4 * This module glues libSieve to the Citadel server in order to implement
5 * the Sieve mailbox filtering language (RFC 3028).
7 * This code is released under the terms of the GNU General Public License.
18 #include <sys/types.h>
20 #if TIME_WITH_SYS_TIME
21 # include <sys/time.h>
25 # include <sys/time.h>
34 #include <libcitadel.h>
37 #include "citserver.h"
44 #include "internet_addressing.h"
47 #include "ctdl_module.h"
52 #include "serv_sieve.h"
54 struct RoomProcList *sieve_list = NULL;
55 char *msiv_extensions = NULL;
59 * Callback function to send libSieve trace messages to Citadel log facility
61 int ctdl_debug(sieve2_context_t *s, void *my)
63 lprintf(CTDL_DEBUG, "Sieve: %s\n", sieve2_getvalue_string(s, "message"));
69 * Callback function to log script parsing errors
71 int ctdl_errparse(sieve2_context_t *s, void *my)
73 lprintf(CTDL_WARNING, "Error in script, line %d: %s\n",
74 sieve2_getvalue_int(s, "lineno"),
75 sieve2_getvalue_string(s, "message")
82 * Callback function to log script execution errors
84 int ctdl_errexec(sieve2_context_t *s, void *my)
86 lprintf(CTDL_WARNING, "Error executing script: %s\n",
87 sieve2_getvalue_string(s, "message")
94 * Callback function to redirect a message to a different folder
96 int ctdl_redirect(sieve2_context_t *s, void *my)
98 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
99 struct CtdlMessage *msg = NULL;
100 struct recptypes *valid = NULL;
103 safestrncpy(recp, sieve2_getvalue_string(s, "address"), sizeof recp);
105 lprintf(CTDL_DEBUG, "Action is REDIRECT, recipient <%s>\n", recp);
107 valid = validate_recipients(recp);
109 lprintf(CTDL_WARNING, "REDIRECT failed: bad recipient <%s>\n", recp);
110 return SIEVE2_ERROR_BADARGS;
112 if (valid->num_error > 0) {
113 lprintf(CTDL_WARNING, "REDIRECT failed: bad recipient <%s>\n", recp);
114 free_recipients(valid);
115 return SIEVE2_ERROR_BADARGS;
118 msg = CtdlFetchMessage(cs->msgnum, 1);
120 lprintf(CTDL_WARNING, "REDIRECT failed: unable to fetch msg %ld\n", cs->msgnum);
121 free_recipients(valid);
122 return SIEVE2_ERROR_BADARGS;
125 CtdlSubmitMsg(msg, valid, NULL);
126 cs->cancel_implicit_keep = 1;
127 free_recipients(valid);
128 CtdlFreeMessage(msg);
134 * Callback function to indicate that a message *will* be kept in the inbox
136 int ctdl_keep(sieve2_context_t *s, void *my)
138 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
140 lprintf(CTDL_DEBUG, "Action is KEEP\n");
143 cs->cancel_implicit_keep = 1;
149 * Callback function to file a message into a different mailbox
151 int ctdl_fileinto(sieve2_context_t *s, void *my)
153 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
154 const char *dest_folder = sieve2_getvalue_string(s, "mailbox");
156 char foldername[256];
157 char original_room_name[ROOMNAMELEN];
159 lprintf(CTDL_DEBUG, "Action is FILEINTO, destination is <%s>\n", dest_folder);
161 /* FILEINTO 'INBOX' is the same thing as KEEP */
162 if ( (!strcasecmp(dest_folder, "INBOX")) || (!strcasecmp(dest_folder, MAILROOM)) ) {
164 cs->cancel_implicit_keep = 1;
168 /* Remember what room we came from */
169 safestrncpy(original_room_name, CC->room.QRname, sizeof original_room_name);
171 /* First try a mailbox name match (check personal mail folders first) */
172 snprintf(foldername, sizeof foldername, "%010ld.%s", cs->usernum, dest_folder);
173 c = getroom(&CC->room, foldername);
175 /* Then a regular room name match (public and private rooms) */
177 safestrncpy(foldername, dest_folder, sizeof foldername);
178 c = getroom(&CC->room, foldername);
182 lprintf(CTDL_WARNING, "FILEINTO failed: target <%s> does not exist\n", dest_folder);
183 return SIEVE2_ERROR_BADARGS;
186 /* Yes, we actually have to go there */
187 usergoto(NULL, 0, 0, NULL, NULL);
189 c = CtdlSaveMsgPointersInRoom(NULL, &cs->msgnum, 1, 0, NULL);
191 /* Go back to the room we came from */
192 if (strcasecmp(original_room_name, CC->room.QRname)) {
193 usergoto(original_room_name, 0, 0, NULL, NULL);
197 cs->cancel_implicit_keep = 1;
201 return SIEVE2_ERROR_BADARGS;
207 * Callback function to indicate that a message should be discarded.
209 int ctdl_discard(sieve2_context_t *s, void *my)
211 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
213 lprintf(CTDL_DEBUG, "Action is DISCARD\n");
215 /* Cancel the implicit keep. That's all there is to it. */
216 cs->cancel_implicit_keep = 1;
223 * Callback function to indicate that a message should be rejected
225 int ctdl_reject(sieve2_context_t *s, void *my)
227 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
228 char *reject_text = NULL;
230 lprintf(CTDL_DEBUG, "Action is REJECT\n");
232 /* If we don't know who sent the message, do a DISCARD instead. */
233 if (IsEmptyStr(cs->sender)) {
234 lprintf(CTDL_INFO, "Unknown sender. Doing DISCARD instead of REJECT.\n");
235 return ctdl_discard(s, my);
238 /* Assemble the reject message. */
239 reject_text = malloc(strlen(sieve2_getvalue_string(s, "message")) + 1024);
240 if (reject_text == NULL) {
241 return SIEVE2_ERROR_FAIL;
245 "Content-type: text/plain\n"
247 "The message was refused by the recipient's mail filtering program.\n"
248 "The reason given was as follows:\n"
253 sieve2_getvalue_string(s, "message")
256 quickie_message( /* This delivers the message */
263 "Delivery status notification"
267 cs->cancel_implicit_keep = 1;
274 * Callback function to indicate that a vacation message should be generated
276 int ctdl_vacation(sieve2_context_t *s, void *my)
278 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
279 struct sdm_vacation *vptr;
282 char *vacamsg_text = NULL;
283 char vacamsg_subject[1024];
285 lprintf(CTDL_DEBUG, "Action is VACATION\n");
287 message = sieve2_getvalue_string(s, "message");
288 if (message == NULL) return SIEVE2_ERROR_BADARGS;
290 if (sieve2_getvalue_string(s, "subject") != NULL) {
291 safestrncpy(vacamsg_subject, sieve2_getvalue_string(s, "subject"), sizeof vacamsg_subject);
294 snprintf(vacamsg_subject, sizeof vacamsg_subject, "Re: %s", cs->subject);
297 days = sieve2_getvalue_int(s, "days");
298 if (days < 1) days = 1;
299 if (days > MAX_VACATION) days = MAX_VACATION;
301 /* Check to see whether we've already alerted this sender that we're on vacation. */
302 for (vptr = cs->u->first_vacation; vptr != NULL; vptr = vptr->next) {
303 if (!strcasecmp(vptr->fromaddr, cs->sender)) {
304 if ( (time(NULL) - vptr->timestamp) < (days * 86400) ) {
305 lprintf(CTDL_DEBUG, "Already alerted <%s> recently.\n", cs->sender);
311 /* Assemble the reject message. */
312 vacamsg_text = malloc(strlen(message) + 1024);
313 if (vacamsg_text == NULL) {
314 return SIEVE2_ERROR_FAIL;
317 sprintf(vacamsg_text,
318 "Content-type: text/plain\n"
326 quickie_message( /* This delivers the message */
338 /* Now update the list to reflect the fact that we've alerted this sender.
339 * If they're already in the list, just update the timestamp.
341 for (vptr = cs->u->first_vacation; vptr != NULL; vptr = vptr->next) {
342 if (!strcasecmp(vptr->fromaddr, cs->sender)) {
343 vptr->timestamp = time(NULL);
348 /* If we get to this point, create a new record.
350 vptr = malloc(sizeof(struct sdm_vacation));
351 vptr->timestamp = time(NULL);
352 safestrncpy(vptr->fromaddr, cs->sender, sizeof vptr->fromaddr);
353 vptr->next = cs->u->first_vacation;
354 cs->u->first_vacation = vptr;
361 * Callback function to parse addresses per local system convention
362 * It is disabled because we don't support subaddresses.
365 int ctdl_getsubaddress(sieve2_context_t *s, void *my)
367 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
369 /* libSieve does not take ownership of the memory used here. But, since we
370 * are just pointing to locations inside a struct which we are going to free
373 sieve2_setvalue_string(s, "user", cs->recp_user);
374 sieve2_setvalue_string(s, "detail", "");
375 sieve2_setvalue_string(s, "localpart", cs->recp_user);
376 sieve2_setvalue_string(s, "domain", cs->recp_node);
383 * Callback function to parse message envelope
385 int ctdl_getenvelope(sieve2_context_t *s, void *my)
387 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
389 lprintf(CTDL_DEBUG, "Action is GETENVELOPE\nEnvFrom: %s\n EnvTo: %s\n",
390 cs->envelope_from, cs->envelope_to);
392 if (cs->envelope_from != NULL) {
393 if ((cs->envelope_from[0] != '@')&&(cs->envelope_from[strlen(cs->envelope_from)-1] != '@')) {
394 sieve2_setvalue_string(s, "from", cs->envelope_from);
397 sieve2_setvalue_string(s, "from", "invalid_envelope_from@example.org");
401 sieve2_setvalue_string(s, "from", "null_envelope_from@example.org");
405 if (cs->envelope_to != NULL) {
406 if ((cs->envelope_to[0] != '@') && (cs->envelope_to[strlen(cs->envelope_to)-1] != '@')) {
407 sieve2_setvalue_string(s, "to", cs->envelope_to);
410 sieve2_setvalue_string(s, "to", "invalid_envelope_to@example.org");
414 sieve2_setvalue_string(s, "to", "null_envelope_to@example.org");
422 * Callback function to fetch message body
423 * (Uncomment the code if we implement this extension)
425 int ctdl_getbody(sieve2_context_t *s, void *my)
427 return SIEVE2_ERROR_UNSUPPORTED;
434 * Callback function to fetch message size
436 int ctdl_getsize(sieve2_context_t *s, void *my)
438 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
441 GetMetaData(&smi, cs->msgnum);
443 if (smi.meta_rfc822_length > 0L) {
444 sieve2_setvalue_int(s, "size", (int)smi.meta_rfc822_length);
448 return SIEVE2_ERROR_UNSUPPORTED;
453 * Callback function to retrieve the sieve script
455 int ctdl_getscript(sieve2_context_t *s, void *my) {
456 struct sdm_script *sptr;
457 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
459 for (sptr=cs->u->first_script; sptr!=NULL; sptr=sptr->next) {
460 if (sptr->script_active > 0) {
461 lprintf(CTDL_DEBUG, "ctdl_getscript() is using script '%s'\n", sptr->script_name);
462 sieve2_setvalue_string(s, "script", sptr->script_content);
467 lprintf(CTDL_DEBUG, "ctdl_getscript() found no active script\n");
468 return SIEVE2_ERROR_GETSCRIPT;
472 * Callback function to retrieve message headers
474 int ctdl_getheaders(sieve2_context_t *s, void *my) {
476 struct ctdl_sieve *cs = (struct ctdl_sieve *)my;
478 lprintf(CTDL_DEBUG, "ctdl_getheaders() was called\n");
479 sieve2_setvalue_string(s, "allheaders", cs->rfc822headers);
486 * Add a room to the list of those rooms which potentially require sieve processing
488 void sieve_queue_room(struct ctdlroom *which_room) {
489 struct RoomProcList *ptr;
491 ptr = (struct RoomProcList *) malloc(sizeof (struct RoomProcList));
492 if (ptr == NULL) return;
494 safestrncpy(ptr->name, which_room->QRname, sizeof ptr->name);
495 begin_critical_section(S_SIEVELIST);
496 ptr->next = sieve_list;
498 end_critical_section(S_SIEVELIST);
499 lprintf(CTDL_DEBUG, "<%s> queued for Sieve processing\n", which_room->QRname);
505 * Perform sieve processing for one message (called by sieve_do_room() for each message)
507 void sieve_do_msg(long msgnum, void *userdata) {
508 struct sdm_userdata *u = (struct sdm_userdata *) userdata;
509 sieve2_context_t *sieve2_context = u->sieve2_context;
510 struct ctdl_sieve my;
512 struct CtdlMessage *msg;
514 size_t headers_len = 0;
517 if (userdata == NULL)
519 lprintf(CTDL_EMERG, "Cant process Message <%ld>without Userdata!\n", msgnum);
523 lprintf(CTDL_DEBUG, "Performing sieve processing on msg <%ld>\n", msgnum);
525 msg = CtdlFetchMessage(msgnum, 0);
526 if (msg == NULL) return;
529 * Grab the message headers so we can feed them to libSieve.
531 CC->redirect_buffer = malloc(SIZ);
532 CC->redirect_len = 0;
533 CC->redirect_alloc = SIZ;
534 CtdlOutputPreLoadedMsg(msg, MT_RFC822, HEADERS_ONLY, 0, 1);
535 my.rfc822headers = CC->redirect_buffer;
536 headers_len = CC->redirect_len;
537 CC->redirect_buffer = NULL;
538 CC->redirect_len = 0;
539 CC->redirect_alloc = 0;
542 * libSieve clobbers the stack if it encounters badly formed
543 * headers. Sanitize our headers by stripping nonprintable
546 for (i=0; i<headers_len; ++i) {
547 if (!isascii(my.rfc822headers[i])) {
548 my.rfc822headers[i] = '_';
552 my.keep = 0; /* Set to 1 to declare an *explicit* keep */
553 my.cancel_implicit_keep = 0; /* Some actions will cancel the implicit keep */
554 my.usernum = atol(CC->room.QRname); /* Keep track of the owner of the room's namespace */
555 my.msgnum = msgnum; /* Keep track of the message number in our local store */
556 my.u = u; /* Hand off a pointer to the rest of this info */
558 /* Keep track of the recipient so we can do handling based on it later */
559 process_rfc822_addr(msg->cm_fields['R'], my.recp_user, my.recp_node, my.recp_name);
561 /* Keep track of the sender so we can use it for REJECT and VACATION responses */
562 if (msg->cm_fields['F'] != NULL) {
563 safestrncpy(my.sender, msg->cm_fields['F'], sizeof my.sender);
565 else if ( (msg->cm_fields['A'] != NULL) && (msg->cm_fields['N'] != NULL) ) {
566 snprintf(my.sender, sizeof my.sender, "%s@%s", msg->cm_fields['A'], msg->cm_fields['N']);
568 else if (msg->cm_fields['A'] != NULL) {
569 safestrncpy(my.sender, msg->cm_fields['A'], sizeof my.sender);
572 strcpy(my.sender, "");
575 /* Keep track of the subject so we can use it for VACATION responses */
576 if (msg->cm_fields['U'] != NULL) {
577 safestrncpy(my.subject, msg->cm_fields['U'], sizeof my.subject);
580 strcpy(my.subject, "");
583 /* Keep track of the envelope-from address (use body-from if not found) */
584 if (msg->cm_fields['P'] != NULL) {
585 safestrncpy(my.envelope_from, msg->cm_fields['P'], sizeof my.envelope_from);
586 stripallbut(my.envelope_from, '<', '>');
588 else if (msg->cm_fields['F'] != NULL) {
589 safestrncpy(my.envelope_from, msg->cm_fields['F'], sizeof my.envelope_from);
590 stripallbut(my.envelope_from, '<', '>');
593 strcpy(my.envelope_from, "");
596 len = strlen(my.envelope_from);
597 for (i=0; i<len; ++i) {
598 if (isspace(my.envelope_from[i])) my.envelope_from[i] = '_';
600 if (haschar(my.envelope_from, '@') == 0) {
601 strcat(my.envelope_from, "@");
602 strcat(my.envelope_from, config.c_fqdn);
605 /* Keep track of the envelope-to address (use body-to if not found) */
606 if (msg->cm_fields['V'] != NULL) {
607 safestrncpy(my.envelope_to, msg->cm_fields['V'], sizeof my.envelope_to);
608 stripallbut(my.envelope_to, '<', '>');
610 else if (msg->cm_fields['R'] != NULL) {
611 safestrncpy(my.envelope_to, msg->cm_fields['R'], sizeof my.envelope_to);
612 if (msg->cm_fields['D'] != NULL) {
613 strcat(my.envelope_to, "@");
614 strcat(my.envelope_to, msg->cm_fields['D']);
616 stripallbut(my.envelope_to, '<', '>');
619 strcpy(my.envelope_to, "");
622 len = strlen(my.envelope_to);
623 for (i=0; i<len; ++i) {
624 if (isspace(my.envelope_to[i])) my.envelope_to[i] = '_';
626 if (haschar(my.envelope_to, '@') == 0) {
627 strcat(my.envelope_to, "@");
628 strcat(my.envelope_to, config.c_fqdn);
631 CtdlFreeMessage(msg);
633 sieve2_setvalue_string(sieve2_context, "allheaders", my.rfc822headers);
635 lprintf(CTDL_DEBUG, "Calling sieve2_execute()\n");
636 res = sieve2_execute(sieve2_context, &my);
637 if (res != SIEVE2_OK) {
638 lprintf(CTDL_CRIT, "sieve2_execute() returned %d: %s\n", res, sieve2_errstr(res));
641 free(my.rfc822headers);
642 my.rfc822headers = NULL;
645 * Delete the message from the inbox unless either we were told not to, or
646 * if no other action was successfully taken.
648 if ( (!my.keep) && (my.cancel_implicit_keep) ) {
649 lprintf(CTDL_DEBUG, "keep is 0 -- deleting message from inbox\n");
650 CtdlDeleteMessages(CC->room.QRname, &msgnum, 1, "");
653 lprintf(CTDL_DEBUG, "Completed sieve processing on msg <%ld>\n", msgnum);
654 u->lastproc = msgnum;
662 * Given the on-disk representation of our Sieve config, load
663 * it into an in-memory data structure.
665 void parse_sieve_config(char *conf, struct sdm_userdata *u) {
669 struct sdm_script *sptr;
670 struct sdm_vacation *vptr;
673 while (c = ptr, ptr = bmstrcasestr(ptr, CTDLSIEVECONFIGSEPARATOR), ptr != NULL) {
675 ptr += strlen(CTDLSIEVECONFIGSEPARATOR);
677 extract_token(keyword, c, 0, '|', sizeof keyword);
679 if (!strcasecmp(keyword, "lastproc")) {
680 u->lastproc = extract_long(c, 1);
683 else if (!strcasecmp(keyword, "script")) {
684 sptr = malloc(sizeof(struct sdm_script));
685 extract_token(sptr->script_name, c, 1, '|', sizeof sptr->script_name);
686 sptr->script_active = extract_int(c, 2);
687 remove_token(c, 0, '|');
688 remove_token(c, 0, '|');
689 remove_token(c, 0, '|');
690 sptr->script_content = strdup(c);
691 sptr->next = u->first_script;
692 u->first_script = sptr;
695 else if (!strcasecmp(keyword, "vacation")) {
697 if (c != NULL) while (vacrec=c, c=strchr(c, '\n'), (c != NULL)) {
702 if (strncasecmp(vacrec, "vacation|", 9)) {
703 vptr = malloc(sizeof(struct sdm_vacation));
704 extract_token(vptr->fromaddr, vacrec, 0, '|', sizeof vptr->fromaddr);
705 vptr->timestamp = extract_long(vacrec, 1);
706 vptr->next = u->first_vacation;
707 u->first_vacation = vptr;
712 /* ignore unknown keywords */
717 * We found the Sieve configuration for this user.
718 * Now do something with it.
720 void get_sieve_config_backend(long msgnum, void *userdata) {
721 struct sdm_userdata *u = (struct sdm_userdata *) userdata;
722 struct CtdlMessage *msg;
725 u->config_msgnum = msgnum;
726 msg = CtdlFetchMessage(msgnum, 1);
728 u->config_msgnum = (-1) ;
732 conf = msg->cm_fields['M'];
733 msg->cm_fields['M'] = NULL;
734 CtdlFreeMessage(msg);
737 parse_sieve_config(conf, u);
745 * Write our citadel sieve config back to disk
747 * (Set yes_write_to_disk to nonzero to make it actually write the config;
748 * otherwise it just frees the data structures.)
750 void rewrite_ctdl_sieve_config(struct sdm_userdata *u, int yes_write_to_disk) {
752 struct sdm_script *sptr;
753 struct sdm_vacation *vptr;
759 "Content-type: application/x-citadel-sieve-config\n"
761 CTDLSIEVECONFIGSEPARATOR
763 CTDLSIEVECONFIGSEPARATOR
768 while (u->first_script != NULL) {
771 tsize = tlen + strlen(u->first_script->script_content) +256;
772 text = realloc(text, tsize);
773 sprintf(&text[strlen(text)], "script|%s|%d|%s" CTDLSIEVECONFIGSEPARATOR,
774 u->first_script->script_name,
775 u->first_script->script_active,
776 u->first_script->script_content
778 sptr = u->first_script;
779 u->first_script = u->first_script->next;
780 free(sptr->script_content);
784 if (u->first_vacation != NULL) {
786 tsize = strlen(text) + 256;
787 for (vptr = u->first_vacation; vptr != NULL; vptr = vptr->next) {
788 tsize += strlen(vptr->fromaddr + 32);
790 text = realloc(text, tsize);
792 sprintf(&text[strlen(text)], "vacation|\n");
793 while (u->first_vacation != NULL) {
794 if ( (time(NULL) - u->first_vacation->timestamp) < (MAX_VACATION * 86400)) {
795 sprintf(&text[strlen(text)], "%s|%ld\n",
796 u->first_vacation->fromaddr,
797 u->first_vacation->timestamp
800 vptr = u->first_vacation;
801 u->first_vacation = u->first_vacation->next;
804 sprintf(&text[strlen(text)], CTDLSIEVECONFIGSEPARATOR);
807 if (yes_write_to_disk)
809 /* Save the config */
810 quickie_message("Citadel", NULL, NULL, u->config_roomname,
813 "Sieve configuration"
816 /* And delete the old one */
817 if (u->config_msgnum > 0) {
818 CtdlDeleteMessages(u->config_roomname, &u->config_msgnum, 1, "");
828 * This is our callback registration table for libSieve.
830 sieve2_callback_t ctdl_sieve_callbacks[] = {
831 { SIEVE2_ACTION_REJECT, ctdl_reject },
832 { SIEVE2_ACTION_VACATION, ctdl_vacation },
833 { SIEVE2_ERRCALL_PARSE, ctdl_errparse },
834 { SIEVE2_ERRCALL_RUNTIME, ctdl_errexec },
835 { SIEVE2_ACTION_FILEINTO, ctdl_fileinto },
836 { SIEVE2_ACTION_REDIRECT, ctdl_redirect },
837 { SIEVE2_ACTION_DISCARD, ctdl_discard },
838 { SIEVE2_ACTION_KEEP, ctdl_keep },
839 { SIEVE2_SCRIPT_GETSCRIPT, ctdl_getscript },
840 { SIEVE2_DEBUG_TRACE, ctdl_debug },
841 { SIEVE2_MESSAGE_GETALLHEADERS, ctdl_getheaders },
842 { SIEVE2_MESSAGE_GETSIZE, ctdl_getsize },
843 { SIEVE2_MESSAGE_GETENVELOPE, ctdl_getenvelope },
845 * These actions are unsupported by Citadel so we don't declare them.
847 { SIEVE2_ACTION_NOTIFY, ctdl_notify },
848 { SIEVE2_MESSAGE_GETSUBADDRESS, ctdl_getsubaddress },
849 { SIEVE2_MESSAGE_GETBODY, ctdl_getbody },
857 * Perform sieve processing for a single room
859 void sieve_do_room(char *roomname) {
861 struct sdm_userdata u;
862 sieve2_context_t *sieve2_context = NULL; /* Context for sieve parser */
863 int res; /* Return code from libsieve calls */
864 long orig_lastproc = 0;
866 memset(&u, 0, sizeof u);
868 /* See if the user who owns this 'mailbox' has any Sieve scripts that
871 snprintf(u.config_roomname, sizeof u.config_roomname, "%010ld.%s", atol(roomname), USERCONFIGROOM);
872 if (getroom(&CC->room, u.config_roomname) != 0) {
873 lprintf(CTDL_DEBUG, "<%s> does not exist. No processing is required.\n", u.config_roomname);
878 * Find the sieve scripts and control record and do something
880 u.config_msgnum = (-1);
881 CtdlForEachMessage(MSGS_LAST, 1, NULL, SIEVECONFIG, NULL,
882 get_sieve_config_backend, (void *)&u );
884 if (u.config_msgnum < 0) {
885 lprintf(CTDL_DEBUG, "No Sieve rules exist. No processing is required.\n");
889 lprintf(CTDL_DEBUG, "Rules found. Performing Sieve processing for <%s>\n", roomname);
891 if (getroom(&CC->room, roomname) != 0) {
892 lprintf(CTDL_CRIT, "ERROR: cannot load <%s>\n", roomname);
896 /* Initialize the Sieve parser */
898 res = sieve2_alloc(&sieve2_context);
899 if (res != SIEVE2_OK) {
900 lprintf(CTDL_CRIT, "sieve2_alloc() returned %d: %s\n", res, sieve2_errstr(res));
904 res = sieve2_callbacks(sieve2_context, ctdl_sieve_callbacks);
905 if (res != SIEVE2_OK) {
906 lprintf(CTDL_CRIT, "sieve2_callbacks() returned %d: %s\n", res, sieve2_errstr(res));
910 /* Validate the script */
912 struct ctdl_sieve my; /* dummy ctdl_sieve struct just to pass "u" slong */
913 memset(&my, 0, sizeof my);
915 res = sieve2_validate(sieve2_context, &my);
916 if (res != SIEVE2_OK) {
917 lprintf(CTDL_CRIT, "sieve2_validate() returned %d: %s\n", res, sieve2_errstr(res));
921 /* Do something useful */
922 u.sieve2_context = sieve2_context;
923 orig_lastproc = u.lastproc;
924 CtdlForEachMessage(MSGS_GT, u.lastproc, NULL, NULL, NULL,
930 res = sieve2_free(&sieve2_context);
931 if (res != SIEVE2_OK) {
932 lprintf(CTDL_CRIT, "sieve2_free() returned %d: %s\n", res, sieve2_errstr(res));
935 /* Rewrite the config if we have to */
936 rewrite_ctdl_sieve_config(&u, (u.lastproc > orig_lastproc) ) ;
941 * Perform sieve processing for all rooms which require it
943 void perform_sieve_processing(void) {
944 struct RoomProcList *ptr = NULL;
946 if (sieve_list != NULL) {
947 lprintf(CTDL_DEBUG, "Begin Sieve processing\n");
948 while (sieve_list != NULL) {
949 char spoolroomname[ROOMNAMELEN];
950 safestrncpy(spoolroomname, sieve_list->name, sizeof spoolroomname);
951 begin_critical_section(S_SIEVELIST);
953 /* pop this record off the list */
955 sieve_list = sieve_list->next;
958 /* invalidate any duplicate entries to prevent double processing */
959 for (ptr=sieve_list; ptr!=NULL; ptr=ptr->next) {
960 if (!strcasecmp(ptr->name, spoolroomname)) {
965 end_critical_section(S_SIEVELIST);
966 if (spoolroomname[0] != 0) {
967 sieve_do_room(spoolroomname);
974 void msiv_load(struct sdm_userdata *u) {
975 char hold_rm[ROOMNAMELEN];
977 strcpy(hold_rm, CC->room.QRname); /* save current room */
979 /* Take a spin through the user's personal address book */
980 if (getroom(&CC->room, USERCONFIGROOM) == 0) {
982 u->config_msgnum = (-1);
983 strcpy(u->config_roomname, CC->room.QRname);
984 CtdlForEachMessage(MSGS_LAST, 1, NULL, SIEVECONFIG, NULL,
985 get_sieve_config_backend, (void *)u );
989 if (strcmp(CC->room.QRname, hold_rm)) {
990 getroom(&CC->room, hold_rm); /* return to saved room */
994 void msiv_store(struct sdm_userdata *u, int yes_write_to_disk) {
995 rewrite_ctdl_sieve_config(u, yes_write_to_disk);
1000 * Select the active script.
1001 * (Set script_name to an empty string to disable all scripts)
1003 * Returns 0 on success or nonzero for error.
1005 int msiv_setactive(struct sdm_userdata *u, char *script_name) {
1007 struct sdm_script *s;
1009 /* First see if the supplied value is ok */
1011 if (IsEmptyStr(script_name)) {
1015 for (s=u->first_script; s!=NULL; s=s->next) {
1016 if (!strcasecmp(s->script_name, script_name)) {
1022 if (!ok) return(-1);
1024 /* Now set the active script */
1025 for (s=u->first_script; s!=NULL; s=s->next) {
1026 if (!strcasecmp(s->script_name, script_name)) {
1027 s->script_active = 1;
1030 s->script_active = 0;
1039 * Fetch a script by name.
1041 * Returns NULL if the named script was not found, or a pointer to the script
1042 * if it was found. NOTE: the caller does *not* own the memory returned by
1043 * this function. Copy it if you need to keep it.
1045 char *msiv_getscript(struct sdm_userdata *u, char *script_name) {
1046 struct sdm_script *s;
1048 for (s=u->first_script; s!=NULL; s=s->next) {
1049 if (!strcasecmp(s->script_name, script_name)) {
1050 if (s->script_content != NULL) {
1051 return (s->script_content);
1061 * Delete a script by name.
1063 * Returns 0 if the script was deleted.
1064 * 1 if the script was not found.
1065 * 2 if the script cannot be deleted because it is active.
1067 int msiv_deletescript(struct sdm_userdata *u, char *script_name) {
1068 struct sdm_script *s = NULL;
1069 struct sdm_script *script_to_delete = NULL;
1071 for (s=u->first_script; s!=NULL; s=s->next) {
1072 if (!strcasecmp(s->script_name, script_name)) {
1073 script_to_delete = s;
1074 if (s->script_active) {
1080 if (script_to_delete == NULL) return(1);
1082 if (u->first_script == script_to_delete) {
1083 u->first_script = u->first_script->next;
1085 else for (s=u->first_script; s!=NULL; s=s->next) {
1086 if (s->next == script_to_delete) {
1087 s->next = s->next->next;
1091 free(script_to_delete->script_content);
1092 free(script_to_delete);
1098 * Add or replace a new script.
1099 * NOTE: after this function returns, "u" owns the memory that "script_content"
1102 void msiv_putscript(struct sdm_userdata *u, char *script_name, char *script_content) {
1104 struct sdm_script *s, *sptr;
1106 for (s=u->first_script; s!=NULL; s=s->next) {
1107 if (!strcasecmp(s->script_name, script_name)) {
1108 if (s->script_content != NULL) {
1109 free(s->script_content);
1111 s->script_content = script_content;
1116 if (replaced == 0) {
1117 sptr = malloc(sizeof(struct sdm_script));
1118 safestrncpy(sptr->script_name, script_name, sizeof sptr->script_name);
1119 sptr->script_content = script_content;
1120 sptr->script_active = 0;
1121 sptr->next = u->first_script;
1122 u->first_script = sptr;
1129 * Citadel protocol to manage sieve scripts.
1130 * This is basically a simplified (read: doesn't resemble IMAP) version
1131 * of the 'managesieve' protocol.
1133 void cmd_msiv(char *argbuf) {
1135 struct sdm_userdata u;
1136 char script_name[256];
1137 char *script_content = NULL;
1138 struct sdm_script *s;
1140 int changes_made = 0;
1142 memset(&u, 0, sizeof(struct sdm_userdata));
1144 if (CtdlAccessCheck(ac_logged_in)) return;
1145 extract_token(subcmd, argbuf, 0, '|', sizeof subcmd);
1148 if (!strcasecmp(subcmd, "putscript")) {
1149 extract_token(script_name, argbuf, 1, '|', sizeof script_name);
1150 if (!IsEmptyStr(script_name)) {
1151 cprintf("%d Transmit script now\n", SEND_LISTING);
1152 script_content = CtdlReadMessageBody("000", config.c_maxmsglen, NULL, 0, 0);
1153 msiv_putscript(&u, script_name, script_content);
1157 cprintf("%d Invalid script name.\n", ERROR + ILLEGAL_VALUE);
1161 else if (!strcasecmp(subcmd, "listscripts")) {
1162 cprintf("%d Scripts:\n", LISTING_FOLLOWS);
1163 for (s=u.first_script; s!=NULL; s=s->next) {
1164 if (s->script_content != NULL) {
1165 cprintf("%s|%d|\n", s->script_name, s->script_active);
1171 else if (!strcasecmp(subcmd, "setactive")) {
1172 extract_token(script_name, argbuf, 1, '|', sizeof script_name);
1173 if (msiv_setactive(&u, script_name) == 0) {
1174 cprintf("%d ok\n", CIT_OK);
1178 cprintf("%d Script '%s' does not exist.\n",
1179 ERROR + ILLEGAL_VALUE,
1185 else if (!strcasecmp(subcmd, "getscript")) {
1186 extract_token(script_name, argbuf, 1, '|', sizeof script_name);
1187 script_content = msiv_getscript(&u, script_name);
1188 if (script_content != NULL) {
1191 cprintf("%d Script:\n", LISTING_FOLLOWS);
1192 script_len = strlen(script_content);
1193 client_write(script_content, script_len);
1194 if (script_content[script_len-1] != '\n') {
1200 cprintf("%d Invalid script name.\n", ERROR + ILLEGAL_VALUE);
1204 else if (!strcasecmp(subcmd, "deletescript")) {
1205 extract_token(script_name, argbuf, 1, '|', sizeof script_name);
1206 i = msiv_deletescript(&u, script_name);
1208 cprintf("%d ok\n", CIT_OK);
1212 cprintf("%d Script '%s' does not exist.\n",
1213 ERROR + ILLEGAL_VALUE,
1218 cprintf("%d Script '%s' is active and cannot be deleted.\n",
1219 ERROR + ILLEGAL_VALUE,
1224 cprintf("%d unknown error\n", ERROR);
1229 cprintf("%d Invalid subcommand\n", ERROR + CMD_NOT_SUPPORTED);
1232 msiv_store(&u, changes_made);
1237 void ctdl_sieve_init(void) {
1239 sieve2_context_t *sieve2_context = NULL;
1243 * We don't really care about dumping the entire credits to the log
1244 * every time the server is initialized. The documentation will suffice
1245 * for that purpose. We are making a call to sieve2_credits() in order
1246 * to demonstrate that we have successfully linked in to libsieve.
1248 cred = strdup(sieve2_credits());
1249 if (cred == NULL) return;
1251 if (strlen(cred) > 60) {
1252 strcpy(&cred[55], "...");
1255 lprintf(CTDL_INFO, "%s\n",cred);
1258 /* Briefly initialize a Sieve parser instance just so we can list the
1259 * extensions that are available.
1261 res = sieve2_alloc(&sieve2_context);
1262 if (res != SIEVE2_OK) {
1263 lprintf(CTDL_CRIT, "sieve2_alloc() returned %d: %s\n", res, sieve2_errstr(res));
1267 res = sieve2_callbacks(sieve2_context, ctdl_sieve_callbacks);
1268 if (res != SIEVE2_OK) {
1269 lprintf(CTDL_CRIT, "sieve2_callbacks() returned %d: %s\n", res, sieve2_errstr(res));
1273 msiv_extensions = strdup(sieve2_listextensions(sieve2_context));
1274 lprintf(CTDL_INFO, "Extensions: %s\n", msiv_extensions);
1276 BAIL: res = sieve2_free(&sieve2_context);
1277 if (res != SIEVE2_OK) {
1278 lprintf(CTDL_CRIT, "sieve2_free() returned %d: %s\n", res, sieve2_errstr(res));
1283 int serv_sieve_room(struct ctdlroom *room)
1285 if (!strcasecmp(&room->QRname[11], MAILROOM)) {
1286 sieve_queue_room(room);
1291 #endif /* HAVE_LIBSIEVE */
1293 CTDL_MODULE_INIT(sieve)
1297 #ifdef HAVE_LIBSIEVE
1300 CtdlRegisterProtoHook(cmd_msiv, "MSIV", "Manage Sieve scripts");
1302 CtdlRegisterRoomHook(serv_sieve_room);
1304 CtdlRegisterSessionHook(perform_sieve_processing, EVT_HOUSE);
1306 #else /* HAVE_LIBSIEVE */
1308 lprintf(CTDL_INFO, "This server is missing libsieve. Mailbox filtering will be disabled.\n");
1310 #endif /* HAVE_LIBSIEVE */
1313 /* return our Subversion id for the Log */