s3-util: Compare the maximum allowed length of a NetBIOS name
[Samba.git] / source3 / lib / wins_srv.c
blobfb5587f9ba8c4835435455fe21d12fd33ba621cd
1 /*
2 Unix SMB/CIFS implementation.
3 Samba wins server helper functions
4 Copyright (C) Andrew Tridgell 1992-2002
5 Copyright (C) Christopher R. Hertel 2000
6 Copyright (C) Tim Potter 2003
8 This program is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3 of the License, or
11 (at your option) any later version.
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with this program. If not, see <http://www.gnu.org/licenses/>.
22 #include "includes.h"
25 This is pretty much a complete rewrite of the earlier code. The main
26 aim of the rewrite is to add support for having multiple wins server
27 lists, so Samba can register with multiple groups of wins servers
28 and each group has a failover list of wins servers.
30 Central to the way it all works is the idea of a wins server
31 'tag'. A wins tag is a label for a group of wins servers. For
32 example if you use
34 wins server = fred:192.168.2.10 mary:192.168.3.199 fred:192.168.2.61
36 then you would have two groups of wins servers, one tagged with the
37 name 'fred' and the other with the name 'mary'. I would usually
38 recommend using interface names instead of 'fred' and 'mary' but
39 they can be any alpha string.
41 Now, how does it all work. Well, nmbd needs to register each of its
42 IPs with each of its names once with each group of wins servers. So
43 it tries registering with the first one mentioned in the list, then
44 if that fails it marks that WINS server dead and moves onto the next
45 one.
47 In the client code things are a bit different. As each of the groups
48 of wins servers is a separate name space we need to try each of the
49 groups until we either succeed or we run out of wins servers to
50 try. If we get a negative response from a wins server then that
51 means the name doesn't exist in that group, so we give up on that
52 group and move to the next group. If we don't get a response at all
53 then maybe the wins server is down, in which case we need to
54 failover to the next one for that group.
56 confused yet? (tridge)
59 /* how long a server is marked dead for */
60 #define DEATH_TIME 600
62 /* The list of dead wins servers is stored in gencache.tdb. Each server is
63 marked dead from the point of view of a given source address. We keep a
64 separate dead list for each src address to cope with multiple interfaces
65 that are not routable to each other.
68 #define WINS_SRV_FMT "WINS_SRV_DEAD/%s,%s" /* wins_ip,src_ip */
70 static char *wins_srv_keystr(struct in_addr wins_ip, struct in_addr src_ip)
72 char *keystr = NULL, *wins_ip_addr = NULL, *src_ip_addr = NULL;
74 wins_ip_addr = SMB_STRDUP(inet_ntoa(wins_ip));
75 src_ip_addr = SMB_STRDUP(inet_ntoa(src_ip));
77 if ( !wins_ip_addr || !src_ip_addr ) {
78 DEBUG(0,("wins_srv_keystr: malloc error\n"));
79 goto done;
82 if (asprintf(&keystr, WINS_SRV_FMT, wins_ip_addr, src_ip_addr) == -1) {
83 DEBUG(0, (": ns_srv_keystr: malloc error for key string\n"));
86 done:
87 SAFE_FREE(wins_ip_addr);
88 SAFE_FREE(src_ip_addr);
90 return keystr;
94 see if an ip is on the dead list
97 bool wins_srv_is_dead(struct in_addr wins_ip, struct in_addr src_ip)
99 char *keystr = wins_srv_keystr(wins_ip, src_ip);
100 bool result;
102 /* If the key exists then the WINS server has been marked as dead */
104 result = gencache_get(keystr, NULL, NULL);
105 SAFE_FREE(keystr);
107 DEBUG(4, ("wins_srv_is_dead: %s is %s\n", inet_ntoa(wins_ip),
108 result ? "dead" : "alive"));
110 return result;
115 mark a wins server as being alive (for the moment)
117 void wins_srv_alive(struct in_addr wins_ip, struct in_addr src_ip)
119 char *keystr = wins_srv_keystr(wins_ip, src_ip);
121 gencache_del(keystr);
122 SAFE_FREE(keystr);
124 DEBUG(4, ("wins_srv_alive: marking wins server %s alive\n",
125 inet_ntoa(wins_ip)));
129 mark a wins server as temporarily dead
131 void wins_srv_died(struct in_addr wins_ip, struct in_addr src_ip)
133 char *keystr;
135 if (is_zero_ip_v4(wins_ip) || wins_srv_is_dead(wins_ip, src_ip))
136 return;
138 keystr = wins_srv_keystr(wins_ip, src_ip);
140 gencache_set(keystr, "DOWN", time(NULL) + DEATH_TIME);
142 SAFE_FREE(keystr);
144 DEBUG(4,("Marking wins server %s dead for %u seconds from source %s\n",
145 inet_ntoa(wins_ip), DEATH_TIME, inet_ntoa(src_ip)));
149 return the total number of wins servers, dead or not
151 unsigned wins_srv_count(void)
153 const char **list;
154 int count = 0;
156 if (lp_we_are_a_wins_server()) {
157 /* simple - just talk to ourselves */
158 return 1;
161 list = lp_wins_server_list();
162 for (count=0; list && list[count]; count++)
163 /* nop */ ;
165 return count;
168 /* an internal convenience structure for an IP with a short string tag
169 attached */
170 struct tagged_ip {
171 fstring tag;
172 struct in_addr ip;
176 parse an IP string that might be in tagged format
177 the result is a tagged_ip structure containing the tag
178 and the ip in in_addr format. If there is no tag then
179 use the tag '*'
181 static void parse_ip(struct tagged_ip *ip, const char *str)
183 char *s = strchr(str, ':');
184 if (!s) {
185 fstrcpy(ip->tag, "*");
186 ip->ip = interpret_addr2(str);
187 return;
190 ip->ip = interpret_addr2(s+1);
191 fstrcpy(ip->tag, str);
192 s = strchr(ip->tag, ':');
193 if (s) {
194 *s = 0;
201 return the list of wins server tags. A 'tag' is used to distinguish
202 wins server as either belonging to the same name space or a separate
203 name space. Usually you would setup your 'wins server' option to
204 list one or more wins server per interface and use the interface
205 name as your tag, but you are free to use any tag you like.
207 char **wins_srv_tags(void)
209 char **ret = NULL;
210 int count=0, i, j;
211 const char **list;
213 if (lp_we_are_a_wins_server()) {
214 /* give the caller something to chew on. This makes
215 the rest of the logic simpler (ie. less special cases) */
216 ret = SMB_MALLOC_ARRAY(char *, 2);
217 if (!ret) return NULL;
218 ret[0] = SMB_STRDUP("*");
219 ret[1] = NULL;
220 return ret;
223 list = lp_wins_server_list();
224 if (!list)
225 return NULL;
227 /* yes, this is O(n^2) but n is very small */
228 for (i=0;list[i];i++) {
229 struct tagged_ip t_ip;
231 parse_ip(&t_ip, list[i]);
233 /* see if we already have it */
234 for (j=0;j<count;j++) {
235 if (strcmp(ret[j], t_ip.tag) == 0) {
236 break;
240 if (j != count) {
241 /* we already have it. Move along */
242 continue;
245 /* add it to the list */
246 ret = SMB_REALLOC_ARRAY(ret, char *, count+2);
247 if (!ret) {
248 return NULL;
250 ret[count] = SMB_STRDUP(t_ip.tag);
251 if (!ret[count]) break;
252 count++;
255 if (count) {
256 /* make sure we null terminate */
257 ret[count] = NULL;
260 return ret;
263 /* free a list of wins server tags given by wins_srv_tags */
264 void wins_srv_tags_free(char **list)
266 int i;
267 if (!list) return;
268 for (i=0; list[i]; i++) {
269 free(list[i]);
271 free(list);
276 return the IP of the currently active wins server for the given tag,
277 or the zero IP otherwise
279 struct in_addr wins_srv_ip_tag(const char *tag, struct in_addr src_ip)
281 const char **list;
282 int i;
283 struct tagged_ip t_ip;
285 /* if we are a wins server then we always just talk to ourselves */
286 if (lp_we_are_a_wins_server()) {
287 struct in_addr loopback_ip;
288 loopback_ip.s_addr = htonl(INADDR_LOOPBACK);
289 return loopback_ip;
292 list = lp_wins_server_list();
293 if (!list || !list[0]) {
294 struct in_addr ip;
295 zero_ip_v4(&ip);
296 return ip;
299 /* find the first live one for this tag */
300 for (i=0; list[i]; i++) {
301 parse_ip(&t_ip, list[i]);
302 if (strcmp(tag, t_ip.tag) != 0) {
303 /* not for the right tag. Move along */
304 continue;
306 if (!wins_srv_is_dead(t_ip.ip, src_ip)) {
307 fstring src_name;
308 fstrcpy(src_name, inet_ntoa(src_ip));
309 DEBUG(6,("Current wins server for tag '%s' with source %s is %s\n",
310 tag,
311 src_name,
312 inet_ntoa(t_ip.ip)));
313 return t_ip.ip;
317 /* they're all dead - try the first one until they revive */
318 for (i=0; list[i]; i++) {
319 parse_ip(&t_ip, list[i]);
320 if (strcmp(tag, t_ip.tag) != 0) {
321 continue;
323 return t_ip.ip;
326 /* this can't happen?? */
327 zero_ip_v4(&t_ip.ip);
328 return t_ip.ip;
331 bool wins_server_tag_ips(const char *tag, TALLOC_CTX *mem_ctx,
332 struct in_addr **pservers, int *pnum_servers)
334 const char **list;
335 int i, num_servers;
336 struct in_addr *servers;
338 list = lp_wins_server_list();
339 if ((list == NULL) || (list[0] == NULL)) {
340 return false;
343 num_servers = 0;
345 for (i=0; list[i] != NULL; i++) {
346 struct tagged_ip t_ip;
347 parse_ip(&t_ip, list[i]);
348 if (strcmp(tag, t_ip.tag) == 0) {
349 num_servers += 1;
353 servers = talloc_array(mem_ctx, struct in_addr, num_servers);
354 if (servers == NULL) {
355 return false;
358 num_servers = 0;
360 for (i=0; list[i] != NULL; i++) {
361 struct tagged_ip t_ip;
362 parse_ip(&t_ip, list[i]);
363 if (strcmp(tag, t_ip.tag) == 0) {
364 servers[num_servers] = t_ip.ip;
365 num_servers += 1;
368 *pnum_servers = num_servers;
369 *pservers = servers;
370 return true;
375 return a count of the number of IPs for a particular tag, including
376 dead ones
378 unsigned wins_srv_count_tag(const char *tag)
380 const char **list;
381 int i, count=0;
383 /* if we are a wins server then we always just talk to ourselves */
384 if (lp_we_are_a_wins_server()) {
385 return 1;
388 list = lp_wins_server_list();
389 if (!list || !list[0]) {
390 return 0;
393 /* find the first live one for this tag */
394 for (i=0; list[i]; i++) {
395 struct tagged_ip t_ip;
396 parse_ip(&t_ip, list[i]);
397 if (strcmp(tag, t_ip.tag) == 0) {
398 count++;
402 return count;