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/*
Unix SMB/CIFS implementation.
new hash based name mangling implementation
Copyright (C) Andrew Tridgell 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.
*/
/*
this mangling scheme uses the following format
Annnn~n.AAA
where nnnnn is a base 36 hash, and A represents characters from the original string
The hash is taken of the leading part of the long filename, in uppercase
for simplicity, we only allow ascii characters in 8.3 names
*/
/*
===============================================================================
NOTE NOTE NOTE!!!
This file deliberately uses non-multibyte string functions in many places. This
is *not* a mistake. This code is multi-byte safe, but it gets this property
through some very subtle knowledge of the way multi-byte strings are encoded
and the fact that this mangling algorithm only supports ascii characters in
8.3 names.
please don't convert this file to use the *_m() functions!!
===============================================================================
*/
#include "includes.h"
#if 0
#define M_DEBUG(level, x) DEBUG(level, x)
#else
#define M_DEBUG(level, x)
#endif
/* these flags are used to mark characters in as having particular
properties */
#define FLAG_BASECHAR 1
#define FLAG_ASCII 2
#define FLAG_ILLEGAL 4
#define FLAG_WILDCARD 8
/* the "possible" flags are used as a fast way to find possible DOS
reserved filenames */
#define FLAG_POSSIBLE1 16
#define FLAG_POSSIBLE2 32
#define FLAG_POSSIBLE3 64
#define FLAG_POSSIBLE4 128
/* by default have a max of 4096 entries in the cache. */
#ifndef MANGLE_CACHE_SIZE
#define MANGLE_CACHE_SIZE 4096
#endif
/* these tables are used to provide fast tests for characters */
static unsigned char char_flags[256];
#define FLAG_CHECK(c, flag) (char_flags[(unsigned char)(c)] & (flag))
/* we will use a very simple direct mapped prefix cache. The big
advantage of this cache structure is speed and low memory usage
The cache is indexed by the low-order bits of the hash, and confirmed by
hashing the resulting cache entry to match the known hash
*/
static char **prefix_cache;
static u32 *prefix_cache_hashes;
/* these are the characters we use in the 8.3 hash. Must be 36 chars long */
static const char *basechars = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";
static unsigned char base_reverse[256];
#define base_forward(v) basechars[v]
/* the list of reserved dos names - all of these are illegal */
static const char *reserved_names[] =
{ "AUX", "LOCK$", "CON", "COM1", "COM2", "COM3", "COM4",
"LPT1", "LPT2", "LPT3", "NUL", "PRN", NULL };
/*
hash a string of the specified length. The string does not need to be
null terminated
this hash needs to be fast with a low collision rate (what hash doesn't?)
*/
static u32 mangle_hash(const char *key, unsigned length)
{
u32 value;
u32 i;
fstring str;
/* we have to uppercase here to ensure that the mangled name
doesn't depend on the case of the long name. Note that this
is the only place where we need to use a multi-byte string
function */
strncpy(str, key, length);
str[length] = 0;
strupper_m(str);
/* the length of a multi-byte string can change after a strupper_m */
length = strlen(str);
/* Set the initial value from the key size. */
for (value = 0x238F13AF * length, i=0; i < length; i++) {
value = (value + (((unsigned char)str[i]) << (i*5 % 24)));
}
/* note that we force it to a 31 bit hash, to keep within the limits
of the 36^6 mangle space */
return (1103515243 * value + 12345) & ~0x80000000;
}
/*
initialise (ie. allocate) the prefix cache
*/
static BOOL cache_init(void)
{
if (prefix_cache) return True;
prefix_cache = malloc(sizeof(char *) * MANGLE_CACHE_SIZE);
if (!prefix_cache) return False;
prefix_cache_hashes = malloc(sizeof(u32) * MANGLE_CACHE_SIZE);
if (!prefix_cache_hashes) return False;
memset(prefix_cache, 0, sizeof(char *) * MANGLE_CACHE_SIZE);
memset(prefix_cache_hashes, 0, sizeof(char *) * MANGLE_CACHE_SIZE);
return True;
}
/*
insert an entry into the prefix cache. The string might not be null
terminated */
static void cache_insert(const char *prefix, int length, u32 hash)
{
int i = hash % MANGLE_CACHE_SIZE;
if (prefix_cache[i]) {
free(prefix_cache[i]);
}
prefix_cache[i] = strndup(prefix, length);
prefix_cache_hashes[i] = hash;
}
/*
lookup an entry in the prefix cache. Return NULL if not found.
*/
static const char *cache_lookup(u32 hash)
{
int i = hash % MANGLE_CACHE_SIZE;
if (!prefix_cache[i] || hash != prefix_cache_hashes[i]) {
return NULL;
}
/* yep, it matched */
return prefix_cache[i];
}
/*
determine if a string is possibly in a mangled format, ignoring
case
In this algorithm, mangled names use only pure ascii characters (no
multi-byte) so we can avoid doing a UCS2 conversion
*/
static BOOL is_mangled_component(const char *name)
{
int len, i;
M_DEBUG(0,("is_mangled_component %s ?\n", name));
/* the best distinguishing characteristic is the ~ */
if (name[6] != '~') return False;
/* check the length */
len = strlen(name);
if (len > 12 || len < 8) return False;
/* check extension */
if (len > 8) {
if (name[8] != '.') return False;
for (i=9; name[i]; i++) {
if (! FLAG_CHECK(name[i], FLAG_ASCII)) {
return False;
}
}
}
/* check first character */
if (! FLAG_CHECK(name[0], FLAG_ASCII)) {
return False;
}
/* check rest of hash */
if (! FLAG_CHECK(name[7], FLAG_BASECHAR)) {
return False;
}
for (i=1;i<6;i++) {
if (! FLAG_CHECK(name[i], FLAG_BASECHAR)) {
return False;
}
}
M_DEBUG(0,("is_mangled %s -> yes\n", name));
return True;
}
/*
determine if a string is possibly in a mangled format, ignoring
case
In this algorithm, mangled names use only pure ascii characters (no
multi-byte) so we can avoid doing a UCS2 conversion
NOTE! This interface must be able to handle a path with unix
directory separators. It should return true if any component is
mangled
*/
static BOOL is_mangled(const char *name)
{
char *p;
char *s;
M_DEBUG(0,("is_mangled %s ?\n", name));
for (s=name; (p=strchr(s, '/')); s=p+1) {
char *component = strndup(s, PTR_DIFF(p, s));
if (is_mangled_component(component)) {
free(component);
return True;
}
free(component);
}
/* and the last part ... */
return is_mangled_component(s);
}
/*
see if a filename is an allowable 8.3 name.
we are only going to allow ascii characters in 8.3 names, as this
simplifies things greatly (it means that we know the string won't
get larger when converted from UNIX to DOS formats)
*/
static BOOL is_8_3(const char *name, BOOL check_case)
{
int len, i;
char *dot_p;
/* as a special case, the names '.' and '..' are allowable 8.3 names */
if (name[0] == '.') {
if (!name[1] || (name[1] == '.' && !name[2])) {
return True;
}
}
/* the simplest test is on the overall length of the
filename. Note that we deliberately use the ascii string
length (not the multi-byte one) as it is faster, and gives us
the result we need in this case. Using strlen_m would not
only be slower, it would be incorrect */
len = strlen(name);
if (len > 12) return False;
/* find the '.'. Note that once again we use the non-multibyte
function */
dot_p = strchr(name, '.');
if (!dot_p) {
/* if the name doesn't contain a '.' then its length
must be less than 8 */
if (len > 8) {
return False;
}
} else {
int prefix_len, suffix_len;
/* if it does contain a dot then the prefix must be <=
8 and the suffix <= 3 in length */
prefix_len = PTR_DIFF(dot_p, name);
suffix_len = len - (prefix_len+1);
if (prefix_len > 8 || suffix_len > 3) {
return False;
}
/* a 8.3 name cannot contain more than 1 '.' */
if (strchr(dot_p+1, '.')) {
return False;
}
}
/* the length are all OK. Now check to see if the characters themselves are OK */
for (i=0; name[i]; i++) {
/* note that we allow wildcard petterns! */
if (!FLAG_CHECK(name[i], FLAG_ASCII|FLAG_WILDCARD) && name[i] != '.') {
return False;
}
}
/* it is a good 8.3 name */
return True;
}
/*
reset the mangling cache on a smb.conf reload. This only really makes sense for
mangling backends that have parameters in smb.conf, and as this backend doesn't
this is a NULL operation
*/
static void mangle_reset(void)
{
/* noop */
}
/*
try to find a 8.3 name in the cache, and if found then
replace the string with the original long name.
The filename must be able to hold at least sizeof(fstring)
*/
static BOOL check_cache(char *name)
{
u32 hash, multiplier;
int i;
const char *prefix;
char extension[4];
/* make sure that this is a mangled name from this cache */
if (!is_mangled(name)) {
M_DEBUG(0,("check_cache: %s -> not mangled\n", name));
return False;
}
/* we need to extract the hash from the 8.3 name */
hash = base_reverse[(unsigned char)name[7]];
for (multiplier=36, i=5;i>=1;i--) {
u32 v = base_reverse[(unsigned char)name[i]];
hash += multiplier * v;
multiplier *= 36;
}
/* now look in the prefix cache for that hash */
prefix = cache_lookup(hash);
if (!prefix) {
M_DEBUG(0,("check_cache: %s -> %08X -> not found\n", name, hash));
return False;
}
/* we found it - construct the full name */
if (name[8] == '.') {
strncpy(extension, name+9, 3);
extension[3] = 0;
} else {
extension[0] = 0;
}
if (extension[0]) {
M_DEBUG(0,("check_cache: %s -> %s.%s\n", name, prefix, extension));
slprintf(name, sizeof(fstring), "%s.%s", prefix, extension);
} else {
M_DEBUG(0,("check_cache: %s -> %s\n", name, prefix));
fstrcpy(name, prefix);
}
return True;
}
/*
look for a DOS reserved name
*/
static BOOL is_reserved_name(const char *name)
{
if (FLAG_CHECK(name[0], FLAG_POSSIBLE1) &&
FLAG_CHECK(name[1], FLAG_POSSIBLE2) &&
FLAG_CHECK(name[2], FLAG_POSSIBLE3) &&
FLAG_CHECK(name[3], FLAG_POSSIBLE4)) {
/* a likely match, scan the lot */
int i;
for (i=0; reserved_names[i]; i++) {
int len = strlen(reserved_names[i]);
/* note that we match on COM1 as well as COM1.foo */
if (strncasecmp(name, reserved_names[i], len) == 0 &&
(name[len] == '.' || name[len] == 0)) {
return True;
}
}
}
return False;
}
/*
see if a filename is a legal long filename
*/
static BOOL is_legal_name(const char *name)
{
while (*name) {
if (FLAG_CHECK(name[0], FLAG_ILLEGAL)) {
return False;
}
name++;
}
return True;
}
/*
the main forward mapping function, which converts a long filename to
a 8.3 name
if need83 is not set then we only do the mangling if the name is illegal
as a long name
if cache83 is not set then we don't cache the result
the name parameter must be able to hold 13 bytes
*/
static BOOL name_map(char *name, BOOL need83, BOOL cache83)
{
char *dot_p;
char lead_char;
char extension[4];
int extension_length, i;
int prefix_len;
u32 hash, v;
char new_name[13];
/* reserved names are handled specially */
if (!is_reserved_name(name)) {
/* if the name is already a valid 8.3 name then we don't need to
do anything */
if (is_8_3(name, False)) {
return True;
}
/* if the caller doesn't strictly need 8.3 then just check for illegal
filenames */
if (!need83 && is_legal_name(name)) {
return True;
}
}
/* find the '.' if any */
dot_p = strrchr(name, '.');
if (dot_p) {
/* if the extension contains any illegal characters or
is too long or zero length then we treat it as part
of the prefix */
for (i=0; i<4 && dot_p[i+1]; i++) {
if (! FLAG_CHECK(dot_p[i+1], FLAG_ASCII)) {
dot_p = NULL;
break;
}
}
if (i == 0 || i == 4) dot_p = NULL;
}
/* the leading character in the mangled name is taken from
the first character of the name, if it is ascii
otherwise '_' is used
*/
lead_char = name[0];
if (! FLAG_CHECK(lead_char, FLAG_ASCII)) {
lead_char = '_';
}
lead_char = toupper(lead_char);
/* the prefix is anything up to the first dot */
if (dot_p) {
prefix_len = PTR_DIFF(dot_p, name);
} else {
prefix_len = strlen(name);
}
/* the extension of the mangled name is taken from the first 3
ascii chars after the dot */
extension_length = 0;
if (dot_p) {
for (i=1; extension_length < 3 && dot_p[i]; i++) {
char c = dot_p[i];
if (FLAG_CHECK(c, FLAG_ASCII)) {
extension[extension_length++] = toupper(c);
}
}
}
/* find the hash for this prefix */
v = hash = mangle_hash(name, prefix_len);
/* now form the mangled name. */
new_name[0] = lead_char;
new_name[7] = base_forward(v % 36);
new_name[6] = '~';
for (i=5; i>=1; i--) {
v = v / 36;
new_name[i] = base_forward(v % 36);
}
/* add the extension */
if (extension_length) {
new_name[8] = '.';
memcpy(&new_name[9], extension, extension_length);
new_name[9+extension_length] = 0;
} else {
new_name[8] = 0;
}
if (cache83) {
/* put it in the cache */
cache_insert(name, prefix_len, hash);
}
M_DEBUG(0,("name_map: %s -> %08X -> %s (cache=%d)\n",
name, hash, new_name, cache83));
/* and overwrite the old name */
fstrcpy(name, new_name);
/* all done, we've managed to mangle it */
return True;
}
/* initialise the flags table
we allow only a very restricted set of characters as 'ascii' in this
mangling backend. This isn't a significant problem as modern clients
use the 'long' filenames anyway, and those don't have these
restrictions.
*/
static void init_tables(void)
{
int i;
memset(char_flags, 0, sizeof(char_flags));
for (i=0;i<128;i++) {
if ((i >= '0' && i <= '9') ||
(i >= 'a' && i <= 'z') ||
(i >= 'A' && i <= 'Z')) {
char_flags[i] |= (FLAG_ASCII | FLAG_BASECHAR);
}
if (strchr("_-$~", i)) {
char_flags[i] |= FLAG_ASCII;
}
if (strchr("*\\/?<>|\":", i)) {
char_flags[i] |= FLAG_ILLEGAL;
}
if (strchr("*?\"<>", i)) {
char_flags[i] |= FLAG_WILDCARD;
}
}
memset(base_reverse, 0, sizeof(base_reverse));
for (i=0;i<36;i++) {
base_reverse[(unsigned char)base_forward(i)] = i;
}
/* fill in the reserved names flags. These are used as a very
fast filter for finding possible DOS reserved filenames */
for (i=0; reserved_names[i]; i++) {
unsigned char c1, c2, c3, c4;
c1 = (unsigned char)reserved_names[i][0];
c2 = (unsigned char)reserved_names[i][1];
c3 = (unsigned char)reserved_names[i][2];
c4 = (unsigned char)reserved_names[i][3];
char_flags[c1] |= FLAG_POSSIBLE1;
char_flags[c2] |= FLAG_POSSIBLE2;
char_flags[c3] |= FLAG_POSSIBLE3;
char_flags[c4] |= FLAG_POSSIBLE4;
char_flags[tolower(c1)] |= FLAG_POSSIBLE1;
char_flags[tolower(c2)] |= FLAG_POSSIBLE2;
char_flags[tolower(c3)] |= FLAG_POSSIBLE3;
char_flags[tolower(c4)] |= FLAG_POSSIBLE4;
char_flags[(unsigned char)'.'] |= FLAG_POSSIBLE4;
}
}
/*
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_hash2_init(void)
{
init_tables();
mangle_reset();
if (!cache_init()) {
return NULL;
}
return &mangle_fns;
}
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