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1.1 root 1: /*
2: ** Sendmail
3: ** Copyright (c) 1983 Eric P. Allman
4: ** Berkeley, California
5: **
6: ** Copyright (c) 1983 Regents of the University of California.
7: ** All rights reserved. The Berkeley software License Agreement
8: ** specifies the terms and conditions for redistribution.
9: */
10:
11:
12: # include "sendmail.h"
13: # include <sys/stat.h>
14: # include <sys/dir.h>
15: # include <signal.h>
16: # include <errno.h>
17:
18: # ifndef QUEUE
19: # ifndef lint
20: static char SccsId[] = "@(#)queue.c 5.21 (Berkeley) 4/17/86 (no queueing)";
21: # endif not lint
22: # else QUEUE
23:
24: # ifndef lint
25: static char SccsId[] = "@(#)queue.c 5.21 (Berkeley) 4/17/86";
26: # endif not lint
27:
28: /*
29: ** Work queue.
30: */
31:
32: struct work
33: {
34: char *w_name; /* name of control file */
35: long w_pri; /* priority of message, see below */
36: time_t w_ctime; /* creation time of message */
37: struct work *w_next; /* next in queue */
38: };
39:
40: typedef struct work WORK;
41:
42: WORK *WorkQ; /* queue of things to be done */
43:
/*
44: ** QUEUEUP -- queue a message up for future transmission.
45: **
46: ** Parameters:
47: ** e -- the envelope to queue up.
48: ** queueall -- if TRUE, queue all addresses, rather than
49: ** just those with the QQUEUEUP flag set.
50: ** announce -- if TRUE, tell when you are queueing up.
51: **
52: ** Returns:
53: ** none.
54: **
55: ** Side Effects:
56: ** The current request are saved in a control file.
57: */
58:
59: queueup(e, queueall, announce)
60: register ENVELOPE *e;
61: bool queueall;
62: bool announce;
63: {
64: char *tf;
65: char *qf;
66: char buf[MAXLINE];
67: register FILE *tfp;
68: register HDR *h;
69: register ADDRESS *q;
70: MAILER nullmailer;
71:
72: /*
73: ** Create control file.
74: */
75:
76: tf = newstr(queuename(e, 't'));
77: tfp = fopen(tf, "w");
78: if (tfp == NULL)
79: {
80: syserr("queueup: cannot create temp file %s", tf);
81: return;
82: }
83: (void) chmod(tf, FileMode);
84:
85: # ifdef DEBUG
86: if (tTd(40, 1))
87: printf("queueing %s\n", e->e_id);
88: # endif DEBUG
89:
90: /*
91: ** If there is no data file yet, create one.
92: */
93:
94: if (e->e_df == NULL)
95: {
96: register FILE *dfp;
97: extern putbody();
98:
99: e->e_df = newstr(queuename(e, 'd'));
100: dfp = fopen(e->e_df, "w");
101: if (dfp == NULL)
102: {
103: syserr("queueup: cannot create %s", e->e_df);
104: (void) fclose(tfp);
105: return;
106: }
107: (void) chmod(e->e_df, FileMode);
108: (*e->e_putbody)(dfp, ProgMailer, e);
109: (void) fclose(dfp);
110: e->e_putbody = putbody;
111: }
112:
113: /*
114: ** Output future work requests.
115: ** Priority and creation time should be first, since
116: ** they are required by orderq.
117: */
118:
119: /* output message priority */
120: fprintf(tfp, "P%ld\n", e->e_msgpriority);
121:
122: /* output creation time */
123: fprintf(tfp, "T%ld\n", e->e_ctime);
124:
125: /* output name of data file */
126: fprintf(tfp, "D%s\n", e->e_df);
127:
128: /* message from envelope, if it exists */
129: if (e->e_message != NULL)
130: fprintf(tfp, "M%s\n", e->e_message);
131:
132: /* output name of sender */
133: fprintf(tfp, "S%s\n", e->e_from.q_paddr);
134:
135: /* output list of recipient addresses */
136: for (q = e->e_sendqueue; q != NULL; q = q->q_next)
137: {
138: if (queueall ? !bitset(QDONTSEND, q->q_flags) :
139: bitset(QQUEUEUP, q->q_flags))
140: {
141: fprintf(tfp, "R%s\n", q->q_paddr);
142: if (announce)
143: {
144: e->e_to = q->q_paddr;
145: message(Arpa_Info, "queued");
146: if (LogLevel > 4)
147: logdelivery("queued");
148: e->e_to = NULL;
149: }
150: #ifdef DEBUG
151: if (tTd(40, 1))
152: {
153: printf("queueing ");
154: printaddr(q, FALSE);
155: }
156: #endif DEBUG
157: }
158: }
159:
160: /* output list of error recipients */
161: for (q = e->e_errorqueue; q != NULL; q = q->q_next)
162: {
163: if (!bitset(QDONTSEND, q->q_flags))
164: fprintf(tfp, "E%s\n", q->q_paddr);
165: }
166:
167: /*
168: ** Output headers for this message.
169: ** Expand macros completely here. Queue run will deal with
170: ** everything as absolute headers.
171: ** All headers that must be relative to the recipient
172: ** can be cracked later.
173: ** We set up a "null mailer" -- i.e., a mailer that will have
174: ** no effect on the addresses as they are output.
175: */
176:
177: bzero((char *) &nullmailer, sizeof nullmailer);
178: nullmailer.m_r_rwset = nullmailer.m_s_rwset = -1;
179: nullmailer.m_eol = "\n";
180:
181: define('g', "\001f", e);
182: for (h = e->e_header; h != NULL; h = h->h_link)
183: {
184: extern bool bitzerop();
185:
186: /* don't output null headers */
187: if (h->h_value == NULL || h->h_value[0] == '\0')
188: continue;
189:
190: /* don't output resent headers on non-resent messages */
191: if (bitset(H_RESENT, h->h_flags) && !bitset(EF_RESENT, e->e_flags))
192: continue;
193:
194: /* output this header */
195: fprintf(tfp, "H");
196:
197: /* if conditional, output the set of conditions */
198: if (!bitzerop(h->h_mflags) && bitset(H_CHECK|H_ACHECK, h->h_flags))
199: {
200: int j;
201:
202: (void) putc('?', tfp);
203: for (j = '\0'; j <= '\177'; j++)
204: if (bitnset(j, h->h_mflags))
205: (void) putc(j, tfp);
206: (void) putc('?', tfp);
207: }
208:
209: /* output the header: expand macros, convert addresses */
210: if (bitset(H_DEFAULT, h->h_flags))
211: {
212: (void) expand(h->h_value, buf, &buf[sizeof buf], e);
213: fprintf(tfp, "%s: %s\n", h->h_field, buf);
214: }
215: else if (bitset(H_FROM|H_RCPT, h->h_flags))
216: {
217: commaize(h, h->h_value, tfp, bitset(EF_OLDSTYLE, e->e_flags),
218: &nullmailer);
219: }
220: else
221: fprintf(tfp, "%s: %s\n", h->h_field, h->h_value);
222: }
223:
224: /*
225: ** Clean up.
226: */
227:
228: (void) fclose(tfp);
229: qf = queuename(e, 'q');
230: if (tf != NULL)
231: {
232: (void) unlink(qf);
233: if (rename(tf, qf) < 0)
234: syserr("cannot unlink(%s, %s), df=%s", tf, qf, e->e_df);
235: errno = 0;
236: }
237:
238: # ifdef LOG
239: /* save log info */
240: if (LogLevel > 15)
241: syslog(LOG_DEBUG, "%s: queueup, qf=%s, df=%s\n", e->e_id, qf, e->e_df);
242: # endif LOG
243: }
244:
/*
245: ** RUNQUEUE -- run the jobs in the queue.
246: **
247: ** Gets the stuff out of the queue in some presumably logical
248: ** order and processes them.
249: **
250: ** Parameters:
251: ** forkflag -- TRUE if the queue scanning should be done in
252: ** a child process. We double-fork so it is not our
253: ** child and we don't have to clean up after it.
254: **
255: ** Returns:
256: ** none.
257: **
258: ** Side Effects:
259: ** runs things in the mail queue.
260: */
261:
262: runqueue(forkflag)
263: bool forkflag;
264: {
265: extern bool shouldqueue();
266:
267: /*
268: ** If no work will ever be selected, don't even bother reading
269: ** the queue.
270: */
271:
272: if (shouldqueue(-100000000L))
273: {
274: if (Verbose)
275: printf("Skipping queue run -- load average too high\n");
276:
277: if (forkflag)
278: return;
279: finis();
280: }
281:
282: /*
283: ** See if we want to go off and do other useful work.
284: */
285:
286: if (forkflag)
287: {
288: int pid;
289:
290: pid = dofork();
291: if (pid != 0)
292: {
293: extern reapchild();
294:
295: /* parent -- pick up intermediate zombie */
296: #ifndef SIGCHLD
297: (void) waitfor(pid);
298: #else SIGCHLD
299: (void) signal(SIGCHLD, reapchild);
300: #endif SIGCHLD
301: if (QueueIntvl != 0)
302: (void) setevent(QueueIntvl, runqueue, TRUE);
303: return;
304: }
305: /* child -- double fork */
306: #ifndef SIGCHLD
307: if (fork() != 0)
308: exit(EX_OK);
309: #else SIGCHLD
310: (void) signal(SIGCHLD, SIG_DFL);
311: #endif SIGCHLD
312: }
313:
314: setproctitle("running queue");
315:
316: # ifdef LOG
317: if (LogLevel > 11)
318: syslog(LOG_DEBUG, "runqueue %s, pid=%d", QueueDir, getpid());
319: # endif LOG
320:
321: /*
322: ** Release any resources used by the daemon code.
323: */
324:
325: # ifdef DAEMON
326: clrdaemon();
327: # endif DAEMON
328:
329: /*
330: ** Make sure the alias database is open.
331: */
332:
333: initaliases(AliasFile, FALSE);
334:
335: /*
336: ** Start making passes through the queue.
337: ** First, read and sort the entire queue.
338: ** Then, process the work in that order.
339: ** But if you take too long, start over.
340: */
341:
342: /* order the existing work requests */
343: (void) orderq(FALSE);
344:
345: /* process them once at a time */
346: while (WorkQ != NULL)
347: {
348: WORK *w = WorkQ;
349:
350: WorkQ = WorkQ->w_next;
351: dowork(w);
352: free(w->w_name);
353: free((char *) w);
354: }
355: finis();
356: }
357:
/*
358: ** ORDERQ -- order the work queue.
359: **
360: ** Parameters:
361: ** doall -- if set, include everything in the queue (even
362: ** the jobs that cannot be run because the load
363: ** average is too high). Otherwise, exclude those
364: ** jobs.
365: **
366: ** Returns:
367: ** The number of request in the queue (not necessarily
368: ** the number of requests in WorkQ however).
369: **
370: ** Side Effects:
371: ** Sets WorkQ to the queue of available work, in order.
372: */
373:
374: # define NEED_P 001
375: # define NEED_T 002
376:
377: orderq(doall)
378: bool doall;
379: {
380: register struct direct *d;
381: register WORK *w;
382: DIR *f;
383: register int i;
384: WORK wlist[QUEUESIZE+1];
385: int wn = -1;
386: extern workcmpf();
387:
388: /* clear out old WorkQ */
389: for (w = WorkQ; w != NULL; )
390: {
391: register WORK *nw = w->w_next;
392:
393: WorkQ = nw;
394: free(w->w_name);
395: free((char *) w);
396: w = nw;
397: }
398:
399: /* open the queue directory */
400: f = opendir(".");
401: if (f == NULL)
402: {
403: syserr("orderq: cannot open \"%s\" as \".\"", QueueDir);
404: return (0);
405: }
406:
407: /*
408: ** Read the work directory.
409: */
410:
411: while ((d = readdir(f)) != NULL)
412: {
413: FILE *cf;
414: char lbuf[MAXNAME];
415:
416: /* is this an interesting entry? */
417: if (d->d_name[0] != 'q' || d->d_name[1] != 'f')
418: continue;
419:
420: /* yes -- open control file (if not too many files) */
421: if (++wn >= QUEUESIZE)
422: continue;
423: cf = fopen(d->d_name, "r");
424: if (cf == NULL)
425: {
426: /* this may be some random person sending hir msgs */
427: /* syserr("orderq: cannot open %s", cbuf); */
428: #ifdef DEBUG
429: if (tTd(41, 2))
430: printf("orderq: cannot open %s (%d)\n",
431: d->d_name, errno);
432: #endif DEBUG
433: errno = 0;
434: wn--;
435: continue;
436: }
437: w = &wlist[wn];
438: w->w_name = newstr(d->d_name);
439:
440: /* make sure jobs in creation don't clog queue */
441: w->w_pri = 0x7fffffff;
442: w->w_ctime = 0;
443:
444: /* extract useful information */
445: i = NEED_P | NEED_T;
446: while (i != 0 && fgets(lbuf, sizeof lbuf, cf) != NULL)
447: {
448: extern long atol();
449:
450: switch (lbuf[0])
451: {
452: case 'P':
453: w->w_pri = atol(&lbuf[1]);
454: i &= ~NEED_P;
455: break;
456:
457: case 'T':
458: w->w_ctime = atol(&lbuf[1]);
459: i &= ~NEED_T;
460: break;
461: }
462: }
463: (void) fclose(cf);
464:
465: if (!doall && shouldqueue(w->w_pri))
466: {
467: /* don't even bother sorting this job in */
468: wn--;
469: }
470: }
471: (void) closedir(f);
472: wn++;
473:
474: /*
475: ** Sort the work directory.
476: */
477:
478: qsort((char *) wlist, min(wn, QUEUESIZE), sizeof *wlist, workcmpf);
479:
480: /*
481: ** Convert the work list into canonical form.
482: ** Should be turning it into a list of envelopes here perhaps.
483: */
484:
485: WorkQ = NULL;
486: for (i = min(wn, QUEUESIZE); --i >= 0; )
487: {
488: w = (WORK *) xalloc(sizeof *w);
489: w->w_name = wlist[i].w_name;
490: w->w_pri = wlist[i].w_pri;
491: w->w_ctime = wlist[i].w_ctime;
492: w->w_next = WorkQ;
493: WorkQ = w;
494: }
495:
496: # ifdef DEBUG
497: if (tTd(40, 1))
498: {
499: for (w = WorkQ; w != NULL; w = w->w_next)
500: printf("%32s: pri=%ld\n", w->w_name, w->w_pri);
501: }
502: # endif DEBUG
503:
504: return (wn);
505: }
506:
/*
507: ** WORKCMPF -- compare function for ordering work.
508: **
509: ** Parameters:
510: ** a -- the first argument.
511: ** b -- the second argument.
512: **
513: ** Returns:
514: ** -1 if a < b
515: ** 0 if a == b
516: ** +1 if a > b
517: **
518: ** Side Effects:
519: ** none.
520: */
521:
522: workcmpf(a, b)
523: register WORK *a;
524: register WORK *b;
525: {
526: long pa = a->w_pri + a->w_ctime;
527: long pb = b->w_pri + b->w_ctime;
528:
529: if (pa == pb)
530: return (0);
531: else if (pa > pb)
532: return (1);
533: else
534: return (-1);
535: }
536:
/*
537: ** DOWORK -- do a work request.
538: **
539: ** Parameters:
540: ** w -- the work request to be satisfied.
541: **
542: ** Returns:
543: ** none.
544: **
545: ** Side Effects:
546: ** The work request is satisfied if possible.
547: */
548:
549: dowork(w)
550: register WORK *w;
551: {
552: register int i;
553: extern bool shouldqueue();
554:
555: # ifdef DEBUG
556: if (tTd(40, 1))
557: printf("dowork: %s pri %ld\n", w->w_name, w->w_pri);
558: # endif DEBUG
559:
560: /*
561: ** Ignore jobs that are too expensive for the moment.
562: */
563:
564: if (shouldqueue(w->w_pri))
565: {
566: if (Verbose)
567: printf("\nSkipping %s\n", w->w_name + 2);
568: return;
569: }
570:
571: /*
572: ** Fork for work.
573: */
574:
575: if (ForkQueueRuns)
576: {
577: i = fork();
578: if (i < 0)
579: {
580: syserr("dowork: cannot fork");
581: return;
582: }
583: }
584: else
585: {
586: i = 0;
587: }
588:
589: if (i == 0)
590: {
591: /*
592: ** CHILD
593: ** Lock the control file to avoid duplicate deliveries.
594: ** Then run the file as though we had just read it.
595: ** We save an idea of the temporary name so we
596: ** can recover on interrupt.
597: */
598:
599: /* set basic modes, etc. */
600: (void) alarm(0);
601: clearenvelope(CurEnv, FALSE);
602: QueueRun = TRUE;
603: ErrorMode = EM_MAIL;
604: CurEnv->e_id = &w->w_name[2];
605: # ifdef LOG
606: if (LogLevel > 11)
607: syslog(LOG_DEBUG, "%s: dowork, pid=%d", CurEnv->e_id,
608: getpid());
609: # endif LOG
610:
611: /* don't use the headers from sendmail.cf... */
612: CurEnv->e_header = NULL;
613:
614: /* lock the control file during processing */
615: if (link(w->w_name, queuename(CurEnv, 'l')) < 0)
616: {
617: /* being processed by another queuer */
618: # ifdef LOG
619: if (LogLevel > 4)
620: syslog(LOG_DEBUG, "%s: locked", CurEnv->e_id);
621: # endif LOG
622: if (ForkQueueRuns)
623: exit(EX_OK);
624: else
625: return;
626: }
627:
628: /* do basic system initialization */
629: initsys();
630:
631: /* read the queue control file */
632: readqf(CurEnv, TRUE);
633: CurEnv->e_flags |= EF_INQUEUE;
634: eatheader(CurEnv);
635:
636: /* do the delivery */
637: if (!bitset(EF_FATALERRS, CurEnv->e_flags))
638: sendall(CurEnv, SM_DELIVER);
639:
640: /* finish up and exit */
641: if (ForkQueueRuns)
642: finis();
643: else
644: dropenvelope(CurEnv);
645: }
646: else
647: {
648: /*
649: ** Parent -- pick up results.
650: */
651:
652: errno = 0;
653: (void) waitfor(i);
654: }
655: }
656:
/*
657: ** READQF -- read queue file and set up environment.
658: **
659: ** Parameters:
660: ** e -- the envelope of the job to run.
661: ** full -- if set, read in all information. Otherwise just
662: ** read in info needed for a queue print.
663: **
664: ** Returns:
665: ** none.
666: **
667: ** Side Effects:
668: ** cf is read and created as the current job, as though
669: ** we had been invoked by argument.
670: */
671:
672: readqf(e, full)
673: register ENVELOPE *e;
674: bool full;
675: {
676: char *qf;
677: register FILE *qfp;
678: char buf[MAXFIELD];
679: extern char *fgetfolded();
680: extern long atol();
681:
682: /*
683: ** Read and process the file.
684: */
685:
686: qf = queuename(e, 'q');
687: qfp = fopen(qf, "r");
688: if (qfp == NULL)
689: {
690: syserr("readqf: no control file %s", qf);
691: return;
692: }
693: FileName = qf;
694: LineNumber = 0;
695: if (Verbose && full)
696: printf("\nRunning %s\n", e->e_id);
697: while (fgetfolded(buf, sizeof buf, qfp) != NULL)
698: {
699: # ifdef DEBUG
700: if (tTd(40, 4))
701: printf("+++++ %s\n", buf);
702: # endif DEBUG
703: switch (buf[0])
704: {
705: case 'R': /* specify recipient */
706: sendtolist(&buf[1], (ADDRESS *) NULL, &e->e_sendqueue);
707: break;
708:
709: case 'E': /* specify error recipient */
710: sendtolist(&buf[1], (ADDRESS *) NULL, &e->e_errorqueue);
711: break;
712:
713: case 'H': /* header */
714: if (full)
715: (void) chompheader(&buf[1], FALSE);
716: break;
717:
718: case 'M': /* message */
719: e->e_message = newstr(&buf[1]);
720: break;
721:
722: case 'S': /* sender */
723: setsender(newstr(&buf[1]));
724: break;
725:
726: case 'D': /* data file name */
727: if (!full)
728: break;
729: e->e_df = newstr(&buf[1]);
730: e->e_dfp = fopen(e->e_df, "r");
731: if (e->e_dfp == NULL)
732: syserr("readqf: cannot open %s", e->e_df);
733: break;
734:
735: case 'T': /* init time */
736: e->e_ctime = atol(&buf[1]);
737: break;
738:
739: case 'P': /* message priority */
740: e->e_msgpriority = atol(&buf[1]) + WkTimeFact;
741: break;
742:
743: case '\0': /* blank line; ignore */
744: break;
745:
746: default:
747: syserr("readqf(%s:%d): bad line \"%s\"", e->e_id,
748: LineNumber, buf);
749: break;
750: }
751: }
752:
753: (void) fclose(qfp);
754: FileName = NULL;
755:
756: /*
757: ** If we haven't read any lines, this queue file is empty.
758: ** Arrange to remove it without referencing any null pointers.
759: */
760:
761: if (LineNumber == 0)
762: {
763: errno = 0;
764: e->e_flags |= EF_CLRQUEUE | EF_FATALERRS | EF_RESPONSE;
765: }
766: }
767:
/*
768: ** PRINTQUEUE -- print out a representation of the mail queue
769: **
770: ** Parameters:
771: ** none.
772: **
773: ** Returns:
774: ** none.
775: **
776: ** Side Effects:
777: ** Prints a listing of the mail queue on the standard output.
778: */
779:
780: printqueue()
781: {
782: register WORK *w;
783: FILE *f;
784: int nrequests;
785: char buf[MAXLINE];
786:
787: /*
788: ** Read and order the queue.
789: */
790:
791: nrequests = orderq(TRUE);
792:
793: /*
794: ** Print the work list that we have read.
795: */
796:
797: /* first see if there is anything */
798: if (nrequests <= 0)
799: {
800: printf("Mail queue is empty\n");
801: return;
802: }
803:
804: printf("\t\tMail Queue (%d request%s", nrequests, nrequests == 1 ? "" : "s");
805: if (nrequests > QUEUESIZE)
806: printf(", only %d printed", QUEUESIZE);
807: if (Verbose)
808: printf(")\n--QID-- --Size-- -Priority- ---Q-Time--- -----------Sender/Recipient-----------\n");
809: else
810: printf(")\n--QID-- --Size-- -----Q-Time----- ------------Sender/Recipient------------\n");
811: for (w = WorkQ; w != NULL; w = w->w_next)
812: {
813: struct stat st;
814: auto time_t submittime = 0;
815: long dfsize = -1;
816: char lf[20];
817: char message[MAXLINE];
818: extern bool shouldqueue();
819:
820: f = fopen(w->w_name, "r");
821: if (f == NULL)
822: {
823: errno = 0;
824: continue;
825: }
826: printf("%7s", w->w_name + 2);
827: (void) strcpy(lf, w->w_name);
828: lf[0] = 'l';
829: if (stat(lf, &st) >= 0)
830: printf("*");
831: else if (shouldqueue(w->w_pri))
832: printf("X");
833: else
834: printf(" ");
835: errno = 0;
836:
837: message[0] = '\0';
838: while (fgets(buf, sizeof buf, f) != NULL)
839: {
840: fixcrlf(buf, TRUE);
841: switch (buf[0])
842: {
843: case 'M': /* error message */
844: (void) strcpy(message, &buf[1]);
845: break;
846:
847: case 'S': /* sender name */
848: if (Verbose)
849: printf("%8ld %10ld %.12s %.38s", dfsize,
850: w->w_pri, ctime(&submittime) + 4,
851: &buf[1]);
852: else
853: printf("%8ld %.16s %.45s", dfsize,
854: ctime(&submittime), &buf[1]);
855: if (message[0] != '\0')
856: printf("\n\t\t (%.60s)", message);
857: break;
858:
859: case 'R': /* recipient name */
860: if (Verbose)
861: printf("\n\t\t\t\t\t %.38s", &buf[1]);
862: else
863: printf("\n\t\t\t\t %.45s", &buf[1]);
864: break;
865:
866: case 'T': /* creation time */
867: submittime = atol(&buf[1]);
868: break;
869:
870: case 'D': /* data file name */
871: if (stat(&buf[1], &st) >= 0)
872: dfsize = st.st_size;
873: break;
874: }
875: }
876: if (submittime == (time_t) 0)
877: printf(" (no control file)");
878: printf("\n");
879: (void) fclose(f);
880: }
881: }
882:
883: # endif QUEUE
884:
/*
885: ** QUEUENAME -- build a file name in the queue directory for this envelope.
886: **
887: ** Assigns an id code if one does not already exist.
888: ** This code is very careful to avoid trashing existing files
889: ** under any circumstances.
890: ** We first create an nf file that is only used when
891: ** assigning an id. This file is always empty, so that
892: ** we can never accidently truncate an lf file.
893: **
894: ** Parameters:
895: ** e -- envelope to build it in/from.
896: ** type -- the file type, used as the first character
897: ** of the file name.
898: **
899: ** Returns:
900: ** a pointer to the new file name (in a static buffer).
901: **
902: ** Side Effects:
903: ** Will create the lf and qf files if no id code is
904: ** already assigned. This will cause the envelope
905: ** to be modified.
906: */
907:
908: char *
909: queuename(e, type)
910: register ENVELOPE *e;
911: char type;
912: {
913: static char buf[MAXNAME];
914: static int pid = -1;
915: char c1 = 'A';
916: char c2 = 'A';
917:
918: if (e->e_id == NULL)
919: {
920: char qf[20];
921: char nf[20];
922: char lf[20];
923:
924: /* find a unique id */
925: if (pid != getpid())
926: {
927: /* new process -- start back at "AA" */
928: pid = getpid();
929: c1 = 'A';
930: c2 = 'A' - 1;
931: }
932: (void) sprintf(qf, "qfAA%05d", pid);
933: (void) strcpy(lf, qf);
934: lf[0] = 'l';
935: (void) strcpy(nf, qf);
936: nf[0] = 'n';
937:
938: while (c1 < '~' || c2 < 'Z')
939: {
940: int i;
941:
942: if (c2 >= 'Z')
943: {
944: c1++;
945: c2 = 'A' - 1;
946: }
947: lf[2] = nf[2] = qf[2] = c1;
948: lf[3] = nf[3] = qf[3] = ++c2;
949: # ifdef DEBUG
950: if (tTd(7, 20))
951: printf("queuename: trying \"%s\"\n", nf);
952: # endif DEBUG
953:
954: # ifdef QUEUE
955: if (access(lf, 0) >= 0 || access(qf, 0) >= 0)
956: continue;
957: errno = 0;
958: i = creat(nf, FileMode);
959: if (i < 0)
960: {
961: (void) unlink(nf); /* kernel bug */
962: continue;
963: }
964: (void) close(i);
965: i = link(nf, lf);
966: (void) unlink(nf);
967: if (i < 0)
968: continue;
969: if (link(lf, qf) >= 0)
970: break;
971: (void) unlink(lf);
972: # else QUEUE
973: if (close(creat(qf, FileMode)) >= 0)
974: break;
975: # endif QUEUE
976: }
977: if (c1 >= '~' && c2 >= 'Z')
978: {
979: syserr("queuename: Cannot create \"%s\" in \"%s\"",
980: qf, QueueDir);
981: exit(EX_OSERR);
982: }
983: e->e_id = newstr(&qf[2]);
984: define('i', e->e_id, e);
985: # ifdef DEBUG
986: if (tTd(7, 1))
987: printf("queuename: assigned id %s, env=%x\n", e->e_id, e);
988: # ifdef LOG
989: if (LogLevel > 16)
990: syslog(LOG_DEBUG, "%s: assigned id", e->e_id);
991: # endif LOG
992: # endif DEBUG
993: }
994:
995: if (type == '\0')
996: return (NULL);
997: (void) sprintf(buf, "%cf%s", type, e->e_id);
998: # ifdef DEBUG
999: if (tTd(7, 2))
1000: printf("queuename: %s\n", buf);
1001: # endif DEBUG
1002: return (buf);
1003: }
1004:
/*
1005: ** UNLOCKQUEUE -- unlock the queue entry for a specified envelope
1006: **
1007: ** Parameters:
1008: ** e -- the envelope to unlock.
1009: **
1010: ** Returns:
1011: ** none
1012: **
1013: ** Side Effects:
1014: ** unlocks the queue for `e'.
1015: */
1016:
1017: unlockqueue(e)
1018: ENVELOPE *e;
1019: {
1020: /* remove the transcript */
1021: #ifdef DEBUG
1022: # ifdef LOG
1023: if (LogLevel > 19)
1024: syslog(LOG_DEBUG, "%s: unlock", e->e_id);
1025: # endif LOG
1026: if (!tTd(51, 4))
1027: #endif DEBUG
1028: xunlink(queuename(e, 'x'));
1029:
1030: # ifdef QUEUE
1031: /* last but not least, remove the lock */
1032: xunlink(queuename(e, 'l'));
1033: # endif QUEUE
1034: }
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