/* * Copyright (c) 1983 Eric P. Allman * Copyright (c) 1988 Regents of the University of California. * All rights reserved. * * %sccs.include.redist.c% */ # include "sendmail.h" #ifndef lint #ifdef QUEUE static char sccsid[] = "@(#)queue.c 5.30 (Berkeley) 06/01/90 (with queueing)"; #else static char sccsid[] = "@(#)queue.c 5.30 (Berkeley) 06/01/90 (without queueing)"; #endif #endif /* not lint */ # include # include # include # include # include # include # ifdef QUEUE /* ** Work queue. */ struct work { char *w_name; /* name of control file */ long w_pri; /* priority of message, see below */ time_t w_ctime; /* creation time of message */ struct work *w_next; /* next in queue */ }; typedef struct work WORK; extern int la; WORK *WorkQ; /* queue of things to be done */ /* ** QUEUEUP -- queue a message up for future transmission. ** ** Parameters: ** e -- the envelope to queue up. ** queueall -- if TRUE, queue all addresses, rather than ** just those with the QQUEUEUP flag set. ** announce -- if TRUE, tell when you are queueing up. ** ** Returns: ** locked FILE* to q file ** ** Side Effects: ** The current request are saved in a control file. */ FILE * queueup(e, queueall, announce) register ENVELOPE *e; bool queueall; bool announce; { char *qf; char buf[MAXLINE], tf[MAXLINE]; register FILE *tfp; register HDR *h; register ADDRESS *q; MAILER nullmailer; int fd, ret; /* ** Create control file. */ do { strcpy(tf, queuename(e, 't')); fd = open(tf, O_CREAT|O_WRONLY|O_EXCL, FileMode); if (fd < 0) { if ( errno != EEXIST) { syserr("queueup: cannot create temp file %s", tf); return NULL; } } else { if (flock(fd, LOCK_EX|LOCK_NB) < 0) { if (errno != EWOULDBLOCK) syserr("cannot flock(%s)", tf); close(fd); fd = -1; } } } while (fd < 0); tfp = fdopen(fd, "w"); if (tTd(40, 1)) printf("queueing %s\n", e->e_id); /* ** If there is no data file yet, create one. */ if (e->e_df == NULL) { register FILE *dfp; extern putbody(); e->e_df = newstr(queuename(e, 'd')); fd = open(e->e_df, O_WRONLY|O_CREAT, FileMode); if (fd < 0) { syserr("queueup: cannot create %s", e->e_df); (void) fclose(tfp); return NULL; } dfp = fdopen(fd, "w"); (*e->e_putbody)(dfp, ProgMailer, e); (void) fclose(dfp); e->e_putbody = putbody; } /* ** Output future work requests. ** Priority and creation time should be first, since ** they are required by orderq. */ /* output message priority */ fprintf(tfp, "P%ld\n", e->e_msgpriority); /* output creation time */ fprintf(tfp, "T%ld\n", e->e_ctime); /* output name of data file */ fprintf(tfp, "D%s\n", e->e_df); /* message from envelope, if it exists */ if (e->e_message != NULL) fprintf(tfp, "M%s\n", e->e_message); /* output name of sender */ fprintf(tfp, "S%s\n", e->e_from.q_paddr); /* output list of recipient addresses */ for (q = e->e_sendqueue; q != NULL; q = q->q_next) { if (queueall ? !bitset(QDONTSEND, q->q_flags) : bitset(QQUEUEUP, q->q_flags)) { char *ctluser, *getctluser(); if ((ctluser = getctluser(q)) != NULL) fprintf(tfp, "C%s\n", ctluser); fprintf(tfp, "R%s\n", q->q_paddr); if (announce) { e->e_to = q->q_paddr; message(Arpa_Info, "queued"); if (LogLevel > 4) logdelivery("queued"); e->e_to = NULL; } if (tTd(40, 1)) { printf("queueing "); printaddr(q, FALSE); } } } /* output list of error recipients */ for (q = e->e_errorqueue; q != NULL; q = q->q_next) { if (!bitset(QDONTSEND, q->q_flags)) { char *ctluser, *getctluser(); if ((ctluser = getctluser(q)) != NULL) fprintf(tfp, "C%s\n", ctluser); fprintf(tfp, "E%s\n", q->q_paddr); } } /* ** Output headers for this message. ** Expand macros completely here. Queue run will deal with ** everything as absolute headers. ** All headers that must be relative to the recipient ** can be cracked later. ** We set up a "null mailer" -- i.e., a mailer that will have ** no effect on the addresses as they are output. */ bzero((char *) &nullmailer, sizeof nullmailer); nullmailer.m_r_rwset = nullmailer.m_s_rwset = -1; nullmailer.m_eol = "\n"; define('g', "\001f", e); for (h = e->e_header; h != NULL; h = h->h_link) { extern bool bitzerop(); /* don't output null headers */ if (h->h_value == NULL || h->h_value[0] == '\0') continue; /* don't output resent headers on non-resent messages */ if (bitset(H_RESENT, h->h_flags) && !bitset(EF_RESENT, e->e_flags)) continue; /* output this header */ fprintf(tfp, "H"); /* if conditional, output the set of conditions */ if (!bitzerop(h->h_mflags) && bitset(H_CHECK|H_ACHECK, h->h_flags)) { int j; (void) putc('?', tfp); for (j = '\0'; j <= '\177'; j++) if (bitnset(j, h->h_mflags)) (void) putc(j, tfp); (void) putc('?', tfp); } /* output the header: expand macros, convert addresses */ if (bitset(H_DEFAULT, h->h_flags)) { (void) expand(h->h_value, buf, &buf[sizeof buf], e); fprintf(tfp, "%s: %s\n", h->h_field, buf); } else if (bitset(H_FROM|H_RCPT, h->h_flags)) { commaize(h, h->h_value, tfp, bitset(EF_OLDSTYLE, e->e_flags), &nullmailer); } else fprintf(tfp, "%s: %s\n", h->h_field, h->h_value); } /* ** Clean up. */ qf = queuename(e, 'q'); if (rename(tf, qf) < 0) syserr("cannot rename(%s, %s), df=%s", tf, qf, e->e_df); errno = 0; # ifdef LOG /* save log info */ if (LogLevel > 15) syslog(LOG_DEBUG, "%s: queueup, qf=%s, df=%s\n", e->e_id, qf, e->e_df); # endif LOG fflush(tfp); return tfp; } /* ** RUNQUEUE -- run the jobs in the queue. ** ** Gets the stuff out of the queue in some presumably logical ** order and processes them. ** ** Parameters: ** forkflag -- TRUE if the queue scanning should be done in ** a child process. We double-fork so it is not our ** child and we don't have to clean up after it. ** ** Returns: ** none. ** ** Side Effects: ** runs things in the mail queue. */ runqueue(forkflag) bool forkflag; { extern bool shouldqueue(); /* ** If no work will ever be selected, don't even bother reading ** the queue. */ la = getla(); /* get load average */ if (shouldqueue(-100000000L)) { if (Verbose) printf("Skipping queue run -- load average too high\n"); if (forkflag) return; finis(); } /* ** See if we want to go off and do other useful work. */ if (forkflag) { int pid; pid = dofork(); if (pid != 0) { extern reapchild(); /* parent -- pick up intermediate zombie */ #ifndef SIGCHLD (void) waitfor(pid); #else SIGCHLD (void) signal(SIGCHLD, reapchild); #endif SIGCHLD if (QueueIntvl != 0) (void) setevent(QueueIntvl, runqueue, TRUE); return; } /* child -- double fork */ #ifndef SIGCHLD if (fork() != 0) exit(EX_OK); #else SIGCHLD (void) signal(SIGCHLD, SIG_DFL); #endif SIGCHLD } setproctitle("running queue: %s", QueueDir); # ifdef LOG if (LogLevel > 11) syslog(LOG_DEBUG, "runqueue %s, pid=%d", QueueDir, getpid()); # endif LOG /* ** Release any resources used by the daemon code. */ # ifdef DAEMON clrdaemon(); # endif DAEMON /* ** Make sure the alias database is open. */ initaliases(AliasFile, FALSE); /* ** Start making passes through the queue. ** First, read and sort the entire queue. ** Then, process the work in that order. ** But if you take too long, start over. */ /* order the existing work requests */ (void) orderq(FALSE); /* process them once at a time */ while (WorkQ != NULL) { WORK *w = WorkQ; WorkQ = WorkQ->w_next; dowork(w); free(w->w_name); free((char *) w); } /* exit without the usual cleanup */ exit(ExitStat); } /* ** ORDERQ -- order the work queue. ** ** Parameters: ** doall -- if set, include everything in the queue (even ** the jobs that cannot be run because the load ** average is too high). Otherwise, exclude those ** jobs. ** ** Returns: ** The number of request in the queue (not necessarily ** the number of requests in WorkQ however). ** ** Side Effects: ** Sets WorkQ to the queue of available work, in order. */ # define NEED_P 001 # define NEED_T 002 orderq(doall) bool doall; { register struct direct *d; register WORK *w; DIR *f; register int i; WORK wlist[QUEUESIZE+1]; int wn = -1; extern workcmpf(); /* clear out old WorkQ */ for (w = WorkQ; w != NULL; ) { register WORK *nw = w->w_next; WorkQ = nw; free(w->w_name); free((char *) w); w = nw; } /* open the queue directory */ f = opendir("."); if (f == NULL) { syserr("orderq: cannot open \"%s\" as \".\"", QueueDir); return (0); } /* ** Read the work directory. */ while ((d = readdir(f)) != NULL) { FILE *cf; char lbuf[MAXNAME]; /* is this an interesting entry? */ if (d->d_name[0] != 'q' || d->d_name[1] != 'f') continue; /* yes -- open control file (if not too many files) */ if (++wn >= QUEUESIZE) continue; cf = fopen(d->d_name, "r"); if (cf == NULL) { /* this may be some random person sending hir msgs */ /* syserr("orderq: cannot open %s", cbuf); */ if (tTd(41, 2)) printf("orderq: cannot open %s (%d)\n", d->d_name, errno); errno = 0; wn--; continue; } w = &wlist[wn]; w->w_name = newstr(d->d_name); /* make sure jobs in creation don't clog queue */ w->w_pri = 0x7fffffff; w->w_ctime = 0; /* extract useful information */ i = NEED_P | NEED_T; while (i != 0 && fgets(lbuf, sizeof lbuf, cf) != NULL) { extern long atol(); switch (lbuf[0]) { case 'P': w->w_pri = atol(&lbuf[1]); i &= ~NEED_P; break; case 'T': w->w_ctime = atol(&lbuf[1]); i &= ~NEED_T; break; } } (void) fclose(cf); if (!doall && shouldqueue(w->w_pri)) { /* don't even bother sorting this job in */ wn--; } } (void) closedir(f); wn++; /* ** Sort the work directory. */ qsort((char *) wlist, min(wn, QUEUESIZE), sizeof *wlist, workcmpf); /* ** Convert the work list into canonical form. ** Should be turning it into a list of envelopes here perhaps. */ WorkQ = NULL; for (i = min(wn, QUEUESIZE); --i >= 0; ) { w = (WORK *) xalloc(sizeof *w); w->w_name = wlist[i].w_name; w->w_pri = wlist[i].w_pri; w->w_ctime = wlist[i].w_ctime; w->w_next = WorkQ; WorkQ = w; } if (tTd(40, 1)) { for (w = WorkQ; w != NULL; w = w->w_next) printf("%32s: pri=%ld\n", w->w_name, w->w_pri); } return (wn); } /* ** WORKCMPF -- compare function for ordering work. ** ** Parameters: ** a -- the first argument. ** b -- the second argument. ** ** Returns: ** -1 if a < b ** 0 if a == b ** +1 if a > b ** ** Side Effects: ** none. */ workcmpf(a, b) register WORK *a; register WORK *b; { long pa = a->w_pri + a->w_ctime; long pb = b->w_pri + b->w_ctime; if (pa == pb) return (0); else if (pa > pb) return (1); else return (-1); } /* ** DOWORK -- do a work request. ** ** Parameters: ** w -- the work request to be satisfied. ** ** Returns: ** none. ** ** Side Effects: ** The work request is satisfied if possible. */ dowork(w) register WORK *w; { register int i; extern bool shouldqueue(); if (tTd(40, 1)) printf("dowork: %s pri %ld\n", w->w_name, w->w_pri); /* ** Ignore jobs that are too expensive for the moment. */ if (shouldqueue(w->w_pri)) { if (Verbose) printf("\nSkipping %s\n", w->w_name + 2); return; } /* ** Fork for work. */ if (ForkQueueRuns) { i = fork(); if (i < 0) { syserr("dowork: cannot fork"); return; } } else { i = 0; } if (i == 0) { FILE *qflock, *readqf(); /* ** CHILD ** Lock the control file to avoid duplicate deliveries. ** Then run the file as though we had just read it. ** We save an idea of the temporary name so we ** can recover on interrupt. */ /* set basic modes, etc. */ (void) alarm(0); clearenvelope(CurEnv, FALSE); QueueRun = TRUE; ErrorMode = EM_MAIL; CurEnv->e_id = &w->w_name[2]; # ifdef LOG if (LogLevel > 11) syslog(LOG_DEBUG, "%s: dowork, pid=%d", CurEnv->e_id, getpid()); # endif LOG /* don't use the headers from sendmail.cf... */ CurEnv->e_header = NULL; /* read the queue control file */ /* and lock the control file during processing */ if ((qflock=readqf(CurEnv, TRUE)) == NULL) { if (ForkQueueRuns) exit(EX_OK); else return; } CurEnv->e_flags |= EF_INQUEUE; eatheader(CurEnv); /* do the delivery */ if (!bitset(EF_FATALERRS, CurEnv->e_flags)) sendall(CurEnv, SM_DELIVER); /* finish up and exit */ if (ForkQueueRuns) finis(); else dropenvelope(CurEnv); fclose(qflock); } else { /* ** Parent -- pick up results. */ errno = 0; (void) waitfor(i); } } /* ** READQF -- read queue file and set up environment. ** ** Parameters: ** e -- the envelope of the job to run. ** full -- if set, read in all information. Otherwise just ** read in info needed for a queue print. ** ** Returns: ** FILE * pointing to flock()ed fd so it can be closed ** after the mail is delivered ** ** Side Effects: ** cf is read and created as the current job, as though ** we had been invoked by argument. */ FILE * readqf(e, full) register ENVELOPE *e; bool full; { char *qf; register FILE *qfp; char buf[MAXFIELD]; extern char *fgetfolded(); extern long atol(); int gotctluser = 0; int fd; /* ** Read and process the file. */ qf = queuename(e, 'q'); qfp = fopen(qf, "r"); if (qfp == NULL) { if (errno != ENOENT) syserr("readqf: no control file %s", qf); return NULL; } if (flock(fileno(qfp), LOCK_EX|LOCK_NB) < 0) { # ifdef LOG /* being processed by another queuer */ if (Verbose) printf("%s: locked\n", CurEnv->e_id); # endif LOG (void) fclose(qfp); return NULL; } /* do basic system initialization */ initsys(); FileName = qf; LineNumber = 0; if (Verbose && full) printf("\nRunning %s\n", e->e_id); while (fgetfolded(buf, sizeof buf, qfp) != NULL) { if (tTd(40, 4)) printf("+++++ %s\n", buf); switch (buf[0]) { case 'C': /* specify controlling user */ setctluser(&buf[1]); gotctluser = 1; break; case 'R': /* specify recipient */ sendtolist(&buf[1], (ADDRESS *) NULL, &e->e_sendqueue); break; case 'E': /* specify error recipient */ sendtolist(&buf[1], (ADDRESS *) NULL, &e->e_errorqueue); break; case 'H': /* header */ if (full) (void) chompheader(&buf[1], FALSE); break; case 'M': /* message */ e->e_message = newstr(&buf[1]); break; case 'S': /* sender */ setsender(newstr(&buf[1])); break; case 'D': /* data file name */ if (!full) break; e->e_df = newstr(&buf[1]); e->e_dfp = fopen(e->e_df, "r"); if (e->e_dfp == NULL) syserr("readqf: cannot open %s", e->e_df); break; case 'T': /* init time */ e->e_ctime = atol(&buf[1]); break; case 'P': /* message priority */ e->e_msgpriority = atol(&buf[1]) + WkTimeFact; break; case '\0': /* blank line; ignore */ break; default: syserr("readqf(%s:%d): bad line \"%s\"", e->e_id, LineNumber, buf); break; } /* ** The `C' queue file command operates on the next line, ** so we use "gotctluser" to maintain state as follows: ** 0 - no controlling user, ** 1 - controlling user has been set but not used, ** 2 - controlling user must be used on next iteration. */ if (gotctluser == 1) gotctluser++; else if (gotctluser == 2) { clrctluser(); gotctluser = 0; } } /* clear controlling user in case we break out prematurely */ clrctluser(); FileName = NULL; /* ** If we haven't read any lines, this queue file is empty. ** Arrange to remove it without referencing any null pointers. */ if (LineNumber == 0) { errno = 0; e->e_flags |= EF_CLRQUEUE | EF_FATALERRS | EF_RESPONSE; } return qfp; } /* ** PRINTQUEUE -- print out a representation of the mail queue ** ** Parameters: ** none. ** ** Returns: ** none. ** ** Side Effects: ** Prints a listing of the mail queue on the standard output. */ printqueue() { register WORK *w; FILE *f; int nrequests; char buf[MAXLINE]; char cbuf[MAXLINE]; /* ** Read and order the queue. */ nrequests = orderq(TRUE); /* ** Print the work list that we have read. */ /* first see if there is anything */ if (nrequests <= 0) { printf("Mail queue is empty\n"); return; } la = getla(); /* get load average */ printf("\t\tMail Queue (%d request%s", nrequests, nrequests == 1 ? "" : "s"); if (nrequests > QUEUESIZE) printf(", only %d printed", QUEUESIZE); if (Verbose) printf(")\n--QID-- --Size-- -Priority- ---Q-Time--- -----------Sender/Recipient-----------\n"); else printf(")\n--QID-- --Size-- -----Q-Time----- ------------Sender/Recipient------------\n"); for (w = WorkQ; w != NULL; w = w->w_next) { struct stat st; auto time_t submittime = 0; long dfsize = -1; char message[MAXLINE]; extern bool shouldqueue(); f = fopen(w->w_name, "r"); if (f == NULL) { errno = 0; continue; } printf("%7s", w->w_name + 2); if (flock(fileno(f), LOCK_SH|LOCK_NB) < 0) printf("*"); else if (shouldqueue(w->w_pri)) printf("X"); else printf(" "); errno = 0; message[0] = '\0'; cbuf[0] = '\0'; while (fgets(buf, sizeof buf, f) != NULL) { fixcrlf(buf, TRUE); switch (buf[0]) { case 'M': /* error message */ (void) strcpy(message, &buf[1]); break; case 'S': /* sender name */ if (Verbose) printf("%8ld %10ld %.12s %.38s", dfsize, w->w_pri, ctime(&submittime) + 4, &buf[1]); else printf("%8ld %.16s %.45s", dfsize, ctime(&submittime), &buf[1]); if (message[0] != '\0') printf("\n\t\t (%.60s)", message); break; case 'C': /* controlling user */ if (strlen(buf) < MAXLINE-3) /* sanity */ (void) strcat(buf, ") "); cbuf[0] = cbuf[1] = '('; (void) strncpy(&cbuf[2], &buf[1], MAXLINE-1); cbuf[MAXLINE-1] = '\0'; break; case 'R': /* recipient name */ if (cbuf[0] != '\0') { /* prepend controlling user to `buf' */ (void) strncat(cbuf, &buf[1], MAXLINE-strlen(cbuf)); cbuf[MAXLINE-1] = '\0'; (void) strcpy(buf, cbuf); cbuf[0] = '\0'; } if (Verbose) printf("\n\t\t\t\t\t %.38s", &buf[1]); else printf("\n\t\t\t\t %.45s", &buf[1]); break; case 'T': /* creation time */ submittime = atol(&buf[1]); break; case 'D': /* data file name */ if (stat(&buf[1], &st) >= 0) dfsize = st.st_size; break; } } if (submittime == (time_t) 0) printf(" (no control file)"); printf("\n"); (void) fclose(f); } } # endif QUEUE /* ** QUEUENAME -- build a file name in the queue directory for this envelope. ** ** Assigns an id code if one does not already exist. ** This code is very careful to avoid trashing existing files ** under any circumstances. ** ** Parameters: ** e -- envelope to build it in/from. ** type -- the file type, used as the first character ** of the file name. ** ** Returns: ** a pointer to the new file name (in a static buffer). ** ** Side Effects: ** Will create the qf file if no id code is ** already assigned. This will cause the envelope ** to be modified. */ char * queuename(e, type) register ENVELOPE *e; char type; { static char buf[MAXNAME]; static int pid = -1; char c1 = 'A'; char c2 = 'A'; if (e->e_id == NULL) { char qf[20]; /* find a unique id */ if (pid != getpid()) { /* new process -- start back at "AA" */ pid = getpid(); c1 = 'A'; c2 = 'A' - 1; } (void) sprintf(qf, "qfAA%05d", pid); while (c1 < '~' || c2 < 'Z') { int i; if (c2 >= 'Z') { c1++; c2 = 'A' - 1; } qf[2] = c1; qf[3] = ++c2; if (tTd(7, 20)) printf("queuename: trying \"%s\"\n", qf); i = open(qf, O_WRONLY|O_CREAT|O_EXCL, FileMode); if (i < 0) { if (errno != EEXIST) { syserr("queuename: Cannot create \"%s\" in \"%s\"", qf, QueueDir); exit(EX_UNAVAILABLE); } } else { (void) close(i); break; } } if (c1 >= '~' && c2 >= 'Z') { syserr("queuename: Cannot create \"%s\" in \"%s\"", qf, QueueDir); exit(EX_OSERR); } e->e_id = newstr(&qf[2]); define('i', e->e_id, e); if (tTd(7, 1)) printf("queuename: assigned id %s, env=%x\n", e->e_id, e); # ifdef LOG if (LogLevel > 16) syslog(LOG_DEBUG, "%s: assigned id", e->e_id); # endif LOG } if (type == '\0') return (NULL); (void) sprintf(buf, "%cf%s", type, e->e_id); if (tTd(7, 2)) printf("queuename: %s\n", buf); return (buf); } /* ** UNLOCKQUEUE -- unlock the queue entry for a specified envelope ** ** Parameters: ** e -- the envelope to unlock. ** ** Returns: ** none ** ** Side Effects: ** unlocks the queue for `e'. */ unlockqueue(e) ENVELOPE *e; { /* remove the transcript */ # ifdef LOG if (LogLevel > 19) syslog(LOG_DEBUG, "%s: unlock", e->e_id); # endif LOG if (!tTd(51, 4)) xunlink(queuename(e, 'x')); } /* ** GETCTLUSER -- return controlling user if mailing to prog or file ** ** Check for a "|" or "/" at the beginning of the address. If ** found, return a controlling username. ** ** Parameters: ** a - the address to check out ** ** Returns: ** Either NULL, if we werent mailing to a program or file, ** or a controlling user name (possibly in getpwuid's ** static buffer). ** ** Side Effects: ** none. */ char * getctluser(a) ADDRESS *a; { extern ADDRESS *getctladdr(); struct passwd *pw; char *retstr; /* ** Get unquoted user for file, program or user.name check. ** N.B. remove this code block to always emit controlling ** addresses (at the expense of backward compatibility). */ { char buf[MAXNAME]; (void) strncpy(buf, a->q_paddr, MAXNAME); buf[MAXNAME-1] = '\0'; stripquotes(buf, TRUE); if (buf[0] != '|' && buf[0] != '/') return((char *)NULL); } a = getctladdr(a); /* find controlling address */ if (a != NULL && a->q_uid != 0 && (pw = getpwuid(a->q_uid)) != NULL) retstr = pw->pw_name; else /* use default user */ retstr = DefUser; if (tTd(40, 5)) printf("Set controlling user for `%s' to `%s'\n", (a == NULL)? "": a->q_paddr, retstr); return(retstr); } /* ** SETCTLUSER - sets `CtlUser' to controlling user ** CLRCTLUSER - clears controlling user (no params, nothing returned) ** ** These routines manipulate `CtlUser'. ** ** Parameters: ** str - controlling user as passed to setctluser() ** ** Returns: ** None. ** ** Side Effects: ** `CtlUser' is changed. */ static char CtlUser[MAXNAME]; setctluser(str) register char *str; { (void) strncpy(CtlUser, str, MAXNAME); CtlUser[MAXNAME-1] = '\0'; } clrctluser() { CtlUser[0] = '\0'; } /* ** SETCTLADDR -- create a controlling address ** ** If global variable `CtlUser' is set and we are given a valid ** address, make that address a controlling address; change the ** `q_uid', `q_gid', and `q_ruser' fields and set QGOODUID. ** ** Parameters: ** a - address for which control uid/gid info may apply ** ** Returns: ** None. ** ** Side Effects: ** Fills in uid/gid fields in address and sets QGOODUID ** flag if appropriate. */ setctladdr(a) ADDRESS *a; { struct passwd *pw; /* ** If there is no current controlling user, or we were passed a ** NULL addr ptr or we already have a controlling user, return. */ if (CtlUser[0] == '\0' || a == NULL || a->q_ruser) return; /* ** Set up addr fields for controlling user. If `CtlUser' is no ** longer valid, use the default user/group. */ if ((pw = getpwnam(CtlUser)) != NULL) { if (a->q_home) free(a->q_home); a->q_home = newstr(pw->pw_dir); a->q_uid = pw->pw_uid; a->q_gid = pw->pw_gid; a->q_ruser = newstr(CtlUser); } else { a->q_uid = DefUid; a->q_gid = DefGid; a->q_ruser = newstr(DefUser); } a->q_flags |= QGOODUID; /* flag as a "ctladdr" */ if (tTd(40, 5)) printf("Restored controlling user for `%s' to `%s'\n", a->q_paddr, a->q_ruser); }