/* * Copyright (c) 1995-1997 Eric P. Allman * Copyright (c) 1988, 1993 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef lint static char sccsid[] = "@(#)mci.c 8.66 (Berkeley) 8/2/97"; #endif /* not lint */ #include "sendmail.h" #include /* ** Mail Connection Information (MCI) Caching Module. ** ** There are actually two separate things cached. The first is ** the set of all open connections -- these are stored in a ** (small) list. The second is stored in the symbol table; it ** has the overall status for all hosts, whether or not there ** is a connection open currently. ** ** There should never be too many connections open (since this ** could flood the socket table), nor should a connection be ** allowed to sit idly for too long. ** ** MaxMciCache is the maximum number of open connections that ** will be supported. ** ** MciCacheTimeout is the time (in seconds) that a connection ** is permitted to survive without activity. ** ** We actually try any cached connections by sending a NOOP ** before we use them; if the NOOP fails we close down the ** connection and reopen it. Note that this means that a ** server SMTP that doesn't support NOOP will hose the ** algorithm -- but that doesn't seem too likely. ** ** The persistent MCI code is donated by Mark Lovell and Paul ** Vixie. It is based on the long term host status code in KJS ** written by Paul but has been adapted by Mark to fit into the ** MCI structure. */ MCI **MciCache; /* the open connection cache */ extern int mci_generate_persistent_path __P((const char *, char *, int, bool)); extern void mci_load_persistent __P((MCI *)); extern void mci_uncache __P((MCI **, bool)); /* ** MCI_CACHE -- enter a connection structure into the open connection cache ** ** This may cause something else to be flushed. ** ** Parameters: ** mci -- the connection to cache. ** ** Returns: ** none. */ void mci_cache(mci) register MCI *mci; { register MCI **mcislot; /* ** Find the best slot. This may cause expired connections ** to be closed. */ mcislot = mci_scan(mci); if (mcislot == NULL) { /* we don't support caching */ return; } /* if this is already cached, we are done */ if (bitset(MCIF_CACHED, mci->mci_flags)) return; /* otherwise we may have to clear the slot */ if (*mcislot != NULL) mci_uncache(mcislot, TRUE); if (tTd(42, 5)) printf("mci_cache: caching %lx (%s) in slot %d\n", (u_long) mci, mci->mci_host, mcislot - MciCache); if (tTd(91, 100)) sm_syslog(LOG_DEBUG, CurEnv->e_id, "mci_cache: caching %x (%.100s) in slot %d", mci, mci->mci_host, mcislot - MciCache); *mcislot = mci; mci->mci_flags |= MCIF_CACHED; } /* ** MCI_SCAN -- scan the cache, flush junk, and return best slot ** ** Parameters: ** savemci -- never flush this one. Can be null. ** ** Returns: ** The LRU (or empty) slot. */ MCI ** mci_scan(savemci) MCI *savemci; { time_t now; register MCI **bestmci; register MCI *mci; register int i; if (MaxMciCache <= 0) { /* we don't support caching */ return NULL; } if (MciCache == NULL) { /* first call */ MciCache = (MCI **) xalloc(MaxMciCache * sizeof *MciCache); bzero((char *) MciCache, MaxMciCache * sizeof *MciCache); return (&MciCache[0]); } now = curtime(); bestmci = &MciCache[0]; for (i = 0; i < MaxMciCache; i++) { mci = MciCache[i]; if (mci == NULL || mci->mci_state == MCIS_CLOSED) { bestmci = &MciCache[i]; continue; } if (mci->mci_lastuse + MciCacheTimeout < now && mci != savemci) { /* connection idle too long -- close it */ bestmci = &MciCache[i]; mci_uncache(bestmci, TRUE); continue; } if (*bestmci == NULL) continue; if (mci->mci_lastuse < (*bestmci)->mci_lastuse) bestmci = &MciCache[i]; } return bestmci; } /* ** MCI_UNCACHE -- remove a connection from a slot. ** ** May close a connection. ** ** Parameters: ** mcislot -- the slot to empty. ** doquit -- if TRUE, send QUIT protocol on this connection. ** if FALSE, we are assumed to be in a forked child; ** all we want to do is close the file(s). ** ** Returns: ** none. */ void mci_uncache(mcislot, doquit) register MCI **mcislot; bool doquit; { register MCI *mci; extern ENVELOPE BlankEnvelope; mci = *mcislot; if (mci == NULL) return; *mcislot = NULL; mci_unlock_host(mci); if (tTd(42, 5)) printf("mci_uncache: uncaching %lx (%s) from slot %d (%d)\n", (u_long) mci, mci->mci_host, mcislot - MciCache, doquit); if (tTd(91, 100)) sm_syslog(LOG_DEBUG, CurEnv->e_id, "mci_uncache: uncaching %x (%.100s) from slot %d (%d)", mci, mci->mci_host, mcislot - MciCache, doquit); #if SMTP if (doquit) { message("Closing connection to %s", mci->mci_host); mci->mci_flags &= ~MCIF_CACHED; /* only uses the envelope to flush the transcript file */ if (mci->mci_state != MCIS_CLOSED) smtpquit(mci->mci_mailer, mci, &BlankEnvelope); #ifdef XLA xla_host_end(mci->mci_host); #endif } else #endif { if (mci->mci_in != NULL) xfclose(mci->mci_in, "mci_uncache", "mci_in"); if (mci->mci_out != NULL) xfclose(mci->mci_out, "mci_uncache", "mci_out"); mci->mci_in = mci->mci_out = NULL; mci->mci_state = MCIS_CLOSED; mci->mci_exitstat = EX_OK; mci->mci_errno = 0; mci->mci_flags = 0; } } /* ** MCI_FLUSH -- flush the entire cache ** ** Parameters: ** doquit -- if TRUE, send QUIT protocol. ** if FALSE, just close the connection. ** allbut -- but leave this one open. ** ** Returns: ** none. */ void mci_flush(doquit, allbut) bool doquit; MCI *allbut; { register int i; if (MciCache == NULL) return; for (i = 0; i < MaxMciCache; i++) if (allbut != MciCache[i]) mci_uncache(&MciCache[i], doquit); } /* ** MCI_GET -- get information about a particular host */ MCI * mci_get(host, m) char *host; MAILER *m; { register MCI *mci; register STAB *s; #if DAEMON extern SOCKADDR CurHostAddr; /* clear CurHostAddr so we don't get a bogus address with this name */ bzero(&CurHostAddr, sizeof CurHostAddr); #endif /* clear out any expired connections */ (void) mci_scan(NULL); if (m->m_mno < 0) syserr("negative mno %d (%s)", m->m_mno, m->m_name); s = stab(host, ST_MCI + m->m_mno, ST_ENTER); mci = &s->s_mci; mci->mci_host = s->s_name; mci_load_persistent(mci); if (tTd(42, 2)) { printf("mci_get(%s %s): mci_state=%d, _flags=%x, _exitstat=%d, _errno=%d\n", host, m->m_name, mci->mci_state, mci->mci_flags, mci->mci_exitstat, mci->mci_errno); } #if SMTP if (mci->mci_state == MCIS_OPEN) { extern int smtpprobe __P((MCI *)); /* poke the connection to see if it's still alive */ (void) smtpprobe(mci); /* reset the stored state in the event of a timeout */ if (mci->mci_state != MCIS_OPEN) { mci->mci_errno = 0; mci->mci_exitstat = EX_OK; mci->mci_state = MCIS_CLOSED; } # if DAEMON else { /* get peer host address for logging reasons only */ /* (this should really be in the mci struct) */ SOCKADDR_LEN_T socklen = sizeof CurHostAddr; (void) getpeername(fileno(mci->mci_in), (struct sockaddr *) &CurHostAddr, &socklen); } # endif } #endif if (mci->mci_state == MCIS_CLOSED) { time_t now = curtime(); /* if this info is stale, ignore it */ if (now > mci->mci_lastuse + MciInfoTimeout) { mci->mci_lastuse = now; mci->mci_errno = 0; mci->mci_exitstat = EX_OK; } } return mci; } /* ** MCI_SETSTAT -- set status codes in MCI structure. ** ** Parameters: ** mci -- the MCI structure to set. ** xstat -- the exit status code. ** dstat -- the DSN status code. ** rstat -- the SMTP status code. ** ** Returns: ** none. */ void mci_setstat(mci, xstat, dstat, rstat) MCI *mci; int xstat; char *dstat; char *rstat; { /* protocol errors should never be interpreted as sticky */ if (xstat != EX_NOTSTICKY && xstat != EX_PROTOCOL) mci->mci_exitstat = xstat; mci->mci_status = dstat; if (mci->mci_rstatus != NULL) free(mci->mci_rstatus); if (rstat != NULL) rstat = newstr(rstat); mci->mci_rstatus = rstat; } /* ** MCI_DUMP -- dump the contents of an MCI structure. ** ** Parameters: ** mci -- the MCI structure to dump. ** ** Returns: ** none. ** ** Side Effects: ** none. */ struct mcifbits { int mcif_bit; /* flag bit */ char *mcif_name; /* flag name */ }; struct mcifbits MciFlags[] = { { MCIF_VALID, "VALID" }, { MCIF_TEMP, "TEMP" }, { MCIF_CACHED, "CACHED" }, { MCIF_ESMTP, "ESMTP" }, { MCIF_EXPN, "EXPN" }, { MCIF_SIZE, "SIZE" }, { MCIF_8BITMIME, "8BITMIME" }, { MCIF_7BIT, "7BIT" }, { MCIF_MULTSTAT, "MULTSTAT" }, { MCIF_INHEADER, "INHEADER" }, { MCIF_CVT8TO7, "CVT8TO7" }, { MCIF_DSN, "DSN" }, { MCIF_8BITOK, "8BITOK" }, { MCIF_CVT7TO8, "CVT7TO8" }, { MCIF_INMIME, "INMIME" }, { 0, NULL } }; void mci_dump(mci, logit) register MCI *mci; bool logit; { register char *p; char *sep; char buf[4000]; extern char *ctime(); sep = logit ? " " : "\n\t"; p = buf; snprintf(p, SPACELEFT(buf, p), "MCI@%x: ", mci); p += strlen(p); if (mci == NULL) { snprintf(p, SPACELEFT(buf, p), "NULL"); goto printit; } snprintf(p, SPACELEFT(buf, p), "flags=%x", mci->mci_flags); p += strlen(p); if (mci->mci_flags != 0) { struct mcifbits *f; *p++ = '<'; for (f = MciFlags; f->mcif_bit != 0; f++) { if (!bitset(f->mcif_bit, mci->mci_flags)) continue; snprintf(p, SPACELEFT(buf, p), "%s,", f->mcif_name); p += strlen(p); } p[-1] = '>'; } snprintf(p, SPACELEFT(buf, p), ",%serrno=%d, herrno=%d, exitstat=%d, state=%d, pid=%d,%s", sep, mci->mci_errno, mci->mci_herrno, mci->mci_exitstat, mci->mci_state, mci->mci_pid, sep); p += strlen(p); snprintf(p, SPACELEFT(buf, p), "maxsize=%ld, phase=%s, mailer=%s,%s", mci->mci_maxsize, mci->mci_phase == NULL ? "NULL" : mci->mci_phase, mci->mci_mailer == NULL ? "NULL" : mci->mci_mailer->m_name, sep); p += strlen(p); snprintf(p, SPACELEFT(buf, p), "status=%s, rstatus=%s,%s", mci->mci_status == NULL ? "NULL" : mci->mci_status, mci->mci_rstatus == NULL ? "NULL" : mci->mci_rstatus, sep); p += strlen(p); snprintf(p, SPACELEFT(buf, p), "host=%s, lastuse=%s", mci->mci_host == NULL ? "NULL" : mci->mci_host, ctime(&mci->mci_lastuse)); printit: if (logit) sm_syslog(LOG_DEBUG, CurEnv->e_id, "%.1000s", buf); else printf("%s\n", buf); } /* ** MCI_DUMP_ALL -- print the entire MCI cache ** ** Parameters: ** logit -- if set, log the result instead of printing ** to stdout. ** ** Returns: ** none. */ void mci_dump_all(logit) bool logit; { register int i; if (MciCache == NULL) return; for (i = 0; i < MaxMciCache; i++) mci_dump(MciCache[i], logit); } /* ** MCI_LOCK_HOST -- Lock host while sending. ** ** If we are contacting a host, we'll need to ** update the status information in the host status ** file, and if we want to do that, we ought to have ** locked it. This has the (according to some) ** desirable effect of serializing connectivity with ** remote hosts -- i.e.: one connection to a give ** host at a time. ** ** Parameters: ** mci -- containing the host we want to lock. ** ** Returns: ** EX_OK -- got the lock. ** EX_TEMPFAIL -- didn't get the lock. */ int mci_lock_host(mci) MCI *mci; { if (mci == NULL) { if (tTd(56, 1)) printf("mci_lock_host: NULL mci\n"); return EX_OK; } if (!SingleThreadDelivery) return EX_OK; return mci_lock_host_statfile(mci); } int mci_lock_host_statfile(mci) MCI *mci; { int savedErrno = errno; int retVal = EX_OK; char fname[MAXPATHLEN+1]; if (HostStatDir == NULL || mci->mci_host == NULL) return EX_OK; if (tTd(56, 2)) printf("mci_lock_host: attempting to lock %s\n", mci->mci_host); if (mci_generate_persistent_path(mci->mci_host, fname, sizeof fname, TRUE) < 0) { /* of course this should never happen */ if (tTd(56, 2)) printf("mci_lock_host: Failed to generate host path for %s\n", mci->mci_host); retVal = EX_TEMPFAIL; goto cleanup; } mci->mci_statfile = safefopen(fname, O_RDWR, FileMode, SFF_NOLOCK|SFF_NOLINK|SFF_OPENASROOT|SFF_REGONLY|SFF_CREAT); if (mci->mci_statfile == NULL) { syserr("mci_lock_host: cannot create host lock file %s", fname); goto cleanup; } if (!lockfile(fileno(mci->mci_statfile), fname, "", LOCK_EX|LOCK_NB)) { if (tTd(56, 2)) printf("mci_lock_host: couldn't get lock on %s\n", fname); fclose(mci->mci_statfile); mci->mci_statfile = NULL; retVal = EX_TEMPFAIL; goto cleanup; } if (tTd(56, 12) && mci->mci_statfile != NULL) printf("mci_lock_host: Sanity check -- lock is good\n"); cleanup: errno = savedErrno; return retVal; } /* ** MCI_UNLOCK_HOST -- unlock host ** ** Clean up the lock on a host, close the file, let ** someone else use it. ** ** Parameters: ** mci -- us. ** ** Returns: ** nothing. */ void mci_unlock_host(mci) MCI *mci; { int saveErrno = errno; if (mci == NULL) { if (tTd(56, 1)) printf("mci_unlock_host: NULL mci\n"); return; } if (HostStatDir == NULL || mci->mci_host == NULL) return; if (!SingleThreadDelivery && mci_lock_host_statfile(mci) == EX_TEMPFAIL) { if (tTd(56, 1)) printf("mci_unlock_host: stat file already locked\n"); } else { if (tTd(56, 2)) printf("mci_unlock_host: store prior to unlock\n"); mci_store_persistent(mci); } if (mci->mci_statfile != NULL) { fclose(mci->mci_statfile); mci->mci_statfile = NULL; } errno = saveErrno; } /* ** MCI_LOAD_PERSISTENT -- load persistent host info ** ** Load information about host that is kept ** in common for all running sendmails. ** ** Parameters: ** mci -- the host/connection to load persistent info ** for. ** ** Returns: ** none. */ void mci_load_persistent(mci) MCI *mci; { int saveErrno = errno; FILE *fp; char fname[MAXPATHLEN+1]; if (mci == NULL) { if (tTd(56, 1)) printf("mci_load_persistent: NULL mci\n"); return; } if (IgnoreHostStatus || HostStatDir == NULL || mci->mci_host == NULL) return; if (tTd(56, 1)) printf("mci_load_persistent: Attempting to load persistent information for %s\n", mci->mci_host); if (mci_generate_persistent_path(mci->mci_host, fname, sizeof fname, FALSE) < 0) { /* Not much we can do if the file isn't there... */ if (tTd(56, 1)) printf("mci_load_persistent: Couldn't generate host path\n"); goto cleanup; } fp = safefopen(fname, O_RDONLY, FileMode, SFF_NOLINK|SFF_OPENASROOT|SFF_REGONLY); if (fp == NULL) { /* I can't think of any reason this should ever happen */ if (tTd(56, 1)) printf("mci_load_persistent: open(%s): %s\n", fname, errstring(errno)); goto cleanup; } FileName = fname; (void) mci_read_persistent(fp, mci); FileName = NULL; fclose(fp); cleanup: errno = saveErrno; return; } /* ** MCI_READ_PERSISTENT -- read persistent host status file ** ** Parameters: ** fp -- the file pointer to read. ** mci -- the pointer to fill in. ** ** Returns: ** -1 -- if the file was corrupt. ** 0 -- otherwise. ** ** Warning: ** This code makes the assumption that this data ** will be read in an atomic fashion, and that the data ** was written in an atomic fashion. Any other functioning ** may lead to some form of insanity. This should be ** perfectly safe due to underlying stdio buffering. */ int mci_read_persistent(fp, mci) FILE *fp; register MCI *mci; { int ver; register char *p; int saveLineNumber = LineNumber; char buf[MAXLINE]; if (fp == NULL) syserr("mci_read_persistent: NULL fp"); if (mci == NULL) syserr("mci_read_persistent: NULL mci"); if (tTd(56, 93)) { printf("mci_read_persistent: fp=%lx, mci=", (u_long) fp); mci_dump(mci, FALSE); } mci->mci_status = NULL; if (mci->mci_rstatus != NULL) free(mci->mci_rstatus); mci->mci_rstatus = NULL; rewind(fp); ver = -1; LineNumber = 0; while (fgets(buf, sizeof buf, fp) != NULL) { LineNumber++; p = strchr(buf, '\n'); if (p != NULL) *p = '\0'; switch (buf[0]) { case 'V': /* version stamp */ ver = atoi(&buf[1]); if (ver < 0 || ver > 0) syserr("Unknown host status version %d: %d max", ver, 0); break; case 'E': /* UNIX error number */ mci->mci_errno = atoi(&buf[1]); break; case 'H': /* DNS error number */ mci->mci_herrno = atoi(&buf[1]); break; case 'S': /* UNIX exit status */ mci->mci_exitstat = atoi(&buf[1]); break; case 'D': /* DSN status */ mci->mci_status = newstr(&buf[1]); break; case 'R': /* SMTP status */ mci->mci_rstatus = newstr(&buf[1]); break; case 'U': /* last usage time */ mci->mci_lastuse = atol(&buf[1]); break; case '.': /* end of file */ return 0; default: syserr("Unknown host status line \"%s\"", buf); LineNumber = saveLineNumber; return -1; } } LineNumber = saveLineNumber; if (ver < 0) return -1; return 0; } /* ** MCI_STORE_PERSISTENT -- Store persistent MCI information ** ** Store information about host that is kept ** in common for all running sendmails. ** ** Parameters: ** mci -- the host/connection to store persistent info for. ** ** Returns: ** none. */ void mci_store_persistent(mci) MCI *mci; { int saveErrno = errno; if (mci == NULL) { if (tTd(56, 1)) printf("mci_store_persistent: NULL mci\n"); return; } if (HostStatDir == NULL || mci->mci_host == NULL) return; if (tTd(56, 1)) printf("mci_store_persistent: Storing information for %s\n", mci->mci_host); if (mci->mci_statfile == NULL) { if (tTd(56, 1)) printf("mci_store_persistent: no statfile\n"); return; } rewind(mci->mci_statfile); #if !NOFTRUNCATE (void) ftruncate(fileno(mci->mci_statfile), (off_t) 0); #endif fprintf(mci->mci_statfile, "V0\n"); fprintf(mci->mci_statfile, "E%d\n", mci->mci_errno); fprintf(mci->mci_statfile, "H%d\n", mci->mci_herrno); fprintf(mci->mci_statfile, "S%d\n", mci->mci_exitstat); if (mci->mci_status != NULL) fprintf(mci->mci_statfile, "D%.80s\n", denlstring(mci->mci_status, TRUE, FALSE)); if (mci->mci_rstatus != NULL) fprintf(mci->mci_statfile, "R%.80s\n", denlstring(mci->mci_rstatus, TRUE, FALSE)); fprintf(mci->mci_statfile, "U%ld\n", mci->mci_lastuse); fprintf(mci->mci_statfile, ".\n"); fflush(mci->mci_statfile); errno = saveErrno; return; } /* ** MCI_TRAVERSE_PERSISTENT -- walk persistent status tree ** ** Recursively find all the mci host files in `pathname'. Default to ** main host status directory if no path is provided. ** Call (*action)(pathname, host) for each file found. ** ** Note: all information is collected in a list before it is processed. ** This may not be the best way to do it, but it seems safest, since ** the file system would be touched while we are attempting to traverse ** the directory tree otherwise (during purges). ** ** Parameters: ** action -- function to call on each node. If returns < 0, ** return immediately. ** pathname -- root of tree. If null, use main host status ** directory. ** ** Returns: ** < 0 -- if any action routine returns a negative value, that ** value is returned. ** 0 -- if we successfully went to completion. */ int mci_traverse_persistent(action, pathname) int (*action)(); char *pathname; { struct stat statbuf; DIR *d; int ret; if (pathname == NULL) pathname = HostStatDir; if (pathname == NULL) return -1; if (tTd(56, 1)) printf("mci_traverse: pathname is %s\n", pathname); ret = stat(pathname, &statbuf); if (ret < 0) { if (tTd(56, 2)) printf("mci_traverse: Failed to stat %s: %s\n", pathname, errstring(errno)); return ret; } if (S_ISDIR(statbuf.st_mode)) { struct dirent *e; char *newptr; char newpath[MAXPATHLEN+1]; if ((d = opendir(pathname)) == NULL) { if (tTd(56, 2)) printf("mci_traverse: opendir %s: %s\n", pathname, errstring(errno)); return -1; } if (strlen(pathname) >= sizeof newpath - MAXNAMLEN - 3) { if (tTd(56, 2)) printf("mci_traverse: path \"%s\" too long", pathname); return -1; } strcpy(newpath, pathname); newptr = newpath + strlen(newpath); *newptr++ = '/'; while ((e = readdir(d)) != NULL) { if (e->d_name[0] == '.') continue; strncpy(newptr, e->d_name, sizeof newpath - (newptr - newpath) - 1); newpath[sizeof newpath - 1] = '\0'; ret = mci_traverse_persistent(action, newpath); if (ret < 0) break; /* ** The following appears to be ** necessary during purges, since ** we modify the directory structure */ if (action == mci_purge_persistent) rewinddir(d); } /* purge (or whatever) the directory proper */ *--newptr = '\0'; ret = (*action)(newpath, NULL); closedir(d); } else if (S_ISREG(statbuf.st_mode)) { char *end = pathname + strlen(pathname) - 1; char *start; char *scan; char host[MAXHOSTNAMELEN]; char *hostptr = host; /* ** Reconstruct the host name from the path to the ** persistent information. */ do { if (hostptr != host) *(hostptr++) = '.'; start = end; while (*(start - 1) != '/') start--; if (*end == '.') end--; for (scan = start; scan <= end; scan++) *(hostptr++) = *scan; end = start - 2; } while (*end == '.'); *hostptr = '\0'; /* ** Do something with the file containing the persistent ** information. */ ret = (*action)(pathname, host); } return ret; } /* ** MCI_PRINT_PERSISTENT -- print persisten info ** ** Dump the persistent information in the file 'pathname' ** ** Parameters: ** pathname -- the pathname to the status file. ** hostname -- the corresponding host name. ** ** Returns: ** 0 */ int mci_print_persistent(pathname, hostname) char *pathname; char *hostname; { static int initflag = FALSE; FILE *fp; int width = Verbose ? 78 : 25; bool locked; MCI mcib; /* skip directories */ if (hostname == NULL) return 0; if (!initflag) { initflag = TRUE; printf(" -------------- Hostname --------------- How long ago ---------Results---------\n"); } fp = safefopen(pathname, O_RDWR, FileMode, SFF_NOLOCK|SFF_NOLINK|SFF_OPENASROOT|SFF_REGONLY); if (fp == NULL) { if (tTd(56, 1)) printf("mci_print_persistent: cannot open %s: %s\n", pathname, errstring(errno)); return 0; } FileName = pathname; bzero(&mcib, sizeof mcib); if (mci_read_persistent(fp, &mcib) < 0) { syserr("%s: could not read status file", pathname); fclose(fp); FileName = NULL; return 0; } locked = !lockfile(fileno(fp), pathname, "", LOCK_EX|LOCK_NB); fclose(fp); FileName = NULL; printf("%c%-39s %12s ", locked ? '*' : ' ', hostname, pintvl(curtime() - mcib.mci_lastuse, TRUE)); if (mcib.mci_rstatus != NULL) printf("%.*s\n", width, mcib.mci_rstatus); else if (mcib.mci_exitstat == EX_TEMPFAIL && mcib.mci_errno != 0) printf("Deferred: %.*s\n", width - 10, errstring(mcib.mci_errno)); else if (mcib.mci_exitstat != 0) { int i = mcib.mci_exitstat - EX__BASE; extern int N_SysEx; extern char *SysExMsg[]; if (i < 0 || i > N_SysEx) { char buf[80]; snprintf(buf, sizeof buf, "Unknown mailer error %d", mcib.mci_exitstat); printf("%.*s\n", width, buf); } else printf("%.*s\n", width, &(SysExMsg[i])[5]); } else if (mcib.mci_errno == 0) printf("OK\n"); else printf("OK: %.*s\n", width - 4, errstring(mcib.mci_errno)); return 0; } /* ** MCI_PURGE_PERSISTENT -- Remove a persistence status file. ** ** Parameters: ** pathname -- path to the status file. ** hostname -- name of host corresponding to that file. ** NULL if this is a directory (domain). ** ** Returns: ** 0 */ int mci_purge_persistent(pathname, hostname) char *pathname; char *hostname; { char *end = pathname + strlen(pathname) - 1; if (tTd(56, 1)) printf("mci_purge_persistent: purging %s\n", pathname); if (hostname != NULL) { /* remove the file */ if (unlink(pathname) < 0) { if (tTd(56, 2)) printf("mci_purge_persistent: failed to unlink %s: %s\n", pathname, errstring(errno)); } } else { /* remove the directory */ if (*end != '.') return 0; if (tTd(56, 1)) printf("mci_purge_persistent: dpurge %s\n", pathname); if (rmdir(pathname) < 0) { if (tTd(56, 2)) printf("mci_purge_persistent: rmdir %s: %s\n", pathname, errstring(errno)); } } return 0; } /* ** MCI_GENERATE_PERSISTENT_PATH -- generate path from hostname ** ** Given `host', convert from a.b.c to $QueueDir/.hoststat/c./b./a, ** putting the result into `path'. if `createflag' is set, intervening ** directories will be created as needed. ** ** Parameters: ** host -- host name to convert from. ** path -- place to store result. ** pathlen -- length of path buffer. ** createflag -- if set, create intervening directories as ** needed. ** ** Returns: ** 0 -- success ** -1 -- failure */ int mci_generate_persistent_path(host, path, pathlen, createflag) const char *host; char *path; int pathlen; bool createflag; { char *elem, *p, *x, ch; int ret = 0; int len; char t_host[MAXHOSTNAMELEN]; /* ** Rationality check the arguments. */ if (host == NULL) { syserr("mci_generate_persistent_path: null host"); return -1; } if (path == NULL) { syserr("mci_generate_persistent_path: null path"); return -1; } if (tTd(56, 80)) printf("mci_generate_persistent_path(%s): ", host); if (*host == '\0') return -1; /* make certain this is not a bracketed host number */ if (strlen(host) > sizeof t_host - 1) return -1; if (host[0] == '[') strcpy(t_host, host + 1); else strcpy(t_host, host); /* ** Delete any trailing dots from the hostname. ** Leave 'elem' pointing at the \0. */ elem = t_host + strlen(t_host); while (elem > t_host && (elem[-1] == '.' || (host[0] == '[' && elem[-1] == ']'))) *--elem = '\0'; /* check for what will be the final length of the path */ len = strlen(HostStatDir) + 2; for (p = (char *) host; *p != '\0'; p++) { if (*p == '|' || *p == '.') len++; len++; if (p[0] == '.' && p[1] == '.') return -1; } if (len > pathlen) return -1; strcpy(path, HostStatDir); p = path + strlen(path); while (elem > t_host) { if (!path_is_dir(path, createflag)) { ret = -1; break; } elem--; while (elem >= t_host && *elem != '.') elem--; *p++ = '/'; x = elem + 1; while ((ch = *x++) != '\0' && ch != '.') { if (isupper(ch)) ch = tolower(ch); if (ch == '|') *p++ = '|'; /* | -> || */ else if (ch == '/') ch = '|'; /* / -> | */ *p++ = ch; } if (elem >= t_host) *p++ = '.'; *p = '\0'; } if (tTd(56, 80)) { if (ret < 0) printf("FAILURE %d\n", ret); else printf("SUCCESS %s\n", path); } return (ret); }