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s3: Lift the server_messaging_context from send_spoolss_notify2_msg
[Samba/gbeck.git] / source3 / printing / printing.c
blob8a1281438609bb81cb2f84ef3325ce8b3430a4ef
1 /*
2 Unix SMB/Netbios implementation.
3 Version 3.0
4 printing backend routines
5 Copyright (C) Andrew Tridgell 1992-2000
6 Copyright (C) Jeremy Allison 2002
7
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.
12
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.
17
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/>.
20 */
21
22 #include "includes.h"
23 #include "printing.h"
24 #include "librpc/gen_ndr/messaging.h"
25 #include "../librpc/gen_ndr/ndr_spoolss.h"
26 #include "nt_printing.h"
27 #include "../librpc/gen_ndr/netlogon.h"
28
29 extern struct current_user current_user;
30 extern userdom_struct current_user_info;
31
32 /* Current printer interface */
33 static bool remove_from_jobs_changed(const char* sharename, uint32 jobid);
34
35 /*
36 the printing backend revolves around a tdb database that stores the
37 SMB view of the print queue
38
39 The key for this database is a jobid - a internally generated number that
40 uniquely identifies a print job
41
42 reading the print queue involves two steps:
43 - possibly running lpq and updating the internal database from that
44 - reading entries from the database
45
46 jobids are assigned when a job starts spooling.
47 */
48
49 static TDB_CONTEXT *rap_tdb;
50 static uint16 next_rap_jobid;
51 struct rap_jobid_key {
52 fstring sharename;
53 uint32 jobid;
54 };
55
56 /***************************************************************************
57 Nightmare. LANMAN jobid's are 16 bit numbers..... We must map them to 32
58 bit RPC jobids.... JRA.
59 ***************************************************************************/
60
61 uint16 pjobid_to_rap(const char* sharename, uint32 jobid)
62 {
63 uint16 rap_jobid;
64 TDB_DATA data, key;
65 struct rap_jobid_key jinfo;
66 uint8 buf[2];
67
68 DEBUG(10,("pjobid_to_rap: called.\n"));
69
70 if (!rap_tdb) {
71 /* Create the in-memory tdb. */
72 rap_tdb = tdb_open_log(NULL, 0, TDB_INTERNAL, (O_RDWR|O_CREAT), 0644);
73 if (!rap_tdb)
74 return 0;
75 }
76
77 ZERO_STRUCT( jinfo );
78 fstrcpy( jinfo.sharename, sharename );
79 jinfo.jobid = jobid;
80 key.dptr = (uint8 *)&jinfo;
81 key.dsize = sizeof(jinfo);
82
83 data = tdb_fetch(rap_tdb, key);
84 if (data.dptr && data.dsize == sizeof(uint16)) {
85 rap_jobid = SVAL(data.dptr, 0);
86 SAFE_FREE(data.dptr);
87 DEBUG(10,("pjobid_to_rap: jobid %u maps to RAP jobid %u\n",
88 (unsigned int)jobid, (unsigned int)rap_jobid));
89 return rap_jobid;
90 }
91 SAFE_FREE(data.dptr);
92 /* Not found - create and store mapping. */
93 rap_jobid = ++next_rap_jobid;
94 if (rap_jobid == 0)
95 rap_jobid = ++next_rap_jobid;
96 SSVAL(buf,0,rap_jobid);
97 data.dptr = buf;
98 data.dsize = sizeof(rap_jobid);
99 tdb_store(rap_tdb, key, data, TDB_REPLACE);
100 tdb_store(rap_tdb, data, key, TDB_REPLACE);
101
102 DEBUG(10,("pjobid_to_rap: created jobid %u maps to RAP jobid %u\n",
103 (unsigned int)jobid, (unsigned int)rap_jobid));
104 return rap_jobid;
105 }
106
107 bool rap_to_pjobid(uint16 rap_jobid, fstring sharename, uint32 *pjobid)
108 {
109 TDB_DATA data, key;
110 uint8 buf[2];
111
112 DEBUG(10,("rap_to_pjobid called.\n"));
113
114 if (!rap_tdb)
115 return False;
116
117 SSVAL(buf,0,rap_jobid);
118 key.dptr = buf;
119 key.dsize = sizeof(rap_jobid);
120 data = tdb_fetch(rap_tdb, key);
121 if ( data.dptr && data.dsize == sizeof(struct rap_jobid_key) )
122 {
123 struct rap_jobid_key *jinfo = (struct rap_jobid_key*)data.dptr;
124 if (sharename != NULL) {
125 fstrcpy( sharename, jinfo->sharename );
126 }
127 *pjobid = jinfo->jobid;
128 DEBUG(10,("rap_to_pjobid: jobid %u maps to RAP jobid %u\n",
129 (unsigned int)*pjobid, (unsigned int)rap_jobid));
130 SAFE_FREE(data.dptr);
131 return True;
132 }
133
134 DEBUG(10,("rap_to_pjobid: Failed to lookup RAP jobid %u\n",
135 (unsigned int)rap_jobid));
136 SAFE_FREE(data.dptr);
137 return False;
138 }
139
140 void rap_jobid_delete(const char* sharename, uint32 jobid)
141 {
142 TDB_DATA key, data;
143 uint16 rap_jobid;
144 struct rap_jobid_key jinfo;
145 uint8 buf[2];
146
147 DEBUG(10,("rap_jobid_delete: called.\n"));
148
149 if (!rap_tdb)
150 return;
151
152 ZERO_STRUCT( jinfo );
153 fstrcpy( jinfo.sharename, sharename );
154 jinfo.jobid = jobid;
155 key.dptr = (uint8 *)&jinfo;
156 key.dsize = sizeof(jinfo);
157
158 data = tdb_fetch(rap_tdb, key);
159 if (!data.dptr || (data.dsize != sizeof(uint16))) {
160 DEBUG(10,("rap_jobid_delete: cannot find jobid %u\n",
161 (unsigned int)jobid ));
162 SAFE_FREE(data.dptr);
163 return;
164 }
165
166 DEBUG(10,("rap_jobid_delete: deleting jobid %u\n",
167 (unsigned int)jobid ));
168
169 rap_jobid = SVAL(data.dptr, 0);
170 SAFE_FREE(data.dptr);
171 SSVAL(buf,0,rap_jobid);
172 data.dptr = buf;
173 data.dsize = sizeof(rap_jobid);
174 tdb_delete(rap_tdb, key);
175 tdb_delete(rap_tdb, data);
176 }
177
178 static int get_queue_status(const char* sharename, print_status_struct *);
179
180 /****************************************************************************
181 Initialise the printing backend. Called once at startup before the fork().
182 ****************************************************************************/
183
184 bool print_backend_init(struct messaging_context *msg_ctx)
185 {
186 const char *sversion = "INFO/version";
187 int services = lp_numservices();
188 int snum;
189
190 unlink(cache_path("printing.tdb"));
191 mkdir(cache_path("printing"),0755);
192
193 /* handle a Samba upgrade */
194
195 for (snum = 0; snum < services; snum++) {
196 struct tdb_print_db *pdb;
197 if (!lp_print_ok(snum))
198 continue;
199
200 pdb = get_print_db_byname(lp_const_servicename(snum));
201 if (!pdb)
202 continue;
203 if (tdb_lock_bystring(pdb->tdb, sversion) == -1) {
204 DEBUG(0,("print_backend_init: Failed to open printer %s database\n", lp_const_servicename(snum) ));
205 release_print_db(pdb);
206 return False;
207 }
208 if (tdb_fetch_int32(pdb->tdb, sversion) != PRINT_DATABASE_VERSION) {
209 tdb_wipe_all(pdb->tdb);
210 tdb_store_int32(pdb->tdb, sversion, PRINT_DATABASE_VERSION);
211 }
212 tdb_unlock_bystring(pdb->tdb, sversion);
213 release_print_db(pdb);
214 }
215
216 close_all_print_db(); /* Don't leave any open. */
217
218 /* do NT print initialization... */
219 return nt_printing_init(msg_ctx);
220 }
221
222 /****************************************************************************
223 Shut down printing backend. Called once at shutdown to close the tdb.
224 ****************************************************************************/
225
226 void printing_end(void)
227 {
228 close_all_print_db(); /* Don't leave any open. */
229 }
230
231 /****************************************************************************
232 Retrieve the set of printing functions for a given service. This allows
233 us to set the printer function table based on the value of the 'printing'
234 service parameter.
235
236 Use the generic interface as the default and only use cups interface only
237 when asked for (and only when supported)
238 ****************************************************************************/
239
240 static struct printif *get_printer_fns_from_type( enum printing_types type )
241 {
242 struct printif *printer_fns = &generic_printif;
243
244 #ifdef HAVE_CUPS
245 if ( type == PRINT_CUPS ) {
246 printer_fns = &cups_printif;
247 }
248 #endif /* HAVE_CUPS */
249
250 #ifdef HAVE_IPRINT
251 if ( type == PRINT_IPRINT ) {
252 printer_fns = &iprint_printif;
253 }
254 #endif /* HAVE_IPRINT */
255
256 printer_fns->type = type;
257
258 return printer_fns;
259 }
260
261 static struct printif *get_printer_fns( int snum )
262 {
263 return get_printer_fns_from_type( (enum printing_types)lp_printing(snum) );
264 }
265
266
267 /****************************************************************************
268 Useful function to generate a tdb key.
269 ****************************************************************************/
270
271 static TDB_DATA print_key(uint32 jobid, uint32 *tmp)
272 {
273 TDB_DATA ret;
274
275 SIVAL(tmp, 0, jobid);
276 ret.dptr = (uint8 *)tmp;
277 ret.dsize = sizeof(*tmp);
278 return ret;
279 }
280
281 /****************************************************************************
282 Pack the devicemode to store it in a tdb.
283 ****************************************************************************/
284 static int pack_devicemode(struct spoolss_DeviceMode *devmode, uint8 *buf, int buflen)
285 {
286 enum ndr_err_code ndr_err;
287 DATA_BLOB blob;
288 int len = 0;
289
290 if (devmode) {
291 ndr_err = ndr_push_struct_blob(&blob, talloc_tos(),
292 devmode,
293 (ndr_push_flags_fn_t)
294 ndr_push_spoolss_DeviceMode);
295 if (!NDR_ERR_CODE_IS_SUCCESS(ndr_err)) {
296 DEBUG(10, ("pack_devicemode: "
297 "error encoding spoolss_DeviceMode\n"));
298 goto done;
299 }
300 } else {
301 ZERO_STRUCT(blob);
302 }
303
304 len = tdb_pack(buf, buflen, "B", blob.length, blob.data);
305
306 if (devmode) {
307 DEBUG(8, ("Packed devicemode [%s]\n", devmode->formname));
308 }
309
310 done:
311 return len;
312 }
313
314 /****************************************************************************
315 Unpack the devicemode to store it in a tdb.
316 ****************************************************************************/
317 static int unpack_devicemode(TALLOC_CTX *mem_ctx,
318 const uint8 *buf, int buflen,
319 struct spoolss_DeviceMode **devmode)
320 {
321 struct spoolss_DeviceMode *dm;
322 enum ndr_err_code ndr_err;
323 char *data = NULL;
324 int data_len = 0;
325 DATA_BLOB blob;
326 int len = 0;
327
328 *devmode = NULL;
329
330 len = tdb_unpack(buf, buflen, "B", &data_len, &data);
331 if (!data) {
332 return len;
333 }
334
335 dm = talloc_zero(mem_ctx, struct spoolss_DeviceMode);
336 if (!dm) {
337 goto done;
338 }
339
340 blob = data_blob_const(data, data_len);
341
342 ndr_err = ndr_pull_struct_blob(&blob, dm, dm,
343 (ndr_pull_flags_fn_t)ndr_pull_spoolss_DeviceMode);
344 if (!NDR_ERR_CODE_IS_SUCCESS(ndr_err)) {
345 DEBUG(10, ("unpack_devicemode: "
346 "error parsing spoolss_DeviceMode\n"));
347 goto done;
348 }
349
350 DEBUG(8, ("Unpacked devicemode [%s](%s)\n",
351 dm->devicename, dm->formname));
352 if (dm->driverextra_data.data) {
353 DEBUG(8, ("with a private section of %d bytes\n",
354 dm->__driverextra_length));
355 }
356
357 *devmode = dm;
358
359 done:
360 SAFE_FREE(data);
361 return len;
362 }
363
364 /***********************************************************************
365 unpack a pjob from a tdb buffer
366 ***********************************************************************/
367
368 int unpack_pjob( uint8 *buf, int buflen, struct printjob *pjob )
369 {
370 int len = 0;
371 int used;
372 uint32 pjpid, pjsysjob, pjfd, pjstarttime, pjstatus;
373 uint32 pjsize, pjpage_count, pjspooled, pjsmbjob;
374
375 if ( !buf || !pjob )
376 return -1;
377
378 len += tdb_unpack(buf+len, buflen-len, "dddddddddffff",
379 &pjpid,
380 &pjsysjob,
381 &pjfd,
382 &pjstarttime,
383 &pjstatus,
384 &pjsize,
385 &pjpage_count,
386 &pjspooled,
387 &pjsmbjob,
388 pjob->filename,
389 pjob->jobname,
390 pjob->user,
391 pjob->queuename);
392
393 if ( len == -1 )
394 return -1;
395
396 used = unpack_devicemode(NULL, buf+len, buflen-len, &pjob->devmode);
397 if (used == -1) {
398 return -1;
399 }
400
401 len += used;
402
403 pjob->pid = pjpid;
404 pjob->sysjob = pjsysjob;
405 pjob->fd = pjfd;
406 pjob->starttime = pjstarttime;
407 pjob->status = pjstatus;
408 pjob->size = pjsize;
409 pjob->page_count = pjpage_count;
410 pjob->spooled = pjspooled;
411 pjob->smbjob = pjsmbjob;
412
413 return len;
414
415 }
416
417 /****************************************************************************
418 Useful function to find a print job in the database.
419 ****************************************************************************/
420
421 static struct printjob *print_job_find(const char *sharename, uint32 jobid)
422 {
423 static struct printjob pjob;
424 uint32_t tmp;
425 TDB_DATA ret;
426 struct tdb_print_db *pdb = get_print_db_byname(sharename);
427
428 DEBUG(10,("print_job_find: looking up job %u for share %s\n",
429 (unsigned int)jobid, sharename ));
430
431 if (!pdb) {
432 return NULL;
433 }
434
435 ret = tdb_fetch(pdb->tdb, print_key(jobid, &tmp));
436 release_print_db(pdb);
437
438 if (!ret.dptr) {
439 DEBUG(10,("print_job_find: failed to find jobid %u.\n", (unsigned int)jobid ));
440 return NULL;
441 }
442
443 talloc_free(pjob.devmode);
444
445 ZERO_STRUCT( pjob );
446
447 if ( unpack_pjob( ret.dptr, ret.dsize, &pjob ) == -1 ) {
448 DEBUG(10,("print_job_find: failed to unpack jobid %u.\n", (unsigned int)jobid ));
449 SAFE_FREE(ret.dptr);
450 return NULL;
451 }
452
453 SAFE_FREE(ret.dptr);
454
455 DEBUG(10,("print_job_find: returning system job %d for jobid %u.\n",
456 (int)pjob.sysjob, (unsigned int)jobid ));
457
458 return &pjob;
459 }
460
461 /* Convert a unix jobid to a smb jobid */
462
463 struct unixjob_traverse_state {
464 int sysjob;
465 uint32 sysjob_to_jobid_value;
466 };
467
468 static int unixjob_traverse_fn(TDB_CONTEXT *the_tdb, TDB_DATA key,
469 TDB_DATA data, void *private_data)
470 {
471 struct printjob *pjob;
472 struct unixjob_traverse_state *state =
473 (struct unixjob_traverse_state *)private_data;
474
475 if (!data.dptr || data.dsize == 0)
476 return 0;
477
478 pjob = (struct printjob *)data.dptr;
479 if (key.dsize != sizeof(uint32))
480 return 0;
481
482 if (state->sysjob == pjob->sysjob) {
483 uint32 jobid = IVAL(key.dptr,0);
484
485 state->sysjob_to_jobid_value = jobid;
486 return 1;
487 }
488
489 return 0;
490 }
491
492 /****************************************************************************
493 This is a *horribly expensive call as we have to iterate through all the
494 current printer tdb's. Don't do this often ! JRA.
495 ****************************************************************************/
496
497 uint32 sysjob_to_jobid(int unix_jobid)
498 {
499 int services = lp_numservices();
500 int snum;
501 struct unixjob_traverse_state state;
502
503 state.sysjob = unix_jobid;
504 state.sysjob_to_jobid_value = (uint32)-1;
505
506 for (snum = 0; snum < services; snum++) {
507 struct tdb_print_db *pdb;
508 if (!lp_print_ok(snum))
509 continue;
510 pdb = get_print_db_byname(lp_const_servicename(snum));
511 if (!pdb) {
512 continue;
513 }
514 tdb_traverse(pdb->tdb, unixjob_traverse_fn, &state);
515 release_print_db(pdb);
516 if (state.sysjob_to_jobid_value != (uint32)-1)
517 return state.sysjob_to_jobid_value;
518 }
519 return (uint32)-1;
520 }
521
522 /****************************************************************************
523 Send notifications based on what has changed after a pjob_store.
524 ****************************************************************************/
525
526 static const struct {
527 uint32 lpq_status;
528 uint32 spoolss_status;
529 } lpq_to_spoolss_status_map[] = {
530 { LPQ_QUEUED, JOB_STATUS_QUEUED },
531 { LPQ_PAUSED, JOB_STATUS_PAUSED },
532 { LPQ_SPOOLING, JOB_STATUS_SPOOLING },
533 { LPQ_PRINTING, JOB_STATUS_PRINTING },
534 { LPQ_DELETING, JOB_STATUS_DELETING },
535 { LPQ_OFFLINE, JOB_STATUS_OFFLINE },
536 { LPQ_PAPEROUT, JOB_STATUS_PAPEROUT },
537 { LPQ_PRINTED, JOB_STATUS_PRINTED },
538 { LPQ_DELETED, JOB_STATUS_DELETED },
539 { LPQ_BLOCKED, JOB_STATUS_BLOCKED_DEVQ },
540 { LPQ_USER_INTERVENTION, JOB_STATUS_USER_INTERVENTION },
541 { -1, 0 }
542 };
543
544 /* Convert a lpq status value stored in printing.tdb into the
545 appropriate win32 API constant. */
546
547 static uint32 map_to_spoolss_status(uint32 lpq_status)
548 {
549 int i = 0;
550
551 while (lpq_to_spoolss_status_map[i].lpq_status != -1) {
552 if (lpq_to_spoolss_status_map[i].lpq_status == lpq_status)
553 return lpq_to_spoolss_status_map[i].spoolss_status;
554 i++;
555 }
556
557 return 0;
558 }
559
560 static void pjob_store_notify(const char* sharename, uint32 jobid, struct printjob *old_data,
561 struct printjob *new_data)
562 {
563 bool new_job = False;
564
565 if (!old_data)
566 new_job = True;
567
568 /* Job attributes that can't be changed. We only send
569 notification for these on a new job. */
570
571 /* ACHTUNG! Due to a bug in Samba's spoolss parsing of the
572 NOTIFY_INFO_DATA buffer, we *have* to send the job submission
573 time first or else we'll end up with potential alignment
574 errors. I don't think the systemtime should be spooled as
575 a string, but this gets us around that error.
576 --jerry (i'll feel dirty for this) */
577
578 if (new_job) {
579 notify_job_submitted(sharename, jobid, new_data->starttime);
580 notify_job_username(sharename, jobid, new_data->user);
581 }
582
583 if (new_job || !strequal(old_data->jobname, new_data->jobname))
584 notify_job_name(sharename, jobid, new_data->jobname);
585
586 /* Job attributes of a new job or attributes that can be
587 modified. */
588
589 if (new_job || !strequal(old_data->jobname, new_data->jobname))
590 notify_job_name(sharename, jobid, new_data->jobname);
591
592 if (new_job || old_data->status != new_data->status)
593 notify_job_status(sharename, jobid, map_to_spoolss_status(new_data->status));
594
595 if (new_job || old_data->size != new_data->size)
596 notify_job_total_bytes(sharename, jobid, new_data->size);
597
598 if (new_job || old_data->page_count != new_data->page_count)
599 notify_job_total_pages(sharename, jobid, new_data->page_count);
600 }
601
602 /****************************************************************************
603 Store a job structure back to the database.
604 ****************************************************************************/
605
606 static bool pjob_store(const char* sharename, uint32 jobid, struct printjob *pjob)
607 {
608 uint32_t tmp;
609 TDB_DATA old_data, new_data;
610 bool ret = False;
611 struct tdb_print_db *pdb = get_print_db_byname(sharename);
612 uint8 *buf = NULL;
613 int len, newlen, buflen;
614
615
616 if (!pdb)
617 return False;
618
619 /* Get old data */
620
621 old_data = tdb_fetch(pdb->tdb, print_key(jobid, &tmp));
622
623 /* Doh! Now we have to pack/unpack data since the NT_DEVICEMODE was added */
624
625 newlen = 0;
626
627 do {
628 len = 0;
629 buflen = newlen;
630 len += tdb_pack(buf+len, buflen-len, "dddddddddffff",
631 (uint32)pjob->pid,
632 (uint32)pjob->sysjob,
633 (uint32)pjob->fd,
634 (uint32)pjob->starttime,
635 (uint32)pjob->status,
636 (uint32)pjob->size,
637 (uint32)pjob->page_count,
638 (uint32)pjob->spooled,
639 (uint32)pjob->smbjob,
640 pjob->filename,
641 pjob->jobname,
642 pjob->user,
643 pjob->queuename);
644
645 len += pack_devicemode(pjob->devmode, buf+len, buflen-len);
646
647 if (buflen != len) {
648 buf = (uint8 *)SMB_REALLOC(buf, len);
649 if (!buf) {
650 DEBUG(0,("pjob_store: failed to enlarge buffer!\n"));
651 goto done;
652 }
653 newlen = len;
654 }
655 } while ( buflen != len );
656
657
658 /* Store new data */
659
660 new_data.dptr = buf;
661 new_data.dsize = len;
662 ret = (tdb_store(pdb->tdb, print_key(jobid, &tmp), new_data,
663 TDB_REPLACE) == 0);
664
665 release_print_db(pdb);
666
667 /* Send notify updates for what has changed */
668
669 if ( ret ) {
670 struct printjob old_pjob;
671
672 if ( old_data.dsize )
673 {
674 if ( unpack_pjob( old_data.dptr, old_data.dsize, &old_pjob ) != -1 )
675 {
676 pjob_store_notify( sharename, jobid, &old_pjob , pjob );
677 talloc_free(old_pjob.devmode);
678 }
679 }
680 else {
681 /* new job */
682 pjob_store_notify( sharename, jobid, NULL, pjob );
683 }
684 }
685
686 done:
687 SAFE_FREE( old_data.dptr );
688 SAFE_FREE( buf );
689
690 return ret;
691 }
692
693 /****************************************************************************
694 Remove a job structure from the database.
695 ****************************************************************************/
696
697 void pjob_delete(const char* sharename, uint32 jobid)
698 {
699 uint32_t tmp;
700 struct printjob *pjob;
701 uint32 job_status = 0;
702 struct tdb_print_db *pdb;
703
704 pdb = get_print_db_byname( sharename );
705
706 if (!pdb)
707 return;
708
709 pjob = print_job_find( sharename, jobid );
710
711 if (!pjob) {
712 DEBUG(5, ("pjob_delete: we were asked to delete nonexistent job %u\n",
713 (unsigned int)jobid));
714 release_print_db(pdb);
715 return;
716 }
717
718 /* We must cycle through JOB_STATUS_DELETING and
719 JOB_STATUS_DELETED for the port monitor to delete the job
720 properly. */
721
722 job_status = JOB_STATUS_DELETING|JOB_STATUS_DELETED;
723 notify_job_status(sharename, jobid, job_status);
724
725 /* Remove from printing.tdb */
726
727 tdb_delete(pdb->tdb, print_key(jobid, &tmp));
728 remove_from_jobs_changed(sharename, jobid);
729 release_print_db( pdb );
730 rap_jobid_delete(sharename, jobid);
731 }
732
733 /****************************************************************************
734 List a unix job in the print database.
735 ****************************************************************************/
736
737 static void print_unix_job(const char *sharename, print_queue_struct *q, uint32 jobid)
738 {
739 struct printjob pj, *old_pj;
740
741 if (jobid == (uint32)-1)
742 jobid = q->job + UNIX_JOB_START;
743
744 /* Preserve the timestamp on an existing unix print job */
745
746 old_pj = print_job_find(sharename, jobid);
747
748 ZERO_STRUCT(pj);
749
750 pj.pid = (pid_t)-1;
751 pj.sysjob = q->job;
752 pj.fd = -1;
753 pj.starttime = old_pj ? old_pj->starttime : q->time;
754 pj.status = q->status;
755 pj.size = q->size;
756 pj.spooled = True;
757 fstrcpy(pj.filename, old_pj ? old_pj->filename : "");
758 if (jobid < UNIX_JOB_START) {
759 pj.smbjob = True;
760 fstrcpy(pj.jobname, old_pj ? old_pj->jobname : "Remote Downlevel Document");
761 } else {
762 pj.smbjob = False;
763 fstrcpy(pj.jobname, old_pj ? old_pj->jobname : q->fs_file);
764 }
765 fstrcpy(pj.user, old_pj ? old_pj->user : q->fs_user);
766 fstrcpy(pj.queuename, old_pj ? old_pj->queuename : sharename );
767
768 pjob_store(sharename, jobid, &pj);
769 }
770
771
772 struct traverse_struct {
773 print_queue_struct *queue;
774 int qcount, snum, maxcount, total_jobs;
775 const char *sharename;
776 time_t lpq_time;
777 const char *lprm_command;
778 struct printif *print_if;
779 };
780
781 /****************************************************************************
782 Utility fn to delete any jobs that are no longer active.
783 ****************************************************************************/
784
785 static int traverse_fn_delete(TDB_CONTEXT *t, TDB_DATA key, TDB_DATA data, void *state)
786 {
787 struct traverse_struct *ts = (struct traverse_struct *)state;
788 struct printjob pjob;
789 uint32 jobid;
790 int i = 0;
791
792 if ( key.dsize != sizeof(jobid) )
793 return 0;
794
795 jobid = IVAL(key.dptr, 0);
796 if ( unpack_pjob( data.dptr, data.dsize, &pjob ) == -1 )
797 return 0;
798 talloc_free(pjob.devmode);
799
800
801 if (!pjob.smbjob) {
802 /* remove a unix job if it isn't in the system queue any more */
803
804 for (i=0;i<ts->qcount;i++) {
805 uint32 u_jobid = (ts->queue[i].job + UNIX_JOB_START);
806 if (jobid == u_jobid)
807 break;
808 }
809 if (i == ts->qcount) {
810 DEBUG(10,("traverse_fn_delete: pjob %u deleted due to !smbjob\n",
811 (unsigned int)jobid ));
812 pjob_delete(ts->sharename, jobid);
813 return 0;
814 }
815
816 /* need to continue the the bottom of the function to
817 save the correct attributes */
818 }
819
820 /* maybe it hasn't been spooled yet */
821 if (!pjob.spooled) {
822 /* if a job is not spooled and the process doesn't
823 exist then kill it. This cleans up after smbd
824 deaths */
825 if (!process_exists_by_pid(pjob.pid)) {
826 DEBUG(10,("traverse_fn_delete: pjob %u deleted due to !process_exists (%u)\n",
827 (unsigned int)jobid, (unsigned int)pjob.pid ));
828 pjob_delete(ts->sharename, jobid);
829 } else
830 ts->total_jobs++;
831 return 0;
832 }
833
834 /* this check only makes sense for jobs submitted from Windows clients */
835
836 if ( pjob.smbjob ) {
837 for (i=0;i<ts->qcount;i++) {
838 uint32 curr_jobid;
839
840 if ( pjob.status == LPQ_DELETED )
841 continue;
842
843 curr_jobid = print_parse_jobid(ts->queue[i].fs_file);
844
845 if (jobid == curr_jobid) {
846
847 /* try to clean up any jobs that need to be deleted */
848
849 if ( pjob.status == LPQ_DELETING ) {
850 int result;
851
852 result = (*(ts->print_if->job_delete))(
853 ts->sharename, ts->lprm_command, &pjob );
854
855 if ( result != 0 ) {
856 /* if we can't delete, then reset the job status */
857 pjob.status = LPQ_QUEUED;
858 pjob_store(ts->sharename, jobid, &pjob);
859 }
860 else {
861 /* if we deleted the job, the remove the tdb record */
862 pjob_delete(ts->sharename, jobid);
863 pjob.status = LPQ_DELETED;
864 }
865
866 }
867
868 break;
869 }
870 }
871 }
872
873 /* The job isn't in the system queue - we have to assume it has
874 completed, so delete the database entry. */
875
876 if (i == ts->qcount) {
877
878 /* A race can occur between the time a job is spooled and
879 when it appears in the lpq output. This happens when
880 the job is added to printing.tdb when another smbd
881 running print_queue_update() has completed a lpq and
882 is currently traversing the printing tdb and deleting jobs.
883 Don't delete the job if it was submitted after the lpq_time. */
884
885 if (pjob.starttime < ts->lpq_time) {
886 DEBUG(10,("traverse_fn_delete: pjob %u deleted due to pjob.starttime (%u) < ts->lpq_time (%u)\n",
887 (unsigned int)jobid,
888 (unsigned int)pjob.starttime,
889 (unsigned int)ts->lpq_time ));
890 pjob_delete(ts->sharename, jobid);
891 } else
892 ts->total_jobs++;
893 return 0;
894 }
895
896 /* Save the pjob attributes we will store.
897 FIXME!!! This is the only place where queue->job
898 represents the SMB jobid --jerry */
899
900 ts->queue[i].job = jobid;
901 ts->queue[i].size = pjob.size;
902 ts->queue[i].page_count = pjob.page_count;
903 ts->queue[i].status = pjob.status;
904 ts->queue[i].priority = 1;
905 ts->queue[i].time = pjob.starttime;
906 fstrcpy(ts->queue[i].fs_user, pjob.user);
907 fstrcpy(ts->queue[i].fs_file, pjob.jobname);
908
909 ts->total_jobs++;
910
911 return 0;
912 }
913
914 /****************************************************************************
915 Check if the print queue has been updated recently enough.
916 ****************************************************************************/
917
918 static void print_cache_flush(const char *sharename)
919 {
920 fstring key;
921 struct tdb_print_db *pdb = get_print_db_byname(sharename);
922
923 if (!pdb)
924 return;
925 slprintf(key, sizeof(key)-1, "CACHE/%s", sharename);
926 tdb_store_int32(pdb->tdb, key, -1);
927 release_print_db(pdb);
928 }
929
930 /****************************************************************************
931 Check if someone already thinks they are doing the update.
932 ****************************************************************************/
933
934 static pid_t get_updating_pid(const char *sharename)
935 {
936 fstring keystr;
937 TDB_DATA data, key;
938 pid_t updating_pid;
939 struct tdb_print_db *pdb = get_print_db_byname(sharename);
940
941 if (!pdb)
942 return (pid_t)-1;
943 slprintf(keystr, sizeof(keystr)-1, "UPDATING/%s", sharename);
944 key = string_tdb_data(keystr);
945
946 data = tdb_fetch(pdb->tdb, key);
947 release_print_db(pdb);
948 if (!data.dptr || data.dsize != sizeof(pid_t)) {
949 SAFE_FREE(data.dptr);
950 return (pid_t)-1;
951 }
952
953 updating_pid = IVAL(data.dptr, 0);
954 SAFE_FREE(data.dptr);
955
956 if (process_exists_by_pid(updating_pid))
957 return updating_pid;
958
959 return (pid_t)-1;
960 }
961
962 /****************************************************************************
963 Set the fact that we're doing the update, or have finished doing the update
964 in the tdb.
965 ****************************************************************************/
966
967 static void set_updating_pid(const fstring sharename, bool updating)
968 {
969 fstring keystr;
970 TDB_DATA key;
971 TDB_DATA data;
972 pid_t updating_pid = sys_getpid();
973 uint8 buffer[4];
974
975 struct tdb_print_db *pdb = get_print_db_byname(sharename);
976
977 if (!pdb)
978 return;
979
980 slprintf(keystr, sizeof(keystr)-1, "UPDATING/%s", sharename);
981 key = string_tdb_data(keystr);
982
983 DEBUG(5, ("set_updating_pid: %s updating lpq cache for print share %s\n",
984 updating ? "" : "not ",
985 sharename ));
986
987 if ( !updating ) {
988 tdb_delete(pdb->tdb, key);
989 release_print_db(pdb);
990 return;
991 }
992
993 SIVAL( buffer, 0, updating_pid);
994 data.dptr = buffer;
995 data.dsize = 4; /* we always assume this is a 4 byte value */
996
997 tdb_store(pdb->tdb, key, data, TDB_REPLACE);
998 release_print_db(pdb);
999 }
1000
1001 /****************************************************************************
1002 Sort print jobs by submittal time.
1003 ****************************************************************************/
1004
1005 static int printjob_comp(print_queue_struct *j1, print_queue_struct *j2)
1006 {
1007 /* Silly cases */
1008
1009 if (!j1 && !j2)
1010 return 0;
1011 if (!j1)
1012 return -1;
1013 if (!j2)
1014 return 1;
1015
1016 /* Sort on job start time */
1017
1018 if (j1->time == j2->time)
1019 return 0;
1020 return (j1->time > j2->time) ? 1 : -1;
1021 }
1022
1023 /****************************************************************************
1024 Store the sorted queue representation for later portmon retrieval.
1025 Skip deleted jobs
1026 ****************************************************************************/
1027
1028 static void store_queue_struct(struct tdb_print_db *pdb, struct traverse_struct *pts)
1029 {
1030 TDB_DATA data;
1031 int max_reported_jobs = lp_max_reported_jobs(pts->snum);
1032 print_queue_struct *queue = pts->queue;
1033 size_t len;
1034 size_t i;
1035 unsigned int qcount;
1036
1037 if (max_reported_jobs && (max_reported_jobs < pts->qcount))
1038 pts->qcount = max_reported_jobs;
1039 qcount = 0;
1040
1041 /* Work out the size. */
1042 data.dsize = 0;
1043 data.dsize += tdb_pack(NULL, 0, "d", qcount);
1044
1045 for (i = 0; i < pts->qcount; i++) {
1046 if ( queue[i].status == LPQ_DELETED )
1047 continue;
1048
1049 qcount++;
1050 data.dsize += tdb_pack(NULL, 0, "ddddddff",
1051 (uint32)queue[i].job,
1052 (uint32)queue[i].size,
1053 (uint32)queue[i].page_count,
1054 (uint32)queue[i].status,
1055 (uint32)queue[i].priority,
1056 (uint32)queue[i].time,
1057 queue[i].fs_user,
1058 queue[i].fs_file);
1059 }
1060
1061 if ((data.dptr = (uint8 *)SMB_MALLOC(data.dsize)) == NULL)
1062 return;
1063
1064 len = 0;
1065 len += tdb_pack(data.dptr + len, data.dsize - len, "d", qcount);
1066 for (i = 0; i < pts->qcount; i++) {
1067 if ( queue[i].status == LPQ_DELETED )
1068 continue;
1069
1070 len += tdb_pack(data.dptr + len, data.dsize - len, "ddddddff",
1071 (uint32)queue[i].job,
1072 (uint32)queue[i].size,
1073 (uint32)queue[i].page_count,
1074 (uint32)queue[i].status,
1075 (uint32)queue[i].priority,
1076 (uint32)queue[i].time,
1077 queue[i].fs_user,
1078 queue[i].fs_file);
1079 }
1080
1081 tdb_store(pdb->tdb, string_tdb_data("INFO/linear_queue_array"), data,
1082 TDB_REPLACE);
1083 SAFE_FREE(data.dptr);
1084 return;
1085 }
1086
1087 static TDB_DATA get_jobs_changed_data(struct tdb_print_db *pdb)
1088 {
1089 TDB_DATA data;
1090
1091 ZERO_STRUCT(data);
1092
1093 data = tdb_fetch(pdb->tdb, string_tdb_data("INFO/jobs_changed"));
1094 if (data.dptr == NULL || data.dsize == 0 || (data.dsize % 4 != 0)) {
1095 SAFE_FREE(data.dptr);
1096 ZERO_STRUCT(data);
1097 }
1098
1099 return data;
1100 }
1101
1102 static void check_job_changed(const char *sharename, TDB_DATA data, uint32 jobid)
1103 {
1104 unsigned int i;
1105 unsigned int job_count = data.dsize / 4;
1106
1107 for (i = 0; i < job_count; i++) {
1108 uint32 ch_jobid;
1109
1110 ch_jobid = IVAL(data.dptr, i*4);
1111 if (ch_jobid == jobid)
1112 remove_from_jobs_changed(sharename, jobid);
1113 }
1114 }
1115
1116 /****************************************************************************
1117 Check if the print queue has been updated recently enough.
1118 ****************************************************************************/
1119
1120 static bool print_cache_expired(const char *sharename, bool check_pending)
1121 {
1122 fstring key;
1123 time_t last_qscan_time, time_now = time(NULL);
1124 struct tdb_print_db *pdb = get_print_db_byname(sharename);
1125 bool result = False;
1126
1127 if (!pdb)
1128 return False;
1129
1130 snprintf(key, sizeof(key), "CACHE/%s", sharename);
1131 last_qscan_time = (time_t)tdb_fetch_int32(pdb->tdb, key);
1132
1133 /*
1134 * Invalidate the queue for 3 reasons.
1135 * (1). last queue scan time == -1.
1136 * (2). Current time - last queue scan time > allowed cache time.
1137 * (3). last queue scan time > current time + MAX_CACHE_VALID_TIME (1 hour by default).
1138 * This last test picks up machines for which the clock has been moved
1139 * forward, an lpq scan done and then the clock moved back. Otherwise
1140 * that last lpq scan would stay around for a loooong loooong time... :-). JRA.
1141 */
1142
1143 if (last_qscan_time == ((time_t)-1)
1144 || (time_now - last_qscan_time) >= lp_lpqcachetime()
1145 || last_qscan_time > (time_now + MAX_CACHE_VALID_TIME))
1146 {
1147 uint32 u;
1148 time_t msg_pending_time;
1149
1150 DEBUG(4, ("print_cache_expired: cache expired for queue %s "
1151 "(last_qscan_time = %d, time now = %d, qcachetime = %d)\n",
1152 sharename, (int)last_qscan_time, (int)time_now,
1153 (int)lp_lpqcachetime() ));
1154
1155 /* check if another smbd has already sent a message to update the
1156 queue. Give the pending message one minute to clear and
1157 then send another message anyways. Make sure to check for
1158 clocks that have been run forward and then back again. */
1159
1160 snprintf(key, sizeof(key), "MSG_PENDING/%s", sharename);
1161
1162 if ( check_pending
1163 && tdb_fetch_uint32( pdb->tdb, key, &u )
1164 && (msg_pending_time=u) > 0
1165 && msg_pending_time <= time_now
1166 && (time_now - msg_pending_time) < 60 )
1167 {
1168 DEBUG(4,("print_cache_expired: message already pending for %s. Accepting cache\n",
1169 sharename));
1170 goto done;
1171 }
1172
1173 result = True;
1174 }
1175
1176 done:
1177 release_print_db(pdb);
1178 return result;
1179 }
1180
1181 /****************************************************************************
1182 main work for updating the lpq cahe for a printer queue
1183 ****************************************************************************/
1184
1185 static void print_queue_update_internal( const char *sharename,
1186 struct printif *current_printif,
1187 char *lpq_command, char *lprm_command )
1188 {
1189 int i, qcount;
1190 print_queue_struct *queue = NULL;
1191 print_status_struct status;
1192 print_status_struct old_status;
1193 struct printjob *pjob;
1194 struct traverse_struct tstruct;
1195 TDB_DATA data, key;
1196 TDB_DATA jcdata;
1197 fstring keystr, cachestr;
1198 struct tdb_print_db *pdb = get_print_db_byname(sharename);
1199
1200 if (!pdb) {
1201 return;
1202 }
1203
1204 DEBUG(5,("print_queue_update_internal: printer = %s, type = %d, lpq command = [%s]\n",
1205 sharename, current_printif->type, lpq_command));
1206
1207 /*
1208 * Update the cache time FIRST ! Stops others even
1209 * attempting to get the lock and doing this
1210 * if the lpq takes a long time.
1211 */
1212
1213 slprintf(cachestr, sizeof(cachestr)-1, "CACHE/%s", sharename);
1214 tdb_store_int32(pdb->tdb, cachestr, (int)time(NULL));
1215
1216 /* get the current queue using the appropriate interface */
1217 ZERO_STRUCT(status);
1218
1219 qcount = (*(current_printif->queue_get))(sharename,
1220 current_printif->type,
1221 lpq_command, &queue, &status);
1222
1223 DEBUG(3, ("print_queue_update_internal: %d job%s in queue for %s\n",
1224 qcount, (qcount != 1) ? "s" : "", sharename));
1225
1226 /* Sort the queue by submission time otherwise they are displayed
1227 in hash order. */
1228
1229 TYPESAFE_QSORT(queue, qcount, printjob_comp);
1230
1231 /*
1232 any job in the internal database that is marked as spooled
1233 and doesn't exist in the system queue is considered finished
1234 and removed from the database
1235
1236 any job in the system database but not in the internal database
1237 is added as a unix job
1238
1239 fill in any system job numbers as we go
1240 */
1241
1242 jcdata = get_jobs_changed_data(pdb);
1243
1244 for (i=0; i<qcount; i++) {
1245 uint32 jobid = print_parse_jobid(queue[i].fs_file);
1246
1247 if (jobid == (uint32)-1) {
1248 /* assume its a unix print job */
1249 print_unix_job(sharename, &queue[i], jobid);
1250 continue;
1251 }
1252
1253 /* we have an active SMB print job - update its status */
1254 pjob = print_job_find(sharename, jobid);
1255 if (!pjob) {
1256 /* err, somethings wrong. Probably smbd was restarted
1257 with jobs in the queue. All we can do is treat them
1258 like unix jobs. Pity. */
1259 print_unix_job(sharename, &queue[i], jobid);
1260 continue;
1261 }
1262
1263 pjob->sysjob = queue[i].job;
1264
1265 /* don't reset the status on jobs to be deleted */
1266
1267 if ( pjob->status != LPQ_DELETING )
1268 pjob->status = queue[i].status;
1269
1270 pjob_store(sharename, jobid, pjob);
1271
1272 check_job_changed(sharename, jcdata, jobid);
1273 }
1274
1275 SAFE_FREE(jcdata.dptr);
1276
1277 /* now delete any queued entries that don't appear in the
1278 system queue */
1279 tstruct.queue = queue;
1280 tstruct.qcount = qcount;
1281 tstruct.snum = -1;
1282 tstruct.total_jobs = 0;
1283 tstruct.lpq_time = time(NULL);
1284 tstruct.sharename = sharename;
1285 tstruct.lprm_command = lprm_command;
1286 tstruct.print_if = current_printif;
1287
1288 tdb_traverse(pdb->tdb, traverse_fn_delete, (void *)&tstruct);
1289
1290 /* Store the linearised queue, max jobs only. */
1291 store_queue_struct(pdb, &tstruct);
1292
1293 SAFE_FREE(tstruct.queue);
1294
1295 DEBUG(10,("print_queue_update_internal: printer %s INFO/total_jobs = %d\n",
1296 sharename, tstruct.total_jobs ));
1297
1298 tdb_store_int32(pdb->tdb, "INFO/total_jobs", tstruct.total_jobs);
1299
1300 get_queue_status(sharename, &old_status);
1301 if (old_status.qcount != qcount)
1302 DEBUG(10,("print_queue_update_internal: queue status change %d jobs -> %d jobs for printer %s\n",
1303 old_status.qcount, qcount, sharename));
1304
1305 /* store the new queue status structure */
1306 slprintf(keystr, sizeof(keystr)-1, "STATUS/%s", sharename);
1307 key = string_tdb_data(keystr);
1308
1309 status.qcount = qcount;
1310 data.dptr = (uint8 *)&status;
1311 data.dsize = sizeof(status);
1312 tdb_store(pdb->tdb, key, data, TDB_REPLACE);
1313
1314 /*
1315 * Update the cache time again. We want to do this call
1316 * as little as possible...
1317 */
1318
1319 slprintf(keystr, sizeof(keystr)-1, "CACHE/%s", sharename);
1320 tdb_store_int32(pdb->tdb, keystr, (int32)time(NULL));
1321
1322 /* clear the msg pending record for this queue */
1323
1324 snprintf(keystr, sizeof(keystr), "MSG_PENDING/%s", sharename);
1325
1326 if ( !tdb_store_uint32( pdb->tdb, keystr, 0 ) ) {
1327 /* log a message but continue on */
1328
1329 DEBUG(0,("print_queue_update: failed to store MSG_PENDING flag for [%s]!\n",
1330 sharename));
1331 }
1332
1333 release_print_db( pdb );
1334
1335 return;
1336 }
1337
1338 /****************************************************************************
1339 Update the internal database from the system print queue for a queue.
1340 obtain a lock on the print queue before proceeding (needed when mutiple
1341 smbd processes maytry to update the lpq cache concurrently).
1342 ****************************************************************************/
1343
1344 static void print_queue_update_with_lock( const char *sharename,
1345 struct printif *current_printif,
1346 char *lpq_command, char *lprm_command )
1347 {
1348 fstring keystr;
1349 struct tdb_print_db *pdb;
1350
1351 DEBUG(5,("print_queue_update_with_lock: printer share = %s\n", sharename));
1352 pdb = get_print_db_byname(sharename);
1353 if (!pdb)
1354 return;
1355
1356 if ( !print_cache_expired(sharename, False) ) {
1357 DEBUG(5,("print_queue_update_with_lock: print cache for %s is still ok\n", sharename));
1358 release_print_db(pdb);
1359 return;
1360 }
1361
1362 /*
1363 * Check to see if someone else is doing this update.
1364 * This is essentially a mutex on the update.
1365 */
1366
1367 if (get_updating_pid(sharename) != -1) {
1368 release_print_db(pdb);
1369 return;
1370 }
1371
1372 /* Lock the queue for the database update */
1373
1374 slprintf(keystr, sizeof(keystr) - 1, "LOCK/%s", sharename);
1375 /* Only wait 10 seconds for this. */
1376 if (tdb_lock_bystring_with_timeout(pdb->tdb, keystr, 10) == -1) {
1377 DEBUG(0,("print_queue_update_with_lock: Failed to lock printer %s database\n", sharename));
1378 release_print_db(pdb);
1379 return;
1380 }
1381
1382 /*
1383 * Ensure that no one else got in here.
1384 * If the updating pid is still -1 then we are
1385 * the winner.
1386 */
1387
1388 if (get_updating_pid(sharename) != -1) {
1389 /*
1390 * Someone else is doing the update, exit.
1391 */
1392 tdb_unlock_bystring(pdb->tdb, keystr);
1393 release_print_db(pdb);
1394 return;
1395 }
1396
1397 /*
1398 * We're going to do the update ourselves.
1399 */
1400
1401 /* Tell others we're doing the update. */
1402 set_updating_pid(sharename, True);
1403
1404 /*
1405 * Allow others to enter and notice we're doing
1406 * the update.
1407 */
1408
1409 tdb_unlock_bystring(pdb->tdb, keystr);
1410
1411 /* do the main work now */
1412
1413 print_queue_update_internal( sharename, current_printif,
1414 lpq_command, lprm_command );
1415
1416 /* Delete our pid from the db. */
1417 set_updating_pid(sharename, False);
1418 release_print_db(pdb);
1419 }
1420
1421 /****************************************************************************
1422 this is the receive function of the background lpq updater
1423 ****************************************************************************/
1424 static void print_queue_receive(struct messaging_context *msg,
1425 void *private_data,
1426 uint32_t msg_type,
1427 struct server_id server_id,
1428 DATA_BLOB *data)
1429 {
1430 fstring sharename;
1431 char *lpqcommand = NULL, *lprmcommand = NULL;
1432 int printing_type;
1433 size_t len;
1434
1435 len = tdb_unpack( (uint8 *)data->data, data->length, "fdPP",
1436 sharename,
1437 &printing_type,
1438 &lpqcommand,
1439 &lprmcommand );
1440
1441 if ( len == -1 ) {
1442 SAFE_FREE(lpqcommand);
1443 SAFE_FREE(lprmcommand);
1444 DEBUG(0,("print_queue_receive: Got invalid print queue update message\n"));
1445 return;
1446 }
1447
1448 print_queue_update_with_lock(sharename,
1449 get_printer_fns_from_type((enum printing_types)printing_type),
1450 lpqcommand, lprmcommand );
1451
1452 SAFE_FREE(lpqcommand);
1453 SAFE_FREE(lprmcommand);
1454 return;
1455 }
1456
1457 static void printing_pause_fd_handler(struct tevent_context *ev,
1458 struct tevent_fd *fde,
1459 uint16_t flags,
1460 void *private_data)
1461 {
1462 /*
1463 * If pause_pipe[1] is closed it means the parent smbd
1464 * and children exited or aborted.
1465 */
1466 exit_server_cleanly(NULL);
1467 }
1468
1469 extern struct child_pid *children;
1470 extern int num_children;
1471
1472 static void add_child_pid(pid_t pid)
1473 {
1474 struct child_pid *child;
1475
1476 child = SMB_MALLOC_P(struct child_pid);
1477 if (child == NULL) {
1478 DEBUG(0, ("Could not add child struct -- malloc failed\n"));
1479 return;
1480 }
1481 child->pid = pid;
1482 DLIST_ADD(children, child);
1483 num_children += 1;
1484 }
1485
1486 static pid_t background_lpq_updater_pid = -1;
1487
1488 /****************************************************************************
1489 main thread of the background lpq updater
1490 ****************************************************************************/
1491 void start_background_queue(struct tevent_context *ev,
1492 struct messaging_context *msg_ctx)
1493 {
1494 /* Use local variables for this as we don't
1495 * need to save the parent side of this, just
1496 * ensure it closes when the process exits.
1497 */
1498 int pause_pipe[2];
1499
1500 DEBUG(3,("start_background_queue: Starting background LPQ thread\n"));
1501
1502 if (pipe(pause_pipe) == -1) {
1503 DEBUG(5,("start_background_queue: cannot create pipe. %s\n", strerror(errno) ));
1504 exit(1);
1505 }
1506
1507 background_lpq_updater_pid = sys_fork();
1508
1509 if (background_lpq_updater_pid == -1) {
1510 DEBUG(5,("start_background_queue: background LPQ thread failed to start. %s\n", strerror(errno) ));
1511 exit(1);
1512 }
1513
1514 /* Track the printing pid along with other smbd children */
1515 add_child_pid(background_lpq_updater_pid);
1516
1517 if(background_lpq_updater_pid == 0) {
1518 struct tevent_fd *fde;
1519 int ret;
1520 NTSTATUS status;
1521
1522 /* Child. */
1523 DEBUG(5,("start_background_queue: background LPQ thread started\n"));
1524
1525 close(pause_pipe[0]);
1526 pause_pipe[0] = -1;
1527
1528 status = reinit_after_fork(msg_ctx, ev, procid_self(), true);
1529
1530 if (!NT_STATUS_IS_OK(status)) {
1531 DEBUG(0,("reinit_after_fork() failed\n"));
1532 smb_panic("reinit_after_fork() failed");
1533 }
1534
1535 smbd_setup_sig_term_handler();
1536 smbd_setup_sig_hup_handler(ev, msg_ctx);
1537
1538 if (!serverid_register(procid_self(),
1539 FLAG_MSG_GENERAL|FLAG_MSG_SMBD
1540 |FLAG_MSG_PRINT_GENERAL)) {
1541 exit(1);
1542 }
1543
1544 if (!locking_init()) {
1545 exit(1);
1546 }
1547
1548 messaging_register(msg_ctx, NULL, MSG_PRINTER_UPDATE,
1549 print_queue_receive);
1550
1551 fde = tevent_add_fd(ev, ev, pause_pipe[1], TEVENT_FD_READ,
1552 printing_pause_fd_handler,
1553 NULL);
1554 if (!fde) {
1555 DEBUG(0,("tevent_add_fd() failed for pause_pipe\n"));
1556 smb_panic("tevent_add_fd() failed for pause_pipe");
1557 }
1558
1559 DEBUG(5,("start_background_queue: background LPQ thread waiting for messages\n"));
1560 ret = tevent_loop_wait(ev);
1561 /* should not be reached */
1562 DEBUG(0,("background_queue: tevent_loop_wait() exited with %d - %s\n",
1563 ret, (ret == 0) ? "out of events" : strerror(errno)));
1564 exit(1);
1565 }
1566
1567 close(pause_pipe[1]);
1568 }
1569
1570 /****************************************************************************
1571 update the internal database from the system print queue for a queue
1572 ****************************************************************************/
1573
1574 static void print_queue_update(struct messaging_context *msg_ctx,
1575 int snum, bool force)
1576 {
1577 fstring key;
1578 fstring sharename;
1579 char *lpqcommand = NULL;
1580 char *lprmcommand = NULL;
1581 uint8 *buffer = NULL;
1582 size_t len = 0;
1583 size_t newlen;
1584 struct tdb_print_db *pdb;
1585 int type;
1586 struct printif *current_printif;
1587 TALLOC_CTX *ctx = talloc_tos();
1588
1589 fstrcpy( sharename, lp_const_servicename(snum));
1590
1591 /* don't strip out characters like '$' from the printername */
1592
1593 lpqcommand = talloc_string_sub2(ctx,
1594 lp_lpqcommand(snum),
1595 "%p",
1596 lp_printername(snum),
1597 false, false, false);
1598 if (!lpqcommand) {
1599 return;
1600 }
1601 lpqcommand = talloc_sub_advanced(ctx,
1602 lp_servicename(snum),
1603 current_user_info.unix_name,
1604 "",
1605 current_user.ut.gid,
1606 get_current_username(),
1607 current_user_info.domain,
1608 lpqcommand);
1609 if (!lpqcommand) {
1610 return;
1611 }
1612
1613 lprmcommand = talloc_string_sub2(ctx,
1614 lp_lprmcommand(snum),
1615 "%p",
1616 lp_printername(snum),
1617 false, false, false);
1618 if (!lprmcommand) {
1619 return;
1620 }
1621 lprmcommand = talloc_sub_advanced(ctx,
1622 lp_servicename(snum),
1623 current_user_info.unix_name,
1624 "",
1625 current_user.ut.gid,
1626 get_current_username(),
1627 current_user_info.domain,
1628 lprmcommand);
1629 if (!lprmcommand) {
1630 return;
1631 }
1632
1633 /*
1634 * Make sure that the background queue process exists.
1635 * Otherwise just do the update ourselves
1636 */
1637
1638 if ( force || background_lpq_updater_pid == -1 ) {
1639 DEBUG(4,("print_queue_update: updating queue [%s] myself\n", sharename));
1640 current_printif = get_printer_fns( snum );
1641 print_queue_update_with_lock( sharename, current_printif, lpqcommand, lprmcommand );
1642
1643 return;
1644 }
1645
1646 type = lp_printing(snum);
1647
1648 /* get the length */
1649
1650 len = tdb_pack( NULL, 0, "fdPP",
1651 sharename,
1652 type,
1653 lpqcommand,
1654 lprmcommand );
1655
1656 buffer = SMB_XMALLOC_ARRAY( uint8, len );
1657
1658 /* now pack the buffer */
1659 newlen = tdb_pack( buffer, len, "fdPP",
1660 sharename,
1661 type,
1662 lpqcommand,
1663 lprmcommand );
1664
1665 SMB_ASSERT( newlen == len );
1666
1667 DEBUG(10,("print_queue_update: Sending message -> printer = %s, "
1668 "type = %d, lpq command = [%s] lprm command = [%s]\n",
1669 sharename, type, lpqcommand, lprmcommand ));
1670
1671 /* here we set a msg pending record for other smbd processes
1672 to throttle the number of duplicate print_queue_update msgs
1673 sent. */
1674
1675 pdb = get_print_db_byname(sharename);
1676 if (!pdb) {
1677 SAFE_FREE(buffer);
1678 return;
1679 }
1680
1681 snprintf(key, sizeof(key), "MSG_PENDING/%s", sharename);
1682
1683 if ( !tdb_store_uint32( pdb->tdb, key, time(NULL) ) ) {
1684 /* log a message but continue on */
1685
1686 DEBUG(0,("print_queue_update: failed to store MSG_PENDING flag for [%s]!\n",
1687 sharename));
1688 }
1689
1690 release_print_db( pdb );
1691
1692 /* finally send the message */
1693
1694 messaging_send_buf(msg_ctx, pid_to_procid(background_lpq_updater_pid),
1695 MSG_PRINTER_UPDATE, (uint8 *)buffer, len);
1696
1697 SAFE_FREE( buffer );
1698
1699 return;
1700 }
1701
1702 /****************************************************************************
1703 Create/Update an entry in the print tdb that will allow us to send notify
1704 updates only to interested smbd's.
1705 ****************************************************************************/
1706
1707 bool print_notify_register_pid(int snum)
1708 {
1709 TDB_DATA data;
1710 struct tdb_print_db *pdb = NULL;
1711 TDB_CONTEXT *tdb = NULL;
1712 const char *printername;
1713 uint32 mypid = (uint32)sys_getpid();
1714 bool ret = False;
1715 size_t i;
1716
1717 /* if (snum == -1), then the change notify request was
1718 on a print server handle and we need to register on
1719 all print queus */
1720
1721 if (snum == -1)
1722 {
1723 int num_services = lp_numservices();
1724 int idx;
1725
1726 for ( idx=0; idx<num_services; idx++ ) {
1727 if (lp_snum_ok(idx) && lp_print_ok(idx) )
1728 print_notify_register_pid(idx);
1729 }
1730
1731 return True;
1732 }
1733 else /* register for a specific printer */
1734 {
1735 printername = lp_const_servicename(snum);
1736 pdb = get_print_db_byname(printername);
1737 if (!pdb)
1738 return False;
1739 tdb = pdb->tdb;
1740 }
1741
1742 if (tdb_lock_bystring_with_timeout(tdb, NOTIFY_PID_LIST_KEY, 10) == -1) {
1743 DEBUG(0,("print_notify_register_pid: Failed to lock printer %s\n",
1744 printername));
1745 if (pdb)
1746 release_print_db(pdb);
1747 return False;
1748 }
1749
1750 data = get_printer_notify_pid_list( tdb, printername, True );
1751
1752 /* Add ourselves and increase the refcount. */
1753
1754 for (i = 0; i < data.dsize; i += 8) {
1755 if (IVAL(data.dptr,i) == mypid) {
1756 uint32 new_refcount = IVAL(data.dptr, i+4) + 1;
1757 SIVAL(data.dptr, i+4, new_refcount);
1758 break;
1759 }
1760 }
1761
1762 if (i == data.dsize) {
1763 /* We weren't in the list. Realloc. */
1764 data.dptr = (uint8 *)SMB_REALLOC(data.dptr, data.dsize + 8);
1765 if (!data.dptr) {
1766 DEBUG(0,("print_notify_register_pid: Relloc fail for printer %s\n",
1767 printername));
1768 goto done;
1769 }
1770 data.dsize += 8;
1771 SIVAL(data.dptr,data.dsize - 8,mypid);
1772 SIVAL(data.dptr,data.dsize - 4,1); /* Refcount. */
1773 }
1774
1775 /* Store back the record. */
1776 if (tdb_store_bystring(tdb, NOTIFY_PID_LIST_KEY, data, TDB_REPLACE) == -1) {
1777 DEBUG(0,("print_notify_register_pid: Failed to update pid \
1778 list for printer %s\n", printername));
1779 goto done;
1780 }
1781
1782 ret = True;
1783
1784 done:
1785
1786 tdb_unlock_bystring(tdb, NOTIFY_PID_LIST_KEY);
1787 if (pdb)
1788 release_print_db(pdb);
1789 SAFE_FREE(data.dptr);
1790 return ret;
1791 }
1792
1793 /****************************************************************************
1794 Update an entry in the print tdb that will allow us to send notify
1795 updates only to interested smbd's.
1796 ****************************************************************************/
1797
1798 bool print_notify_deregister_pid(int snum)
1799 {
1800 TDB_DATA data;
1801 struct tdb_print_db *pdb = NULL;
1802 TDB_CONTEXT *tdb = NULL;
1803 const char *printername;
1804 uint32 mypid = (uint32)sys_getpid();
1805 size_t i;
1806 bool ret = False;
1807
1808 /* if ( snum == -1 ), we are deregister a print server handle
1809 which means to deregister on all print queues */
1810
1811 if (snum == -1)
1812 {
1813 int num_services = lp_numservices();
1814 int idx;
1815
1816 for ( idx=0; idx<num_services; idx++ ) {
1817 if ( lp_snum_ok(idx) && lp_print_ok(idx) )
1818 print_notify_deregister_pid(idx);
1819 }
1820
1821 return True;
1822 }
1823 else /* deregister a specific printer */
1824 {
1825 printername = lp_const_servicename(snum);
1826 pdb = get_print_db_byname(printername);
1827 if (!pdb)
1828 return False;
1829 tdb = pdb->tdb;
1830 }
1831
1832 if (tdb_lock_bystring_with_timeout(tdb, NOTIFY_PID_LIST_KEY, 10) == -1) {
1833 DEBUG(0,("print_notify_register_pid: Failed to lock \
1834 printer %s database\n", printername));
1835 if (pdb)
1836 release_print_db(pdb);
1837 return False;
1838 }
1839
1840 data = get_printer_notify_pid_list( tdb, printername, True );
1841
1842 /* Reduce refcount. Remove ourselves if zero. */
1843
1844 for (i = 0; i < data.dsize; ) {
1845 if (IVAL(data.dptr,i) == mypid) {
1846 uint32 refcount = IVAL(data.dptr, i+4);
1847
1848 refcount--;
1849
1850 if (refcount == 0) {
1851 if (data.dsize - i > 8)
1852 memmove( &data.dptr[i], &data.dptr[i+8], data.dsize - i - 8);
1853 data.dsize -= 8;
1854 continue;
1855 }
1856 SIVAL(data.dptr, i+4, refcount);
1857 }
1858
1859 i += 8;
1860 }
1861
1862 if (data.dsize == 0)
1863 SAFE_FREE(data.dptr);
1864
1865 /* Store back the record. */
1866 if (tdb_store_bystring(tdb, NOTIFY_PID_LIST_KEY, data, TDB_REPLACE) == -1) {
1867 DEBUG(0,("print_notify_register_pid: Failed to update pid \
1868 list for printer %s\n", printername));
1869 goto done;
1870 }
1871
1872 ret = True;
1873
1874 done:
1875
1876 tdb_unlock_bystring(tdb, NOTIFY_PID_LIST_KEY);
1877 if (pdb)
1878 release_print_db(pdb);
1879 SAFE_FREE(data.dptr);
1880 return ret;
1881 }
1882
1883 /****************************************************************************
1884 Check if a jobid is valid. It is valid if it exists in the database.
1885 ****************************************************************************/
1886
1887 bool print_job_exists(const char* sharename, uint32 jobid)
1888 {
1889 struct tdb_print_db *pdb = get_print_db_byname(sharename);
1890 bool ret;
1891 uint32_t tmp;
1892
1893 if (!pdb)
1894 return False;
1895 ret = tdb_exists(pdb->tdb, print_key(jobid, &tmp));
1896 release_print_db(pdb);
1897 return ret;
1898 }
1899
1900 /****************************************************************************
1901 Give the filename used for a jobid.
1902 Only valid for the process doing the spooling and when the job
1903 has not been spooled.
1904 ****************************************************************************/
1905
1906 char *print_job_fname(const char* sharename, uint32 jobid)
1907 {
1908 struct printjob *pjob = print_job_find(sharename, jobid);
1909 if (!pjob || pjob->spooled || pjob->pid != sys_getpid())
1910 return NULL;
1911 return pjob->filename;
1912 }
1913
1914
1915 /****************************************************************************
1916 Give the filename used for a jobid.
1917 Only valid for the process doing the spooling and when the job
1918 has not been spooled.
1919 ****************************************************************************/
1920
1921 struct spoolss_DeviceMode *print_job_devmode(const char* sharename, uint32 jobid)
1922 {
1923 struct printjob *pjob = print_job_find(sharename, jobid);
1924
1925 if ( !pjob )
1926 return NULL;
1927
1928 return pjob->devmode;
1929 }
1930
1931 /****************************************************************************
1932 Set the name of a job. Only possible for owner.
1933 ****************************************************************************/
1934
1935 bool print_job_set_name(const char *sharename, uint32 jobid, const char *name)
1936 {
1937 struct printjob *pjob;
1938
1939 pjob = print_job_find(sharename, jobid);
1940 if (!pjob || pjob->pid != sys_getpid())
1941 return False;
1942
1943 fstrcpy(pjob->jobname, name);
1944 return pjob_store(sharename, jobid, pjob);
1945 }
1946
1947 /****************************************************************************
1948 Get the name of a job. Only possible for owner.
1949 ****************************************************************************/
1950
1951 bool print_job_get_name(TALLOC_CTX *mem_ctx, const char *sharename, uint32_t jobid, char **name)
1952 {
1953 struct printjob *pjob;
1954
1955 pjob = print_job_find(sharename, jobid);
1956 if (!pjob || pjob->pid != sys_getpid()) {
1957 return false;
1958 }
1959
1960 *name = talloc_strdup(mem_ctx, pjob->jobname);
1961 if (!*name) {
1962 return false;
1963 }
1964
1965 return true;
1966 }
1967
1968
1969 /***************************************************************************
1970 Remove a jobid from the 'jobs changed' list.
1971 ***************************************************************************/
1972
1973 static bool remove_from_jobs_changed(const char* sharename, uint32 jobid)
1974 {
1975 struct tdb_print_db *pdb = get_print_db_byname(sharename);
1976 TDB_DATA data, key;
1977 size_t job_count, i;
1978 bool ret = False;
1979 bool gotlock = False;
1980
1981 if (!pdb) {
1982 return False;
1983 }
1984
1985 ZERO_STRUCT(data);
1986
1987 key = string_tdb_data("INFO/jobs_changed");
1988
1989 if (tdb_chainlock_with_timeout(pdb->tdb, key, 5) == -1)
1990 goto out;
1991
1992 gotlock = True;
1993
1994 data = tdb_fetch(pdb->tdb, key);
1995
1996 if (data.dptr == NULL || data.dsize == 0 || (data.dsize % 4 != 0))
1997 goto out;
1998
1999 job_count = data.dsize / 4;
2000 for (i = 0; i < job_count; i++) {
2001 uint32 ch_jobid;
2002
2003 ch_jobid = IVAL(data.dptr, i*4);
2004 if (ch_jobid == jobid) {
2005 if (i < job_count -1 )
2006 memmove(data.dptr + (i*4), data.dptr + (i*4) + 4, (job_count - i - 1)*4 );
2007 data.dsize -= 4;
2008 if (tdb_store(pdb->tdb, key, data, TDB_REPLACE) == -1)
2009 goto out;
2010 break;
2011 }
2012 }
2013
2014 ret = True;
2015 out:
2016
2017 if (gotlock)
2018 tdb_chainunlock(pdb->tdb, key);
2019 SAFE_FREE(data.dptr);
2020 release_print_db(pdb);
2021 if (ret)
2022 DEBUG(10,("remove_from_jobs_changed: removed jobid %u\n", (unsigned int)jobid ));
2023 else
2024 DEBUG(10,("remove_from_jobs_changed: Failed to remove jobid %u\n", (unsigned int)jobid ));
2025 return ret;
2026 }
2027
2028 /****************************************************************************
2029 Delete a print job - don't update queue.
2030 ****************************************************************************/
2031
2032 static bool print_job_delete1(int snum, uint32 jobid)
2033 {
2034 const char* sharename = lp_const_servicename(snum);
2035 struct printjob *pjob = print_job_find(sharename, jobid);
2036 int result = 0;
2037 struct printif *current_printif = get_printer_fns( snum );
2038
2039 if (!pjob)
2040 return False;
2041
2042 /*
2043 * If already deleting just return.
2044 */
2045
2046 if (pjob->status == LPQ_DELETING)
2047 return True;
2048
2049 /* Hrm - we need to be able to cope with deleting a job before it
2050 has reached the spooler. Just mark it as LPQ_DELETING and
2051 let the print_queue_update() code rmeove the record */
2052
2053
2054 if (pjob->sysjob == -1) {
2055 DEBUG(5, ("attempt to delete job %u not seen by lpr\n", (unsigned int)jobid));
2056 }
2057
2058 /* Set the tdb entry to be deleting. */
2059
2060 pjob->status = LPQ_DELETING;
2061 pjob_store(sharename, jobid, pjob);
2062
2063 if (pjob->spooled && pjob->sysjob != -1)
2064 {
2065 result = (*(current_printif->job_delete))(
2066 lp_printername(snum),
2067 lp_lprmcommand(snum),
2068 pjob);
2069
2070 /* Delete the tdb entry if the delete succeeded or the job hasn't
2071 been spooled. */
2072
2073 if (result == 0) {
2074 struct tdb_print_db *pdb = get_print_db_byname(sharename);
2075 int njobs = 1;
2076
2077 if (!pdb)
2078 return False;
2079 pjob_delete(sharename, jobid);
2080 /* Ensure we keep a rough count of the number of total jobs... */
2081 tdb_change_int32_atomic(pdb->tdb, "INFO/total_jobs", &njobs, -1);
2082 release_print_db(pdb);
2083 }
2084 }
2085
2086 remove_from_jobs_changed( sharename, jobid );
2087
2088 return (result == 0);
2089 }
2090
2091 /****************************************************************************
2092 Return true if the current user owns the print job.
2093 ****************************************************************************/
2094
2095 static bool is_owner(struct auth_serversupplied_info *server_info,
2096 const char *servicename,
2097 uint32 jobid)
2098 {
2099 struct printjob *pjob = print_job_find(servicename, jobid);
2100
2101 if (!pjob || !server_info)
2102 return False;
2103
2104 return strequal(pjob->user, server_info->sanitized_username);
2105 }
2106
2107 /****************************************************************************
2108 Delete a print job.
2109 ****************************************************************************/
2110
2111 WERROR print_job_delete(struct auth_serversupplied_info *server_info,
2112 struct messaging_context *msg_ctx,
2113 int snum, uint32_t jobid)
2114 {
2115 const char* sharename = lp_const_servicename(snum);
2116 struct printjob *pjob;
2117 bool owner;
2118 char *fname;
2119
2120 owner = is_owner(server_info, lp_const_servicename(snum), jobid);
2121
2122 /* Check access against security descriptor or whether the user
2123 owns their job. */
2124
2125 if (!owner &&
2126 !print_access_check(server_info, msg_ctx, snum,
2127 JOB_ACCESS_ADMINISTER)) {
2128 DEBUG(3, ("delete denied by security descriptor\n"));
2129
2130 /* BEGIN_ADMIN_LOG */
2131 sys_adminlog( LOG_ERR,
2132 "Permission denied-- user not allowed to delete, \
2133 pause, or resume print job. User name: %s. Printer name: %s.",
2134 uidtoname(server_info->utok.uid),
2135 lp_printername(snum) );
2136 /* END_ADMIN_LOG */
2137
2138 return WERR_ACCESS_DENIED;
2139 }
2140
2141 /*
2142 * get the spooled filename of the print job
2143 * if this works, then the file has not been spooled
2144 * to the underlying print system. Just delete the
2145 * spool file & return.
2146 */
2147
2148 fname = print_job_fname(sharename, jobid);
2149 if (fname != NULL) {
2150 /* remove the spool file */
2151 DEBUG(10, ("print_job_delete: "
2152 "Removing spool file [%s]\n", fname));
2153 if (unlink(fname) == -1) {
2154 return map_werror_from_unix(errno);
2155 }
2156 }
2157
2158 if (!print_job_delete1(snum, jobid)) {
2159 return WERR_ACCESS_DENIED;
2160 }
2161
2162 /* force update the database and say the delete failed if the
2163 job still exists */
2164
2165 print_queue_update(msg_ctx, snum, True);
2166
2167 pjob = print_job_find(sharename, jobid);
2168 if (pjob && (pjob->status != LPQ_DELETING)) {
2169 return WERR_ACCESS_DENIED;
2170 }
2171
2172 return WERR_PRINTER_HAS_JOBS_QUEUED;
2173 }
2174
2175 /****************************************************************************
2176 Pause a job.
2177 ****************************************************************************/
2178
2179 bool print_job_pause(struct auth_serversupplied_info *server_info,
2180 struct messaging_context *msg_ctx,
2181 int snum, uint32 jobid, WERROR *errcode)
2182 {
2183 const char* sharename = lp_const_servicename(snum);
2184 struct printjob *pjob;
2185 int ret = -1;
2186 struct printif *current_printif = get_printer_fns( snum );
2187
2188 pjob = print_job_find(sharename, jobid);
2189
2190 if (!pjob || !server_info) {
2191 DEBUG(10, ("print_job_pause: no pjob or user for jobid %u\n",
2192 (unsigned int)jobid ));
2193 return False;
2194 }
2195
2196 if (!pjob->spooled || pjob->sysjob == -1) {
2197 DEBUG(10, ("print_job_pause: not spooled or bad sysjob = %d for jobid %u\n",
2198 (int)pjob->sysjob, (unsigned int)jobid ));
2199 return False;
2200 }
2201
2202 if (!is_owner(server_info, lp_const_servicename(snum), jobid) &&
2203 !print_access_check(server_info, msg_ctx, snum,
2204 JOB_ACCESS_ADMINISTER)) {
2205 DEBUG(3, ("pause denied by security descriptor\n"));
2206
2207 /* BEGIN_ADMIN_LOG */
2208 sys_adminlog( LOG_ERR,
2209 "Permission denied-- user not allowed to delete, \
2210 pause, or resume print job. User name: %s. Printer name: %s.",
2211 uidtoname(server_info->utok.uid),
2212 lp_printername(snum) );
2213 /* END_ADMIN_LOG */
2214
2215 *errcode = WERR_ACCESS_DENIED;
2216 return False;
2217 }
2218
2219 /* need to pause the spooled entry */
2220 ret = (*(current_printif->job_pause))(snum, pjob);
2221
2222 if (ret != 0) {
2223 *errcode = WERR_INVALID_PARAM;
2224 return False;
2225 }
2226
2227 /* force update the database */
2228 print_cache_flush(lp_const_servicename(snum));
2229
2230 /* Send a printer notify message */
2231
2232 notify_job_status(sharename, jobid, JOB_STATUS_PAUSED);
2233
2234 /* how do we tell if this succeeded? */
2235
2236 return True;
2237 }
2238
2239 /****************************************************************************
2240 Resume a job.
2241 ****************************************************************************/
2242
2243 bool print_job_resume(struct auth_serversupplied_info *server_info,
2244 struct messaging_context *msg_ctx,
2245 int snum, uint32 jobid, WERROR *errcode)
2246 {
2247 const char *sharename = lp_const_servicename(snum);
2248 struct printjob *pjob;
2249 int ret;
2250 struct printif *current_printif = get_printer_fns( snum );
2251
2252 pjob = print_job_find(sharename, jobid);
2253
2254 if (!pjob || !server_info) {
2255 DEBUG(10, ("print_job_resume: no pjob or user for jobid %u\n",
2256 (unsigned int)jobid ));
2257 return False;
2258 }
2259
2260 if (!pjob->spooled || pjob->sysjob == -1) {
2261 DEBUG(10, ("print_job_resume: not spooled or bad sysjob = %d for jobid %u\n",
2262 (int)pjob->sysjob, (unsigned int)jobid ));
2263 return False;
2264 }
2265
2266 if (!is_owner(server_info, lp_const_servicename(snum), jobid) &&
2267 !print_access_check(server_info, msg_ctx, snum,
2268 JOB_ACCESS_ADMINISTER)) {
2269 DEBUG(3, ("resume denied by security descriptor\n"));
2270 *errcode = WERR_ACCESS_DENIED;
2271
2272 /* BEGIN_ADMIN_LOG */
2273 sys_adminlog( LOG_ERR,
2274 "Permission denied-- user not allowed to delete, \
2275 pause, or resume print job. User name: %s. Printer name: %s.",
2276 uidtoname(server_info->utok.uid),
2277 lp_printername(snum) );
2278 /* END_ADMIN_LOG */
2279 return False;
2280 }
2281
2282 ret = (*(current_printif->job_resume))(snum, pjob);
2283
2284 if (ret != 0) {
2285 *errcode = WERR_INVALID_PARAM;
2286 return False;
2287 }
2288
2289 /* force update the database */
2290 print_cache_flush(lp_const_servicename(snum));
2291
2292 /* Send a printer notify message */
2293
2294 notify_job_status(sharename, jobid, JOB_STATUS_QUEUED);
2295
2296 return True;
2297 }
2298
2299 /****************************************************************************
2300 Write to a print file.
2301 ****************************************************************************/
2302
2303 ssize_t print_job_write(int snum, uint32 jobid, const char *buf, SMB_OFF_T pos, size_t size)
2304 {
2305 const char* sharename = lp_const_servicename(snum);
2306 ssize_t return_code;
2307 struct printjob *pjob;
2308
2309 pjob = print_job_find(sharename, jobid);
2310
2311 if (!pjob)
2312 return -1;
2313 /* don't allow another process to get this info - it is meaningless */
2314 if (pjob->pid != sys_getpid())
2315 return -1;
2316
2317 /* if SMBD is spooling this can't be allowed */
2318 if (pjob->status == PJOB_SMBD_SPOOLING) {
2319 return -1;
2320 }
2321
2322 return_code = write_data_at_offset(pjob->fd, buf, size, pos);
2323
2324 if (return_code>0) {
2325 pjob->size += size;
2326 pjob_store(sharename, jobid, pjob);
2327 }
2328 return return_code;
2329 }
2330
2331 /****************************************************************************
2332 Get the queue status - do not update if db is out of date.
2333 ****************************************************************************/
2334
2335 static int get_queue_status(const char* sharename, print_status_struct *status)
2336 {
2337 fstring keystr;
2338 TDB_DATA data;
2339 struct tdb_print_db *pdb = get_print_db_byname(sharename);
2340 int len;
2341
2342 if (status) {
2343 ZERO_STRUCTP(status);
2344 }
2345
2346 if (!pdb)
2347 return 0;
2348
2349 if (status) {
2350 fstr_sprintf(keystr, "STATUS/%s", sharename);
2351 data = tdb_fetch(pdb->tdb, string_tdb_data(keystr));
2352 if (data.dptr) {
2353 if (data.dsize == sizeof(print_status_struct))
2354 /* this memcpy is ok since the status struct was
2355 not packed before storing it in the tdb */
2356 memcpy(status, data.dptr, sizeof(print_status_struct));
2357 SAFE_FREE(data.dptr);
2358 }
2359 }
2360 len = tdb_fetch_int32(pdb->tdb, "INFO/total_jobs");
2361 release_print_db(pdb);
2362 return (len == -1 ? 0 : len);
2363 }
2364
2365 /****************************************************************************
2366 Determine the number of jobs in a queue.
2367 ****************************************************************************/
2368
2369 int print_queue_length(struct messaging_context *msg_ctx, int snum,
2370 print_status_struct *pstatus)
2371 {
2372 const char* sharename = lp_const_servicename( snum );
2373 print_status_struct status;
2374 int len;
2375
2376 ZERO_STRUCT( status );
2377
2378 /* make sure the database is up to date */
2379 if (print_cache_expired(lp_const_servicename(snum), True))
2380 print_queue_update(msg_ctx, snum, False);
2381
2382 /* also fetch the queue status */
2383 memset(&status, 0, sizeof(status));
2384 len = get_queue_status(sharename, &status);
2385
2386 if (pstatus)
2387 *pstatus = status;
2388
2389 return len;
2390 }
2391
2392 /***************************************************************************
2393 Allocate a jobid. Hold the lock for as short a time as possible.
2394 ***************************************************************************/
2395
2396 static WERROR allocate_print_jobid(struct tdb_print_db *pdb, int snum,
2397 const char *sharename, uint32 *pjobid)
2398 {
2399 int i;
2400 uint32 jobid;
2401 enum TDB_ERROR terr;
2402 int ret;
2403
2404 *pjobid = (uint32)-1;
2405
2406 for (i = 0; i < 3; i++) {
2407 /* Lock the database - only wait 20 seconds. */
2408 ret = tdb_lock_bystring_with_timeout(pdb->tdb,
2409 "INFO/nextjob", 20);
2410 if (ret == -1) {
2411 DEBUG(0, ("allocate_print_jobid: "
2412 "Failed to lock printing database %s\n",
2413 sharename));
2414 terr = tdb_error(pdb->tdb);
2415 return ntstatus_to_werror(map_nt_error_from_tdb(terr));
2416 }
2417
2418 if (!tdb_fetch_uint32(pdb->tdb, "INFO/nextjob", &jobid)) {
2419 terr = tdb_error(pdb->tdb);
2420 if (terr != TDB_ERR_NOEXIST) {
2421 DEBUG(0, ("allocate_print_jobid: "
2422 "Failed to fetch INFO/nextjob "
2423 "for print queue %s\n", sharename));
2424 tdb_unlock_bystring(pdb->tdb, "INFO/nextjob");
2425 return ntstatus_to_werror(map_nt_error_from_tdb(terr));
2426 }
2427 DEBUG(10, ("allocate_print_jobid: "
2428 "No existing jobid in %s\n", sharename));
2429 jobid = 0;
2430 }
2431
2432 DEBUG(10, ("allocate_print_jobid: "
2433 "Read jobid %u from %s\n", jobid, sharename));
2434
2435 jobid = NEXT_JOBID(jobid);
2436
2437 ret = tdb_store_int32(pdb->tdb, "INFO/nextjob", jobid);
2438 if (ret == -1) {
2439 terr = tdb_error(pdb->tdb);
2440 DEBUG(3, ("allocate_print_jobid: "
2441 "Failed to store INFO/nextjob.\n"));
2442 tdb_unlock_bystring(pdb->tdb, "INFO/nextjob");
2443 return ntstatus_to_werror(map_nt_error_from_tdb(terr));
2444 }
2445
2446 /* We've finished with the INFO/nextjob lock. */
2447 tdb_unlock_bystring(pdb->tdb, "INFO/nextjob");
2448
2449 if (!print_job_exists(sharename, jobid)) {
2450 break;
2451 }
2452 DEBUG(10, ("allocate_print_jobid: "
2453 "Found jobid %u in %s\n", jobid, sharename));
2454 }
2455
2456 if (i > 2) {
2457 DEBUG(0, ("allocate_print_jobid: "
2458 "Failed to allocate a print job for queue %s\n",
2459 sharename));
2460 /* Probably full... */
2461 return WERR_NO_SPOOL_SPACE;
2462 }
2463
2464 /* Store a dummy placeholder. */
2465 {
2466 uint32_t tmp;
2467 TDB_DATA dum;
2468 dum.dptr = NULL;
2469 dum.dsize = 0;
2470 if (tdb_store(pdb->tdb, print_key(jobid, &tmp), dum,
2471 TDB_INSERT) == -1) {
2472 DEBUG(3, ("allocate_print_jobid: "
2473 "jobid (%d) failed to store placeholder.\n",
2474 jobid ));
2475 terr = tdb_error(pdb->tdb);
2476 return ntstatus_to_werror(map_nt_error_from_tdb(terr));
2477 }
2478 }
2479
2480 *pjobid = jobid;
2481 return WERR_OK;
2482 }
2483
2484 /***************************************************************************
2485 Append a jobid to the 'jobs changed' list.
2486 ***************************************************************************/
2487
2488 static bool add_to_jobs_changed(struct tdb_print_db *pdb, uint32 jobid)
2489 {
2490 TDB_DATA data;
2491 uint32 store_jobid;
2492
2493 SIVAL(&store_jobid, 0, jobid);
2494 data.dptr = (uint8 *)&store_jobid;
2495 data.dsize = 4;
2496
2497 DEBUG(10,("add_to_jobs_changed: Added jobid %u\n", (unsigned int)jobid ));
2498
2499 return (tdb_append(pdb->tdb, string_tdb_data("INFO/jobs_changed"),
2500 data) == 0);
2501 }
2502
2503
2504 /***************************************************************************
2505 Do all checks needed to determine if we can start a job.
2506 ***************************************************************************/
2507
2508 static WERROR print_job_checks(struct auth_serversupplied_info *server_info,
2509 struct messaging_context *msg_ctx,
2510 int snum, int *njobs)
2511 {
2512 const char *sharename = lp_const_servicename(snum);
2513 uint64_t dspace, dsize;
2514 uint64_t minspace;
2515 int ret;
2516
2517 if (!print_access_check(server_info, msg_ctx, snum,
2518 PRINTER_ACCESS_USE)) {
2519 DEBUG(3, ("print_job_checks: "
2520 "job start denied by security descriptor\n"));
2521 return WERR_ACCESS_DENIED;
2522 }
2523
2524 if (!print_time_access_check(server_info, msg_ctx, sharename)) {
2525 DEBUG(3, ("print_job_checks: "
2526 "job start denied by time check\n"));
2527 return WERR_ACCESS_DENIED;
2528 }
2529
2530 /* see if we have sufficient disk space */
2531 if (lp_minprintspace(snum)) {
2532 minspace = lp_minprintspace(snum);
2533 ret = sys_fsusage(lp_pathname(snum), &dspace, &dsize);
2534 if (ret == 0 && dspace < 2*minspace) {
2535 DEBUG(3, ("print_job_checks: "
2536 "disk space check failed.\n"));
2537 return WERR_NO_SPOOL_SPACE;
2538 }
2539 }
2540
2541 /* for autoloaded printers, check that the printcap entry still exists */
2542 if (lp_autoloaded(snum) && !pcap_printername_ok(sharename)) {
2543 DEBUG(3, ("print_job_checks: printer name %s check failed.\n",
2544 sharename));
2545 return WERR_ACCESS_DENIED;
2546 }
2547
2548 /* Insure the maximum queue size is not violated */
2549 *njobs = print_queue_length(msg_ctx, snum, NULL);
2550 if (*njobs > lp_maxprintjobs(snum)) {
2551 DEBUG(3, ("print_job_checks: Queue %s number of jobs (%d) "
2552 "larger than max printjobs per queue (%d).\n",
2553 sharename, *njobs, lp_maxprintjobs(snum)));
2554 return WERR_NO_SPOOL_SPACE;
2555 }
2556
2557 return WERR_OK;
2558 }
2559
2560 /***************************************************************************
2561 Create a job file.
2562 ***************************************************************************/
2563
2564 static WERROR print_job_spool_file(int snum, uint32_t jobid,
2565 const char *output_file,
2566 struct printjob *pjob)
2567 {
2568 WERROR werr;
2569 SMB_STRUCT_STAT st;
2570 const char *path;
2571 int len;
2572
2573 /* if this file is within the printer path, it means that smbd
2574 * is spooling it and will pass us control when it is finished.
2575 * Verify that the file name is ok, within path, and it is
2576 * already already there */
2577 if (output_file) {
2578 path = lp_pathname(snum);
2579 len = strlen(path);
2580 if (strncmp(output_file, path, len) == 0 &&
2581 (output_file[len - 1] == '/' || output_file[len] == '/')) {
2582
2583 /* verify path is not too long */
2584 if (strlen(output_file) >= sizeof(pjob->filename)) {
2585 return WERR_INVALID_NAME;
2586 }
2587
2588 /* verify that the file exists */
2589 if (sys_stat(output_file, &st, false) != 0) {
2590 return WERR_INVALID_NAME;
2591 }
2592
2593 fstrcpy(pjob->filename, output_file);
2594
2595 DEBUG(3, ("print_job_spool_file:"
2596 "External spooling activated"));
2597
2598 /* we do not open the file until spooling is done */
2599 pjob->fd = -1;
2600 pjob->status = PJOB_SMBD_SPOOLING;
2601
2602 return WERR_OK;
2603 }
2604 }
2605
2606 slprintf(pjob->filename, sizeof(pjob->filename)-1,
2607 "%s/%s%.8u.XXXXXX", lp_pathname(snum),
2608 PRINT_SPOOL_PREFIX, (unsigned int)jobid);
2609 pjob->fd = mkstemp(pjob->filename);
2610
2611 if (pjob->fd == -1) {
2612 werr = map_werror_from_unix(errno);
2613 if (W_ERROR_EQUAL(werr, WERR_ACCESS_DENIED)) {
2614 /* Common setup error, force a report. */
2615 DEBUG(0, ("print_job_spool_file: "
2616 "insufficient permissions to open spool "
2617 "file %s.\n", pjob->filename));
2618 } else {
2619 /* Normal case, report at level 3 and above. */
2620 DEBUG(3, ("print_job_spool_file: "
2621 "can't open spool file %s\n",
2622 pjob->filename));
2623 }
2624 return werr;
2625 }
2626
2627 return WERR_OK;
2628 }
2629
2630 /***************************************************************************
2631 Start spooling a job - return the jobid.
2632 ***************************************************************************/
2633
2634 WERROR print_job_start(struct auth_serversupplied_info *server_info,
2635 struct messaging_context *msg_ctx,
2636 int snum, const char *docname, const char *filename,
2637 struct spoolss_DeviceMode *devmode, uint32_t *_jobid)
2638 {
2639 uint32_t jobid;
2640 char *path;
2641 struct printjob pjob;
2642 const char *sharename = lp_const_servicename(snum);
2643 struct tdb_print_db *pdb = get_print_db_byname(sharename);
2644 int njobs;
2645 WERROR werr;
2646
2647 if (!pdb) {
2648 return WERR_INTERNAL_DB_CORRUPTION;
2649 }
2650
2651 path = lp_pathname(snum);
2652
2653 werr = print_job_checks(server_info, msg_ctx, snum, &njobs);
2654 if (!W_ERROR_IS_OK(werr)) {
2655 release_print_db(pdb);
2656 return werr;
2657 }
2658
2659 DEBUG(10, ("print_job_start: "
2660 "Queue %s number of jobs (%d), max printjobs = %d\n",
2661 sharename, njobs, lp_maxprintjobs(snum)));
2662
2663 werr = allocate_print_jobid(pdb, snum, sharename, &jobid);
2664 if (!W_ERROR_IS_OK(werr)) {
2665 goto fail;
2666 }
2667
2668 /* create the database entry */
2669
2670 ZERO_STRUCT(pjob);
2671
2672 pjob.pid = sys_getpid();
2673 pjob.sysjob = -1;
2674 pjob.fd = -1;
2675 pjob.starttime = time(NULL);
2676 pjob.status = LPQ_SPOOLING;
2677 pjob.size = 0;
2678 pjob.spooled = False;
2679 pjob.smbjob = True;
2680 pjob.devmode = devmode;
2681
2682 fstrcpy(pjob.jobname, docname);
2683
2684 fstrcpy(pjob.user, lp_printjob_username(snum));
2685 standard_sub_advanced(sharename, server_info->sanitized_username,
2686 path, server_info->utok.gid,
2687 server_info->sanitized_username,
2688 server_info->info3->base.domain.string,
2689 pjob.user, sizeof(pjob.user)-1);
2690 /* ensure NULL termination */
2691 pjob.user[sizeof(pjob.user)-1] = '\0';
2692
2693 fstrcpy(pjob.queuename, lp_const_servicename(snum));
2694
2695 /* we have a job entry - now create the spool file */
2696 werr = print_job_spool_file(snum, jobid, filename, &pjob);
2697 if (!W_ERROR_IS_OK(werr)) {
2698 goto fail;
2699 }
2700
2701 pjob_store(sharename, jobid, &pjob);
2702
2703 /* Update the 'jobs changed' entry used by print_queue_status. */
2704 add_to_jobs_changed(pdb, jobid);
2705
2706 /* Ensure we keep a rough count of the number of total jobs... */
2707 tdb_change_int32_atomic(pdb->tdb, "INFO/total_jobs", &njobs, 1);
2708
2709 release_print_db(pdb);
2710
2711 *_jobid = jobid;
2712 return WERR_OK;
2713
2714 fail:
2715 if (jobid != -1) {
2716 pjob_delete(sharename, jobid);
2717 }
2718
2719 release_print_db(pdb);
2720
2721 DEBUG(3, ("print_job_start: returning fail. "
2722 "Error = %s\n", win_errstr(werr)));
2723 return werr;
2724 }
2725
2726 /****************************************************************************
2727 Update the number of pages spooled to jobid
2728 ****************************************************************************/
2729
2730 void print_job_endpage(int snum, uint32 jobid)
2731 {
2732 const char* sharename = lp_const_servicename(snum);
2733 struct printjob *pjob;
2734
2735 pjob = print_job_find(sharename, jobid);
2736 if (!pjob)
2737 return;
2738 /* don't allow another process to get this info - it is meaningless */
2739 if (pjob->pid != sys_getpid())
2740 return;
2741
2742 pjob->page_count++;
2743 pjob_store(sharename, jobid, pjob);
2744 }
2745
2746 /****************************************************************************
2747 Print a file - called on closing the file. This spools the job.
2748 If normal close is false then we're tearing down the jobs - treat as an
2749 error.
2750 ****************************************************************************/
2751
2752 NTSTATUS print_job_end(struct messaging_context *msg_ctx, int snum,
2753 uint32 jobid, enum file_close_type close_type)
2754 {
2755 const char* sharename = lp_const_servicename(snum);
2756 struct printjob *pjob;
2757 int ret;
2758 SMB_STRUCT_STAT sbuf;
2759 struct printif *current_printif = get_printer_fns( snum );
2760 NTSTATUS status = NT_STATUS_UNSUCCESSFUL;
2761
2762 pjob = print_job_find(sharename, jobid);
2763
2764 if (!pjob) {
2765 return NT_STATUS_PRINT_CANCELLED;
2766 }
2767
2768 if (pjob->spooled || pjob->pid != sys_getpid()) {
2769 return NT_STATUS_ACCESS_DENIED;
2770 }
2771
2772 if (close_type == NORMAL_CLOSE || close_type == SHUTDOWN_CLOSE) {
2773 if (pjob->status == PJOB_SMBD_SPOOLING) {
2774 /* take over the file now, smbd is done */
2775 if (sys_stat(pjob->filename, &sbuf, false) != 0) {
2776 status = map_nt_error_from_unix(errno);
2777 DEBUG(3, ("print_job_end: "
2778 "stat file failed for jobid %d\n",
2779 jobid));
2780 goto fail;
2781 }
2782
2783 pjob->status = LPQ_SPOOLING;
2784
2785 } else {
2786
2787 if ((sys_fstat(pjob->fd, &sbuf, false) != 0)) {
2788 status = map_nt_error_from_unix(errno);
2789 close(pjob->fd);
2790 DEBUG(3, ("print_job_end: "
2791 "stat file failed for jobid %d\n",
2792 jobid));
2793 goto fail;
2794 }
2795
2796 close(pjob->fd);
2797 }
2798
2799 pjob->size = sbuf.st_ex_size;
2800 } else {
2801
2802 /*
2803 * Not a normal close, something has gone wrong. Cleanup.
2804 */
2805 if (pjob->fd != -1) {
2806 close(pjob->fd);
2807 }
2808 goto fail;
2809 }
2810
2811 /* Technically, this is not quite right. If the printer has a separator
2812 * page turned on, the NT spooler prints the separator page even if the
2813 * print job is 0 bytes. 010215 JRR */
2814 if (pjob->size == 0 || pjob->status == LPQ_DELETING) {
2815 /* don't bother spooling empty files or something being deleted. */
2816 DEBUG(5,("print_job_end: canceling spool of %s (%s)\n",
2817 pjob->filename, pjob->size ? "deleted" : "zero length" ));
2818 unlink(pjob->filename);
2819 pjob_delete(sharename, jobid);
2820 return NT_STATUS_OK;
2821 }
2822
2823 ret = (*(current_printif->job_submit))(snum, pjob);
2824
2825 if (ret) {
2826 status = NT_STATUS_PRINT_CANCELLED;
2827 goto fail;
2828 }
2829
2830 /* The print job has been successfully handed over to the back-end */
2831
2832 pjob->spooled = True;
2833 pjob->status = LPQ_QUEUED;
2834 pjob_store(sharename, jobid, pjob);
2835
2836 /* make sure the database is up to date */
2837 if (print_cache_expired(lp_const_servicename(snum), True))
2838 print_queue_update(msg_ctx, snum, False);
2839
2840 return NT_STATUS_OK;
2841
2842 fail:
2843
2844 /* The print job was not successfully started. Cleanup */
2845 /* Still need to add proper error return propagation! 010122:JRR */
2846 pjob->fd = -1;
2847 unlink(pjob->filename);
2848 pjob_delete(sharename, jobid);
2849 return status;
2850 }
2851
2852 /****************************************************************************
2853 Get a snapshot of jobs in the system without traversing.
2854 ****************************************************************************/
2855
2856 static bool get_stored_queue_info(struct messaging_context *msg_ctx,
2857 struct tdb_print_db *pdb, int snum,
2858 int *pcount, print_queue_struct **ppqueue)
2859 {
2860 TDB_DATA data, cgdata;
2861 print_queue_struct *queue = NULL;
2862 uint32 qcount = 0;
2863 uint32 extra_count = 0;
2864 int total_count = 0;
2865 size_t len = 0;
2866 uint32 i;
2867 int max_reported_jobs = lp_max_reported_jobs(snum);
2868 bool ret = False;
2869 const char* sharename = lp_servicename(snum);
2870
2871 /* make sure the database is up to date */
2872 if (print_cache_expired(lp_const_servicename(snum), True))
2873 print_queue_update(msg_ctx, snum, False);
2874
2875 *pcount = 0;
2876 *ppqueue = NULL;
2877
2878 ZERO_STRUCT(data);
2879 ZERO_STRUCT(cgdata);
2880
2881 /* Get the stored queue data. */
2882 data = tdb_fetch(pdb->tdb, string_tdb_data("INFO/linear_queue_array"));
2883
2884 if (data.dptr && data.dsize >= sizeof(qcount))
2885 len += tdb_unpack(data.dptr + len, data.dsize - len, "d", &qcount);
2886
2887 /* Get the changed jobs list. */
2888 cgdata = tdb_fetch(pdb->tdb, string_tdb_data("INFO/jobs_changed"));
2889 if (cgdata.dptr != NULL && (cgdata.dsize % 4 == 0))
2890 extra_count = cgdata.dsize/4;
2891
2892 DEBUG(5,("get_stored_queue_info: qcount = %u, extra_count = %u\n", (unsigned int)qcount, (unsigned int)extra_count));
2893
2894 /* Allocate the queue size. */
2895 if (qcount == 0 && extra_count == 0)
2896 goto out;
2897
2898 if ((queue = SMB_MALLOC_ARRAY(print_queue_struct, qcount + extra_count)) == NULL)
2899 goto out;
2900
2901 /* Retrieve the linearised queue data. */
2902
2903 for( i = 0; i < qcount; i++) {
2904 uint32 qjob, qsize, qpage_count, qstatus, qpriority, qtime;
2905 len += tdb_unpack(data.dptr + len, data.dsize - len, "ddddddff",
2906 &qjob,
2907 &qsize,
2908 &qpage_count,
2909 &qstatus,
2910 &qpriority,
2911 &qtime,
2912 queue[i].fs_user,
2913 queue[i].fs_file);
2914 queue[i].job = qjob;
2915 queue[i].size = qsize;
2916 queue[i].page_count = qpage_count;
2917 queue[i].status = qstatus;
2918 queue[i].priority = qpriority;
2919 queue[i].time = qtime;
2920 }
2921
2922 total_count = qcount;
2923
2924 /* Add in the changed jobids. */
2925 for( i = 0; i < extra_count; i++) {
2926 uint32 jobid;
2927 struct printjob *pjob;
2928
2929 jobid = IVAL(cgdata.dptr, i*4);
2930 DEBUG(5,("get_stored_queue_info: changed job = %u\n", (unsigned int)jobid));
2931 pjob = print_job_find(lp_const_servicename(snum), jobid);
2932 if (!pjob) {
2933 DEBUG(5,("get_stored_queue_info: failed to find changed job = %u\n", (unsigned int)jobid));
2934 remove_from_jobs_changed(sharename, jobid);
2935 continue;
2936 }
2937
2938 queue[total_count].job = jobid;
2939 queue[total_count].size = pjob->size;
2940 queue[total_count].page_count = pjob->page_count;
2941 queue[total_count].status = pjob->status;
2942 queue[total_count].priority = 1;
2943 queue[total_count].time = pjob->starttime;
2944 fstrcpy(queue[total_count].fs_user, pjob->user);
2945 fstrcpy(queue[total_count].fs_file, pjob->jobname);
2946 total_count++;
2947 }
2948
2949 /* Sort the queue by submission time otherwise they are displayed
2950 in hash order. */
2951
2952 TYPESAFE_QSORT(queue, total_count, printjob_comp);
2953
2954 DEBUG(5,("get_stored_queue_info: total_count = %u\n", (unsigned int)total_count));
2955
2956 if (max_reported_jobs && total_count > max_reported_jobs)
2957 total_count = max_reported_jobs;
2958
2959 *ppqueue = queue;
2960 *pcount = total_count;
2961
2962 ret = True;
2963
2964 out:
2965
2966 SAFE_FREE(data.dptr);
2967 SAFE_FREE(cgdata.dptr);
2968 return ret;
2969 }
2970
2971 /****************************************************************************
2972 Get a printer queue listing.
2973 set queue = NULL and status = NULL if you just want to update the cache
2974 ****************************************************************************/
2975
2976 int print_queue_status(struct messaging_context *msg_ctx, int snum,
2977 print_queue_struct **ppqueue,
2978 print_status_struct *status)
2979 {
2980 fstring keystr;
2981 TDB_DATA data, key;
2982 const char *sharename;
2983 struct tdb_print_db *pdb;
2984 int count = 0;
2985
2986 /* make sure the database is up to date */
2987
2988 if (print_cache_expired(lp_const_servicename(snum), True))
2989 print_queue_update(msg_ctx, snum, False);
2990
2991 /* return if we are done */
2992 if ( !ppqueue || !status )
2993 return 0;
2994
2995 *ppqueue = NULL;
2996 sharename = lp_const_servicename(snum);
2997 pdb = get_print_db_byname(sharename);
2998
2999 if (!pdb)
3000 return 0;
3001
3002 /*
3003 * Fetch the queue status. We must do this first, as there may
3004 * be no jobs in the queue.
3005 */
3006
3007 ZERO_STRUCTP(status);
3008 slprintf(keystr, sizeof(keystr)-1, "STATUS/%s", sharename);
3009 key = string_tdb_data(keystr);
3010
3011 data = tdb_fetch(pdb->tdb, key);
3012 if (data.dptr) {
3013 if (data.dsize == sizeof(*status)) {
3014 /* this memcpy is ok since the status struct was
3015 not packed before storing it in the tdb */
3016 memcpy(status, data.dptr, sizeof(*status));
3017 }
3018 SAFE_FREE(data.dptr);
3019 }
3020
3021 /*
3022 * Now, fetch the print queue information. We first count the number
3023 * of entries, and then only retrieve the queue if necessary.
3024 */
3025
3026 if (!get_stored_queue_info(msg_ctx, pdb, snum, &count, ppqueue)) {
3027 release_print_db(pdb);
3028 return 0;
3029 }
3030
3031 release_print_db(pdb);
3032 return count;
3033 }
3034
3035 /****************************************************************************
3036 Pause a queue.
3037 ****************************************************************************/
3038
3039 WERROR print_queue_pause(struct auth_serversupplied_info *server_info,
3040 struct messaging_context *msg_ctx, int snum)
3041 {
3042 int ret;
3043 struct printif *current_printif = get_printer_fns( snum );
3044
3045 if (!print_access_check(server_info, msg_ctx, snum,
3046 PRINTER_ACCESS_ADMINISTER)) {
3047 return WERR_ACCESS_DENIED;
3048 }
3049
3050
3051 become_root();
3052
3053 ret = (*(current_printif->queue_pause))(snum);
3054
3055 unbecome_root();
3056
3057 if (ret != 0) {
3058 return WERR_INVALID_PARAM;
3059 }
3060
3061 /* force update the database */
3062 print_cache_flush(lp_const_servicename(snum));
3063
3064 /* Send a printer notify message */
3065
3066 notify_printer_status(snum, PRINTER_STATUS_PAUSED);
3067
3068 return WERR_OK;
3069 }
3070
3071 /****************************************************************************
3072 Resume a queue.
3073 ****************************************************************************/
3074
3075 WERROR print_queue_resume(struct auth_serversupplied_info *server_info,
3076 struct messaging_context *msg_ctx, int snum)
3077 {
3078 int ret;
3079 struct printif *current_printif = get_printer_fns( snum );
3080
3081 if (!print_access_check(server_info, msg_ctx, snum,
3082 PRINTER_ACCESS_ADMINISTER)) {
3083 return WERR_ACCESS_DENIED;
3084 }
3085
3086 become_root();
3087
3088 ret = (*(current_printif->queue_resume))(snum);
3089
3090 unbecome_root();
3091
3092 if (ret != 0) {
3093 return WERR_INVALID_PARAM;
3094 }
3095
3096 /* make sure the database is up to date */
3097 if (print_cache_expired(lp_const_servicename(snum), True))
3098 print_queue_update(msg_ctx, snum, True);
3099
3100 /* Send a printer notify message */
3101
3102 notify_printer_status(snum, PRINTER_STATUS_OK);
3103
3104 return WERR_OK;
3105 }
3106
3107 /****************************************************************************
3108 Purge a queue - implemented by deleting all jobs that we can delete.
3109 ****************************************************************************/
3110
3111 WERROR print_queue_purge(struct auth_serversupplied_info *server_info,
3112 struct messaging_context *msg_ctx, int snum)
3113 {
3114 print_queue_struct *queue;
3115 print_status_struct status;
3116 int njobs, i;
3117 bool can_job_admin;
3118
3119 /* Force and update so the count is accurate (i.e. not a cached count) */
3120 print_queue_update(msg_ctx, snum, True);
3121
3122 can_job_admin = print_access_check(server_info,
3123 msg_ctx,
3124 snum,
3125 JOB_ACCESS_ADMINISTER);
3126 njobs = print_queue_status(msg_ctx, snum, &queue, &status);
3127
3128 if ( can_job_admin )
3129 become_root();
3130
3131 for (i=0;i<njobs;i++) {
3132 bool owner = is_owner(server_info, lp_const_servicename(snum),
3133 queue[i].job);
3134
3135 if (owner || can_job_admin) {
3136 print_job_delete1(snum, queue[i].job);
3137 }
3138 }
3139
3140 if ( can_job_admin )
3141 unbecome_root();
3142
3143 /* update the cache */
3144 print_queue_update(msg_ctx, snum, True);
3145
3146 SAFE_FREE(queue);
3147
3148 return WERR_OK;
3149 }
WIP