptr->ref_count--; errno = EEXIST; return; } /* * If not opened O_RDWR try * and do that here - a chmod may have been done * between the last open and now. */ if(fd_ptr->real_open_flags != O_RDWR) fd_attempt_reopen(fname, mode, fd_ptr); /* * Ensure that if we wanted write access * it has been opened for write, and if we wanted read it * was open for read. */ if(((accmode == O_WRONLY) && (fd_ptr->real_open_flags == O_RDONLY)) || ((accmode == O_RDONLY) && (fd_ptr->real_open_flags == O_WRONLY)) || ((accmode == O_RDWR) && (fd_ptr->real_open_flags != O_RDWR))) { DEBUG(3,("Error opening (already open for flags=%d) file %s (%s) (flags=%d)\n", fd_ptr->real_open_flags, fname,strerror(EACCES),flags)); check_for_pipe(fname); fd_ptr->ref_count--; return; } } else { int open_flags; /* We need to allocate a new file_fd_struct (this increments the ref_count). */ if((fd_ptr = fd_get_new()) == 0) return; /* * Whatever the requested flags, attempt read/write access, * as we don't know what flags future file opens may require. * If this fails, try again with the required flags. * Even if we open read/write when only read access was * requested the setting of the can_write flag in * the file_struct will protect us from errant * write requests. We never need to worry about O_APPEND * as this is not set anywhere in Samba. */ fd_ptr->real_open_flags = O_RDWR; /* Set the flags as needed without the read/write modes. */ open_flags = flags & ~(O_RDWR|O_WRONLY|O_RDONLY); fd_ptr->fd = fd_attempt_open(fname, open_flags|O_RDWR, mode); /* * On some systems opening a file for R/W access on a read only * filesystems sets errno to EROFS. */ #ifdef EROFS if((fd_ptr->fd == -1) && ((errno == EACCES) || (errno == EROFS))) { #else /* No EROFS */ if((fd_ptr->fd == -1) && (errno == EACCES)) { #endif /* EROFS */ if(flags & O_WRONLY) { fd_ptr->fd = fd_attempt_open(fname, open_flags|O_WRONLY, mode); fd_ptr->real_open_flags = O_WRONLY; } else { fd_ptr->fd = fd_attempt_open(fname, open_flags|O_RDONLY, mode); fd_ptr->real_open_flags = O_RDONLY; } } } if ((fd_ptr->fd >=0) && Connections[cnum].printer && lp_minprintspace(SNUM(cnum))) { pstring dname; int dum1,dum2,dum3; char *p; pstrcpy(dname,fname); p = strrchr(dname,'/'); if (p) *p = 0; if (sys_disk_free(dname,&dum1,&dum2,&dum3) < lp_minprintspace(SNUM(cnum))) { fd_attempt_close(fd_ptr); fsp->fd_ptr = 0; if(fd_ptr->ref_count == 0) sys_unlink(fname); errno = ENOSPC; return; } } if (fd_ptr->fd < 0) { DEBUG(3,("Error opening file %s (%s) (flags=%d)\n", fname,strerror(errno),flags)); /* Ensure the ref_count is decremented. */ fd_attempt_close(fd_ptr); check_for_pipe(fname); return; } if (fd_ptr->fd >= 0) { if(sbuf == 0) { /* Do the fstat */ if(fstat(fd_ptr->fd, &statbuf) == -1) { /* Error - backout !! */ DEBUG(3,("Error doing fstat on fd %d, file %s (%s)\n", fd_ptr->fd, fname,strerror(errno))); /* Ensure the ref_count is decremented. */ fd_attempt_close(fd_ptr); return; } sbuf = &statbuf; } /* Set the correct entries in fd_ptr. */ fd_ptr->dev = (uint32)sbuf->st_dev; fd_ptr->inode = (uint32)sbuf->st_ino; fsp->fd_ptr = fd_ptr; Connections[cnum].num_files_open++; fsp->mode = sbuf->st_mode; GetTimeOfDay(&fsp->open_time); fsp->uid = current_user.id; fsp->size = 0; fsp->pos = -1; fsp->open = True; fsp->mmap_ptr = NULL; fsp->mmap_size = 0; fsp->can_lock = True; fsp->can_read = ((flags & O_WRONLY)==0); fsp->can_write = ((flags & (O_WRONLY|O_RDWR))!=0); fsp->share_mode = 0; fsp->print_file = Connections[cnum].printer; fsp->modified = False; fsp->granted_oplock = False; fsp->cnum = cnum; string_set(&fsp->name,dos_to_unix(fname,False)); fsp->wbmpx_ptr = NULL; /* * If the printer is marked as postscript output a leading * file identifier to ensure the file is treated as a raw * postscript file. * This has a similar effect as CtrlD=0 in WIN.INI file. * tim@fsg.com 09/06/94 */ if (fsp->print_file && POSTSCRIPT(cnum) && fsp->can_write) { DEBUG(3,("Writing postscript line\n")); write_file(fnum,"%!\n",3); } DEBUG(2,("%s %s opened file %s read=%s write=%s (numopen=%d fnum=%d)\n", timestring(),Connections[cnum].user,fname, BOOLSTR(fsp->can_read),BOOLSTR(fsp->can_write), Connections[cnum].num_files_open,fnum)); } #if USE_MMAP /* mmap it if read-only */ if (!fsp->can_write) { fsp->mmap_size = file_size(fname); fsp->mmap_ptr = (char *)mmap(NULL,fsp->mmap_size, PROT_READ,MAP_SHARED,fsp->fd_ptr->fd,0); if (fsp->mmap_ptr == (char *)-1 || !fsp->mmap_ptr) { DEBUG(3,("Failed to mmap() %s - %s\n",fname,strerror(errno))); fsp->mmap_ptr = NULL; } } #endif } /******************************************************************* sync a file ********************************************************************/ void sync_file(int fnum) { #ifndef NO_FSYNC fsync(Files[fnum].fd_ptr->fd); #endif } /**************************************************************************** run a file if it is a magic script ****************************************************************************/ static void check_magic(int fnum,int cnum) { if (!*lp_magicscript(SNUM(cnum))) return; DEBUG(5,("checking magic for %s\n",Files[fnum].name)); { char *p; if (!(p = strrchr(Files[fnum].name,'/'))) p = Files[fnum].name; else p++; if (!strequal(lp_magicscript(SNUM(cnum)),p)) return; } { int ret; pstring magic_output; pstring fname; pstrcpy(fname,Files[fnum].name); if (*lp_magicoutput(SNUM(cnum))) pstrcpy(magic_output,lp_magicoutput(SNUM(cnum))); else sprintf(magic_output,"%s.out",fname); chmod(fname,0755); ret = smbrun(fname,magic_output,False); DEBUG(3,("Invoking magic command %s gave %d\n",fname,ret)); unlink(fname); } } /**************************************************************************** close a file - possibly invalidating the read prediction If normal_close is 1 then this came from a normal SMBclose (or equivalent) operation otherwise it came as the result of some other operation such as the closing of the connection. In the latter case printing and magic scripts are not run ****************************************************************************/ void close_file(int fnum, BOOL normal_close) { files_struct *fs_p = &Files[fnum]; int cnum = fs_p->cnum; uint32 dev = fs_p->fd_ptr->dev; uint32 inode = fs_p->fd_ptr->inode; int token; #if USE_READ_PREDICTION invalidate_read_prediction(fs_p->fd_ptr->fd); #endif fs_p->open = False; Connections[cnum].num_files_open--; if(fs_p->wbmpx_ptr) { free((char *)fs_p->wbmpx_ptr); fs_p->wbmpx_ptr = NULL; } #if USE_MMAP if(fs_p->mmap_ptr) { munmap(fs_p->mmap_ptr,fs_p->mmap_size); fs_p->mmap_ptr = NULL; } #endif if (lp_share_modes(SNUM(cnum))) { lock_share_entry( cnum, dev, inode, &token); del_share_mode(token, fnum); } fd_attempt_close(fs_p->fd_ptr); if (lp_share_modes(SNUM(cnum))) unlock_share_entry( cnum, dev, inode, token); /* NT uses smbclose to start a print - weird */ if (normal_close && fs_p->print_file) print_file(fnum); /* check for magic scripts */ if (normal_close) check_magic(fnum,cnum); DEBUG(2,("%s %s closed file %s (numopen=%d)\n", timestring(),Connections[cnum].user,fs_p->name, Connections[cnum].num_files_open)); } enum {AFAIL,AREAD,AWRITE,AALL}; /******************************************************************* reproduce the share mode access table ********************************************************************/ static int access_table(int new_deny,int old_deny,int old_mode, int share_pid,char *fname) { if (new_deny == DENY_ALL || old_deny == DENY_ALL) return(AFAIL); if (new_deny == DENY_DOS || old_deny == DENY_DOS) { int pid = getpid(); if (old_deny == new_deny && share_pid == pid) return(AALL); if (old_mode == 0) return(AREAD); /* the new smbpub.zip spec says that if the file extension is .com, .dll, .exe or .sym then allow the open. I will force it to read-only as this seems sensible although the spec is a little unclear on this. */ if ((fname = strrchr(fname,'.'))) { if (strequal(fname,".com") || strequal(fname,".dll") || strequal(fname,".exe") || strequal(fname,".sym")) return(AREAD); } return(AFAIL); } switch (new_deny) { case DENY_WRITE: if (old_deny==DENY_WRITE && old_mode==0) return(AREAD); if (old_deny==DENY_READ && old_mode==0) return(AWRITE); if (old_deny==DENY_NONE && old_mode==0) return(AALL); return(AFAIL); case DENY_READ: if (old_deny==DENY_WRITE && old_mode==1) return(AREAD); if (old_deny==DENY_READ && old_mode==1) return(AWRITE); if (old_deny==DENY_NONE && old_mode==1) return(AALL); return(AFAIL); case DENY_NONE: if (old_deny==DENY_WRITE) return(AREAD); if (old_deny==DENY_READ) return(AWRITE); if (old_deny==DENY_NONE) return(AALL); return(AFAIL); } return(AFAIL); } /******************************************************************* check if the share mode on a file allows it to be deleted or unlinked return True if sharing doesn't prevent the operation ********************************************************************/ BOOL check_file_sharing(int cnum,char *fname) { int i; int ret = False; share_mode_entry *old_shares = 0; int num_share_modes; struct stat sbuf; int token; int pid = getpid(); uint32 dev, inode; if(!lp_share_modes(SNUM(cnum))) return True; if (stat(fname,&sbuf) == -1) return(True); dev = (uint32)sbuf.st_dev; inode = (uint32)sbuf.st_ino; lock_share_entry(cnum, dev, inode, &token); num_share_modes = get_share_modes(cnum, token, dev, inode, &old_shares); /* * Check if the share modes will give us access. */ if(num_share_modes != 0) { BOOL broke_oplock; do { broke_oplock = False; for(i = 0; i < num_share_modes; i++) { share_mode_entry *share_entry = &old_shares[i]; /* * Break oplocks before checking share modes. See comment in * open_file_shared for details. * Check if someone has an oplock on this file. If so we must * break it before continuing. */ if(share_entry->op_type & BATCH_OPLOCK) { DEBUG(5,("check_file_sharing: breaking oplock (%x) on file %s, \ dev = %x, inode = %x\n", share_entry->op_type, fname, dev, inode)); /* Oplock break.... */ unlock_share_entry(cnum, dev, inode, token); if(request_oplock_break(share_entry, dev, inode) == False) { free((char *)old_shares); DEBUG(0,("check_file_sharing: FAILED when breaking oplock (%x) on file %s, \ dev = %x, inode = %x\n", old_shares[i].op_type, fname, dev, inode)); return False; } lock_share_entry(cnum, dev, inode, &token); broke_oplock = True; break; } /* someone else has a share lock on it, check to see if we can too */ if ((share_entry->share_mode != DENY_DOS) || (share_entry->pid != pid)) goto free_and_exit; } /* end for */ if(broke_oplock) { free((char *)old_shares); num_share_modes = get_share_modes(cnum, token, dev, inode, &old_shares); } } while(broke_oplock); } /* XXXX exactly what share mode combinations should be allowed for deleting/renaming? */ /* If we got here then either there were no share modes or all share modes were DENY_DOS and the pid == getpid() */ ret = True; free_and_exit: unlock_share_entry(cnum, dev, inode, token); if(old_shares != NULL) free((char *)old_shares); return(ret); } /**************************************************************************** C. Hoch 11/22/95 Helper for open_file_shared. Truncate a file after checking locking; close file if locked. **************************************************************************/ static void truncate_unless_locked(int fnum, int cnum, int token, BOOL *share_locked) { if (Files[fnum].can_write){ if (is_locked(fnum,cnum,0x3FFFFFFF,0)){ /* If share modes are in force for this connection we have the share entry locked. Unlock it before closing. */ if (*share_locked && lp_share_modes(SNUM(cnum))) unlock_share_entry( cnum, Files[fnum].fd_ptr->dev, Files[fnum].fd_ptr->inode, token); close_file(fnum,False); /* Share mode no longer locked. */ *share_locked = False; errno = EACCES; unix_ERR_class = ERRDOS; unix_ERR_code = ERRlock; } else ftruncate(Files[fnum].fd_ptr->fd,0); } } /**************************************************************************** check if we can open a file with a share mode ****************************************************************************/ int check_share_mode( share_mode_entry *share, int deny_mode, char *fname, BOOL fcbopen, int *flags) { int old_open_mode = share->share_mode &0xF; int old_deny_mode = (share->share_mode >>4)&7; if (old_deny_mode > 4 || old_open_mode > 2) { DEBUG(0,("Invalid share mode found (%d,%d,%d) on file %s\n", deny_mode,old_deny_mode,old_open_mode,fname)); return False; } { int access_allowed = access_table(deny_mode,old_deny_mode,old_open_mode, share->pid,fname); if ((access_allowed == AFAIL) || (!fcbopen && (access_allowed == AREAD && *flags == O_RDWR)) || (access_allowed == AREAD && *flags == O_WRONLY) || (access_allowed == AWRITE && *flags == O_RDONLY)) { DEBUG(2,("Share violation on file (%d,%d,%d,%d,%s) = %d\n", deny_mode,old_deny_mode,old_open_mode, share->pid,fname, access_allowed)); return False; } if (access_allowed == AREAD) *flags = O_RDONLY; if (access_allowed == AWRITE) *flags = O_WRONLY; } return True; } /**************************************************************************** open a file with a share mode ****************************************************************************/ void open_file_shared(int fnum,int cnum,char *fname,int share_mode,int ofun, int mode,int oplock_request, int *Access,int *action) { files_struct *fs_p = &Files[fnum]; int flags=0; int flags2=0; int deny_mode = (share_mode>>4)&7; struct stat sbuf; BOOL file_existed = file_exist(fname,&sbuf); BOOL share_locked = False; BOOL fcbopen = False; int token; uint32 dev = 0; uint32 inode = 0; int num_share_modes = 0; fs_p->open = False; fs_p->fd_ptr = 0; /* this is for OS/2 EAs - try and say we don't support them */ if (strstr(fname,".+,;=[].")) { unix_ERR_class = ERRDOS; /* OS/2 Workplace shell fix may be main code stream in a later release. */ #ifdef OS2_WPS_FIX unix_ERR_code = ERRcannotopen; #else /* OS2_WPS_FIX */ unix_ERR_code = ERROR_EAS_NOT_SUPPORTED; #endif /* OS2_WPS_FIX */ return; } if ((ofun & 0x3) == 0 && file_existed) { errno = EEXIST; return; } if (ofun & 0x10) flags2 |= O_CREAT; if ((ofun & 0x3) == 2) flags2 |= O_TRUNC; /* note that we ignore the append flag as append does not mean the same thing under dos and unix */ switch (share_mode&0xF) { case 1: flags = O_WRONLY; break; case 0xF: fcbopen = True; flags = O_RDWR; break; case 2: flags = O_RDWR; break; default: flags = O_RDONLY; break; } if (flags != O_RDONLY && file_existed && (!CAN_WRITE(cnum) || IS_DOS_READONLY(dos_mode(cnum,fname,&sbuf)))) { if (!fcbopen) { errno = EACCES; return; } flags = O_RDONLY; } if (deny_mode > DENY_NONE && deny_mode!=DENY_FCB) { DEBUG(2,("Invalid deny mode %d on file %s\n",deny_mode,fname)); errno = EINVAL; return; } if (deny_mode == DENY_FCB) deny_mode = DENY_DOS; if (lp_share_modes(SNUM(cnum))) { int i; share_mode_entry *old_shares = 0; if (file_existed) { dev = (uint32)sbuf.st_dev; inode = (uint32)sbuf.st_ino; lock_share_entry(cnum, dev, inode, &token); share_locked = True; num_share_modes = get_share_modes(cnum, token, dev, inode, &old_shares); } /* * Check if the share modes will give us access. */ if(share_locked && (num_share_modes != 0)) { BOOL broke_oplock; do { broke_oplock = False; for(i = 0; i < num_share_modes; i++) { share_mode_entry *share_entry = &old_shares[i]; /* * By observation of NetBench, oplocks are broken *before* share * modes are checked. This allows a file to be closed by the client * if the share mode would deny access and the client has an oplock. * Check if someone has an oplock on this file. If so we must break * it before continuing. */ if(share_entry->op_type & (EXCLUSIVE_OPLOCK|BATCH_OPLOCK)) { DEBUG(5,("open_file_shared: breaking oplock (%x) on file %s, \ dev = %x, inode = %x\n", share_entry->op_type, fname, dev, inode)); /* Oplock break.... */ unlock_share_entry(cnum, dev, inode, token); if(request_oplock_break(share_entry, dev, inode) == False) { free((char *)old_shares); DEBUG(0,("open_file_shared: FAILED when breaking oplock (%x) on file %s, \ dev = %x, inode = %x\n", old_shares[i].op_type, fname, dev, inode)); errno = EACCES; unix_ERR_class = ERRDOS; unix_ERR_code = ERRbadshare; return; } lock_share_entry(cnum, dev, inode, &token); broke_oplock = True; break; } /* someone else has a share lock on it, check to see if we can too */ if(check_share_mode(share_entry, deny_mode, fname, fcbopen, &flags) == False) { free((char *)old_shares); unlock_share_entry(cnum, dev, inode, token); errno = EACCES; unix_ERR_class = ERRDOS; unix_ERR_code = ERRbadshare; return; } } /* end for */ if(broke_oplock) { free((char *)old_shares); num_share_modes = get_share_modes(cnum, token, dev, inode, &old_shares); } } while(broke_oplock); } if(old_shares != 0) free((char *)old_shares); } DEBUG(4,("calling open_file with flags=0x%X flags2=0x%X mode=0%o\n", flags,flags2,mode)); open_file(fnum,cnum,fname,flags|(flags2&~(O_TRUNC)),mode,file_existed ? &sbuf : 0); if (!fs_p->open && flags==O_RDWR && errno!=ENOENT && fcbopen) { flags = O_RDONLY; open_file(fnum,cnum,fname,flags,mode,file_existed ? &sbuf : 0 ); } if (fs_p->open) { int open_mode=0; if((share_locked == False) && lp_share_modes(SNUM(cnum))) { /* We created the file - thus we must now lock the share entry before creating it. */ dev = fs_p->fd_ptr->dev; inode = fs_p->fd_ptr->inode; lock_share_entry(cnum, dev, inode, &token); share_locked = True; } switch (flags) { case O_RDONLY: open_mode = 0; break; case O_RDWR: open_mode = 2; break; case O_WRONLY: open_mode = 1; break; } fs_p->share_mode = (deny_mode<<4) | open_mode; if (Access) (*Access) = open_mode; if (action) { if (file_existed && !(flags2 & O_TRUNC)) *action = 1; if (!file_existed) *action = 2; if (file_existed && (flags2 & O_TRUNC)) *action = 3; } /* We must create the share mode entry before truncate as truncate can fail due to locking and have to close the file (which expects the share_mode_entry to be there). */ if (lp_share_modes(SNUM(cnum))) { uint16 port = 0; /* JRA. Currently this only services Exlcusive and batch oplocks (no other opens on this file). This needs to be extended to level II oplocks (multiple reader oplocks). */ if(oplock_request && (num_share_modes == 0) && lp_oplocks(SNUM(cnum))) { fs_p->granted_oplock = True; global_oplocks_open++; port = oplock_port; DEBUG(5,("open_file_shared: granted oplock (%x) on file %s, \ dev = %x, inode = %x\n", oplock_request, fname, dev, inode)); } else { port = 0; oplock_request = 0; } set_share_mode(token, fnum, port, oplock_request); } if ((flags2&O_TRUNC) && file_existed) truncate_unless_locked(fnum,cnum,token,&share_locked); } if (share_locked && lp_share_modes(SNUM(cnum))) unlock_share_entry( cnum, dev, inode, token); } /**************************************************************************** seek a file. Try to avoid the seek if possible ****************************************************************************/ int seek_file(int fnum,uint32 pos) { uint32 offset = 0; if (Files[fnum].print_file && POSTSCRIPT(Files[fnum].cnum)) offset = 3; Files[fnum].pos = (int)(lseek(Files[fnum].fd_ptr->fd,pos+offset,SEEK_SET) - offset); return(Files[fnum].pos); } /**************************************************************************** read from a file ****************************************************************************/ int read_file(int fnum,char *data,uint32 pos,int n) { int ret=0,readret; #if USE_READ_PREDICTION if (!Files[fnum].can_write) { ret = read_predict(Files[fnum].fd_ptr->fd,pos,data,NULL,n); data += ret; n -= ret; pos += ret; } #endif #if USE_MMAP if (Files[fnum].mmap_ptr) { int num = MIN(n,(int)(Files[fnum].mmap_size-pos)); if (num > 0) { memcpy(data,Files[fnum].mmap_ptr+pos,num); data += num; pos += num; n -= num; ret += num; } } #endif if (n <= 0) return(ret); if (seek_file(fnum,pos) != pos) { DEBUG(3,("Failed to seek to %d\n",pos)); return(ret); } if (n > 0) { readret = read(Files[fnum].fd_ptr->fd,data,n); if (readret > 0) ret += readret; } return(ret); } /**************************************************************************** write to a file ****************************************************************************/ int write_file(int fnum,char *data,int n) { if (!Files[fnum].can_write) { errno = EPERM; return(0); } if (!Files[fnum].modified) { struct stat st; Files[fnum].modified = True; if (fstat(Files[fnum].fd_ptr->fd,&st) == 0) { int dosmode = dos_mode(Files[fnum].cnum,Files[fnum].name,&st); if (MAP_ARCHIVE(Files[fnum].cnum) && !IS_DOS_ARCHIVE(dosmode)) { dos_chmod(Files[fnum].cnum,Files[fnum].name,dosmode | aARCH,&st); } } } return(write_data(Files[fnum].fd_ptr->fd,data,n)); } /**************************************************************************** load parameters specific to a connection/service ****************************************************************************/ BOOL become_service(int cnum,BOOL do_chdir) { extern char magic_char; static int last_cnum = -1; int snum; if (!OPEN_CNUM(cnum)) { last_cnum = -1; return(False); } Connections[cnum].lastused = smb_last_time; snum = SNUM(cnum); if (do_chdir && ChDir(Connections[cnum].connectpath) != 0 && ChDir(Connections[cnum].origpath) != 0) { DEBUG(0,("%s chdir (%s) failed cnum=%d\n",timestring(), Connections[cnum].connectpath,cnum)); return(False); } if (cnum == last_cnum) return(True); last_cnum = cnum; case_default = lp_defaultcase(snum); case_preserve = lp_preservecase(snum); short_case_preserve = lp_shortpreservecase(snum); case_mangle = lp_casemangle(snum); case_sensitive = lp_casesensitive(snum); magic_char = lp_magicchar(snum); use_mangled_map = (*lp_mangled_map(snum) ? True:False); return(True); } /**************************************************************************** find a service entry ****************************************************************************/ int find_service(char *service) { int iService; string_sub(service,"\\","/"); iService = lp_servicenumber(service); /* now handle the special case of a home directory */ if (iService < 0) { char *phome_dir = get_home_dir(service); DEBUG(3,("checking for home directory %s gave %s\n",service, phome_dir?phome_dir:"(NULL)")); if (phome_dir) { int iHomeService; if ((iHomeService = lp_servicenumber(HOMES_NAME)) >= 0) { lp_add_home(service,iHomeService,phome_dir); iService = lp_servicenumber(service); } } } /* If we still don't have a service, attempt to add it as a printer. */ if (iService < 0) { int iPrinterService; if ((iPrinterService = lp_servicenumber(PRINTERS_NAME)) >= 0) { char *pszTemp; DEBUG(3,("checking whether %s is a valid printer name...\n", service)); pszTemp = PRINTCAP; if ((pszTemp != NULL) && pcap_printername_ok(service, pszTemp)) { DEBUG(3,("%s is a valid printer name\n", service)); DEBUG(3,("adding %s as a printer service\n", service)); lp_add_printer(service,iPrinterService); iService = lp_servicenumber(service); if (iService < 0) DEBUG(0,("failed to add %s as a printer service!\n", service)); } else DEBUG(3,("%s is not a valid printer name\n", service)); } } /* just possibly it's a default service? */ if (iService < 0) { char *defservice = lp_defaultservice(); if (defservice && *defservice && !strequal(defservice,service)) { iService = find_service(defservice); if (iService >= 0) { string_sub(service,"_","/"); iService = lp_add_service(service,iService); } } } if (iService >= 0) if (!VALID_SNUM(iService)) { DEBUG(0,("Invalid snum %d for %s\n",iService,service)); iService = -1; } if (iService < 0) DEBUG(3,("find_service() failed to find service %s\n", service)); return (iService); } /**************************************************************************** create an error packet from a cached error. ****************************************************************************/ int cached_error_packet(char *inbuf,char *outbuf,int fnum,int line) { write_bmpx_struct *wbmpx = Files[fnum].wbmpx_ptr; int32 eclass = wbmpx->wr_errclass; int32 err = wbmpx->wr_error; /* We can now delete the auxiliary struct */ free((char *)wbmpx); Files[fnum].wbmpx_ptr = NULL; return error_packet(inbuf,outbuf,eclass,err,line); } struct { int unixerror; int smbclass; int smbcode; } unix_smb_errmap[] = { {EPERM,ERRDOS,ERRnoaccess}, {EACCES,ERRDOS,ERRnoaccess}, {ENOENT,ERRDOS,ERRbadfile}, {ENOTDIR,ERRDOS,ERRbadpath}, {EIO,ERRHRD,ERRgeneral}, {EBADF,ERRSRV,ERRsrverror}, {EINVAL,ERRSRV,ERRsrverror}, {EEXIST,ERRDOS,ERRfilexists}, {ENFILE,ERRDOS,ERRnofids}, {EMFILE,ERRDOS,ERRnofids}, {ENOSPC,ERRHRD,ERRdiskfull}, #ifdef EDQUOT {EDQUOT,ERRHRD,ERRdiskfull}, #endif #ifdef ENOTEMPTY {ENOTEMPTY,ERRDOS,ERRnoaccess}, #endif #ifdef EXDEV {EXDEV,ERRDOS,ERRdiffdevice}, #endif {EROFS,ERRHRD,ERRnowrite}, {0,0,0} }; /**************************************************************************** create an error packet from errno ****************************************************************************/ int unix_error_packet(char *inbuf,char *outbuf,int def_class,uint32 def_code,int line) { int eclass=def_class; int ecode=def_code; int i=0; if (unix_ERR_class != SUCCESS) { eclass = unix_ERR_class; ecode = unix_ERR_code; unix_ERR_class = SUCCESS; unix_ERR_code = 0; } else { while (unix_smb_errmap[i].smbclass != 0) { if (unix_smb_errmap[i].unixerror == errno) { eclass = unix_smb_errmap[i].smbclass; ecode = unix_smb_errmap[i].smbcode; break; } i++; } } return(error_packet(inbuf,outbuf,eclass,ecode,line)); } /**************************************************************************** create an error packet. Normally called using the ERROR() macro ****************************************************************************/ int error_packet(char *inbuf,char *outbuf,int error_class,uint32 error_code,int line) { int outsize = set_message(outbuf,0,0,True); int cmd; cmd = CVAL(inbuf,smb_com); CVAL(outbuf,smb_rcls) = error_class; SSVAL(outbuf,smb_err,error_code); DEBUG(3,("%s error packet at line %d cmd=%d (%s) eclass=%d ecode=%d\n", timestring(), line, (int)CVAL(inbuf,smb_com), smb_fn_name(CVAL(inbuf,smb_com)), error_class, error_code)); if (errno != 0) DEBUG(3,("error string = %s\n",strerror(errno))); return(outsize); } #ifndef SIGCLD_IGNORE /**************************************************************************** this prevents zombie child processes ****************************************************************************/ static int sig_cld() { static int depth = 0; if (depth != 0) { DEBUG(0,("ERROR: Recursion in sig_cld? Perhaps you need `#define USE_WAITPID'?\n")); depth=0; return(0); } depth++; BlockSignals(True,SIGCLD); DEBUG(5,("got SIGCLD\n")); #ifdef USE_WAITPID while (sys_waitpid((pid_t)-1,(int *)NULL, WNOHANG) > 0); #endif /* Stop zombies */ /* Stevens, Adv. Unix Prog. says that on system V you must call wait before reinstalling the signal handler, because the kernel calls the handler from within the signal-call when there is a child that has exited. This would lead to an infinite recursion if done vice versa. */ #ifndef DONT_REINSTALL_SIG #ifdef SIGCLD_IGNORE signal(SIGCLD, SIG_IGN); #else signal(SIGCLD, SIGNAL_CAST sig_cld); #endif #endif #ifndef USE_WAITPID while (wait3(WAIT3_CAST1 NULL, WNOHANG, WAIT3_CAST2 NULL) > 0); #endif depth--; BlockSignals(False,SIGCLD); return 0; } #endif /**************************************************************************** this is called when the client exits abruptly **************************************************************************/ static int sig_pipe() { struct cli_state *cli; BlockSignals(True,SIGPIPE); if ((cli = server_client()) && cli->initialised) { DEBUG(3,("lost connection to password server\n")); cli_shutdown(cli); #ifndef DONT_REINSTALL_SIG signal(SIGPIPE, SIGNAL_CAST sig_pipe); #endif BlockSignals(False,SIGPIPE); return 0; } exit_server("Got sigpipe\n"); return(0); } /**************************************************************************** open the socket communication ****************************************************************************/ static BOOL open_sockets(BOOL is_daemon,int port) { extern int Client; if (is_daemon) { int num_interfaces = iface_count(); int fd_listenset[FD_SETSIZE]; fd_set listen_set; int s; int i; /* Stop zombies */ #ifdef SIGCLD_IGNORE signal(SIGCLD, SIG_IGN); #else signal(SIGCLD, SIGNAL_CAST sig_cld); #endif if(atexit_set == 0) atexit(killkids); FD_ZERO(&listen_set); if(lp_interfaces() && lp_bind_interfaces_only()) { /* We have been given an interfaces line, and been told to only bind to those interfaces. Create a socket per interface and bind to only these. */ if(num_interfaces > FD_SETSIZE) { DEBUG(0,("open_sockets: Too many interfaces specified to bind to. Number was %d \ max can be %d\n", num_interfaces, FD_SETSIZE)); return False; } /* Now open a listen socket for each of the interfaces. */ for(i = 0; i < num_interfaces; i++) { struct in_addr *ifip = iface_n_ip(i); if(ifip == NULL) { DEBUG(0,("open_sockets: interface %d has NULL IP address !\n", i)); continue; } s = fd_listenset[i] = open_socket_in(SOCK_STREAM, port, 0, ifip->s_addr); if(s == -1) return False; /* ready to listen */ if (listen(s, 5) == -1) { DEBUG(0,("listen: %s\n",strerror(errno))); close(s); return False; } FD_SET(s,&listen_set); } } else { /* Just bind to 0.0.0.0 - accept connections from anywhere. */ num_interfaces = 1; /* open an incoming socket */ s = open_socket_in(SOCK_STREAM, port, 0,interpret_addr(lp_socket_address())); if (s == -1) return(False); /* ready to listen */ if (listen(s, 5) == -1) { DEBUG(0,("open_sockets: listen: %s\n",strerror(errno))); close(s); return False; } fd_listenset[0] = s; FD_SET(s,&listen_set); } /* now accept incoming connections - forking a new process for each incoming connection */ DEBUG(2,("waiting for a connection\n")); while (1) { fd_set lfds; int num; memcpy((char *)&lfds, (char *)&listen_set, sizeof(listen_set)); num = sys_select(&lfds,NULL); if (num == -1 && errno == EINTR) continue; /* Find the sockets that are read-ready - accept on these. */ for( ; num > 0; num--) { struct sockaddr addr; int in_addrlen = sizeof(addr); s = -1; for(i = 0; i < num_interfaces; i++) { if(FD_ISSET(fd_listenset[i],&lfds)) { s = fd_listenset[i]; /* Clear this so we don't look at it again. */ FD_CLR(fd_listenset[i],&lfds); break; } } Client = accept(s,&addr,&in_addrlen); if (Client == -1 && errno == EINTR) continue; if (Client == -1) { DEBUG(0,("open_sockets: accept: %s\n",strerror(errno))); continue; } #ifdef NO_FORK_DEBUG #ifndef NO_SIGNAL_TEST signal(SIGPIPE, SIGNAL_CAST sig_pipe); signal(SIGCLD, SIGNAL_CAST SIG_DFL); #endif /* NO_SIGNAL_TEST */ return True; #else /* NO_FORK_DEBUG */ if (Client != -1 && fork()==0) { /* Child code ... */ #ifndef NO_SIGNAL_TEST signal(SIGPIPE, SIGNAL_CAST sig_pipe); signal(SIGCLD, SIGNAL_CAST SIG_DFL); #endif /* NO_SIGNAL_TEST */ /* close the listening socket(s) */ for(i = 0; i < num_interfaces; i++) close(fd_listenset[i]); /* close our standard file descriptors */ close_low_fds(); am_parent = 0; set_socket_options(Client,"SO_KEEPALIVE"); set_socket_options(Client,user_socket_options); /* Reset global variables in util.c so that client substitutions will be done correctly in the process. */ reset_globals_after_fork(); return True; } close(Client); /* The parent doesn't need this socket */ #endif /NO_FORK_DEBUG */ } /* end for num */ } /* end while 1 */ } /* end if is_daemon */ else { /* Started from inetd. fd 0 is the socket. */ /* We will abort gracefully when the client or remote system goes away */ #ifndef NO_SIGNAL_TEST signal(SIGPIPE, SIGNAL_CAST sig_pipe); #endif Client = dup(0); /* close our standard file descriptors */ close_low_fds(); set_socket_options(Client,"SO_KEEPALIVE"); set_socket_options(Client,user_socket_options); } return True; } /**************************************************************************** process an smb from the client - split out from the process() code so it can be used by the oplock break code. ****************************************************************************/ static void process_smb(char *inbuf, char *outbuf) { extern int Client; static int trans_num; int msg_type = CVAL(inbuf,0); int32 len = smb_len(inbuf); int nread = len + 4; if (trans_num == 0) { /* on the first packet, check the global hosts allow/ hosts deny parameters before doing any parsing of the packet passed to us by the client. This prevents attacks on our parsing code from hosts not in the hosts allow list */ if (!check_access(-1)) { /* send a negative session response "not listining on calling name" */ static unsigned char buf[5] = {0x83, 0, 0, 1, 0x81}; DEBUG(1,("%s Connection denied from %s\n", timestring(),client_addr())); send_smb(Client,(char *)buf); exit_server("connection denied"); } } DEBUG(6,("got message type 0x%x of len 0x%x\n",msg_type,len)); DEBUG(3,("%s Transaction %d of length %d\n",timestring(),trans_num,nread)); #ifdef WITH_VTP if(trans_num == 1 && VT_Check(inbuf)) { VT_Process(); return; } #endif if (msg_type == 0) show_msg(inbuf); nread = construct_reply(inbuf,outbuf,nread,max_send); if(nread > 0) { if (CVAL(outbuf,0) == 0) show_msg(outbuf); if (nread != smb_len(outbuf) + 4) { DEBUG(0,("ERROR: Invalid message response size! %d %d\n", nread, smb_len(outbuf))); } else send_smb(Client,outbuf); } trans_num++; } /**************************************************************************** open the oplock IPC socket communication ****************************************************************************/ static BOOL open_oplock_ipc() { struct sockaddr_in sock_name; int len = sizeof(sock_name); DEBUG(3,("open_oplock_ipc: opening loopback UDP socket.\n")); /* Open a lookback UDP socket on a random port. */ oplock_sock = open_socket_in(SOCK_DGRAM, 0, 0, htonl(INADDR_LOOPBACK)); if (oplock_sock == -1) { DEBUG(0,("open_oplock_ipc: Failed to get local UDP socket for \ address %x. Error was %s\n", htonl(INADDR_LOOPBACK), strerror(errno))); oplock_port = 0; return(False); } /* Find out the transient UDP port we have been allocated. */ if(getsockname(oplock_sock, (struct sockaddr *)&sock_name, &len)<0) { DEBUG(0,("open_oplock_ipc: Failed to get local UDP port. Error was %s\n", strerror(errno))); close(oplock_sock); oplock_sock = -1; oplock_port = 0; return False; } oplock_port = ntohs(sock_name.sin_port); DEBUG(3,("open_oplock ipc: pid = %d, oplock_port = %u\n", getpid(), oplock_port)); return True; } /**************************************************************************** process an oplock break message. ****************************************************************************/ static BOOL process_local_message(int sock, char *buffer, int buf_size) { int32 msg_len; uint16 from_port; char *msg_start; msg_len = IVAL(buffer,UDP_CMD_LEN_OFFSET); from_port = SVAL(buffer,UDP_CMD_PORT_OFFSET); msg_start = &buffer[UDP_CMD_HEADER_LEN]; DEBUG(5,("process_local_message: Got a message of length %d from port (%d)\n", msg_len, from_port)); /* Switch on message command - currently OPLOCK_BREAK_CMD is the only valid request. */ switch(SVAL(msg_start,UDP_MESSAGE_CMD_OFFSET)) { case OPLOCK_BREAK_CMD: /* Ensure that the msg length is correct. */ if(msg_len != OPLOCK_BREAK_MSG_LEN) { DEBUG(0,("process_local_message: incorrect length for OPLOCK_BREAK_CMD (was %d, \ should be %d).\n", msg_len, OPLOCK_BREAK_MSG_LEN)); return False; } { uint32 remotepid = IVAL(msg_start,OPLOCK_BREAK_PID_OFFSET); uint32 dev = IVAL(msg_start,OPLOCK_BREAK_DEV_OFFSET); uint32 inode = IVAL(msg_start, OPLOCK_BREAK_INODE_OFFSET); struct timeval tval; struct sockaddr_in toaddr; tval.tv_sec = IVAL(msg_start, OPLOCK_BREAK_SEC_OFFSET); tval.tv_usec = IVAL(msg_start, OPLOCK_BREAK_USEC_OFFSET); DEBUG(5,("process_local_message: oplock break request from \ pid %d, port %d, dev = %x, inode = %x\n", remotepid, from_port, dev, inode)); /* * If we have no record of any currently open oplocks, * it's not an error, as a close command may have * just been issued on the file that was oplocked. * Just return success in this case. */ if(global_oplocks_open != 0) { if(oplock_break(dev, inode, &tval) == False) { DEBUG(0,("process_local_message: oplock break failed - \ not returning udp message.\n")); return False; } } else { DEBUG(3,("process_local_message: oplock break requested with no outstanding \ oplocks. Returning success.\n")); } /* Send the message back after OR'ing in the 'REPLY' bit. */ SSVAL(msg_start,UDP_MESSAGE_CMD_OFFSET,OPLOCK_BREAK_CMD | CMD_REPLY); bzero((char *)&toaddr,sizeof(toaddr)); toaddr.sin_addr.s_addr = htonl(INADDR_LOOPBACK); toaddr.sin_port = htons(from_port); toaddr.sin_family = AF_INET; if(sendto( sock, msg_start, OPLOCK_BREAK_MSG_LEN, 0, (struct sockaddr *)&toaddr, sizeof(toaddr)) < 0) { DEBUG(0,("process_local_message: sendto process %d failed. Errno was %s\n", remotepid, strerror(errno))); return False; } DEBUG(5,("process_local_message: oplock break reply sent to \ pid %d, port %d, for file dev = %x, inode = %x\n", remotepid, from_port, dev, inode)); } break; /* * Keep this as a debug case - eventually we can remove it. */ case 0x8001: DEBUG(0,("process_local_message: Received unsolicited break \ reply - dumping info.\n")); if(msg_len != OPLOCK_BREAK_MSG_LEN) { DEBUG(0,("process_local_message: ubr: incorrect length for reply \ (was %d, should be %d).\n", msg_len, OPLOCK_BREAK_MSG_LEN)); return False; } { uint32 remotepid = IVAL(msg_start,OPLOCK_BREAK_PID_OFFSET); uint32 dev = IVAL(msg_start,OPLOCK_BREAK_DEV_OFFSET); uint32 inode = IVAL(msg_start, OPLOCK_BREAK_INODE_OFFSET); DEBUG(0,("process_local_message: unsolicited oplock break reply from \ pid %d, port %d, dev = %x, inode = %x\n", remotepid, from_port, dev, inode)); } return False; default: DEBUG(0,("process_local_message: unknown UDP message command code (%x) - ignoring.\n", (unsigned int)SVAL(msg_start,0))); return False; } return True; } /**************************************************************************** Process an oplock break directly. ****************************************************************************/ BOOL oplock_break(uint32 dev, uint32 inode, struct timeval *tval) { extern int Client; static char *inbuf = NULL; static char *outbuf = NULL; files_struct *fsp = NULL; int fnum; time_t start_time; BOOL shutdown_server = False; DEBUG(5,("oplock_break: called for dev = %x, inode = %x. Current \ global_oplocks_open = %d\n", dev, inode, global_oplocks_open)); if(inbuf == NULL) { inbuf = (char *)malloc(BUFFER_SIZE + SAFETY_MARGIN); if(inbuf == NULL) { DEBUG(0,("oplock_break: malloc fail for input buffer.\n")); return False; } outbuf = (char *)malloc(BUFFER_SIZE + SAFETY_MARGIN); if(outbuf == NULL) { DEBUG(0,("oplock_break: malloc fail for output buffer.\n")); free(inbuf); inbuf = NULL; return False; } } /* We need to search the file open table for the entry containing this dev and inode, and ensure we have an oplock on it. */ for( fnum = 0; fnum < MAX_OPEN_FILES; fnum++) { if(OPEN_FNUM(fnum)) { fsp = &Files[fnum]; if((fsp->fd_ptr->dev == dev) && (fsp->fd_ptr->inode == inode) && (fsp->open_time.tv_sec == tval->tv_sec) && (fsp->open_time.tv_usec == tval->tv_usec)) break; } } if(fsp == NULL) { /* The file could have been closed in the meantime - return success. */ DEBUG(3,("oplock_break: cannot find open file with dev = %x, inode = %x (fnum = %d) \ allowing break to succeed.\n", dev, inode, fnum)); return True; } /* Ensure we have an oplock on the file */ /* There is a potential race condition in that an oplock could have been broken due to another udp request, and yet there are still oplock break messages being sent in the udp message queue for this file. So return true if we don't have an oplock, as we may have just freed it. */ if(!fsp->granted_oplock) { DEBUG(3,("oplock_break: file %s (fnum = %d, dev = %x, inode = %x) has no oplock. \ Allowing break to succeed regardless.\n", fsp->name, fnum, dev, inode)); return True; } /* Now comes the horrid part. We must send an oplock break to the client, and then process incoming messages until we get a close or oplock release. */ /* Prepare the SMBlockingX message. */ bzero(outbuf,smb_size); set_message(outbuf,8,0,True); SCVAL(outbuf,smb_com,SMBlockingX); SSVAL(outbuf,smb_tid,fsp->cnum); SSVAL(outbuf,smb_pid,0xFFFF); SSVAL(outbuf,smb_uid,0); SSVAL(outbuf,smb_mid,0xFFFF); SCVAL(outbuf,smb_vwv0,0xFF); SSVAL(outbuf,smb_vwv2,fnum); SCVAL(outbuf,smb_vwv3,LOCKING_ANDX_OPLOCK_RELEASE); /* Change this when we have level II oplocks. */ SCVAL(outbuf,smb_vwv3+1,OPLOCKLEVEL_NONE); send_smb(Client, outbuf); global_oplock_break = True; /* Process incoming messages. */ /* JRA - If we don't get a break from the client in OPLOCK_BREAK_TIMEOUT seconds we should just die.... */ start_time = time(NULL); while(OPEN_FNUM(fnum) && fsp->granted_oplock) { if(receive_smb(Client,inbuf,OPLOCK_BREAK_TIMEOUT * 1000) == False) { /* * Die if we got an error. */ if (smb_read_error == READ_EOF) DEBUG(0,("oplock_break: end of file from client\n")); if (smb_read_error == READ_ERROR) DEBUG(0,("oplock_break: receive_smb error (%s)\n", strerror(errno))); if (smb_read_error == READ_TIMEOUT) DEBUG(0,("oplock_break: receive_smb timed out after %d seconds.\n", OPLOCK_BREAK_TIMEOUT)); DEBUG(0,("oplock_break failed for file %s (fnum = %d, dev = %x, \ inode = %x).\n", fsp->name, fnum, dev, inode)); shutdown_server = True; break; } process_smb(inbuf, outbuf); /* We only need this in case a readraw crossed on the wire. */ if(global_oplock_break) global_oplock_break = False; /* * Die if we go over the time limit. */ if((time(NULL) - start_time) > OPLOCK_BREAK_TIMEOUT) { DEBUG(0,("oplock_break: no break received from client within \ %d seconds.\n", OPLOCK_BREAK_TIMEOUT)); DEBUG(0,("oplock_break failed for file %s (fnum = %d, dev = %x, \ inode = %x).\n", fsp->name, fnum, dev, inode)); shutdown_server = True; break; } } /* * If the client did not respond we must die. */ if(shutdown_server) { DEBUG(0,("oplock_break: client failure in break - shutting down this smbd.\n")); close_sockets(); close(oplock_sock); exit_server("oplock break failure"); } if(OPEN_FNUM(fnum)) { /* The lockingX reply will have removed the oplock flag from the sharemode. */ /* Paranoia.... */ fsp->granted_oplock = False; } global_oplocks_open--; /* Santity check - remove this later. JRA */ if(global_oplocks_open < 0) { DEBUG(0,("oplock_break: global_oplocks_open < 0 (%d). PANIC ERROR\n", global_oplocks_open)); exit_server("oplock_break: global_oplocks_open < 0"); } DEBUG(5,("oplock_break: returning success for fnum = %d, dev = %x, inode = %x. Current \ global_oplocks_open = %d\n", fnum, dev, inode, global_oplocks_open)); return True; } /**************************************************************************** Send an oplock break message to another smbd process. If the oplock is held by the local smbd then call the oplock break function directly. ****************************************************************************/ BOOL request_oplock_break(share_mode_entry *share_entry, uint32 dev, uint32 inode) { char op_break_msg[OPLOCK_BREAK_MSG_LEN]; struct sockaddr_in addr_out; int pid = getpid(); if(pid == share_entry->pid) { /* We are breaking our own oplock, make sure it's us. */ if(share_entry->op_port != oplock_port) { DEBUG(0,("request_oplock_break: corrupt share mode entry - pid = %d, port = %d \ should be %d\n", pid, share_entry->op_port, oplock_port)); return False; } DEBUG(5,("request_oplock_break: breaking our own oplock\n")); /* Call oplock break direct. */ return oplock_break(dev, inode, &share_entry->time); } /* We need to send a OPLOCK_BREAK_CMD message to the port in the share mode entry. */ SSVAL(op_break_msg,UDP_MESSAGE_CMD_OFFSET,OPLOCK_BREAK_CMD); SIVAL(op_break_msg,OPLOCK_BREAK_PID_OFFSET,pid); SIVAL(op_break_msg,OPLOCK_BREAK_DEV_OFFSET,dev); SIVAL(op_break_msg,OPLOCK_BREAK_INODE_OFFSET,inode); SIVAL(op_break_msg,OPLOCK_BREAK_SEC_OFFSET,(uint32)share_entry->time.tv_sec); SIVAL(op_break_msg,OPLOCK_BREAK_USEC_OFFSET,(uint32)share_entry->time.tv_usec); /* set the address and port */ bzero((char *)&addr_out,sizeof(addr_out)); addr_out.sin_addr.s_addr = htonl(INADDR_LOOPBACK); addr_out.sin_port = htons( share_entry->op_port ); addr_out.sin_family = AF_INET; DEBUG(3,("request_oplock_break: sending a oplock break message to pid %d on port %d \ for dev = %x, inode = %x\n", share_entry->pid, share_entry->op_port, dev, inode)); if(sendto(oplock_sock,op_break_msg,OPLOCK_BREAK_MSG_LEN,0, (struct sockaddr *)&addr_out,sizeof(addr_out)) < 0) { DEBUG(0,("request_oplock_break: failed when sending a oplock break message \ to pid %d on port %d for dev = %x, inode = %x. Error was %s\n", share_entry->pid, share_entry->op_port, dev, inode, strerror(errno))); return False; } /* * Now we must await the oplock broken message coming back * from the target smbd process. Timeout if it fails to * return in OPLOCK_BREAK_TIMEOUT seconds. * While we get messages that aren't ours, loop. */ while(1) { char op_break_reply[UDP_CMD_HEADER_LEN+OPLOCK_BREAK_MSG_LEN]; int32 reply_msg_len; uint16 reply_from_port; char *reply_msg_start; if(receive_local_message(oplock_sock, op_break_reply, sizeof(op_break_reply), OPLOCK_BREAK_TIMEOUT * 1000) == False) { if(smb_read_error == READ_TIMEOUT) DEBUG(0,("request_oplock_break: no response received to oplock break request to \ pid %d on port %d for dev = %x, inode = %x\n", share_entry->pid, share_entry->op_port, dev, inode)); else DEBUG(0,("request_oplock_break: error in response received to oplock break request to \ pid %d on port %d for dev = %x, inode = %x. Error was (%s).\n", share_entry->pid, share_entry->op_port, dev, inode, strerror(errno))); return False; } /* * If the response we got was not an answer to our message, but * was a completely different request, push it onto the pending * udp message stack so that we can deal with it in the main loop. * It may be another oplock break request to us. */ /* * Local note from JRA. There exists the possibility of a denial * of service attack here by allowing non-root processes running * on a local machine sending many of these pending messages to * a smbd port. Currently I'm not sure how to restrict the messages * I will queue (although I could add a limit to the queue) to * those received by root processes only. There should be a * way to make this bulletproof.... */ reply_msg_len = IVAL(op_break_reply,UDP_CMD_LEN_OFFSET); reply_from_port = SVAL(op_break_reply,UDP_CMD_PORT_OFFSET); reply_msg_start = &op_break_reply[UDP_CMD_HEADER_LEN]; if(reply_msg_len != OPLOCK_BREAK_MSG_LEN) { /* Ignore it. */ DEBUG(0,("request_oplock_break: invalid message length received. Ignoring\n")); continue; } if(((SVAL(reply_msg_start,UDP_MESSAGE_CMD_OFFSET) & CMD_REPLY) == 0) || (reply_from_port != share_entry->op_port) || (memcmp(&reply_msg_start[OPLOCK_BREAK_PID_OFFSET], &op_break_msg[OPLOCK_BREAK_PID_OFFSET], OPLOCK_BREAK_MSG_LEN - OPLOCK_BREAK_PID_OFFSET) != 0)) { DEBUG(3,("request_oplock_break: received other message whilst awaiting \ oplock break response from pid %d on port %d for dev = %x, inode = %x.\n", share_entry->pid, share_entry->op_port, dev, inode)); if(push_local_message(op_break_reply, sizeof(op_break_reply)) == False) return False; continue; } break; } DEBUG(3,("request_oplock_break: broke oplock.\n")); return True; } /**************************************************************************** check if a snum is in use ****************************************************************************/ BOOL snum_used(int snum) { int i; for (i=0;i 16000 || uid < 0 || uid > 16000) DEBUG(0,("This is probably a problem with the account %s\n",user)); } } else { int i,ngroups; int *igroups; int *attrs; gid_t grp = 0; ngroups = getgroups(0,&grp); if (ngroups <= 0) ngroups = 32; igroups = (int *)malloc(sizeof(int)*ngroups); attrs = (int *)malloc(sizeof(int)*ngroups); for (i=0;i 0) { /* does getgroups return ints or gid_t ?? */ static BOOL groups_use_ints = True; if (groups_use_ints && ngroups == 1 && SVAL(igroups,2) == 0x4242) groups_use_ints = False; for (i=0;groups_use_ints && iread_only = lp_readonly(snum); { pstring list; StrnCpy(list,lp_readlist(snum),sizeof(pstring)-1); string_sub(list,"%S",service); if (user_in_list(user,list)) pcon->read_only = True; StrnCpy(list,lp_writelist(snum),sizeof(pstring)-1); string_sub(list,"%S",service); if (user_in_list(user,list)) pcon->read_only = False; } /* admin user check */ /* JRA - original code denied admin user if the share was marked read_only. Changed as I don't think this is needed, but old code left in case there is a problem here. */ if (user_in_list(user,lp_admin_users(snum)) #if 0 && !pcon->read_only) #else ) #endif { pcon->admin_user = True; DEBUG(0,("%s logged in as admin user (root privileges)\n",user)); } else pcon->admin_user = False; pcon->force_user = force; pcon->vuid = vuid; pcon->uid = pass->pw_uid; pcon->gid = pass->pw_gid; pcon->num_files_open = 0; pcon->lastused = time(NULL); pcon->service = snum; pcon->used = True; pcon->printer = (strncmp(dev,"LPT",3) == 0); pcon->ipc = (strncmp(dev,"IPC",3) == 0); pcon->dirptr = NULL; pcon->veto_list = NULL; pcon->hide_list = NULL; string_set(&pcon->dirpath,""); string_set(&pcon->user,user); #if HAVE_GETGRNAM if (*lp_force_group(snum)) { struct group *gptr; pstring gname; StrnCpy(gname,lp_force_group(snum),sizeof(pstring)-1); /* default service may be a group name */ string_sub(gname,"%S",service); gptr = (struct group *)getgrnam(gname); if (gptr) { pcon->gid = gptr->gr_gid; DEBUG(3,("Forced group %s\n",gname)); } else DEBUG(1,("Couldn't find group %s\n",gname)); } #endif if (*lp_force_user(snum)) { struct passwd *pass2; fstring fuser; fstrcpy(fuser,lp_force_user(snum)); pass2 = (struct passwd *)Get_Pwnam(fuser,True); if (pass2) { pcon->uid = pass2->pw_uid; string_set(&pcon->user,fuser); fstrcpy(user,fuser); pcon->force_user = True; DEBUG(3,("Forced user %s\n",fuser)); } else DEBUG(1,("Couldn't find user %s\n",fuser)); } { pstring s; pstrcpy(s,lp_pathname(snum)); standard_sub(cnum,s); string_set(&pcon->connectpath,s); DEBUG(3,("Connect path is %s\n",s)); } /* groups stuff added by ih */ pcon->ngroups = 0; pcon->igroups = NULL; pcon->groups = NULL; pcon->attrs = NULL; if (!IS_IPC(cnum)) { /* Find all the groups this uid is in and store them. Used by become_user() */ setup_groups(pcon->user,pcon->uid,pcon->gid, &pcon->ngroups,&pcon->igroups,&pcon->groups,&pcon->attrs); /* check number of connections */ if (!claim_connection(cnum, lp_servicename(SNUM(cnum)), lp_max_connections(SNUM(cnum)),False)) { DEBUG(1,("too many connections - rejected\n")); return(-8); } if (lp_status(SNUM(cnum))) claim_connection(cnum,"STATUS.",MAXSTATUS,first_connection); first_connection = False; } /* IS_IPC */ pcon->open = True; /* execute any "root preexec = " line */ if (*lp_rootpreexec(SNUM(cnum))) { pstring cmd; pstrcpy(cmd,lp_rootpreexec(SNUM(cnum))); standard_sub(cnum,cmd); DEBUG(5,("cmd=%s\n",cmd)); smbrun(cmd,NULL,False); } if (!become_user(&Connections[cnum], cnum,pcon->vuid)) { DEBUG(0,("Can't become connected user!\n")); pcon->open = False; if (!IS_IPC(cnum)) { yield_connection(cnum, lp_servicename(SNUM(cnum)), lp_max_connections(SNUM(cnum))); if (lp_status(SNUM(cnum))) yield_connection(cnum,"STATUS.",MAXSTATUS); } return(-1); } if (ChDir(pcon->connectpath) != 0) { DEBUG(0,("Can't change directory to %s (%s)\n", pcon->connectpath,strerror(errno))); pcon->open = False; unbecome_user(); if (!IS_IPC(cnum)) { yield_connection(cnum, lp_servicename(SNUM(cnum)), lp_max_connections(SNUM(cnum))); if (lp_status(SNUM(cnum))) yield_connection(cnum,"STATUS.",MAXSTATUS); } return(-5); } string_set(&pcon->origpath,pcon->connectpath); #if SOFTLINK_OPTIMISATION /* resolve any soft links early */ { pstring s; pstrcpy(s,pcon->connectpath); GetWd(s); string_set(&pcon->connectpath,s); ChDir(pcon->connectpath); } #endif num_connections_open++; add_session_user(user); /* execute any "preexec = " line */ if (*lp_preexec(SNUM(cnum))) { pstring cmd; pstrcpy(cmd,lp_preexec(SNUM(cnum))); standard_sub(cnum,cmd); smbrun(cmd,NULL,False); } /* we've finished with the sensitive stuff */ unbecome_user(); /* Add veto/hide lists */ if (!IS_IPC(cnum) && !IS_PRINT(cnum)) { set_namearray( &pcon->veto_list, lp_veto_files(SNUM(cnum))); set_namearray( &pcon->hide_list, lp_hide_files(SNUM(cnum))); } { DEBUG(IS_IPC(cnum)?3:1,("%s %s (%s) connect to service %s as user %s (uid=%d,gid=%d) (pid %d)\n", timestring(), remote_machine, client_addr(), lp_servicename(SNUM(cnum)),user, pcon->uid, pcon->gid, (int)getpid())); } return(cnum); } /**************************************************************************** find first available file slot ****************************************************************************/ int find_free_file(void ) { int i; /* we start at 1 here for an obscure reason I can't now remember, but I think is important :-) */ for (i=1;i=SEC_USER) secword |= 1; if (doencrypt) secword |= 2; set_message(outbuf,13,doencrypt?8:0,True); SSVAL(outbuf,smb_vwv1,secword); /* Create a token value and add it to the outgoing packet. */ if (doencrypt) generate_next_challenge(smb_buf(outbuf)); Protocol = PROTOCOL_LANMAN1; CVAL(outbuf,smb_flg) = 0x81; /* Reply, SMBlockread, SMBwritelock supported */ SSVAL(outbuf,smb_vwv2,max_recv); SSVAL(outbuf,smb_vwv3,lp_maxmux()); /* maxmux */ SSVAL(outbuf,smb_vwv4,1); SSVAL(outbuf,smb_vwv5,raw); /* tell redirector we support readbraw writebraw (possibly) */ SIVAL(outbuf,smb_vwv6,getpid()); SSVAL(outbuf,smb_vwv10, TimeDiff(t)/60); put_dos_date(outbuf,smb_vwv8,t); return (smb_len(outbuf)+4); } /**************************************************************************** reply for the lanman 2.0 protocol ****************************************************************************/ int reply_lanman2(char *outbuf) { int raw = (lp_readraw()?1:0) | (lp_writeraw()?2:0); int secword=0; BOOL doencrypt = SMBENCRYPT(); time_t t = time(NULL); struct cli_state *cli = NULL; char cryptkey[8]; char crypt_len = 0; if (lp_security() == SEC_SERVER) { cli = server_cryptkey(); } if (cli) { DEBUG(3,("using password server validation\n")); doencrypt = ((cli->sec_mode & 2) != 0); } if (lp_security()>=SEC_USER) secword |= 1; if (doencrypt) secword |= 2; if (doencrypt) { crypt_len = 8; if (!cli) { generate_next_challenge(cryptkey); } else { memcpy(cryptkey, cli->cryptkey, 8); set_challenge(cli->cryptkey); } } set_message(outbuf,13,crypt_len,True); SSVAL(outbuf,smb_vwv1,secword); SIVAL(outbuf,smb_vwv6,getpid()); if (doencrypt) memcpy(smb_buf(outbuf), cryptkey, 8); Protocol = PROTOCOL_LANMAN2; CVAL(outbuf,smb_flg) = 0x81; /* Reply, SMBlockread, SMBwritelock supported */ SSVAL(outbuf,smb_vwv2,max_recv); SSVAL(outbuf,smb_vwv3,lp_maxmux()); SSVAL(outbuf,smb_vwv4,1); SSVAL(outbuf,smb_vwv5,raw); /* readbraw and/or writebraw */ SSVAL(outbuf,smb_vwv10, TimeDiff(t)/60); put_dos_date(outbuf,smb_vwv8,t); return (smb_len(outbuf)+4); } /**************************************************************************** reply for the nt protocol ****************************************************************************/ int reply_nt1(char *outbuf) { /* dual names + lock_and_read + nt SMBs + remote API calls */ int capabilities = CAP_NT_FIND|CAP_LOCK_AND_READ; /* other valid capabilities which we may support at some time... CAP_LARGE_FILES|CAP_NT_SMBS|CAP_RPC_REMOTE_APIS; CAP_LARGE_READX|CAP_STATUS32|CAP_LEVEL_II_OPLOCKS; */ int secword=0; BOOL doencrypt = SMBENCRYPT(); time_t t = time(NULL); int data_len; struct cli_state *cli = NULL; char cryptkey[8]; char crypt_len = 0; if (lp_security() == SEC_SERVER) { cli = server_cryptkey(); } if (cli) { DEBUG(3,("using password server validation\n")); doencrypt = ((cli->sec_mode & 2) != 0); } if (doencrypt) { crypt_len = 8; if (!cli) { generate_next_challenge(cryptkey); } else { memcpy(cryptkey, cli->cryptkey, 8); set_challenge(cli->cryptkey); } } if (lp_readraw() && lp_writeraw()) { capabilities |= CAP_RAW_MODE; } if (lp_security() >= SEC_USER) secword |= 1; if (doencrypt) secword |= 2; /* decide where (if) to put the encryption challenge, and follow it with the OEM'd domain name */ data_len = crypt_len + strlen(myworkgroup) + 1; set_message(outbuf,17,data_len,True); strcpy(smb_buf(outbuf)+crypt_len, myworkgroup); CVAL(outbuf,smb_vwv1) = secword; SSVALS(outbuf,smb_vwv16+1,crypt_len); if (doencrypt) memcpy(smb_buf(outbuf), cryptkey, 8); Protocol = PROTOCOL_NT1; SSVAL(outbuf,smb_vwv1+1,lp_maxmux()); /* maxmpx */ SSVAL(outbuf,smb_vwv2+1,1); /* num vcs */ SIVAL(outbuf,smb_vwv3+1,0xffff); /* max buffer. LOTS! */ SIVAL(outbuf,smb_vwv5+1,0xffff); /* raw size. LOTS! */ SIVAL(outbuf,smb_vwv7+1,getpid()); /* session key */ SIVAL(outbuf,smb_vwv9+1,capabilities); /* capabilities */ put_long_date(outbuf+smb_vwv11+1,t); SSVALS(outbuf,smb_vwv15+1,TimeDiff(t)/60); SSVAL(outbuf,smb_vwv17,data_len); /* length of challenge+domain strings */ return (smb_len(outbuf)+4); } /* these are the protocol lists used for auto architecture detection: WinNT 3.51: protocol [PC NETWORK PROGRAM 1.0] protocol [XENIX CORE] protocol [MICROSOFT NETWORKS 1.03] protocol [LANMAN1.0] protocol [Windows for Workgroups 3.1a] protocol [LM1.2X002] protocol [LANMAN2.1] protocol [NT LM 0.12] Win95: protocol [PC NETWORK PROGRAM 1.0] protocol [XENIX CORE] protocol [MICROSOFT NETWORKS 1.03] protocol [LANMAN1.0] protocol [Windows for Workgroups 3.1a] protocol [LM1.2X002] protocol [LANMAN2.1] protocol [NT LM 0.12] OS/2: protocol [PC NETWORK PROGRAM 1.0] protocol [XENIX CORE] protocol [LANMAN1.0] protocol [LM1.2X002] protocol [LANMAN2.1] */ /* * Modified to recognize the architecture of the remote machine better. * * This appears to be the matrix of which protocol is used by which * MS product. Protocol WfWg Win95 WinNT OS/2 PC NETWORK PROGRAM 1.0 1 1 1 1 XENIX CORE 2 2 MICROSOFT NETWORKS 3.0 2 2 DOS LM1.2X002 3 3 MICROSOFT NETWORKS 1.03 3 DOS LANMAN2.1 4 4 LANMAN1.0 4 3 Windows for Workgroups 3.1a 5 5 5 LM1.2X002 6 4 LANMAN2.1 7 5 NT LM 0.12 6 8 * * tim@fsg.com 09/29/95 */ #define ARCH_WFWG 0x3 /* This is a fudge because WfWg is like Win95 */ #define ARCH_WIN95 0x2 #define ARCH_OS2 0xC /* Again OS/2 is like NT */ #define ARCH_WINNT 0x8 #define ARCH_SAMBA 0x10 #define ARCH_ALL 0x1F /* List of supported protocols, most desired first */ struct { char *proto_name; char *short_name; int (*proto_reply_fn)(char *); int protocol_level; } supported_protocols[] = { {"NT LANMAN 1.0", "NT1", reply_nt1, PROTOCOL_NT1}, {"NT LM 0.12", "NT1", reply_nt1, PROTOCOL_NT1}, {"LM1.2X002", "LANMAN2", reply_lanman2, PROTOCOL_LANMAN2}, {"Samba", "LANMAN2", reply_lanman2, PROTOCOL_LANMAN2}, {"DOS LM1.2X002", "LANMAN2", reply_lanman2, PROTOCOL_LANMAN2}, {"LANMAN1.0", "LANMAN1", reply_lanman1, PROTOCOL_LANMAN1}, {"MICROSOFT NETWORKS 3.0", "LANMAN1", reply_lanman1, PROTOCOL_LANMAN1}, {"MICROSOFT NETWORKS 1.03", "COREPLUS", reply_coreplus, PROTOCOL_COREPLUS}, {"PC NETWORK PROGRAM 1.0", "CORE", reply_corep, PROTOCOL_CORE}, {NULL,NULL}, }; /**************************************************************************** reply to a negprot ****************************************************************************/ static int reply_negprot(char *inbuf,char *outbuf) { int outsize = set_message(outbuf,1,0,True); int Index=0; int choice= -1; int protocol; char *p; int bcc = SVAL(smb_buf(inbuf),-2); int arch = ARCH_ALL; p = smb_buf(inbuf)+1; while (p < (smb_buf(inbuf) + bcc)) { Index++; DEBUG(3,("Requested protocol [%s]\n",p)); if (strcsequal(p,"Windows for Workgroups 3.1a")) arch &= ( ARCH_WFWG | ARCH_WIN95 | ARCH_WINNT ); else if (strcsequal(p,"DOS LM1.2X002")) arch &= ( ARCH_WFWG | ARCH_WIN95 ); else if (strcsequal(p,"DOS LANMAN2.1")) arch &= ( ARCH_WFWG | ARCH_WIN95 ); else if (strcsequal(p,"NT LM 0.12")) arch &= ( ARCH_WIN95 | ARCH_WINNT ); else if (strcsequal(p,"LANMAN2.1")) arch &= ( ARCH_WINNT | ARCH_OS2 ); else if (strcsequal(p,"LM1.2X002")) arch &= ( ARCH_WINNT | ARCH_OS2 ); else if (strcsequal(p,"MICROSOFT NETWORKS 1.03")) arch &= ARCH_WINNT; else if (strcsequal(p,"XENIX CORE")) arch &= ( ARCH_WINNT | ARCH_OS2 ); else if (strcsequal(p,"Samba")) { arch = ARCH_SAMBA; break; } p += strlen(p) + 2; } switch ( arch ) { case ARCH_SAMBA: set_remote_arch(RA_SAMBA); break; case ARCH_WFWG: set_remote_arch(RA_WFWG); break; case ARCH_WIN95: set_remote_arch(RA_WIN95); break; case ARCH_WINNT: set_remote_arch(RA_WINNT); break; case ARCH_OS2: set_remote_arch(RA_OS2); break; default: set_remote_arch(RA_UNKNOWN); break; } /* possibly reload - change of architecture */ reload_services(True); /* a special case to stop password server loops */ if (Index == 1 && strequal(remote_machine,myhostname) && lp_security()==SEC_SERVER) exit_server("Password server loop!"); /* Check for protocols, most desirable first */ for (protocol = 0; supported_protocols[protocol].proto_name; protocol++) { p = smb_buf(inbuf)+1; Index = 0; if (lp_maxprotocol() >= supported_protocols[protocol].protocol_level) while (p < (smb_buf(inbuf) + bcc)) { if (strequal(p,supported_protocols[protocol].proto_name)) choice = Index; Index++; p += strlen(p) + 2; } if(choice != -1) break; } SSVAL(outbuf,smb_vwv0,choice); if(choice != -1) { extern fstring remote_proto; fstrcpy(remote_proto,supported_protocols[protocol].short_name); reload_services(True); outsize = supported_protocols[protocol].proto_reply_fn(outbuf); DEBUG(3,("Selected protocol %s\n",supported_protocols[protocol].proto_name)); } else { DEBUG(0,("No protocol supported !\n")); } SSVAL(outbuf,smb_vwv0,choice); DEBUG(5,("%s negprot index=%d\n",timestring(),choice)); return(outsize); } /**************************************************************************** close all open files for a connection ****************************************************************************/ static void close_open_files(int cnum) { int i; for (i=0;i=total_recs || fseek(f,i*sizeof(crec),SEEK_SET) != 0 || fread(&crec,sizeof(crec),1,f) != 1) { if (foundi < 0) foundi = i; break; } if (Clear && crec.pid && !process_exists(crec.pid)) { fseek(f,i*sizeof(crec),SEEK_SET); bzero((void *)&crec,sizeof(crec)); fwrite(&crec,sizeof(crec),1,f); if (foundi < 0) foundi = i; continue; } if (foundi < 0 && (!crec.pid || !process_exists(crec.pid))) { foundi=i; if (!Clear) break; } } if (foundi < 0) { DEBUG(3,("no free locks in %s\n",fname)); fclose(f); return(False); } /* fill in the crec */ bzero((void *)&crec,sizeof(crec)); crec.magic = 0x280267; crec.pid = getpid(); crec.cnum = cnum; crec.uid = Connections[cnum].uid; crec.gid = Connections[cnum].gid; StrnCpy(crec.name,lp_servicename(snum),sizeof(crec.name)-1); crec.start = time(NULL); StrnCpy(crec.machine,remote_machine,sizeof(crec.machine)-1); StrnCpy(crec.addr,client_addr(),sizeof(crec.addr)-1); /* make our mark */ if (fseek(f,foundi*sizeof(crec),SEEK_SET) != 0 || fwrite(&crec,sizeof(crec),1,f) != 1) { fclose(f); return(False); } fclose(f); return(True); } #if DUMP_CORE /******************************************************************* prepare to dump a core file - carefully! ********************************************************************/ static BOOL dump_core(void) { char *p; pstring dname; pstrcpy(dname,debugf); if ((p=strrchr(dname,'/'))) *p=0; strcat(dname,"/corefiles"); mkdir(dname,0700); sys_chown(dname,getuid(),getgid()); chmod(dname,0700); if (chdir(dname)) return(False); umask(~(0700)); #ifndef NO_GETRLIMIT #ifdef RLIMIT_CORE { struct rlimit rlp; getrlimit(RLIMIT_CORE, &rlp); rlp.rlim_cur = MAX(4*1024*1024,rlp.rlim_cur); setrlimit(RLIMIT_CORE, &rlp); getrlimit(RLIMIT_CORE, &rlp); DEBUG(3,("Core limits now %d %d\n",rlp.rlim_cur,rlp.rlim_max)); } #endif #endif DEBUG(0,("Dumping core in %s\n",dname)); return(True); } #endif /**************************************************************************** exit the server ****************************************************************************/ void exit_server(char *reason) { static int firsttime=1; int i; if (!firsttime) exit(0); firsttime = 0; unbecome_user(); DEBUG(2,("Closing connections\n")); for (i=0;i 4) smb_setlen(outbuf,outsize - 4); return(outsize); } /**************************************************************************** process commands from the client ****************************************************************************/ static void process(void) { extern int Client; InBuffer = (char *)malloc(BUFFER_SIZE + SAFETY_MARGIN); OutBuffer = (char *)malloc(BUFFER_SIZE + SAFETY_MARGIN); if ((InBuffer == NULL) || (OutBuffer == NULL)) return; InBuffer += SMB_ALIGNMENT; OutBuffer += SMB_ALIGNMENT; #if PRIME_NMBD DEBUG(3,("priming nmbd\n")); { struct in_addr ip; ip = *interpret_addr2("localhost"); if (zero_ip(ip)) ip = *interpret_addr2("127.0.0.1"); *OutBuffer = 0; send_one_packet(OutBuffer,1,ip,NMB_PORT,SOCK_DGRAM); } #endif while (True) { int deadtime = lp_deadtime()*60; int counter; int last_keepalive=0; int service_load_counter = 0; BOOL got_smb = False; if (deadtime <= 0) deadtime = DEFAULT_SMBD_TIMEOUT; #if USE_READ_PREDICTION if (lp_readprediction()) do_read_prediction(); #endif errno = 0; for (counter=SMBD_SELECT_LOOP; !receive_message_or_smb(Client,oplock_sock, InBuffer,BUFFER_SIZE,SMBD_SELECT_LOOP*1000,&got_smb); counter += SMBD_SELECT_LOOP) { int i; time_t t; BOOL allidle = True; extern int keepalive; if (counter > 365 * 3600) /* big number of seconds. */ { counter = 0; service_load_counter = 0; } if (smb_read_error == READ_EOF) { DEBUG(3,("end of file from client\n")); return; } if (smb_read_error == READ_ERROR) { DEBUG(3,("receive_smb error (%s) exiting\n", strerror(errno))); return; } t = time(NULL); /* become root again if waiting */ unbecome_user(); /* check for smb.conf reload */ if (counter >= service_load_counter + SMBD_RELOAD_CHECK) { service_load_counter = counter; /* reload services, if files have changed. */ reload_services(True); } /* automatic timeout if all connections are closed */ if (num_connections_open==0 && counter >= IDLE_CLOSED_TIMEOUT) { DEBUG(2,("%s Closing idle connection\n",timestring())); return; } if (keepalive && (counter-last_keepalive)>keepalive) { struct cli_state *cli = server_client(); if (!send_keepalive(Client)) { DEBUG(2,("%s Keepalive failed - exiting\n",timestring())); return; } /* also send a keepalive to the password server if its still connected */ if (cli && cli->initialised) send_keepalive(cli->fd); last_keepalive = counter; } /* check for connection timeouts */ for (i=0;iDPTR_IDLE_TIMEOUT) dptr_idlecnum(i); if (Connections[i].num_files_open > 0 || (t-Connections[i].lastused)0) { DEBUG(2,("%s Closing idle connection 2\n",timestring())); return; } } if(got_smb) process_smb(InBuffer, OutBuffer); else process_local_message(oplock_sock, InBuffer, BUFFER_SIZE); } } /**************************************************************************** initialise connect, service and file structs ****************************************************************************/ static void init_structs(void ) { int i; get_myname(myhostname,NULL); for (i=0;iref_count = 0; fd_ptr->dev = (int32)-1; fd_ptr->inode = (int32)-1; fd_ptr->fd = -1; fd_ptr->fd_readonly = -1; fd_ptr->fd_writeonly = -1; fd_ptr->real_open_flags = -1; } init_dptrs(); } /**************************************************************************** usage on the program ****************************************************************************/ static void usage(char *pname) { DEBUG(0,("Incorrect program usage - are you sure the command line is correct?\n")); printf("Usage: %s [-D] [-p port] [-d debuglevel] [-l log basename] [-s services file]\n",pname); printf("Version %s\n",VERSION); printf("\t-D become a daemon\n"); printf("\t-p port listen on the specified port\n"); printf("\t-d debuglevel set the debuglevel\n"); printf("\t-l log basename. Basename for log/debug files\n"); printf("\t-s services file. Filename of services file\n"); printf("\t-P passive only\n"); printf("\t-a overwrite log file, don't append\n"); printf("\n"); } /**************************************************************************** main program ****************************************************************************/ int main(int argc,char *argv[]) { extern BOOL append_log; /* shall I run as a daemon */ BOOL is_daemon = False; int port = SMB_PORT; int opt; extern char *optarg; char pidFile[100] = { 0 }; #ifdef NEED_AUTH_PARAMETERS set_auth_parameters(argc,argv); #endif #ifdef SecureWare setluid(0); #endif append_log = True; TimeInit(); strcpy(debugf,SMBLOGFILE); setup_logging(argv[0],False); charset_initialise(); /* make absolutely sure we run as root - to handle cases whre people are crazy enough to have it setuid */ #ifdef USE_SETRES setresuid(0,0,0); #else setuid(0); seteuid(0); setuid(0); seteuid(0); #endif fault_setup(exit_server); signal(SIGTERM , SIGNAL_CAST dflt_sig); /* we want total control over the permissions on created files, so set our umask to 0 */ umask(0); GetWd(OriginalDir); init_uid(); /* this is for people who can't start the program correctly */ while (argc > 1 && (*argv[1] != '-')) { argv++; argc--; } while ((opt = getopt(argc, argv, "O:i:l:s:d:Dp:hPaf:")) != EOF) switch (opt) { case 'f': strncpy(pidFile, optarg, sizeof(pidFile)); break; case 'O': strcpy(user_socket_options,optarg); break; case 'i': strcpy(scope,optarg); break; case 'P': { extern BOOL passive; passive = True; } break; case 's': strcpy(servicesf,optarg); break; case 'l': strcpy(debugf,optarg); break; case 'a': { extern BOOL append_log; append_log = !append_log; } break; case 'D': is_daemon = True; break; case 'd': if (*optarg == 'A') DEBUGLEVEL = 10000; else DEBUGLEVEL = atoi(optarg); break; case 'p': port = atoi(optarg); break; case 'h': usage(argv[0]); exit(0); break; default: usage(argv[0]); exit(1); } reopen_logs(); DEBUG(2,("%s smbd version %s started\n",timestring(),VERSION)); DEBUG(2,("Copyright Andrew Tridgell 1992-1997\n")); #ifndef NO_GETRLIMIT #ifdef RLIMIT_NOFILE { struct rlimit rlp; getrlimit(RLIMIT_NOFILE, &rlp); rlp.rlim_cur = (MAX_OPEN_FILES>rlp.rlim_max)? rlp.rlim_max:MAX_OPEN_FILES; setrlimit(RLIMIT_NOFILE, &rlp); getrlimit(RLIMIT_NOFILE, &rlp); DEBUG(3,("Maximum number of open files per session is %d\n",rlp.rlim_cur)); } #endif #endif DEBUG(2,("uid=%d gid=%d euid=%d egid=%d\n", getuid(),getgid(),geteuid(),getegid())); if (sizeof(uint16) < 2 || sizeof(uint32) < 4) { DEBUG(0,("ERROR: Samba is not configured correctly for the word size on your machine\n")); exit(1); } init_structs(); if (!reload_services(False)) return(-1); codepage_initialise(lp_client_code_page()); strcpy(myworkgroup, lp_workgroup()); #ifndef NO_SIGNAL_TEST signal(SIGHUP,SIGNAL_CAST sig_hup); #endif DEBUG(3,("%s loaded services\n",timestring())); if (!is_daemon && !is_a_socket(0)) { DEBUG(0,("standard input is not a socket, assuming -D option\n")); is_daemon = True; } if (is_daemon) { DEBUG(3,("%s becoming a daemon\n",timestring())); become_daemon(); } if (*pidFile) { int fd; char buf[20]; if ((fd = open(pidFile, #ifdef O_NONBLOCK O_NONBLOCK | #endif O_CREAT | O_WRONLY | O_TRUNC, 0644)) < 0) { DEBUG(0,("ERROR: can't open %s: %s\n", pidFile, strerror(errno))); exit(1); } if(fcntl_lock(fd,F_SETLK,0,1,F_WRLCK)==False) { DEBUG(0,("ERROR: smbd is already running\n")); exit(1); } sprintf(buf, "%u\n", (unsigned int) getpid()); if (write(fd, buf, strlen(buf)) < 0) { DEBUG(0,("ERROR: can't write to %s: %s\n", pidFile, strerror(errno))); exit(1); } /* Leave pid file open & locked for the duration... */ } if (!open_sockets(is_daemon,port)) exit(1); if (!locking_init(0)) exit(1); /* possibly reload the services file. */ reload_services(True); max_recv = MIN(lp_maxxmit(),BUFFER_SIZE); if (*lp_rootdir()) { if (sys_chroot(lp_rootdir()) == 0) DEBUG(2,("%s changed root to %s\n",timestring(),lp_rootdir())); } /* Setup the oplock IPC socket. */ if(!open_oplock_ipc()) exit(1); process(); close_sockets(); exit_server("normal exit"); return(0); }