root/source3/nmbd/asyncdns.c

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DEFINITIONS

This source file includes following definitions.
  1. add_dns_result
  2. asyncdns_fd
  3. asyncdns_process
  4. sig_term
  5. kill_async_dns_child
  6. start_async_dns
  7. query_current
  8. write_child
  9. run_dns_queue
  10. queue_dns_query
  11. queue_dns_query
  12. kill_async_dns_child

   1 /*
   2    Unix SMB/CIFS implementation.
   3    a async DNS handler
   4    Copyright (C) Andrew Tridgell 1997-1998
   5    
   6    This program is free software; you can redistribute it and/or modify
   7    it under the terms of the GNU General Public License as published by
   8    the Free Software Foundation; either version 3 of the License, or
   9    (at your option) any later version.
  10    
  11    This program is distributed in the hope that it will be useful,
  12    but WITHOUT ANY WARRANTY; without even the implied warranty of
  13    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  14    GNU General Public License for more details.
  15    
  16    You should have received a copy of the GNU General Public License
  17    along with this program.  If not, see <http://www.gnu.org/licenses/>.
  18    */
  19 
  20 #include "includes.h"
  21 
  22 /***************************************************************************
  23   Add a DNS result to the name cache.
  24 ****************************************************************************/
  25 
  26 static struct name_record *add_dns_result(struct nmb_name *question, struct in_addr addr)
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  27 {
  28         int name_type = question->name_type;
  29         unstring qname;
  30 
  31         pull_ascii_nstring(qname, sizeof(qname), question->name);
  32   
  33         if (!addr.s_addr) {
  34                 /* add the fail to WINS cache of names. give it 1 hour in the cache */
  35                 DEBUG(3,("add_dns_result: Negative DNS answer for %s\n", qname));
  36                 add_name_to_subnet( wins_server_subnet, qname, name_type,
  37                                 NB_ACTIVE, 60*60, DNSFAIL_NAME, 1, &addr );
  38                 return NULL;
  39         }
  40 
  41         /* add it to our WINS cache of names. give it 2 hours in the cache */
  42         DEBUG(3,("add_dns_result: DNS gave answer for %s of %s\n", qname, inet_ntoa(addr)));
  43 
  44         add_name_to_subnet( wins_server_subnet, qname, name_type,
  45                               NB_ACTIVE, 2*60*60, DNS_NAME, 1, &addr);
  46 
  47         return find_name_on_subnet(wins_server_subnet, question, FIND_ANY_NAME);
  48 }
  49 
  50 #ifndef SYNC_DNS
  51 
  52 static int fd_in = -1, fd_out = -1;
  53 static pid_t child_pid = -1;
  54 static int in_dns;
  55 
  56 /* this is the structure that is passed between the parent and child */
  57 struct query_record {
  58         struct nmb_name name;
  59         struct in_addr result;
  60 };
  61 
  62 /* a queue of pending requests waiting to be sent to the DNS child */
  63 static struct packet_struct *dns_queue;
  64 
  65 /* the packet currently being processed by the dns child */
  66 static struct packet_struct *dns_current;
  67 
  68 
  69 /***************************************************************************
  70   return the fd used to gather async dns replies. This is added to the select
  71   loop
  72   ****************************************************************************/
  73 
  74 int asyncdns_fd(void)
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  75 {
  76         return fd_in;
  77 }
  78 
  79 /***************************************************************************
  80   handle DNS queries arriving from the parent
  81   ****************************************************************************/
  82 static void asyncdns_process(void)
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  83 {
  84         struct query_record r;
  85         unstring qname;
  86 
  87         DEBUGLEVEL = -1;
  88 
  89         while (1) {
  90                 NTSTATUS status;
  91 
  92                 status = read_data(fd_in, (char *)&r, sizeof(r));
  93 
  94                 if (!NT_STATUS_IS_OK(status)) {
  95                         break;
  96                 }
  97 
  98                 pull_ascii_nstring( qname, sizeof(qname), r.name.name);
  99                 r.result.s_addr = interpret_addr(qname);
 100 
 101                 if (write_data(fd_out, (char *)&r, sizeof(r)) != sizeof(r))
 102                         break;
 103         }
 104 
 105         _exit(0);
 106 }
 107 
 108 /**************************************************************************** **
 109   catch a sigterm (in the child process - the parent has a different handler
 110   see nmbd.c for details).
 111   We need a separate term handler here so we don't release any 
 112   names that our parent is going to release, or overwrite a 
 113   WINS db that our parent is going to write.
 114  **************************************************************************** */
 115 
 116 static void sig_term(int sig)
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 117 {
 118         _exit(0);
 119 }
 120 
 121 /***************************************************************************
 122  Called by the parent process when it receives a SIGTERM - also kills the
 123  child so we don't get child async dns processes lying around, causing trouble.
 124   ****************************************************************************/
 125 
 126 void kill_async_dns_child(void)
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 127 {
 128         if (child_pid > 0) {
 129                 kill(child_pid, SIGTERM);
 130                 child_pid = -1;
 131         }
 132 }
 133 
 134 /***************************************************************************
 135   create a child process to handle DNS lookups
 136   ****************************************************************************/
 137 void start_async_dns(void)
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 138 {
 139         int fd1[2], fd2[2];
 140 
 141         CatchChild();
 142 
 143         if (pipe(fd1) || pipe(fd2)) {
 144                 DEBUG(0,("can't create asyncdns pipes\n"));
 145                 return;
 146         }
 147 
 148         child_pid = sys_fork();
 149 
 150         if (child_pid) {
 151                 fd_in = fd1[0];
 152                 fd_out = fd2[1];
 153                 close(fd1[1]);
 154                 close(fd2[0]);
 155                 DEBUG(0,("started asyncdns process %d\n", (int)child_pid));
 156                 return;
 157         }
 158 
 159         fd_in = fd2[0];
 160         fd_out = fd1[1];
 161 
 162         CatchSignal(SIGUSR2, SIG_IGN);
 163         CatchSignal(SIGUSR1, SIG_IGN);
 164         CatchSignal(SIGHUP, SIG_IGN);
 165         CatchSignal(SIGTERM, SIGNAL_CAST sig_term );
 166 
 167         if (!NT_STATUS_IS_OK(reinit_after_fork(nmbd_messaging_context(),
 168                                                nmbd_event_context(), true))) {
 169                 DEBUG(0,("reinit_after_fork() failed\n"));
 170                 smb_panic("reinit_after_fork() failed");
 171         }
 172 
 173         asyncdns_process();
 174 }
 175 
 176 
 177 /***************************************************************************
 178 check if a particular name is already being queried
 179   ****************************************************************************/
 180 static bool query_current(struct query_record *r)
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 181 {
 182         return dns_current &&
 183                 nmb_name_equal(&r->name, 
 184                            &dns_current->packet.nmb.question.question_name);
 185 }
 186 
 187 
 188 /***************************************************************************
 189   write a query to the child process
 190   ****************************************************************************/
 191 static bool write_child(struct packet_struct *p)
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 192 {
 193         struct query_record r;
 194 
 195         r.name = p->packet.nmb.question.question_name;
 196 
 197         return write_data(fd_out, (char *)&r, sizeof(r)) == sizeof(r);
 198 }
 199 
 200 /***************************************************************************
 201   check the DNS queue
 202   ****************************************************************************/
 203 void run_dns_queue(void)
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 204 {
 205         struct query_record r;
 206         struct packet_struct *p, *p2;
 207         struct name_record *namerec;
 208         NTSTATUS status;
 209 
 210         if (fd_in == -1)
 211                 return;
 212 
 213         if (!process_exists_by_pid(child_pid)) {
 214                 close(fd_in);
 215                 close(fd_out);
 216                 start_async_dns();
 217         }
 218 
 219         status = read_data(fd_in, (char *)&r, sizeof(r));
 220 
 221         if (!NT_STATUS_IS_OK(status)) {
 222                 DEBUG(0, ("read from child failed: %s\n", nt_errstr(status)));
 223                 fd_in = -1;
 224                 return;
 225         }
 226 
 227         namerec = add_dns_result(&r.name, r.result);
 228 
 229         if (dns_current) {
 230                 if (query_current(&r)) {
 231                         DEBUG(3,("DNS calling send_wins_name_query_response\n"));
 232                         in_dns = 1;
 233                         if(namerec == NULL)
 234                                 send_wins_name_query_response(NAM_ERR, dns_current, NULL);
 235                         else
 236                                 send_wins_name_query_response(0,dns_current,namerec);
 237                         in_dns = 0;
 238                 }
 239 
 240                 dns_current->locked = False;
 241                 free_packet(dns_current);
 242                 dns_current = NULL;
 243         }
 244 
 245         /* loop over the whole dns queue looking for entries that
 246            match the result we just got */
 247         for (p = dns_queue; p;) {
 248                 struct nmb_packet *nmb = &p->packet.nmb;
 249                 struct nmb_name *question = &nmb->question.question_name;
 250 
 251                 if (nmb_name_equal(question, &r.name)) {
 252                         DEBUG(3,("DNS calling send_wins_name_query_response\n"));
 253                         in_dns = 1;
 254                         if(namerec == NULL)
 255                                 send_wins_name_query_response(NAM_ERR, p, NULL);
 256                         else
 257                                 send_wins_name_query_response(0,p,namerec);
 258                         in_dns = 0;
 259                         p->locked = False;
 260 
 261                         if (p->prev)
 262                                 p->prev->next = p->next;
 263                         else
 264                                 dns_queue = p->next;
 265                         if (p->next)
 266                                 p->next->prev = p->prev;
 267                         p2 = p->next;
 268                         free_packet(p);
 269                         p = p2;
 270                 } else {
 271                         p = p->next;
 272                 }
 273         }
 274 
 275         if (dns_queue) {
 276                 dns_current = dns_queue;
 277                 dns_queue = dns_queue->next;
 278                 if (dns_queue)
 279                         dns_queue->prev = NULL;
 280                 dns_current->next = NULL;
 281 
 282                 if (!write_child(dns_current)) {
 283                         DEBUG(3,("failed to send DNS query to child!\n"));
 284                         return;
 285                 }
 286         }
 287 }
 288 
 289 /***************************************************************************
 290 queue a DNS query
 291   ****************************************************************************/
 292 
 293 bool queue_dns_query(struct packet_struct *p,struct nmb_name *question)
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 294 {
 295         if (in_dns || fd_in == -1)
 296                 return False;
 297 
 298         if (!dns_current) {
 299                 if (!write_child(p)) {
 300                         DEBUG(3,("failed to send DNS query to child!\n"));
 301                         return False;
 302                 }
 303                 dns_current = p;
 304                 p->locked = True;
 305         } else {
 306                 p->locked = True;
 307                 p->next = dns_queue;
 308                 p->prev = NULL;
 309                 if (p->next)
 310                         p->next->prev = p;
 311                 dns_queue = p;
 312         }
 313 
 314         DEBUG(3,("added DNS query for %s\n", nmb_namestr(question)));
 315         return True;
 316 }
 317 
 318 #else
 319 
 320 
 321 /***************************************************************************
 322   we use this when we can't do async DNS lookups
 323   ****************************************************************************/
 324 
 325 bool queue_dns_query(struct packet_struct *p,struct nmb_name *question)
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 326 {
 327         struct name_record *namerec = NULL;
 328         struct in_addr dns_ip;
 329         unstring qname;
 330 
 331         pull_ascii_nstring(qname, sizeof(qname), question->name);
 332 
 333         DEBUG(3,("DNS search for %s - ", nmb_namestr(question)));
 334 
 335         dns_ip.s_addr = interpret_addr(qname);
 336 
 337         namerec = add_dns_result(question, dns_ip);
 338         if(namerec == NULL) {
 339                 send_wins_name_query_response(NAM_ERR, p, NULL);
 340         } else {
 341                 send_wins_name_query_response(0, p, namerec);
 342         }
 343         return False;
 344 }
 345 
 346 /***************************************************************************
 347  With sync dns there is no child to kill on SIGTERM.
 348   ****************************************************************************/
 349 
 350 void kill_async_dns_child(void)
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 351 {
 352         return;
 353 }
 354 #endif

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