/* Unix SMB/CIFS implementation. Name mangling Copyright (C) Andrew Tridgell 1992-2002 Copyright (C) Simo Sorce 2001 Copyright (C) Andrew Bartlett 2002 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* -------------------------------------------------------------------------- ** * Notable problems... * * March/April 1998 CRH * - Many of the functions in this module overwrite string buffers passed to * them. This causes a variety of problems and is, generally speaking, * dangerous and scarry. See the kludge notes in name_map() * below. * - It seems that something is calling name_map() twice. The * first call is probably some sort of test. Names which contain * illegal characters are being doubly mangled. I'm not sure, but * I'm guessing the problem is in server.c. * * -------------------------------------------------------------------------- ** */ /* -------------------------------------------------------------------------- ** * History... * * March/April 1998 CRH * Updated a bit. Rewrote is_mangled() to be a bit more selective. * Rewrote the mangled name cache. Added comments here and there. * &c. * -------------------------------------------------------------------------- ** */ #include "includes.h" /* -------------------------------------------------------------------------- ** * External Variables... */ extern int case_default; /* Are conforming 8.3 names all upper or lower? */ extern BOOL case_mangle; /* If true, all chars in 8.3 should be same case. */ /* -------------------------------------------------------------------------- ** * Other stuff... * * magic_char - This is the magic char used for mangling. It's * global. There is a call to lp_magicchar() in server.c * that is used to override the initial value. * * MANGLE_BASE - This is the number of characters we use for name mangling. * * basechars - The set characters used for name mangling. This * is static (scope is this file only). * * mangle() - Macro used to select a character from basechars (i.e., * mangle(n) will return the nth digit, modulo MANGLE_BASE). * * chartest - array 0..255. The index range is the set of all possible * values of a byte. For each byte value, the content is a * two nibble pair. See BASECHAR_MASK and ILLEGAL_MASK, * below. * * ct_initialized - False until the chartest array has been initialized via * a call to init_chartest(). * * BASECHAR_MASK - Masks the upper nibble of a one-byte value. * * ILLEGAL_MASK - Masks the lower nibble of a one-byte value. * * isbasecahr() - Given a character, check the chartest array to see * if that character is in the basechars set. This is * faster than using strchr_m(). * * isillegal() - Given a character, check the chartest array to see * if that character is in the illegal characters set. * This is faster than using strchr_m(). * * mangled_cache - Cache header used for storing mangled -> original * reverse maps. * * mc_initialized - False until the mangled_cache structure has been * initialized via a call to reset_mangled_cache(). * * MANGLED_CACHE_MAX_ENTRIES - Default maximum number of entries for the * cache. A value of 0 indicates "infinite". * * MANGLED_CACHE_MAX_MEMORY - Default maximum amount of memory for the * cache. When the cache was kept as an array of 256 * byte strings, the default cache size was 50 entries. * This required a fixed 12.5Kbytes of memory. The * mangled stack parameter is no longer used (though * this might change). We're now using a fixed 16Kbyte * maximum cache size. This will probably be much more * than 50 entries. */ char magic_char = '~'; static char basechars[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ_-!@#$%"; #define MANGLE_BASE (sizeof(basechars)/sizeof(char)-1) static unsigned char chartest[256] = { 0 }; static BOOL ct_initialized = False; #define mangle(V) ((char)(basechars[(V) % MANGLE_BASE])) #define BASECHAR_MASK 0xf0 #define ILLEGAL_MASK 0x0f #define isbasechar(C) ( (chartest[ ((C) & 0xff) ]) & BASECHAR_MASK ) #define isillegal(C) ( (chartest[ ((C) & 0xff) ]) & ILLEGAL_MASK ) static ubi_cacheRoot mangled_cache[1] = { { { 0, 0, 0, 0 }, 0, 0, 0, 0, 0, 0 } }; static BOOL mc_initialized = False; #define MANGLED_CACHE_MAX_ENTRIES 1024 #define MANGLED_CACHE_MAX_MEMORY 0 /* -------------------------------------------------------------------------- ** * External Variables... */ extern int case_default; /* Are conforming 8.3 names all upper or lower? */ extern BOOL case_mangle; /* If true, all chars in 8.3 should be same case. */ /* -------------------------------------------------------------------- */ static NTSTATUS has_valid_chars(const smb_ucs2_t *s, BOOL allow_wildcards) { if (!s || !*s) return NT_STATUS_INVALID_PARAMETER; /* CHECK: this should not be necessary if the ms wild chars are not valid in valid.dat --- simo */ if (!allow_wildcards && ms_has_wild_w(s)) return NT_STATUS_UNSUCCESSFUL; while (*s) { if(!isvalid83_w(*s)) return NT_STATUS_UNSUCCESSFUL; s++; } return NT_STATUS_OK; } /* return False if something fail and * return 2 alloced unicode strings that contain prefix and extension */ static NTSTATUS mangle_get_prefix(const smb_ucs2_t *ucs2_string, smb_ucs2_t **prefix, smb_ucs2_t **extension, BOOL allow_wildcards) { size_t ext_len; smb_ucs2_t *p; *extension = 0; *prefix = strdup_w(ucs2_string); if (!*prefix) { return NT_STATUS_NO_MEMORY; } if ((p = strrchr_w(*prefix, UCS2_CHAR('.')))) { ext_len = strlen_w(p+1); if ((ext_len > 0) && (ext_len < 4) && (p != *prefix) && (NT_STATUS_IS_OK(has_valid_chars(p+1,allow_wildcards)))) /* check extension */ { *p = 0; *extension = strdup_w(p+1); if (!*extension) { SAFE_FREE(*prefix); return NT_STATUS_NO_MEMORY; } } } return NT_STATUS_OK; } /* ************************************************************************** ** * Return NT_STATUS_UNSUCCESSFUL if a name is a special msdos reserved name. * * Input: fname - String containing the name to be tested. * * Output: NT_STATUS_UNSUCCESSFUL, if the name matches one of the list of reserved names. * * Notes: This is a static function called by is_8_3(), below. * * ************************************************************************** ** */ static NTSTATUS is_valid_name(const smb_ucs2_t *fname, BOOL allow_wildcards) { smb_ucs2_t *str, *p; NTSTATUS ret = NT_STATUS_OK; if (!fname || !*fname) return NT_STATUS_INVALID_PARAMETER; /* . and .. are valid names. */ if (strcmp_wa(fname, ".")==0 || strcmp_wa(fname, "..")==0) return NT_STATUS_OK; /* Name cannot start with '.' */ if (*fname == UCS2_CHAR('.')) return NT_STATUS_UNSUCCESSFUL; ret = has_valid_chars(fname, allow_wildcards); if (NT_STATUS_IS_ERR(ret)) return ret; str = strdup_w(fname); p = strchr_w(str, UCS2_CHAR('.')); if (p && p[1] == UCS2_CHAR(0)) { /* Name cannot end in '.' */ SAFE_FREE(str); return NT_STATUS_UNSUCCESSFUL; } if (p) *p = 0; strupper_w(str); p = &(str[1]); switch(str[0]) { case UCS2_CHAR('A'): if(strcmp_wa(p, "UX") == 0) ret = NT_STATUS_UNSUCCESSFUL; break; case UCS2_CHAR('C'): if((strcmp_wa(p, "LOCK$") == 0) || (strcmp_wa(p, "ON") == 0) || (strcmp_wa(p, "OM1") == 0) || (strcmp_wa(p, "OM2") == 0) || (strcmp_wa(p, "OM3") == 0) || (strcmp_wa(p, "OM4") == 0) ) ret = NT_STATUS_UNSUCCESSFUL; break; case UCS2_CHAR('L'): if((strcmp_wa(p, "PT1") == 0) || (strcmp_wa(p, "PT2") == 0) || (strcmp_wa(p, "PT3") == 0) ) ret = NT_STATUS_UNSUCCESSFUL; break; case UCS2_CHAR('N'): if(strcmp_wa(p, "UL") == 0) ret = NT_STATUS_UNSUCCESSFUL; break; case UCS2_CHAR('P'): if(strcmp_wa(p, "RN") == 0) ret = NT_STATUS_UNSUCCESSFUL; break; default: break; } SAFE_FREE(str); return ret; } static NTSTATUS is_8_3_w(const smb_ucs2_t *fname, BOOL allow_wildcards) { smb_ucs2_t *pref = 0, *ext = 0; size_t plen; NTSTATUS ret = NT_STATUS_UNSUCCESSFUL; if (!fname || !*fname) return NT_STATUS_INVALID_PARAMETER; if (strlen_w(fname) > 12) return NT_STATUS_UNSUCCESSFUL; if (strcmp_wa(fname, ".") == 0 || strcmp_wa(fname, "..") == 0) return NT_STATUS_OK; if (NT_STATUS_IS_ERR(is_valid_name(fname, allow_wildcards))) goto done; if (NT_STATUS_IS_ERR(mangle_get_prefix(fname, &pref, &ext, allow_wildcards))) goto done; plen = strlen_w(pref); if (strchr_wa(pref, '.')) goto done; if (plen < 1 || plen > 8) goto done; if (ext && (strlen_w(ext) > 3)) goto done; ret = NT_STATUS_OK; done: SAFE_FREE(pref); SAFE_FREE(ext); return ret; } static BOOL is_8_3(const char *fname, BOOL check_case, BOOL allow_wildcards) { const char *f; smb_ucs2_t *ucs2name; NTSTATUS ret = NT_STATUS_UNSUCCESSFUL; if (!fname || !*fname) return False; if ((f = strrchr(fname, '/')) == NULL) f = fname; else f++; if (strlen(f) > 12) return False; ucs2name = acnv_uxu2(f); if (!ucs2name) { DEBUG(0,("is_8_3: internal error acnv_uxu2() failed!\n")); goto done; } ret = is_8_3_w(ucs2name, allow_wildcards); done: SAFE_FREE(ucs2name); if (!NT_STATUS_IS_OK(ret)) { return False; } return True; } /* -------------------------------------------------------------------------- ** * Functions... */ /* ************************************************************************** ** * Initialize the static character test array. * * Input: none * * Output: none * * Notes: This function changes (loads) the contents of the <chartest> * array. The scope of <chartest> is this file. * * ************************************************************************** ** */ static void init_chartest( void ) { const char *illegalchars = "*\\/?<>|\":"; const unsigned char *s; memset( (char *)chartest, '\0', 256 ); for( s = (const unsigned char *)illegalchars; *s; s++ ) chartest[*s] = ILLEGAL_MASK; for( s = (const unsigned char *)basechars; *s; s++ ) chartest[*s] |= BASECHAR_MASK; ct_initialized = True; } /* ************************************************************************** ** * Return True if the name *could be* a mangled name. * * Input: s - A path name - in UNIX pathname format. * * Output: True if the name matches the pattern described below in the * notes, else False. * * Notes: The input name is *not* tested for 8.3 compliance. This must be * done separately. This function returns true if the name contains * a magic character followed by excactly two characters from the * basechars list (above), which in turn are followed either by the * nul (end of string) byte or a dot (extension) or by a '/' (end of * a directory name). * * ************************************************************************** ** */ static BOOL is_mangled(const char *s) { char *magic; if( !ct_initialized ) init_chartest(); magic = strchr_m( s, magic_char ); while( magic && magic[1] && magic[2] ) { /* 3 chars, 1st is magic. */ if( ('.' == magic[3] || '/' == magic[3] || !(magic[3])) /* Ends with '.' or nul or '/' ? */ && isbasechar( toupper(magic[1]) ) /* is 2nd char basechar? */ && isbasechar( toupper(magic[2]) ) ) /* is 3rd char basechar? */ return( True ); /* If all above, then true, */ magic = strchr_m( magic+1, magic_char ); /* else seek next magic. */ } return( False ); } /* ************************************************************************** ** * Compare two cache keys and return a value indicating their ordinal * relationship. * * Input: ItemPtr - Pointer to a comparison key. In this case, this will * be a mangled name string. * NodePtr - Pointer to a node in the cache. The node structure * will be followed in memory by a mangled name string. * * Output: A signed integer, as follows: * (x < 0) <==> Key1 less than Key2 * (x == 0) <==> Key1 equals Key2 * (x > 0) <==> Key1 greater than Key2 * * Notes: This is a ubiqx-style comparison routine. See ubi_BinTree for * more info. * * ************************************************************************** ** */ static signed int cache_compare( ubi_btItemPtr ItemPtr, ubi_btNodePtr NodePtr ) { char *Key1 = (char *)ItemPtr; char *Key2 = (char *)(((ubi_cacheEntryPtr)NodePtr) + 1); return( StrCaseCmp( Key1, Key2 ) ); } /* ************************************************************************** ** * Free a cache entry. * * Input: WarrenZevon - Pointer to the entry that is to be returned to * Nirvana. * Output: none. * * Notes: This function gets around the possibility that the standard * free() function may be implemented as a macro, or other evil * subversions (oh, so much fun). * * ************************************************************************** ** */ static void cache_free_entry( ubi_trNodePtr WarrenZevon ) { ZERO_STRUCTP(WarrenZevon); SAFE_FREE( WarrenZevon ); } /* ************************************************************************** ** * Initializes or clears the mangled cache. * * Input: none. * Output: none. * * Notes: There is a section below that is commented out. It shows how * one might use lp_ calls to set the maximum memory and entry size * of the cache. You might also want to remove the constants used * in ubi_cacheInit() and replace them with lp_ calls. If so, then * the calls to ubi_cacheSetMax*() would be moved into the else * clause. Another option would be to pass in the max_entries and * max_memory values as parameters. crh 09-Apr-1998. * * ************************************************************************** ** */ static void mangle_reset( void ) { if( !mc_initialized ) { (void)ubi_cacheInit( mangled_cache, cache_compare, cache_free_entry, MANGLED_CACHE_MAX_ENTRIES, MANGLED_CACHE_MAX_MEMORY ); mc_initialized = True; } else { (void)ubi_cacheClear( mangled_cache ); } /* (void)ubi_cacheSetMaxEntries( mangled_cache, lp_mangled_cache_entries() ); (void)ubi_cacheSetMaxMemory( mangled_cache, lp_mangled_cache_memory() ); */ } /* ************************************************************************** ** * Add a mangled name into the cache. * * Notes: If the mangled cache has not been initialized, then the * function will simply fail. It could initialize the cache, * but that's not the way it was done before I changed the * cache mechanism, so I'm sticking with the old method. * * If the extension of the raw name maps directly to the * extension of the mangled name, then we'll store both names * *without* extensions. That way, we can provide consistent * reverse mangling for all names that match. The test here is * a bit more careful than the one done in earlier versions of * mangle.c: * * - the extension must exist on the raw name, * - it must be all lower case * - it must match the mangled extension (to prove that no * mangling occurred). * * crh 07-Apr-1998 * * ************************************************************************** ** */ static void cache_mangled_name( char *mangled_name, char *raw_name ) { ubi_cacheEntryPtr new_entry; char *s1; char *s2; size_t mangled_len; size_t raw_len; size_t i; /* If the cache isn't initialized, give up. */ if( !mc_initialized ) return; /* Init the string lengths. */ mangled_len = strlen( mangled_name ); raw_len = strlen( raw_name ); /* See if the extensions are unmangled. If so, store the entry * without the extension, thus creating a "group" reverse map. */ s1 = strrchr( mangled_name, '.' ); if( s1 && (s2 = strrchr( raw_name, '.' )) ) { i = 1; while( s1[i] && (tolower( s1[i] ) == s2[i]) ) i++; if( !s1[i] && !s2[i] ) { mangled_len -= i; raw_len -= i; } } /* Allocate a new cache entry. If the allocation fails, just return. */ i = sizeof( ubi_cacheEntry ) + mangled_len + raw_len + 2; new_entry = malloc( i ); if( !new_entry ) return; /* Fill the new cache entry, and add it to the cache. */ s1 = (char *)(new_entry + 1); s2 = (char *)&(s1[mangled_len + 1]); safe_strcpy( s1, mangled_name, mangled_len ); safe_strcpy( s2, raw_name, raw_len ); ubi_cachePut( mangled_cache, i, new_entry, s1 ); } /* ************************************************************************** ** * Check for a name on the mangled name stack * * Input: s - Input *and* output string buffer. * * Output: True if the name was found in the cache, else False. * * Notes: If a reverse map is found, the function will overwrite the string * space indicated by the input pointer <s>. This is frightening. * It should be rewritten to return NULL if the long name was not * found, and a pointer to the long name if it was found. * * ************************************************************************** ** */ static BOOL check_cache( char *s ) { ubi_cacheEntryPtr FoundPtr; char *ext_start = NULL; char *found_name; char *saved_ext = NULL; /* If the cache isn't initialized, give up. */ if( !mc_initialized ) return( False ); FoundPtr = ubi_cacheGet( mangled_cache, (ubi_trItemPtr)s ); /* If we didn't find the name *with* the extension, try without. */ if( !FoundPtr ) { ext_start = strrchr( s, '.' ); if( ext_start ) { if((saved_ext = strdup(ext_start)) == NULL) return False; *ext_start = '\0'; FoundPtr = ubi_cacheGet( mangled_cache, (ubi_trItemPtr)s ); /* * At this point s is the name without the * extension. We re-add the extension if saved_ext * is not null, before freeing saved_ext. */ } } /* Okay, if we haven't found it we're done. */ if( !FoundPtr ) { if(saved_ext) { /* Replace the saved_ext as it was truncated. */ (void)pstrcat( s, saved_ext ); SAFE_FREE(saved_ext); } return( False ); } /* If we *did* find it, we need to copy it into the string buffer. */ found_name = (char *)(FoundPtr + 1); found_name += (strlen( found_name ) + 1); (void)pstrcpy( s, found_name ); if( saved_ext ) { /* Replace the saved_ext as it was truncated. */ (void)pstrcat( s, saved_ext ); SAFE_FREE(saved_ext); } return( True ); } /***************************************************************************** * do the actual mangling to 8.3 format * the buffer must be able to hold 13 characters (including the null) ***************************************************************************** */ static void to_8_3(char *s) { int csum; char *p; char extension[4]; char base[9]; int baselen = 0; int extlen = 0; extension[0] = 0; base[0] = 0; p = strrchr(s,'.'); if( p && (strlen(p+1) < (size_t)4) ) { BOOL all_normal = ( strisnormal(p+1) ); /* XXXXXXXXX */ if( all_normal && p[1] != 0 ) { *p = 0; csum = str_checksum( s ); *p = '.'; } else csum = str_checksum(s); } else csum = str_checksum(s); strupper( s ); if( p ) { if( p == s ) safe_strcpy( extension, "___", 3 ); else { *p++ = 0; while( *p && extlen < 3 ) { if ( *p != '.') { extension[extlen++] = p[0]; } p++; } extension[extlen] = 0; } } p = s; while( *p && baselen < 5 ) { if (*p != '.') { base[baselen++] = p[0]; } p++; } base[baselen] = 0; csum = csum % (MANGLE_BASE*MANGLE_BASE); (void)slprintf(s, 12, "%s%c%c%c", base, magic_char, mangle( csum/MANGLE_BASE ), mangle( csum ) ); if( *extension ) { (void)pstrcat( s, "." ); (void)pstrcat( s, extension ); } } /***************************************************************************** * Convert a filename to DOS format. Return True if successful. * * Input: OutName - Source *and* destination buffer. * * NOTE that OutName must point to a memory space that * is at least 13 bytes in size! * * need83 - If False, name mangling will be skipped unless the * name contains illegal characters. Mapping will still * be done, if appropriate. This is probably used to * signal that a client does not require name mangling, * thus skipping the name mangling even on shares which * have name-mangling turned on. * cache83 - If False, the mangled name cache will not be updated. * This is usually used to prevent that we overwrite * a conflicting cache entry prematurely, i.e. before * we know whether the client is really interested in the * current name. (See PR#13758). UKD. * * Output: Returns False only if the name wanted mangling but the share does * not have name mangling turned on. * * **************************************************************************** */ static void name_map(char *OutName, BOOL need83, BOOL cache83) { smb_ucs2_t *OutName_ucs2; DEBUG(5,("name_map( %s, need83 = %s, cache83 = %s)\n", OutName, need83 ? "True" : "False", cache83 ? "True" : "False")); if (push_ucs2_allocate(&OutName_ucs2, OutName) == (size_t)-1) { DEBUG(0, ("push_ucs2_allocate failed!\n")); return; } if( !need83 && NT_STATUS_IS_ERR(is_valid_name(OutName_ucs2, False))) need83 = True; /* check if it's already in 8.3 format */ if (need83 && !NT_STATUS_IS_OK(is_8_3_w(OutName_ucs2, False))) { char *tmp = NULL; /* mangle it into 8.3 */ if (cache83) tmp = strdup(OutName); to_8_3(OutName); if(tmp != NULL) { cache_mangled_name(OutName, tmp); SAFE_FREE(tmp); } } DEBUG(5,("name_map() ==> [%s]\n", OutName)); SAFE_FREE(OutName_ucs2); } /* the following provides the abstraction layer to make it easier to drop in an alternative mangling implementation */ static struct mangle_fns mangle_fns = { is_mangled, is_8_3, mangle_reset, check_cache, name_map }; /* return the methods for this mangling implementation */ struct mangle_fns *mangle_hash_init(void) { mangle_reset(); return &mangle_fns; }